infinityofspace/python_codestyles-random-500

code stringlengths 87 55.2k	code_codestyle int64 0 349	style_context stringlengths 135 49.1k	style_context_codestyle int64 0 349
import math import tensorflow as tf from packaging import version def _a ( a :Any ) -> Union[str, Any]: a = tf.convert_to_tensor(a ) a = 0.5 * (1.0 + tf.math.erf(x / tf.cast(tf.sqrt(2.0 ) , x.dtype ) )) return x * cdf def _a ( a :Union[str, Any] ) -> Union[str, Any]: a = tf.convert_to_tensor(a ) a = tf.cast(math.pi , x.dtype ) a = tf.cast(0.044_715 , x.dtype ) a = 0.5 * (1.0 + tf.tanh(tf.sqrt(2.0 / pi ) * (x + coeff * tf.pow(a , 3 )) )) return x * cdf def _a ( a :List[Any] ) -> Optional[int]: a = tf.convert_to_tensor(a ) return x * tf.tanh(tf.math.softplus(a ) ) def _a ( a :Union[str, Any] ) -> Tuple: a = tf.convert_to_tensor(a ) a = tf.cast(0.044_715 , x.dtype ) a = tf.cast(0.7_978_845_608 , x.dtype ) return 0.5 * x * (1.0 + tf.tanh(x * coeffa * (1.0 + coeffa * x * x) )) def _a ( a :Union[str, Any] ) -> Optional[Any]: a = tf.convert_to_tensor(a ) a = tf.cast(1.702 , x.dtype ) return x * tf.math.sigmoid(coeff * x ) def _a ( a :List[str] ) -> List[str]: return tf.clip_by_value(_gelu(a ) , -10 , 10 ) def _a ( a :Dict , a :Optional[Any]=-1 ) -> Union[str, Any]: a , a = tf.split(a , 2 , axis=a ) return a * tf.math.sigmoid(a ) if version.parse(tf.version.VERSION) >= version.parse("2.4"): def _a ( a :int ) -> List[str]: return tf.keras.activations.gelu(a , approximate=a ) UpperCAmelCase__ = tf.keras.activations.gelu UpperCAmelCase__ = approximate_gelu_wrap else: UpperCAmelCase__ = _gelu UpperCAmelCase__ = _gelu_new UpperCAmelCase__ = { "gelu": gelu, "gelu_10": gelu_aa, "gelu_fast": gelu_fast, "gelu_new": gelu_new, "glu": glu, "mish": mish, "quick_gelu": quick_gelu, "relu": tf.keras.activations.relu, "sigmoid": tf.keras.activations.sigmoid, "silu": tf.keras.activations.swish, "swish": tf.keras.activations.swish, "tanh": tf.keras.activations.tanh, } def _a ( a :Dict ) -> List[Any]: if activation_string in ACTaFN: return ACTaFN[activation_string] else: raise KeyError(F"""function {activation_string} not found in ACT2FN mapping {list(ACTaFN.keys() )}""" )	0	"""simple docstring""" import inspect import unittest import numpy as np from tests.test_modeling_common import floats_tensor from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel if is_vision_available(): from transformers import MaskFormerImageProcessor if is_vision_available(): from PIL import Image class __snake_case : def __init__( self : Tuple , __lowerCAmelCase : Tuple , __lowerCAmelCase : Any=2 , __lowerCAmelCase : Any=True , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Optional[Any]=1_0 , __lowerCAmelCase : List[str]=3 , __lowerCAmelCase : int=3_2 * 4 , __lowerCAmelCase : Dict=3_2 * 6 , __lowerCAmelCase : Any=4 , __lowerCAmelCase : List[str]=3_2 , ): """simple docstring""" _lowerCamelCase : List[str] = parent _lowerCamelCase : str = batch_size _lowerCamelCase : Dict = is_training _lowerCamelCase : str = use_auxiliary_loss _lowerCamelCase : Any = num_queries _lowerCamelCase : List[Any] = num_channels _lowerCamelCase : int = min_size _lowerCamelCase : Any = max_size _lowerCamelCase : int = num_labels _lowerCamelCase : List[str] = mask_feature_size def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size] ).to( __lowerCAmelCase ) _lowerCamelCase : List[Any] = torch.ones([self.batch_size, self.min_size, self.max_size] , device=__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = ( torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=__lowerCAmelCase ) > 0.5 ).float() _lowerCamelCase : Optional[int] = (torch.rand((self.batch_size, self.num_labels) , device=__lowerCAmelCase ) > 0.5).long() _lowerCamelCase : Dict = self.get_config() return config, pixel_values, pixel_mask, mask_labels, class_labels def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" return MaskFormerConfig.from_backbone_and_decoder_configs( backbone_config=SwinConfig( depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig( decoder_ffn_dim=1_2_8 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : Dict = self.prepare_config_and_inputs() _lowerCamelCase : List[str] = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask} return config, inputs_dict def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = output.encoder_hidden_states _lowerCamelCase : Tuple = output.pixel_decoder_hidden_states _lowerCamelCase : Dict = output.transformer_decoder_hidden_states self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , config.decoder_config.decoder_layers ) def SCREAMING_SNAKE_CASE ( self : Tuple , __lowerCAmelCase : Dict , __lowerCAmelCase : str , __lowerCAmelCase : Tuple , __lowerCAmelCase : List[Any]=False ): """simple docstring""" with torch.no_grad(): _lowerCamelCase : Optional[int] = MaskFormerModel(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() _lowerCamelCase : Tuple = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) # the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the # encoder and pixel decoder self.parent.assertEqual( output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , ) # let's ensure the other two hidden state exists self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(output.encoder_last_hidden_state is not None ) if output_hidden_states: self.check_output_hidden_state(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = MaskFormerForInstanceSegmentation(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() def comm_check_on_output(__lowerCAmelCase : Dict ): # let's still check that all the required stuff is there self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.encoder_last_hidden_state is not None ) # okay, now we need to check the logits shape # due to the encoder compression, masks have a //4 spatial size self.parent.assertEqual( result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , ) # + 1 for null class self.parent.assertEqual( result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1) ) with torch.no_grad(): _lowerCamelCase : str = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) _lowerCamelCase : List[str] = model( pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) self.parent.assertTrue(result.loss is not None ) self.parent.assertEqual(result.loss.shape , torch.Size([1] ) ) @require_torch class __snake_case ( _lowercase , _lowercase , unittest.TestCase): snake_case__ : Dict = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else () snake_case__ : Any = ( {"feature-extraction": MaskFormerModel, "image-segmentation": MaskFormerForInstanceSegmentation} if is_torch_available() else {} ) snake_case__ : List[str] = False snake_case__ : List[str] = False snake_case__ : Optional[int] = False snake_case__ : Dict = False def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = MaskFormerModelTester(self ) _lowerCamelCase : Optional[Any] = ConfigTester(self , config_class=__lowerCAmelCase , has_text_modality=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Dict = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , *__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(__lowerCAmelCase ) @unittest.skip(reason='''MaskFormer does not use inputs_embeds''' ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''' ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer is not a generative model''' ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not use token embeddings''' ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" pass @require_torch_multi_gpu @unittest.skip( reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''' ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" pass @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : str = model_class(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCamelCase : Dict = [signature.parameters.keys()] _lowerCamelCase : Optional[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __lowerCAmelCase ) @slow def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" for model_name in ["facebook/maskformer-swin-small-coco"]: _lowerCamelCase : Union[str, Any] = MaskFormerModel.from_pretrained(__lowerCAmelCase ) self.assertIsNotNone(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = (self.model_tester.min_size,) 2 _lowerCamelCase : Union[str, Any] = { '''pixel_values''': torch.randn((2, 3, size) , device=__lowerCAmelCase ), '''mask_labels''': torch.randn((2, 1_0, size) , device=__lowerCAmelCase ), '''class_labels''': torch.zeros(2 , 1_0 , device=__lowerCAmelCase ).long(), } _lowerCamelCase : int = MaskFormerForInstanceSegmentation(MaskFormerConfig() ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = model(__lowerCAmelCase ) self.assertTrue(outputs.loss is not None ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : List[str] = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , __lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : List[Any] = model_class(__lowerCAmelCase ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_attentions=__lowerCAmelCase ) self.assertTrue(outputs.attentions is not None ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" if not self.model_tester.is_training: return # only MaskFormerForInstanceSegmentation has the loss _lowerCamelCase : Union[str, Any] = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : int = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : Any = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : List[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ).loss loss.backward() def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : int = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : str = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : List[str] = True _lowerCamelCase : Optional[int] = True _lowerCamelCase : Optional[Any] = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) _lowerCamelCase : List[Any] = outputs.encoder_hidden_states[0] encoder_hidden_states.retain_grad() _lowerCamelCase : Tuple = outputs.pixel_decoder_hidden_states[0] pixel_decoder_hidden_states.retain_grad() # we requires_grad=True in inputs_embeds (line 2152), the original implementation don't _lowerCamelCase : List[str] = outputs.transformer_decoder_hidden_states[0] transformer_decoder_hidden_states.retain_grad() _lowerCamelCase : Optional[int] = outputs.attentions[0] attentions.retain_grad() outputs.loss.backward(retain_graph=__lowerCAmelCase ) self.assertIsNotNone(encoder_hidden_states.grad ) self.assertIsNotNone(pixel_decoder_hidden_states.grad ) self.assertIsNotNone(transformer_decoder_hidden_states.grad ) self.assertIsNotNone(attentions.grad ) lowerCAmelCase__ = 1E-4 def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_vision @slow class __snake_case ( unittest.TestCase): @cached_property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return ( MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''' ) if is_vision_available() else None ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : str = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = self.default_image_processor _lowerCamelCase : List[Any] = prepare_img() _lowerCamelCase : Any = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : int = model(__lowerCAmelCase ) _lowerCamelCase : str = torch.tensor( [[-0.04_82, 0.92_28, 0.49_51], [-0.25_47, 0.80_17, 0.85_27], [-0.00_69, 0.33_85, -0.00_89]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.encoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Union[str, Any] = torch.tensor( [[-0.84_22, -0.84_34, -0.97_18], [-1.01_44, -0.55_65, -0.41_95], [-1.00_38, -0.44_84, -0.19_61]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Optional[int] = torch.tensor( [[0.28_52, -0.01_59, 0.97_35], [0.62_54, 0.18_58, 0.85_29], [-0.06_80, -0.41_16, 1.84_13]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.transformer_decoder_last_hidden_state[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[int] = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : str = prepare_img() _lowerCamelCase : int = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[int] = model(__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : Optional[int] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : List[str] = [ [-1.3_73_71_24, -1.7_72_49_37, -1.9_36_42_33], [-1.5_97_72_81, -1.9_86_79_39, -2.1_52_36_95], [-1.5_79_53_98, -1.9_26_98_32, -2.09_39_42], ] _lowerCamelCase : Any = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : List[Any] = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : str = torch.tensor( [ [1.6512E00, -5.2572E00, -3.3519E00], [3.6169E-02, -5.9025E00, -2.9313E00], [1.0766E-04, -7.7630E00, -5.1263E00], ] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Any = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : Tuple = self.default_image_processor _lowerCamelCase : Tuple = prepare_img() _lowerCamelCase : Optional[Any] = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : List[Any] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : int = [[-0.90_46, -2.63_66, -4.60_62], [-3.41_79, -5.78_90, -8.80_57], [-4.91_79, -7.65_60, -10.77_11]] _lowerCamelCase : List[Any] = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : Dict = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : Any = torch.tensor( [[4.71_88, -3.25_85, -2.88_57], [6.68_71, -2.91_81, -1.24_87], [7.24_49, -2.27_64, -2.18_74]] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : List[str] = image_processor( [np.zeros((3, 8_0_0, 1_3_3_3) ), np.zeros((3, 8_0_0, 1_3_3_3) )] , segmentation_maps=[np.zeros((3_8_4, 3_8_4) ).astype(np.floataa ), np.zeros((3_8_4, 3_8_4) ).astype(np.floataa )] , return_tensors='''pt''' , ) _lowerCamelCase : Union[str, Any] = inputs['''pixel_values'''].to(__lowerCAmelCase ) _lowerCamelCase : Dict = [el.to(__lowerCAmelCase ) for el in inputs['''mask_labels''']] _lowerCamelCase : Optional[Any] = [el.to(__lowerCAmelCase ) for el in inputs['''class_labels''']] with torch.no_grad(): _lowerCamelCase : Tuple = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None )	72
'''simple docstring''' import json import os import unittest from transformers.models.biogpt.tokenization_biogpt import VOCAB_FILES_NAMES, BioGptTokenizer from transformers.testing_utils import slow from ...test_tokenization_common import TokenizerTesterMixin class __A ( UpperCamelCase__ , unittest.TestCase ): a__ : List[str] = BioGptTokenizer a__ : int = False def _lowercase (self : Optional[Any] ): super().setUp() # Adapted from Sennrich et al. 2015 and https://github.com/rsennrich/subword-nmt UpperCAmelCase_ = [ "l", "o", "w", "e", "r", "s", "t", "i", "d", "n", "w</w>", "r</w>", "t</w>", "lo", "low", "er</w>", "low</w>", "lowest</w>", "newer</w>", "wider</w>", "<unk>", ] UpperCAmelCase_ = dict(zip(__a , range(len(__a ) ) ) ) UpperCAmelCase_ = ["l o 123", "lo w 1456", "e r</w> 1789", ""] UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["vocab_file"] ) UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["merges_file"] ) with open(self.vocab_file , "w" ) as fp: fp.write(json.dumps(__a ) ) with open(self.merges_file , "w" ) as fp: fp.write("\n".join(__a ) ) def _lowercase (self : Union[str, Any] , __a : List[Any] ): UpperCAmelCase_ = "lower newer" UpperCAmelCase_ = "lower newer" return input_text, output_text def _lowercase (self : str ): UpperCAmelCase_ = BioGptTokenizer(self.vocab_file , self.merges_file ) UpperCAmelCase_ = "lower" UpperCAmelCase_ = ["low", "er</w>"] UpperCAmelCase_ = tokenizer.tokenize(__a ) self.assertListEqual(__a , __a ) UpperCAmelCase_ = tokens + ["<unk>"] UpperCAmelCase_ = [14, 15, 20] self.assertListEqual(tokenizer.convert_tokens_to_ids(__a ) , __a ) @slow def _lowercase (self : Union[str, Any] ): UpperCAmelCase_ = BioGptTokenizer.from_pretrained("microsoft/biogpt" ) UpperCAmelCase_ = tokenizer.encode("sequence builders" , add_special_tokens=__a ) UpperCAmelCase_ = tokenizer.encode("multi-sequence build" , add_special_tokens=__a ) UpperCAmelCase_ = tokenizer.build_inputs_with_special_tokens(__a ) UpperCAmelCase_ = tokenizer.build_inputs_with_special_tokens(__a , __a ) self.assertTrue(encoded_sentence == [2] + text ) self.assertTrue(encoded_pair == [2] + text + [2] + text_a )	1	"""simple docstring""" lowerCAmelCase__ = { '''A''': ['''B''', '''C''', '''E'''], '''B''': ['''A''', '''D''', '''E'''], '''C''': ['''A''', '''F''', '''G'''], '''D''': ['''B'''], '''E''': ['''A''', '''B''', '''D'''], '''F''': ['''C'''], '''G''': ['''C'''], } def snake_case_ ( A_ : dict, A_ : int, A_ : int ): '''simple docstring''' _lowerCamelCase : List[str] = set() # keep track of all the paths to be checked _lowerCamelCase : str = [[start]] # return path if start is goal if start == goal: return [start] # keeps looping until all possible paths have been checked while queue: # pop the first path from the queue _lowerCamelCase : str = queue.pop(0 ) # get the last node from the path _lowerCamelCase : List[Any] = path[-1] if node not in explored: _lowerCamelCase : Union[str, Any] = graph[node] # go through all neighbour nodes, construct a new path and # push it into the queue for neighbour in neighbours: _lowerCamelCase : Union[str, Any] = list(A_ ) new_path.append(A_ ) queue.append(A_ ) # return path if neighbour is goal if neighbour == goal: return new_path # mark node as explored explored.add(A_ ) # in case there's no path between the 2 nodes return [] def snake_case_ ( A_ : dict, A_ : int, A_ : Dict ): '''simple docstring''' if not graph or start not in graph or target not in graph: return -1 if start == target: return 0 _lowerCamelCase : Optional[int] = [start] _lowerCamelCase : int = set(A_ ) # Keep tab on distances from `start` node. _lowerCamelCase : int = {start: 0, target: -1} while queue: _lowerCamelCase : Optional[Any] = queue.pop(0 ) if node == target: _lowerCamelCase : Any = ( dist[node] if dist[target] == -1 else min(dist[target], dist[node] ) ) for adjacent in graph[node]: if adjacent not in visited: visited.add(A_ ) queue.append(A_ ) _lowerCamelCase : Any = dist[node] + 1 return dist[target] if __name__ == "__main__": print(bfs_shortest_path(demo_graph, '''G''', '''D''')) # returns ['G', 'C', 'A', 'B', 'D'] print(bfs_shortest_path_distance(demo_graph, '''G''', '''D''')) # returns 4	72
'''simple docstring''' def _SCREAMING_SNAKE_CASE (A , A ) -> List[str]: """simple docstring""" _enforce_args(A , A ) if n == 0: return 0 lowercase__ = float('''-inf''' ) for i in range(1 , n + 1 ): lowercase__ = max( A , prices[i - 1] + naive_cut_rod_recursive(n - i , A ) ) return max_revue def _SCREAMING_SNAKE_CASE (A , A ) -> Dict: """simple docstring""" _enforce_args(A , A ) lowercase__ = [float('''-inf''' ) for _ in range(n + 1 )] return _top_down_cut_rod_recursive(A , A , A ) def _SCREAMING_SNAKE_CASE (A , A , A ) -> List[Any]: """simple docstring""" if max_rev[n] >= 0: return max_rev[n] elif n == 0: return 0 else: lowercase__ = float('''-inf''' ) for i in range(1 , n + 1 ): lowercase__ = max( A , prices[i - 1] + _top_down_cut_rod_recursive(n - i , A , A ) , ) lowercase__ = max_revenue return max_rev[n] def _SCREAMING_SNAKE_CASE (A , A ) -> Any: """simple docstring""" _enforce_args(A , A ) # length(max_rev) = n + 1, to accommodate for the revenue obtainable from a rod of # length 0. lowercase__ = [float('''-inf''' ) for _ in range(n + 1 )] lowercase__ = 0 for i in range(1 , n + 1 ): lowercase__ = max_rev[i] for j in range(1 , i + 1 ): lowercase__ = max(A , prices[j - 1] + max_rev[i - j] ) lowercase__ = max_revenue_i return max_rev[n] def _SCREAMING_SNAKE_CASE (A , A ) -> Union[str, Any]: """simple docstring""" if n < 0: lowercase__ = f"n must be greater than or equal to 0. Got n = {n}" raise ValueError(A ) if n > len(A ): lowercase__ = ( '''Each integral piece of rod must have a corresponding price. ''' f"Got n = {n} but length of prices = {len(A )}" ) raise ValueError(A ) def _SCREAMING_SNAKE_CASE () -> Any: """simple docstring""" lowercase__ = [6, 10, 12, 15, 20, 23] lowercase__ = len(A ) # the best revenue comes from cutting the rod into 6 pieces, each # of length 1 resulting in a revenue of 6 * 6 = 36. lowercase__ = 36 lowercase__ = top_down_cut_rod(A , A ) lowercase__ = bottom_up_cut_rod(A , A ) lowercase__ = naive_cut_rod_recursive(A , A ) assert expected_max_revenue == max_rev_top_down assert max_rev_top_down == max_rev_bottom_up assert max_rev_bottom_up == max_rev_naive if __name__ == "__main__": main()	2	"""simple docstring""" import argparse import torch from transformers import LxmertConfig, LxmertForPreTraining, load_tf_weights_in_lxmert from transformers.utils import logging logging.set_verbosity_info() def snake_case_ ( A_ : Tuple, A_ : int, A_ : Dict ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = LxmertConfig.from_json_file(A_ ) print(F'''Building PyTorch model from configuration: {config}''' ) _lowerCamelCase : List[str] = LxmertForPreTraining(A_ ) # Load weights from tf checkpoint load_tf_weights_in_lxmert(A_, A_, A_ ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) torch.save(model.state_dict(), A_ ) if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained model. \nThis specifies the model architecture.''', ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) lowerCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)	72
'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_squeezebert import SqueezeBertTokenizer lowercase : Tuple = logging.get_logger(__name__) lowercase : Optional[Any] = {'vocab_file': 'vocab.txt', 'tokenizer_file': 'tokenizer.json'} lowercase : Union[str, Any] = { 'vocab_file': { 'squeezebert/squeezebert-uncased': ( 'https://huggingface.co/squeezebert/squeezebert-uncased/resolve/main/vocab.txt' ), 'squeezebert/squeezebert-mnli': 'https://huggingface.co/squeezebert/squeezebert-mnli/resolve/main/vocab.txt', 'squeezebert/squeezebert-mnli-headless': ( 'https://huggingface.co/squeezebert/squeezebert-mnli-headless/resolve/main/vocab.txt' ), }, 'tokenizer_file': { 'squeezebert/squeezebert-uncased': ( 'https://huggingface.co/squeezebert/squeezebert-uncased/resolve/main/tokenizer.json' ), 'squeezebert/squeezebert-mnli': ( 'https://huggingface.co/squeezebert/squeezebert-mnli/resolve/main/tokenizer.json' ), 'squeezebert/squeezebert-mnli-headless': ( 'https://huggingface.co/squeezebert/squeezebert-mnli-headless/resolve/main/tokenizer.json' ), }, } lowercase : List[str] = { 'squeezebert/squeezebert-uncased': 5_12, 'squeezebert/squeezebert-mnli': 5_12, 'squeezebert/squeezebert-mnli-headless': 5_12, } lowercase : List[str] = { 'squeezebert/squeezebert-uncased': {'do_lower_case': True}, 'squeezebert/squeezebert-mnli': {'do_lower_case': True}, 'squeezebert/squeezebert-mnli-headless': {'do_lower_case': True}, } class A ( __snake_case ): __magic_name__ = VOCAB_FILES_NAMES __magic_name__ = PRETRAINED_VOCAB_FILES_MAP __magic_name__ = PRETRAINED_INIT_CONFIGURATION __magic_name__ = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __magic_name__ = SqueezeBertTokenizer def __init__( self , SCREAMING_SNAKE_CASE=None , SCREAMING_SNAKE_CASE=None , SCREAMING_SNAKE_CASE=True , SCREAMING_SNAKE_CASE="[UNK]" , SCREAMING_SNAKE_CASE="[SEP]" , SCREAMING_SNAKE_CASE="[PAD]" , SCREAMING_SNAKE_CASE="[CLS]" , SCREAMING_SNAKE_CASE="[MASK]" , SCREAMING_SNAKE_CASE=True , SCREAMING_SNAKE_CASE=None , SCREAMING_SNAKE_CASE , ) -> int: """simple docstring""" super().__init__( SCREAMING_SNAKE_CASE , tokenizer_file=SCREAMING_SNAKE_CASE , do_lower_case=SCREAMING_SNAKE_CASE , unk_token=SCREAMING_SNAKE_CASE , sep_token=SCREAMING_SNAKE_CASE , pad_token=SCREAMING_SNAKE_CASE , cls_token=SCREAMING_SNAKE_CASE , mask_token=SCREAMING_SNAKE_CASE , tokenize_chinese_chars=SCREAMING_SNAKE_CASE , strip_accents=SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , ) A : int = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get('''lowercase''' , SCREAMING_SNAKE_CASE ) != do_lower_case or normalizer_state.get('''strip_accents''' , SCREAMING_SNAKE_CASE ) != strip_accents or normalizer_state.get('''handle_chinese_chars''' , SCREAMING_SNAKE_CASE ) != tokenize_chinese_chars ): A : Union[str, Any] = getattr(SCREAMING_SNAKE_CASE , normalizer_state.pop('''type''' ) ) A : Dict = do_lower_case A : Dict = strip_accents A : Any = tokenize_chinese_chars A : Optional[int] = normalizer_class(*SCREAMING_SNAKE_CASE ) A : str = do_lower_case def __lowerCAmelCase ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE=None ) -> Optional[Any]: """simple docstring""" A : List[str] = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def __lowerCAmelCase ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None ) -> List[int]: """simple docstring""" A : Union[str, Any] = [self.sep_token_id] A : Dict = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def __lowerCAmelCase ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None ) -> Tuple[str]: """simple docstring""" A : str = self._tokenizer.model.save(SCREAMING_SNAKE_CASE , name=SCREAMING_SNAKE_CASE ) return tuple(SCREAMING_SNAKE_CASE )	3	"""simple docstring""" from collections import defaultdict from graphs.minimum_spanning_tree_prims import prisms_algorithm as mst def snake_case_ ( ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : int = 9, 14 # noqa: F841 _lowerCamelCase : List[Any] = [ [0, 1, 4], [0, 7, 8], [1, 2, 8], [7, 8, 7], [7, 6, 1], [2, 8, 2], [8, 6, 6], [2, 3, 7], [2, 5, 4], [6, 5, 2], [3, 5, 14], [3, 4, 9], [5, 4, 10], [1, 7, 11], ] _lowerCamelCase : Any = defaultdict(A_ ) for nodea, nodea, cost in edges: adjancency[nodea].append([nodea, cost] ) adjancency[nodea].append([nodea, cost] ) _lowerCamelCase : List[str] = mst(A_ ) _lowerCamelCase : Optional[int] = [ [7, 6, 1], [2, 8, 2], [6, 5, 2], [0, 1, 4], [2, 5, 4], [2, 3, 7], [0, 7, 8], [3, 4, 9], ] for answer in expected: _lowerCamelCase : int = tuple(answer[:2] ) _lowerCamelCase : int = tuple(edge[::-1] ) assert edge in result or reverse in result	72
'''simple docstring''' def a_ ( lowerCamelCase : list ): if len(lowerCamelCase ) <= 1: return [tuple(lowerCamelCase )] lowerCAmelCase = [] def generate(lowerCamelCase : int , lowerCamelCase : list ): if k == 1: res.append(tuple(arr[:] ) ) return generate(k - 1 , lowerCamelCase ) for i in range(k - 1 ): if k % 2 == 0: # k is even lowerCAmelCase , lowerCAmelCase = arr[k - 1], arr[i] else: # k is odd lowerCAmelCase , lowerCAmelCase = arr[k - 1], arr[0] generate(k - 1 , lowerCamelCase ) generate(len(lowerCamelCase ) , lowerCamelCase ) return res if __name__ == "__main__": __snake_case =input("""Enter numbers separated by a comma:\n""").strip() __snake_case =[int(item) for item in user_input.split(""",""")] print(heaps(arr))	4	"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt''', '''tokenizer_file''': '''tokenizer.json'''} # See all BART models at https://huggingface.co/models?filter=bart lowerCAmelCase__ = { '''vocab_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/vocab.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/vocab.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json''', }, '''merges_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/merges.txt''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/merges.txt''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt''', }, '''tokenizer_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1024, '''facebook/bart-large''': 1024, '''facebook/bart-large-mnli''': 1024, '''facebook/bart-large-cnn''': 1024, '''facebook/bart-large-xsum''': 1024, '''yjernite/bart_eli5''': 1024, } class __snake_case ( _lowercase): snake_case__ : Any = VOCAB_FILES_NAMES snake_case__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP snake_case__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES snake_case__ : Optional[int] = ["input_ids", "attention_mask"] snake_case__ : Any = BartTokenizer def __init__( self : int , __lowerCAmelCase : Dict=None , __lowerCAmelCase : int=None , __lowerCAmelCase : Dict=None , __lowerCAmelCase : List[Any]="replace" , __lowerCAmelCase : Any="<s>" , __lowerCAmelCase : Optional[int]="</s>" , __lowerCAmelCase : str="</s>" , __lowerCAmelCase : Dict="<s>" , __lowerCAmelCase : Union[str, Any]="<unk>" , __lowerCAmelCase : Any="<pad>" , __lowerCAmelCase : Optional[Any]="<mask>" , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Dict=True , __lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__( __lowerCAmelCase , __lowerCAmelCase , tokenizer_file=__lowerCAmelCase , errors=__lowerCAmelCase , bos_token=__lowerCAmelCase , eos_token=__lowerCAmelCase , sep_token=__lowerCAmelCase , cls_token=__lowerCAmelCase , unk_token=__lowerCAmelCase , pad_token=__lowerCAmelCase , mask_token=__lowerCAmelCase , add_prefix_space=__lowerCAmelCase , trim_offsets=__lowerCAmelCase , __lowerCAmelCase , ) _lowerCamelCase : Tuple = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = getattr(__lowerCAmelCase , pre_tok_state.pop('''type''' ) ) _lowerCamelCase : Any = add_prefix_space _lowerCamelCase : int = pre_tok_class(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _lowerCamelCase : List[str] = '''post_processor''' _lowerCamelCase : List[str] = getattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) if tokenizer_component_instance: _lowerCamelCase : int = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _lowerCamelCase : Tuple = tuple(state['''sep'''] ) if "cls" in state: _lowerCamelCase : int = tuple(state['''cls'''] ) _lowerCamelCase : Union[str, Any] = False if state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = add_prefix_space _lowerCamelCase : Optional[Any] = True if state.get('''trim_offsets''' , __lowerCAmelCase ) != trim_offsets: _lowerCamelCase : Any = trim_offsets _lowerCamelCase : str = True if changes_to_apply: _lowerCamelCase : List[str] = getattr(__lowerCAmelCase , state.pop('''type''' ) ) _lowerCamelCase : str = component_class(__lowerCAmelCase ) setattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) @property def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : int ): """simple docstring""" _lowerCamelCase : Tuple = AddedToken(__lowerCAmelCase , lstrip=__lowerCAmelCase , rstrip=__lowerCAmelCase ) if isinstance(__lowerCAmelCase , __lowerCAmelCase ) else value _lowerCamelCase : str = value def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Dict = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._batch_encode_plus(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : Tuple , *__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Any = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._encode_plus(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[str] = None ): """simple docstring""" _lowerCamelCase : Tuple = self._tokenizer.model.save(__lowerCAmelCase , name=__lowerCAmelCase ) return tuple(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : Dict , __lowerCAmelCase : List[str]=None ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : List[int] , __lowerCAmelCase : Optional[List[int]] = None ): """simple docstring""" _lowerCamelCase : List[str] = [self.sep_token_id] _lowerCamelCase : Tuple = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]	72
def UpperCAmelCase_ ( __snake_case ) -> str: """simple docstring""" _lowercase =0 # if input_string is "aba" than new_input_string become "a\|b\|a" _lowercase ='''''' _lowercase ='''''' # append each character + "\|" in new_string for range(0, length-1) for i in input_string[: len(__snake_case ) - 1]: new_input_string += i + "\|" # append last character new_input_string += input_string[-1] # we will store the starting and ending of previous furthest ending palindromic # substring _lowercase , _lowercase =0, 0 # length[i] shows the length of palindromic substring with center i _lowercase =[1 for i in range(len(__snake_case ) )] # for each character in new_string find corresponding palindromic string _lowercase =0 for j in range(len(__snake_case ) ): _lowercase =1 if j > r else min(length[l + r - j] // 2 , r - j + 1 ) while ( j - k >= 0 and j + k < len(__snake_case ) and new_input_string[k + j] == new_input_string[j - k] ): k += 1 _lowercase =2 * k - 1 # does this string is ending after the previously explored end (that is r) ? # if yes the update the new r to the last index of this if j + k - 1 > r: _lowercase =j - k + 1 # noqa: E741 _lowercase =j + k - 1 # update max_length and start position if max_length < length[j]: _lowercase =length[j] _lowercase =j # create that string _lowercase =new_input_string[start - max_length // 2 : start + max_length // 2 + 1] for i in s: if i != "\|": output_string += i return output_string if __name__ == "__main__": import doctest doctest.testmod()	5	"""simple docstring""" from __future__ import annotations def snake_case_ ( A_ : str ): '''simple docstring''' return [ord(A_ ) - 96 for elem in plain] def snake_case_ ( A_ : list[int] ): '''simple docstring''' return "".join(chr(elem + 96 ) for elem in encoded ) def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Dict = encode(input('''-> ''' ).strip().lower() ) print('''Encoded: ''', A_ ) print('''Decoded:''', decode(A_ ) ) if __name__ == "__main__": main()	72
import unittest from transformers import load_tool from .test_tools_common import ToolTesterMixin A : Tuple = '\nHugging Face was founded in 2016 by French entrepreneurs Clément Delangue, Julien Chaumond, and Thomas Wolf originally as a company that developed a chatbot app targeted at teenagers.[2] After open-sourcing the model behind the chatbot, the company pivoted to focus on being a platform for machine learning.\n\nIn March 2021, Hugging Face raised $40 million in a Series B funding round.[3]\n\nOn April 28, 2021, the company launched the BigScience Research Workshop in collaboration with several other research groups to release an open large language model.[4] In 2022, the workshop concluded with the announcement of BLOOM, a multilingual large language model with 176 billion parameters.[5]\n' class __A( unittest.TestCase , a ): def SCREAMING_SNAKE_CASE_ ( self ) -> int: '''simple docstring''' __a = load_tool('''text-question-answering''' ) self.tool.setup() __a = load_tool('''text-question-answering''' , remote=_snake_case ) def SCREAMING_SNAKE_CASE_ ( self ) -> Optional[Any]: '''simple docstring''' __a = self.tool(_snake_case , '''What did Hugging Face do in April 2021?''' ) self.assertEqual(_snake_case , '''launched the BigScience Research Workshop''' ) def SCREAMING_SNAKE_CASE_ ( self ) -> Dict: '''simple docstring''' __a = self.remote_tool(_snake_case , '''What did Hugging Face do in April 2021?''' ) self.assertEqual(_snake_case , '''launched the BigScience Research Workshop''' ) def SCREAMING_SNAKE_CASE_ ( self ) -> Dict: '''simple docstring''' __a = self.tool(text=_snake_case , question='''What did Hugging Face do in April 2021?''' ) self.assertEqual(_snake_case , '''launched the BigScience Research Workshop''' ) def SCREAMING_SNAKE_CASE_ ( self ) -> Union[str, Any]: '''simple docstring''' __a = self.remote_tool(text=_snake_case , question='''What did Hugging Face do in April 2021?''' ) self.assertEqual(_snake_case , '''launched the BigScience Research Workshop''' )	6	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = { '''configuration_lxmert''': ['''LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LxmertConfig'''], '''tokenization_lxmert''': ['''LxmertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''LxmertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''LxmertEncoder''', '''LxmertForPreTraining''', '''LxmertForQuestionAnswering''', '''LxmertModel''', '''LxmertPreTrainedModel''', '''LxmertVisualFeatureEncoder''', '''LxmertXLayer''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFLxmertForPreTraining''', '''TFLxmertMainLayer''', '''TFLxmertModel''', '''TFLxmertPreTrainedModel''', '''TFLxmertVisualFeatureEncoder''', ] if TYPE_CHECKING: from .configuration_lxmert import LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, LxmertConfig from .tokenization_lxmert import LxmertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_lxmert_fast import LxmertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lxmert import ( LxmertEncoder, LxmertForPreTraining, LxmertForQuestionAnswering, LxmertModel, LxmertPreTrainedModel, LxmertVisualFeatureEncoder, LxmertXLayer, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_lxmert import ( TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFLxmertForPreTraining, TFLxmertMainLayer, TFLxmertModel, TFLxmertPreTrainedModel, TFLxmertVisualFeatureEncoder, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
from manim import * class A ( _UpperCAmelCase ): """simple docstring""" def snake_case__ ( self : Any )-> Optional[int]: '''simple docstring''' A__ = Rectangle(height=0.5,width=0.5 ) A__ = Rectangle(height=0.25,width=0.25 ) A__ = Rectangle(height=0.46,width=0.46 ).set_stroke(width=0 ) A__ = [mem.copy() for i in range(6 )] A__ = [mem.copy() for i in range(6 )] A__ = VGroup(lowercase_ ).arrange(lowercase_,buff=0 ) A__ = VGroup(lowercase_ ).arrange(lowercase_,buff=0 ) A__ = VGroup(lowercase_,lowercase_ ).arrange(lowercase_,buff=0 ) A__ = Text('CPU',font_size=2_4 ) A__ = Group(lowercase_,lowercase_ ).arrange(lowercase_,buff=0.5,aligned_edge=lowercase_ ) cpu.move_to([-2.5, -0.5, 0] ) self.add(lowercase_ ) A__ = [mem.copy() for i in range(4 )] A__ = VGroup(lowercase_ ).arrange(lowercase_,buff=0 ) A__ = Text('GPU',font_size=2_4 ) A__ = Group(lowercase_,lowercase_ ).arrange(lowercase_,buff=0.5,aligned_edge=lowercase_ ) gpu.move_to([-1, -1, 0] ) self.add(lowercase_ ) A__ = [mem.copy() for i in range(6 )] A__ = VGroup(lowercase_ ).arrange(lowercase_,buff=0 ) A__ = Text('Model',font_size=2_4 ) A__ = Group(lowercase_,lowercase_ ).arrange(lowercase_,buff=0.5,aligned_edge=lowercase_ ) model.move_to([3, -1.0, 0] ) self.add(lowercase_ ) A__ = [] A__ = [] A__ = [] for i, rect in enumerate(lowercase_ ): rect.set_stroke(lowercase_ ) A__ = Rectangle(height=0.46 / 4,width=0.46 / 3 ).set_stroke(width=0.0 ).set_fill(lowercase_,opacity=0.7 ) if i == 0: cpu_target.next_to(cpu_left_col_base[0].get_corner(DOWN + LEFT ),buff=0.02,direction=lowercase_ ) cpu_target.set_x(cpu_target.get_x() + 0.1 ) elif i == 3: cpu_target.next_to(model_cpu_arr[0],direction=lowercase_,buff=0.0 ) else: cpu_target.next_to(model_cpu_arr[i - 1],direction=lowercase_,buff=0.0 ) self.add(lowercase_ ) model_cpu_arr.append(lowercase_ ) self.add(lowercase_,lowercase_,lowercase_ ) A__ = [mem.copy() for i in range(6 )] A__ = VGroup(lowercase_ ).arrange(lowercase_,buff=0 ) A__ = Text('Loaded Checkpoint',font_size=2_4 ) A__ = Group(lowercase_,lowercase_ ).arrange(lowercase_,buff=0.5,aligned_edge=lowercase_ ) checkpoint.move_to([3, 0.5, 0] ) self.add(lowercase_ ) A__ = [] A__ = [] for i, rect in enumerate(lowercase_ ): A__ = fill.copy().set_fill(lowercase_,opacity=0.7 ) target.move_to(lowercase_ ) ckpt_arr.append(lowercase_ ) A__ = target.copy() if i < 5: cpu_target.move_to(cpu_left_col_base[i + 1] ) else: cpu_target.move_to(cpu_right_col_base[i - 5] ) ckpt_cpu_arr.append(lowercase_ ) self.add(lowercase_,lowercase_ ) A__ = Square(side_length=2.2 ) key.move_to([-5, 2, 0] ) A__ = MarkupText( F'<b>Key:</b>\n\n<span fgcolor=\'{YELLOW}\'>●</span> Empty Model',font_size=1_8,) key_text.move_to([-5, 2.4, 0] ) self.add(lowercase_,lowercase_ ) A__ = MarkupText( F'<span fgcolor=\'{BLUE}\'>●</span> Checkpoint',font_size=1_8,) blue_text.next_to(lowercase_,DOWN * 2.4,aligned_edge=key_text.get_left() ) self.add(lowercase_ ) A__ = MarkupText( F'Based on the passed in configuration, weights are stored in\na variety of np.memmaps on disk or to a particular device.',font_size=2_4,) step_a.move_to([2, 2, 0] ) A__ = [meta_mem.copy() for i in range(6 )] A__ = [meta_mem.copy() for i in range(6 )] A__ = VGroup(lowercase_ ).arrange(lowercase_,buff=0 ) A__ = VGroup(lowercase_ ).arrange(lowercase_,buff=0 ) A__ = VGroup(lowercase_,lowercase_ ).arrange(lowercase_,buff=0 ) A__ = Text('Disk',font_size=2_4 ) A__ = Group(lowercase_,lowercase_ ).arrange(lowercase_,buff=0.5,aligned_edge=lowercase_ ) disk.move_to([-4.0, -1.25, 0] ) self.play(Write(lowercase_,run_time=3 ),Write(lowercase_,run_time=1 ),Create(lowercase_,run_time=1 ) ) A__ = [] for i, rect in enumerate(lowercase_ ): A__ = rect.copy() target.generate_target() target.target.move_to(disk_left_col_base[i] ).scale(0.5 ) animations.append(MoveToTarget(lowercase_,run_time=1.5 ) ) self.play(lowercase_ ) self.play(FadeOut(lowercase_ ) ) A__ = MarkupText(F'Then, the checkpoint is removed from memory\nthrough garbage collection.',font_size=2_4 ) step_a.move_to([2, 2, 0] ) self.play(Write(lowercase_,run_time=3 ) ) self.play( FadeOut(lowercase_,lowercase_,lowercase_,*lowercase_ ),) self.wait()	7	"""simple docstring""" def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for data in source_data: for i, el in enumerate(A_ ): if len(A_ ) < i + 1: data_lists.append([] ) data_lists[i].append(float(A_ ) ) return data_lists def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for dlist, weight in zip(A_, A_ ): _lowerCamelCase : Any = min(A_ ) _lowerCamelCase : Optional[Any] = max(A_ ) _lowerCamelCase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowerCamelCase : str = F'''Invalid weight of {weight:f} provided''' raise ValueError(A_ ) score_lists.append(A_ ) return score_lists def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(A_ ): _lowerCamelCase : List[str] = final_scores[j] + ele return final_scores def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : Tuple = get_data(A_ ) _lowerCamelCase : Optional[Any] = calculate_each_score(A_, A_ ) _lowerCamelCase : str = generate_final_scores(A_ ) # append scores to source data for i, ele in enumerate(A_ ): source_data[i].append(A_ ) return source_data	72
import json import os import tempfile import datasets from utils import generate_example_dataset, get_duration lowerCAmelCase_ = 5_00_00 lowerCAmelCase_ = 50_00 lowerCAmelCase_ , lowerCAmelCase_ = os.path.split(__file__) lowerCAmelCase_ = os.path.join(RESULTS_BASEPATH, '''results''', RESULTS_FILENAME.replace('''.py''', '''.json''')) @get_duration def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ): for i in range(SCREAMING_SNAKE_CASE__ ): snake_case_ = dataset[i] @get_duration def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ): for i in range(0 , len(SCREAMING_SNAKE_CASE__ ) , SCREAMING_SNAKE_CASE__ ): snake_case_ = dataset[i : i + batch_size] @get_duration def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ): with dataset.formatted_as(type=SCREAMING_SNAKE_CASE__ ): for i in range(SCREAMING_SNAKE_CASE__ ): snake_case_ = dataset[i] @get_duration def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ): with dataset.formatted_as(type=SCREAMING_SNAKE_CASE__ ): for i in range(0 , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ): snake_case_ = dataset[i : i + batch_size] def __SCREAMING_SNAKE_CASE (): snake_case_ = {'''num examples''': SPEED_TEST_N_EXAMPLES} snake_case_ = [ (read, {'''length''': SMALL_TEST}), (read, {'''length''': SPEED_TEST_N_EXAMPLES}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 10}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 100}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 1000}), (read_formatted, {'''type''': '''numpy''', '''length''': SMALL_TEST}), (read_formatted, {'''type''': '''pandas''', '''length''': SMALL_TEST}), (read_formatted, {'''type''': '''torch''', '''length''': SMALL_TEST}), (read_formatted, {'''type''': '''tensorflow''', '''length''': SMALL_TEST}), (read_formatted_batch, {'''type''': '''numpy''', '''length''': SMALL_TEST, '''batch_size''': 10}), (read_formatted_batch, {'''type''': '''numpy''', '''length''': SMALL_TEST, '''batch_size''': 1000}), ] snake_case_ = [ (read, {'''length''': SMALL_TEST}), (read, {'''length''': SPEED_TEST_N_EXAMPLES}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 10}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 100}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 1000}), (read_formatted, {'''type''': '''numpy''', '''length''': SMALL_TEST}), (read_formatted_batch, {'''type''': '''numpy''', '''length''': SMALL_TEST, '''batch_size''': 10}), (read_formatted_batch, {'''type''': '''numpy''', '''length''': SMALL_TEST, '''batch_size''': 1000}), ] with tempfile.TemporaryDirectory() as tmp_dir: print('''generating dataset''' ) snake_case_ = datasets.Features( {'''list''': datasets.Sequence(datasets.Value('''float32''' ) ), '''numbers''': datasets.Value('''float32''' )} ) snake_case_ = generate_example_dataset( os.path.join(SCREAMING_SNAKE_CASE__ , '''dataset.arrow''' ) , SCREAMING_SNAKE_CASE__ , num_examples=SCREAMING_SNAKE_CASE__ , seq_shapes={'''list''': (100,)} , ) print('''first set of iterations''' ) for func, kwargs in functions: print(func.__name__ , str(SCREAMING_SNAKE_CASE__ ) ) snake_case_ = func(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) print('''shuffling dataset''' ) snake_case_ = dataset.shuffle() print('''Second set of iterations (after shuffling''' ) for func, kwargs in functions_shuffled: print('''shuffled ''' , func.__name__ , str(SCREAMING_SNAKE_CASE__ ) ) snake_case_ = func( SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) with open(SCREAMING_SNAKE_CASE__ , '''wb''' ) as f: f.write(json.dumps(SCREAMING_SNAKE_CASE__ ).encode('''utf-8''' ) ) if __name__ == "__main__": # useful to run the profiler benchmark_iterating()	8	"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = { '''microsoft/unispeech-large-1500h-cv''': ( '''https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json''' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class __snake_case ( _lowercase): snake_case__ : List[str] = "unispeech" def __init__( self : List[str] , __lowerCAmelCase : List[Any]=3_2 , __lowerCAmelCase : str=7_6_8 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=3_0_7_2 , __lowerCAmelCase : Tuple="gelu" , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : str=0.1 , __lowerCAmelCase : Tuple=0.0 , __lowerCAmelCase : Optional[int]=0.0 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Optional[int]=0.1 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Dict=1E-5 , __lowerCAmelCase : Optional[int]="group" , __lowerCAmelCase : Dict="gelu" , __lowerCAmelCase : int=(5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2) , __lowerCAmelCase : Optional[int]=(5, 2, 2, 2, 2, 2, 2) , __lowerCAmelCase : Union[str, Any]=(1_0, 3, 3, 3, 3, 2, 2) , __lowerCAmelCase : List[Any]=False , __lowerCAmelCase : List[str]=1_2_8 , __lowerCAmelCase : Any=1_6 , __lowerCAmelCase : Optional[int]=False , __lowerCAmelCase : Optional[Any]=True , __lowerCAmelCase : Union[str, Any]=0.05 , __lowerCAmelCase : Union[str, Any]=1_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.0 , __lowerCAmelCase : Optional[int]=1_0 , __lowerCAmelCase : Dict=0 , __lowerCAmelCase : List[str]=3_2_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Tuple=1_0_0 , __lowerCAmelCase : Dict=2_5_6 , __lowerCAmelCase : str=2_5_6 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Dict="mean" , __lowerCAmelCase : Union[str, Any]=False , __lowerCAmelCase : Dict=False , __lowerCAmelCase : Optional[Any]=2_5_6 , __lowerCAmelCase : Dict=8_0 , __lowerCAmelCase : int=0 , __lowerCAmelCase : Optional[int]=1 , __lowerCAmelCase : Dict=2 , __lowerCAmelCase : Any=0.5 , __lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__(__lowerCAmelCase , pad_token_id=__lowerCAmelCase , bos_token_id=__lowerCAmelCase , eos_token_id=__lowerCAmelCase ) _lowerCamelCase : Dict = hidden_size _lowerCamelCase : Any = feat_extract_norm _lowerCamelCase : List[Any] = feat_extract_activation _lowerCamelCase : Any = list(__lowerCAmelCase ) _lowerCamelCase : Tuple = list(__lowerCAmelCase ) _lowerCamelCase : int = list(__lowerCAmelCase ) _lowerCamelCase : List[str] = conv_bias _lowerCamelCase : List[str] = num_conv_pos_embeddings _lowerCamelCase : Tuple = num_conv_pos_embedding_groups _lowerCamelCase : List[str] = len(self.conv_dim ) _lowerCamelCase : Tuple = num_hidden_layers _lowerCamelCase : List[Any] = intermediate_size _lowerCamelCase : Dict = hidden_act _lowerCamelCase : Union[str, Any] = num_attention_heads _lowerCamelCase : Tuple = hidden_dropout _lowerCamelCase : List[Any] = attention_dropout _lowerCamelCase : Optional[int] = activation_dropout _lowerCamelCase : Optional[Any] = feat_proj_dropout _lowerCamelCase : Optional[int] = final_dropout _lowerCamelCase : Any = layerdrop _lowerCamelCase : Any = layer_norm_eps _lowerCamelCase : List[Any] = initializer_range _lowerCamelCase : List[str] = num_ctc_classes _lowerCamelCase : List[Any] = vocab_size _lowerCamelCase : Optional[Any] = do_stable_layer_norm _lowerCamelCase : Tuple = use_weighted_layer_sum _lowerCamelCase : List[Any] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' f''' {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,''' f''' `len(config.conv_kernel) = {len(self.conv_kernel )}`.''' ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 _lowerCamelCase : Any = apply_spec_augment _lowerCamelCase : Dict = mask_time_prob _lowerCamelCase : List[str] = mask_time_length _lowerCamelCase : Optional[Any] = mask_time_min_masks _lowerCamelCase : List[str] = mask_feature_prob _lowerCamelCase : int = mask_feature_length _lowerCamelCase : Dict = mask_feature_min_masks # parameters for pretraining with codevector quantized representations _lowerCamelCase : Optional[Any] = num_codevectors_per_group _lowerCamelCase : int = num_codevector_groups _lowerCamelCase : List[Any] = contrastive_logits_temperature _lowerCamelCase : List[str] = feat_quantizer_dropout _lowerCamelCase : Dict = num_negatives _lowerCamelCase : Optional[int] = codevector_dim _lowerCamelCase : List[Any] = proj_codevector_dim _lowerCamelCase : List[Any] = diversity_loss_weight # ctc loss _lowerCamelCase : Union[str, Any] = ctc_loss_reduction _lowerCamelCase : Any = ctc_zero_infinity # pretraining loss _lowerCamelCase : str = replace_prob @property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )	72
from typing import TYPE_CHECKING from ....utils import _LazyModule __lowerCAmelCase : Union[str, Any] ={'tokenization_tapex': ['TapexTokenizer']} if TYPE_CHECKING: from .tokenization_tapex import TapexTokenizer else: import sys __lowerCAmelCase : int =_LazyModule(__name__, globals()['__file__'], _import_structure)	9	"""simple docstring""" from typing import Optional from urllib.parse import quote import huggingface_hub as hfh from packaging import version def snake_case_ ( A_ : str, A_ : str, A_ : Optional[str] = None ): '''simple docstring''' if version.parse(hfh.__version__ ).release < version.parse('''0.11.0''' ).release: # old versions of hfh don't url-encode the file path _lowerCamelCase : Optional[Any] = quote(A_ ) return hfh.hf_hub_url(A_, A_, repo_type='''dataset''', revision=A_ )	72
def lowerCAmelCase_ ( __a , __a , __a ) -> int: """simple docstring""" def update_area_of_max_square(__a , __a ) -> int: # BASE CASE if row >= rows or col >= cols: return 0 lowerCamelCase__: Union[str, Any] =update_area_of_max_square(__a , col + 1 ) lowerCamelCase__: Dict =update_area_of_max_square(row + 1 , col + 1 ) lowerCamelCase__: List[str] =update_area_of_max_square(row + 1 , __a ) if mat[row][col]: lowerCamelCase__: Tuple =1 + min([right, diagonal, down] ) lowerCamelCase__: str =max(largest_square_area[0] , __a ) return sub_problem_sol else: return 0 lowerCamelCase__: Dict =[0] update_area_of_max_square(0 , 0 ) return largest_square_area[0] def lowerCAmelCase_ ( __a , __a , __a ) -> int: """simple docstring""" def update_area_of_max_square_using_dp_array( __a , __a , __a ) -> int: if row >= rows or col >= cols: return 0 if dp_array[row][col] != -1: return dp_array[row][col] lowerCamelCase__: str =update_area_of_max_square_using_dp_array(__a , col + 1 , __a ) lowerCamelCase__: str =update_area_of_max_square_using_dp_array(row + 1 , col + 1 , __a ) lowerCamelCase__: Dict =update_area_of_max_square_using_dp_array(row + 1 , __a , __a ) if mat[row][col]: lowerCamelCase__: List[Any] =1 + min([right, diagonal, down] ) lowerCamelCase__: Optional[int] =max(largest_square_area[0] , __a ) lowerCamelCase__: Tuple =sub_problem_sol return sub_problem_sol else: return 0 lowerCamelCase__: Union[str, Any] =[0] lowerCamelCase__: Optional[int] =[[-1] * cols for _ in range(__a )] update_area_of_max_square_using_dp_array(0 , 0 , __a ) return largest_square_area[0] def lowerCAmelCase_ ( __a , __a , __a ) -> int: """simple docstring""" lowerCamelCase__: Optional[Any] =[[0] * (cols + 1) for _ in range(rows + 1 )] lowerCamelCase__: Tuple =0 for row in range(rows - 1 , -1 , -1 ): for col in range(cols - 1 , -1 , -1 ): lowerCamelCase__: int =dp_array[row][col + 1] lowerCamelCase__: Union[str, Any] =dp_array[row + 1][col + 1] lowerCamelCase__: Any =dp_array[row + 1][col] if mat[row][col] == 1: lowerCamelCase__: str =1 + min(__a , __a , __a ) lowerCamelCase__: Tuple =max(dp_array[row][col] , __a ) else: lowerCamelCase__: Tuple =0 return largest_square_area def lowerCAmelCase_ ( __a , __a , __a ) -> int: """simple docstring""" lowerCamelCase__: Union[str, Any] =[0] * (cols + 1) lowerCamelCase__: Dict =[0] * (cols + 1) lowerCamelCase__: List[Any] =0 for row in range(rows - 1 , -1 , -1 ): for col in range(cols - 1 , -1 , -1 ): lowerCamelCase__: Optional[int] =current_row[col + 1] lowerCamelCase__: int =next_row[col + 1] lowerCamelCase__: Optional[int] =next_row[col] if mat[row][col] == 1: lowerCamelCase__: Dict =1 + min(__a , __a , __a ) lowerCamelCase__: Dict =max(current_row[col] , __a ) else: lowerCamelCase__: Tuple =0 lowerCamelCase__: List[Any] =current_row return largest_square_area if __name__ == "__main__": import doctest doctest.testmod() print(largest_square_area_in_matrix_bottom_up(2, 2, [[1, 1], [1, 1]]))	10	"""simple docstring""" import unittest import numpy as np def snake_case_ ( A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray \| None = None, ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) if shape_a[0] != shape_b[0]: _lowerCamelCase : Tuple = ( '''Expected the same number of rows for A and B. ''' F'''Instead found A of size {shape_a} and B of size {shape_b}''' ) raise ValueError(A_ ) if shape_b[1] != shape_c[1]: _lowerCamelCase : Tuple = ( '''Expected the same number of columns for B and C. ''' F'''Instead found B of size {shape_b} and C of size {shape_c}''' ) raise ValueError(A_ ) _lowerCamelCase : List[str] = pseudo_inv if a_inv is None: try: _lowerCamelCase : Any = np.linalg.inv(A_ ) except np.linalg.LinAlgError: raise ValueError( '''Input matrix A is not invertible. Cannot compute Schur complement.''' ) return mat_c - mat_b.T @ a_inv @ mat_b class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : List[str] = np.array([[2, 1], [6, 3]] ) _lowerCamelCase : List[Any] = schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = np.block([[a, b], [b.T, c]] ) _lowerCamelCase : Tuple = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : List[str] = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : Any = np.linalg.det(__lowerCAmelCase ) self.assertAlmostEqual(__lowerCAmelCase , det_a * det_s ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : Optional[int] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : int = np.array([[2, 1], [6, 3]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : str = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : Union[str, Any] = np.array([[2, 1, 3], [6, 3, 5]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) if __name__ == "__main__": import doctest doctest.testmod() unittest.main()	72
from itertools import product def _UpperCAmelCase (UpperCamelCase__ : int , UpperCamelCase__ : int ): _A : Dict = sides_number _A : Any = max_face_number * dice_number _A : Optional[int] = [0] * (max_total + 1) _A : Any = 1 _A : str = range(UpperCamelCase__ , max_face_number + 1 ) for dice_numbers in product(UpperCamelCase__ , repeat=UpperCamelCase__ ): _A : Tuple = sum(UpperCamelCase__ ) totals_frequencies[total] += 1 return totals_frequencies def _UpperCAmelCase (): _A : Any = total_frequency_distribution( sides_number=4 , dice_number=9 ) _A : Tuple = total_frequency_distribution( sides_number=6 , dice_number=6 ) _A : Any = 0 _A : int = 9 _A : List[str] = 4 * 9 _A : Dict = 6 for peter_total in range(UpperCamelCase__ , max_peter_total + 1 ): peter_wins_count += peter_totals_frequencies[peter_total] * sum( colin_totals_frequencies[min_colin_total:peter_total] ) _A : Dict = (4*9) (6**6) _A : List[str] = peter_wins_count / total_games_number _A : Dict = round(UpperCamelCase__ , ndigits=7 ) return rounded_peter_win_probability if __name__ == "__main__": print(f"{solution() = }")	11	"""simple docstring""" def snake_case_ ( A_ : list[int], A_ : str ): '''simple docstring''' _lowerCamelCase : Tuple = int(A_ ) # Initialize Result _lowerCamelCase : Dict = [] # Traverse through all denomination for denomination in reversed(A_ ): # Find denominations while int(A_ ) >= int(A_ ): total_value -= int(A_ ) answer.append(A_ ) # Append the "answers" array return answer # Driver Code if __name__ == "__main__": lowerCAmelCase__ = [] lowerCAmelCase__ = '''0''' if ( input('''Do you want to enter your denominations ? (yY/n): ''').strip().lower() == "y" ): lowerCAmelCase__ = int(input('''Enter the number of denominations you want to add: ''').strip()) for i in range(0, n): denominations.append(int(input(F"""Denomination {i}: """).strip())) lowerCAmelCase__ = input('''Enter the change you want to make in Indian Currency: ''').strip() else: # All denominations of Indian Currency if user does not enter lowerCAmelCase__ = [1, 2, 5, 10, 20, 50, 100, 500, 2000] lowerCAmelCase__ = input('''Enter the change you want to make: ''').strip() if int(value) == 0 or int(value) < 0: print('''The total value cannot be zero or negative.''') else: print(F"""Following is minimal change for {value}: """) lowerCAmelCase__ = find_minimum_change(denominations, value) # Print result for i in range(len(answer)): print(answer[i], end=''' ''')	72
from math import factorial class lowerCamelCase__: def __init__( self: List[str] , UpperCamelCase_: str , UpperCamelCase_: int ): __lowerCamelCase = real if isinstance(UpperCamelCase_ , UpperCamelCase_ ): __lowerCamelCase = [1] * rank else: __lowerCamelCase = rank def __repr__( self: List[Any] ): return ( F'{self.real}+' F'{"+".join(str(UpperCamelCase_ )+"E"+str(n+1 )for n,dual in enumerate(self.duals ) )}' ) def lowerCAmelCase__ ( self: Tuple ): __lowerCamelCase = self.duals.copy() while cur[-1] == 0: cur.pop(-1 ) return Dual(self.real , UpperCamelCase_ ) def __add__( self: int , UpperCamelCase_: Tuple ): if not isinstance(UpperCamelCase_ , UpperCamelCase_ ): return Dual(self.real + other , self.duals ) __lowerCamelCase = self.duals.copy() __lowerCamelCase = other.duals.copy() if len(UpperCamelCase_ ) > len(UpperCamelCase_ ): o_dual.extend([1] * (len(UpperCamelCase_ ) - len(UpperCamelCase_ )) ) elif len(UpperCamelCase_ ) < len(UpperCamelCase_ ): s_dual.extend([1] * (len(UpperCamelCase_ ) - len(UpperCamelCase_ )) ) __lowerCamelCase = [] for i in range(len(UpperCamelCase_ ) ): new_duals.append(s_dual[i] + o_dual[i] ) return Dual(self.real + other.real , UpperCamelCase_ ) UpperCAmelCase__ : Dict = __add__ def __sub__( self: List[str] , UpperCamelCase_: Dict ): return self + other * -1 def __mul__( self: Any , UpperCamelCase_: Optional[Any] ): if not isinstance(UpperCamelCase_ , UpperCamelCase_ ): __lowerCamelCase = [] for i in self.duals: new_duals.append(i * other ) return Dual(self.real * other , UpperCamelCase_ ) __lowerCamelCase = [0] * (len(self.duals ) + len(other.duals ) + 1) for i, item in enumerate(self.duals ): for j, jtem in enumerate(other.duals ): new_duals[i + j + 1] += item * jtem for k in range(len(self.duals ) ): new_duals[k] += self.duals[k] * other.real for index in range(len(other.duals ) ): new_duals[index] += other.duals[index] * self.real return Dual(self.real * other.real , UpperCamelCase_ ) UpperCAmelCase__ : Optional[int] = __mul__ def __truediv__( self: Dict , UpperCamelCase_: Tuple ): if not isinstance(UpperCamelCase_ , UpperCamelCase_ ): __lowerCamelCase = [] for i in self.duals: new_duals.append(i / other ) return Dual(self.real / other , UpperCamelCase_ ) raise ValueError def __floordiv__( self: int , UpperCamelCase_: int ): if not isinstance(UpperCamelCase_ , UpperCamelCase_ ): __lowerCamelCase = [] for i in self.duals: new_duals.append(i // other ) return Dual(self.real // other , UpperCamelCase_ ) raise ValueError def __pow__( self: Tuple , UpperCamelCase_: str ): if n < 0 or isinstance(UpperCamelCase_ , UpperCamelCase_ ): raise ValueError("""power must be a positive integer""" ) if n == 0: return 1 if n == 1: return self __lowerCamelCase = self for _ in range(n - 1 ): x = self return x def lowerCamelCase__ ( A__ : List[str] , A__ : str , A__ : str ): '''simple docstring''' if not callable(A__ ): raise ValueError("""differentiate() requires a function as input for func""" ) if not isinstance(A__ , (float, int) ): raise ValueError("""differentiate() requires a float as input for position""" ) if not isinstance(A__ , A__ ): raise ValueError("""differentiate() requires an int as input for order""" ) __lowerCamelCase = Dual(A__ , 1 ) __lowerCamelCase = func(A__ ) if order == 0: return result.real return result.duals[order - 1] factorial(A__ ) if __name__ == "__main__": import doctest doctest.testmod() def lowerCamelCase__ ( A__ : int ): '''simple docstring''' return y*2 y**4 print(differentiate(f, 9, 2))	12	"""simple docstring""" def snake_case_ ( A_ : int = 2_00_00_00 ): '''simple docstring''' _lowerCamelCase : int = [0 for i in range(n + 1 )] _lowerCamelCase : List[str] = 1 _lowerCamelCase : Any = 1 for i in range(2, int(n*0.5 ) + 1 ): if primality_list[i] == 0: for j in range(i i, n + 1, A_ ): _lowerCamelCase : str = 1 _lowerCamelCase : Tuple = 0 for i in range(A_ ): if primality_list[i] == 0: sum_of_primes += i return sum_of_primes if __name__ == "__main__": print(F"""{solution() = }""")	72
import argparse import os import re # All paths are set with the intent you should run this script from the root of the repo with the command # python utils/check_dummies.py lowerCAmelCase : Optional[Any] = """src/diffusers""" # Matches is_xxx_available() lowerCAmelCase : str = re.compile(R"""is\_([a-z_])_available\(\)""") # Matches from xxx import bla lowerCAmelCase : List[str] = re.compile(R"""\s+from\s+\S\s+import\s+([^\(\s].)\n""") lowerCAmelCase : Union[str, Any] = """ {0} = None """ lowerCAmelCase : List[str] = """ class {0}(metaclass=DummyObject): _backends = {1} def __init__(self, args, *kwargs): requires_backends(self, {1}) @classmethod def from_config(cls, args, *kwargs): requires_backends(cls, {1}) @classmethod def from_pretrained(cls, args, *kwargs): requires_backends(cls, {1}) """ lowerCAmelCase : List[Any] = """ def {0}(args, *kwargs): requires_backends({0}, {1}) """ def A_ ( _UpperCAmelCase ): SCREAMING_SNAKE_CASE_: List[str] = _re_backend.findall(_UpperCAmelCase ) if len(_UpperCAmelCase ) == 0: return None return "_and_".join(_UpperCAmelCase ) def A_ ( ): with open(os.path.join(_UpperCAmelCase , "__init__.py" ) , "r" , encoding="utf-8" , newline="\n" ) as f: SCREAMING_SNAKE_CASE_: Optional[Any] = f.readlines() # Get to the point we do the actual imports for type checking SCREAMING_SNAKE_CASE_: Union[str, Any] = 0 SCREAMING_SNAKE_CASE_: Optional[int] = {} # Go through the end of the file while line_index < len(_UpperCAmelCase ): # If the line contains is_backend_available, we grab all objects associated with the `else` block SCREAMING_SNAKE_CASE_: List[str] = find_backend(lines[line_index] ) if backend is not None: while not lines[line_index].startswith("else:" ): line_index += 1 line_index += 1 SCREAMING_SNAKE_CASE_: str = [] # Until we unindent, add backend objects to the list while line_index < len(_UpperCAmelCase ) and len(lines[line_index] ) > 1: SCREAMING_SNAKE_CASE_: List[Any] = lines[line_index] SCREAMING_SNAKE_CASE_: Optional[int] = _re_single_line_import.search(_UpperCAmelCase ) if single_line_import_search is not None: objects.extend(single_line_import_search.groups()[0].split(", " ) ) elif line.startswith(" " 8 ): objects.append(line[8:-2] ) line_index += 1 if len(_UpperCAmelCase ) > 0: SCREAMING_SNAKE_CASE_: Any = objects else: line_index += 1 return backend_specific_objects def A_ ( _UpperCAmelCase , _UpperCAmelCase ): if name.isupper(): return DUMMY_CONSTANT.format(_UpperCAmelCase ) elif name.islower(): return DUMMY_FUNCTION.format(_UpperCAmelCase , _UpperCAmelCase ) else: return DUMMY_CLASS.format(_UpperCAmelCase , _UpperCAmelCase ) def A_ ( _UpperCAmelCase=None ): if backend_specific_objects is None: SCREAMING_SNAKE_CASE_: Optional[Any] = read_init() # For special correspondence backend to module name as used in the function requires_modulename SCREAMING_SNAKE_CASE_: Optional[Any] = {} for backend, objects in backend_specific_objects.items(): SCREAMING_SNAKE_CASE_: Tuple = "[" + ", ".join(f"\"{b}\"" for b in backend.split("_and_" ) ) + "]" SCREAMING_SNAKE_CASE_: Tuple = "# This file is autogenerated by the command `make fix-copies`, do not edit.\n" dummy_file += "from ..utils import DummyObject, requires_backends\n\n" dummy_file += "\n".join([create_dummy_object(_UpperCAmelCase , _UpperCAmelCase ) for o in objects] ) SCREAMING_SNAKE_CASE_: Any = dummy_file return dummy_files def A_ ( _UpperCAmelCase=False ): SCREAMING_SNAKE_CASE_: Union[str, Any] = create_dummy_files() # For special correspondence backend to shortcut as used in utils/dummy_xxx_objects.py SCREAMING_SNAKE_CASE_: int = {"torch": "pt"} # Locate actual dummy modules and read their content. SCREAMING_SNAKE_CASE_: Dict = os.path.join(_UpperCAmelCase , "utils" ) SCREAMING_SNAKE_CASE_: List[Any] = { backend: os.path.join(_UpperCAmelCase , f"dummy_{short_names.get(_UpperCAmelCase , _UpperCAmelCase )}_objects.py" ) for backend in dummy_files.keys() } SCREAMING_SNAKE_CASE_: Any = {} for backend, file_path in dummy_file_paths.items(): if os.path.isfile(_UpperCAmelCase ): with open(_UpperCAmelCase , "r" , encoding="utf-8" , newline="\n" ) as f: SCREAMING_SNAKE_CASE_: Tuple = f.read() else: SCREAMING_SNAKE_CASE_: Optional[Any] = "" for backend in dummy_files.keys(): if dummy_files[backend] != actual_dummies[backend]: if overwrite: print( f"Updating diffusers.utils.dummy_{short_names.get(_UpperCAmelCase , _UpperCAmelCase )}_objects.py as the main " "__init__ has new objects." ) with open(dummy_file_paths[backend] , "w" , encoding="utf-8" , newline="\n" ) as f: f.write(dummy_files[backend] ) else: raise ValueError( "The main __init__ has objects that are not present in " f"diffusers.utils.dummy_{short_names.get(_UpperCAmelCase , _UpperCAmelCase )}_objects.py. Run `make fix-copies` " "to fix this." ) if __name__ == "__main__": lowerCAmelCase : Optional[Any] = argparse.ArgumentParser() parser.add_argument("""--fix_and_overwrite""", action="""store_true""", help="""Whether to fix inconsistencies.""") lowerCAmelCase : str = parser.parse_args() check_dummies(args.fix_and_overwrite)	13	"""simple docstring""" import argparse import torch from torch import nn from transformers import MBartConfig, MBartForConditionalGeneration def snake_case_ ( A_ : Any ): '''simple docstring''' _lowerCamelCase : Any = [ '''encoder.version''', '''decoder.version''', '''model.encoder.version''', '''model.decoder.version''', '''_float_tensor''', '''decoder.output_projection.weight''', ] for k in ignore_keys: state_dict.pop(A_, A_ ) def snake_case_ ( A_ : Union[str, Any] ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : Tuple = emb.weight.shape _lowerCamelCase : Dict = nn.Linear(A_, A_, bias=A_ ) _lowerCamelCase : str = emb.weight.data return lin_layer def snake_case_ ( A_ : str, A_ : Optional[int]="facebook/mbart-large-en-ro", A_ : Union[str, Any]=False, A_ : List[str]=False ): '''simple docstring''' _lowerCamelCase : Tuple = torch.load(A_, map_location='''cpu''' )['''model'''] remove_ignore_keys_(A_ ) _lowerCamelCase : int = state_dict['''encoder.embed_tokens.weight'''].shape[0] _lowerCamelCase : Any = MBartConfig.from_pretrained(A_, vocab_size=A_ ) if mbart_aa and finetuned: _lowerCamelCase : Any = '''relu''' _lowerCamelCase : Optional[int] = state_dict['''decoder.embed_tokens.weight'''] _lowerCamelCase : Any = MBartForConditionalGeneration(A_ ) model.model.load_state_dict(A_ ) if finetuned: _lowerCamelCase : str = make_linear_from_emb(model.model.shared ) return model if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''fairseq_path''', type=str, help='''bart.large, bart.large.cnn or a path to a model.pt on local filesystem.''' ) parser.add_argument('''pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model.''') parser.add_argument( '''--hf_config''', default='''facebook/mbart-large-cc25''', type=str, help='''Which huggingface architecture to use: mbart-large''', ) parser.add_argument('''--mbart_50''', action='''store_true''', help='''whether the model is mMART-50 checkpoint''') parser.add_argument('''--finetuned''', action='''store_true''', help='''whether the model is a fine-tuned checkpoint''') lowerCAmelCase__ = parser.parse_args() lowerCAmelCase__ = convert_fairseq_mbart_checkpoint_from_disk( args.fairseq_path, hf_config_path=args.hf_config, finetuned=args.finetuned, mbart_aa=args.mbart_aa ) model.save_pretrained(args.pytorch_dump_folder_path)	72
from __future__ import annotations import unittest from transformers import is_tf_available from transformers.testing_utils import require_sentencepiece, require_tf, require_tokenizers, slow if is_tf_available(): import tensorflow as tf from transformers import AutoTokenizer, TFAutoModelForSeqaSeqLM @require_tf @require_sentencepiece @require_tokenizers class UpperCamelCase_ ( unittest.TestCase ): '''simple docstring''' @slow def SCREAMING_SNAKE_CASE ( self : int) ->Optional[int]: '''simple docstring''' A__ = TFAutoModelForSeqaSeqLM.from_pretrained('''google/mt5-small''') A__ = AutoTokenizer.from_pretrained('''google/mt5-small''') A__ = tokenizer('''Hello there''' , return_tensors='''tf''').input_ids A__ = tokenizer('''Hi I am''' , return_tensors='''tf''').input_ids A__ = model(UpperCAmelCase__ , labels=UpperCAmelCase__).loss A__ = -tf.math.reduce_mean(UpperCAmelCase__).numpy() A__ = -21.228168 self.assertTrue(abs(mtf_score - EXPECTED_SCORE) < 2e-4)	14	"""simple docstring""" def snake_case_ ( A_ : list[list] ): '''simple docstring''' _lowerCamelCase : Optional[int] = current_set.copy() for row_index, row in enumerate(A_ ): _lowerCamelCase : Tuple = row[0] for column_index, column in enumerate(A_ ): if magnitude == 0: _lowerCamelCase : List[Any] = column continue _lowerCamelCase : List[Any] = column / magnitude # Subtract to cancel term _lowerCamelCase : Union[str, Any] = current_set[0] _lowerCamelCase : Dict = [first_row] _lowerCamelCase : str = current_set[1::] for row in current_set: _lowerCamelCase : Union[str, Any] = [] # If first term is 0, it is already in form we want, so we preserve it if row[0] == 0: final_set.append(A_ ) continue for column_index in range(len(A_ ) ): temp_row.append(first_row[column_index] - row[column_index] ) final_set.append(A_ ) # Create next recursion iteration set if len(final_set[0] ) != 3: _lowerCamelCase : Any = final_set[0] _lowerCamelCase : Any = [] _lowerCamelCase : Optional[int] = [] for row in final_set[1::]: current_first_column.append(row[0] ) next_iteration.append(row[1::] ) _lowerCamelCase : Dict = simplify(A_ ) for i in range(len(A_ ) ): resultant[i].insert(0, current_first_column[i] ) resultant.insert(0, A_ ) _lowerCamelCase : Tuple = resultant return final_set def snake_case_ ( A_ : list[list] ): '''simple docstring''' if len(A_ ) == 0: raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) _lowerCamelCase : Dict = len(A_ ) + 1 if any(len(A_ ) != _length for item in equations ): raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) for row in equations: if any(not isinstance(A_, (int, float) ) for column in row ): raise ValueError('''solve_simultaneous() requires lists of integers''' ) if len(A_ ) == 1: return [equations[0][-1] / equations[0][0]] _lowerCamelCase : Optional[Any] = equations.copy() if any(0 in row for row in data_set ): _lowerCamelCase : str = data_set.copy() _lowerCamelCase : List[Any] = [] for row_index, row in enumerate(A_ ): if 0 not in row: _lowerCamelCase : Union[str, Any] = data_set.pop(A_ ) break if not full_row: raise ValueError('''solve_simultaneous() requires at least 1 full equation''' ) data_set.insert(0, A_ ) _lowerCamelCase : List[str] = data_set.copy() _lowerCamelCase : int = simplify(A_ ) _lowerCamelCase : int = simplified[::-1] _lowerCamelCase : list = [] for row in simplified: _lowerCamelCase : Tuple = row[-1] if not solutions: if row[-2] == 0: solutions.append(0 ) continue solutions.append(current_solution / row[-2] ) continue _lowerCamelCase : Optional[Any] = row.copy()[: len(A_ ) - 1 :] while temp_row[0] == 0: temp_row.pop(0 ) if len(A_ ) == 0: solutions.append(0 ) continue _lowerCamelCase : Tuple = temp_row[1::] _lowerCamelCase : Tuple = temp_row[::-1] for column_index, column in enumerate(A_ ): current_solution -= column * solutions[column_index] solutions.append(A_ ) _lowerCamelCase : Optional[int] = [] for item in solutions: final.append(float(round(A_, 5 ) ) ) return final[::-1] if __name__ == "__main__": import doctest doctest.testmod() lowerCAmelCase__ = [ [2, 1, 1, 1, 1, 4], [1, 2, 1, 1, 1, 5], [1, 1, 2, 1, 1, 6], [1, 1, 1, 2, 1, 7], [1, 1, 1, 1, 2, 8], ] print(solve_simultaneous(eq)) print(solve_simultaneous([[4, 2]]))	72
from typing import Optional, Tuple, Union import flax import flax.linen as nn import jax import jax.numpy as jnp from flax.core.frozen_dict import FrozenDict from ..configuration_utils import ConfigMixin, flax_register_to_config from ..utils import BaseOutput from .embeddings_flax import FlaxTimestepEmbedding, FlaxTimesteps from .modeling_flax_utils import FlaxModelMixin from .unet_ad_blocks_flax import ( FlaxCrossAttnDownBlockaD, FlaxCrossAttnUpBlockaD, FlaxDownBlockaD, FlaxUNetMidBlockaDCrossAttn, FlaxUpBlockaD, ) @flax.struct.dataclass class UpperCAmelCase ( __SCREAMING_SNAKE_CASE ): '''simple docstring''' snake_case_ = 42 @flax_register_to_config class UpperCAmelCase ( nn.Module , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ): '''simple docstring''' snake_case_ = 32 snake_case_ = 4 snake_case_ = 4 snake_case_ = ( "CrossAttnDownBlock2D", "CrossAttnDownBlock2D", "CrossAttnDownBlock2D", "DownBlock2D", ) snake_case_ = ("UpBlock2D", "CrossAttnUpBlock2D", "CrossAttnUpBlock2D", "CrossAttnUpBlock2D") snake_case_ = False snake_case_ = (320, 640, 1280, 1280) snake_case_ = 2 snake_case_ = 8 snake_case_ = None snake_case_ = 1280 snake_case_ = 0.0 snake_case_ = False snake_case_ = jnp.floataa snake_case_ = True snake_case_ = 0 snake_case_ = False def UpperCamelCase_ ( self : Tuple ,A : jax.random.KeyArray ): # init input tensors __A = (1, self.in_channels, self.sample_size, self.sample_size) __A = jnp.zeros(A ,dtype=jnp.floataa ) __A = jnp.ones((1,) ,dtype=jnp.intaa ) __A = jnp.zeros((1, 1, self.cross_attention_dim) ,dtype=jnp.floataa ) __A , __A = jax.random.split(A ) __A = {"params": params_rng, "dropout": dropout_rng} return self.init(A ,A ,A ,A )["params"] def UpperCamelCase_ ( self : Dict ): __A = self.block_out_channels __A = block_out_channels[0] * 4 if self.num_attention_heads is not None: raise ValueError( "At the moment it is not possible to define the number of attention heads via `num_attention_heads` because of a naming issue as described in https://github.com/huggingface/diffusers/issues/2011#issuecomment-1547958131. Passing `num_attention_heads` will only be supported in diffusers v0.19." ) # If `num_attention_heads` is not defined (which is the case for most models) # it will default to `attention_head_dim`. This looks weird upon first reading it and it is. # The reason for this behavior is to correct for incorrectly named variables that were introduced # when this library was created. The incorrect naming was only discovered much later in https://github.com/huggingface/diffusers/issues/2011#issuecomment-1547958131 # Changing `attention_head_dim` to `num_attention_heads` for 40,000+ configurations is too backwards breaking # which is why we correct for the naming here. __A = self.num_attention_heads or self.attention_head_dim # input __A = nn.Conv( block_out_channels[0] ,kernel_size=(3, 3) ,strides=(1, 1) ,padding=((1, 1), (1, 1)) ,dtype=self.dtype ,) # time __A = FlaxTimesteps( block_out_channels[0] ,flip_sin_to_cos=self.flip_sin_to_cos ,freq_shift=self.config.freq_shift ) __A = FlaxTimestepEmbedding(A ,dtype=self.dtype ) __A = self.only_cross_attention if isinstance(A ,A ): __A = (only_cross_attention,) * len(self.down_block_types ) if isinstance(A ,A ): __A = (num_attention_heads,) * len(self.down_block_types ) # down __A = [] __A = block_out_channels[0] for i, down_block_type in enumerate(self.down_block_types ): __A = output_channel __A = block_out_channels[i] __A = i == len(A ) - 1 if down_block_type == "CrossAttnDownBlock2D": __A = FlaxCrossAttnDownBlockaD( in_channels=A ,out_channels=A ,dropout=self.dropout ,num_layers=self.layers_per_block ,num_attention_heads=num_attention_heads[i] ,add_downsample=not is_final_block ,use_linear_projection=self.use_linear_projection ,only_cross_attention=only_cross_attention[i] ,use_memory_efficient_attention=self.use_memory_efficient_attention ,dtype=self.dtype ,) else: __A = FlaxDownBlockaD( in_channels=A ,out_channels=A ,dropout=self.dropout ,num_layers=self.layers_per_block ,add_downsample=not is_final_block ,dtype=self.dtype ,) down_blocks.append(A ) __A = down_blocks # mid __A = FlaxUNetMidBlockaDCrossAttn( in_channels=block_out_channels[-1] ,dropout=self.dropout ,num_attention_heads=num_attention_heads[-1] ,use_linear_projection=self.use_linear_projection ,use_memory_efficient_attention=self.use_memory_efficient_attention ,dtype=self.dtype ,) # up __A = [] __A = list(reversed(A ) ) __A = list(reversed(A ) ) __A = list(reversed(A ) ) __A = reversed_block_out_channels[0] for i, up_block_type in enumerate(self.up_block_types ): __A = output_channel __A = reversed_block_out_channels[i] __A = reversed_block_out_channels[min(i + 1 ,len(A ) - 1 )] __A = i == len(A ) - 1 if up_block_type == "CrossAttnUpBlock2D": __A = FlaxCrossAttnUpBlockaD( in_channels=A ,out_channels=A ,prev_output_channel=A ,num_layers=self.layers_per_block + 1 ,num_attention_heads=reversed_num_attention_heads[i] ,add_upsample=not is_final_block ,dropout=self.dropout ,use_linear_projection=self.use_linear_projection ,only_cross_attention=only_cross_attention[i] ,use_memory_efficient_attention=self.use_memory_efficient_attention ,dtype=self.dtype ,) else: __A = FlaxUpBlockaD( in_channels=A ,out_channels=A ,prev_output_channel=A ,num_layers=self.layers_per_block + 1 ,add_upsample=not is_final_block ,dropout=self.dropout ,dtype=self.dtype ,) up_blocks.append(A ) __A = output_channel __A = up_blocks # out __A = nn.GroupNorm(num_groups=32 ,epsilon=1E-5 ) __A = nn.Conv( self.out_channels ,kernel_size=(3, 3) ,strides=(1, 1) ,padding=((1, 1), (1, 1)) ,dtype=self.dtype ,) def __call__( self : Optional[Any] ,A : Tuple ,A : List[Any] ,A : List[str] ,A : Union[str, Any]=None ,A : Union[str, Any]=None ,A : bool = True ,A : bool = False ,): # 1. time if not isinstance(A ,jnp.ndarray ): __A = jnp.array([timesteps] ,dtype=jnp.intaa ) elif isinstance(A ,jnp.ndarray ) and len(timesteps.shape ) == 0: __A = timesteps.astype(dtype=jnp.floataa ) __A = jnp.expand_dims(A ,0 ) __A = self.time_proj(A ) __A = self.time_embedding(A ) # 2. pre-process __A = jnp.transpose(A ,(0, 2, 3, 1) ) __A = self.conv_in(A ) # 3. down __A = (sample,) for down_block in self.down_blocks: if isinstance(A ,A ): __A , __A = down_block(A ,A ,A ,deterministic=not train ) else: __A , __A = down_block(A ,A ,deterministic=not train ) down_block_res_samples += res_samples if down_block_additional_residuals is not None: __A = () for down_block_res_sample, down_block_additional_residual in zip( A ,A ): down_block_res_sample += down_block_additional_residual new_down_block_res_samples += (down_block_res_sample,) __A = new_down_block_res_samples # 4. mid __A = self.mid_block(A ,A ,A ,deterministic=not train ) if mid_block_additional_residual is not None: sample += mid_block_additional_residual # 5. up for up_block in self.up_blocks: __A = down_block_res_samples[-(self.layers_per_block + 1) :] __A = down_block_res_samples[: -(self.layers_per_block + 1)] if isinstance(A ,A ): __A = up_block( A ,temb=A ,encoder_hidden_states=A ,res_hidden_states_tuple=A ,deterministic=not train ,) else: __A = up_block(A ,temb=A ,res_hidden_states_tuple=A ,deterministic=not train ) # 6. post-process __A = self.conv_norm_out(A ) __A = nn.silu(A ) __A = self.conv_out(A ) __A = jnp.transpose(A ,(0, 3, 1, 2) ) if not return_dict: return (sample,) return FlaxUNetaDConditionOutput(sample=A )	15	"""simple docstring""" import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class __snake_case ( _lowercase): snake_case__ : List[Any] = "Speech2TextFeatureExtractor" snake_case__ : Union[str, Any] = "Speech2TextTokenizer" def __init__( self : int , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" super().__init__(__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : str = False def __call__( self : List[Any] , __lowerCAmelCase : int , __lowerCAmelCase : List[str] ): """simple docstring""" if self._in_target_context_manager: return self.current_processor(__lowerCAmelCase , *__lowerCAmelCase ) if "raw_speech" in kwargs: warnings.warn('''Using `raw_speech` as a keyword argument is deprecated. Use `audio` instead.''' ) _lowerCamelCase : str = kwargs.pop('''raw_speech''' ) else: _lowerCamelCase : Tuple = kwargs.pop('''audio''' , __lowerCAmelCase ) _lowerCamelCase : Optional[Any] = kwargs.pop('''sampling_rate''' , __lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = kwargs.pop('''text''' , __lowerCAmelCase ) if len(__lowerCAmelCase ) > 0: _lowerCamelCase : List[Any] = args[0] _lowerCamelCase : int = args[1:] if audio is None and text is None: raise ValueError('''You need to specify either an `audio` or `text` input to process.''' ) if audio is not None: _lowerCamelCase : List[Any] = self.feature_extractor(__lowerCAmelCase , __lowerCAmelCase , sampling_rate=__lowerCAmelCase , __lowerCAmelCase ) if text is not None: _lowerCamelCase : List[Any] = self.tokenizer(__lowerCAmelCase , __lowerCAmelCase ) if text is None: return inputs elif audio is None: return encodings else: _lowerCamelCase : List[str] = encodings['''input_ids'''] return inputs def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : List[Any] , __lowerCAmelCase : Tuple ): """simple docstring""" return self.tokenizer.batch_decode(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : List[str] , *__lowerCAmelCase : int ): """simple docstring""" return self.tokenizer.decode(__lowerCAmelCase , **__lowerCAmelCase ) @contextmanager def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" warnings.warn( '''`as_target_processor` is deprecated and will be removed in v5 of Transformers. You can process your ''' '''labels by using the argument `text` of the regular `__call__` method (either in the same call as ''' '''your audio inputs, or in a separate call.''' ) _lowerCamelCase : Union[str, Any] = True _lowerCamelCase : Any = self.tokenizer yield _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : Tuple = False	72
"""simple docstring""" import dataclasses import json import warnings from dataclasses import dataclass, field from time import time from typing import List from ..utils import logging lowerCAmelCase_ = logging.get_logger(__name__) def __UpperCAmelCase ( __lowerCamelCase=None , __lowerCamelCase=None ) -> Union[str, Any]: return field(default_factory=lambda: default , metadata=__lowerCamelCase ) @dataclass class __A : '''simple docstring''' lowerCAmelCase : List[str] = list_field( default=[] ,metadata={ "help": ( "Model checkpoints to be provided to the AutoModel classes. Leave blank to benchmark the base version" " of all available models" ) } ,) lowerCAmelCase : List[int] = list_field( default=[8] ,metadata={"help": "List of batch sizes for which memory and time performance will be evaluated"} ) lowerCAmelCase : List[int] = list_field( default=[8, 3_2, 1_2_8, 5_1_2] ,metadata={"help": "List of sequence lengths for which memory and time performance will be evaluated"} ,) lowerCAmelCase : bool = field( default=A_ ,metadata={"help": "Whether to benchmark inference of model. Inference can be disabled via --no-inference."} ,) lowerCAmelCase : bool = field( default=A_ ,metadata={"help": "Whether to run on available cuda devices. Cuda can be disabled via --no-cuda."} ,) lowerCAmelCase : bool = field( default=A_ ,metadata={"help": "Whether to run on available tpu devices. TPU can be disabled via --no-tpu."} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Use FP16 to accelerate inference."} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Benchmark training of model"} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Verbose memory tracing"} ) lowerCAmelCase : bool = field( default=A_ ,metadata={"help": "Whether to perform speed measurements. Speed measurements can be disabled via --no-speed."} ,) lowerCAmelCase : bool = field( default=A_ ,metadata={ "help": "Whether to perform memory measurements. Memory measurements can be disabled via --no-memory" } ,) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Trace memory line by line"} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Save result to a CSV file"} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Save all print statements in a log file"} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Whether to print environment information"} ) lowerCAmelCase : bool = field( default=A_ ,metadata={ "help": ( "Whether to use multiprocessing for memory and speed measurement. It is highly recommended to use" " multiprocessing for accurate CPU and GPU memory measurements. This option should only be disabled" " for debugging / testing and on TPU." ) } ,) lowerCAmelCase : str = field( default=F"inference_time_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving time results to csv."} ,) lowerCAmelCase : str = field( default=F"inference_memory_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving memory results to csv."} ,) lowerCAmelCase : str = field( default=F"train_time_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving time results to csv for training."} ,) lowerCAmelCase : str = field( default=F"train_memory_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving memory results to csv for training."} ,) lowerCAmelCase : str = field( default=F"env_info_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving environment information."} ,) lowerCAmelCase : str = field( default=F"log_{round(time() )}.csv" ,metadata={"help": "Log filename used if print statements are saved in log."} ,) lowerCAmelCase : int = field(default=3 ,metadata={"help": "Times an experiment will be run."} ) lowerCAmelCase : bool = field( default=A_ ,metadata={ "help": ( "Instead of loading the model as defined in `config.architectures` if exists, just load the pretrain" " model weights." ) } ,) def UpperCAmelCase ( self : Dict ) -> int: """simple docstring""" warnings.warn( f"""The class {self.__class__} is deprecated. Hugging Face Benchmarking utils""" ''' are deprecated in general and it is advised to use external Benchmarking libraries ''' ''' to benchmark Transformer models.''' ,_snake_case ,) def UpperCAmelCase ( self : Dict ) -> str: """simple docstring""" return json.dumps(dataclasses.asdict(self ) ,indent=2 ) @property def UpperCAmelCase ( self : int ) -> List[str]: """simple docstring""" if len(self.models ) <= 0: raise ValueError( '''Please make sure you provide at least one model name / model identifier, e.g. `--models''' ''' bert-base-cased` or `args.models = [\'bert-base-cased\'].''' ) return self.models @property def UpperCAmelCase ( self : Optional[int] ) -> str: """simple docstring""" if not self.multi_process: return False elif self.is_tpu: logger.info('''Multiprocessing is currently not possible on TPU.''' ) return False else: return True	16	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = {'''configuration_reformer''': ['''REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ReformerConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ReformerAttention''', '''ReformerForMaskedLM''', '''ReformerForQuestionAnswering''', '''ReformerForSequenceClassification''', '''ReformerLayer''', '''ReformerModel''', '''ReformerModelWithLMHead''', '''ReformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_reformer import REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, ReformerConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer import ReformerTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer_fast import ReformerTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_reformer import ( REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, ReformerAttention, ReformerForMaskedLM, ReformerForQuestionAnswering, ReformerForSequenceClassification, ReformerLayer, ReformerModel, ReformerModelWithLMHead, ReformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
"""simple docstring""" from typing import TYPE_CHECKING from ..utils import _LazyModule _a = { 'config': [ 'EXTERNAL_DATA_FORMAT_SIZE_LIMIT', 'OnnxConfig', 'OnnxConfigWithPast', 'OnnxSeq2SeqConfigWithPast', 'PatchingSpec', ], 'convert': ['export', 'validate_model_outputs'], 'features': ['FeaturesManager'], 'utils': ['ParameterFormat', 'compute_serialized_parameters_size'], } if TYPE_CHECKING: from .config import ( EXTERNAL_DATA_FORMAT_SIZE_LIMIT, OnnxConfig, OnnxConfigWithPast, OnnxSeqaSeqConfigWithPast, PatchingSpec, ) from .convert import export, validate_model_outputs from .features import FeaturesManager from .utils import ParameterFormat, compute_serialized_parameters_size else: import sys _a = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)	17	"""simple docstring""" from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available lowerCAmelCase__ = { '''configuration_autoformer''': [ '''AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''AutoformerConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''AutoformerForPrediction''', '''AutoformerModel''', '''AutoformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_autoformer import ( AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, AutoformerConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_autoformer import ( AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, AutoformerForPrediction, AutoformerModel, AutoformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
import numpy as np from cva import destroyAllWindows, imread, imshow, waitKey class a__ : def __init__( self : Union[str, Any],_A : Tuple,_A : int,_A : int ): """simple docstring""" if dst_width < 0 or dst_height < 0: raise ValueError("Destination width/height should be > 0" ) SCREAMING_SNAKE_CASE_ : Optional[Any] = img SCREAMING_SNAKE_CASE_ : Union[str, Any] = img.shape[1] SCREAMING_SNAKE_CASE_ : Tuple = img.shape[0] SCREAMING_SNAKE_CASE_ : Optional[Any] = dst_width SCREAMING_SNAKE_CASE_ : Optional[int] = dst_height SCREAMING_SNAKE_CASE_ : Dict = self.src_w / self.dst_w SCREAMING_SNAKE_CASE_ : str = self.src_h / self.dst_h SCREAMING_SNAKE_CASE_ : Dict = ( np.ones((self.dst_h, self.dst_w, 3),np.uinta ) * 255 ) def __UpperCamelCase ( self : Optional[int] ): """simple docstring""" for i in range(self.dst_h ): for j in range(self.dst_w ): SCREAMING_SNAKE_CASE_ : List[str] = self.img[self.get_y(_A )][self.get_x(_A )] def __UpperCamelCase ( self : str,_A : int ): """simple docstring""" return int(self.ratio_x * x ) def __UpperCamelCase ( self : Tuple,_A : int ): """simple docstring""" return int(self.ratio_y * y ) if __name__ == "__main__": __lowerCamelCase , __lowerCamelCase : Dict = 8_00, 6_00 __lowerCamelCase : Dict = imread('''image_data/lena.jpg''', 1) __lowerCamelCase : Any = NearestNeighbour(im, dst_w, dst_h) n.process() imshow( f'''Image resized from: {im.shape[1]}x{im.shape[0]} to {dst_w}x{dst_h}''', n.output ) waitKey(0) destroyAllWindows()	18	"""simple docstring""" import math def snake_case_ ( A_ : int ): '''simple docstring''' if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5, int(math.sqrt(A_ ) + 1 ), 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def snake_case_ ( A_ : float = 0.1 ): '''simple docstring''' _lowerCamelCase : Optional[int] = 3 _lowerCamelCase : List[str] = 3 while primes / (2 * j - 1) >= ratio: for i in range(j * j + j + 1, (j + 2) * (j + 2), j + 1 ): primes += is_prime(A_ ) j += 2 return j if __name__ == "__main__": import doctest doctest.testmod()	72
import argparse import torch from transformers import BlenderbotConfig, BlenderbotForConditionalGeneration from transformers.utils import logging logging.set_verbosity_info() __A =logging.get_logger(__name__) __A =[ ['''attention''', '''attn'''], ['''encoder_attention''', '''encoder_attn'''], ['''q_lin''', '''q_proj'''], ['''k_lin''', '''k_proj'''], ['''v_lin''', '''v_proj'''], ['''out_lin''', '''out_proj'''], ['''norm_embeddings''', '''layernorm_embedding'''], ['''position_embeddings''', '''embed_positions'''], ['''embeddings''', '''embed_tokens'''], ['''ffn.lin''', '''fc'''], ] def lowerCamelCase_ ( lowerCamelCase__ ): if k == "embeddings.weight": return "shared.weight" for parlai_name, hf_name in PATTERNS: lowerCamelCase_ = k.replace(lowerCamelCase__ , lowerCamelCase__ ) if k.startswith("encoder" ): lowerCamelCase_ = k.replace(".attn" , ".self_attn" ) lowerCamelCase_ = k.replace("norm1" , "self_attn_layer_norm" ) lowerCamelCase_ = k.replace("norm2" , "final_layer_norm" ) elif k.startswith("decoder" ): lowerCamelCase_ = k.replace("norm1" , "self_attn_layer_norm" ) lowerCamelCase_ = k.replace("norm2" , "encoder_attn_layer_norm" ) lowerCamelCase_ = k.replace("norm3" , "final_layer_norm" ) return k def lowerCamelCase_ ( lowerCamelCase__ ): lowerCamelCase_ = [ "model.encoder.layernorm_embedding.weight", "model.encoder.layernorm_embedding.bias", "model.decoder.layernorm_embedding.weight", "model.decoder.layernorm_embedding.bias", ] for k in keys: lowerCamelCase_ = sd.pop(lowerCamelCase__ ) lowerCamelCase_ = k.replace("layernorm_embedding" , "layer_norm" ) assert new_k not in sd lowerCamelCase_ = v __A =['''START'''] @torch.no_grad() def lowerCamelCase_ ( lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ ): lowerCamelCase_ = torch.load(lowerCamelCase__ , map_location="cpu" ) lowerCamelCase_ = model["model"] lowerCamelCase_ = BlenderbotConfig.from_json_file(lowerCamelCase__ ) lowerCamelCase_ = BlenderbotForConditionalGeneration(lowerCamelCase__ ) lowerCamelCase_ = m.model.state_dict().keys() lowerCamelCase_ = [] lowerCamelCase_ = {} for k, v in sd.items(): if k in IGNORE_KEYS: continue lowerCamelCase_ = rename_state_dict_key(lowerCamelCase__ ) if new_k not in valid_keys: failures.append([k, new_k] ) else: lowerCamelCase_ = v if cfg.normalize_before: # Blenderbot-3B checkpoints. Rename layernorm_embedding -> layer_norm rename_layernorm_keys(lowerCamelCase__ ) m.model.load_state_dict(lowerCamelCase__ , strict=lowerCamelCase__ ) m.half() m.save_pretrained(lowerCamelCase__ ) if __name__ == "__main__": __A =argparse.ArgumentParser() # Required parameters parser.add_argument('''--src_path''', type=str, help='''like blenderbot-model.bin''') parser.add_argument('''--save_dir''', default='''hf_blenderbot''', type=str, help='''Where to save converted model.''') parser.add_argument( '''--hf_config_json''', default='''blenderbot-3b-config.json''', type=str, help='''Path to config to use''' ) __A =parser.parse_args() convert_parlai_checkpoint(args.src_path, args.save_dir, args.hf_config_json)	19	"""simple docstring""" import unittest from queue import Empty from threading import Thread from transformers import AutoTokenizer, TextIteratorStreamer, TextStreamer, is_torch_available from transformers.testing_utils import CaptureStdout, require_torch, torch_device from ..test_modeling_common import ids_tensor if is_torch_available(): import torch from transformers import AutoModelForCausalLM @require_torch class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Optional[Any] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Union[str, Any] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = tokenizer.decode(greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Union[str, Any] = TextStreamer(__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : int = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Optional[int] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : List[str] = tokenizer.decode(greedy_ids[0] ) _lowerCamelCase : Tuple = TextIteratorStreamer(__lowerCAmelCase ) _lowerCamelCase : Tuple = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() _lowerCamelCase : int = '''''' for new_text in streamer: streamer_text += new_text self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Dict = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : str = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : Optional[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : int = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = greedy_ids[:, input_ids.shape[1] :] _lowerCamelCase : int = tokenizer.decode(new_greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Any = TextStreamer(__lowerCAmelCase , skip_prompt=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : Union[str, Any] = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''distilgpt2''' ) _lowerCamelCase : Optional[Any] = AutoModelForCausalLM.from_pretrained('''distilgpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = -1 _lowerCamelCase : Any = torch.ones((1, 5) , device=__lowerCAmelCase ).long() * model.config.bos_token_id with CaptureStdout() as cs: _lowerCamelCase : List[Any] = TextStreamer(__lowerCAmelCase , skip_special_tokens=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The prompt contains a special token, so the streamer should not print it. As such, the output text, when # re-tokenized, must only contain one token _lowerCamelCase : Any = cs.out[:-1] # Remove the final "\n" _lowerCamelCase : int = tokenizer(__lowerCAmelCase , return_tensors='''pt''' ) self.assertEqual(streamer_text_tokenized.input_ids.shape , (1, 1) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : List[str] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Dict = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = -1 _lowerCamelCase : Any = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = TextIteratorStreamer(__lowerCAmelCase , timeout=0.0_01 ) _lowerCamelCase : str = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() # The streamer will timeout after 0.001 seconds, so an exception will be raised with self.assertRaises(__lowerCAmelCase ): _lowerCamelCase : Optional[Any] = '''''' for new_text in streamer: streamer_text += new_text	72
from arguments import InitializationArguments from transformers import AutoConfig, AutoModelForCausalLM, AutoTokenizer, HfArgumentParser # Configuration lowercase : str = HfArgumentParser(InitializationArguments) lowercase : int = parser.parse_args() # Load codeparrot tokenizer trained for Python code tokenization lowercase : Optional[int] = AutoTokenizer.from_pretrained(args.tokenizer_name) # Config: "scale_attn_by_layer_idx" and "reorder_and_upcast_attn" are Mistral stability tweaks lowercase : Optional[Any] = { """vocab_size""": len(tokenizer), """scale_attn_by_inverse_layer_idx""": True, """reorder_and_upcast_attn""": True, } # Load model config (GPT-2 large in this case) lowercase : str = AutoConfig.from_pretrained(args.config_name, **config_kwargs) # Initialize new model with config lowercase : Union[str, Any] = AutoModelForCausalLM.from_config(config) # Save model to the hub model.save_pretrained(args.model_name, push_to_hub=args.push_to_hub)	20	"""simple docstring""" from ....configuration_utils import PretrainedConfig from ....utils import logging lowerCAmelCase__ = logging.get_logger(__name__) # TODO: upload to AWS lowerCAmelCase__ = { '''yjernite/retribert-base-uncased''': ( '''https://huggingface.co/yjernite/retribert-base-uncased/resolve/main/config.json''' ), } class __snake_case ( _lowercase): snake_case__ : int = "retribert" def __init__( self : Optional[int] , __lowerCAmelCase : str=3_0_5_2_2 , __lowerCAmelCase : Tuple=7_6_8 , __lowerCAmelCase : Union[str, Any]=8 , __lowerCAmelCase : Any=1_2 , __lowerCAmelCase : Optional[int]=3_0_7_2 , __lowerCAmelCase : List[str]="gelu" , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=5_1_2 , __lowerCAmelCase : List[str]=2 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Optional[Any]=1E-12 , __lowerCAmelCase : Tuple=True , __lowerCAmelCase : Any=1_2_8 , __lowerCAmelCase : Optional[int]=0 , __lowerCAmelCase : str , ): """simple docstring""" super().__init__(pad_token_id=__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = vocab_size _lowerCamelCase : Union[str, Any] = hidden_size _lowerCamelCase : Dict = num_hidden_layers _lowerCamelCase : int = num_attention_heads _lowerCamelCase : int = hidden_act _lowerCamelCase : str = intermediate_size _lowerCamelCase : Union[str, Any] = hidden_dropout_prob _lowerCamelCase : List[Any] = attention_probs_dropout_prob _lowerCamelCase : Optional[int] = max_position_embeddings _lowerCamelCase : List[Any] = type_vocab_size _lowerCamelCase : Any = initializer_range _lowerCamelCase : Optional[int] = layer_norm_eps _lowerCamelCase : int = share_encoders _lowerCamelCase : Optional[Any] = projection_dim	72
import warnings from typing import List, Optional, Union from ...image_utils import ImageInput from ...processing_utils import ProcessorMixin from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy from ...utils import TensorType class _lowerCamelCase( _a ): lowercase_ : Dict = ["""image_processor""", """tokenizer"""] lowercase_ : Optional[Any] = """FlavaImageProcessor""" lowercase_ : List[str] = ("""BertTokenizer""", """BertTokenizerFast""") def __init__( self, lowerCamelCase=None, lowerCamelCase=None, lowerCamelCase) -> List[str]: """simple docstring""" _lowercase : Dict = None if "feature_extractor" in kwargs: warnings.warn( 'The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`' ' instead.', lowerCamelCase, ) _lowercase : List[Any] = kwargs.pop('feature_extractor') _lowercase : List[Any] = image_processor if image_processor is not None else feature_extractor if image_processor is None: raise ValueError('You need to specify an `image_processor`.') if tokenizer is None: raise ValueError('You need to specify a `tokenizer`.') super().__init__(lowerCamelCase, lowerCamelCase) _lowercase : int = self.image_processor def __call__( self, lowerCamelCase = None, lowerCamelCase = None, lowerCamelCase = True, lowerCamelCase = False, lowerCamelCase = False, lowerCamelCase = None, lowerCamelCase = 0, lowerCamelCase = None, lowerCamelCase = None, lowerCamelCase = None, lowerCamelCase = None, lowerCamelCase = None, lowerCamelCase = False, lowerCamelCase = False, lowerCamelCase = False, lowerCamelCase = False, lowerCamelCase = True, lowerCamelCase = None, lowerCamelCase, ) -> Dict: """simple docstring""" if text is None and images is None: raise ValueError('You have to specify either text or images. Both cannot be none.') if text is not None: _lowercase : Optional[int] = self.tokenizer( text=lowerCamelCase, add_special_tokens=lowerCamelCase, padding=lowerCamelCase, truncation=lowerCamelCase, max_length=lowerCamelCase, stride=lowerCamelCase, pad_to_multiple_of=lowerCamelCase, return_token_type_ids=lowerCamelCase, return_attention_mask=lowerCamelCase, return_overflowing_tokens=lowerCamelCase, return_special_tokens_mask=lowerCamelCase, return_offsets_mapping=lowerCamelCase, return_length=lowerCamelCase, verbose=lowerCamelCase, return_tensors=lowerCamelCase, lowerCamelCase, ) if images is not None: _lowercase : str = self.image_processor( lowerCamelCase, return_image_mask=lowerCamelCase, return_codebook_pixels=lowerCamelCase, return_tensors=lowerCamelCase, lowerCamelCase, ) if text is not None and images is not None: encoding.update(lowerCamelCase) return encoding elif text is not None: return encoding else: return BatchEncoding(data=dict(*lowerCamelCase), tensor_type=lowerCamelCase) def UpperCamelCase ( self, lowerCamelCase, *lowerCamelCase) -> str: """simple docstring""" return self.tokenizer.batch_decode(lowerCamelCase, *lowerCamelCase) def UpperCamelCase ( self, lowerCamelCase, *lowerCamelCase) -> List[str]: """simple docstring""" return self.tokenizer.decode(lowerCamelCase, **lowerCamelCase) @property def UpperCamelCase ( self) -> Optional[Any]: """simple docstring""" _lowercase : Dict = self.tokenizer.model_input_names _lowercase : List[str] = self.image_processor.model_input_names return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names)) @property def UpperCamelCase ( self) -> Optional[int]: """simple docstring""" warnings.warn( '`feature_extractor_class` is deprecated and will be removed in v5. Use `image_processor_class` instead.', lowerCamelCase, ) return self.image_processor_class @property def UpperCamelCase ( self) -> int: """simple docstring""" warnings.warn( '`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.', lowerCamelCase, ) return self.image_processor	21	"""simple docstring""" import unittest from diffusers.pipelines.pipeline_utils import is_safetensors_compatible class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : Optional[int] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', # Removed: 'unet/diffusion_pytorch_model.safetensors', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', # Removed: 'text_encoder/model.safetensors', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Optional[int] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" _lowerCamelCase : str = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] _lowerCamelCase : Optional[Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : Tuple = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', # Removed: 'unet/diffusion_pytorch_model.fp16.safetensors', ] _lowerCamelCase : Any = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', ] _lowerCamelCase : str = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', # 'text_encoder/model.fp16.safetensors', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : int = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) )	72
'''simple docstring''' import argparse import json import re from pathlib import Path import requests import torch from huggingface_hub import hf_hub_download from PIL import Image from transformers import ( MobileNetVaConfig, MobileNetVaForImageClassification, MobileNetVaImageProcessor, load_tf_weights_in_mobilenet_va, ) from transformers.utils import logging logging.set_verbosity_info() __SCREAMING_SNAKE_CASE :Any = logging.get_logger(__name__) def UpperCAmelCase_ ( __lowercase : Union[str, Any] ) -> Any: '''simple docstring''' _UpperCAmelCase = MobileNetVaConfig(layer_norm_eps=0.001 ) if "_quant" in model_name: raise ValueError("Quantized models are not supported." ) _UpperCAmelCase = re.match(r"^mobilenet_v1_([^_])_([^_])$" , __lowercase ) if matches: _UpperCAmelCase = float(matches[1] ) _UpperCAmelCase = int(matches[2] ) # The TensorFlow version of MobileNetV1 predicts 1001 classes instead of # the usual 1000. The first class (index 0) is "background". _UpperCAmelCase = 1001 _UpperCAmelCase = "imagenet-1k-id2label.json" _UpperCAmelCase = "huggingface/label-files" _UpperCAmelCase = json.load(open(hf_hub_download(__lowercase , __lowercase , repo_type="dataset" ) , "r" ) ) _UpperCAmelCase = {int(__lowercase ) + 1: v for k, v in idalabel.items()} _UpperCAmelCase = "background" _UpperCAmelCase = idalabel _UpperCAmelCase = {v: k for k, v in idalabel.items()} return config def UpperCAmelCase_ ( ) -> Optional[Any]: '''simple docstring''' _UpperCAmelCase = "http://images.cocodataset.org/val2017/000000039769.jpg" _UpperCAmelCase = Image.open(requests.get(__lowercase , stream=__lowercase ).raw ) return im @torch.no_grad() def UpperCAmelCase_ ( __lowercase : Dict , __lowercase : Optional[int] , __lowercase : int , __lowercase : Optional[Any]=False ) -> List[str]: '''simple docstring''' _UpperCAmelCase = get_mobilenet_va_config(__lowercase ) # Load 🤗 model _UpperCAmelCase = MobileNetVaForImageClassification(__lowercase ).eval() # Load weights from TensorFlow checkpoint load_tf_weights_in_mobilenet_va(__lowercase , __lowercase , __lowercase ) # Check outputs on an image, prepared by MobileNetV1ImageProcessor _UpperCAmelCase = MobileNetVaImageProcessor( crop_size={"width": config.image_size, "height": config.image_size} , size={"shortest_edge": config.image_size + 32} , ) _UpperCAmelCase = image_processor(images=prepare_img() , return_tensors="pt" ) _UpperCAmelCase = model(**__lowercase ) _UpperCAmelCase = outputs.logits assert logits.shape == (1, 1001) if model_name == "mobilenet_v1_1.0_224": _UpperCAmelCase = torch.tensor([-4.1739, -1.1233, 3.1205] ) elif model_name == "mobilenet_v1_0.75_192": _UpperCAmelCase = torch.tensor([-3.9440, -2.3141, -0.3333] ) else: _UpperCAmelCase = None if expected_logits is not None: assert torch.allclose(logits[0, :3] , __lowercase , atol=1E-4 ) Path(__lowercase ).mkdir(exist_ok=__lowercase ) print(f'Saving model {model_name} to {pytorch_dump_folder_path}' ) model.save_pretrained(__lowercase ) print(f'Saving image processor to {pytorch_dump_folder_path}' ) image_processor.save_pretrained(__lowercase ) if push_to_hub: print("Pushing to the hub..." ) _UpperCAmelCase = "google/" + model_name image_processor.push_to_hub(__lowercase ) model.push_to_hub(__lowercase ) if __name__ == "__main__": __SCREAMING_SNAKE_CASE :Dict = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--model_name''', default='''mobilenet_v1_1.0_224''', type=str, help='''Name of the MobileNetV1 model you\'d like to convert. Should in the form \'mobilenet_v1_<depth>_<size>\'.''', ) parser.add_argument( '''--checkpoint_path''', required=True, type=str, help='''Path to the original TensorFlow checkpoint (.ckpt file).''' ) parser.add_argument( '''--pytorch_dump_folder_path''', required=True, type=str, help='''Path to the output PyTorch model directory.''' ) parser.add_argument( '''--push_to_hub''', action='''store_true''', help='''Whether or not to push the converted model to the 🤗 hub.''' ) __SCREAMING_SNAKE_CASE :List[str] = parser.parse_args() convert_movilevit_checkpoint( args.model_name, args.checkpoint_path, args.pytorch_dump_folder_path, args.push_to_hub )	22	"""simple docstring""" import inspect import unittest import numpy as np from tests.test_modeling_common import floats_tensor from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel if is_vision_available(): from transformers import MaskFormerImageProcessor if is_vision_available(): from PIL import Image class __snake_case : def __init__( self : Tuple , __lowerCAmelCase : Tuple , __lowerCAmelCase : Any=2 , __lowerCAmelCase : Any=True , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Optional[Any]=1_0 , __lowerCAmelCase : List[str]=3 , __lowerCAmelCase : int=3_2 * 4 , __lowerCAmelCase : Dict=3_2 * 6 , __lowerCAmelCase : Any=4 , __lowerCAmelCase : List[str]=3_2 , ): """simple docstring""" _lowerCamelCase : List[str] = parent _lowerCamelCase : str = batch_size _lowerCamelCase : Dict = is_training _lowerCamelCase : str = use_auxiliary_loss _lowerCamelCase : Any = num_queries _lowerCamelCase : List[Any] = num_channels _lowerCamelCase : int = min_size _lowerCamelCase : Any = max_size _lowerCamelCase : int = num_labels _lowerCamelCase : List[str] = mask_feature_size def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size] ).to( __lowerCAmelCase ) _lowerCamelCase : List[Any] = torch.ones([self.batch_size, self.min_size, self.max_size] , device=__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = ( torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=__lowerCAmelCase ) > 0.5 ).float() _lowerCamelCase : Optional[int] = (torch.rand((self.batch_size, self.num_labels) , device=__lowerCAmelCase ) > 0.5).long() _lowerCamelCase : Dict = self.get_config() return config, pixel_values, pixel_mask, mask_labels, class_labels def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" return MaskFormerConfig.from_backbone_and_decoder_configs( backbone_config=SwinConfig( depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig( decoder_ffn_dim=1_2_8 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : Dict = self.prepare_config_and_inputs() _lowerCamelCase : List[str] = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask} return config, inputs_dict def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = output.encoder_hidden_states _lowerCamelCase : Tuple = output.pixel_decoder_hidden_states _lowerCamelCase : Dict = output.transformer_decoder_hidden_states self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , config.decoder_config.decoder_layers ) def SCREAMING_SNAKE_CASE ( self : Tuple , __lowerCAmelCase : Dict , __lowerCAmelCase : str , __lowerCAmelCase : Tuple , __lowerCAmelCase : List[Any]=False ): """simple docstring""" with torch.no_grad(): _lowerCamelCase : Optional[int] = MaskFormerModel(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() _lowerCamelCase : Tuple = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) # the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the # encoder and pixel decoder self.parent.assertEqual( output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , ) # let's ensure the other two hidden state exists self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(output.encoder_last_hidden_state is not None ) if output_hidden_states: self.check_output_hidden_state(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = MaskFormerForInstanceSegmentation(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() def comm_check_on_output(__lowerCAmelCase : Dict ): # let's still check that all the required stuff is there self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.encoder_last_hidden_state is not None ) # okay, now we need to check the logits shape # due to the encoder compression, masks have a //4 spatial size self.parent.assertEqual( result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , ) # + 1 for null class self.parent.assertEqual( result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1) ) with torch.no_grad(): _lowerCamelCase : str = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) _lowerCamelCase : List[str] = model( pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) self.parent.assertTrue(result.loss is not None ) self.parent.assertEqual(result.loss.shape , torch.Size([1] ) ) @require_torch class __snake_case ( _lowercase , _lowercase , unittest.TestCase): snake_case__ : Dict = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else () snake_case__ : Any = ( {"feature-extraction": MaskFormerModel, "image-segmentation": MaskFormerForInstanceSegmentation} if is_torch_available() else {} ) snake_case__ : List[str] = False snake_case__ : List[str] = False snake_case__ : Optional[int] = False snake_case__ : Dict = False def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = MaskFormerModelTester(self ) _lowerCamelCase : Optional[Any] = ConfigTester(self , config_class=__lowerCAmelCase , has_text_modality=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Dict = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , *__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(__lowerCAmelCase ) @unittest.skip(reason='''MaskFormer does not use inputs_embeds''' ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''' ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer is not a generative model''' ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not use token embeddings''' ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" pass @require_torch_multi_gpu @unittest.skip( reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''' ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" pass @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : str = model_class(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCamelCase : Dict = [signature.parameters.keys()] _lowerCamelCase : Optional[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __lowerCAmelCase ) @slow def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" for model_name in ["facebook/maskformer-swin-small-coco"]: _lowerCamelCase : Union[str, Any] = MaskFormerModel.from_pretrained(__lowerCAmelCase ) self.assertIsNotNone(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = (self.model_tester.min_size,) 2 _lowerCamelCase : Union[str, Any] = { '''pixel_values''': torch.randn((2, 3, size) , device=__lowerCAmelCase ), '''mask_labels''': torch.randn((2, 1_0, size) , device=__lowerCAmelCase ), '''class_labels''': torch.zeros(2 , 1_0 , device=__lowerCAmelCase ).long(), } _lowerCamelCase : int = MaskFormerForInstanceSegmentation(MaskFormerConfig() ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = model(__lowerCAmelCase ) self.assertTrue(outputs.loss is not None ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : List[str] = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , __lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : List[Any] = model_class(__lowerCAmelCase ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_attentions=__lowerCAmelCase ) self.assertTrue(outputs.attentions is not None ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" if not self.model_tester.is_training: return # only MaskFormerForInstanceSegmentation has the loss _lowerCamelCase : Union[str, Any] = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : int = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : Any = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : List[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ).loss loss.backward() def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : int = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : str = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : List[str] = True _lowerCamelCase : Optional[int] = True _lowerCamelCase : Optional[Any] = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) _lowerCamelCase : List[Any] = outputs.encoder_hidden_states[0] encoder_hidden_states.retain_grad() _lowerCamelCase : Tuple = outputs.pixel_decoder_hidden_states[0] pixel_decoder_hidden_states.retain_grad() # we requires_grad=True in inputs_embeds (line 2152), the original implementation don't _lowerCamelCase : List[str] = outputs.transformer_decoder_hidden_states[0] transformer_decoder_hidden_states.retain_grad() _lowerCamelCase : Optional[int] = outputs.attentions[0] attentions.retain_grad() outputs.loss.backward(retain_graph=__lowerCAmelCase ) self.assertIsNotNone(encoder_hidden_states.grad ) self.assertIsNotNone(pixel_decoder_hidden_states.grad ) self.assertIsNotNone(transformer_decoder_hidden_states.grad ) self.assertIsNotNone(attentions.grad ) lowerCAmelCase__ = 1E-4 def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_vision @slow class __snake_case ( unittest.TestCase): @cached_property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return ( MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''' ) if is_vision_available() else None ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : str = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = self.default_image_processor _lowerCamelCase : List[Any] = prepare_img() _lowerCamelCase : Any = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : int = model(__lowerCAmelCase ) _lowerCamelCase : str = torch.tensor( [[-0.04_82, 0.92_28, 0.49_51], [-0.25_47, 0.80_17, 0.85_27], [-0.00_69, 0.33_85, -0.00_89]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.encoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Union[str, Any] = torch.tensor( [[-0.84_22, -0.84_34, -0.97_18], [-1.01_44, -0.55_65, -0.41_95], [-1.00_38, -0.44_84, -0.19_61]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Optional[int] = torch.tensor( [[0.28_52, -0.01_59, 0.97_35], [0.62_54, 0.18_58, 0.85_29], [-0.06_80, -0.41_16, 1.84_13]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.transformer_decoder_last_hidden_state[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[int] = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : str = prepare_img() _lowerCamelCase : int = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[int] = model(__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : Optional[int] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : List[str] = [ [-1.3_73_71_24, -1.7_72_49_37, -1.9_36_42_33], [-1.5_97_72_81, -1.9_86_79_39, -2.1_52_36_95], [-1.5_79_53_98, -1.9_26_98_32, -2.09_39_42], ] _lowerCamelCase : Any = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : List[Any] = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : str = torch.tensor( [ [1.6512E00, -5.2572E00, -3.3519E00], [3.6169E-02, -5.9025E00, -2.9313E00], [1.0766E-04, -7.7630E00, -5.1263E00], ] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Any = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : Tuple = self.default_image_processor _lowerCamelCase : Tuple = prepare_img() _lowerCamelCase : Optional[Any] = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : List[Any] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : int = [[-0.90_46, -2.63_66, -4.60_62], [-3.41_79, -5.78_90, -8.80_57], [-4.91_79, -7.65_60, -10.77_11]] _lowerCamelCase : List[Any] = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : Dict = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : Any = torch.tensor( [[4.71_88, -3.25_85, -2.88_57], [6.68_71, -2.91_81, -1.24_87], [7.24_49, -2.27_64, -2.18_74]] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : List[str] = image_processor( [np.zeros((3, 8_0_0, 1_3_3_3) ), np.zeros((3, 8_0_0, 1_3_3_3) )] , segmentation_maps=[np.zeros((3_8_4, 3_8_4) ).astype(np.floataa ), np.zeros((3_8_4, 3_8_4) ).astype(np.floataa )] , return_tensors='''pt''' , ) _lowerCamelCase : Union[str, Any] = inputs['''pixel_values'''].to(__lowerCAmelCase ) _lowerCamelCase : Dict = [el.to(__lowerCAmelCase ) for el in inputs['''mask_labels''']] _lowerCamelCase : Optional[Any] = [el.to(__lowerCAmelCase ) for el in inputs['''class_labels''']] with torch.no_grad(): _lowerCamelCase : Tuple = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None )	72
'''simple docstring''' import torch from transformers import CamembertForMaskedLM, CamembertTokenizer def snake_case_ ( _lowerCAmelCase : Dict , _lowerCAmelCase : Optional[Any] , _lowerCAmelCase : Tuple , _lowerCAmelCase : str=5 ) -> Any: # Adapted from https://github.com/pytorch/fairseq/blob/master/fairseq/models/roberta/hub_interface.py assert masked_input.count('''<mask>''' ) == 1 UpperCAmelCase : Dict = torch.tensor(tokenizer.encode(_lowerCAmelCase , add_special_tokens=_lowerCAmelCase ) ).unsqueeze(0 ) # Batch size 1 UpperCAmelCase : List[str] = model(_lowerCAmelCase )[0] # The last hidden-state is the first element of the output tuple UpperCAmelCase : Tuple = (input_ids.squeeze() == tokenizer.mask_token_id).nonzero().item() UpperCAmelCase : int = logits[0, masked_index, :] UpperCAmelCase : str = logits.softmax(dim=0 ) UpperCAmelCase , UpperCAmelCase : str = prob.topk(k=_lowerCAmelCase , dim=0 ) UpperCAmelCase : str = ''' '''.join( [tokenizer.convert_ids_to_tokens(indices[i].item() ) for i in range(len(_lowerCAmelCase ) )] ) UpperCAmelCase : Any = tokenizer.mask_token UpperCAmelCase : Optional[int] = [] for index, predicted_token_bpe in enumerate(topk_predicted_token_bpe.split(''' ''' ) ): UpperCAmelCase : int = predicted_token_bpe.replace('''\u2581''' , ''' ''' ) if " {0}".format(_lowerCAmelCase ) in masked_input: topk_filled_outputs.append( ( masked_input.replace(''' {0}'''.format(_lowerCAmelCase ) , _lowerCAmelCase ), values[index].item(), predicted_token, ) ) else: topk_filled_outputs.append( ( masked_input.replace(_lowerCAmelCase , _lowerCAmelCase ), values[index].item(), predicted_token, ) ) return topk_filled_outputs UpperCamelCase__: Optional[int] = CamembertTokenizer.from_pretrained("camembert-base") UpperCamelCase__: List[Any] = CamembertForMaskedLM.from_pretrained("camembert-base") model.eval() UpperCamelCase__: int = "Le camembert est <mask> :)" print(fill_mask(masked_input, model, tokenizer, topk=3))	23	"""simple docstring""" lowerCAmelCase__ = { '''A''': ['''B''', '''C''', '''E'''], '''B''': ['''A''', '''D''', '''E'''], '''C''': ['''A''', '''F''', '''G'''], '''D''': ['''B'''], '''E''': ['''A''', '''B''', '''D'''], '''F''': ['''C'''], '''G''': ['''C'''], } def snake_case_ ( A_ : dict, A_ : int, A_ : int ): '''simple docstring''' _lowerCamelCase : List[str] = set() # keep track of all the paths to be checked _lowerCamelCase : str = [[start]] # return path if start is goal if start == goal: return [start] # keeps looping until all possible paths have been checked while queue: # pop the first path from the queue _lowerCamelCase : str = queue.pop(0 ) # get the last node from the path _lowerCamelCase : List[Any] = path[-1] if node not in explored: _lowerCamelCase : Union[str, Any] = graph[node] # go through all neighbour nodes, construct a new path and # push it into the queue for neighbour in neighbours: _lowerCamelCase : Union[str, Any] = list(A_ ) new_path.append(A_ ) queue.append(A_ ) # return path if neighbour is goal if neighbour == goal: return new_path # mark node as explored explored.add(A_ ) # in case there's no path between the 2 nodes return [] def snake_case_ ( A_ : dict, A_ : int, A_ : Dict ): '''simple docstring''' if not graph or start not in graph or target not in graph: return -1 if start == target: return 0 _lowerCamelCase : Optional[int] = [start] _lowerCamelCase : int = set(A_ ) # Keep tab on distances from `start` node. _lowerCamelCase : int = {start: 0, target: -1} while queue: _lowerCamelCase : Optional[Any] = queue.pop(0 ) if node == target: _lowerCamelCase : Any = ( dist[node] if dist[target] == -1 else min(dist[target], dist[node] ) ) for adjacent in graph[node]: if adjacent not in visited: visited.add(A_ ) queue.append(A_ ) _lowerCamelCase : Any = dist[node] + 1 return dist[target] if __name__ == "__main__": print(bfs_shortest_path(demo_graph, '''G''', '''D''')) # returns ['G', 'C', 'A', 'B', 'D'] print(bfs_shortest_path_distance(demo_graph, '''G''', '''D''')) # returns 4	72
import flax.linen as nn import jax import jax.numpy as jnp class SCREAMING_SNAKE_CASE__ ( nn.Module ): A_ : int A_ : jnp.dtype = jnp.floataa def a (self : str ): """simple docstring""" __snake_case = nn.Conv( self.out_channels , kernel_size=(3, 3) , strides=(1, 1) , padding=((1, 1), (1, 1)) , dtype=self.dtype , ) def __call__(self : Dict , a__ : Any ): """simple docstring""" __snake_case , __snake_case , __snake_case , __snake_case = hidden_states.shape __snake_case = jax.image.resize( a__ , shape=(batch, height * 2, width * 2, channels) , method='''nearest''' , ) __snake_case = self.conv(a__ ) return hidden_states class SCREAMING_SNAKE_CASE__ ( nn.Module ): A_ : int A_ : jnp.dtype = jnp.floataa def a (self : Dict ): """simple docstring""" __snake_case = nn.Conv( self.out_channels , kernel_size=(3, 3) , strides=(2, 2) , padding=((1, 1), (1, 1)) , dtype=self.dtype , ) def __call__(self : Dict , a__ : List[Any] ): """simple docstring""" __snake_case = self.conv(a__ ) return hidden_states class SCREAMING_SNAKE_CASE__ ( nn.Module ): A_ : int A_ : int = None A_ : float = 0.0 A_ : bool = None A_ : jnp.dtype = jnp.floataa def a (self : Union[str, Any] ): """simple docstring""" __snake_case = self.in_channels if self.out_channels is None else self.out_channels __snake_case = nn.GroupNorm(num_groups=32 , epsilon=1E-5 ) __snake_case = nn.Conv( a__ , kernel_size=(3, 3) , strides=(1, 1) , padding=((1, 1), (1, 1)) , dtype=self.dtype , ) __snake_case = nn.Dense(a__ , dtype=self.dtype ) __snake_case = nn.GroupNorm(num_groups=32 , epsilon=1E-5 ) __snake_case = nn.Dropout(self.dropout_prob ) __snake_case = nn.Conv( a__ , kernel_size=(3, 3) , strides=(1, 1) , padding=((1, 1), (1, 1)) , dtype=self.dtype , ) __snake_case = self.in_channels != out_channels if self.use_nin_shortcut is None else self.use_nin_shortcut __snake_case = None if use_nin_shortcut: __snake_case = nn.Conv( a__ , kernel_size=(1, 1) , strides=(1, 1) , padding='''VALID''' , dtype=self.dtype , ) def __call__(self : Optional[Any] , a__ : int , a__ : List[Any] , a__ : str=True ): """simple docstring""" __snake_case = hidden_states __snake_case = self.norma(a__ ) __snake_case = nn.swish(a__ ) __snake_case = self.conva(a__ ) __snake_case = self.time_emb_proj(nn.swish(a__ ) ) __snake_case = jnp.expand_dims(jnp.expand_dims(a__ , 1 ) , 1 ) __snake_case = hidden_states + temb __snake_case = self.norma(a__ ) __snake_case = nn.swish(a__ ) __snake_case = self.dropout(a__ , a__ ) __snake_case = self.conva(a__ ) if self.conv_shortcut is not None: __snake_case = self.conv_shortcut(a__ ) return hidden_states + residual	24	"""simple docstring""" import argparse import torch from transformers import LxmertConfig, LxmertForPreTraining, load_tf_weights_in_lxmert from transformers.utils import logging logging.set_verbosity_info() def snake_case_ ( A_ : Tuple, A_ : int, A_ : Dict ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = LxmertConfig.from_json_file(A_ ) print(F'''Building PyTorch model from configuration: {config}''' ) _lowerCamelCase : List[str] = LxmertForPreTraining(A_ ) # Load weights from tf checkpoint load_tf_weights_in_lxmert(A_, A_, A_ ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) torch.save(model.state_dict(), A_ ) if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained model. \nThis specifies the model architecture.''', ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) lowerCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)	72
"""simple docstring""" from typing import Dict, Optional import numpy as np import datasets UpperCAmelCase__ : int = '\nIoU is the area of overlap between the predicted segmentation and the ground truth divided by the area of union\nbetween the predicted segmentation and the ground truth. For binary (two classes) or multi-class segmentation,\nthe mean IoU of the image is calculated by taking the IoU of each class and averaging them.\n' UpperCAmelCase__ : List[str] = '\nArgs:\n predictions (`List[ndarray]`):\n List of predicted segmentation maps, each of shape (height, width). Each segmentation map can be of a different size.\n references (`List[ndarray]`):\n List of ground truth segmentation maps, each of shape (height, width). Each segmentation map can be of a different size.\n num_labels (`int`):\n Number of classes (categories).\n ignore_index (`int`):\n Index that will be ignored during evaluation.\n nan_to_num (`int`, optional):\n If specified, NaN values will be replaced by the number defined by the user.\n label_map (`dict`, optional):\n If specified, dictionary mapping old label indices to new label indices.\n reduce_labels (`bool`, optional, defaults to `False`):\n Whether or not to reduce all label values of segmentation maps by 1. Usually used for datasets where 0 is used for background,\n and background itself is not included in all classes of a dataset (e.g. ADE20k). The background label will be replaced by 255.\n\nReturns:\n `Dict[str, float \| ndarray]` comprising various elements:\n - mean_iou (`float`):\n Mean Intersection-over-Union (IoU averaged over all categories).\n - mean_accuracy (`float`):\n Mean accuracy (averaged over all categories).\n - overall_accuracy (`float`):\n Overall accuracy on all images.\n - per_category_accuracy (`ndarray` of shape `(num_labels,)`):\n Per category accuracy.\n - per_category_iou (`ndarray` of shape `(num_labels,)`):\n Per category IoU.\n\nExamples:\n\n >>> import numpy as np\n\n >>> mean_iou = datasets.load_metric("mean_iou")\n\n >>> # suppose one has 3 different segmentation maps predicted\n >>> predicted_1 = np.array([[1, 2], [3, 4], [5, 255]])\n >>> actual_1 = np.array([[0, 3], [5, 4], [6, 255]])\n\n >>> predicted_2 = np.array([[2, 7], [9, 2], [3, 6]])\n >>> actual_2 = np.array([[1, 7], [9, 2], [3, 6]])\n\n >>> predicted_3 = np.array([[2, 2, 3], [8, 2, 4], [3, 255, 2]])\n >>> actual_3 = np.array([[1, 2, 2], [8, 2, 1], [3, 255, 1]])\n\n >>> predicted = [predicted_1, predicted_2, predicted_3]\n >>> ground_truth = [actual_1, actual_2, actual_3]\n\n >>> results = mean_iou.compute(predictions=predicted, references=ground_truth, num_labels=10, ignore_index=255, reduce_labels=False)\n >>> print(results) # doctest: +NORMALIZE_WHITESPACE\n {\'mean_iou\': 0.47750000000000004, \'mean_accuracy\': 0.5916666666666666, \'overall_accuracy\': 0.5263157894736842, \'per_category_iou\': array([0. , 0. , 0.375, 0.4 , 0.5 , 0. , 0.5 , 1. , 1. , 1. ]), \'per_category_accuracy\': array([0. , 0. , 0.75 , 0.66666667, 1. , 0. , 0.5 , 1. , 1. , 1. ])}\n' UpperCAmelCase__ : Union[str, Any] = '\\n@software{MMSegmentation_Contributors_OpenMMLab_Semantic_Segmentation_2020,\nauthor = {{MMSegmentation Contributors}},\nlicense = {Apache-2.0},\nmonth = {7},\ntitle = {{OpenMMLab Semantic Segmentation Toolbox and Benchmark}},\nurl = {https://github.com/open-mmlab/mmsegmentation},\nyear = {2020}\n}' def lowercase_ ( _snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case = None ,_snake_case = False ,): if label_map is not None: for old_id, new_id in label_map.items(): SCREAMING_SNAKE_CASE__ : Dict = new_id # turn into Numpy arrays SCREAMING_SNAKE_CASE__ : Dict = np.array(_snake_case ) SCREAMING_SNAKE_CASE__ : List[Any] = np.array(_snake_case ) if reduce_labels: SCREAMING_SNAKE_CASE__ : Dict = 255 SCREAMING_SNAKE_CASE__ : Dict = label - 1 SCREAMING_SNAKE_CASE__ : int = 255 SCREAMING_SNAKE_CASE__ : Optional[int] = label != ignore_index SCREAMING_SNAKE_CASE__ : Dict = np.not_equal(_snake_case ,_snake_case ) SCREAMING_SNAKE_CASE__ : Optional[int] = pred_label[mask] SCREAMING_SNAKE_CASE__ : Any = np.array(_snake_case )[mask] SCREAMING_SNAKE_CASE__ : Tuple = pred_label[pred_label == label] SCREAMING_SNAKE_CASE__ : str = np.histogram(_snake_case ,bins=_snake_case ,range=(0, num_labels - 1) )[0] SCREAMING_SNAKE_CASE__ : Any = np.histogram(_snake_case ,bins=_snake_case ,range=(0, num_labels - 1) )[0] SCREAMING_SNAKE_CASE__ : List[str] = np.histogram(_snake_case ,bins=_snake_case ,range=(0, num_labels - 1) )[0] SCREAMING_SNAKE_CASE__ : Optional[int] = area_pred_label + area_label - area_intersect return area_intersect, area_union, area_pred_label, area_label def lowercase_ ( _snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case = None ,_snake_case = False ,): SCREAMING_SNAKE_CASE__ : Union[str, Any] = np.zeros((num_labels,) ,dtype=np.floataa ) SCREAMING_SNAKE_CASE__ : List[Any] = np.zeros((num_labels,) ,dtype=np.floataa ) SCREAMING_SNAKE_CASE__ : Union[str, Any] = np.zeros((num_labels,) ,dtype=np.floataa ) SCREAMING_SNAKE_CASE__ : Union[str, Any] = np.zeros((num_labels,) ,dtype=np.floataa ) for result, gt_seg_map in zip(_snake_case ,_snake_case ): SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ : List[Any] = intersect_and_union( _snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case ) total_area_intersect += area_intersect total_area_union += area_union total_area_pred_label += area_pred_label total_area_label += area_label return total_area_intersect, total_area_union, total_area_pred_label, total_area_label def lowercase_ ( _snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case = None ,_snake_case = None ,_snake_case = False ,): SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ : Optional[int] = total_intersect_and_union( _snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case ) # compute metrics SCREAMING_SNAKE_CASE__ : Optional[Any] = {} SCREAMING_SNAKE_CASE__ : Union[str, Any] = total_area_intersect.sum() / total_area_label.sum() SCREAMING_SNAKE_CASE__ : Dict = total_area_intersect / total_area_union SCREAMING_SNAKE_CASE__ : Optional[Any] = total_area_intersect / total_area_label SCREAMING_SNAKE_CASE__ : int = np.nanmean(_snake_case ) SCREAMING_SNAKE_CASE__ : Dict = np.nanmean(_snake_case ) SCREAMING_SNAKE_CASE__ : List[str] = all_acc SCREAMING_SNAKE_CASE__ : List[Any] = iou SCREAMING_SNAKE_CASE__ : Tuple = acc if nan_to_num is not None: SCREAMING_SNAKE_CASE__ : Any = {metric: np.nan_to_num(_snake_case ,nan=_snake_case ) for metric, metric_value in metrics.items()} return metrics @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION ) class lowerCAmelCase_ (datasets.Metric ): """simple docstring""" def __magic_name__ (self ) -> List[str]: """simple docstring""" return datasets.MetricInfo( description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features( # 1st Seq - height dim, 2nd - width dim { """predictions""": datasets.Sequence(datasets.Sequence(datasets.Value("""uint16""" ) ) ), """references""": datasets.Sequence(datasets.Sequence(datasets.Value("""uint16""" ) ) ), } ) , reference_urls=[ """https://github.com/open-mmlab/mmsegmentation/blob/71c201b1813267d78764f306a297ca717827c4bf/mmseg/core/evaluation/metrics.py""" ] , ) def __magic_name__ (self , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ = None , SCREAMING_SNAKE_CASE__ = None , SCREAMING_SNAKE_CASE__ = False , ) -> Dict: """simple docstring""" SCREAMING_SNAKE_CASE__ : Any = mean_iou( results=SCREAMING_SNAKE_CASE__ , gt_seg_maps=SCREAMING_SNAKE_CASE__ , num_labels=SCREAMING_SNAKE_CASE__ , ignore_index=SCREAMING_SNAKE_CASE__ , nan_to_num=SCREAMING_SNAKE_CASE__ , label_map=SCREAMING_SNAKE_CASE__ , reduce_labels=SCREAMING_SNAKE_CASE__ , ) return iou_result	25	"""simple docstring""" from collections import defaultdict from graphs.minimum_spanning_tree_prims import prisms_algorithm as mst def snake_case_ ( ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : int = 9, 14 # noqa: F841 _lowerCamelCase : List[Any] = [ [0, 1, 4], [0, 7, 8], [1, 2, 8], [7, 8, 7], [7, 6, 1], [2, 8, 2], [8, 6, 6], [2, 3, 7], [2, 5, 4], [6, 5, 2], [3, 5, 14], [3, 4, 9], [5, 4, 10], [1, 7, 11], ] _lowerCamelCase : Any = defaultdict(A_ ) for nodea, nodea, cost in edges: adjancency[nodea].append([nodea, cost] ) adjancency[nodea].append([nodea, cost] ) _lowerCamelCase : List[str] = mst(A_ ) _lowerCamelCase : Optional[int] = [ [7, 6, 1], [2, 8, 2], [6, 5, 2], [0, 1, 4], [2, 5, 4], [2, 3, 7], [0, 7, 8], [3, 4, 9], ] for answer in expected: _lowerCamelCase : int = tuple(answer[:2] ) _lowerCamelCase : int = tuple(edge[::-1] ) assert edge in result or reverse in result	72
from numpy import exp, pi, sqrt def lowerCAmelCase_ ( snake_case_,snake_case_ = 0.0,snake_case_ = 1.0 ): return 1 / sqrt(2 * pi * sigma*2 ) exp(-((x - mu) ** 2) / (2 * sigma**2) ) if __name__ == "__main__": import doctest doctest.testmod()	26	"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt''', '''tokenizer_file''': '''tokenizer.json'''} # See all BART models at https://huggingface.co/models?filter=bart lowerCAmelCase__ = { '''vocab_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/vocab.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/vocab.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json''', }, '''merges_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/merges.txt''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/merges.txt''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt''', }, '''tokenizer_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1024, '''facebook/bart-large''': 1024, '''facebook/bart-large-mnli''': 1024, '''facebook/bart-large-cnn''': 1024, '''facebook/bart-large-xsum''': 1024, '''yjernite/bart_eli5''': 1024, } class __snake_case ( _lowercase): snake_case__ : Any = VOCAB_FILES_NAMES snake_case__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP snake_case__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES snake_case__ : Optional[int] = ["input_ids", "attention_mask"] snake_case__ : Any = BartTokenizer def __init__( self : int , __lowerCAmelCase : Dict=None , __lowerCAmelCase : int=None , __lowerCAmelCase : Dict=None , __lowerCAmelCase : List[Any]="replace" , __lowerCAmelCase : Any="<s>" , __lowerCAmelCase : Optional[int]="</s>" , __lowerCAmelCase : str="</s>" , __lowerCAmelCase : Dict="<s>" , __lowerCAmelCase : Union[str, Any]="<unk>" , __lowerCAmelCase : Any="<pad>" , __lowerCAmelCase : Optional[Any]="<mask>" , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Dict=True , __lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__( __lowerCAmelCase , __lowerCAmelCase , tokenizer_file=__lowerCAmelCase , errors=__lowerCAmelCase , bos_token=__lowerCAmelCase , eos_token=__lowerCAmelCase , sep_token=__lowerCAmelCase , cls_token=__lowerCAmelCase , unk_token=__lowerCAmelCase , pad_token=__lowerCAmelCase , mask_token=__lowerCAmelCase , add_prefix_space=__lowerCAmelCase , trim_offsets=__lowerCAmelCase , __lowerCAmelCase , ) _lowerCamelCase : Tuple = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = getattr(__lowerCAmelCase , pre_tok_state.pop('''type''' ) ) _lowerCamelCase : Any = add_prefix_space _lowerCamelCase : int = pre_tok_class(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _lowerCamelCase : List[str] = '''post_processor''' _lowerCamelCase : List[str] = getattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) if tokenizer_component_instance: _lowerCamelCase : int = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _lowerCamelCase : Tuple = tuple(state['''sep'''] ) if "cls" in state: _lowerCamelCase : int = tuple(state['''cls'''] ) _lowerCamelCase : Union[str, Any] = False if state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = add_prefix_space _lowerCamelCase : Optional[Any] = True if state.get('''trim_offsets''' , __lowerCAmelCase ) != trim_offsets: _lowerCamelCase : Any = trim_offsets _lowerCamelCase : str = True if changes_to_apply: _lowerCamelCase : List[str] = getattr(__lowerCAmelCase , state.pop('''type''' ) ) _lowerCamelCase : str = component_class(__lowerCAmelCase ) setattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) @property def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : int ): """simple docstring""" _lowerCamelCase : Tuple = AddedToken(__lowerCAmelCase , lstrip=__lowerCAmelCase , rstrip=__lowerCAmelCase ) if isinstance(__lowerCAmelCase , __lowerCAmelCase ) else value _lowerCamelCase : str = value def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Dict = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._batch_encode_plus(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : Tuple , *__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Any = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._encode_plus(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[str] = None ): """simple docstring""" _lowerCamelCase : Tuple = self._tokenizer.model.save(__lowerCAmelCase , name=__lowerCAmelCase ) return tuple(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : Dict , __lowerCAmelCase : List[str]=None ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : List[int] , __lowerCAmelCase : Optional[List[int]] = None ): """simple docstring""" _lowerCamelCase : List[str] = [self.sep_token_id] _lowerCamelCase : Tuple = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]	72
'''simple docstring''' import copy import os import tempfile from unittest import TestCase from unittest.mock import patch import numpy as np import pyarrow as pa import pyarrow.parquet as pq import pytest from datasets.arrow_writer import ArrowWriter, OptimizedTypedSequence, ParquetWriter, TypedSequence from datasets.features import ArrayaD, ClassLabel, Features, Image, Value from datasets.features.features import ArrayaDExtensionType, cast_to_python_objects from datasets.keyhash import DuplicatedKeysError, InvalidKeyError from .utils import require_pil class __UpperCamelCase ( lowerCAmelCase_ ): def __UpperCAmelCase ( self ): '''simple docstring''' __a : Tuple = pa.array(TypedSequence([1, 2, 3] ) ) self.assertEqual(arr.type , pa.intaa() ) def __UpperCAmelCase ( self ): '''simple docstring''' with self.assertRaises(__a ): __a : Any = pa.array(TypedSequence([1, 2, 3] ) , type=pa.intaa() ) def __UpperCAmelCase ( self ): '''simple docstring''' with self.assertRaises(__a ): __a : Optional[Any] = pa.array(TypedSequence([1, 2, 3] , try_type=Value('bool' ) , type=Value('int64' ) ) ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : Union[str, Any] = pa.array(TypedSequence([1, 2, 3] , type=Value('int32' ) ) ) self.assertEqual(arr.type , pa.intaa() ) def __UpperCAmelCase ( self ): '''simple docstring''' with self.assertRaises((TypeError, pa.lib.ArrowInvalid) ): __a : Union[str, Any] = pa.array(TypedSequence(['foo', 'bar'] , type=Value('int64' ) ) ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : Optional[Any] = pa.array(TypedSequence([1, 2, 3] , try_type=Value('int32' ) ) ) self.assertEqual(arr.type , pa.intaa() ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : List[str] = pa.array(TypedSequence(['foo', 'bar'] , try_type=Value('int64' ) ) ) self.assertEqual(arr.type , pa.string() ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : Tuple = pa.array(TypedSequence([[[1, 2, 3]]] , type=ArrayaD((1, 3) , 'int64' ) ) ) self.assertEqual(arr.type , ArrayaDExtensionType((1, 3) , 'int64' ) ) def __UpperCAmelCase ( self ): '''simple docstring''' with self.assertRaises((TypeError, pa.lib.ArrowInvalid) ): __a : Any = pa.array(TypedSequence(['foo', 'bar'] , type=ArrayaD((1, 3) , 'int64' ) ) ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : str = pa.array(TypedSequence([[[1, 2, 3]]] , try_type=ArrayaD((1, 3) , 'int64' ) ) ) self.assertEqual(arr.type , ArrayaDExtensionType((1, 3) , 'int64' ) ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : List[str] = pa.array(TypedSequence(['foo', 'bar'] , try_type=ArrayaD((1, 3) , 'int64' ) ) ) self.assertEqual(arr.type , pa.string() ) @require_pil def __UpperCAmelCase ( self ): '''simple docstring''' import PIL.Image __a : Union[str, Any] = PIL.Image.fromarray(np.arange(10 , dtype=np.uinta ).reshape(2 , 5 ) ) with patch( 'datasets.arrow_writer.cast_to_python_objects' , side_effect=__a ) as mock_cast_to_python_objects: __a : Union[str, Any] = pa.array(TypedSequence([{'path': None, 'bytes': b'image_bytes'}, pil_image] , type=Image() ) ) __a , __a : Optional[Any] = mock_cast_to_python_objects.call_args_list[-1] self.assertIn('optimize_list_casting' , __a ) self.assertFalse(kwargs['optimize_list_casting'] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Union[str, Any] , _SCREAMING_SNAKE_CASE : int ): __a : str = pa.BufferReader(_SCREAMING_SNAKE_CASE ) if isinstance(_SCREAMING_SNAKE_CASE , pa.Buffer ) else pa.memory_map(_SCREAMING_SNAKE_CASE ) __a : Dict = pa.ipc.open_stream(_SCREAMING_SNAKE_CASE ) __a : pa.Table = f.read_all() assert len(pa_table.to_batches() ) == expected_num_chunks assert pa_table.to_pydict() == {"col_1": ["foo", "bar"], "col_2": [1, 2]} del pa_table @pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] ) @pytest.mark.parametrize( 'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : List[str] , _SCREAMING_SNAKE_CASE : Optional[Any] ): __a : str = pa.BufferOutputStream() __a : Any = pa.schema(_SCREAMING_SNAKE_CASE ) if fields else None with ArrowWriter(stream=_SCREAMING_SNAKE_CASE , schema=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE ) as writer: writer.write({'col_1': 'foo', 'col_2': 1} ) writer.write({'col_1': 'bar', 'col_2': 2} ) __a , __a : Dict = writer.finalize() assert num_examples == 2 assert num_bytes > 0 if not fields: __a : List[Any] = {'col_1': pa.string(), 'col_2': pa.intaa()} assert writer._schema == pa.schema(_SCREAMING_SNAKE_CASE , metadata=writer._schema.metadata ) _check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 ) def lowerCamelCase (): __a : int = pa.BufferOutputStream() __a : Optional[int] = Features({'labels': ClassLabel(names=['neg', 'pos'] )} ) with ArrowWriter(stream=_SCREAMING_SNAKE_CASE , features=_SCREAMING_SNAKE_CASE ) as writer: writer.write({'labels': 0} ) writer.write({'labels': 1} ) __a , __a : List[Any] = writer.finalize() assert num_examples == 2 assert num_bytes > 0 assert writer._schema == features.arrow_schema assert writer._schema.metadata == features.arrow_schema.metadata __a : int = pa.BufferReader(output.getvalue() ) __a : Tuple = pa.ipc.open_stream(_SCREAMING_SNAKE_CASE ) __a : pa.Table = f.read_all() __a : Optional[int] = pa_table.schema assert pa_table.num_rows == 2 assert schema == features.arrow_schema assert schema.metadata == features.arrow_schema.metadata assert features == Features.from_arrow_schema(_SCREAMING_SNAKE_CASE ) @pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Any ): __a : int = pa.BufferOutputStream() with ArrowWriter( stream=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE , hash_salt='split_name' , check_duplicates=_SCREAMING_SNAKE_CASE , ) as writer: with pytest.raises(_SCREAMING_SNAKE_CASE ): writer.write({'col_1': 'foo', 'col_2': 1} , key=[1, 2] ) __a , __a : Optional[Any] = writer.finalize() @pytest.mark.parametrize('writer_batch_size' , [None, 2, 10] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Optional[Any] ): __a : Tuple = pa.BufferOutputStream() with ArrowWriter( stream=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE , hash_salt='split_name' , check_duplicates=_SCREAMING_SNAKE_CASE , ) as writer: with pytest.raises(_SCREAMING_SNAKE_CASE ): writer.write({'col_1': 'foo', 'col_2': 1} , key=10 ) writer.write({'col_1': 'bar', 'col_2': 2} , key=10 ) __a , __a : Optional[Any] = writer.finalize() @pytest.mark.parametrize('writer_batch_size' , [None, 2, 10] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : List[str] ): __a : List[str] = pa.BufferOutputStream() with ArrowWriter( stream=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE , hash_salt='split_name' , check_duplicates=_SCREAMING_SNAKE_CASE , ) as writer: writer.write({'col_1': 'foo', 'col_2': 1} , key=1 ) writer.write({'col_1': 'bar', 'col_2': 2} , key=2 ) __a , __a : Optional[int] = writer.finalize() assert num_examples == 2 assert num_bytes > 0 _check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 ) @pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] ) @pytest.mark.parametrize( 'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Optional[Any] , _SCREAMING_SNAKE_CASE : Dict ): __a : Optional[int] = pa.BufferOutputStream() __a : int = pa.schema(_SCREAMING_SNAKE_CASE ) if fields else None with ArrowWriter(stream=_SCREAMING_SNAKE_CASE , schema=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE ) as writer: writer.write_batch({'col_1': ['foo', 'bar'], 'col_2': [1, 2]} ) writer.write_batch({'col_1': [], 'col_2': []} ) __a , __a : Dict = writer.finalize() assert num_examples == 2 assert num_bytes > 0 if not fields: __a : str = {'col_1': pa.string(), 'col_2': pa.intaa()} assert writer._schema == pa.schema(_SCREAMING_SNAKE_CASE , metadata=writer._schema.metadata ) _check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 ) @pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] ) @pytest.mark.parametrize( 'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Any , _SCREAMING_SNAKE_CASE : List[Any] ): __a : Tuple = pa.BufferOutputStream() __a : str = pa.schema(_SCREAMING_SNAKE_CASE ) if fields else None with ArrowWriter(stream=_SCREAMING_SNAKE_CASE , schema=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE ) as writer: writer.write_table(pa.Table.from_pydict({'col_1': ['foo', 'bar'], 'col_2': [1, 2]} ) ) __a , __a : str = writer.finalize() assert num_examples == 2 assert num_bytes > 0 if not fields: __a : List[str] = {'col_1': pa.string(), 'col_2': pa.intaa()} assert writer._schema == pa.schema(_SCREAMING_SNAKE_CASE , metadata=writer._schema.metadata ) _check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 ) @pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] ) @pytest.mark.parametrize( 'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Union[str, Any] , _SCREAMING_SNAKE_CASE : List[str] ): __a : List[Any] = pa.BufferOutputStream() __a : List[Any] = pa.schema(_SCREAMING_SNAKE_CASE ) if fields else None with ArrowWriter(stream=_SCREAMING_SNAKE_CASE , schema=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE ) as writer: writer.write_row(pa.Table.from_pydict({'col_1': ['foo'], 'col_2': [1]} ) ) writer.write_row(pa.Table.from_pydict({'col_1': ['bar'], 'col_2': [2]} ) ) __a , __a : str = writer.finalize() assert num_examples == 2 assert num_bytes > 0 if not fields: __a : List[Any] = {'col_1': pa.string(), 'col_2': pa.intaa()} assert writer._schema == pa.schema(_SCREAMING_SNAKE_CASE , metadata=writer._schema.metadata ) _check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 ) def lowerCamelCase (): with tempfile.TemporaryDirectory() as tmp_dir: __a : List[Any] = {'col_1': pa.string(), 'col_2': pa.intaa()} __a : Optional[int] = os.path.join(_SCREAMING_SNAKE_CASE , 'test.arrow' ) with ArrowWriter(path=_SCREAMING_SNAKE_CASE , schema=pa.schema(_SCREAMING_SNAKE_CASE ) ) as writer: writer.write_batch({'col_1': ['foo', 'bar'], 'col_2': [1, 2]} ) __a , __a : List[Any] = writer.finalize() assert num_examples == 2 assert num_bytes > 0 assert writer._schema == pa.schema(_SCREAMING_SNAKE_CASE , metadata=writer._schema.metadata ) _check_output(_SCREAMING_SNAKE_CASE , 1 ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : int ): if pa.types.is_list(_SCREAMING_SNAKE_CASE ): return get_base_dtype(arr_type.value_type ) else: return arr_type def lowerCamelCase (_SCREAMING_SNAKE_CASE : Any , _SCREAMING_SNAKE_CASE : int ): if isinstance(lst[0] , _SCREAMING_SNAKE_CASE ): change_first_primitive_element_in_list(lst[0] , _SCREAMING_SNAKE_CASE ) else: __a : List[str] = value @pytest.mark.parametrize('optimized_int_type, expected_dtype' , [(None, pa.intaa()), (Value('int32' ), pa.intaa())] ) @pytest.mark.parametrize('sequence' , [[1, 2, 3], [[1, 2, 3]], [[[1, 2, 3]]]] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Union[str, Any] , _SCREAMING_SNAKE_CASE : Optional[int] , _SCREAMING_SNAKE_CASE : Union[str, Any] ): __a : Optional[Any] = pa.array(TypedSequence(_SCREAMING_SNAKE_CASE , optimized_int_type=_SCREAMING_SNAKE_CASE ) ) assert get_base_dtype(arr.type ) == expected_dtype @pytest.mark.parametrize( 'col, expected_dtype' , [ ('attention_mask', pa.inta()), ('special_tokens_mask', pa.inta()), ('token_type_ids', pa.inta()), ('input_ids', pa.intaa()), ('other', pa.intaa()), ] , ) @pytest.mark.parametrize('sequence' , [[1, 2, 3], [[1, 2, 3]], [[[1, 2, 3]]]] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Any , _SCREAMING_SNAKE_CASE : Optional[Any] , _SCREAMING_SNAKE_CASE : Optional[Any] ): # in range __a : Any = pa.array(OptimizedTypedSequence(_SCREAMING_SNAKE_CASE , col=_SCREAMING_SNAKE_CASE ) ) assert get_base_dtype(arr.type ) == expected_dtype # not in range if col != "other": # avoids errors due to in-place modifications __a : Optional[Any] = copy.deepcopy(_SCREAMING_SNAKE_CASE ) __a : List[str] = np.iinfo(expected_dtype.to_pandas_dtype() ).max + 1 change_first_primitive_element_in_list(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __a : Dict = pa.array(OptimizedTypedSequence(_SCREAMING_SNAKE_CASE , col=_SCREAMING_SNAKE_CASE ) ) assert get_base_dtype(arr.type ) == pa.intaa() @pytest.mark.parametrize('raise_exception' , [False, True] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : List[Any] , _SCREAMING_SNAKE_CASE : Union[str, Any] ): __a : Union[str, Any] = str(tmp_path / 'dataset-train.arrow' ) try: with ArrowWriter(path=_SCREAMING_SNAKE_CASE ) as writer: if raise_exception: raise pa.lib.ArrowInvalid() else: writer.stream.close() except pa.lib.ArrowInvalid: pass finally: assert writer.stream.closed def lowerCamelCase (_SCREAMING_SNAKE_CASE : Optional[Any] ): __a : Optional[Any] = 'mock://dataset-train.arrow' with ArrowWriter(path=_SCREAMING_SNAKE_CASE , storage_options=mockfs.storage_options ) as writer: assert isinstance(writer._fs , type(_SCREAMING_SNAKE_CASE ) ) assert writer._fs.storage_options == mockfs.storage_options writer.write({'col_1': 'foo', 'col_2': 1} ) writer.write({'col_1': 'bar', 'col_2': 2} ) __a , __a : Dict = writer.finalize() assert num_examples == 2 assert num_bytes > 0 assert mockfs.exists(_SCREAMING_SNAKE_CASE ) def lowerCamelCase (): __a : List[Any] = pa.BufferOutputStream() with ParquetWriter(stream=_SCREAMING_SNAKE_CASE ) as writer: writer.write({'col_1': 'foo', 'col_2': 1} ) writer.write({'col_1': 'bar', 'col_2': 2} ) __a , __a : int = writer.finalize() assert num_examples == 2 assert num_bytes > 0 __a : Optional[Any] = pa.BufferReader(output.getvalue() ) __a : pa.Table = pq.read_table(_SCREAMING_SNAKE_CASE ) assert pa_table.to_pydict() == {"col_1": ["foo", "bar"], "col_2": [1, 2]} @require_pil @pytest.mark.parametrize('embed_local_files' , [False, True] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : str , _SCREAMING_SNAKE_CASE : str ): import PIL.Image __a : List[Any] = str(tmp_path / 'test_image_rgb.jpg' ) PIL.Image.fromarray(np.zeros((5, 5) , dtype=np.uinta ) ).save(_SCREAMING_SNAKE_CASE , format='png' ) __a : Union[str, Any] = pa.BufferOutputStream() with ParquetWriter( stream=_SCREAMING_SNAKE_CASE , features=Features({'image': Image()} ) , embed_local_files=_SCREAMING_SNAKE_CASE ) as writer: writer.write({'image': image_path} ) writer.finalize() __a : Any = pa.BufferReader(output.getvalue() ) __a : pa.Table = pq.read_table(_SCREAMING_SNAKE_CASE ) __a : Union[str, Any] = pa_table.to_pydict() if embed_local_files: assert isinstance(out['image'][0]['path'] , _SCREAMING_SNAKE_CASE ) with open(_SCREAMING_SNAKE_CASE , 'rb' ) as f: assert out["image"][0]["bytes"] == f.read() else: assert out["image"][0]["path"] == image_path assert out["image"][0]["bytes"] is None def lowerCamelCase (): __a : Tuple = pa.schema([pa.field('col_1' , pa.string() , nullable=_SCREAMING_SNAKE_CASE )] ) __a : str = pa.BufferOutputStream() with ArrowWriter(stream=_SCREAMING_SNAKE_CASE ) as writer: writer._build_writer(inferred_schema=_SCREAMING_SNAKE_CASE ) assert writer._schema == pa.schema([pa.field('col_1' , pa.string() )] )	27	"""simple docstring""" from __future__ import annotations def snake_case_ ( A_ : str ): '''simple docstring''' return [ord(A_ ) - 96 for elem in plain] def snake_case_ ( A_ : list[int] ): '''simple docstring''' return "".join(chr(elem + 96 ) for elem in encoded ) def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Dict = encode(input('''-> ''' ).strip().lower() ) print('''Encoded: ''', A_ ) print('''Decoded:''', decode(A_ ) ) if __name__ == "__main__": main()	72
'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available _lowerCamelCase : List[str] = {} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCamelCase : List[str] = ["BartphoTokenizer"] if TYPE_CHECKING: try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_bartpho import BartphoTokenizer else: import sys _lowerCamelCase : Any = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)	28	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = { '''configuration_lxmert''': ['''LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LxmertConfig'''], '''tokenization_lxmert''': ['''LxmertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''LxmertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''LxmertEncoder''', '''LxmertForPreTraining''', '''LxmertForQuestionAnswering''', '''LxmertModel''', '''LxmertPreTrainedModel''', '''LxmertVisualFeatureEncoder''', '''LxmertXLayer''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFLxmertForPreTraining''', '''TFLxmertMainLayer''', '''TFLxmertModel''', '''TFLxmertPreTrainedModel''', '''TFLxmertVisualFeatureEncoder''', ] if TYPE_CHECKING: from .configuration_lxmert import LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, LxmertConfig from .tokenization_lxmert import LxmertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_lxmert_fast import LxmertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lxmert import ( LxmertEncoder, LxmertForPreTraining, LxmertForQuestionAnswering, LxmertModel, LxmertPreTrainedModel, LxmertVisualFeatureEncoder, LxmertXLayer, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_lxmert import ( TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFLxmertForPreTraining, TFLxmertMainLayer, TFLxmertModel, TFLxmertPreTrainedModel, TFLxmertVisualFeatureEncoder, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
import os from collections import namedtuple import pytest from datasets import ClassLabel, Features, Sequence, Value from datasets.commands.test import TestCommand from datasets.info import DatasetInfo, DatasetInfosDict __UpperCAmelCase = namedtuple( '_TestCommandArgs', [ 'dataset', 'name', 'cache_dir', 'data_dir', 'all_configs', 'save_infos', 'ignore_verifications', 'force_redownload', 'clear_cache', ], defaults=[None, None, None, False, False, False, False, False], ) def lowercase__ ( __snake_case : int , __snake_case : Union[str, Any] ): '''simple docstring''' return (abs(source - target ) / target) < 0.01 @pytest.mark.integration def lowercase__ ( __snake_case : Dict ): '''simple docstring''' UpperCAmelCase_ : Tuple = _TestCommandArgs(dataset=__snake_case , all_configs=__snake_case , save_infos=__snake_case ) UpperCAmelCase_ : Optional[int] = TestCommand(*__snake_case ) test_command.run() UpperCAmelCase_ : Optional[int] = os.path.join(__snake_case , 'README.md' ) assert os.path.exists(__snake_case ) UpperCAmelCase_ : str = DatasetInfosDict.from_directory(__snake_case ) UpperCAmelCase_ : List[str] = DatasetInfosDict( { 'default': DatasetInfo( features=Features( { 'tokens': Sequence(Value('string' ) ), 'ner_tags': Sequence( ClassLabel(names=['O', 'B-PER', 'I-PER', 'B-ORG', 'I-ORG', 'B-LOC', 'I-LOC'] ) ), 'langs': Sequence(Value('string' ) ), 'spans': Sequence(Value('string' ) ), } ) , splits=[ { 'name': 'train', 'num_bytes': 2_351_563, 'num_examples': 10_000, }, { 'name': 'validation', 'num_bytes': 238_418, 'num_examples': 1_000, }, ] , download_size=3_940_680 , dataset_size=2_589_981 , ) } ) assert dataset_infos.keys() == expected_dataset_infos.keys() for key in DatasetInfo._INCLUDED_INFO_IN_YAML: UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = getattr(dataset_infos['default'] , __snake_case ), getattr(expected_dataset_infos['default'] , __snake_case ) if key == "num_bytes": assert is_apercent_close(__snake_case , __snake_case ) elif key == "splits": assert list(__snake_case ) == list(__snake_case ) for split in result: assert result[split].name == expected[split].name assert result[split].num_examples == expected[split].num_examples assert is_apercent_close(result[split].num_bytes , expected[split].num_bytes ) else: result == expected	29	"""simple docstring""" def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for data in source_data: for i, el in enumerate(A_ ): if len(A_ ) < i + 1: data_lists.append([] ) data_lists[i].append(float(A_ ) ) return data_lists def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for dlist, weight in zip(A_, A_ ): _lowerCamelCase : Any = min(A_ ) _lowerCamelCase : Optional[Any] = max(A_ ) _lowerCamelCase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowerCamelCase : str = F'''Invalid weight of {weight:f} provided''' raise ValueError(A_ ) score_lists.append(A_ ) return score_lists def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(A_ ): _lowerCamelCase : List[str] = final_scores[j] + ele return final_scores def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : Tuple = get_data(A_ ) _lowerCamelCase : Optional[Any] = calculate_each_score(A_, A_ ) _lowerCamelCase : str = generate_final_scores(A_ ) # append scores to source data for i, ele in enumerate(A_ ): source_data[i].append(A_ ) return source_data	72
import copy import os from typing import Union from ...configuration_utils import PretrainedConfig from ...utils import logging __a = logging.get_logger(__name__) __a = { 'BAAI/AltCLIP': 'https://huggingface.co/BAAI/AltCLIP/resolve/main/config.json', # See all AltCLIP models at https://huggingface.co/models?filter=altclip } class lowercase__( UpperCAmelCase ): """simple docstring""" a :str = 'altclip_text_model' def __init__( self : Union[str, Any] , SCREAMING_SNAKE_CASE_ : Union[str, Any]=2_5_0_0_0_2 , SCREAMING_SNAKE_CASE_ : int=1_0_2_4 , SCREAMING_SNAKE_CASE_ : Union[str, Any]=2_4 , SCREAMING_SNAKE_CASE_ : Tuple=1_6 , SCREAMING_SNAKE_CASE_ : Union[str, Any]=4_0_9_6 , SCREAMING_SNAKE_CASE_ : str="gelu" , SCREAMING_SNAKE_CASE_ : Dict=0.1 , SCREAMING_SNAKE_CASE_ : str=0.1 , SCREAMING_SNAKE_CASE_ : List[str]=5_1_4 , SCREAMING_SNAKE_CASE_ : Union[str, Any]=1 , SCREAMING_SNAKE_CASE_ : Any=0.02 , SCREAMING_SNAKE_CASE_ : Optional[Any]=0.02 , SCREAMING_SNAKE_CASE_ : str=1e-05 , SCREAMING_SNAKE_CASE_ : List[str]=1 , SCREAMING_SNAKE_CASE_ : str=0 , SCREAMING_SNAKE_CASE_ : Dict=2 , SCREAMING_SNAKE_CASE_ : int="absolute" , SCREAMING_SNAKE_CASE_ : Tuple=True , SCREAMING_SNAKE_CASE_ : Optional[Any]=7_6_8 , SCREAMING_SNAKE_CASE_ : int , ) -> Any: super().__init__(pad_token_id=SCREAMING_SNAKE_CASE_ , bos_token_id=SCREAMING_SNAKE_CASE_ , eos_token_id=SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) lowercase_ = vocab_size lowercase_ = hidden_size lowercase_ = num_hidden_layers lowercase_ = num_attention_heads lowercase_ = hidden_act lowercase_ = intermediate_size lowercase_ = hidden_dropout_prob lowercase_ = attention_probs_dropout_prob lowercase_ = max_position_embeddings lowercase_ = type_vocab_size lowercase_ = initializer_range lowercase_ = initializer_factor lowercase_ = layer_norm_eps lowercase_ = position_embedding_type lowercase_ = use_cache lowercase_ = project_dim class lowercase__( UpperCAmelCase ): """simple docstring""" a :Tuple = 'altclip_vision_model' def __init__( self : List[str] , SCREAMING_SNAKE_CASE_ : List[Any]=7_6_8 , SCREAMING_SNAKE_CASE_ : Dict=3_0_7_2 , SCREAMING_SNAKE_CASE_ : List[Any]=5_1_2 , SCREAMING_SNAKE_CASE_ : Optional[Any]=1_2 , SCREAMING_SNAKE_CASE_ : List[Any]=1_2 , SCREAMING_SNAKE_CASE_ : Dict=3 , SCREAMING_SNAKE_CASE_ : Optional[int]=2_2_4 , SCREAMING_SNAKE_CASE_ : List[str]=3_2 , SCREAMING_SNAKE_CASE_ : Tuple="quick_gelu" , SCREAMING_SNAKE_CASE_ : Dict=1e-5 , SCREAMING_SNAKE_CASE_ : Dict=0.0 , SCREAMING_SNAKE_CASE_ : Dict=0.02 , SCREAMING_SNAKE_CASE_ : Tuple=1.0 , SCREAMING_SNAKE_CASE_ : str , ) -> str: super().__init__(SCREAMING_SNAKE_CASE_ ) lowercase_ = hidden_size lowercase_ = intermediate_size lowercase_ = projection_dim lowercase_ = num_hidden_layers lowercase_ = num_attention_heads lowercase_ = num_channels lowercase_ = patch_size lowercase_ = image_size lowercase_ = initializer_range lowercase_ = initializer_factor lowercase_ = attention_dropout lowercase_ = layer_norm_eps lowercase_ = hidden_act @classmethod def _lowercase ( cls : Dict , SCREAMING_SNAKE_CASE_ : Union[str, os.PathLike] , SCREAMING_SNAKE_CASE_ : Optional[Any] ) -> "PretrainedConfig": cls._set_token_in_kwargs(SCREAMING_SNAKE_CASE_ ) lowercase_ , lowercase_ = cls.get_config_dict(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) # get the vision config dict if we are loading from AltCLIPConfig if config_dict.get('''model_type''' ) == "altclip": lowercase_ = config_dict['''vision_config'''] if "model_type" in config_dict and hasattr(cls , '''model_type''' ) and config_dict["model_type"] != cls.model_type: logger.warning( f'''You are using a model of type {config_dict['model_type']} to instantiate a model of type ''' f'''{cls.model_type}. This is not supported for all configurations of models and can yield errors.''' ) return cls.from_dict(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) class lowercase__( UpperCAmelCase ): """simple docstring""" a :Any = 'altclip' a :List[str] = True def __init__( self : List[Any] , SCREAMING_SNAKE_CASE_ : int=None , SCREAMING_SNAKE_CASE_ : List[Any]=None , SCREAMING_SNAKE_CASE_ : List[str]=7_6_8 , SCREAMING_SNAKE_CASE_ : Dict=2.65_92 , SCREAMING_SNAKE_CASE_ : List[Any] ) -> List[str]: # If `_config_dict` exist, we use them for the backward compatibility. # We pop out these 2 attributes before calling `super().__init__` to avoid them being saved (which causes a lot # of confusion!). lowercase_ = kwargs.pop('''text_config_dict''' , SCREAMING_SNAKE_CASE_ ) lowercase_ = kwargs.pop('''vision_config_dict''' , SCREAMING_SNAKE_CASE_ ) super().__init__(SCREAMING_SNAKE_CASE_ ) # Instead of simply assigning `[text\|vision]_config_dict` to `[text\|vision]_config`, we use the values in # `[text\|vision]_config_dict` to update the values in `[text\|vision]_config`. The values should be same in most # cases, but we don't want to break anything regarding `_config_dict` that existed before commit `8827e1b2`. if text_config_dict is not None: if text_config is None: lowercase_ = {} # This is the complete result when using `text_config_dict`. lowercase_ = AltCLIPTextConfig(SCREAMING_SNAKE_CASE_ ).to_dict() # Give a warning if the values exist in both `_text_config_dict` and `text_config` but being different. for key, value in _text_config_dict.items(): if key in text_config and value != text_config[key] and key not in ["transformers_version"]: # If specified in `text_config_dict` if key in text_config_dict: lowercase_ = ( f'''`{key}` is found in both `text_config_dict` and `text_config` but with different values. ''' f'''The value `text_config_dict["{key}"]` will be used instead.''' ) # If inferred from default argument values (just to be super careful) else: lowercase_ = ( f'''`text_config_dict` is provided which will be used to initialize `AltCLIPTextConfig`. The ''' f'''value `text_config["{key}"]` will be overriden.''' ) logger.warning(SCREAMING_SNAKE_CASE_ ) # Update all values in `text_config` with the ones in `_text_config_dict`. text_config.update(_text_config_dict ) if vision_config_dict is not None: if vision_config is None: lowercase_ = {} # This is the complete result when using `vision_config_dict`. lowercase_ = AltCLIPVisionConfig(SCREAMING_SNAKE_CASE_ ).to_dict() # convert keys to string instead of integer if "id2label" in _vision_config_dict: lowercase_ = { str(SCREAMING_SNAKE_CASE_ ): value for key, value in _vision_config_dict['''id2label'''].items() } # Give a warning if the values exist in both `_vision_config_dict` and `vision_config` but being different. for key, value in _vision_config_dict.items(): if key in vision_config and value != vision_config[key] and key not in ["transformers_version"]: # If specified in `vision_config_dict` if key in vision_config_dict: lowercase_ = ( f'''`{key}` is found in both `vision_config_dict` and `vision_config` but with different ''' f'''values. The value `vision_config_dict["{key}"]` will be used instead.''' ) # If inferred from default argument values (just to be super careful) else: lowercase_ = ( f'''`vision_config_dict` is provided which will be used to initialize `AltCLIPVisionConfig`. ''' f'''The value `vision_config["{key}"]` will be overriden.''' ) logger.warning(SCREAMING_SNAKE_CASE_ ) # Update all values in `vision_config` with the ones in `_vision_config_dict`. vision_config.update(_vision_config_dict ) if text_config is None: lowercase_ = {} logger.info('''`text_config` is `None`. Initializing the `AltCLIPTextConfig` with default values.''' ) if vision_config is None: lowercase_ = {} logger.info('''`vision_config` is `None`. initializing the `AltCLIPVisionConfig` with default values.''' ) lowercase_ = AltCLIPTextConfig(SCREAMING_SNAKE_CASE_ ) lowercase_ = AltCLIPVisionConfig(SCREAMING_SNAKE_CASE_ ) lowercase_ = projection_dim lowercase_ = logit_scale_init_value lowercase_ = 1.0 @classmethod def _lowercase ( cls : Union[str, Any] , SCREAMING_SNAKE_CASE_ : AltCLIPTextConfig , SCREAMING_SNAKE_CASE_ : AltCLIPVisionConfig , SCREAMING_SNAKE_CASE_ : Any ) -> List[Any]: return cls(text_config=text_config.to_dict() , vision_config=vision_config.to_dict() , **SCREAMING_SNAKE_CASE_ ) def _lowercase ( self : Union[str, Any] ) -> Dict: lowercase_ = copy.deepcopy(self.__dict__ ) lowercase_ = self.text_config.to_dict() lowercase_ = self.vision_config.to_dict() lowercase_ = self.__class__.model_type return output	30	"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = { '''microsoft/unispeech-large-1500h-cv''': ( '''https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json''' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class __snake_case ( _lowercase): snake_case__ : List[str] = "unispeech" def __init__( self : List[str] , __lowerCAmelCase : List[Any]=3_2 , __lowerCAmelCase : str=7_6_8 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=3_0_7_2 , __lowerCAmelCase : Tuple="gelu" , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : str=0.1 , __lowerCAmelCase : Tuple=0.0 , __lowerCAmelCase : Optional[int]=0.0 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Optional[int]=0.1 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Dict=1E-5 , __lowerCAmelCase : Optional[int]="group" , __lowerCAmelCase : Dict="gelu" , __lowerCAmelCase : int=(5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2) , __lowerCAmelCase : Optional[int]=(5, 2, 2, 2, 2, 2, 2) , __lowerCAmelCase : Union[str, Any]=(1_0, 3, 3, 3, 3, 2, 2) , __lowerCAmelCase : List[Any]=False , __lowerCAmelCase : List[str]=1_2_8 , __lowerCAmelCase : Any=1_6 , __lowerCAmelCase : Optional[int]=False , __lowerCAmelCase : Optional[Any]=True , __lowerCAmelCase : Union[str, Any]=0.05 , __lowerCAmelCase : Union[str, Any]=1_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.0 , __lowerCAmelCase : Optional[int]=1_0 , __lowerCAmelCase : Dict=0 , __lowerCAmelCase : List[str]=3_2_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Tuple=1_0_0 , __lowerCAmelCase : Dict=2_5_6 , __lowerCAmelCase : str=2_5_6 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Dict="mean" , __lowerCAmelCase : Union[str, Any]=False , __lowerCAmelCase : Dict=False , __lowerCAmelCase : Optional[Any]=2_5_6 , __lowerCAmelCase : Dict=8_0 , __lowerCAmelCase : int=0 , __lowerCAmelCase : Optional[int]=1 , __lowerCAmelCase : Dict=2 , __lowerCAmelCase : Any=0.5 , __lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__(__lowerCAmelCase , pad_token_id=__lowerCAmelCase , bos_token_id=__lowerCAmelCase , eos_token_id=__lowerCAmelCase ) _lowerCamelCase : Dict = hidden_size _lowerCamelCase : Any = feat_extract_norm _lowerCamelCase : List[Any] = feat_extract_activation _lowerCamelCase : Any = list(__lowerCAmelCase ) _lowerCamelCase : Tuple = list(__lowerCAmelCase ) _lowerCamelCase : int = list(__lowerCAmelCase ) _lowerCamelCase : List[str] = conv_bias _lowerCamelCase : List[str] = num_conv_pos_embeddings _lowerCamelCase : Tuple = num_conv_pos_embedding_groups _lowerCamelCase : List[str] = len(self.conv_dim ) _lowerCamelCase : Tuple = num_hidden_layers _lowerCamelCase : List[Any] = intermediate_size _lowerCamelCase : Dict = hidden_act _lowerCamelCase : Union[str, Any] = num_attention_heads _lowerCamelCase : Tuple = hidden_dropout _lowerCamelCase : List[Any] = attention_dropout _lowerCamelCase : Optional[int] = activation_dropout _lowerCamelCase : Optional[Any] = feat_proj_dropout _lowerCamelCase : Optional[int] = final_dropout _lowerCamelCase : Any = layerdrop _lowerCamelCase : Any = layer_norm_eps _lowerCamelCase : List[Any] = initializer_range _lowerCamelCase : List[str] = num_ctc_classes _lowerCamelCase : List[Any] = vocab_size _lowerCamelCase : Optional[Any] = do_stable_layer_norm _lowerCamelCase : Tuple = use_weighted_layer_sum _lowerCamelCase : List[Any] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' f''' {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,''' f''' `len(config.conv_kernel) = {len(self.conv_kernel )}`.''' ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 _lowerCamelCase : Any = apply_spec_augment _lowerCamelCase : Dict = mask_time_prob _lowerCamelCase : List[str] = mask_time_length _lowerCamelCase : Optional[Any] = mask_time_min_masks _lowerCamelCase : List[str] = mask_feature_prob _lowerCamelCase : int = mask_feature_length _lowerCamelCase : Dict = mask_feature_min_masks # parameters for pretraining with codevector quantized representations _lowerCamelCase : Optional[Any] = num_codevectors_per_group _lowerCamelCase : int = num_codevector_groups _lowerCamelCase : List[Any] = contrastive_logits_temperature _lowerCamelCase : List[str] = feat_quantizer_dropout _lowerCamelCase : Dict = num_negatives _lowerCamelCase : Optional[int] = codevector_dim _lowerCamelCase : List[Any] = proj_codevector_dim _lowerCamelCase : List[Any] = diversity_loss_weight # ctc loss _lowerCamelCase : Union[str, Any] = ctc_loss_reduction _lowerCamelCase : Any = ctc_zero_infinity # pretraining loss _lowerCamelCase : str = replace_prob @property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )	72
'''simple docstring''' import shutil import tempfile import unittest import numpy as np import pytest from transformers import is_speech_available, is_vision_available from transformers.testing_utils import require_torch if is_vision_available(): from transformers import TvltImageProcessor if is_speech_available(): from transformers import TvltFeatureExtractor from transformers import TvltProcessor @require_torch class lowerCamelCase_ (unittest.TestCase ): '''simple docstring''' def _A ( self : Optional[int] ): _UpperCAmelCase : int = "ZinengTang/tvlt-base" _UpperCAmelCase : List[Any] = tempfile.mkdtemp() def _A ( self : str , A : Optional[int] ): return TvltImageProcessor.from_pretrained(self.checkpoint , A ) def _A ( self : Any , A : Dict ): return TvltFeatureExtractor.from_pretrained(self.checkpoint , A ) def _A ( self : Union[str, Any] ): shutil.rmtree(self.tmpdirname ) def _A ( self : Tuple ): _UpperCAmelCase : Union[str, Any] = self.get_image_processor() _UpperCAmelCase : Tuple = self.get_feature_extractor() _UpperCAmelCase : int = TvltProcessor(image_processor=A , feature_extractor=A ) processor.save_pretrained(self.tmpdirname ) _UpperCAmelCase : Union[str, Any] = TvltProcessor.from_pretrained(self.tmpdirname ) self.assertIsInstance(processor.feature_extractor , A ) self.assertIsInstance(processor.image_processor , A ) def _A ( self : List[Any] ): _UpperCAmelCase : Optional[int] = self.get_image_processor() _UpperCAmelCase : Tuple = self.get_feature_extractor() _UpperCAmelCase : Tuple = TvltProcessor(image_processor=A , feature_extractor=A ) _UpperCAmelCase : Tuple = np.ones([12000] ) _UpperCAmelCase : Dict = feature_extractor(A , return_tensors="np" ) _UpperCAmelCase : int = processor(audio=A , return_tensors="np" ) for key in audio_dict.keys(): self.assertAlmostEqual(audio_dict[key].sum() , input_processor[key].sum() , delta=1E-2 ) def _A ( self : Optional[Any] ): _UpperCAmelCase : Union[str, Any] = self.get_image_processor() _UpperCAmelCase : str = self.get_feature_extractor() _UpperCAmelCase : Any = TvltProcessor(image_processor=A , feature_extractor=A ) _UpperCAmelCase : Any = np.ones([3, 224, 224] ) _UpperCAmelCase : str = image_processor(A , return_tensors="np" ) _UpperCAmelCase : Tuple = processor(images=A , return_tensors="np" ) for key in image_dict.keys(): self.assertAlmostEqual(image_dict[key].sum() , input_processor[key].sum() , delta=1E-2 ) def _A ( self : List[str] ): _UpperCAmelCase : Tuple = self.get_image_processor() _UpperCAmelCase : str = self.get_feature_extractor() _UpperCAmelCase : str = TvltProcessor(image_processor=A , feature_extractor=A ) _UpperCAmelCase : Any = np.ones([12000] ) _UpperCAmelCase : Optional[Any] = np.ones([3, 224, 224] ) _UpperCAmelCase : Any = processor(audio=A , images=A ) self.assertListEqual(list(inputs.keys() ) , ["audio_values", "audio_mask", "pixel_values", "pixel_mask"] ) # test if it raises when no input is passed with pytest.raises(A ): processor() def _A ( self : Optional[int] ): _UpperCAmelCase : Optional[int] = self.get_image_processor() _UpperCAmelCase : Tuple = self.get_feature_extractor() _UpperCAmelCase : List[Any] = TvltProcessor(image_processor=A , feature_extractor=A ) self.assertListEqual( processor.model_input_names , image_processor.model_input_names + feature_extractor.model_input_names , msg="`processor` and `image_processor`+`feature_extractor` model input names do not match" , )	31	"""simple docstring""" from typing import Optional from urllib.parse import quote import huggingface_hub as hfh from packaging import version def snake_case_ ( A_ : str, A_ : str, A_ : Optional[str] = None ): '''simple docstring''' if version.parse(hfh.__version__ ).release < version.parse('''0.11.0''' ).release: # old versions of hfh don't url-encode the file path _lowerCamelCase : Optional[Any] = quote(A_ ) return hfh.hf_hub_url(A_, A_, repo_type='''dataset''', revision=A_ )	72
from manim import * class SCREAMING_SNAKE_CASE__ ( lowercase__ ): def SCREAMING_SNAKE_CASE ( self : Any ) -> Optional[int]: a_ : Optional[int] = Rectangle(height=0.5 , width=0.5 ) a_ : List[Any] = Rectangle(height=0.25 , width=0.25 ) a_ : Optional[Any] = Rectangle(height=0.46 , width=0.46 ).set_stroke(width=0 ) a_ : str = [mem.copy() for i in range(6 )] a_ : Tuple = [mem.copy() for i in range(6 )] a_ : Any = VGroup(SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : int = VGroup(SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Optional[Any] = VGroup(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Optional[Any] = Text('CPU' , font_size=2_4 ) a_ : Any = Group(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0.5 , aligned_edge=SCREAMING_SNAKE_CASE__ ) cpu.move_to([-2.5, -0.5, 0] ) self.add(SCREAMING_SNAKE_CASE__ ) a_ : Union[str, Any] = [mem.copy() for i in range(4 )] a_ : List[Any] = VGroup(SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Any = Text('GPU' , font_size=2_4 ) a_ : Optional[Any] = Group(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0.5 , aligned_edge=SCREAMING_SNAKE_CASE__ ) gpu.move_to([-1, -1, 0] ) self.add(SCREAMING_SNAKE_CASE__ ) a_ : Optional[Any] = [mem.copy() for i in range(6 )] a_ : List[Any] = VGroup(SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : List[str] = Text('Model' , font_size=2_4 ) a_ : int = Group(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0.5 , aligned_edge=SCREAMING_SNAKE_CASE__ ) model.move_to([3, -1.0, 0] ) self.add(SCREAMING_SNAKE_CASE__ ) a_ : Dict = [] a_ : str = [] a_ : int = [] for i, rect in enumerate(SCREAMING_SNAKE_CASE__ ): rect.set_stroke(SCREAMING_SNAKE_CASE__ ) a_ : int = Rectangle(height=0.46 / 4 , width=0.46 / 3 ).set_stroke(width=0.0 ).set_fill(SCREAMING_SNAKE_CASE__ , opacity=0.7 ) if i == 0: cpu_target.next_to(cpu_left_col_base[0].get_corner(DOWN + LEFT ) , buff=0.02 , direction=SCREAMING_SNAKE_CASE__ ) cpu_target.set_x(cpu_target.get_x() + 0.1 ) elif i == 3: cpu_target.next_to(model_cpu_arr[0] , direction=SCREAMING_SNAKE_CASE__ , buff=0.0 ) else: cpu_target.next_to(model_cpu_arr[i - 1] , direction=SCREAMING_SNAKE_CASE__ , buff=0.0 ) self.add(SCREAMING_SNAKE_CASE__ ) model_cpu_arr.append(SCREAMING_SNAKE_CASE__ ) self.add(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) a_ : Tuple = [mem.copy() for i in range(6 )] a_ : Union[str, Any] = VGroup(SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Dict = Text('Loaded Checkpoint' , font_size=2_4 ) a_ : str = Group(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0.5 , aligned_edge=SCREAMING_SNAKE_CASE__ ) checkpoint.move_to([3, 0.5, 0] ) self.add(SCREAMING_SNAKE_CASE__ ) a_ : Dict = [] a_ : Optional[int] = [] for i, rect in enumerate(SCREAMING_SNAKE_CASE__ ): a_ : Union[str, Any] = fill.copy().set_fill(SCREAMING_SNAKE_CASE__ , opacity=0.7 ) target.move_to(SCREAMING_SNAKE_CASE__ ) ckpt_arr.append(SCREAMING_SNAKE_CASE__ ) a_ : List[str] = target.copy() if i < 5: cpu_target.move_to(cpu_left_col_base[i + 1] ) else: cpu_target.move_to(cpu_right_col_base[i - 5] ) ckpt_cpu_arr.append(SCREAMING_SNAKE_CASE__ ) self.add(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) a_ : List[str] = Square(side_length=2.2 ) key.move_to([-5, 2, 0] ) a_ : Optional[Any] = MarkupText( F"""<b>Key:</b>\n\n<span fgcolor='{YELLOW}'>●</span> Empty Model""" , font_size=1_8 , ) key_text.move_to([-5, 2.4, 0] ) self.add(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) a_ : Optional[int] = MarkupText( F"""<span fgcolor='{BLUE}'>●</span> Checkpoint""" , font_size=1_8 , ) blue_text.next_to(SCREAMING_SNAKE_CASE__ , DOWN * 2.4 , aligned_edge=key_text.get_left() ) self.add(SCREAMING_SNAKE_CASE__ ) a_ : str = MarkupText( F"""Based on the passed in configuration, weights are stored in\na variety of np.memmaps on disk or to a particular device.""" , font_size=2_4 , ) step_a.move_to([2, 2, 0] ) a_ : List[Any] = [meta_mem.copy() for i in range(6 )] a_ : Optional[Any] = [meta_mem.copy() for i in range(6 )] a_ : int = VGroup(SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Optional[int] = VGroup(SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Tuple = VGroup(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Dict = Text('Disk' , font_size=2_4 ) a_ : Optional[Any] = Group(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0.5 , aligned_edge=SCREAMING_SNAKE_CASE__ ) disk.move_to([-4.0, -1.25, 0] ) self.play(Write(SCREAMING_SNAKE_CASE__ , run_time=3 ) , Write(SCREAMING_SNAKE_CASE__ , run_time=1 ) , Create(SCREAMING_SNAKE_CASE__ , run_time=1 ) ) a_ : List[Any] = [] for i, rect in enumerate(SCREAMING_SNAKE_CASE__ ): a_ : List[str] = rect.copy() target.generate_target() target.target.move_to(disk_left_col_base[i] ).scale(0.5 ) animations.append(MoveToTarget(SCREAMING_SNAKE_CASE__ , run_time=1.5 ) ) self.play(SCREAMING_SNAKE_CASE__ ) self.play(FadeOut(SCREAMING_SNAKE_CASE__ ) ) a_ : Optional[Any] = MarkupText(F"""Then, the checkpoint is removed from memory\nthrough garbage collection.""" , font_size=2_4 ) step_a.move_to([2, 2, 0] ) self.play(Write(SCREAMING_SNAKE_CASE__ , run_time=3 ) ) self.play( FadeOut(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , *SCREAMING_SNAKE_CASE__ ) , ) self.wait()	32	"""simple docstring""" import unittest import numpy as np def snake_case_ ( A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray \| None = None, ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) if shape_a[0] != shape_b[0]: _lowerCamelCase : Tuple = ( '''Expected the same number of rows for A and B. ''' F'''Instead found A of size {shape_a} and B of size {shape_b}''' ) raise ValueError(A_ ) if shape_b[1] != shape_c[1]: _lowerCamelCase : Tuple = ( '''Expected the same number of columns for B and C. ''' F'''Instead found B of size {shape_b} and C of size {shape_c}''' ) raise ValueError(A_ ) _lowerCamelCase : List[str] = pseudo_inv if a_inv is None: try: _lowerCamelCase : Any = np.linalg.inv(A_ ) except np.linalg.LinAlgError: raise ValueError( '''Input matrix A is not invertible. Cannot compute Schur complement.''' ) return mat_c - mat_b.T @ a_inv @ mat_b class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : List[str] = np.array([[2, 1], [6, 3]] ) _lowerCamelCase : List[Any] = schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = np.block([[a, b], [b.T, c]] ) _lowerCamelCase : Tuple = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : List[str] = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : Any = np.linalg.det(__lowerCAmelCase ) self.assertAlmostEqual(__lowerCAmelCase , det_a * det_s ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : Optional[int] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : int = np.array([[2, 1], [6, 3]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : str = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : Union[str, Any] = np.array([[2, 1, 3], [6, 3, 5]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) if __name__ == "__main__": import doctest doctest.testmod() unittest.main()	72
"""simple docstring""" from typing import List, Optional, Union from ...processing_utils import ProcessorMixin from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy from ...utils import TensorType class _UpperCAmelCase ( _A ): SCREAMING_SNAKE_CASE_ : int = ["image_processor", "tokenizer"] SCREAMING_SNAKE_CASE_ : Union[str, Any] = "BridgeTowerImageProcessor" SCREAMING_SNAKE_CASE_ : List[Any] = ("RobertaTokenizer", "RobertaTokenizerFast") def __init__( self : int , A : Any , A : List[str] ) -> int: super().__init__(A , A ) def __call__( self : str , A : Optional[Any] , A : Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]] = None , A : bool = True , A : Union[bool, str, PaddingStrategy] = False , A : Union[bool, str, TruncationStrategy] = None , A : Optional[int] = None , A : int = 0 , A : Optional[int] = None , A : Optional[bool] = None , A : Optional[bool] = None , A : bool = False , A : bool = False , A : bool = False , A : bool = False , A : bool = True , A : Optional[Union[str, TensorType]] = None , A : Optional[int] , ) -> BatchEncoding: lowercase_ : List[Any] = self.tokenizer( text=A , add_special_tokens=A , padding=A , truncation=A , max_length=A , stride=A , pad_to_multiple_of=A , return_token_type_ids=A , return_attention_mask=A , return_overflowing_tokens=A , return_special_tokens_mask=A , return_offsets_mapping=A , return_length=A , verbose=A , return_tensors=A , A , ) # add pixel_values + pixel_mask lowercase_ : int = self.image_processor( A , return_tensors=A , do_normalize=A , do_center_crop=A , *A ) encoding.update(A ) return encoding def A ( self : Tuple , A : str , *A : Optional[Any] ) -> List[str]: return self.tokenizer.batch_decode(A , *A ) def A ( self : List[Any] , A : Any , *A : Union[str, Any] ) -> List[str]: return self.tokenizer.decode(A , **A ) @property def A ( self : Optional[int] ) -> Tuple: lowercase_ : Union[str, Any] = self.tokenizer.model_input_names lowercase_ : List[str] = self.image_processor.model_input_names return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )	33	"""simple docstring""" def snake_case_ ( A_ : list[int], A_ : str ): '''simple docstring''' _lowerCamelCase : Tuple = int(A_ ) # Initialize Result _lowerCamelCase : Dict = [] # Traverse through all denomination for denomination in reversed(A_ ): # Find denominations while int(A_ ) >= int(A_ ): total_value -= int(A_ ) answer.append(A_ ) # Append the "answers" array return answer # Driver Code if __name__ == "__main__": lowerCAmelCase__ = [] lowerCAmelCase__ = '''0''' if ( input('''Do you want to enter your denominations ? (yY/n): ''').strip().lower() == "y" ): lowerCAmelCase__ = int(input('''Enter the number of denominations you want to add: ''').strip()) for i in range(0, n): denominations.append(int(input(F"""Denomination {i}: """).strip())) lowerCAmelCase__ = input('''Enter the change you want to make in Indian Currency: ''').strip() else: # All denominations of Indian Currency if user does not enter lowerCAmelCase__ = [1, 2, 5, 10, 20, 50, 100, 500, 2000] lowerCAmelCase__ = input('''Enter the change you want to make: ''').strip() if int(value) == 0 or int(value) < 0: print('''The total value cannot be zero or negative.''') else: print(F"""Following is minimal change for {value}: """) lowerCAmelCase__ = find_minimum_change(denominations, value) # Print result for i in range(len(answer)): print(answer[i], end=''' ''')	72
'''simple docstring''' def snake_case_ (_a : int , _a : int ): return "\n".join( F"{number} * {i} = {number * i}" for i in range(1 , number_of_terms + 1 ) ) if __name__ == "__main__": print(multiplication_table(number=5, number_of_terms=10))	34	"""simple docstring""" def snake_case_ ( A_ : int = 2_00_00_00 ): '''simple docstring''' _lowerCamelCase : int = [0 for i in range(n + 1 )] _lowerCamelCase : List[str] = 1 _lowerCamelCase : Any = 1 for i in range(2, int(n*0.5 ) + 1 ): if primality_list[i] == 0: for j in range(i i, n + 1, A_ ): _lowerCamelCase : str = 1 _lowerCamelCase : Tuple = 0 for i in range(A_ ): if primality_list[i] == 0: sum_of_primes += i return sum_of_primes if __name__ == "__main__": print(F"""{solution() = }""")	72
'''simple docstring''' import warnings from ...utils import logging from .image_processing_beit import BeitImageProcessor __a = logging.get_logger(__name__) class UpperCAmelCase_ ( _a ): """simple docstring""" def __init__( self : List[str] , snake_case_ : str , snake_case_ : List[str] ): warnings.warn( """The class BeitFeatureExtractor is deprecated and will be removed in version 5 of Transformers. Please""" """ use BeitImageProcessor instead.""" , snake_case_ , ) super().__init__(snake_case_ , **snake_case_ )	35	"""simple docstring""" import argparse import torch from torch import nn from transformers import MBartConfig, MBartForConditionalGeneration def snake_case_ ( A_ : Any ): '''simple docstring''' _lowerCamelCase : Any = [ '''encoder.version''', '''decoder.version''', '''model.encoder.version''', '''model.decoder.version''', '''_float_tensor''', '''decoder.output_projection.weight''', ] for k in ignore_keys: state_dict.pop(A_, A_ ) def snake_case_ ( A_ : Union[str, Any] ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : Tuple = emb.weight.shape _lowerCamelCase : Dict = nn.Linear(A_, A_, bias=A_ ) _lowerCamelCase : str = emb.weight.data return lin_layer def snake_case_ ( A_ : str, A_ : Optional[int]="facebook/mbart-large-en-ro", A_ : Union[str, Any]=False, A_ : List[str]=False ): '''simple docstring''' _lowerCamelCase : Tuple = torch.load(A_, map_location='''cpu''' )['''model'''] remove_ignore_keys_(A_ ) _lowerCamelCase : int = state_dict['''encoder.embed_tokens.weight'''].shape[0] _lowerCamelCase : Any = MBartConfig.from_pretrained(A_, vocab_size=A_ ) if mbart_aa and finetuned: _lowerCamelCase : Any = '''relu''' _lowerCamelCase : Optional[int] = state_dict['''decoder.embed_tokens.weight'''] _lowerCamelCase : Any = MBartForConditionalGeneration(A_ ) model.model.load_state_dict(A_ ) if finetuned: _lowerCamelCase : str = make_linear_from_emb(model.model.shared ) return model if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''fairseq_path''', type=str, help='''bart.large, bart.large.cnn or a path to a model.pt on local filesystem.''' ) parser.add_argument('''pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model.''') parser.add_argument( '''--hf_config''', default='''facebook/mbart-large-cc25''', type=str, help='''Which huggingface architecture to use: mbart-large''', ) parser.add_argument('''--mbart_50''', action='''store_true''', help='''whether the model is mMART-50 checkpoint''') parser.add_argument('''--finetuned''', action='''store_true''', help='''whether the model is a fine-tuned checkpoint''') lowerCAmelCase__ = parser.parse_args() lowerCAmelCase__ = convert_fairseq_mbart_checkpoint_from_disk( args.fairseq_path, hf_config_path=args.hf_config, finetuned=args.finetuned, mbart_aa=args.mbart_aa ) model.save_pretrained(args.pytorch_dump_folder_path)	72
import os import unittest from transformers.models.bartpho.tokenization_bartpho import VOCAB_FILES_NAMES, BartphoTokenizer from transformers.testing_utils import get_tests_dir from ...test_tokenization_common import TokenizerTesterMixin _snake_case = get_tests_dir("fixtures/test_sentencepiece_bpe.model") class UpperCAmelCase_ ( a , unittest.TestCase): lowerCamelCase__ = BartphoTokenizer lowerCamelCase__ = False lowerCamelCase__ = True def snake_case__ ( self): '''simple docstring''' super().setUp() _lowerCAmelCase : str = ["▁This", "▁is", "▁a", "▁t", "est"] _lowerCAmelCase : List[str] = dict(zip(__a, range(len(__a)))) _lowerCAmelCase : Optional[Any] = {"unk_token": "<unk>"} _lowerCAmelCase : Optional[int] = os.path.join(self.tmpdirname, VOCAB_FILES_NAMES["monolingual_vocab_file"]) with open(self.monolingual_vocab_file, "w", encoding="utf-8") as fp: for token in vocab_tokens: fp.write(f"{token} {vocab_tokens[token]}\n") _lowerCAmelCase : Optional[Any] = BartphoTokenizer(__a, self.monolingual_vocab_file, self.special_tokens_map) tokenizer.save_pretrained(self.tmpdirname) def snake_case__ ( self, __a): '''simple docstring''' kwargs.update(self.special_tokens_map) return BartphoTokenizer.from_pretrained(self.tmpdirname, __a) def snake_case__ ( self, __a): '''simple docstring''' _lowerCAmelCase : Union[str, Any] = "This is a là test" _lowerCAmelCase : Optional[int] = "This is a<unk><unk> test" return input_text, output_text def snake_case__ ( self): '''simple docstring''' _lowerCAmelCase : Optional[int] = BartphoTokenizer(__a, self.monolingual_vocab_file, self.special_tokens_map) _lowerCAmelCase : List[Any] = "This is a là test" _lowerCAmelCase : str = "▁This ▁is ▁a ▁l à ▁t est".split() _lowerCAmelCase : str = tokenizer.tokenize(__a) self.assertListEqual(__a, __a) _lowerCAmelCase : Tuple = tokens + [tokenizer.unk_token] _lowerCAmelCase : List[str] = [4, 5, 6, 3, 3, 7, 8, 3] self.assertListEqual(tokenizer.convert_tokens_to_ids(__a), __a)	36	"""simple docstring""" def snake_case_ ( A_ : list[list] ): '''simple docstring''' _lowerCamelCase : Optional[int] = current_set.copy() for row_index, row in enumerate(A_ ): _lowerCamelCase : Tuple = row[0] for column_index, column in enumerate(A_ ): if magnitude == 0: _lowerCamelCase : List[Any] = column continue _lowerCamelCase : List[Any] = column / magnitude # Subtract to cancel term _lowerCamelCase : Union[str, Any] = current_set[0] _lowerCamelCase : Dict = [first_row] _lowerCamelCase : str = current_set[1::] for row in current_set: _lowerCamelCase : Union[str, Any] = [] # If first term is 0, it is already in form we want, so we preserve it if row[0] == 0: final_set.append(A_ ) continue for column_index in range(len(A_ ) ): temp_row.append(first_row[column_index] - row[column_index] ) final_set.append(A_ ) # Create next recursion iteration set if len(final_set[0] ) != 3: _lowerCamelCase : Any = final_set[0] _lowerCamelCase : Any = [] _lowerCamelCase : Optional[int] = [] for row in final_set[1::]: current_first_column.append(row[0] ) next_iteration.append(row[1::] ) _lowerCamelCase : Dict = simplify(A_ ) for i in range(len(A_ ) ): resultant[i].insert(0, current_first_column[i] ) resultant.insert(0, A_ ) _lowerCamelCase : Tuple = resultant return final_set def snake_case_ ( A_ : list[list] ): '''simple docstring''' if len(A_ ) == 0: raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) _lowerCamelCase : Dict = len(A_ ) + 1 if any(len(A_ ) != _length for item in equations ): raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) for row in equations: if any(not isinstance(A_, (int, float) ) for column in row ): raise ValueError('''solve_simultaneous() requires lists of integers''' ) if len(A_ ) == 1: return [equations[0][-1] / equations[0][0]] _lowerCamelCase : Optional[Any] = equations.copy() if any(0 in row for row in data_set ): _lowerCamelCase : str = data_set.copy() _lowerCamelCase : List[Any] = [] for row_index, row in enumerate(A_ ): if 0 not in row: _lowerCamelCase : Union[str, Any] = data_set.pop(A_ ) break if not full_row: raise ValueError('''solve_simultaneous() requires at least 1 full equation''' ) data_set.insert(0, A_ ) _lowerCamelCase : List[str] = data_set.copy() _lowerCamelCase : int = simplify(A_ ) _lowerCamelCase : int = simplified[::-1] _lowerCamelCase : list = [] for row in simplified: _lowerCamelCase : Tuple = row[-1] if not solutions: if row[-2] == 0: solutions.append(0 ) continue solutions.append(current_solution / row[-2] ) continue _lowerCamelCase : Optional[Any] = row.copy()[: len(A_ ) - 1 :] while temp_row[0] == 0: temp_row.pop(0 ) if len(A_ ) == 0: solutions.append(0 ) continue _lowerCamelCase : Tuple = temp_row[1::] _lowerCamelCase : Tuple = temp_row[::-1] for column_index, column in enumerate(A_ ): current_solution -= column * solutions[column_index] solutions.append(A_ ) _lowerCamelCase : Optional[int] = [] for item in solutions: final.append(float(round(A_, 5 ) ) ) return final[::-1] if __name__ == "__main__": import doctest doctest.testmod() lowerCAmelCase__ = [ [2, 1, 1, 1, 1, 4], [1, 2, 1, 1, 1, 5], [1, 1, 2, 1, 1, 6], [1, 1, 1, 2, 1, 7], [1, 1, 1, 1, 2, 8], ] print(solve_simultaneous(eq)) print(solve_simultaneous([[4, 2]]))	72
'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_torch_available _lowerCAmelCase = {'''configuration_speech_encoder_decoder''': ['''SpeechEncoderDecoderConfig''']} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCAmelCase = ['''SpeechEncoderDecoderModel'''] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCAmelCase = ['''FlaxSpeechEncoderDecoderModel'''] if TYPE_CHECKING: from .configuration_speech_encoder_decoder import SpeechEncoderDecoderConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_speech_encoder_decoder import SpeechEncoderDecoderModel try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_speech_encoder_decoder import FlaxSpeechEncoderDecoderModel else: import sys _lowerCAmelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	37	"""simple docstring""" import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class __snake_case ( _lowercase): snake_case__ : List[Any] = "Speech2TextFeatureExtractor" snake_case__ : Union[str, Any] = "Speech2TextTokenizer" def __init__( self : int , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" super().__init__(__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : str = False def __call__( self : List[Any] , __lowerCAmelCase : int , __lowerCAmelCase : List[str] ): """simple docstring""" if self._in_target_context_manager: return self.current_processor(__lowerCAmelCase , *__lowerCAmelCase ) if "raw_speech" in kwargs: warnings.warn('''Using `raw_speech` as a keyword argument is deprecated. Use `audio` instead.''' ) _lowerCamelCase : str = kwargs.pop('''raw_speech''' ) else: _lowerCamelCase : Tuple = kwargs.pop('''audio''' , __lowerCAmelCase ) _lowerCamelCase : Optional[Any] = kwargs.pop('''sampling_rate''' , __lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = kwargs.pop('''text''' , __lowerCAmelCase ) if len(__lowerCAmelCase ) > 0: _lowerCamelCase : List[Any] = args[0] _lowerCamelCase : int = args[1:] if audio is None and text is None: raise ValueError('''You need to specify either an `audio` or `text` input to process.''' ) if audio is not None: _lowerCamelCase : List[Any] = self.feature_extractor(__lowerCAmelCase , __lowerCAmelCase , sampling_rate=__lowerCAmelCase , __lowerCAmelCase ) if text is not None: _lowerCamelCase : List[Any] = self.tokenizer(__lowerCAmelCase , __lowerCAmelCase ) if text is None: return inputs elif audio is None: return encodings else: _lowerCamelCase : List[str] = encodings['''input_ids'''] return inputs def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : List[Any] , __lowerCAmelCase : Tuple ): """simple docstring""" return self.tokenizer.batch_decode(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : List[str] , *__lowerCAmelCase : int ): """simple docstring""" return self.tokenizer.decode(__lowerCAmelCase , **__lowerCAmelCase ) @contextmanager def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" warnings.warn( '''`as_target_processor` is deprecated and will be removed in v5 of Transformers. You can process your ''' '''labels by using the argument `text` of the regular `__call__` method (either in the same call as ''' '''your audio inputs, or in a separate call.''' ) _lowerCamelCase : Union[str, Any] = True _lowerCamelCase : Any = self.tokenizer yield _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : Tuple = False	72
from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_tf_available, is_tokenizers_available, is_torch_available, ) UpperCAmelCase_ : str = { '''configuration_distilbert''': [ '''DISTILBERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''DistilBertConfig''', '''DistilBertOnnxConfig''', ], '''tokenization_distilbert''': ['''DistilBertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase_ : Optional[Any] = ['''DistilBertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase_ : Optional[int] = [ '''DISTILBERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''DistilBertForMaskedLM''', '''DistilBertForMultipleChoice''', '''DistilBertForQuestionAnswering''', '''DistilBertForSequenceClassification''', '''DistilBertForTokenClassification''', '''DistilBertModel''', '''DistilBertPreTrainedModel''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase_ : Optional[Any] = [ '''TF_DISTILBERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFDistilBertForMaskedLM''', '''TFDistilBertForMultipleChoice''', '''TFDistilBertForQuestionAnswering''', '''TFDistilBertForSequenceClassification''', '''TFDistilBertForTokenClassification''', '''TFDistilBertMainLayer''', '''TFDistilBertModel''', '''TFDistilBertPreTrainedModel''', ] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase_ : List[Any] = [ '''FlaxDistilBertForMaskedLM''', '''FlaxDistilBertForMultipleChoice''', '''FlaxDistilBertForQuestionAnswering''', '''FlaxDistilBertForSequenceClassification''', '''FlaxDistilBertForTokenClassification''', '''FlaxDistilBertModel''', '''FlaxDistilBertPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_distilbert import ( DISTILBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, DistilBertConfig, DistilBertOnnxConfig, ) from .tokenization_distilbert import DistilBertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_distilbert_fast import DistilBertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_distilbert import ( DISTILBERT_PRETRAINED_MODEL_ARCHIVE_LIST, DistilBertForMaskedLM, DistilBertForMultipleChoice, DistilBertForQuestionAnswering, DistilBertForSequenceClassification, DistilBertForTokenClassification, DistilBertModel, DistilBertPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_distilbert import ( TF_DISTILBERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFDistilBertForMaskedLM, TFDistilBertForMultipleChoice, TFDistilBertForQuestionAnswering, TFDistilBertForSequenceClassification, TFDistilBertForTokenClassification, TFDistilBertMainLayer, TFDistilBertModel, TFDistilBertPreTrainedModel, ) try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_distilbert import ( FlaxDistilBertForMaskedLM, FlaxDistilBertForMultipleChoice, FlaxDistilBertForQuestionAnswering, FlaxDistilBertForSequenceClassification, FlaxDistilBertForTokenClassification, FlaxDistilBertModel, FlaxDistilBertPreTrainedModel, ) else: import sys UpperCAmelCase_ : List[Any] = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	38	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = {'''configuration_reformer''': ['''REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ReformerConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ReformerAttention''', '''ReformerForMaskedLM''', '''ReformerForQuestionAnswering''', '''ReformerForSequenceClassification''', '''ReformerLayer''', '''ReformerModel''', '''ReformerModelWithLMHead''', '''ReformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_reformer import REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, ReformerConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer import ReformerTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer_fast import ReformerTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_reformer import ( REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, ReformerAttention, ReformerForMaskedLM, ReformerForQuestionAnswering, ReformerForSequenceClassification, ReformerLayer, ReformerModel, ReformerModelWithLMHead, ReformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
def __A ( __lowerCAmelCase )-> set: """simple docstring""" _UpperCAmelCase = set() # edges = list of graph's edges _UpperCAmelCase = get_edges(__lowerCAmelCase ) # While there are still elements in edges list, take an arbitrary edge # (from_node, to_node) and add his extremity to chosen_vertices and then # remove all arcs adjacent to the from_node and to_node while edges: _UpperCAmelCase , _UpperCAmelCase = edges.pop() chosen_vertices.add(__lowerCAmelCase ) chosen_vertices.add(__lowerCAmelCase ) for edge in edges.copy(): if from_node in edge or to_node in edge: edges.discard(__lowerCAmelCase ) return chosen_vertices def __A ( __lowerCAmelCase )-> set: """simple docstring""" _UpperCAmelCase = set() for from_node, to_nodes in graph.items(): for to_node in to_nodes: edges.add((from_node, to_node) ) return edges if __name__ == "__main__": import doctest doctest.testmod() # graph = {0: [1, 3], 1: [0, 3], 2: [0, 3, 4], 3: [0, 1, 2], 4: [2, 3]} # print(f"Matching vertex cover:\n{matching_min_vertex_cover(graph)}")	39	"""simple docstring""" from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available lowerCAmelCase__ = { '''configuration_autoformer''': [ '''AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''AutoformerConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''AutoformerForPrediction''', '''AutoformerModel''', '''AutoformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_autoformer import ( AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, AutoformerConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_autoformer import ( AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, AutoformerForPrediction, AutoformerModel, AutoformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
"""simple docstring""" from __future__ import annotations def lowercase ( A_ , A_ , A_ , A_ )-> Optional[Any]: # noqa: E741 '''simple docstring''' while r - l > 1: a : Tuple = (l + r) // 2 if v[m] >= key: a : str = m else: a : Tuple = m # noqa: E741 return r def lowercase ( A_ )-> int: '''simple docstring''' if len(A_ ) == 0: return 0 a : str = [0] * len(A_ ) a : List[Any] = 1 a : List[Any] = v[0] for i in range(1 , len(A_ ) ): if v[i] < tail[0]: a : List[str] = v[i] elif v[i] > tail[length - 1]: a : Optional[Any] = v[i] length += 1 else: a : List[Any] = v[i] return length if __name__ == "__main__": import doctest doctest.testmod()	40	"""simple docstring""" import math def snake_case_ ( A_ : int ): '''simple docstring''' if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5, int(math.sqrt(A_ ) + 1 ), 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def snake_case_ ( A_ : float = 0.1 ): '''simple docstring''' _lowerCamelCase : Optional[int] = 3 _lowerCamelCase : List[str] = 3 while primes / (2 * j - 1) >= ratio: for i in range(j * j + j + 1, (j + 2) * (j + 2), j + 1 ): primes += is_prime(A_ ) j += 2 return j if __name__ == "__main__": import doctest doctest.testmod()	72
'''simple docstring''' from collections import OrderedDict from typing import Mapping from packaging import version from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...utils import logging _A : Tuple =logging.get_logger(__name__) _A : str ={ '''google/mobilenet_v2_1.4_224''': '''https://huggingface.co/google/mobilenet_v2_1.4_224/resolve/main/config.json''', '''google/mobilenet_v2_1.0_224''': '''https://huggingface.co/google/mobilenet_v2_1.0_224/resolve/main/config.json''', '''google/mobilenet_v2_0.75_160''': '''https://huggingface.co/google/mobilenet_v2_0.75_160/resolve/main/config.json''', '''google/mobilenet_v2_0.35_96''': '''https://huggingface.co/google/mobilenet_v2_0.35_96/resolve/main/config.json''', # See all MobileNetV2 models at https://huggingface.co/models?filter=mobilenet_v2 } class _lowercase ( _lowercase ): a = """mobilenet_v2""" def __init__( self: List[Any] , UpperCamelCase__: List[Any]=3 , UpperCamelCase__: Dict=224 , UpperCamelCase__: Optional[Any]=1.0 , UpperCamelCase__: Tuple=8 , UpperCamelCase__: Dict=8 , UpperCamelCase__: List[str]=6 , UpperCamelCase__: Tuple=32 , UpperCamelCase__: List[Any]=True , UpperCamelCase__: str=True , UpperCamelCase__: Dict="relu6" , UpperCamelCase__: Dict=True , UpperCamelCase__: Union[str, Any]=0.8 , UpperCamelCase__: List[Any]=0.02 , UpperCamelCase__: str=0.001 , UpperCamelCase__: Union[str, Any]=255 , UpperCamelCase__: Dict , ): super().__init__(UpperCamelCase__ ) if depth_multiplier <= 0: raise ValueError("""depth_multiplier must be greater than zero.""" ) lowerCamelCase__ : str = num_channels lowerCamelCase__ : Tuple = image_size lowerCamelCase__ : str = depth_multiplier lowerCamelCase__ : Optional[Any] = depth_divisible_by lowerCamelCase__ : List[str] = min_depth lowerCamelCase__ : Tuple = expand_ratio lowerCamelCase__ : Union[str, Any] = output_stride lowerCamelCase__ : str = first_layer_is_expansion lowerCamelCase__ : List[Any] = finegrained_output lowerCamelCase__ : Tuple = hidden_act lowerCamelCase__ : int = tf_padding lowerCamelCase__ : List[str] = classifier_dropout_prob lowerCamelCase__ : Optional[Any] = initializer_range lowerCamelCase__ : Union[str, Any] = layer_norm_eps lowerCamelCase__ : List[str] = semantic_loss_ignore_index class _lowercase ( _lowercase ): a = version.parse("""1.11""" ) @property def lowerCamelCase_ ( self: Tuple ): return OrderedDict([("""pixel_values""", {0: """batch"""})] ) @property def lowerCamelCase_ ( self: Optional[Any] ): if self.task == "image-classification": return OrderedDict([("""logits""", {0: """batch"""})] ) else: return OrderedDict([("""last_hidden_state""", {0: """batch"""}), ("""pooler_output""", {0: """batch"""})] ) @property def lowerCamelCase_ ( self: str ): return 1e-4	41	"""simple docstring""" import unittest from queue import Empty from threading import Thread from transformers import AutoTokenizer, TextIteratorStreamer, TextStreamer, is_torch_available from transformers.testing_utils import CaptureStdout, require_torch, torch_device from ..test_modeling_common import ids_tensor if is_torch_available(): import torch from transformers import AutoModelForCausalLM @require_torch class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Optional[Any] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Union[str, Any] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = tokenizer.decode(greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Union[str, Any] = TextStreamer(__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : int = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Optional[int] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : List[str] = tokenizer.decode(greedy_ids[0] ) _lowerCamelCase : Tuple = TextIteratorStreamer(__lowerCAmelCase ) _lowerCamelCase : Tuple = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() _lowerCamelCase : int = '''''' for new_text in streamer: streamer_text += new_text self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Dict = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : str = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : Optional[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : int = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = greedy_ids[:, input_ids.shape[1] :] _lowerCamelCase : int = tokenizer.decode(new_greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Any = TextStreamer(__lowerCAmelCase , skip_prompt=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : Union[str, Any] = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''distilgpt2''' ) _lowerCamelCase : Optional[Any] = AutoModelForCausalLM.from_pretrained('''distilgpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = -1 _lowerCamelCase : Any = torch.ones((1, 5) , device=__lowerCAmelCase ).long() * model.config.bos_token_id with CaptureStdout() as cs: _lowerCamelCase : List[Any] = TextStreamer(__lowerCAmelCase , skip_special_tokens=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The prompt contains a special token, so the streamer should not print it. As such, the output text, when # re-tokenized, must only contain one token _lowerCamelCase : Any = cs.out[:-1] # Remove the final "\n" _lowerCamelCase : int = tokenizer(__lowerCAmelCase , return_tensors='''pt''' ) self.assertEqual(streamer_text_tokenized.input_ids.shape , (1, 1) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : List[str] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Dict = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = -1 _lowerCamelCase : Any = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = TextIteratorStreamer(__lowerCAmelCase , timeout=0.0_01 ) _lowerCamelCase : str = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() # The streamer will timeout after 0.001 seconds, so an exception will be raised with self.assertRaises(__lowerCAmelCase ): _lowerCamelCase : Optional[Any] = '''''' for new_text in streamer: streamer_text += new_text	72
'''simple docstring''' import unittest from transformers import RoFormerTokenizer, RoFormerTokenizerFast from transformers.testing_utils import require_rjieba, require_tokenizers from ...test_tokenization_common import TokenizerTesterMixin @require_rjieba @require_tokenizers class __UpperCAmelCase ( _lowerCamelCase , unittest.TestCase ): __lowercase = RoFormerTokenizer __lowercase = RoFormerTokenizerFast __lowercase = True __lowercase = True def lowerCamelCase ( self ): """simple docstring""" super().setUp() def lowerCamelCase ( self , lowerCAmelCase_ ): """simple docstring""" return self.tokenizer_class.from_pretrained('junnyu/roformer_chinese_base' , lowerCAmelCase_ ) def lowerCamelCase ( self , lowerCAmelCase_ ): """simple docstring""" return self.rust_tokenizer_class.from_pretrained('junnyu/roformer_chinese_base' , lowerCAmelCase_ ) def lowerCamelCase ( self ): """simple docstring""" _snake_case = '永和服装饰品有限公司,今天天气非常好' _snake_case = '永和服装饰品有限公司 , 今天天气非常好' return input_text, output_text def lowerCamelCase ( self ): """simple docstring""" _snake_case = self.get_tokenizer() _snake_case , _snake_case = self.get_chinese_input_output_texts() _snake_case = tokenizer.tokenize(lowerCAmelCase_ ) self.assertListEqual(lowerCAmelCase_ , output_text.split() ) _snake_case = tokens + [tokenizer.unk_token] _snake_case = [2_29_43, 2_13_32, 3_44_31, 4_59_04, 1_17, 3_06, 12_31, 12_31, 26_53, 3_39_94, 12_66, 1_00] self.assertListEqual(tokenizer.convert_tokens_to_ids(lowerCAmelCase_ ) , lowerCAmelCase_ ) def lowerCamelCase ( self ): """simple docstring""" _snake_case = self.get_rust_tokenizer() _snake_case , _snake_case = self.get_chinese_input_output_texts() _snake_case = tokenizer.tokenize(lowerCAmelCase_ ) self.assertListEqual(lowerCAmelCase_ , output_text.split() ) _snake_case = tokens + [tokenizer.unk_token] _snake_case = [2_29_43, 2_13_32, 3_44_31, 4_59_04, 1_17, 3_06, 12_31, 12_31, 26_53, 3_39_94, 12_66, 1_00] self.assertListEqual(tokenizer.convert_tokens_to_ids(lowerCAmelCase_ ) , lowerCAmelCase_ ) def lowerCamelCase ( self ): """simple docstring""" pass def lowerCamelCase ( self ): """simple docstring""" pass def lowerCamelCase ( self ): """simple docstring""" pass	42	"""simple docstring""" from ....configuration_utils import PretrainedConfig from ....utils import logging lowerCAmelCase__ = logging.get_logger(__name__) # TODO: upload to AWS lowerCAmelCase__ = { '''yjernite/retribert-base-uncased''': ( '''https://huggingface.co/yjernite/retribert-base-uncased/resolve/main/config.json''' ), } class __snake_case ( _lowercase): snake_case__ : int = "retribert" def __init__( self : Optional[int] , __lowerCAmelCase : str=3_0_5_2_2 , __lowerCAmelCase : Tuple=7_6_8 , __lowerCAmelCase : Union[str, Any]=8 , __lowerCAmelCase : Any=1_2 , __lowerCAmelCase : Optional[int]=3_0_7_2 , __lowerCAmelCase : List[str]="gelu" , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=5_1_2 , __lowerCAmelCase : List[str]=2 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Optional[Any]=1E-12 , __lowerCAmelCase : Tuple=True , __lowerCAmelCase : Any=1_2_8 , __lowerCAmelCase : Optional[int]=0 , __lowerCAmelCase : str , ): """simple docstring""" super().__init__(pad_token_id=__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = vocab_size _lowerCamelCase : Union[str, Any] = hidden_size _lowerCamelCase : Dict = num_hidden_layers _lowerCamelCase : int = num_attention_heads _lowerCamelCase : int = hidden_act _lowerCamelCase : str = intermediate_size _lowerCamelCase : Union[str, Any] = hidden_dropout_prob _lowerCamelCase : List[Any] = attention_probs_dropout_prob _lowerCamelCase : Optional[int] = max_position_embeddings _lowerCamelCase : List[Any] = type_vocab_size _lowerCamelCase : Any = initializer_range _lowerCamelCase : Optional[int] = layer_norm_eps _lowerCamelCase : int = share_encoders _lowerCamelCase : Optional[Any] = projection_dim	72
import json import os import shutil import tempfile import unittest import numpy as np import pytest from transformers import CLIPTokenizer, CLIPTokenizerFast from transformers.models.clip.tokenization_clip import VOCAB_FILES_NAMES from transformers.testing_utils import require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import CLIPSegProcessor, ViTImageProcessor @require_vision class lowerCamelCase_ ( unittest.TestCase ): '''simple docstring''' def UpperCamelCase__ ( self) -> List[str]: __UpperCamelCase :int = tempfile.mkdtemp() # fmt: off __UpperCamelCase :int = ['''l''', '''o''', '''w''', '''e''', '''r''', '''s''', '''t''', '''i''', '''d''', '''n''', '''lo''', '''l</w>''', '''w</w>''', '''r</w>''', '''t</w>''', '''low</w>''', '''er</w>''', '''lowest</w>''', '''newer</w>''', '''wider''', '''<unk>''', '''<\|startoftext\|>''', '''<\|endoftext\|>'''] # fmt: on __UpperCamelCase :Tuple = dict(zip(__lowercase , range(len(__lowercase)))) __UpperCamelCase :List[Any] = ['''#version: 0.2''', '''l o''', '''lo w</w>''', '''e r</w>''', ''''''] __UpperCamelCase :Optional[Any] = {'''unk_token''': '''<unk>'''} __UpperCamelCase :List[str] = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file''']) __UpperCamelCase :List[Any] = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''merges_file''']) with open(self.vocab_file , '''w''' , encoding='''utf-8''') as fp: fp.write(json.dumps(__lowercase) + '''\n''') with open(self.merges_file , '''w''' , encoding='''utf-8''') as fp: fp.write('''\n'''.join(__lowercase)) __UpperCamelCase :List[str] = { '''do_resize''': True, '''size''': 20, '''do_center_crop''': True, '''crop_size''': 18, '''do_normalize''': True, '''image_mean''': [0.48_14_54_66, 0.4_57_82_75, 0.40_82_10_73], '''image_std''': [0.26_86_29_54, 0.26_13_02_58, 0.27_57_77_11], } __UpperCamelCase :Any = os.path.join(self.tmpdirname , __lowercase) with open(self.image_processor_file , '''w''' , encoding='''utf-8''') as fp: json.dump(__lowercase , __lowercase) def UpperCamelCase__ ( self , __lowercase) -> Any: return CLIPTokenizer.from_pretrained(self.tmpdirname , __lowercase) def UpperCamelCase__ ( self , __lowercase) -> Any: return CLIPTokenizerFast.from_pretrained(self.tmpdirname , __lowercase) def UpperCamelCase__ ( self , __lowercase) -> List[str]: return ViTImageProcessor.from_pretrained(self.tmpdirname , __lowercase) def UpperCamelCase__ ( self) -> List[str]: shutil.rmtree(self.tmpdirname) def UpperCamelCase__ ( self) -> Tuple: __UpperCamelCase :Dict = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta)] __UpperCamelCase :int = [Image.fromarray(np.moveaxis(__lowercase , 0 , -1)) for x in image_inputs] return image_inputs def UpperCamelCase__ ( self) -> Tuple: __UpperCamelCase :Dict = self.get_tokenizer() __UpperCamelCase :str = self.get_rust_tokenizer() __UpperCamelCase :Optional[Any] = self.get_image_processor() __UpperCamelCase :List[Any] = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) processor_slow.save_pretrained(self.tmpdirname) __UpperCamelCase :Optional[int] = CLIPSegProcessor.from_pretrained(self.tmpdirname , use_fast=__lowercase) __UpperCamelCase :Union[str, Any] = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) processor_fast.save_pretrained(self.tmpdirname) __UpperCamelCase :Dict = CLIPSegProcessor.from_pretrained(self.tmpdirname) self.assertEqual(processor_slow.tokenizer.get_vocab() , tokenizer_slow.get_vocab()) self.assertEqual(processor_fast.tokenizer.get_vocab() , tokenizer_fast.get_vocab()) self.assertEqual(tokenizer_slow.get_vocab() , tokenizer_fast.get_vocab()) self.assertIsInstance(processor_slow.tokenizer , __lowercase) self.assertIsInstance(processor_fast.tokenizer , __lowercase) self.assertEqual(processor_slow.image_processor.to_json_string() , image_processor.to_json_string()) self.assertEqual(processor_fast.image_processor.to_json_string() , image_processor.to_json_string()) self.assertIsInstance(processor_slow.image_processor , __lowercase) self.assertIsInstance(processor_fast.image_processor , __lowercase) def UpperCamelCase__ ( self) -> Union[str, Any]: __UpperCamelCase :Dict = CLIPSegProcessor(tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor()) processor.save_pretrained(self.tmpdirname) __UpperCamelCase :int = self.get_tokenizer(bos_token='''(BOS)''' , eos_token='''(EOS)''') __UpperCamelCase :List[Any] = self.get_image_processor(do_normalize=__lowercase , padding_value=1.0) __UpperCamelCase :Optional[Any] = CLIPSegProcessor.from_pretrained( self.tmpdirname , bos_token='''(BOS)''' , eos_token='''(EOS)''' , do_normalize=__lowercase , padding_value=1.0) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab()) self.assertIsInstance(processor.tokenizer , __lowercase) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string()) self.assertIsInstance(processor.image_processor , __lowercase) def UpperCamelCase__ ( self) -> Optional[Any]: __UpperCamelCase :Optional[int] = self.get_image_processor() __UpperCamelCase :Optional[Any] = self.get_tokenizer() __UpperCamelCase :Dict = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) __UpperCamelCase :Dict = self.prepare_image_inputs() __UpperCamelCase :Union[str, Any] = image_processor(__lowercase , return_tensors='''np''') __UpperCamelCase :str = processor(images=__lowercase , return_tensors='''np''') for key in input_feat_extract.keys(): self.assertAlmostEqual(input_feat_extract[key].sum() , input_processor[key].sum() , delta=1E-2) def UpperCamelCase__ ( self) -> Tuple: __UpperCamelCase :Tuple = self.get_image_processor() __UpperCamelCase :Dict = self.get_tokenizer() __UpperCamelCase :str = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) __UpperCamelCase :Tuple = '''lower newer''' __UpperCamelCase :str = processor(text=__lowercase) __UpperCamelCase :Optional[Any] = tokenizer(__lowercase) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key]) def UpperCamelCase__ ( self) -> Any: __UpperCamelCase :str = self.get_image_processor() __UpperCamelCase :Tuple = self.get_tokenizer() __UpperCamelCase :Optional[Any] = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) __UpperCamelCase :Optional[int] = '''lower newer''' __UpperCamelCase :str = self.prepare_image_inputs() __UpperCamelCase :Any = processor(text=__lowercase , images=__lowercase) self.assertListEqual(list(inputs.keys()) , ['''input_ids''', '''attention_mask''', '''pixel_values''']) # test if it raises when no input is passed with pytest.raises(__lowercase): processor() def UpperCamelCase__ ( self) -> Any: __UpperCamelCase :str = self.get_image_processor() __UpperCamelCase :Tuple = self.get_tokenizer() __UpperCamelCase :List[Any] = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) __UpperCamelCase :Optional[Any] = self.prepare_image_inputs() __UpperCamelCase :Optional[Any] = self.prepare_image_inputs() __UpperCamelCase :List[Any] = processor(images=__lowercase , visual_prompt=__lowercase) self.assertListEqual(list(inputs.keys()) , ['''pixel_values''', '''conditional_pixel_values''']) # test if it raises when no input is passed with pytest.raises(__lowercase): processor() def UpperCamelCase__ ( self) -> Dict: __UpperCamelCase :Optional[Any] = self.get_image_processor() __UpperCamelCase :List[str] = self.get_tokenizer() __UpperCamelCase :Optional[Any] = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) __UpperCamelCase :int = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] __UpperCamelCase :Optional[Any] = processor.batch_decode(__lowercase) __UpperCamelCase :Any = tokenizer.batch_decode(__lowercase) self.assertListEqual(__lowercase , __lowercase)	43	"""simple docstring""" import unittest from diffusers.pipelines.pipeline_utils import is_safetensors_compatible class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : Optional[int] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', # Removed: 'unet/diffusion_pytorch_model.safetensors', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', # Removed: 'text_encoder/model.safetensors', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Optional[int] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" _lowerCamelCase : str = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] _lowerCamelCase : Optional[Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : Tuple = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', # Removed: 'unet/diffusion_pytorch_model.fp16.safetensors', ] _lowerCamelCase : Any = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', ] _lowerCamelCase : str = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', # 'text_encoder/model.fp16.safetensors', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : int = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) )	72
"""simple docstring""" # Algorithm for the pigeonhole sorting def SCREAMING_SNAKE_CASE ( _lowerCamelCase : List[str] ) -> Dict: _lowerCAmelCase : Any = min(_lowerCamelCase ) # min() finds the minimum value _lowerCAmelCase : Dict = max(_lowerCamelCase ) # max() finds the maximum value _lowerCAmelCase : Tuple = max_val - min_val + 1 # size is difference of max and min values plus one # list of pigeonholes of size equal to the variable size _lowerCAmelCase : Optional[Any] = [0] * size # Populate the pigeonholes. for x in a: assert isinstance(_lowerCamelCase ,_lowerCamelCase ), "integers only please" holes[x - min_val] += 1 # Putting the elements back into the array in an order. _lowerCAmelCase : Tuple = 0 for count in range(_lowerCamelCase ): while holes[count] > 0: holes[count] -= 1 _lowerCAmelCase : Optional[int] = count + min_val i += 1 def SCREAMING_SNAKE_CASE ( ) -> List[Any]: _lowerCAmelCase : List[str] = [8, 3, 2, 7, 4, 6, 8] pigeonhole_sort(_lowerCamelCase ) print("""Sorted order is:""" ,""" """.join(_lowerCamelCase ) ) if __name__ == "__main__": main()	44	"""simple docstring""" import inspect import unittest import numpy as np from tests.test_modeling_common import floats_tensor from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel if is_vision_available(): from transformers import MaskFormerImageProcessor if is_vision_available(): from PIL import Image class __snake_case : def __init__( self : Tuple , __lowerCAmelCase : Tuple , __lowerCAmelCase : Any=2 , __lowerCAmelCase : Any=True , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Optional[Any]=1_0 , __lowerCAmelCase : List[str]=3 , __lowerCAmelCase : int=3_2 * 4 , __lowerCAmelCase : Dict=3_2 * 6 , __lowerCAmelCase : Any=4 , __lowerCAmelCase : List[str]=3_2 , ): """simple docstring""" _lowerCamelCase : List[str] = parent _lowerCamelCase : str = batch_size _lowerCamelCase : Dict = is_training _lowerCamelCase : str = use_auxiliary_loss _lowerCamelCase : Any = num_queries _lowerCamelCase : List[Any] = num_channels _lowerCamelCase : int = min_size _lowerCamelCase : Any = max_size _lowerCamelCase : int = num_labels _lowerCamelCase : List[str] = mask_feature_size def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size] ).to( __lowerCAmelCase ) _lowerCamelCase : List[Any] = torch.ones([self.batch_size, self.min_size, self.max_size] , device=__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = ( torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=__lowerCAmelCase ) > 0.5 ).float() _lowerCamelCase : Optional[int] = (torch.rand((self.batch_size, self.num_labels) , device=__lowerCAmelCase ) > 0.5).long() _lowerCamelCase : Dict = self.get_config() return config, pixel_values, pixel_mask, mask_labels, class_labels def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" return MaskFormerConfig.from_backbone_and_decoder_configs( backbone_config=SwinConfig( depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig( decoder_ffn_dim=1_2_8 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : Dict = self.prepare_config_and_inputs() _lowerCamelCase : List[str] = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask} return config, inputs_dict def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = output.encoder_hidden_states _lowerCamelCase : Tuple = output.pixel_decoder_hidden_states _lowerCamelCase : Dict = output.transformer_decoder_hidden_states self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , config.decoder_config.decoder_layers ) def SCREAMING_SNAKE_CASE ( self : Tuple , __lowerCAmelCase : Dict , __lowerCAmelCase : str , __lowerCAmelCase : Tuple , __lowerCAmelCase : List[Any]=False ): """simple docstring""" with torch.no_grad(): _lowerCamelCase : Optional[int] = MaskFormerModel(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() _lowerCamelCase : Tuple = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) # the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the # encoder and pixel decoder self.parent.assertEqual( output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , ) # let's ensure the other two hidden state exists self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(output.encoder_last_hidden_state is not None ) if output_hidden_states: self.check_output_hidden_state(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = MaskFormerForInstanceSegmentation(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() def comm_check_on_output(__lowerCAmelCase : Dict ): # let's still check that all the required stuff is there self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.encoder_last_hidden_state is not None ) # okay, now we need to check the logits shape # due to the encoder compression, masks have a //4 spatial size self.parent.assertEqual( result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , ) # + 1 for null class self.parent.assertEqual( result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1) ) with torch.no_grad(): _lowerCamelCase : str = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) _lowerCamelCase : List[str] = model( pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) self.parent.assertTrue(result.loss is not None ) self.parent.assertEqual(result.loss.shape , torch.Size([1] ) ) @require_torch class __snake_case ( _lowercase , _lowercase , unittest.TestCase): snake_case__ : Dict = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else () snake_case__ : Any = ( {"feature-extraction": MaskFormerModel, "image-segmentation": MaskFormerForInstanceSegmentation} if is_torch_available() else {} ) snake_case__ : List[str] = False snake_case__ : List[str] = False snake_case__ : Optional[int] = False snake_case__ : Dict = False def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = MaskFormerModelTester(self ) _lowerCamelCase : Optional[Any] = ConfigTester(self , config_class=__lowerCAmelCase , has_text_modality=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Dict = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , *__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(__lowerCAmelCase ) @unittest.skip(reason='''MaskFormer does not use inputs_embeds''' ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''' ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer is not a generative model''' ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not use token embeddings''' ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" pass @require_torch_multi_gpu @unittest.skip( reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''' ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" pass @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : str = model_class(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCamelCase : Dict = [signature.parameters.keys()] _lowerCamelCase : Optional[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __lowerCAmelCase ) @slow def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" for model_name in ["facebook/maskformer-swin-small-coco"]: _lowerCamelCase : Union[str, Any] = MaskFormerModel.from_pretrained(__lowerCAmelCase ) self.assertIsNotNone(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = (self.model_tester.min_size,) 2 _lowerCamelCase : Union[str, Any] = { '''pixel_values''': torch.randn((2, 3, size) , device=__lowerCAmelCase ), '''mask_labels''': torch.randn((2, 1_0, size) , device=__lowerCAmelCase ), '''class_labels''': torch.zeros(2 , 1_0 , device=__lowerCAmelCase ).long(), } _lowerCamelCase : int = MaskFormerForInstanceSegmentation(MaskFormerConfig() ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = model(__lowerCAmelCase ) self.assertTrue(outputs.loss is not None ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : List[str] = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , __lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : List[Any] = model_class(__lowerCAmelCase ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_attentions=__lowerCAmelCase ) self.assertTrue(outputs.attentions is not None ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" if not self.model_tester.is_training: return # only MaskFormerForInstanceSegmentation has the loss _lowerCamelCase : Union[str, Any] = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : int = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : Any = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : List[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ).loss loss.backward() def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : int = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : str = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : List[str] = True _lowerCamelCase : Optional[int] = True _lowerCamelCase : Optional[Any] = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) _lowerCamelCase : List[Any] = outputs.encoder_hidden_states[0] encoder_hidden_states.retain_grad() _lowerCamelCase : Tuple = outputs.pixel_decoder_hidden_states[0] pixel_decoder_hidden_states.retain_grad() # we requires_grad=True in inputs_embeds (line 2152), the original implementation don't _lowerCamelCase : List[str] = outputs.transformer_decoder_hidden_states[0] transformer_decoder_hidden_states.retain_grad() _lowerCamelCase : Optional[int] = outputs.attentions[0] attentions.retain_grad() outputs.loss.backward(retain_graph=__lowerCAmelCase ) self.assertIsNotNone(encoder_hidden_states.grad ) self.assertIsNotNone(pixel_decoder_hidden_states.grad ) self.assertIsNotNone(transformer_decoder_hidden_states.grad ) self.assertIsNotNone(attentions.grad ) lowerCAmelCase__ = 1E-4 def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_vision @slow class __snake_case ( unittest.TestCase): @cached_property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return ( MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''' ) if is_vision_available() else None ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : str = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = self.default_image_processor _lowerCamelCase : List[Any] = prepare_img() _lowerCamelCase : Any = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : int = model(__lowerCAmelCase ) _lowerCamelCase : str = torch.tensor( [[-0.04_82, 0.92_28, 0.49_51], [-0.25_47, 0.80_17, 0.85_27], [-0.00_69, 0.33_85, -0.00_89]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.encoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Union[str, Any] = torch.tensor( [[-0.84_22, -0.84_34, -0.97_18], [-1.01_44, -0.55_65, -0.41_95], [-1.00_38, -0.44_84, -0.19_61]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Optional[int] = torch.tensor( [[0.28_52, -0.01_59, 0.97_35], [0.62_54, 0.18_58, 0.85_29], [-0.06_80, -0.41_16, 1.84_13]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.transformer_decoder_last_hidden_state[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[int] = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : str = prepare_img() _lowerCamelCase : int = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[int] = model(__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : Optional[int] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : List[str] = [ [-1.3_73_71_24, -1.7_72_49_37, -1.9_36_42_33], [-1.5_97_72_81, -1.9_86_79_39, -2.1_52_36_95], [-1.5_79_53_98, -1.9_26_98_32, -2.09_39_42], ] _lowerCamelCase : Any = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : List[Any] = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : str = torch.tensor( [ [1.6512E00, -5.2572E00, -3.3519E00], [3.6169E-02, -5.9025E00, -2.9313E00], [1.0766E-04, -7.7630E00, -5.1263E00], ] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Any = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : Tuple = self.default_image_processor _lowerCamelCase : Tuple = prepare_img() _lowerCamelCase : Optional[Any] = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : List[Any] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : int = [[-0.90_46, -2.63_66, -4.60_62], [-3.41_79, -5.78_90, -8.80_57], [-4.91_79, -7.65_60, -10.77_11]] _lowerCamelCase : List[Any] = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : Dict = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : Any = torch.tensor( [[4.71_88, -3.25_85, -2.88_57], [6.68_71, -2.91_81, -1.24_87], [7.24_49, -2.27_64, -2.18_74]] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : List[str] = image_processor( [np.zeros((3, 8_0_0, 1_3_3_3) ), np.zeros((3, 8_0_0, 1_3_3_3) )] , segmentation_maps=[np.zeros((3_8_4, 3_8_4) ).astype(np.floataa ), np.zeros((3_8_4, 3_8_4) ).astype(np.floataa )] , return_tensors='''pt''' , ) _lowerCamelCase : Union[str, Any] = inputs['''pixel_values'''].to(__lowerCAmelCase ) _lowerCamelCase : Dict = [el.to(__lowerCAmelCase ) for el in inputs['''mask_labels''']] _lowerCamelCase : Optional[Any] = [el.to(__lowerCAmelCase ) for el in inputs['''class_labels''']] with torch.no_grad(): _lowerCamelCase : Tuple = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None )	72
"""simple docstring""" import argparse import re from typing import Dict import torch from datasets import Audio, Dataset, load_dataset, load_metric from transformers import AutoFeatureExtractor, pipeline def lowercase ( lowerCAmelCase__ : Dataset , lowerCAmelCase__ : Dict[str, str] ) -> Dict: __a = args.log_outputs __a = '''_'''.join(args.dataset.split('''/''' ) + [args.config, args.split] ) # load metric __a = load_metric('''wer''' ) __a = load_metric('''cer''' ) # compute metrics __a = wer.compute(references=result['''target'''] , predictions=result['''prediction'''] ) __a = cer.compute(references=result['''target'''] , predictions=result['''prediction'''] ) # print & log results __a = f'''WER: {wer_result}\nCER: {cer_result}''' print(lowerCAmelCase__ ) with open(f'''{dataset_id}_eval_results.txt''' , '''w''' ) as f: f.write(lowerCAmelCase__ ) # log all results in text file. Possibly interesting for analysis if log_outputs is not None: __a = f'''log_{dataset_id}_predictions.txt''' __a = f'''log_{dataset_id}_targets.txt''' with open(lowerCAmelCase__ , '''w''' ) as p, open(lowerCAmelCase__ , '''w''' ) as t: # mapping function to write output def write_to_file(lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : int ): p.write(f'''{i}''' + '''\n''' ) p.write(batch['''prediction'''] + '''\n''' ) t.write(f'''{i}''' + '''\n''' ) t.write(batch['''target'''] + '''\n''' ) result.map(lowerCAmelCase__ , with_indices=lowerCAmelCase__ ) def lowercase ( lowerCAmelCase__ : str ) -> str: __a = '''[,?.!\-\;\:"“%‘”�—’…–]''' # noqa: W605 IMPORTANT: this should correspond to the chars that were ignored during training __a = re.sub(lowerCAmelCase__ , '''''' , text.lower() ) # In addition, we can normalize the target text, e.g. removing new lines characters etc... # note that order is important here! __a = ['''\n\n''', '''\n''', ''' ''', ''' '''] for t in token_sequences_to_ignore: __a = ''' '''.join(text.split(lowerCAmelCase__ ) ) return text def lowercase ( lowerCAmelCase__ : int ) -> Any: # load dataset __a = load_dataset(args.dataset , args.config , split=args.split , use_auth_token=lowerCAmelCase__ ) # for testing: only process the first two examples as a test # dataset = dataset.select(range(10)) # load processor __a = AutoFeatureExtractor.from_pretrained(args.model_id ) __a = feature_extractor.sampling_rate # resample audio __a = dataset.cast_column('''audio''' , Audio(sampling_rate=lowerCAmelCase__ ) ) # load eval pipeline if args.device is None: __a = 0 if torch.cuda.is_available() else -1 __a = pipeline('''automatic-speech-recognition''' , model=args.model_id , device=args.device ) # map function to decode audio def map_to_pred(lowerCAmelCase__ : Any ): __a = asr( batch['''audio''']['''array'''] , chunk_length_s=args.chunk_length_s , stride_length_s=args.stride_length_s ) __a = prediction['''text'''] __a = normalize_text(batch['''sentence'''] ) return batch # run inference on all examples __a = dataset.map(lowerCAmelCase__ , remove_columns=dataset.column_names ) # compute and log_results # do not change function below log_results(lowerCAmelCase__ , lowerCAmelCase__ ) if __name__ == "__main__": lowercase_ = argparse.ArgumentParser() parser.add_argument( "--model_id", type=str, required=True, help="Model identifier. Should be loadable with 🤗 Transformers" ) parser.add_argument( "--dataset", type=str, required=True, help="Dataset name to evaluate the `model_id`. Should be loadable with 🤗 Datasets", ) parser.add_argument( "--config", type=str, required=True, help="Config of the dataset. E.g. `'en'` for Common Voice" ) parser.add_argument("--split", type=str, required=True, help="Split of the dataset. E.g. `'test'`") parser.add_argument( "--chunk_length_s", type=float, default=None, help="Chunk length in seconds. Defaults to 5 seconds." ) parser.add_argument( "--stride_length_s", type=float, default=None, help="Stride of the audio chunks. Defaults to 1 second." ) parser.add_argument( "--log_outputs", action="store_true", help="If defined, write outputs to log file for analysis." ) parser.add_argument( "--device", type=int, default=None, help="The device to run the pipeline on. -1 for CPU (default), 0 for the first GPU and so on.", ) lowercase_ = parser.parse_args() main(args)	45	"""simple docstring""" lowerCAmelCase__ = { '''A''': ['''B''', '''C''', '''E'''], '''B''': ['''A''', '''D''', '''E'''], '''C''': ['''A''', '''F''', '''G'''], '''D''': ['''B'''], '''E''': ['''A''', '''B''', '''D'''], '''F''': ['''C'''], '''G''': ['''C'''], } def snake_case_ ( A_ : dict, A_ : int, A_ : int ): '''simple docstring''' _lowerCamelCase : List[str] = set() # keep track of all the paths to be checked _lowerCamelCase : str = [[start]] # return path if start is goal if start == goal: return [start] # keeps looping until all possible paths have been checked while queue: # pop the first path from the queue _lowerCamelCase : str = queue.pop(0 ) # get the last node from the path _lowerCamelCase : List[Any] = path[-1] if node not in explored: _lowerCamelCase : Union[str, Any] = graph[node] # go through all neighbour nodes, construct a new path and # push it into the queue for neighbour in neighbours: _lowerCamelCase : Union[str, Any] = list(A_ ) new_path.append(A_ ) queue.append(A_ ) # return path if neighbour is goal if neighbour == goal: return new_path # mark node as explored explored.add(A_ ) # in case there's no path between the 2 nodes return [] def snake_case_ ( A_ : dict, A_ : int, A_ : Dict ): '''simple docstring''' if not graph or start not in graph or target not in graph: return -1 if start == target: return 0 _lowerCamelCase : Optional[int] = [start] _lowerCamelCase : int = set(A_ ) # Keep tab on distances from `start` node. _lowerCamelCase : int = {start: 0, target: -1} while queue: _lowerCamelCase : Optional[Any] = queue.pop(0 ) if node == target: _lowerCamelCase : Any = ( dist[node] if dist[target] == -1 else min(dist[target], dist[node] ) ) for adjacent in graph[node]: if adjacent not in visited: visited.add(A_ ) queue.append(A_ ) _lowerCamelCase : Any = dist[node] + 1 return dist[target] if __name__ == "__main__": print(bfs_shortest_path(demo_graph, '''G''', '''D''')) # returns ['G', 'C', 'A', 'B', 'D'] print(bfs_shortest_path_distance(demo_graph, '''G''', '''D''')) # returns 4	72
"""simple docstring""" from dataclasses import dataclass from typing import Optional, Tuple, Union import torch import torch.nn as nn from ..configuration_utils import ConfigMixin, register_to_config from ..utils import BaseOutput, apply_forward_hook from .modeling_utils import ModelMixin from .vae import Decoder, DecoderOutput, Encoder, VectorQuantizer @dataclass class lowercase ( _UpperCAmelCase ): _SCREAMING_SNAKE_CASE = 42 class lowercase ( _UpperCAmelCase , _UpperCAmelCase ): @register_to_config def __init__( self , lowercase = 3 , lowercase = 3 , lowercase = ("DownEncoderBlock2D",) , lowercase = ("UpDecoderBlock2D",) , lowercase = (64,) , lowercase = 1 , lowercase = "silu" , lowercase = 3 , lowercase = 32 , lowercase = 256 , lowercase = 32 , lowercase = None , lowercase = 0.18_215 , lowercase = "group" , ) -> Union[str, Any]: super().__init__() # pass init params to Encoder lowerCAmelCase = Encoder( in_channels=lowercase , out_channels=lowercase , down_block_types=lowercase , block_out_channels=lowercase , layers_per_block=lowercase , act_fn=lowercase , norm_num_groups=lowercase , double_z=lowercase , ) lowerCAmelCase = vq_embed_dim if vq_embed_dim is not None else latent_channels lowerCAmelCase = nn.Convad(lowercase , lowercase , 1 ) lowerCAmelCase = VectorQuantizer(lowercase , lowercase , beta=0.25 , remap=lowercase , sane_index_shape=lowercase ) lowerCAmelCase = nn.Convad(lowercase , lowercase , 1 ) # pass init params to Decoder lowerCAmelCase = Decoder( in_channels=lowercase , out_channels=lowercase , up_block_types=lowercase , block_out_channels=lowercase , layers_per_block=lowercase , act_fn=lowercase , norm_num_groups=lowercase , norm_type=lowercase , ) @apply_forward_hook def _snake_case ( self , lowercase , lowercase = True ) -> VQEncoderOutput: lowerCAmelCase = self.encoder(lowercase ) lowerCAmelCase = self.quant_conv(lowercase ) if not return_dict: return (h,) return VQEncoderOutput(latents=lowercase ) @apply_forward_hook def _snake_case ( self , lowercase , lowercase = False , lowercase = True ) -> Union[DecoderOutput, torch.FloatTensor]: # also go through quantization layer if not force_not_quantize: lowerCAmelCase , lowerCAmelCase , lowerCAmelCase = self.quantize(lowercase ) else: lowerCAmelCase = h lowerCAmelCase = self.post_quant_conv(lowercase ) lowerCAmelCase = self.decoder(lowercase , quant if self.config.norm_type == """spatial""" else None ) if not return_dict: return (dec,) return DecoderOutput(sample=lowercase ) def _snake_case ( self , lowercase , lowercase = True ) -> Union[DecoderOutput, torch.FloatTensor]: lowerCAmelCase = sample lowerCAmelCase = self.encode(lowercase ).latents lowerCAmelCase = self.decode(lowercase ).sample if not return_dict: return (dec,) return DecoderOutput(sample=lowercase )	46	"""simple docstring""" import argparse import torch from transformers import LxmertConfig, LxmertForPreTraining, load_tf_weights_in_lxmert from transformers.utils import logging logging.set_verbosity_info() def snake_case_ ( A_ : Tuple, A_ : int, A_ : Dict ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = LxmertConfig.from_json_file(A_ ) print(F'''Building PyTorch model from configuration: {config}''' ) _lowerCamelCase : List[str] = LxmertForPreTraining(A_ ) # Load weights from tf checkpoint load_tf_weights_in_lxmert(A_, A_, A_ ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) torch.save(model.state_dict(), A_ ) if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained model. \nThis specifies the model architecture.''', ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) lowerCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)	72
'''simple docstring''' import unittest from transformers import MPNetConfig, is_torch_available from transformers.testing_utils import require_torch, slow, torch_device from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( MPNetForMaskedLM, MPNetForMultipleChoice, MPNetForQuestionAnswering, MPNetForSequenceClassification, MPNetForTokenClassification, MPNetModel, ) class A__ : def __init__( self : int , _a : Optional[int] , _a : Optional[Any]=13 , _a : List[Any]=7 , _a : List[Any]=True , _a : str=True , _a : Dict=False , _a : str=True , _a : List[str]=99 , _a : str=64 , _a : Union[str, Any]=5 , _a : List[Any]=4 , _a : Optional[Any]=64 , _a : Tuple="gelu" , _a : List[str]=0.1 , _a : str=0.1 , _a : int=512 , _a : Dict=16 , _a : List[str]=2 , _a : int=0.02 , _a : Union[str, Any]=3 , _a : str=4 , _a : Tuple=None , ) -> Optional[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =parent _SCREAMING_SNAKE_CASE =batch_size _SCREAMING_SNAKE_CASE =seq_length _SCREAMING_SNAKE_CASE =is_training _SCREAMING_SNAKE_CASE =use_input_mask _SCREAMING_SNAKE_CASE =use_token_type_ids _SCREAMING_SNAKE_CASE =use_labels _SCREAMING_SNAKE_CASE =vocab_size _SCREAMING_SNAKE_CASE =hidden_size _SCREAMING_SNAKE_CASE =num_hidden_layers _SCREAMING_SNAKE_CASE =num_attention_heads _SCREAMING_SNAKE_CASE =intermediate_size _SCREAMING_SNAKE_CASE =hidden_act _SCREAMING_SNAKE_CASE =hidden_dropout_prob _SCREAMING_SNAKE_CASE =attention_probs_dropout_prob _SCREAMING_SNAKE_CASE =max_position_embeddings _SCREAMING_SNAKE_CASE =type_vocab_size _SCREAMING_SNAKE_CASE =type_sequence_label_size _SCREAMING_SNAKE_CASE =initializer_range _SCREAMING_SNAKE_CASE =num_labels _SCREAMING_SNAKE_CASE =num_choices _SCREAMING_SNAKE_CASE =scope def A ( self : str ) -> Tuple: '''simple docstring''' return MPNetConfig.from_pretrained('microsoft/mpnet-base' ) def A ( self : int ) -> int: '''simple docstring''' _SCREAMING_SNAKE_CASE =ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) _SCREAMING_SNAKE_CASE =None if self.use_input_mask: _SCREAMING_SNAKE_CASE =random_attention_mask([self.batch_size, self.seq_length] ) _SCREAMING_SNAKE_CASE =None _SCREAMING_SNAKE_CASE =None _SCREAMING_SNAKE_CASE =None if self.use_labels: _SCREAMING_SNAKE_CASE =ids_tensor([self.batch_size] , self.type_sequence_label_size ) _SCREAMING_SNAKE_CASE =ids_tensor([self.batch_size, self.seq_length] , self.num_labels ) _SCREAMING_SNAKE_CASE =ids_tensor([self.batch_size] , self.num_choices ) _SCREAMING_SNAKE_CASE =self.get_config() return config, input_ids, input_mask, sequence_labels, token_labels, choice_labels def A ( self : Dict ) -> Dict: '''simple docstring''' return MPNetConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , initializer_range=self.initializer_range , ) def A ( self : Tuple , _a : Dict , _a : Dict , _a : Dict , _a : int , _a : Optional[int] , _a : Any ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =MPNetModel(config=_a ) model.to(_a ) model.eval() _SCREAMING_SNAKE_CASE =model(_a , _a ) _SCREAMING_SNAKE_CASE =model(_a ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.hidden_size) ) def A ( self : Union[str, Any] , _a : List[Any] , _a : Dict , _a : List[Any] , _a : Any , _a : List[Any] , _a : Dict ) -> Optional[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =MPNetForQuestionAnswering(config=_a ) model.to(_a ) model.eval() _SCREAMING_SNAKE_CASE =model( _a , attention_mask=_a , start_positions=_a , end_positions=_a , ) self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length) ) self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length) ) def A ( self : Tuple , _a : Any , _a : List[Any] , _a : List[Any] , _a : Dict , _a : List[str] , _a : List[Any] ) -> List[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.num_labels _SCREAMING_SNAKE_CASE =MPNetForSequenceClassification(_a ) model.to(_a ) model.eval() _SCREAMING_SNAKE_CASE =model(_a , attention_mask=_a , labels=_a ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) ) def A ( self : Any , _a : int , _a : Optional[Any] , _a : List[Any] , _a : Tuple , _a : Tuple , _a : int ) -> Any: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.num_choices _SCREAMING_SNAKE_CASE =MPNetForMultipleChoice(config=_a ) model.to(_a ) model.eval() _SCREAMING_SNAKE_CASE =input_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() _SCREAMING_SNAKE_CASE =input_mask.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() _SCREAMING_SNAKE_CASE =model( _a , attention_mask=_a , labels=_a , ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_choices) ) def A ( self : Any , _a : int , _a : Optional[Any] , _a : Optional[Any] , _a : str , _a : List[Any] , _a : Any ) -> Any: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.num_labels _SCREAMING_SNAKE_CASE =MPNetForTokenClassification(config=_a ) model.to(_a ) model.eval() _SCREAMING_SNAKE_CASE =model(_a , attention_mask=_a , labels=_a ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels) ) def A ( self : Any ) -> List[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.prepare_config_and_inputs() ((_SCREAMING_SNAKE_CASE) , (_SCREAMING_SNAKE_CASE) , (_SCREAMING_SNAKE_CASE) , (_SCREAMING_SNAKE_CASE) , (_SCREAMING_SNAKE_CASE) , (_SCREAMING_SNAKE_CASE)) =config_and_inputs _SCREAMING_SNAKE_CASE ={'input_ids': input_ids, 'attention_mask': input_mask} return config, inputs_dict @require_torch class A__ ( A__ , A__ , unittest.TestCase ): A__ = ( ( MPNetForMaskedLM, MPNetForMultipleChoice, MPNetForQuestionAnswering, MPNetForSequenceClassification, MPNetForTokenClassification, MPNetModel, ) if is_torch_available() else () ) A__ = ( { 'feature-extraction': MPNetModel, 'fill-mask': MPNetForMaskedLM, 'question-answering': MPNetForQuestionAnswering, 'text-classification': MPNetForSequenceClassification, 'token-classification': MPNetForTokenClassification, 'zero-shot': MPNetForSequenceClassification, } if is_torch_available() else {} ) A__ = False A__ = True def A ( self : int ) -> Optional[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =MPNetModelTester(self ) _SCREAMING_SNAKE_CASE =ConfigTester(self , config_class=_a , hidden_size=37 ) def A ( self : List[Any] ) -> int: '''simple docstring''' self.config_tester.run_common_tests() def A ( self : Any ) -> Any: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_mpnet_model(_a ) def A ( self : List[Any] ) -> List[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_mpnet_for_sequence_classification(_a ) def A ( self : Optional[int] ) -> str: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_mpnet_for_multiple_choice(_a ) def A ( self : Any ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_mpnet_for_token_classification(_a ) def A ( self : str ) -> str: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_mpnet_for_question_answering(*_a ) @require_torch class A__ ( unittest.TestCase ): @slow def A ( self : Optional[Any] ) -> List[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =MPNetModel.from_pretrained('microsoft/mpnet-base' ) _SCREAMING_SNAKE_CASE =torch.tensor([[0, 345, 232, 328, 740, 140, 1695, 69, 6078, 1588, 2]] ) _SCREAMING_SNAKE_CASE =model(_a )[0] _SCREAMING_SNAKE_CASE =torch.Size((1, 11, 768) ) self.assertEqual(output.shape , _a ) _SCREAMING_SNAKE_CASE =torch.tensor( [[[-0.05_50, 0.19_43, -0.07_40], [-0.05_62, 0.22_11, -0.05_79], [-0.04_37, 0.33_37, -0.06_41]]] ) # compare the actual values for a slice. self.assertTrue(torch.allclose(output[:, :3, :3] , _a , atol=1e-4 ) )	47	"""simple docstring""" from collections import defaultdict from graphs.minimum_spanning_tree_prims import prisms_algorithm as mst def snake_case_ ( ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : int = 9, 14 # noqa: F841 _lowerCamelCase : List[Any] = [ [0, 1, 4], [0, 7, 8], [1, 2, 8], [7, 8, 7], [7, 6, 1], [2, 8, 2], [8, 6, 6], [2, 3, 7], [2, 5, 4], [6, 5, 2], [3, 5, 14], [3, 4, 9], [5, 4, 10], [1, 7, 11], ] _lowerCamelCase : Any = defaultdict(A_ ) for nodea, nodea, cost in edges: adjancency[nodea].append([nodea, cost] ) adjancency[nodea].append([nodea, cost] ) _lowerCamelCase : List[str] = mst(A_ ) _lowerCamelCase : Optional[int] = [ [7, 6, 1], [2, 8, 2], [6, 5, 2], [0, 1, 4], [2, 5, 4], [2, 3, 7], [0, 7, 8], [3, 4, 9], ] for answer in expected: _lowerCamelCase : int = tuple(answer[:2] ) _lowerCamelCase : int = tuple(edge[::-1] ) assert edge in result or reverse in result	72
import tempfile import unittest from pathlib import Path from shutil import copyfile from transformers import MaMaaaTokenizer, is_torch_available from transformers.testing_utils import ( get_tests_dir, nested_simplify, require_sentencepiece, require_tokenizers, require_torch, slow, ) from transformers.utils import is_sentencepiece_available if is_sentencepiece_available(): from transformers.models.mam_aaa.tokenization_mam_aaa import VOCAB_FILES_NAMES, save_json from ...test_tokenization_common import TokenizerTesterMixin if is_sentencepiece_available(): SCREAMING_SNAKE_CASE__ : Optional[Any] = get_tests_dir('fixtures/test_sentencepiece.model') if is_torch_available(): from transformers.models.mam_aaa.modeling_mam_aaa import shift_tokens_right SCREAMING_SNAKE_CASE__ : Tuple = 128022 SCREAMING_SNAKE_CASE__ : Optional[Any] = 128028 @require_sentencepiece class UpperCamelCase__ (lowerCAmelCase__ , unittest.TestCase ): '''simple docstring''' lowerCamelCase_ : Optional[Any] = MaMaaaTokenizer lowerCamelCase_ : List[str] = False lowerCamelCase_ : Any = False lowerCamelCase_ : List[str] = True def _lowercase ( self ) -> List[str]: super().setUp() lowerCamelCase : Union[str, Any] = ["</s>", "<unk>", "▁This", "▁is", "▁a", "▁t", "est", "\u0120", "<pad>"] lowerCamelCase : str = dict(zip(UpperCamelCase__ , range(len(UpperCamelCase__ ) ) ) ) lowerCamelCase : List[str] = Path(self.tmpdirname ) save_json(UpperCamelCase__ , save_dir / VOCAB_FILES_NAMES["vocab_file"] ) if not (save_dir / VOCAB_FILES_NAMES["spm_file"]).exists(): copyfile(UpperCamelCase__ , save_dir / VOCAB_FILES_NAMES["spm_file"] ) lowerCamelCase : Tuple = MaMaaaTokenizer.from_pretrained(self.tmpdirname ) tokenizer.save_pretrained(self.tmpdirname ) def _lowercase ( self , UpperCamelCase__ ) -> Union[str, Any]: return MaMaaaTokenizer.from_pretrained(self.tmpdirname , UpperCamelCase__ ) def _lowercase ( self , UpperCamelCase__ ) -> List[Any]: return ( "This is a test", "This is a test", ) def _lowercase ( self ) -> Dict: lowerCamelCase : str = "</s>" lowerCamelCase : int = 0 self.assertEqual(self.get_tokenizer()._convert_token_to_id(UpperCamelCase__ ) , UpperCamelCase__ ) self.assertEqual(self.get_tokenizer()._convert_id_to_token(UpperCamelCase__ ) , UpperCamelCase__ ) def _lowercase ( self ) -> Optional[int]: lowerCamelCase : Tuple = self.get_tokenizer() lowerCamelCase : int = list(tokenizer.get_vocab().keys() ) self.assertEqual(vocab_keys[0] , "</s>" ) self.assertEqual(vocab_keys[1] , "<unk>" ) self.assertEqual(vocab_keys[-1] , "<s>" ) self.assertEqual(len(UpperCamelCase__ ) , tokenizer.vocab_size + len(tokenizer.get_added_vocab() ) ) @unittest.skip("Skip this test while all models are still to be uploaded." ) def _lowercase ( self ) -> int: pass def _lowercase ( self ) -> Dict: lowerCamelCase : List[Any] = self.get_tokenizer() lowerCamelCase : Optional[Any] = tokenizer.tokenize("This is a test" ) self.assertListEqual(UpperCamelCase__ , ["▁This", "▁is", "▁a", "▁t", "est"] ) self.assertListEqual( tokenizer.convert_tokens_to_ids(UpperCamelCase__ ) , [2, 3, 4, 5, 6] , ) lowerCamelCase : List[Any] = tokenizer.convert_ids_to_tokens([2, 3, 4, 5, 6] ) self.assertListEqual(UpperCamelCase__ , ["▁This", "▁is", "▁a", "▁t", "est"] ) lowerCamelCase : str = tokenizer.convert_tokens_to_string(UpperCamelCase__ ) self.assertEqual(UpperCamelCase__ , "This is a test" ) @slow def _lowercase ( self ) -> Optional[int]: # fmt: off lowerCamelCase : Optional[int] = {"input_ids": [[12_8022, 11_0108, 397, 11, 3_8272, 2247, 12_4811, 285, 1_8105, 1586, 207, 7, 3_9534, 4428, 397, 1019, 1_8105, 1586, 207, 7, 4_1337, 1_6786, 241, 7, 2_0214, 17, 12_5690, 1_0398, 7, 4_4378, 5_8069, 6_8342, 7798, 7343, 11, 299, 3_3310, 4, 158, 3_7350, 9_4077, 4569, 299, 3_3310, 90, 4, 5_2840, 290, 4, 3_1270, 112, 299, 682, 4, 5_2840, 3_9953, 1_4079, 193, 5_2519, 9_0894, 1_7894, 12_0697, 11, 4_0445, 551, 17, 1019, 5_2519, 9_0894, 1_7756, 963, 11, 4_0445, 480, 17, 9792, 1120, 5173, 1393, 6240, 1_6786, 241, 12_0996, 28, 1245, 1393, 11_8240, 1_1123, 1019, 9_3612, 2691, 1_0618, 9_8058, 12_0409, 1928, 279, 4, 4_0683, 367, 178, 207, 1019, 103, 10_3121, 506, 6_5296, 5, 2], [12_8022, 2_1217, 367, 117, 12_5450, 128, 719, 7, 7308, 40, 9_3612, 1_2669, 1116, 1_6704, 71, 1_7785, 3699, 1_5592, 35, 144, 9584, 241, 1_1943, 713, 950, 799, 2247, 8_8427, 150, 149, 11_8813, 12_0706, 1019, 10_6906, 8_1518, 28, 1224, 2_2799, 397, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [12_8022, 1658, 12_3311, 5155, 5578, 4722, 279, 1_4947, 2366, 1120, 1197, 14, 1348, 9232, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]], "attention_mask": [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]]} # noqa: E501 # fmt: on self.tokenizer_integration_test_util( expected_encoding=UpperCamelCase__ , model_name="facebook/m2m100_418M" , revision="c168bae485c864188cf9aa0e4108b0b6934dc91e" , ) @require_torch @require_sentencepiece @require_tokenizers class UpperCamelCase__ (unittest.TestCase ): '''simple docstring''' lowerCamelCase_ : Optional[int] = """facebook/m2m100_418M""" lowerCamelCase_ : Optional[int] = [ """In my opinion, there are two levels of response from the French government.""", """NSA Affair Emphasizes Complete Lack of Debate on Intelligence""", ] lowerCamelCase_ : List[Any] = [ """Selon moi, il y a deux niveaux de réponse de la part du gouvernement français.""", """L'affaire NSA souligne l'absence totale de débat sur le renseignement""", ] # fmt: off lowerCamelCase_ : List[str] = [EN_CODE, 5_9_3, 1_9_4_9, 1_1_5_7_8_1, 4, 7_1_5_8_6, 4_2_3_4, 6_0_6_3_3, 1_2_6_2_3_3, 4_3_2, 1_2_3_8_0_8, 1_5_5_9_2, 1_1_9_7, 1_1_7_1_3_2, 1_2_0_6_1_8, 5, 2] @classmethod def _lowercase ( cls ) -> List[Any]: lowerCamelCase : MaMaaaTokenizer = MaMaaaTokenizer.from_pretrained( cls.checkpoint_name , src_lang="en" , tgt_lang="fr" ) lowerCamelCase : Dict = 1 return cls def _lowercase ( self ) -> Tuple: self.assertEqual(self.tokenizer.get_lang_id("ar" ) , 12_8006 ) self.assertEqual(self.tokenizer.get_lang_id("en" ) , 12_8022 ) self.assertEqual(self.tokenizer.get_lang_id("ro" ) , 12_8076 ) self.assertEqual(self.tokenizer.get_lang_id("mr" ) , 12_8063 ) def _lowercase ( self ) -> Dict: lowerCamelCase : List[str] = self.tokenizer.get_vocab() self.assertEqual(len(UpperCamelCase__ ) , self.tokenizer.vocab_size ) self.assertEqual(vocab["<unk>"] , 3 ) self.assertIn(self.tokenizer.get_lang_token("en" ) , UpperCamelCase__ ) def _lowercase ( self ) -> Tuple: lowerCamelCase : Any = "en" lowerCamelCase : Optional[Any] = self.tokenizer.batch_encode_plus(self.src_text ).input_ids[0] self.assertListEqual(self.expected_src_tokens , UpperCamelCase__ ) def _lowercase ( self ) -> int: self.assertIn(UpperCamelCase__ , self.tokenizer.all_special_ids ) # fmt: off lowerCamelCase : Any = [FR_CODE, 5364, 82, 8642, 4, 294, 47, 8, 1_4028, 136, 3286, 9706, 6, 9_0797, 6, 14_4012, 162, 8_8128, 3_0061, 5, 2] # fmt: on lowerCamelCase : List[str] = self.tokenizer.decode(UpperCamelCase__ , skip_special_tokens=UpperCamelCase__ ) lowerCamelCase : Any = self.tokenizer.decode(generated_ids[1:] , skip_special_tokens=UpperCamelCase__ ) self.assertEqual(UpperCamelCase__ , UpperCamelCase__ ) self.assertNotIn(self.tokenizer.eos_token , UpperCamelCase__ ) def _lowercase ( self ) -> Optional[int]: lowerCamelCase : List[Any] = tempfile.mkdtemp() lowerCamelCase : List[Any] = self.tokenizer.lang_token_to_id self.tokenizer.save_pretrained(UpperCamelCase__ ) lowerCamelCase : Tuple = MaMaaaTokenizer.from_pretrained(UpperCamelCase__ ) self.assertDictEqual(new_tok.lang_token_to_id , UpperCamelCase__ ) @require_torch def _lowercase ( self ) -> Any: lowerCamelCase : Any = "en" lowerCamelCase : Optional[Any] = "fr" lowerCamelCase : List[Any] = self.tokenizer(self.src_text , text_target=self.tgt_text , padding=UpperCamelCase__ , return_tensors="pt" ) lowerCamelCase : Dict = shift_tokens_right( batch["labels"] , self.tokenizer.pad_token_id , self.tokenizer.eos_token_id ) for k in batch: lowerCamelCase : Any = batch[k].tolist() # batch = {k: v.tolist() for k,v in batch.items()} # fairseq batch: https://gist.github.com/sshleifer/cba08bc2109361a74ac3760a7e30e4f4 # batch.decoder_inputs_ids[0][0] == assert batch.input_ids[1][0] == EN_CODE assert batch.input_ids[1][-1] == 2 assert batch.labels[1][0] == FR_CODE assert batch.labels[1][-1] == 2 assert batch.decoder_input_ids[1][:2] == [2, FR_CODE] @require_torch def _lowercase ( self ) -> Optional[int]: lowerCamelCase : Union[str, Any] = "mr" self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id("mr" )] ) self.assertListEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) lowerCamelCase : List[str] = "zh" self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id("zh" )] ) self.assertListEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) @require_torch def _lowercase ( self ) -> Optional[int]: lowerCamelCase : List[Any] = "mr" self.tokenizer._switch_to_target_mode() self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id("mr" )] ) self.assertListEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) self.tokenizer._switch_to_input_mode() self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id(self.tokenizer.src_lang )] ) lowerCamelCase : Dict = "zh" self.tokenizer._switch_to_target_mode() self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id("zh" )] ) self.assertListEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) self.tokenizer._switch_to_input_mode() self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id(self.tokenizer.src_lang )] ) @require_torch def _lowercase ( self ) -> Union[str, Any]: lowerCamelCase : List[Any] = self.tokenizer._build_translation_inputs("A test" , return_tensors="pt" , src_lang="en" , tgt_lang="ar" ) self.assertEqual( nested_simplify(UpperCamelCase__ ) , { # en_XX, A, test, EOS "input_ids": [[12_8022, 58, 4183, 2]], "attention_mask": [[1, 1, 1, 1]], # ar_AR "forced_bos_token_id": 12_8006, } , )	48	"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt''', '''tokenizer_file''': '''tokenizer.json'''} # See all BART models at https://huggingface.co/models?filter=bart lowerCAmelCase__ = { '''vocab_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/vocab.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/vocab.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json''', }, '''merges_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/merges.txt''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/merges.txt''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt''', }, '''tokenizer_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1024, '''facebook/bart-large''': 1024, '''facebook/bart-large-mnli''': 1024, '''facebook/bart-large-cnn''': 1024, '''facebook/bart-large-xsum''': 1024, '''yjernite/bart_eli5''': 1024, } class __snake_case ( _lowercase): snake_case__ : Any = VOCAB_FILES_NAMES snake_case__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP snake_case__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES snake_case__ : Optional[int] = ["input_ids", "attention_mask"] snake_case__ : Any = BartTokenizer def __init__( self : int , __lowerCAmelCase : Dict=None , __lowerCAmelCase : int=None , __lowerCAmelCase : Dict=None , __lowerCAmelCase : List[Any]="replace" , __lowerCAmelCase : Any="<s>" , __lowerCAmelCase : Optional[int]="</s>" , __lowerCAmelCase : str="</s>" , __lowerCAmelCase : Dict="<s>" , __lowerCAmelCase : Union[str, Any]="<unk>" , __lowerCAmelCase : Any="<pad>" , __lowerCAmelCase : Optional[Any]="<mask>" , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Dict=True , __lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__( __lowerCAmelCase , __lowerCAmelCase , tokenizer_file=__lowerCAmelCase , errors=__lowerCAmelCase , bos_token=__lowerCAmelCase , eos_token=__lowerCAmelCase , sep_token=__lowerCAmelCase , cls_token=__lowerCAmelCase , unk_token=__lowerCAmelCase , pad_token=__lowerCAmelCase , mask_token=__lowerCAmelCase , add_prefix_space=__lowerCAmelCase , trim_offsets=__lowerCAmelCase , __lowerCAmelCase , ) _lowerCamelCase : Tuple = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = getattr(__lowerCAmelCase , pre_tok_state.pop('''type''' ) ) _lowerCamelCase : Any = add_prefix_space _lowerCamelCase : int = pre_tok_class(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _lowerCamelCase : List[str] = '''post_processor''' _lowerCamelCase : List[str] = getattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) if tokenizer_component_instance: _lowerCamelCase : int = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _lowerCamelCase : Tuple = tuple(state['''sep'''] ) if "cls" in state: _lowerCamelCase : int = tuple(state['''cls'''] ) _lowerCamelCase : Union[str, Any] = False if state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = add_prefix_space _lowerCamelCase : Optional[Any] = True if state.get('''trim_offsets''' , __lowerCAmelCase ) != trim_offsets: _lowerCamelCase : Any = trim_offsets _lowerCamelCase : str = True if changes_to_apply: _lowerCamelCase : List[str] = getattr(__lowerCAmelCase , state.pop('''type''' ) ) _lowerCamelCase : str = component_class(__lowerCAmelCase ) setattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) @property def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : int ): """simple docstring""" _lowerCamelCase : Tuple = AddedToken(__lowerCAmelCase , lstrip=__lowerCAmelCase , rstrip=__lowerCAmelCase ) if isinstance(__lowerCAmelCase , __lowerCAmelCase ) else value _lowerCamelCase : str = value def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Dict = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._batch_encode_plus(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : Tuple , *__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Any = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._encode_plus(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[str] = None ): """simple docstring""" _lowerCamelCase : Tuple = self._tokenizer.model.save(__lowerCAmelCase , name=__lowerCAmelCase ) return tuple(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : Dict , __lowerCAmelCase : List[str]=None ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : List[int] , __lowerCAmelCase : Optional[List[int]] = None ): """simple docstring""" _lowerCamelCase : List[str] = [self.sep_token_id] _lowerCamelCase : Tuple = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]	72
def __snake_case ( _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase ): __a = len(_UpperCAmelCase ) __a = [[0] * n for i in range(_UpperCAmelCase )] for i in range(_UpperCAmelCase ): __a = y_points[i] for i in range(2 , _UpperCAmelCase ): for j in range(_UpperCAmelCase , _UpperCAmelCase ): __a = ( (xa - x_points[j - i + 1]) * q[j][i - 1] - (xa - x_points[j]) * q[j - 1][i - 1] ) / (x_points[j] - x_points[j - i + 1]) return [q[n - 1][n - 1], q] if __name__ == "__main__": import doctest doctest.testmod()	49	"""simple docstring""" from __future__ import annotations def snake_case_ ( A_ : str ): '''simple docstring''' return [ord(A_ ) - 96 for elem in plain] def snake_case_ ( A_ : list[int] ): '''simple docstring''' return "".join(chr(elem + 96 ) for elem in encoded ) def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Dict = encode(input('''-> ''' ).strip().lower() ) print('''Encoded: ''', A_ ) print('''Decoded:''', decode(A_ ) ) if __name__ == "__main__": main()	72
import unittest import numpy as np from transformers.testing_utils import require_flax, require_tf, require_torch from transformers.utils import ( expand_dims, flatten_dict, is_flax_available, is_tf_available, is_torch_available, reshape, squeeze, transpose, ) if is_flax_available(): import jax.numpy as jnp if is_tf_available(): import tensorflow as tf if is_torch_available(): import torch class lowerCAmelCase ( unittest.TestCase ): def A_ ( self : List[str] ) -> int: lowerCamelCase__ : Union[str, Any] = { 'task_specific_params': { 'summarization': {'length_penalty': 1.0, 'max_length': 128, 'min_length': 12, 'num_beams': 4}, 'summarization_cnn': {'length_penalty': 2.0, 'max_length': 142, 'min_length': 56, 'num_beams': 4}, 'summarization_xsum': {'length_penalty': 1.0, 'max_length': 62, 'min_length': 11, 'num_beams': 6}, } } lowerCamelCase__ : Tuple = { 'task_specific_params.summarization.length_penalty': 1.0, 'task_specific_params.summarization.max_length': 128, 'task_specific_params.summarization.min_length': 12, 'task_specific_params.summarization.num_beams': 4, 'task_specific_params.summarization_cnn.length_penalty': 2.0, 'task_specific_params.summarization_cnn.max_length': 142, 'task_specific_params.summarization_cnn.min_length': 56, 'task_specific_params.summarization_cnn.num_beams': 4, 'task_specific_params.summarization_xsum.length_penalty': 1.0, 'task_specific_params.summarization_xsum.max_length': 62, 'task_specific_params.summarization_xsum.min_length': 11, 'task_specific_params.summarization_xsum.num_beams': 6, } self.assertEqual(flatten_dict(UpperCAmelCase ) , UpperCAmelCase ) def A_ ( self : List[str] ) -> Optional[int]: lowerCamelCase__ : Union[str, Any] = np.random.randn(3 , 4 ) self.assertTrue(np.allclose(transpose(UpperCAmelCase ) , x.transpose() ) ) lowerCamelCase__ : str = np.random.randn(3 , 4 , 5 ) self.assertTrue(np.allclose(transpose(UpperCAmelCase , axes=(1, 2, 0) ) , x.transpose((1, 2, 0) ) ) ) @require_torch def A_ ( self : Any ) -> int: lowerCamelCase__ : List[Any] = np.random.randn(3 , 4 ) lowerCamelCase__ : Dict = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase ) , transpose(UpperCAmelCase ).numpy() ) ) lowerCamelCase__ : Union[str, Any] = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : str = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase , axes=(1, 2, 0) ) , transpose(UpperCAmelCase , axes=(1, 2, 0) ).numpy() ) ) @require_tf def A_ ( self : int ) -> Union[str, Any]: lowerCamelCase__ : int = np.random.randn(3 , 4 ) lowerCamelCase__ : Any = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase ) , transpose(UpperCAmelCase ).numpy() ) ) lowerCamelCase__ : Any = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : List[str] = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase , axes=(1, 2, 0) ) , transpose(UpperCAmelCase , axes=(1, 2, 0) ).numpy() ) ) @require_flax def A_ ( self : Any ) -> Optional[Any]: lowerCamelCase__ : List[str] = np.random.randn(3 , 4 ) lowerCamelCase__ : Optional[int] = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase ) , np.asarray(transpose(UpperCAmelCase ) ) ) ) lowerCamelCase__ : Any = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : List[str] = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase , axes=(1, 2, 0) ) , np.asarray(transpose(UpperCAmelCase , axes=(1, 2, 0) ) ) ) ) def A_ ( self : List[str] ) -> Dict: lowerCamelCase__ : Tuple = np.random.randn(3 , 4 ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (4, 3) ) , np.reshape(UpperCAmelCase , (4, 3) ) ) ) lowerCamelCase__ : List[Any] = np.random.randn(3 , 4 , 5 ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (12, 5) ) , np.reshape(UpperCAmelCase , (12, 5) ) ) ) @require_torch def A_ ( self : List[Any] ) -> int: lowerCamelCase__ : Dict = np.random.randn(3 , 4 ) lowerCamelCase__ : Dict = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (4, 3) ) , reshape(UpperCAmelCase , (4, 3) ).numpy() ) ) lowerCamelCase__ : Union[str, Any] = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : Union[str, Any] = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (12, 5) ) , reshape(UpperCAmelCase , (12, 5) ).numpy() ) ) @require_tf def A_ ( self : Tuple ) -> List[Any]: lowerCamelCase__ : int = np.random.randn(3 , 4 ) lowerCamelCase__ : Dict = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (4, 3) ) , reshape(UpperCAmelCase , (4, 3) ).numpy() ) ) lowerCamelCase__ : List[str] = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : Dict = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (12, 5) ) , reshape(UpperCAmelCase , (12, 5) ).numpy() ) ) @require_flax def A_ ( self : Optional[int] ) -> str: lowerCamelCase__ : Optional[Any] = np.random.randn(3 , 4 ) lowerCamelCase__ : int = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (4, 3) ) , np.asarray(reshape(UpperCAmelCase , (4, 3) ) ) ) ) lowerCamelCase__ : str = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : Any = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (12, 5) ) , np.asarray(reshape(UpperCAmelCase , (12, 5) ) ) ) ) def A_ ( self : str ) -> List[str]: lowerCamelCase__ : Union[str, Any] = np.random.randn(1 , 3 , 4 ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase ) , np.squeeze(UpperCAmelCase ) ) ) lowerCamelCase__ : Any = np.random.randn(1 , 4 , 1 , 5 ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase , axis=2 ) , np.squeeze(UpperCAmelCase , axis=2 ) ) ) @require_torch def A_ ( self : List[str] ) -> List[str]: lowerCamelCase__ : Tuple = np.random.randn(1 , 3 , 4 ) lowerCamelCase__ : Union[str, Any] = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase ) , squeeze(UpperCAmelCase ).numpy() ) ) lowerCamelCase__ : str = np.random.randn(1 , 4 , 1 , 5 ) lowerCamelCase__ : Optional[Any] = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase , axis=2 ) , squeeze(UpperCAmelCase , axis=2 ).numpy() ) ) @require_tf def A_ ( self : Optional[int] ) -> List[str]: lowerCamelCase__ : str = np.random.randn(1 , 3 , 4 ) lowerCamelCase__ : Optional[int] = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase ) , squeeze(UpperCAmelCase ).numpy() ) ) lowerCamelCase__ : List[str] = np.random.randn(1 , 4 , 1 , 5 ) lowerCamelCase__ : Optional[Any] = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase , axis=2 ) , squeeze(UpperCAmelCase , axis=2 ).numpy() ) ) @require_flax def A_ ( self : Optional[Any] ) -> List[Any]: lowerCamelCase__ : List[str] = np.random.randn(1 , 3 , 4 ) lowerCamelCase__ : Optional[Any] = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase ) , np.asarray(squeeze(UpperCAmelCase ) ) ) ) lowerCamelCase__ : Optional[Any] = np.random.randn(1 , 4 , 1 , 5 ) lowerCamelCase__ : Tuple = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase , axis=2 ) , np.asarray(squeeze(UpperCAmelCase , axis=2 ) ) ) ) def A_ ( self : Dict ) -> Optional[Any]: lowerCamelCase__ : Any = np.random.randn(3 , 4 ) self.assertTrue(np.allclose(expand_dims(UpperCAmelCase , axis=1 ) , np.expand_dims(UpperCAmelCase , axis=1 ) ) ) @require_torch def A_ ( self : Optional[Any] ) -> List[Any]: lowerCamelCase__ : Any = np.random.randn(3 , 4 ) lowerCamelCase__ : Optional[int] = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(expand_dims(UpperCAmelCase , axis=1 ) , expand_dims(UpperCAmelCase , axis=1 ).numpy() ) ) @require_tf def A_ ( self : int ) -> Optional[int]: lowerCamelCase__ : Optional[int] = np.random.randn(3 , 4 ) lowerCamelCase__ : Any = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(expand_dims(UpperCAmelCase , axis=1 ) , expand_dims(UpperCAmelCase , axis=1 ).numpy() ) ) @require_flax def A_ ( self : Any ) -> Optional[Any]: lowerCamelCase__ : Optional[Any] = np.random.randn(3 , 4 ) lowerCamelCase__ : Optional[Any] = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(expand_dims(UpperCAmelCase , axis=1 ) , np.asarray(expand_dims(UpperCAmelCase , axis=1 ) ) ) )	50	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = { '''configuration_lxmert''': ['''LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LxmertConfig'''], '''tokenization_lxmert''': ['''LxmertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''LxmertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''LxmertEncoder''', '''LxmertForPreTraining''', '''LxmertForQuestionAnswering''', '''LxmertModel''', '''LxmertPreTrainedModel''', '''LxmertVisualFeatureEncoder''', '''LxmertXLayer''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFLxmertForPreTraining''', '''TFLxmertMainLayer''', '''TFLxmertModel''', '''TFLxmertPreTrainedModel''', '''TFLxmertVisualFeatureEncoder''', ] if TYPE_CHECKING: from .configuration_lxmert import LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, LxmertConfig from .tokenization_lxmert import LxmertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_lxmert_fast import LxmertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lxmert import ( LxmertEncoder, LxmertForPreTraining, LxmertForQuestionAnswering, LxmertModel, LxmertPreTrainedModel, LxmertVisualFeatureEncoder, LxmertXLayer, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_lxmert import ( TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFLxmertForPreTraining, TFLxmertMainLayer, TFLxmertModel, TFLxmertPreTrainedModel, TFLxmertVisualFeatureEncoder, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
# HF Trainer benchmarking tool # # This tool can be used to run and compare multiple dimensions of the HF Trainers args. # # It then prints a report once in github format with all the information that needs to be shared # with others and second time in a console-friendly format, so it's easier to use for tuning things up. # # The main idea is: # # ./trainer-benchmark.py --base-cmd '<cmd args that don't change>' \ # --variations '--tf32 0\|--tf32 1' '--fp16 0\|--fp16 1\|--bf16 1' \ # --target-metric-key train_samples_per_second # # The variations can be any command line argument that you want to compare and not just dtype as in # the example. # # --variations allows you to compare variations in multiple dimensions. # # as the first dimention has 2 options and the second 3 in our example, this will run the trainer 6 # times adding one of: # # 1. --tf32 0 --fp16 0 # 2. --tf32 0 --fp16 1 # 3. --tf32 0 --bf16 1 # 4. --tf32 1 --fp16 0 # 5. --tf32 1 --fp16 1 # 6. --tf32 1 --bf16 1 # # and print the results. This is just a cartesian product - and more than 2 dimensions can be used. # # If you want to rely on defaults, this: # --variations '--tf32 0\|--tf32 1' '--fp16 0\|--fp16 1\|--bf16 1' # is identical to this: # --variations '--tf32 0\|--tf32 1' '\|--fp16\|--bf16' # # the leading empty variation in the 2nd dimension is a valid variation. # # So here we get the following 6 variations: # # 1. --tf32 0 # 2. --tf32 0 --fp16 # 3. --tf32 0 --bf16 # 4. --tf32 1 # 5. --tf32 1 --fp16 # 6. --tf32 1 --bf16 # # In this particular case we don't know what the default tf32 setting is as it's normally # pytorch-version dependent). That's why it's best to do an explicit setting of each variation: # `--tf32 0\|--tf32 1` # # Here is a full example of a train: # # CUDA_VISIBLE_DEVICES=0 python ./scripts/benchmark/trainer-benchmark.py \ # --base-cmd \ # ' examples/pytorch/translation/run_translation.py --model_name_or_path t5-small \ # --output_dir output_dir --do_train --label_smoothing 0.1 --logging_strategy no \ # --save_strategy no --per_device_train_batch_size 32 --max_source_length 512 \ # --max_target_length 512 --num_train_epochs 1 --overwrite_output_dir \ # --source_lang en --target_lang ro --dataset_name wmt16 --dataset_config "ro-en" \ # --source_prefix "translate English to Romanian: " --warmup_steps 50 \ # --max_train_samples 20000 --dataloader_num_workers 2 ' \ # --target-metric-key train_samples_per_second --repeat-times 1 --variations \ # '\|--fp16\|--bf16' '--tf32 0\|--tf32 1' --report-metric-keys train_loss \ # --repeat-times 1 --base-variation '--tf32 0' # # and here is a possible output: # # # \| Variation \| Train \| Diff \| Train \| # \| \| samples \| % \| loss \| # \| \| per \| \| \| # \| \| second \| \| \| # \|:----------------\|----------:\|-------:\|--------:\| # \| --tf32 0 \| 285.11 \| 0 \| 2.51 \| # \| --tf32 1 \| 342.09 \| 20 \| 2.51 \| # \| --fp16 --tf32 0 \| 423.49 \| 49 \| 2.51 \| # \| --fp16 --tf32 1 \| 423.13 \| 48 \| 2.51 \| # \| --bf16 --tf32 0 \| 416.80 \| 46 \| 2.52 \| # \| --bf16 --tf32 1 \| 415.87 \| 46 \| 2.52 \| # # # So you can quickly compare the different outcomes. # # Typically running each experiment once is enough, but if the environment is unstable you can # re-run each multiple times, e.g., 3 using --repeat-times 3 and it will report the averaged results. # # By default it'll use the lowest result as the base line to use as 100% and then compare the rest to # it as can be seen from the table above, but you can also specify which combination is the one to use as # the baseline, e.g., to change to another entry use: --base-variation '--tf32 1 --fp16 0' # # --target-metric-key is there to tell the program which metrics to compare - the different metric keys are # inside output_dir/all_results.json. e.g., to measure eval performance instead of train use: # --target-metric-key eval_samples_per_second # but of course you will need to adjust the --base-cmd value in the example to perform evaluation as # well (as currently it doesn't) # import argparse import datetime import io import itertools import json import math import os import platform import re import shlex import subprocess import sys from pathlib import Path from statistics import fmean import pandas as pd import torch from tqdm import tqdm import transformers snake_case_ : List[Any] = float("nan") class __snake_case : def __init__( self : Optional[int] , _snake_case : int): """simple docstring""" UpperCAmelCase_ = sys.stdout UpperCAmelCase_ = open(_snake_case , '''a''') def __getattr__( self : List[str] , _snake_case : Tuple): """simple docstring""" return getattr(self.stdout , _snake_case) def lowerCamelCase ( self : int , _snake_case : List[Any]): """simple docstring""" self.stdout.write(_snake_case) # strip tqdm codes self.file.write(re.sub(r'''^.\r''' , '''''' , _snake_case , 0 , re.M)) def A (__A : Optional[Any]=80 , __A : Union[str, Any]=False ) -> Optional[int]: """simple docstring""" UpperCAmelCase_ = [] # deal with critical env vars UpperCAmelCase_ = ['''CUDA_VISIBLE_DEVICES'''] for key in env_keys: UpperCAmelCase_ = os.environ.get(__A , __A ) if val is not None: cmd.append(F"""{key}={val}""" ) # python executable (not always needed if the script is executable) UpperCAmelCase_ = sys.executable if full_python_path else sys.executable.split('''/''' )[-1] cmd.append(__A ) # now the normal args cmd += list(map(shlex.quote , sys.argv ) ) # split up into up to MAX_WIDTH lines with shell multi-line escapes UpperCAmelCase_ = [] UpperCAmelCase_ = '''''' while len(__A ) > 0: current_line += F"""{cmd.pop(0 )} """ if len(__A ) == 0 or len(__A ) + len(cmd[0] ) + 1 > max_width - 1: lines.append(__A ) UpperCAmelCase_ = '''''' return "\\\n".join(__A ) def A (__A : Union[str, Any] , __A : List[Any] ) -> Dict: """simple docstring""" UpperCAmelCase_ = re.sub(R'''[\\\n]+''' , ''' ''' , args.base_cmd ) # remove --output_dir if any and set our own UpperCAmelCase_ = re.sub('''--output_dir\s+[^\s]+''' , '''''' , args.base_cmd ) args.base_cmd += F""" --output_dir {output_dir}""" # ensure we have --overwrite_output_dir UpperCAmelCase_ = re.sub('''--overwrite_output_dir\s+''' , '''''' , args.base_cmd ) args.base_cmd += " --overwrite_output_dir" return [sys.executable] + shlex.split(args.base_cmd ) def A (__A : str , __A : List[str] , __A : Optional[Any] , __A : List[Any] , __A : Optional[int] , __A : Tuple , __A : Union[str, Any] ) -> Dict: """simple docstring""" if 0: import random from time import sleep sleep(0 ) return dict( {k: random.uniform(0 , 100 ) for k in metric_keys} , {target_metric_key: random.choice([nan, 10.31, 100.2, 55.6_666, 222.22_222_222] )} , ) UpperCAmelCase_ = subprocess.run(__A , capture_output=__A , text=__A ) if verbose: print('''STDOUT''' , result.stdout ) print('''STDERR''' , result.stderr ) # save the streams UpperCAmelCase_ = variation.replace(''' ''' , '''-''' ) with open(Path(__A ) / F"""log.{prefix}.stdout.txt""" , '''w''' ) as f: f.write(result.stdout ) with open(Path(__A ) / F"""log.{prefix}.stderr.txt""" , '''w''' ) as f: f.write(result.stderr ) if result.returncode != 0: if verbose: print('''failed''' ) return {target_metric_key: nan} with io.open(F"""{output_dir}/all_results.json""" , '''r''' , encoding='''utf-8''' ) as f: UpperCAmelCase_ = json.load(__A ) # filter out just the keys we want return {k: v for k, v in metrics.items() if k in metric_keys} def A (__A : Tuple , __A : int , __A : Any , __A : Dict , __A : List[str] , __A : Tuple , __A : Optional[int] , __A : List[Any] , __A : int , __A : Any , ) -> int: """simple docstring""" UpperCAmelCase_ = [] UpperCAmelCase_ = [] UpperCAmelCase_ = F"""{id}: {variation:<{longest_variation_len}}""" UpperCAmelCase_ = F"""{preamble}: """ UpperCAmelCase_ = set(report_metric_keys + [target_metric_key] ) for i in tqdm(range(__A ) , desc=__A , leave=__A ): UpperCAmelCase_ = process_run_single( __A , __A , __A , __A , __A , __A , __A ) UpperCAmelCase_ = single_run_metrics[target_metric_key] if not math.isnan(__A ): metrics.append(__A ) results.append(__A ) outcome += "✓" else: outcome += "✘" UpperCAmelCase_ = F"""\33[2K\r{outcome}""" if len(__A ) > 0: UpperCAmelCase_ = {k: fmean([x[k] for x in metrics] ) for k in metrics[0].keys()} UpperCAmelCase_ = round(mean_metrics[target_metric_key] , 2 ) UpperCAmelCase_ = F"""{outcome} {mean_target}""" if len(__A ) > 1: results_str += F""" {tuple(round(__A , 2 ) for x in results )}""" print(__A ) UpperCAmelCase_ = variation return mean_metrics else: print(__A ) return {variation_key: variation, target_metric_key: nan} def A () -> Dict: """simple docstring""" UpperCAmelCase_ = torch.cuda.get_device_properties(torch.device('''cuda''' ) ) return F""" Datetime : {datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S" )} Software: transformers: {transformers.__version__} torch : {torch.__version__} cuda : {torch.version.cuda} python : {platform.python_version()} Hardware: {torch.cuda.device_count()} GPUs : {properties.name}, {properties.total_memory/230:0.2f}GB """ def A (__A : Optional[Any] , __A : str , __A : str , __A : List[str] , __A : Tuple ) -> List[Any]: """simple docstring""" UpperCAmelCase_ = pd.DataFrame(__A ) UpperCAmelCase_ = '''variation''' UpperCAmelCase_ = '''diff_%''' UpperCAmelCase_ = nan if base_variation is not None and len(df[df[variation_key] == base_variation] ): # this may still return nan UpperCAmelCase_ = df.loc[df[variation_key] == base_variation][target_metric_key].item() if math.isnan(__A ): # as a fallback, use the minimal value as the sentinel UpperCAmelCase_ = df.loc[df[target_metric_key] != nan][target_metric_key].min() # create diff column if possible if not math.isnan(__A ): UpperCAmelCase_ = df.apply( lambda __A : round(100 (r[target_metric_key] - sentinel_value) / sentinel_value ) if not math.isnan(r[target_metric_key] ) else 0 , axis='''columns''' , ) # re-order columns UpperCAmelCase_ = [variation_key, target_metric_key, diff_key, report_metric_keys] UpperCAmelCase_ = df.reindex(__A , axis='''columns''' ) # reorder cols # capitalize UpperCAmelCase_ = df.rename(str.capitalize , axis='''columns''' ) # make the cols as narrow as possible UpperCAmelCase_ = df.rename(lambda __A : c.replace('''_''' , '''<br>''' ) , axis='''columns''' ) UpperCAmelCase_ = df.rename(lambda __A : c.replace('''_''' , '''\n''' ) , axis='''columns''' ) UpperCAmelCase_ = ['''''', '''Copy between the cut-here-lines and paste as is to github or a forum'''] report += ["----------8<-----------------8<--------"] report += [" Results:", df_github.to_markdown(index=__A , floatfmt='''.2f''' )] report += ["```"] report += ["* Setup:", get_versions()] report += ["* The benchmark command line was:", get_original_command()] report += ["```"] report += ["----------8<-----------------8<--------"] report += ["* Results (console):", df_console.to_markdown(index=__A , floatfmt='''.2f''' )] print('''\n\n'''.join(__A ) ) def A () -> int: """simple docstring""" UpperCAmelCase_ = argparse.ArgumentParser() parser.add_argument( '''--base-cmd''' , default=__A , type=__A , required=__A , help='''Base cmd''' , ) parser.add_argument( '''--variations''' , default=__A , type=__A , nargs='''+''' , required=__A , help='''Multi-dimensional variations, example: \'\|--fp16\|--bf16\' \'\|--tf32\'''' , ) parser.add_argument( '''--base-variation''' , default=__A , type=__A , help='''Baseline variation to compare to. if None the minimal target value will be used to compare against''' , ) parser.add_argument( '''--target-metric-key''' , default=__A , type=__A , required=__A , help='''Target metric key in output_dir/all_results.json, e.g., train_samples_per_second''' , ) parser.add_argument( '''--report-metric-keys''' , default='''''' , type=__A , help='''Report metric keys - other metric keys from output_dir/all_results.json to report, e.g., train_loss. Use a single argument e.g., \'train_loss train_samples''' , ) parser.add_argument( '''--repeat-times''' , default=1 , type=__A , help='''How many times to re-run each variation - an average will be reported''' , ) parser.add_argument( '''--output_dir''' , default='''output_benchmark''' , type=__A , help='''The output directory where all the benchmark reports will go to and additionally this directory will be used to override --output_dir in the script that is being benchmarked''' , ) parser.add_argument( '''--verbose''' , default=__A , action='''store_true''' , help='''Whether to show the outputs of each run or just the benchmark progress''' , ) UpperCAmelCase_ = parser.parse_args() UpperCAmelCase_ = args.output_dir Path(__A ).mkdir(exist_ok=__A ) UpperCAmelCase_ = get_base_command(__A , __A ) # split each dimension into its --foo variations UpperCAmelCase_ = [list(map(str.strip , re.split(R'''\\|''' , __A ) ) ) for x in args.variations] # build a cartesian product of dimensions and convert those back into cmd-line arg strings, # while stripping white space for inputs that were empty UpperCAmelCase_ = list(map(str.strip , map(''' '''.join , itertools.product(__A ) ) ) ) UpperCAmelCase_ = max(len(__A ) for x in variations ) # split wanted keys UpperCAmelCase_ = args.report_metric_keys.split() # capture prints into a log file for convenience UpperCAmelCase_ = F"""benchmark-report-{datetime.datetime.now().strftime("%Y-%m-%d-%H-%M-%S" )}.txt""" print(F"""\nNote: each run's output is also logged under {output_dir}/log..std.txt""" ) print(F"""and this script's output is also piped into {report_fn}""" ) UpperCAmelCase_ = Tee(__A ) print(F"""\n** Running {len(__A )} benchmarks:""" ) print(F"""Base command: {" ".join(__A )}""" ) UpperCAmelCase_ = '''variation''' UpperCAmelCase_ = [] for id, variation in enumerate(tqdm(__A , desc='''Total completion: ''' , leave=__A ) ): UpperCAmelCase_ = base_cmd + variation.split() results.append( process_run( id + 1 , __A , __A , __A , __A , args.target_metric_key , __A , args.repeat_times , __A , args.verbose , ) ) process_results(__A , args.target_metric_key , __A , args.base_variation , __A ) if __name__ == "__main__": main()	51	"""simple docstring""" def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for data in source_data: for i, el in enumerate(A_ ): if len(A_ ) < i + 1: data_lists.append([] ) data_lists[i].append(float(A_ ) ) return data_lists def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for dlist, weight in zip(A_, A_ ): _lowerCamelCase : Any = min(A_ ) _lowerCamelCase : Optional[Any] = max(A_ ) _lowerCamelCase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowerCamelCase : str = F'''Invalid weight of {weight:f} provided''' raise ValueError(A_ ) score_lists.append(A_ ) return score_lists def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(A_ ): _lowerCamelCase : List[str] = final_scores[j] + ele return final_scores def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : Tuple = get_data(A_ ) _lowerCamelCase : Optional[Any] = calculate_each_score(A_, A_ ) _lowerCamelCase : str = generate_final_scores(A_ ) # append scores to source data for i, ele in enumerate(A_ ): source_data[i].append(A_ ) return source_data	72
import os def A_ ( ) -> int: with open(os.path.dirname(_lowerCAmelCase ) + "/grid.txt" ) as f: UpperCamelCase : Optional[Any] = [] # noqa: E741 for _ in range(20 ): l.append([int(_lowerCAmelCase ) for x in f.readline().split()] ) UpperCamelCase : Optional[Any] = 0 # right for i in range(20 ): for j in range(17 ): UpperCamelCase : int = l[i][j] * l[i][j + 1] * l[i][j + 2] * l[i][j + 3] if temp > maximum: UpperCamelCase : Union[str, Any] = temp # down for i in range(17 ): for j in range(20 ): UpperCamelCase : str = l[i][j] * l[i + 1][j] * l[i + 2][j] * l[i + 3][j] if temp > maximum: UpperCamelCase : Optional[Any] = temp # diagonal 1 for i in range(17 ): for j in range(17 ): UpperCamelCase : Union[str, Any] = l[i][j] * l[i + 1][j + 1] * l[i + 2][j + 2] * l[i + 3][j + 3] if temp > maximum: UpperCamelCase : List[Any] = temp # diagonal 2 for i in range(17 ): for j in range(3 , 20 ): UpperCamelCase : int = l[i][j] * l[i + 1][j - 1] * l[i + 2][j - 2] * l[i + 3][j - 3] if temp > maximum: UpperCamelCase : Optional[int] = temp return maximum if __name__ == "__main__": print(solution())	52	"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = { '''microsoft/unispeech-large-1500h-cv''': ( '''https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json''' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class __snake_case ( _lowercase): snake_case__ : List[str] = "unispeech" def __init__( self : List[str] , __lowerCAmelCase : List[Any]=3_2 , __lowerCAmelCase : str=7_6_8 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=3_0_7_2 , __lowerCAmelCase : Tuple="gelu" , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : str=0.1 , __lowerCAmelCase : Tuple=0.0 , __lowerCAmelCase : Optional[int]=0.0 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Optional[int]=0.1 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Dict=1E-5 , __lowerCAmelCase : Optional[int]="group" , __lowerCAmelCase : Dict="gelu" , __lowerCAmelCase : int=(5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2) , __lowerCAmelCase : Optional[int]=(5, 2, 2, 2, 2, 2, 2) , __lowerCAmelCase : Union[str, Any]=(1_0, 3, 3, 3, 3, 2, 2) , __lowerCAmelCase : List[Any]=False , __lowerCAmelCase : List[str]=1_2_8 , __lowerCAmelCase : Any=1_6 , __lowerCAmelCase : Optional[int]=False , __lowerCAmelCase : Optional[Any]=True , __lowerCAmelCase : Union[str, Any]=0.05 , __lowerCAmelCase : Union[str, Any]=1_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.0 , __lowerCAmelCase : Optional[int]=1_0 , __lowerCAmelCase : Dict=0 , __lowerCAmelCase : List[str]=3_2_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Tuple=1_0_0 , __lowerCAmelCase : Dict=2_5_6 , __lowerCAmelCase : str=2_5_6 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Dict="mean" , __lowerCAmelCase : Union[str, Any]=False , __lowerCAmelCase : Dict=False , __lowerCAmelCase : Optional[Any]=2_5_6 , __lowerCAmelCase : Dict=8_0 , __lowerCAmelCase : int=0 , __lowerCAmelCase : Optional[int]=1 , __lowerCAmelCase : Dict=2 , __lowerCAmelCase : Any=0.5 , __lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__(__lowerCAmelCase , pad_token_id=__lowerCAmelCase , bos_token_id=__lowerCAmelCase , eos_token_id=__lowerCAmelCase ) _lowerCamelCase : Dict = hidden_size _lowerCamelCase : Any = feat_extract_norm _lowerCamelCase : List[Any] = feat_extract_activation _lowerCamelCase : Any = list(__lowerCAmelCase ) _lowerCamelCase : Tuple = list(__lowerCAmelCase ) _lowerCamelCase : int = list(__lowerCAmelCase ) _lowerCamelCase : List[str] = conv_bias _lowerCamelCase : List[str] = num_conv_pos_embeddings _lowerCamelCase : Tuple = num_conv_pos_embedding_groups _lowerCamelCase : List[str] = len(self.conv_dim ) _lowerCamelCase : Tuple = num_hidden_layers _lowerCamelCase : List[Any] = intermediate_size _lowerCamelCase : Dict = hidden_act _lowerCamelCase : Union[str, Any] = num_attention_heads _lowerCamelCase : Tuple = hidden_dropout _lowerCamelCase : List[Any] = attention_dropout _lowerCamelCase : Optional[int] = activation_dropout _lowerCamelCase : Optional[Any] = feat_proj_dropout _lowerCamelCase : Optional[int] = final_dropout _lowerCamelCase : Any = layerdrop _lowerCamelCase : Any = layer_norm_eps _lowerCamelCase : List[Any] = initializer_range _lowerCamelCase : List[str] = num_ctc_classes _lowerCamelCase : List[Any] = vocab_size _lowerCamelCase : Optional[Any] = do_stable_layer_norm _lowerCamelCase : Tuple = use_weighted_layer_sum _lowerCamelCase : List[Any] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' f''' {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,''' f''' `len(config.conv_kernel) = {len(self.conv_kernel )}`.''' ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 _lowerCamelCase : Any = apply_spec_augment _lowerCamelCase : Dict = mask_time_prob _lowerCamelCase : List[str] = mask_time_length _lowerCamelCase : Optional[Any] = mask_time_min_masks _lowerCamelCase : List[str] = mask_feature_prob _lowerCamelCase : int = mask_feature_length _lowerCamelCase : Dict = mask_feature_min_masks # parameters for pretraining with codevector quantized representations _lowerCamelCase : Optional[Any] = num_codevectors_per_group _lowerCamelCase : int = num_codevector_groups _lowerCamelCase : List[Any] = contrastive_logits_temperature _lowerCamelCase : List[str] = feat_quantizer_dropout _lowerCamelCase : Dict = num_negatives _lowerCamelCase : Optional[int] = codevector_dim _lowerCamelCase : List[Any] = proj_codevector_dim _lowerCamelCase : List[Any] = diversity_loss_weight # ctc loss _lowerCamelCase : Union[str, Any] = ctc_loss_reduction _lowerCamelCase : Any = ctc_zero_infinity # pretraining loss _lowerCamelCase : str = replace_prob @property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )	72
'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available a__ : Optional[int] ={} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a__ : Optional[Any] =['''MLukeTokenizer'''] if TYPE_CHECKING: try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_mluke import MLukeTokenizer else: import sys a__ : Union[str, Any] =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	53	"""simple docstring""" from typing import Optional from urllib.parse import quote import huggingface_hub as hfh from packaging import version def snake_case_ ( A_ : str, A_ : str, A_ : Optional[str] = None ): '''simple docstring''' if version.parse(hfh.__version__ ).release < version.parse('''0.11.0''' ).release: # old versions of hfh don't url-encode the file path _lowerCamelCase : Optional[Any] = quote(A_ ) return hfh.hf_hub_url(A_, A_, repo_type='''dataset''', revision=A_ )	72
"""simple docstring""" import string # frequency taken from https://en.wikipedia.org/wiki/Letter_frequency a__ : Union[str, Any] = { '''E''': 12.70, '''T''': 9.06, '''A''': 8.17, '''O''': 7.51, '''I''': 6.97, '''N''': 6.75, '''S''': 6.33, '''H''': 6.09, '''R''': 5.99, '''D''': 4.25, '''L''': 4.03, '''C''': 2.78, '''U''': 2.76, '''M''': 2.41, '''W''': 2.36, '''F''': 2.23, '''G''': 2.02, '''Y''': 1.97, '''P''': 1.93, '''B''': 1.29, '''V''': 0.98, '''K''': 0.77, '''J''': 0.15, '''X''': 0.15, '''Q''': 0.10, '''Z''': 0.07, } a__ : Optional[Any] = '''ETAOINSHRDLCUMWFGYPBVKJXQZ''' a__ : Dict = '''ABCDEFGHIJKLMNOPQRSTUVWXYZ''' def UpperCAmelCase__ (lowerCAmelCase_ ): '''simple docstring''' __SCREAMING_SNAKE_CASE = {letter: 0 for letter in string.ascii_uppercase} for letter in message.upper(): if letter in LETTERS: letter_count[letter] += 1 return letter_count def UpperCAmelCase__ (lowerCAmelCase_ ): '''simple docstring''' return x[0] def UpperCAmelCase__ (lowerCAmelCase_ ): '''simple docstring''' __SCREAMING_SNAKE_CASE = get_letter_count(lowerCAmelCase_ ) __SCREAMING_SNAKE_CASE = { freq: [] for letter, freq in letter_to_freq.items() } for letter in LETTERS: freq_to_letter[letter_to_freq[letter]].append(lowerCAmelCase_ ) __SCREAMING_SNAKE_CASE = {} for freq in freq_to_letter: freq_to_letter[freq].sort(key=ETAOIN.find , reverse=lowerCAmelCase_ ) __SCREAMING_SNAKE_CASE = "".join(freq_to_letter[freq] ) __SCREAMING_SNAKE_CASE = list(freq_to_letter_str.items() ) freq_pairs.sort(key=lowerCAmelCase_ , reverse=lowerCAmelCase_ ) __SCREAMING_SNAKE_CASE = [freq_pair[1] for freq_pair in freq_pairs] return "".join(lowerCAmelCase_ ) def UpperCAmelCase__ (lowerCAmelCase_ ): '''simple docstring''' __SCREAMING_SNAKE_CASE = get_frequency_order(lowerCAmelCase_ ) __SCREAMING_SNAKE_CASE = 0 for common_letter in ETAOIN[:6]: if common_letter in freq_order[:6]: match_score += 1 for uncommon_letter in ETAOIN[-6:]: if uncommon_letter in freq_order[-6:]: match_score += 1 return match_score if __name__ == "__main__": import doctest doctest.testmod()	54	"""simple docstring""" import unittest import numpy as np def snake_case_ ( A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray \| None = None, ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) if shape_a[0] != shape_b[0]: _lowerCamelCase : Tuple = ( '''Expected the same number of rows for A and B. ''' F'''Instead found A of size {shape_a} and B of size {shape_b}''' ) raise ValueError(A_ ) if shape_b[1] != shape_c[1]: _lowerCamelCase : Tuple = ( '''Expected the same number of columns for B and C. ''' F'''Instead found B of size {shape_b} and C of size {shape_c}''' ) raise ValueError(A_ ) _lowerCamelCase : List[str] = pseudo_inv if a_inv is None: try: _lowerCamelCase : Any = np.linalg.inv(A_ ) except np.linalg.LinAlgError: raise ValueError( '''Input matrix A is not invertible. Cannot compute Schur complement.''' ) return mat_c - mat_b.T @ a_inv @ mat_b class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : List[str] = np.array([[2, 1], [6, 3]] ) _lowerCamelCase : List[Any] = schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = np.block([[a, b], [b.T, c]] ) _lowerCamelCase : Tuple = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : List[str] = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : Any = np.linalg.det(__lowerCAmelCase ) self.assertAlmostEqual(__lowerCAmelCase , det_a * det_s ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : Optional[int] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : int = np.array([[2, 1], [6, 3]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : str = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : Union[str, Any] = np.array([[2, 1, 3], [6, 3, 5]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) if __name__ == "__main__": import doctest doctest.testmod() unittest.main()	72
'''simple docstring''' from timeit import timeit def __snake_case ( UpperCAmelCase_ : int ): if number < 0: raise ValueError("the value of input must not be negative" ) lowerCamelCase_ = 0 while number: number &= number - 1 result += 1 return result def __snake_case ( UpperCAmelCase_ : int ): if number < 0: raise ValueError("the value of input must not be negative" ) lowerCamelCase_ = 0 while number: if number % 2 == 1: result += 1 number >>= 1 return result def __snake_case ( ): def do_benchmark(UpperCAmelCase_ : int ) -> None: lowerCamelCase_ = "import __main__ as z" print(F'''Benchmark when {number = }:''' ) print(F'''{get_set_bits_count_using_modulo_operator(UpperCAmelCase_ ) = }''' ) lowerCamelCase_ = timeit("z.get_set_bits_count_using_modulo_operator(25)" , setup=UpperCAmelCase_ ) print(F'''timeit() runs in {timing} seconds''' ) print(F'''{get_set_bits_count_using_brian_kernighans_algorithm(UpperCAmelCase_ ) = }''' ) lowerCamelCase_ = timeit( "z.get_set_bits_count_using_brian_kernighans_algorithm(25)" , setup=UpperCAmelCase_ , ) print(F'''timeit() runs in {timing} seconds''' ) for number in (25, 37, 58, 0): do_benchmark(UpperCAmelCase_ ) print() if __name__ == "__main__": import doctest doctest.testmod() benchmark()	55	"""simple docstring""" def snake_case_ ( A_ : list[int], A_ : str ): '''simple docstring''' _lowerCamelCase : Tuple = int(A_ ) # Initialize Result _lowerCamelCase : Dict = [] # Traverse through all denomination for denomination in reversed(A_ ): # Find denominations while int(A_ ) >= int(A_ ): total_value -= int(A_ ) answer.append(A_ ) # Append the "answers" array return answer # Driver Code if __name__ == "__main__": lowerCAmelCase__ = [] lowerCAmelCase__ = '''0''' if ( input('''Do you want to enter your denominations ? (yY/n): ''').strip().lower() == "y" ): lowerCAmelCase__ = int(input('''Enter the number of denominations you want to add: ''').strip()) for i in range(0, n): denominations.append(int(input(F"""Denomination {i}: """).strip())) lowerCAmelCase__ = input('''Enter the change you want to make in Indian Currency: ''').strip() else: # All denominations of Indian Currency if user does not enter lowerCAmelCase__ = [1, 2, 5, 10, 20, 50, 100, 500, 2000] lowerCAmelCase__ = input('''Enter the change you want to make: ''').strip() if int(value) == 0 or int(value) < 0: print('''The total value cannot be zero or negative.''') else: print(F"""Following is minimal change for {value}: """) lowerCAmelCase__ = find_minimum_change(denominations, value) # Print result for i in range(len(answer)): print(answer[i], end=''' ''')	72
'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available, is_vision_available a : List[str] = { 'configuration_pix2struct': [ 'PIX2STRUCT_PRETRAINED_CONFIG_ARCHIVE_MAP', 'Pix2StructConfig', 'Pix2StructTextConfig', 'Pix2StructVisionConfig', ], 'processing_pix2struct': ['Pix2StructProcessor'], } try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a : Union[str, Any] = ['Pix2StructImageProcessor'] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a : Union[str, Any] = [ 'PIX2STRUCT_PRETRAINED_MODEL_ARCHIVE_LIST', 'Pix2StructPreTrainedModel', 'Pix2StructForConditionalGeneration', 'Pix2StructVisionModel', 'Pix2StructTextModel', ] if TYPE_CHECKING: from .configuration_pixastruct import ( PIX2STRUCT_PRETRAINED_CONFIG_ARCHIVE_MAP, PixaStructConfig, PixaStructTextConfig, PixaStructVisionConfig, ) from .processing_pixastruct import PixaStructProcessor try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .image_processing_pixastruct import PixaStructImageProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_pixastruct import ( PIX2STRUCT_PRETRAINED_MODEL_ARCHIVE_LIST, PixaStructForConditionalGeneration, PixaStructPreTrainedModel, PixaStructTextModel, PixaStructVisionModel, ) else: import sys a : int = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)	56	"""simple docstring""" def snake_case_ ( A_ : int = 2_00_00_00 ): '''simple docstring''' _lowerCamelCase : int = [0 for i in range(n + 1 )] _lowerCamelCase : List[str] = 1 _lowerCamelCase : Any = 1 for i in range(2, int(n*0.5 ) + 1 ): if primality_list[i] == 0: for j in range(i i, n + 1, A_ ): _lowerCamelCase : str = 1 _lowerCamelCase : Tuple = 0 for i in range(A_ ): if primality_list[i] == 0: sum_of_primes += i return sum_of_primes if __name__ == "__main__": print(F"""{solution() = }""")	72
"""simple docstring""" from __future__ import annotations def _lowerCamelCase ( _UpperCamelCase ): '''simple docstring''' __lowerCAmelCase = 0.00 __lowerCAmelCase = 0 for resistor in resistors: if resistor <= 0: __lowerCAmelCase = f"Resistor at index {index} has a negative or zero value!" raise ValueError(_UpperCamelCase ) first_sum += 1 / float(_UpperCamelCase ) index += 1 return 1 / first_sum def _lowerCamelCase ( _UpperCamelCase ): '''simple docstring''' __lowerCAmelCase = 0.00 __lowerCAmelCase = 0 for resistor in resistors: sum_r += resistor if resistor < 0: __lowerCAmelCase = f"Resistor at index {index} has a negative value!" raise ValueError(_UpperCamelCase ) index += 1 return sum_r if __name__ == "__main__": import doctest doctest.testmod()	57	"""simple docstring""" import argparse import torch from torch import nn from transformers import MBartConfig, MBartForConditionalGeneration def snake_case_ ( A_ : Any ): '''simple docstring''' _lowerCamelCase : Any = [ '''encoder.version''', '''decoder.version''', '''model.encoder.version''', '''model.decoder.version''', '''_float_tensor''', '''decoder.output_projection.weight''', ] for k in ignore_keys: state_dict.pop(A_, A_ ) def snake_case_ ( A_ : Union[str, Any] ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : Tuple = emb.weight.shape _lowerCamelCase : Dict = nn.Linear(A_, A_, bias=A_ ) _lowerCamelCase : str = emb.weight.data return lin_layer def snake_case_ ( A_ : str, A_ : Optional[int]="facebook/mbart-large-en-ro", A_ : Union[str, Any]=False, A_ : List[str]=False ): '''simple docstring''' _lowerCamelCase : Tuple = torch.load(A_, map_location='''cpu''' )['''model'''] remove_ignore_keys_(A_ ) _lowerCamelCase : int = state_dict['''encoder.embed_tokens.weight'''].shape[0] _lowerCamelCase : Any = MBartConfig.from_pretrained(A_, vocab_size=A_ ) if mbart_aa and finetuned: _lowerCamelCase : Any = '''relu''' _lowerCamelCase : Optional[int] = state_dict['''decoder.embed_tokens.weight'''] _lowerCamelCase : Any = MBartForConditionalGeneration(A_ ) model.model.load_state_dict(A_ ) if finetuned: _lowerCamelCase : str = make_linear_from_emb(model.model.shared ) return model if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''fairseq_path''', type=str, help='''bart.large, bart.large.cnn or a path to a model.pt on local filesystem.''' ) parser.add_argument('''pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model.''') parser.add_argument( '''--hf_config''', default='''facebook/mbart-large-cc25''', type=str, help='''Which huggingface architecture to use: mbart-large''', ) parser.add_argument('''--mbart_50''', action='''store_true''', help='''whether the model is mMART-50 checkpoint''') parser.add_argument('''--finetuned''', action='''store_true''', help='''whether the model is a fine-tuned checkpoint''') lowerCAmelCase__ = parser.parse_args() lowerCAmelCase__ = convert_fairseq_mbart_checkpoint_from_disk( args.fairseq_path, hf_config_path=args.hf_config, finetuned=args.finetuned, mbart_aa=args.mbart_aa ) model.save_pretrained(args.pytorch_dump_folder_path)	72
'''simple docstring''' from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_tf_available, is_torch_available, ) lowercase_ = {"""configuration_unispeech""": ["""UNISPEECH_PRETRAINED_CONFIG_ARCHIVE_MAP""", """UniSpeechConfig"""]} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowercase_ = [ """UNISPEECH_PRETRAINED_MODEL_ARCHIVE_LIST""", """UniSpeechForCTC""", """UniSpeechForPreTraining""", """UniSpeechForSequenceClassification""", """UniSpeechModel""", """UniSpeechPreTrainedModel""", ] if TYPE_CHECKING: from .configuration_unispeech import UNISPEECH_PRETRAINED_CONFIG_ARCHIVE_MAP, UniSpeechConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_unispeech import ( UNISPEECH_PRETRAINED_MODEL_ARCHIVE_LIST, UniSpeechForCTC, UniSpeechForPreTraining, UniSpeechForSequenceClassification, UniSpeechModel, UniSpeechPreTrainedModel, ) else: import sys lowercase_ = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)	58	"""simple docstring""" def snake_case_ ( A_ : list[list] ): '''simple docstring''' _lowerCamelCase : Optional[int] = current_set.copy() for row_index, row in enumerate(A_ ): _lowerCamelCase : Tuple = row[0] for column_index, column in enumerate(A_ ): if magnitude == 0: _lowerCamelCase : List[Any] = column continue _lowerCamelCase : List[Any] = column / magnitude # Subtract to cancel term _lowerCamelCase : Union[str, Any] = current_set[0] _lowerCamelCase : Dict = [first_row] _lowerCamelCase : str = current_set[1::] for row in current_set: _lowerCamelCase : Union[str, Any] = [] # If first term is 0, it is already in form we want, so we preserve it if row[0] == 0: final_set.append(A_ ) continue for column_index in range(len(A_ ) ): temp_row.append(first_row[column_index] - row[column_index] ) final_set.append(A_ ) # Create next recursion iteration set if len(final_set[0] ) != 3: _lowerCamelCase : Any = final_set[0] _lowerCamelCase : Any = [] _lowerCamelCase : Optional[int] = [] for row in final_set[1::]: current_first_column.append(row[0] ) next_iteration.append(row[1::] ) _lowerCamelCase : Dict = simplify(A_ ) for i in range(len(A_ ) ): resultant[i].insert(0, current_first_column[i] ) resultant.insert(0, A_ ) _lowerCamelCase : Tuple = resultant return final_set def snake_case_ ( A_ : list[list] ): '''simple docstring''' if len(A_ ) == 0: raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) _lowerCamelCase : Dict = len(A_ ) + 1 if any(len(A_ ) != _length for item in equations ): raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) for row in equations: if any(not isinstance(A_, (int, float) ) for column in row ): raise ValueError('''solve_simultaneous() requires lists of integers''' ) if len(A_ ) == 1: return [equations[0][-1] / equations[0][0]] _lowerCamelCase : Optional[Any] = equations.copy() if any(0 in row for row in data_set ): _lowerCamelCase : str = data_set.copy() _lowerCamelCase : List[Any] = [] for row_index, row in enumerate(A_ ): if 0 not in row: _lowerCamelCase : Union[str, Any] = data_set.pop(A_ ) break if not full_row: raise ValueError('''solve_simultaneous() requires at least 1 full equation''' ) data_set.insert(0, A_ ) _lowerCamelCase : List[str] = data_set.copy() _lowerCamelCase : int = simplify(A_ ) _lowerCamelCase : int = simplified[::-1] _lowerCamelCase : list = [] for row in simplified: _lowerCamelCase : Tuple = row[-1] if not solutions: if row[-2] == 0: solutions.append(0 ) continue solutions.append(current_solution / row[-2] ) continue _lowerCamelCase : Optional[Any] = row.copy()[: len(A_ ) - 1 :] while temp_row[0] == 0: temp_row.pop(0 ) if len(A_ ) == 0: solutions.append(0 ) continue _lowerCamelCase : Tuple = temp_row[1::] _lowerCamelCase : Tuple = temp_row[::-1] for column_index, column in enumerate(A_ ): current_solution -= column * solutions[column_index] solutions.append(A_ ) _lowerCamelCase : Optional[int] = [] for item in solutions: final.append(float(round(A_, 5 ) ) ) return final[::-1] if __name__ == "__main__": import doctest doctest.testmod() lowerCAmelCase__ = [ [2, 1, 1, 1, 1, 4], [1, 2, 1, 1, 1, 5], [1, 1, 2, 1, 1, 6], [1, 1, 1, 2, 1, 7], [1, 1, 1, 1, 2, 8], ] print(solve_simultaneous(eq)) print(solve_simultaneous([[4, 2]]))	72
import argparse import re from typing import Dict import torch from datasets import Audio, Dataset, load_dataset, load_metric from transformers import AutoFeatureExtractor, pipeline def UpperCamelCase ( __lowerCamelCase : Dataset , __lowerCamelCase : Dict[str, str] ): snake_case : int = args.log_outputs snake_case : Dict = "_".join(args.dataset.split("/" ) + [args.config, args.split] ) # load metric snake_case : List[str] = load_metric("wer" ) snake_case : Tuple = load_metric("cer" ) # compute metrics snake_case : List[Any] = wer.compute(references=result["target"] , predictions=result["prediction"] ) snake_case : int = cer.compute(references=result["target"] , predictions=result["prediction"] ) # print & log results snake_case : int = f"""WER: {wer_result}\nCER: {cer_result}""" print(__lowerCamelCase ) with open(f"""{dataset_id}_eval_results.txt""" , "w" ) as f: f.write(__lowerCamelCase ) # log all results in text file. Possibly interesting for analysis if log_outputs is not None: snake_case : int = f"""log_{dataset_id}_predictions.txt""" snake_case : List[Any] = f"""log_{dataset_id}_targets.txt""" with open(__lowerCamelCase , "w" ) as p, open(__lowerCamelCase , "w" ) as t: # mapping function to write output def write_to_file(__lowerCamelCase : str , __lowerCamelCase : Optional[int] ): p.write(f"""{i}""" + "\n" ) p.write(batch["prediction"] + "\n" ) t.write(f"""{i}""" + "\n" ) t.write(batch["target"] + "\n" ) result.map(__lowerCamelCase , with_indices=__lowerCamelCase ) def UpperCamelCase ( __lowerCamelCase : str ): snake_case : List[Any] = "[,?.!\-\;\:\"“%‘”�—’…–]" # noqa: W605 IMPORTANT: this should correspond to the chars that were ignored during training snake_case : List[Any] = re.sub(__lowerCamelCase , "" , text.lower() ) # In addition, we can normalize the target text, e.g. removing new lines characters etc... # note that order is important here! snake_case : Optional[Any] = ["\n\n", "\n", " ", " "] for t in token_sequences_to_ignore: snake_case : Dict = " ".join(text.split(__lowerCamelCase ) ) return text def UpperCamelCase ( __lowerCamelCase : int ): # load dataset snake_case : str = load_dataset(args.dataset , args.config , split=args.split , use_auth_token=__lowerCamelCase ) # for testing: only process the first two examples as a test # dataset = dataset.select(range(10)) # load processor snake_case : List[Any] = AutoFeatureExtractor.from_pretrained(args.model_id ) snake_case : Union[str, Any] = feature_extractor.sampling_rate # resample audio snake_case : Union[str, Any] = dataset.cast_column("audio" , Audio(sampling_rate=__lowerCamelCase ) ) # load eval pipeline if args.device is None: snake_case : List[str] = 0 if torch.cuda.is_available() else -1 snake_case : str = pipeline("automatic-speech-recognition" , model=args.model_id , device=args.device ) # map function to decode audio def map_to_pred(__lowerCamelCase : int ): snake_case : Dict = asr( batch["audio"]["array"] , chunk_length_s=args.chunk_length_s , stride_length_s=args.stride_length_s ) snake_case : str = prediction["text"] snake_case : Tuple = normalize_text(batch["sentence"] ) return batch # run inference on all examples snake_case : Dict = dataset.map(__lowerCamelCase , remove_columns=dataset.column_names ) # compute and log_results # do not change function below log_results(__lowerCamelCase , __lowerCamelCase ) if __name__ == "__main__": __lowerCamelCase = argparse.ArgumentParser() parser.add_argument( """--model_id""", type=str, required=True, help="""Model identifier. Should be loadable with 🤗 Transformers""" ) parser.add_argument( """--dataset""", type=str, required=True, help="""Dataset name to evaluate the `model_id`. Should be loadable with 🤗 Datasets""", ) parser.add_argument( """--config""", type=str, required=True, help="""Config of the dataset. E.g. `'en'` for Common Voice""" ) parser.add_argument("""--split""", type=str, required=True, help="""Split of the dataset. E.g. `'test'`""") parser.add_argument( """--chunk_length_s""", type=float, default=None, help="""Chunk length in seconds. Defaults to 5 seconds.""" ) parser.add_argument( """--stride_length_s""", type=float, default=None, help="""Stride of the audio chunks. Defaults to 1 second.""" ) parser.add_argument( """--log_outputs""", action="""store_true""", help="""If defined, write outputs to log file for analysis.""" ) parser.add_argument( """--device""", type=int, default=None, help="""The device to run the pipeline on. -1 for CPU (default), 0 for the first GPU and so on.""", ) __lowerCamelCase = parser.parse_args() main(args)	59	"""simple docstring""" import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class __snake_case ( _lowercase): snake_case__ : List[Any] = "Speech2TextFeatureExtractor" snake_case__ : Union[str, Any] = "Speech2TextTokenizer" def __init__( self : int , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" super().__init__(__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : str = False def __call__( self : List[Any] , __lowerCAmelCase : int , __lowerCAmelCase : List[str] ): """simple docstring""" if self._in_target_context_manager: return self.current_processor(__lowerCAmelCase , *__lowerCAmelCase ) if "raw_speech" in kwargs: warnings.warn('''Using `raw_speech` as a keyword argument is deprecated. Use `audio` instead.''' ) _lowerCamelCase : str = kwargs.pop('''raw_speech''' ) else: _lowerCamelCase : Tuple = kwargs.pop('''audio''' , __lowerCAmelCase ) _lowerCamelCase : Optional[Any] = kwargs.pop('''sampling_rate''' , __lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = kwargs.pop('''text''' , __lowerCAmelCase ) if len(__lowerCAmelCase ) > 0: _lowerCamelCase : List[Any] = args[0] _lowerCamelCase : int = args[1:] if audio is None and text is None: raise ValueError('''You need to specify either an `audio` or `text` input to process.''' ) if audio is not None: _lowerCamelCase : List[Any] = self.feature_extractor(__lowerCAmelCase , __lowerCAmelCase , sampling_rate=__lowerCAmelCase , __lowerCAmelCase ) if text is not None: _lowerCamelCase : List[Any] = self.tokenizer(__lowerCAmelCase , __lowerCAmelCase ) if text is None: return inputs elif audio is None: return encodings else: _lowerCamelCase : List[str] = encodings['''input_ids'''] return inputs def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : List[Any] , __lowerCAmelCase : Tuple ): """simple docstring""" return self.tokenizer.batch_decode(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : List[str] , *__lowerCAmelCase : int ): """simple docstring""" return self.tokenizer.decode(__lowerCAmelCase , **__lowerCAmelCase ) @contextmanager def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" warnings.warn( '''`as_target_processor` is deprecated and will be removed in v5 of Transformers. You can process your ''' '''labels by using the argument `text` of the regular `__call__` method (either in the same call as ''' '''your audio inputs, or in a separate call.''' ) _lowerCamelCase : Union[str, Any] = True _lowerCamelCase : Any = self.tokenizer yield _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : Tuple = False	72
"""simple docstring""" import gc import unittest from diffusers import FlaxDPMSolverMultistepScheduler, FlaxStableDiffusionPipeline from diffusers.utils import is_flax_available, slow from diffusers.utils.testing_utils import require_flax if is_flax_available(): import jax import jax.numpy as jnp from flax.jax_utils import replicate from flax.training.common_utils import shard @slow @require_flax class snake_case_( unittest.TestCase ): def lowerCamelCase__ ( self : int ): # clean up the VRAM after each test super().tearDown() gc.collect() def lowerCamelCase__ ( self : Optional[Any] ): lowerCAmelCase, lowerCAmelCase : Optional[int] = FlaxStableDiffusionPipeline.from_pretrained( '''stabilityai/stable-diffusion-2''' , revision='''bf16''' , dtype=jnp.bfloataa , ) lowerCAmelCase : Optional[int] = '''A painting of a squirrel eating a burger''' lowerCAmelCase : List[str] = jax.device_count() lowerCAmelCase : Optional[int] = num_samples * [prompt] lowerCAmelCase : Any = sd_pipe.prepare_inputs(UpperCamelCase_ ) lowerCAmelCase : Optional[int] = replicate(UpperCamelCase_ ) lowerCAmelCase : Union[str, Any] = shard(UpperCamelCase_ ) lowerCAmelCase : Optional[int] = jax.random.PRNGKey(0 ) lowerCAmelCase : Optional[Any] = jax.random.split(UpperCamelCase_ , jax.device_count() ) lowerCAmelCase : str = sd_pipe(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , num_inference_steps=2_5 , jit=UpperCamelCase_ )[0] assert images.shape == (jax.device_count(), 1, 7_6_8, 7_6_8, 3) lowerCAmelCase : str = images.reshape((images.shape[0] * images.shape[1],) + images.shape[-3:] ) lowerCAmelCase : List[str] = images[0, 2_5_3:2_5_6, 2_5_3:2_5_6, -1] lowerCAmelCase : Dict = jnp.asarray(jax.device_get(image_slice.flatten() ) ) lowerCAmelCase : List[str] = jnp.array([0.4_238, 0.4_414, 0.4_395, 0.4_453, 0.4_629, 0.4_590, 0.4_531, 0.45_508, 0.4_512] ) print(F'''output_slice: {output_slice}''' ) assert jnp.abs(output_slice - expected_slice ).max() < 1E-2 def lowerCamelCase__ ( self : Union[str, Any] ): lowerCAmelCase : Union[str, Any] = '''stabilityai/stable-diffusion-2''' lowerCAmelCase, lowerCAmelCase : Dict = FlaxDPMSolverMultistepScheduler.from_pretrained(UpperCamelCase_ , subfolder='''scheduler''' ) lowerCAmelCase, lowerCAmelCase : int = FlaxStableDiffusionPipeline.from_pretrained( UpperCamelCase_ , scheduler=UpperCamelCase_ , revision='''bf16''' , dtype=jnp.bfloataa , ) lowerCAmelCase : List[Any] = scheduler_params lowerCAmelCase : List[Any] = '''A painting of a squirrel eating a burger''' lowerCAmelCase : Any = jax.device_count() lowerCAmelCase : int = num_samples * [prompt] lowerCAmelCase : int = sd_pipe.prepare_inputs(UpperCamelCase_ ) lowerCAmelCase : Dict = replicate(UpperCamelCase_ ) lowerCAmelCase : Tuple = shard(UpperCamelCase_ ) lowerCAmelCase : int = jax.random.PRNGKey(0 ) lowerCAmelCase : Optional[int] = jax.random.split(UpperCamelCase_ , jax.device_count() ) lowerCAmelCase : Tuple = sd_pipe(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , num_inference_steps=2_5 , jit=UpperCamelCase_ )[0] assert images.shape == (jax.device_count(), 1, 7_6_8, 7_6_8, 3) lowerCAmelCase : Any = images.reshape((images.shape[0] * images.shape[1],) + images.shape[-3:] ) lowerCAmelCase : str = images[0, 2_5_3:2_5_6, 2_5_3:2_5_6, -1] lowerCAmelCase : Optional[int] = jnp.asarray(jax.device_get(image_slice.flatten() ) ) lowerCAmelCase : Tuple = jnp.array([0.4_336, 0.42_969, 0.4_453, 0.4_199, 0.4_297, 0.4_531, 0.4_434, 0.4_434, 0.4_297] ) print(F'''output_slice: {output_slice}''' ) assert jnp.abs(output_slice - expected_slice ).max() < 1E-2	60	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = {'''configuration_reformer''': ['''REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ReformerConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ReformerAttention''', '''ReformerForMaskedLM''', '''ReformerForQuestionAnswering''', '''ReformerForSequenceClassification''', '''ReformerLayer''', '''ReformerModel''', '''ReformerModelWithLMHead''', '''ReformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_reformer import REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, ReformerConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer import ReformerTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer_fast import ReformerTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_reformer import ( REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, ReformerAttention, ReformerForMaskedLM, ReformerForQuestionAnswering, ReformerForSequenceClassification, ReformerLayer, ReformerModel, ReformerModelWithLMHead, ReformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
"""simple docstring""" from collections import OrderedDict from typing import Mapping from packaging import version from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...utils import logging _a = logging.get_logger(__name__) _a = { 'hustvl/yolos-small': 'https://huggingface.co/hustvl/yolos-small/resolve/main/config.json', # See all YOLOS models at https://huggingface.co/models?filter=yolos } class A_ (lowercase__ ): '''simple docstring''' SCREAMING_SNAKE_CASE__ : Optional[Any] = """yolos""" def __init__( self , lowercase_=768 , lowercase_=12 , lowercase_=12 , lowercase_=3072 , lowercase_="gelu" , lowercase_=0.0 , lowercase_=0.0 , lowercase_=0.02 , lowercase_=1E-1_2 , lowercase_=[512, 864] , lowercase_=16 , lowercase_=3 , lowercase_=True , lowercase_=100 , lowercase_=True , lowercase_=False , lowercase_=1 , lowercase_=5 , lowercase_=2 , lowercase_=5 , lowercase_=2 , lowercase_=0.1 , lowercase_ , ): """simple docstring""" super().__init__(lowercase_ ) UpperCAmelCase_ : List[Any] = hidden_size UpperCAmelCase_ : int = num_hidden_layers UpperCAmelCase_ : Union[str, Any] = num_attention_heads UpperCAmelCase_ : List[str] = intermediate_size UpperCAmelCase_ : List[str] = hidden_act UpperCAmelCase_ : Any = hidden_dropout_prob UpperCAmelCase_ : Union[str, Any] = attention_probs_dropout_prob UpperCAmelCase_ : Union[str, Any] = initializer_range UpperCAmelCase_ : List[str] = layer_norm_eps UpperCAmelCase_ : Tuple = image_size UpperCAmelCase_ : List[str] = patch_size UpperCAmelCase_ : List[str] = num_channels UpperCAmelCase_ : str = qkv_bias UpperCAmelCase_ : Any = num_detection_tokens UpperCAmelCase_ : Optional[int] = use_mid_position_embeddings UpperCAmelCase_ : Union[str, Any] = auxiliary_loss # Hungarian matcher UpperCAmelCase_ : int = class_cost UpperCAmelCase_ : Dict = bbox_cost UpperCAmelCase_ : int = giou_cost # Loss coefficients UpperCAmelCase_ : Dict = bbox_loss_coefficient UpperCAmelCase_ : List[str] = giou_loss_coefficient UpperCAmelCase_ : int = eos_coefficient class A_ (lowercase__ ): '''simple docstring''' SCREAMING_SNAKE_CASE__ : Union[str, Any] = version.parse("""1.11""" ) @property def UpperCamelCase__ ( self ): """simple docstring""" return OrderedDict( [ ("pixel_values", {0: "batch", 1: "num_channels", 2: "height", 3: "width"}), ] ) @property def UpperCamelCase__ ( self ): """simple docstring""" return 1E-4 @property def UpperCamelCase__ ( self ): """simple docstring""" return 12	61	"""simple docstring""" from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available lowerCAmelCase__ = { '''configuration_autoformer''': [ '''AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''AutoformerConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''AutoformerForPrediction''', '''AutoformerModel''', '''AutoformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_autoformer import ( AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, AutoformerConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_autoformer import ( AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, AutoformerForPrediction, AutoformerModel, AutoformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available _A = { 'configuration_informer': [ 'INFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP', 'InformerConfig', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _A = [ 'INFORMER_PRETRAINED_MODEL_ARCHIVE_LIST', 'InformerForPrediction', 'InformerModel', 'InformerPreTrainedModel', ] if TYPE_CHECKING: from .configuration_informer import INFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, InformerConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_informer import ( INFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, InformerForPrediction, InformerModel, InformerPreTrainedModel, ) else: import sys _A = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)	62	"""simple docstring""" import math def snake_case_ ( A_ : int ): '''simple docstring''' if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5, int(math.sqrt(A_ ) + 1 ), 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def snake_case_ ( A_ : float = 0.1 ): '''simple docstring''' _lowerCamelCase : Optional[int] = 3 _lowerCamelCase : List[str] = 3 while primes / (2 * j - 1) >= ratio: for i in range(j * j + j + 1, (j + 2) * (j + 2), j + 1 ): primes += is_prime(A_ ) j += 2 return j if __name__ == "__main__": import doctest doctest.testmod()	72
'''simple docstring''' import math from collections.abc import Iterator from itertools import takewhile def _lowerCamelCase ( lowercase : int ) -> bool: if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5 , int(math.sqrt(lowercase ) + 1 ) , 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def _lowerCamelCase ( ) -> Iterator[int]: _a = 2 while True: if is_prime(lowercase ): yield num num += 1 def _lowerCamelCase ( lowercase : int = 200_0000 ) -> int: return sum(takewhile(lambda lowercase : x < n , prime_generator() ) ) if __name__ == "__main__": print(f"""{solution() = }""")	63	"""simple docstring""" import unittest from queue import Empty from threading import Thread from transformers import AutoTokenizer, TextIteratorStreamer, TextStreamer, is_torch_available from transformers.testing_utils import CaptureStdout, require_torch, torch_device from ..test_modeling_common import ids_tensor if is_torch_available(): import torch from transformers import AutoModelForCausalLM @require_torch class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Optional[Any] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Union[str, Any] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = tokenizer.decode(greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Union[str, Any] = TextStreamer(__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : int = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Optional[int] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : List[str] = tokenizer.decode(greedy_ids[0] ) _lowerCamelCase : Tuple = TextIteratorStreamer(__lowerCAmelCase ) _lowerCamelCase : Tuple = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() _lowerCamelCase : int = '''''' for new_text in streamer: streamer_text += new_text self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Dict = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : str = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : Optional[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : int = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = greedy_ids[:, input_ids.shape[1] :] _lowerCamelCase : int = tokenizer.decode(new_greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Any = TextStreamer(__lowerCAmelCase , skip_prompt=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : Union[str, Any] = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''distilgpt2''' ) _lowerCamelCase : Optional[Any] = AutoModelForCausalLM.from_pretrained('''distilgpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = -1 _lowerCamelCase : Any = torch.ones((1, 5) , device=__lowerCAmelCase ).long() * model.config.bos_token_id with CaptureStdout() as cs: _lowerCamelCase : List[Any] = TextStreamer(__lowerCAmelCase , skip_special_tokens=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The prompt contains a special token, so the streamer should not print it. As such, the output text, when # re-tokenized, must only contain one token _lowerCamelCase : Any = cs.out[:-1] # Remove the final "\n" _lowerCamelCase : int = tokenizer(__lowerCAmelCase , return_tensors='''pt''' ) self.assertEqual(streamer_text_tokenized.input_ids.shape , (1, 1) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : List[str] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Dict = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = -1 _lowerCamelCase : Any = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = TextIteratorStreamer(__lowerCAmelCase , timeout=0.0_01 ) _lowerCamelCase : str = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() # The streamer will timeout after 0.001 seconds, so an exception will be raised with self.assertRaises(__lowerCAmelCase ): _lowerCamelCase : Optional[Any] = '''''' for new_text in streamer: streamer_text += new_text	72
"""simple docstring""" import warnings from typing import Any, Dict, List, Optional, Union import numpy as np from ...audio_utils import mel_filter_bank, optimal_fft_length, spectrogram, window_function from ...feature_extraction_sequence_utils import SequenceFeatureExtractor from ...feature_extraction_utils import BatchFeature from ...utils import PaddingStrategy, TensorType, logging A_ = logging.get_logger(__name__) class lowercase( __a ): '''simple docstring''' lowercase__ = ["input_values", "attention_mask"] def __init__( self: Union[str, Any], a_: int = 1, a_: int = 16_000, a_: float = 0.0, a_: bool = False, a_: int = 80, a_: int = 16, a_: int = 64, a_: str = "hann_window", a_: float = 1.0, a_: float = 80, a_: float = 7_600, a_: float = 1E-10, a_: int = 2, a_: bool = True, a_: Optional[Any], ): '''simple docstring''' super().__init__(feature_size=a_, sampling_rate=a_, padding_value=a_, a_ ) _snake_case : Any = do_normalize _snake_case : Optional[int] = return_attention_mask _snake_case : Optional[Any] = num_mel_bins _snake_case : Optional[Any] = hop_length _snake_case : List[Any] = win_length _snake_case : int = win_function _snake_case : Dict = frame_signal_scale _snake_case : Union[str, Any] = fmin _snake_case : Union[str, Any] = fmax _snake_case : Optional[Any] = mel_floor _snake_case : Optional[int] = reduction_factor _snake_case : List[str] = win_length * sampling_rate // 1_000 _snake_case : str = hop_length * sampling_rate // 1_000 _snake_case : Optional[int] = optimal_fft_length(self.sample_size ) _snake_case : List[str] = (self.n_fft // 2) + 1 _snake_case : int = window_function(window_length=self.sample_size, name=self.win_function, periodic=a_ ) _snake_case : Optional[Any] = mel_filter_bank( num_frequency_bins=self.n_freqs, num_mel_filters=self.num_mel_bins, min_frequency=self.fmin, max_frequency=self.fmax, sampling_rate=self.sampling_rate, norm="""slaney""", mel_scale="""slaney""", ) if frame_signal_scale != 1.0: warnings.warn( """The argument `frame_signal_scale` is deprecated and will be removed in version 4.30.0 of Transformers""", a_, ) if reduction_factor != 2.0: warnings.warn( """The argument `reduction_factor` is deprecated and will be removed in version 4.30.0 of Transformers""", a_, ) @staticmethod # Copied from transformers.models.wav2vec2.feature_extraction_wav2vec2.Wav2Vec2FeatureExtractor.zero_mean_unit_var_norm def UpperCamelCase_ ( a_: List[np.ndarray], a_: List[np.ndarray], a_: float = 0.0 ): '''simple docstring''' if attention_mask is not None: _snake_case : Union[str, Any] = np.array(a_, np.intaa ) _snake_case : Optional[int] = [] for vector, length in zip(a_, attention_mask.sum(-1 ) ): _snake_case : str = (vector - vector[:length].mean()) / np.sqrt(vector[:length].var() + 1E-7 ) if length < normed_slice.shape[0]: _snake_case : Union[str, Any] = padding_value normed_input_values.append(a_ ) else: _snake_case : List[str] = [(x - x.mean()) / np.sqrt(x.var() + 1E-7 ) for x in input_values] return normed_input_values def UpperCamelCase_ ( self: str, a_: np.ndarray, ): '''simple docstring''' _snake_case : Tuple = spectrogram( a_, window=self.window, frame_length=self.sample_size, hop_length=self.sample_stride, fft_length=self.n_fft, mel_filters=self.mel_filters, mel_floor=self.mel_floor, log_mel="""log10""", ) return log_mel_spec.T def __call__( self: Tuple, a_: Optional[Union[np.ndarray, List[float], List[np.ndarray], List[List[float]]]] = None, a_: Optional[Union[np.ndarray, List[float], List[np.ndarray], List[List[float]]]] = None, a_: Union[bool, str, PaddingStrategy] = False, a_: Optional[int] = None, a_: bool = False, a_: Optional[int] = None, a_: Optional[bool] = None, a_: Optional[Union[str, TensorType]] = None, a_: Optional[int] = None, a_: Any, ): '''simple docstring''' if audio is None and audio_target is None: raise ValueError("""You must provide either `audio` or `audio_target` values.""" ) if sampling_rate is not None: if sampling_rate != self.sampling_rate: raise ValueError( f"The model corresponding to this feature extractor: {self} was trained using a sampling rate of" f" {self.sampling_rate}. Please make sure that the provided audio input was sampled with" f" {self.sampling_rate} and not {sampling_rate}." ) else: logger.warning( """It is strongly recommended to pass the ``sampling_rate`` argument to this function. """ """Failing to do so can result in silent errors that might be hard to debug.""" ) if audio is not None: _snake_case : Optional[Any] = self._process_audio( a_, a_, a_, a_, a_, a_, a_, a_, a_, ) else: _snake_case : Optional[int] = None if audio_target is not None: _snake_case : List[Any] = self._process_audio( a_, a_, a_, a_, a_, a_, a_, a_, a_, ) if inputs is None: return inputs_target else: _snake_case : Tuple = inputs_target["""input_values"""] _snake_case : Any = inputs_target.get("""attention_mask""" ) if decoder_attention_mask is not None: _snake_case : Optional[Any] = decoder_attention_mask return inputs def UpperCamelCase_ ( self: Dict, a_: Union[np.ndarray, List[float], List[np.ndarray], List[List[float]]], a_: bool = False, a_: Union[bool, str, PaddingStrategy] = False, a_: Optional[int] = None, a_: bool = False, a_: Optional[int] = None, a_: Optional[bool] = None, a_: Optional[Union[str, TensorType]] = None, a_: List[str], ): '''simple docstring''' _snake_case : Any = isinstance(a_, np.ndarray ) and len(speech.shape ) > 1 if is_batched_numpy and len(speech.shape ) > 2: raise ValueError(f"Only mono-channel audio is supported for input to {self}" ) _snake_case : Optional[int] = is_batched_numpy or ( isinstance(a_, (list, tuple) ) and (isinstance(speech[0], (np.ndarray, tuple, list) )) ) if is_batched: _snake_case : Tuple = [np.asarray(a_, dtype=np.floataa ) for speech in speech] elif not is_batched and not isinstance(a_, np.ndarray ): _snake_case : Union[str, Any] = np.asarray(a_, dtype=np.floataa ) elif isinstance(a_, np.ndarray ) and speech.dtype is np.dtype(np.floataa ): _snake_case : Union[str, Any] = speech.astype(np.floataa ) # always return batch if not is_batched: _snake_case : Optional[int] = [speech] # needed to make pad() work on spectrogram inputs _snake_case : Any = self.feature_size # convert into correct format for padding if is_target: _snake_case : str = [self._extract_mel_features(a_ ) for waveform in speech] _snake_case : Dict = BatchFeature({"""input_values""": features} ) _snake_case : Tuple = self.num_mel_bins else: _snake_case : Tuple = BatchFeature({"""input_values""": speech} ) _snake_case : Union[str, Any] = self.pad( a_, padding=a_, max_length=a_, truncation=a_, pad_to_multiple_of=a_, return_attention_mask=a_, **a_, ) _snake_case : int = feature_size_hack # convert input values to correct format _snake_case : List[str] = padded_inputs["""input_values"""] if not isinstance(input_values[0], np.ndarray ): _snake_case : Optional[Any] = [np.asarray(a_, dtype=np.floataa ) for array in input_values] elif ( not isinstance(a_, np.ndarray ) and isinstance(input_values[0], np.ndarray ) and input_values[0].dtype is np.dtype(np.floataa ) ): _snake_case : str = [array.astype(np.floataa ) for array in input_values] elif isinstance(a_, np.ndarray ) and input_values.dtype is np.dtype(np.floataa ): _snake_case : Optional[Any] = input_values.astype(np.floataa ) # convert attention_mask to correct format _snake_case : Optional[Any] = padded_inputs.get("""attention_mask""" ) if attention_mask is not None: _snake_case : Dict = [np.asarray(a_, dtype=np.intaa ) for array in attention_mask] # zero-mean and unit-variance normalization if not is_target and self.do_normalize: _snake_case : str = ( attention_mask if self._get_padding_strategies(a_, max_length=a_ ) is not PaddingStrategy.DO_NOT_PAD else None ) _snake_case : List[str] = self.zero_mean_unit_var_norm( padded_inputs["""input_values"""], attention_mask=a_, padding_value=self.padding_value ) if return_tensors is not None: _snake_case : Union[str, Any] = padded_inputs.convert_to_tensors(a_ ) return padded_inputs def UpperCamelCase_ ( self: Dict ): '''simple docstring''' _snake_case : List[Any] = super().to_dict() # Don't serialize these as they are derived from the other properties. _snake_case : List[str] = ["""window""", """mel_filters""", """sample_size""", """sample_stride""", """n_fft""", """n_freqs"""] for name in names: if name in output: del output[name] return output	64	"""simple docstring""" from ....configuration_utils import PretrainedConfig from ....utils import logging lowerCAmelCase__ = logging.get_logger(__name__) # TODO: upload to AWS lowerCAmelCase__ = { '''yjernite/retribert-base-uncased''': ( '''https://huggingface.co/yjernite/retribert-base-uncased/resolve/main/config.json''' ), } class __snake_case ( _lowercase): snake_case__ : int = "retribert" def __init__( self : Optional[int] , __lowerCAmelCase : str=3_0_5_2_2 , __lowerCAmelCase : Tuple=7_6_8 , __lowerCAmelCase : Union[str, Any]=8 , __lowerCAmelCase : Any=1_2 , __lowerCAmelCase : Optional[int]=3_0_7_2 , __lowerCAmelCase : List[str]="gelu" , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=5_1_2 , __lowerCAmelCase : List[str]=2 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Optional[Any]=1E-12 , __lowerCAmelCase : Tuple=True , __lowerCAmelCase : Any=1_2_8 , __lowerCAmelCase : Optional[int]=0 , __lowerCAmelCase : str , ): """simple docstring""" super().__init__(pad_token_id=__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = vocab_size _lowerCamelCase : Union[str, Any] = hidden_size _lowerCamelCase : Dict = num_hidden_layers _lowerCamelCase : int = num_attention_heads _lowerCamelCase : int = hidden_act _lowerCamelCase : str = intermediate_size _lowerCamelCase : Union[str, Any] = hidden_dropout_prob _lowerCamelCase : List[Any] = attention_probs_dropout_prob _lowerCamelCase : Optional[int] = max_position_embeddings _lowerCamelCase : List[Any] = type_vocab_size _lowerCamelCase : Any = initializer_range _lowerCamelCase : Optional[int] = layer_norm_eps _lowerCamelCase : int = share_encoders _lowerCamelCase : Optional[Any] = projection_dim	72
from collections.abc import Callable import numpy as np def lowerCAmelCase_ ( __A, __A, __A, __A, __A ) -> np.array: '''simple docstring''' UpperCAmelCase__ = int(np.ceil((x_end - xa) / step_size ) ) UpperCAmelCase__ = np.zeros((n + 1,) ) UpperCAmelCase__ = ya UpperCAmelCase__ = xa for k in range(__A ): UpperCAmelCase__ = y[k] + step_size * ode_func(__A, y[k] ) UpperCAmelCase__ = y[k] + ( (step_size / 2) * (ode_func(__A, y[k] ) + ode_func(x + step_size, __A )) ) x += step_size return y if __name__ == "__main__": import doctest doctest.testmod()	65	"""simple docstring""" import unittest from diffusers.pipelines.pipeline_utils import is_safetensors_compatible class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : Optional[int] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', # Removed: 'unet/diffusion_pytorch_model.safetensors', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', # Removed: 'text_encoder/model.safetensors', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Optional[int] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" _lowerCamelCase : str = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] _lowerCamelCase : Optional[Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : Tuple = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', # Removed: 'unet/diffusion_pytorch_model.fp16.safetensors', ] _lowerCamelCase : Any = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', ] _lowerCamelCase : str = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', # 'text_encoder/model.fp16.safetensors', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : int = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) )	72
"""simple docstring""" import argparse import json import numpy import torch from transformers.models.xlm.tokenization_xlm import VOCAB_FILES_NAMES from transformers.utils import CONFIG_NAME, WEIGHTS_NAME, logging logging.set_verbosity_info() def A_ ( _lowercase, _lowercase ): '''simple docstring''' snake_case_ :Optional[int] = torch.load(_lowercase, map_location="""cpu""" ) snake_case_ :Any = chkpt["""model"""] # We have the base model one level deeper than the original XLM repository snake_case_ :Dict = {} for k, v in state_dict.items(): if "pred_layer" in k: snake_case_ :Optional[Any] = v else: snake_case_ :List[str] = v snake_case_ :List[Any] = chkpt["""params"""] snake_case_ :str = {n: v for n, v in config.items() if not isinstance(_lowercase, (torch.FloatTensor, numpy.ndarray) )} snake_case_ :List[Any] = chkpt["""dico_word2id"""] snake_case_ :Optional[Any] = {s + """</w>""" if s.find("""@@""" ) == -1 and i > 13 else s.replace("""@@""", """""" ): i for s, i in vocab.items()} # Save pytorch-model snake_case_ :Dict = pytorch_dump_folder_path + """/""" + WEIGHTS_NAME snake_case_ :List[Any] = pytorch_dump_folder_path + """/""" + CONFIG_NAME snake_case_ :Optional[int] = pytorch_dump_folder_path + """/""" + VOCAB_FILES_NAMES["""vocab_file"""] print(f"""Save PyTorch model to {pytorch_weights_dump_path}""" ) torch.save(_lowercase, _lowercase ) print(f"""Save configuration file to {pytorch_config_dump_path}""" ) with open(_lowercase, """w""", encoding="""utf-8""" ) as f: f.write(json.dumps(_lowercase, indent=2 ) + """\n""" ) print(f"""Save vocab file to {pytorch_config_dump_path}""" ) with open(_lowercase, """w""", encoding="""utf-8""" ) as f: f.write(json.dumps(_lowercase, indent=2 ) + """\n""" ) if __name__ == "__main__": __a = argparse.ArgumentParser() # Required parameters parser.add_argument( "--xlm_checkpoint_path", default=None, type=str, required=True, help="Path the official PyTorch dump." ) parser.add_argument( "--pytorch_dump_folder_path", default=None, type=str, required=True, help="Path to the output PyTorch model." ) __a = parser.parse_args() convert_xlm_checkpoint_to_pytorch(args.xlm_checkpoint_path, args.pytorch_dump_folder_path)	66	"""simple docstring""" import inspect import unittest import numpy as np from tests.test_modeling_common import floats_tensor from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel if is_vision_available(): from transformers import MaskFormerImageProcessor if is_vision_available(): from PIL import Image class __snake_case : def __init__( self : Tuple , __lowerCAmelCase : Tuple , __lowerCAmelCase : Any=2 , __lowerCAmelCase : Any=True , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Optional[Any]=1_0 , __lowerCAmelCase : List[str]=3 , __lowerCAmelCase : int=3_2 * 4 , __lowerCAmelCase : Dict=3_2 * 6 , __lowerCAmelCase : Any=4 , __lowerCAmelCase : List[str]=3_2 , ): """simple docstring""" _lowerCamelCase : List[str] = parent _lowerCamelCase : str = batch_size _lowerCamelCase : Dict = is_training _lowerCamelCase : str = use_auxiliary_loss _lowerCamelCase : Any = num_queries _lowerCamelCase : List[Any] = num_channels _lowerCamelCase : int = min_size _lowerCamelCase : Any = max_size _lowerCamelCase : int = num_labels _lowerCamelCase : List[str] = mask_feature_size def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size] ).to( __lowerCAmelCase ) _lowerCamelCase : List[Any] = torch.ones([self.batch_size, self.min_size, self.max_size] , device=__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = ( torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=__lowerCAmelCase ) > 0.5 ).float() _lowerCamelCase : Optional[int] = (torch.rand((self.batch_size, self.num_labels) , device=__lowerCAmelCase ) > 0.5).long() _lowerCamelCase : Dict = self.get_config() return config, pixel_values, pixel_mask, mask_labels, class_labels def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" return MaskFormerConfig.from_backbone_and_decoder_configs( backbone_config=SwinConfig( depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig( decoder_ffn_dim=1_2_8 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : Dict = self.prepare_config_and_inputs() _lowerCamelCase : List[str] = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask} return config, inputs_dict def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = output.encoder_hidden_states _lowerCamelCase : Tuple = output.pixel_decoder_hidden_states _lowerCamelCase : Dict = output.transformer_decoder_hidden_states self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , config.decoder_config.decoder_layers ) def SCREAMING_SNAKE_CASE ( self : Tuple , __lowerCAmelCase : Dict , __lowerCAmelCase : str , __lowerCAmelCase : Tuple , __lowerCAmelCase : List[Any]=False ): """simple docstring""" with torch.no_grad(): _lowerCamelCase : Optional[int] = MaskFormerModel(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() _lowerCamelCase : Tuple = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) # the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the # encoder and pixel decoder self.parent.assertEqual( output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , ) # let's ensure the other two hidden state exists self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(output.encoder_last_hidden_state is not None ) if output_hidden_states: self.check_output_hidden_state(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = MaskFormerForInstanceSegmentation(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() def comm_check_on_output(__lowerCAmelCase : Dict ): # let's still check that all the required stuff is there self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.encoder_last_hidden_state is not None ) # okay, now we need to check the logits shape # due to the encoder compression, masks have a //4 spatial size self.parent.assertEqual( result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , ) # + 1 for null class self.parent.assertEqual( result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1) ) with torch.no_grad(): _lowerCamelCase : str = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) _lowerCamelCase : List[str] = model( pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) self.parent.assertTrue(result.loss is not None ) self.parent.assertEqual(result.loss.shape , torch.Size([1] ) ) @require_torch class __snake_case ( _lowercase , _lowercase , unittest.TestCase): snake_case__ : Dict = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else () snake_case__ : Any = ( {"feature-extraction": MaskFormerModel, "image-segmentation": MaskFormerForInstanceSegmentation} if is_torch_available() else {} ) snake_case__ : List[str] = False snake_case__ : List[str] = False snake_case__ : Optional[int] = False snake_case__ : Dict = False def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = MaskFormerModelTester(self ) _lowerCamelCase : Optional[Any] = ConfigTester(self , config_class=__lowerCAmelCase , has_text_modality=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Dict = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , *__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(__lowerCAmelCase ) @unittest.skip(reason='''MaskFormer does not use inputs_embeds''' ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''' ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer is not a generative model''' ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not use token embeddings''' ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" pass @require_torch_multi_gpu @unittest.skip( reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''' ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" pass @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : str = model_class(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCamelCase : Dict = [signature.parameters.keys()] _lowerCamelCase : Optional[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __lowerCAmelCase ) @slow def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" for model_name in ["facebook/maskformer-swin-small-coco"]: _lowerCamelCase : Union[str, Any] = MaskFormerModel.from_pretrained(__lowerCAmelCase ) self.assertIsNotNone(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = (self.model_tester.min_size,) 2 _lowerCamelCase : Union[str, Any] = { '''pixel_values''': torch.randn((2, 3, size) , device=__lowerCAmelCase ), '''mask_labels''': torch.randn((2, 1_0, size) , device=__lowerCAmelCase ), '''class_labels''': torch.zeros(2 , 1_0 , device=__lowerCAmelCase ).long(), } _lowerCamelCase : int = MaskFormerForInstanceSegmentation(MaskFormerConfig() ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = model(__lowerCAmelCase ) self.assertTrue(outputs.loss is not None ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : List[str] = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , __lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : List[Any] = model_class(__lowerCAmelCase ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_attentions=__lowerCAmelCase ) self.assertTrue(outputs.attentions is not None ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" if not self.model_tester.is_training: return # only MaskFormerForInstanceSegmentation has the loss _lowerCamelCase : Union[str, Any] = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : int = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : Any = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : List[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ).loss loss.backward() def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : int = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : str = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : List[str] = True _lowerCamelCase : Optional[int] = True _lowerCamelCase : Optional[Any] = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) _lowerCamelCase : List[Any] = outputs.encoder_hidden_states[0] encoder_hidden_states.retain_grad() _lowerCamelCase : Tuple = outputs.pixel_decoder_hidden_states[0] pixel_decoder_hidden_states.retain_grad() # we requires_grad=True in inputs_embeds (line 2152), the original implementation don't _lowerCamelCase : List[str] = outputs.transformer_decoder_hidden_states[0] transformer_decoder_hidden_states.retain_grad() _lowerCamelCase : Optional[int] = outputs.attentions[0] attentions.retain_grad() outputs.loss.backward(retain_graph=__lowerCAmelCase ) self.assertIsNotNone(encoder_hidden_states.grad ) self.assertIsNotNone(pixel_decoder_hidden_states.grad ) self.assertIsNotNone(transformer_decoder_hidden_states.grad ) self.assertIsNotNone(attentions.grad ) lowerCAmelCase__ = 1E-4 def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_vision @slow class __snake_case ( unittest.TestCase): @cached_property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return ( MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''' ) if is_vision_available() else None ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : str = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = self.default_image_processor _lowerCamelCase : List[Any] = prepare_img() _lowerCamelCase : Any = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : int = model(__lowerCAmelCase ) _lowerCamelCase : str = torch.tensor( [[-0.04_82, 0.92_28, 0.49_51], [-0.25_47, 0.80_17, 0.85_27], [-0.00_69, 0.33_85, -0.00_89]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.encoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Union[str, Any] = torch.tensor( [[-0.84_22, -0.84_34, -0.97_18], [-1.01_44, -0.55_65, -0.41_95], [-1.00_38, -0.44_84, -0.19_61]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Optional[int] = torch.tensor( [[0.28_52, -0.01_59, 0.97_35], [0.62_54, 0.18_58, 0.85_29], [-0.06_80, -0.41_16, 1.84_13]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.transformer_decoder_last_hidden_state[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[int] = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : str = prepare_img() _lowerCamelCase : int = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[int] = model(__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : Optional[int] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : List[str] = [ [-1.3_73_71_24, -1.7_72_49_37, -1.9_36_42_33], [-1.5_97_72_81, -1.9_86_79_39, -2.1_52_36_95], [-1.5_79_53_98, -1.9_26_98_32, -2.09_39_42], ] _lowerCamelCase : Any = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : List[Any] = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : str = torch.tensor( [ [1.6512E00, -5.2572E00, -3.3519E00], [3.6169E-02, -5.9025E00, -2.9313E00], [1.0766E-04, -7.7630E00, -5.1263E00], ] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Any = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : Tuple = self.default_image_processor _lowerCamelCase : Tuple = prepare_img() _lowerCamelCase : Optional[Any] = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : List[Any] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : int = [[-0.90_46, -2.63_66, -4.60_62], [-3.41_79, -5.78_90, -8.80_57], [-4.91_79, -7.65_60, -10.77_11]] _lowerCamelCase : List[Any] = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : Dict = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : Any = torch.tensor( [[4.71_88, -3.25_85, -2.88_57], [6.68_71, -2.91_81, -1.24_87], [7.24_49, -2.27_64, -2.18_74]] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : List[str] = image_processor( [np.zeros((3, 8_0_0, 1_3_3_3) ), np.zeros((3, 8_0_0, 1_3_3_3) )] , segmentation_maps=[np.zeros((3_8_4, 3_8_4) ).astype(np.floataa ), np.zeros((3_8_4, 3_8_4) ).astype(np.floataa )] , return_tensors='''pt''' , ) _lowerCamelCase : Union[str, Any] = inputs['''pixel_values'''].to(__lowerCAmelCase ) _lowerCamelCase : Dict = [el.to(__lowerCAmelCase ) for el in inputs['''mask_labels''']] _lowerCamelCase : Optional[Any] = [el.to(__lowerCAmelCase ) for el in inputs['''class_labels''']] with torch.no_grad(): _lowerCamelCase : Tuple = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None )	72
'''simple docstring''' import shutil import tempfile import unittest from transformers import ( SPIECE_UNDERLINE, AddedToken, BatchEncoding, NllbTokenizer, NllbTokenizerFast, is_torch_available, ) from transformers.testing_utils import ( get_tests_dir, nested_simplify, require_sentencepiece, require_tokenizers, require_torch, ) from ...test_tokenization_common import TokenizerTesterMixin __UpperCAmelCase =get_tests_dir("fixtures/test_sentencepiece.model") if is_torch_available(): from transformers.models.mam_aaa.modeling_mam_aaa import shift_tokens_right __UpperCAmelCase =2_5_6_0_4_7 __UpperCAmelCase =2_5_6_1_4_5 @require_sentencepiece @require_tokenizers class a__ ( UpperCAmelCase__ , unittest.TestCase ): lowerCamelCase : Union[str, Any] =NllbTokenizer lowerCamelCase : Optional[int] =NllbTokenizerFast lowerCamelCase : str =True lowerCamelCase : str =True lowerCamelCase : Tuple ={} def SCREAMING_SNAKE_CASE__ ( self : List[Any] ): """simple docstring""" super().setUp() # We have a SentencePiece fixture for testing __lowerCamelCase = NllbTokenizer(a , keep_accents=a ) tokenizer.save_pretrained(self.tmpdirname ) def SCREAMING_SNAKE_CASE__ ( self : Any ): """simple docstring""" __lowerCamelCase = NllbTokenizer(a , keep_accents=a ) __lowerCamelCase = tokenizer.tokenize('''This is a test''' ) self.assertListEqual(a , ['''▁This''', '''▁is''', '''▁a''', '''▁t''', '''est'''] ) self.assertListEqual( tokenizer.convert_tokens_to_ids(a ) , [value + tokenizer.fairseq_offset for value in [2_85, 46, 10, 1_70, 3_82]] , ) __lowerCamelCase = tokenizer.tokenize('''I was born in 92000, and this is falsé.''' ) self.assertListEqual( a , [ SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''9''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''é''', '''.''', ] , ) __lowerCamelCase = tokenizer.convert_tokens_to_ids(a ) self.assertListEqual( a , [ value + tokenizer.fairseq_offset for value in [8, 21, 84, 55, 24, 19, 7, 2, 6_02, 3_47, 3_47, 3_47, 3, 12, 66, 46, 72, 80, 6, 2, 4] ] , ) __lowerCamelCase = tokenizer.convert_ids_to_tokens(a ) self.assertListEqual( a , [ SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''<unk>''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''<unk>''', '''.''', ] , ) def SCREAMING_SNAKE_CASE__ ( self : Optional[Any] ): """simple docstring""" __lowerCamelCase = (self.rust_tokenizer_class, '''hf-internal-testing/tiny-random-nllb''', {}) for tokenizer, pretrained_name, kwargs in self.tokenizers_list: with self.subTest(f"""{tokenizer.__class__.__name__} ({pretrained_name})""" ): __lowerCamelCase = self.rust_tokenizer_class.from_pretrained(a , a ) __lowerCamelCase = self.tokenizer_class.from_pretrained(a , a ) __lowerCamelCase = tempfile.mkdtemp() __lowerCamelCase = tokenizer_r.save_pretrained(a ) __lowerCamelCase = tokenizer_p.save_pretrained(a ) # Checks it save with the same files + the tokenizer.json file for the fast one self.assertTrue(any('''tokenizer.json''' in f for f in tokenizer_r_files ) ) __lowerCamelCase = tuple(f for f in tokenizer_r_files if '''tokenizer.json''' not in f ) self.assertSequenceEqual(a , a ) # Checks everything loads correctly in the same way __lowerCamelCase = tokenizer_r.from_pretrained(a ) __lowerCamelCase = tokenizer_p.from_pretrained(a ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(a , a ) ) shutil.rmtree(a ) # Save tokenizer rust, legacy_format=True __lowerCamelCase = tempfile.mkdtemp() __lowerCamelCase = tokenizer_r.save_pretrained(a , legacy_format=a ) __lowerCamelCase = tokenizer_p.save_pretrained(a ) # Checks it save with the same files self.assertSequenceEqual(a , a ) # Checks everything loads correctly in the same way __lowerCamelCase = tokenizer_r.from_pretrained(a ) __lowerCamelCase = tokenizer_p.from_pretrained(a ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(a , a ) ) shutil.rmtree(a ) # Save tokenizer rust, legacy_format=False __lowerCamelCase = tempfile.mkdtemp() __lowerCamelCase = tokenizer_r.save_pretrained(a , legacy_format=a ) __lowerCamelCase = tokenizer_p.save_pretrained(a ) # Checks it saved the tokenizer.json file self.assertTrue(any('''tokenizer.json''' in f for f in tokenizer_r_files ) ) # Checks everything loads correctly in the same way __lowerCamelCase = tokenizer_r.from_pretrained(a ) __lowerCamelCase = tokenizer_p.from_pretrained(a ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(a , a ) ) shutil.rmtree(a ) @require_torch def SCREAMING_SNAKE_CASE__ ( self : List[str] ): """simple docstring""" if not self.test_seqaseq: return __lowerCamelCase = self.get_tokenizers() for tokenizer in tokenizers: with self.subTest(f"""{tokenizer.__class__.__name__}""" ): # Longer text that will definitely require truncation. __lowerCamelCase = [ ''' UN Chief Says There Is No Military Solution in Syria''', ''' Secretary-General Ban Ki-moon says his response to Russia\'s stepped up military support for''' ''' Syria is that \'there is no military solution\' to the nearly five-year conflict and more weapons''' ''' will only worsen the violence and misery for millions of people.''', ] __lowerCamelCase = [ '''Şeful ONU declară că nu există o soluţie militară în Siria''', '''Secretarul General Ban Ki-moon declară că răspunsul său la intensificarea sprijinului militar al''' ''' Rusiei pentru Siria este că "nu există o soluţie militară" la conflictul de aproape cinci ani şi''' ''' că noi arme nu vor face decât să înrăutăţească violenţele şi mizeria pentru milioane de oameni.''', ] try: __lowerCamelCase = tokenizer.prepare_seqaseq_batch( src_texts=a , tgt_texts=a , max_length=3 , max_target_length=10 , return_tensors='''pt''' , src_lang='''eng_Latn''' , tgt_lang='''ron_Latn''' , ) except NotImplementedError: return self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.labels.shape[1] , 10 ) # max_target_length will default to max_length if not specified __lowerCamelCase = tokenizer.prepare_seqaseq_batch( a , tgt_texts=a , max_length=3 , return_tensors='''pt''' ) self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.labels.shape[1] , 3 ) __lowerCamelCase = tokenizer.prepare_seqaseq_batch( src_texts=a , max_length=3 , max_target_length=10 , return_tensors='''pt''' ) self.assertEqual(batch_encoder_only.input_ids.shape[1] , 3 ) self.assertEqual(batch_encoder_only.attention_mask.shape[1] , 3 ) self.assertNotIn('''decoder_input_ids''' , a ) @unittest.skip('''Unfortunately way too slow to build a BPE with SentencePiece.''' ) def SCREAMING_SNAKE_CASE__ ( self : Optional[int] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE__ ( self : List[Any] ): """simple docstring""" for tokenizer, pretrained_name, kwargs in self.tokenizers_list: with self.subTest(f"""{tokenizer.__class__.__name__} ({pretrained_name})""" ): __lowerCamelCase = [AddedToken('''<special>''' , lstrip=a )] __lowerCamelCase = self.rust_tokenizer_class.from_pretrained( a , additional_special_tokens=a , a ) __lowerCamelCase = tokenizer_r.encode('''Hey this is a <special> token''' ) __lowerCamelCase = tokenizer_r.encode('''<special>''' , add_special_tokens=a )[0] self.assertTrue(special_token_id in r_output ) if self.test_slow_tokenizer: __lowerCamelCase = self.rust_tokenizer_class.from_pretrained( a , additional_special_tokens=a , a , ) __lowerCamelCase = self.tokenizer_class.from_pretrained( a , additional_special_tokens=a , *a ) __lowerCamelCase = tokenizer_p.encode('''Hey this is a <special> token''' ) __lowerCamelCase = tokenizer_cr.encode('''Hey this is a <special> token''' ) self.assertEqual(a , a ) self.assertEqual(a , a ) self.assertTrue(special_token_id in p_output ) self.assertTrue(special_token_id in cr_output ) @require_torch @require_sentencepiece @require_tokenizers class a__ ( unittest.TestCase ): lowerCamelCase : int ="facebook/nllb-200-distilled-600M" lowerCamelCase : Optional[int] =[ " UN Chief Says There Is No Military Solution in Syria", " Secretary-General Ban Ki-moon says his response to Russia's stepped up military support for Syria is that \"there is no military solution\" to the nearly five-year conflict and more weapons will only worsen the violence and misery for millions of people.", ] lowerCamelCase : Tuple =[ "Şeful ONU declară că nu există o soluţie militară în Siria", "Secretarul General Ban Ki-moon declară că răspunsul său la intensificarea sprijinului militar al Rusiei" " pentru Siria este că \"nu există o soluţie militară\" la conflictul de aproape cinci ani şi că noi arme nu vor" " face decât să înrăutăţească violenţele şi mizeria pentru milioane de oameni.", ] lowerCamelCase : Union[str, Any] =[ 2_5_6_0_4_7, 1_6_2_9_7, 1_3_4_4_0_8, 8_1_6_5, 2_4_8_0_6_6, 1_4_7_3_4, 9_5_0, 1_1_3_5, 1_0_5_7_2_1, 3_5_7_3, 8_3, 2_7_3_5_2, 1_0_8, 4_9_4_8_6, 2, ] @classmethod def SCREAMING_SNAKE_CASE__ ( cls : Tuple ): """simple docstring""" __lowerCamelCase = NllbTokenizer.from_pretrained( cls.checkpoint_name , src_lang='''eng_Latn''' , tgt_lang='''ron_Latn''' ) __lowerCamelCase = 1 return cls def SCREAMING_SNAKE_CASE__ ( self : str ): """simple docstring""" self.assertEqual(self.tokenizer.fairseq_tokens_to_ids['''ace_Arab'''] , 25_60_01 ) self.assertEqual(self.tokenizer.fairseq_tokens_to_ids['''ace_Latn'''] , 25_60_02 ) self.assertEqual(self.tokenizer.fairseq_tokens_to_ids['''fra_Latn'''] , 25_60_57 ) def SCREAMING_SNAKE_CASE__ ( self : int ): """simple docstring""" __lowerCamelCase = self.tokenizer.batch_encode_plus(self.src_text ).input_ids[0] self.assertListEqual(self.expected_src_tokens , a ) def SCREAMING_SNAKE_CASE__ ( self : Union[str, Any] ): """simple docstring""" self.assertIn(a , self.tokenizer.all_special_ids ) # fmt: off __lowerCamelCase = [RO_CODE, 42_54, 9_80_68, 11_29_23, 3_90_72, 39_09, 7_13, 10_27_67, 26, 1_73_14, 3_56_42, 1_46_83, 3_31_18, 20_22, 6_69_87, 2, 25_60_47] # fmt: on __lowerCamelCase = self.tokenizer.decode(a , skip_special_tokens=a ) __lowerCamelCase = self.tokenizer.decode(generated_ids[1:] , skip_special_tokens=a ) self.assertEqual(a , a ) self.assertNotIn(self.tokenizer.eos_token , a ) def SCREAMING_SNAKE_CASE__ ( self : Union[str, Any] ): """simple docstring""" __lowerCamelCase = ['''this is gunna be a long sentence ''' 20] assert isinstance(src_text[0] , a ) __lowerCamelCase = 10 __lowerCamelCase = self.tokenizer(a , max_length=a , truncation=a ).input_ids[0] self.assertEqual(ids[-1] , 2 ) self.assertEqual(ids[0] , a ) self.assertEqual(len(a ) , a ) def SCREAMING_SNAKE_CASE__ ( self : Optional[int] ): """simple docstring""" self.assertListEqual(self.tokenizer.convert_tokens_to_ids(['''<mask>''', '''ar_AR'''] ) , [25_62_03, 3] ) def SCREAMING_SNAKE_CASE__ ( self : int ): """simple docstring""" __lowerCamelCase = tempfile.mkdtemp() __lowerCamelCase = self.tokenizer.fairseq_tokens_to_ids self.tokenizer.save_pretrained(a ) __lowerCamelCase = NllbTokenizer.from_pretrained(a ) self.assertDictEqual(new_tok.fairseq_tokens_to_ids , a ) @require_torch def SCREAMING_SNAKE_CASE__ ( self : List[Any] ): """simple docstring""" __lowerCamelCase = self.tokenizer( self.src_text , text_target=self.tgt_text , padding=a , truncation=a , max_length=len(self.expected_src_tokens ) , return_tensors='''pt''' , ) __lowerCamelCase = shift_tokens_right( batch['''labels'''] , self.tokenizer.pad_token_id , self.tokenizer.lang_code_to_id['''ron_Latn'''] ) self.assertIsInstance(a , a ) self.assertEqual((2, 15) , batch.input_ids.shape ) self.assertEqual((2, 15) , batch.attention_mask.shape ) __lowerCamelCase = batch.input_ids.tolist()[0] self.assertListEqual(self.expected_src_tokens , a ) self.assertEqual(a , batch.decoder_input_ids[0, 0] ) # EOS # Test that special tokens are reset self.assertEqual(self.tokenizer.prefix_tokens , [EN_CODE] ) self.assertEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) def SCREAMING_SNAKE_CASE__ ( self : Optional[Any] ): """simple docstring""" __lowerCamelCase = self.tokenizer(self.src_text , padding=a , truncation=a , max_length=3 , return_tensors='''pt''' ) __lowerCamelCase = self.tokenizer( text_target=self.tgt_text , padding=a , truncation=a , max_length=10 , return_tensors='''pt''' ) __lowerCamelCase = targets['''input_ids'''] __lowerCamelCase = shift_tokens_right( a , self.tokenizer.pad_token_id , decoder_start_token_id=self.tokenizer.lang_code_to_id[self.tokenizer.tgt_lang] , ) self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.decoder_input_ids.shape[1] , 10 ) @require_torch def SCREAMING_SNAKE_CASE__ ( self : Any ): """simple docstring""" __lowerCamelCase = self.tokenizer._build_translation_inputs( '''A test''' , return_tensors='''pt''' , src_lang='''eng_Latn''' , tgt_lang='''fra_Latn''' ) self.assertEqual( nested_simplify(a ) , { # A, test, EOS, en_XX '''input_ids''': [[25_60_47, 70, 73_56, 2]], '''attention_mask''': [[1, 1, 1, 1]], # ar_AR '''forced_bos_token_id''': 25_60_57, } , ) @require_torch def SCREAMING_SNAKE_CASE__ ( self : Any ): """simple docstring""" __lowerCamelCase = True __lowerCamelCase = self.tokenizer( '''UN Chief says there is no military solution in Syria''' , src_lang='''eng_Latn''' , tgt_lang='''fra_Latn''' ) self.assertEqual( inputs.input_ids , [1_62_97, 13_44_08, 2_56_53, 63_70, 2_48, 2_54, 10_39_29, 9_49_95, 1_08, 4_94_86, 2, 25_60_47] ) __lowerCamelCase = False __lowerCamelCase = self.tokenizer( '''UN Chief says there is no military solution in Syria''' , src_lang='''eng_Latn''' , tgt_lang='''fra_Latn''' ) self.assertEqual( inputs.input_ids , [25_60_47, 1_62_97, 13_44_08, 2_56_53, 63_70, 2_48, 2_54, 10_39_29, 9_49_95, 1_08, 4_94_86, 2] )	67	"""simple docstring""" lowerCAmelCase__ = { '''A''': ['''B''', '''C''', '''E'''], '''B''': ['''A''', '''D''', '''E'''], '''C''': ['''A''', '''F''', '''G'''], '''D''': ['''B'''], '''E''': ['''A''', '''B''', '''D'''], '''F''': ['''C'''], '''G''': ['''C'''], } def snake_case_ ( A_ : dict, A_ : int, A_ : int ): '''simple docstring''' _lowerCamelCase : List[str] = set() # keep track of all the paths to be checked _lowerCamelCase : str = [[start]] # return path if start is goal if start == goal: return [start] # keeps looping until all possible paths have been checked while queue: # pop the first path from the queue _lowerCamelCase : str = queue.pop(0 ) # get the last node from the path _lowerCamelCase : List[Any] = path[-1] if node not in explored: _lowerCamelCase : Union[str, Any] = graph[node] # go through all neighbour nodes, construct a new path and # push it into the queue for neighbour in neighbours: _lowerCamelCase : Union[str, Any] = list(A_ ) new_path.append(A_ ) queue.append(A_ ) # return path if neighbour is goal if neighbour == goal: return new_path # mark node as explored explored.add(A_ ) # in case there's no path between the 2 nodes return [] def snake_case_ ( A_ : dict, A_ : int, A_ : Dict ): '''simple docstring''' if not graph or start not in graph or target not in graph: return -1 if start == target: return 0 _lowerCamelCase : Optional[int] = [start] _lowerCamelCase : int = set(A_ ) # Keep tab on distances from `start` node. _lowerCamelCase : int = {start: 0, target: -1} while queue: _lowerCamelCase : Optional[Any] = queue.pop(0 ) if node == target: _lowerCamelCase : Any = ( dist[node] if dist[target] == -1 else min(dist[target], dist[node] ) ) for adjacent in graph[node]: if adjacent not in visited: visited.add(A_ ) queue.append(A_ ) _lowerCamelCase : Any = dist[node] + 1 return dist[target] if __name__ == "__main__": print(bfs_shortest_path(demo_graph, '''G''', '''D''')) # returns ['G', 'C', 'A', 'B', 'D'] print(bfs_shortest_path_distance(demo_graph, '''G''', '''D''')) # returns 4	72
import os from argparse import ArgumentParser, Namespace from ..data import SingleSentenceClassificationProcessor as Processor from ..pipelines import TextClassificationPipeline from ..utils import is_tf_available, is_torch_available, logging from . import BaseTransformersCLICommand if not is_tf_available() and not is_torch_available(): raise RuntimeError("""At least one of PyTorch or TensorFlow 2.0+ should be installed to use CLI training""") # TF training parameters lowerCAmelCase__ = False lowerCAmelCase__ = False def lowerCAmelCase__ ( SCREAMING_SNAKE_CASE_: Namespace ) -> List[str]: '''simple docstring''' return TrainCommand(SCREAMING_SNAKE_CASE_ ) class a__ ( snake_case ): """simple docstring""" @staticmethod def UpperCamelCase ( lowercase ) -> Any: '''simple docstring''' A__ = parser.add_parser("train" , help="CLI tool to train a model on a task." ) train_parser.add_argument( "--train_data" , type=lowercase , required=lowercase , help="path to train (and optionally evaluation) dataset as a csv with tab separated labels and sentences." , ) train_parser.add_argument( "--column_label" , type=lowercase , default=0 , help="Column of the dataset csv file with example labels." ) train_parser.add_argument( "--column_text" , type=lowercase , default=1 , help="Column of the dataset csv file with example texts." ) train_parser.add_argument( "--column_id" , type=lowercase , default=2 , help="Column of the dataset csv file with example ids." ) train_parser.add_argument( "--skip_first_row" , action="store_true" , help="Skip the first row of the csv file (headers)." ) train_parser.add_argument("--validation_data" , type=lowercase , default="" , help="path to validation dataset." ) train_parser.add_argument( "--validation_split" , type=lowercase , default=0.1 , help="if validation dataset is not provided, fraction of train dataset to use as validation dataset." , ) train_parser.add_argument("--output" , type=lowercase , default="./" , help="path to saved the trained model." ) train_parser.add_argument( "--task" , type=lowercase , default="text_classification" , help="Task to train the model on." ) train_parser.add_argument( "--model" , type=lowercase , default="bert-base-uncased" , help="Model's name or path to stored model." ) train_parser.add_argument("--train_batch_size" , type=lowercase , default=32 , help="Batch size for training." ) train_parser.add_argument("--valid_batch_size" , type=lowercase , default=64 , help="Batch size for validation." ) train_parser.add_argument("--learning_rate" , type=lowercase , default=3e-5 , help="Learning rate." ) train_parser.add_argument("--adam_epsilon" , type=lowercase , default=1e-08 , help="Epsilon for Adam optimizer." ) train_parser.set_defaults(func=lowercase ) def __init__( self , lowercase ) -> Optional[int]: '''simple docstring''' A__ = logging.get_logger("transformers-cli/training" ) A__ = "tf" if is_tf_available() else "torch" os.makedirs(args.output , exist_ok=lowercase ) A__ = args.output A__ = args.column_label A__ = args.column_text A__ = args.column_id self.logger.info(F'Loading {args.task} pipeline for {args.model}' ) if args.task == "text_classification": A__ = TextClassificationPipeline.from_pretrained(args.model ) elif args.task == "token_classification": raise NotImplementedError elif args.task == "question_answering": raise NotImplementedError self.logger.info(F'Loading dataset from {args.train_data}' ) A__ = Processor.create_from_csv( args.train_data , column_label=args.column_label , column_text=args.column_text , column_id=args.column_id , skip_first_row=args.skip_first_row , ) A__ = None if args.validation_data: self.logger.info(F'Loading validation dataset from {args.validation_data}' ) A__ = Processor.create_from_csv( args.validation_data , column_label=args.column_label , column_text=args.column_text , column_id=args.column_id , skip_first_row=args.skip_first_row , ) A__ = args.validation_split A__ = args.train_batch_size A__ = args.valid_batch_size A__ = args.learning_rate A__ = args.adam_epsilon def UpperCamelCase ( self ) -> List[str]: '''simple docstring''' if self.framework == "tf": return self.run_tf() return self.run_torch() def UpperCamelCase ( self ) -> List[str]: '''simple docstring''' raise NotImplementedError def UpperCamelCase ( self ) -> Optional[Any]: '''simple docstring''' self.pipeline.fit( self.train_dataset , validation_data=self.valid_dataset , validation_split=self.validation_split , learning_rate=self.learning_rate , adam_epsilon=self.adam_epsilon , train_batch_size=self.train_batch_size , valid_batch_size=self.valid_batch_size , ) # Save trained pipeline self.pipeline.save_pretrained(self.output )	68	"""simple docstring""" import argparse import torch from transformers import LxmertConfig, LxmertForPreTraining, load_tf_weights_in_lxmert from transformers.utils import logging logging.set_verbosity_info() def snake_case_ ( A_ : Tuple, A_ : int, A_ : Dict ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = LxmertConfig.from_json_file(A_ ) print(F'''Building PyTorch model from configuration: {config}''' ) _lowerCamelCase : List[str] = LxmertForPreTraining(A_ ) # Load weights from tf checkpoint load_tf_weights_in_lxmert(A_, A_, A_ ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) torch.save(model.state_dict(), A_ ) if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained model. \nThis specifies the model architecture.''', ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) lowerCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)	72
"""simple docstring""" import os from huggingface_hub.constants import HUGGINGFACE_HUB_CACHE, hf_cache_home __UpperCamelCase = HUGGINGFACE_HUB_CACHE __UpperCamelCase = '''config.json''' __UpperCamelCase = '''diffusion_pytorch_model.bin''' __UpperCamelCase = '''diffusion_flax_model.msgpack''' __UpperCamelCase = '''model.onnx''' __UpperCamelCase = '''diffusion_pytorch_model.safetensors''' __UpperCamelCase = '''weights.pb''' __UpperCamelCase = '''https://huggingface.co''' __UpperCamelCase = default_cache_path __UpperCamelCase = '''diffusers_modules''' __UpperCamelCase = os.getenv('''HF_MODULES_CACHE''', os.path.join(hf_cache_home, '''modules''')) __UpperCamelCase = ['''fp16''', '''non-ema'''] __UpperCamelCase = '''.self_attn'''	69	"""simple docstring""" from collections import defaultdict from graphs.minimum_spanning_tree_prims import prisms_algorithm as mst def snake_case_ ( ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : int = 9, 14 # noqa: F841 _lowerCamelCase : List[Any] = [ [0, 1, 4], [0, 7, 8], [1, 2, 8], [7, 8, 7], [7, 6, 1], [2, 8, 2], [8, 6, 6], [2, 3, 7], [2, 5, 4], [6, 5, 2], [3, 5, 14], [3, 4, 9], [5, 4, 10], [1, 7, 11], ] _lowerCamelCase : Any = defaultdict(A_ ) for nodea, nodea, cost in edges: adjancency[nodea].append([nodea, cost] ) adjancency[nodea].append([nodea, cost] ) _lowerCamelCase : List[str] = mst(A_ ) _lowerCamelCase : Optional[int] = [ [7, 6, 1], [2, 8, 2], [6, 5, 2], [0, 1, 4], [2, 5, 4], [2, 3, 7], [0, 7, 8], [3, 4, 9], ] for answer in expected: _lowerCamelCase : int = tuple(answer[:2] ) _lowerCamelCase : int = tuple(edge[::-1] ) assert edge in result or reverse in result	72
'''simple docstring''' import logging import os from typing import List, Tuple import numpy as np import psutil import torch import torch.distributed as dist from transformers import RagRetriever A__ : Tuple =logging.getLogger(__name__) class UpperCAmelCase ( snake_case_ ): def __init__( self : int , __snake_case : Union[str, Any] , __snake_case : Dict , __snake_case : Any , __snake_case : str=None ) -> Union[str, Any]: super().__init__( __snake_case , question_encoder_tokenizer=__snake_case , generator_tokenizer=__snake_case , index=__snake_case , init_retrieval=__snake_case , ) _lowerCAmelCase = None def lowercase__ ( self : List[Any] , __snake_case : int ) -> Optional[Any]: logger.info("""initializing retrieval""" ) # initializing a separate process group for retrieval as the default # nccl backend doesn't support gather/scatter operations while gloo # is too slow to replace nccl for the core gpu communication if dist.is_initialized(): logger.info("""dist initialized""" ) # needs to be set manually _lowerCAmelCase = self._infer_socket_ifname() # avoid clash with the NCCL port _lowerCAmelCase = str(distributed_port + 1 ) _lowerCAmelCase = dist.new_group(ranks=__snake_case , backend="""gloo""" ) # initialize retriever only on the main worker if not dist.is_initialized() or self._is_main(): logger.info("""dist not initialized / main""" ) self.index.init_index() # all processes wait untill the retriever is initialized by the main process if dist.is_initialized(): torch.distributed.barrier(group=self.process_group ) def lowercase__ ( self : str ) -> Any: return dist.get_rank(group=self.process_group ) == 0 def lowercase__ ( self : str , __snake_case : str , __snake_case : List[Any] , __snake_case : str=torch.floataa ) -> List[str]: _lowerCAmelCase = torch.empty(__snake_case , dtype=__snake_case ) dist.scatter(__snake_case , src=0 , scatter_list=__snake_case , group=self.process_group ) return target_tensor def lowercase__ ( self : Optional[Any] ) -> int: _lowerCAmelCase = psutil.net_if_addrs() # a hacky way to deal with varying network interface names _lowerCAmelCase = next((addr for addr in addrs if addr.startswith("""e""" )) , __snake_case ) return ifname def lowercase__ ( self : Optional[int] , __snake_case : np.ndarray , __snake_case : int ) -> Tuple[np.ndarray, List[dict]]: # single GPU training if not dist.is_initialized(): _lowerCAmelCase , _lowerCAmelCase = self._main_retrieve(__snake_case , __snake_case ) return retrieved_doc_embeds, doc_ids, self.index.get_doc_dicts(__snake_case ) # distributed training _lowerCAmelCase = dist.get_world_size(group=self.process_group ) # gather logic _lowerCAmelCase = None if self._is_main(): _lowerCAmelCase = [torch.empty(question_hidden_states.shape , dtype=torch.floataa ) for _ in range(__snake_case )] dist.gather(torch.tensor(__snake_case ) , dst=0 , gather_list=__snake_case , group=self.process_group ) # scatter logic _lowerCAmelCase = question_hidden_states.shape[0] _lowerCAmelCase = [] _lowerCAmelCase = [] if self._is_main(): assert len(__snake_case ) == world_size _lowerCAmelCase , _lowerCAmelCase = self._main_retrieve(torch.cat(__snake_case ).numpy() , __snake_case ) _lowerCAmelCase , _lowerCAmelCase = torch.tensor(__snake_case ), torch.tensor(__snake_case ) _lowerCAmelCase = self._chunk_tensor(__snake_case , __snake_case ) _lowerCAmelCase = self._chunk_tensor(__snake_case , __snake_case ) _lowerCAmelCase = self._scattered(__snake_case , [n_queries, n_docs] , target_type=torch.intaa ) _lowerCAmelCase = self._scattered(__snake_case , [n_queries, n_docs, question_hidden_states.shape[1]] ) return retrieved_doc_embeds.numpy(), doc_ids.numpy(), self.index.get_doc_dicts(__snake_case )	70	"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt''', '''tokenizer_file''': '''tokenizer.json'''} # See all BART models at https://huggingface.co/models?filter=bart lowerCAmelCase__ = { '''vocab_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/vocab.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/vocab.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json''', }, '''merges_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/merges.txt''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/merges.txt''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt''', }, '''tokenizer_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1024, '''facebook/bart-large''': 1024, '''facebook/bart-large-mnli''': 1024, '''facebook/bart-large-cnn''': 1024, '''facebook/bart-large-xsum''': 1024, '''yjernite/bart_eli5''': 1024, } class __snake_case ( _lowercase): snake_case__ : Any = VOCAB_FILES_NAMES snake_case__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP snake_case__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES snake_case__ : Optional[int] = ["input_ids", "attention_mask"] snake_case__ : Any = BartTokenizer def __init__( self : int , __lowerCAmelCase : Dict=None , __lowerCAmelCase : int=None , __lowerCAmelCase : Dict=None , __lowerCAmelCase : List[Any]="replace" , __lowerCAmelCase : Any="<s>" , __lowerCAmelCase : Optional[int]="</s>" , __lowerCAmelCase : str="</s>" , __lowerCAmelCase : Dict="<s>" , __lowerCAmelCase : Union[str, Any]="<unk>" , __lowerCAmelCase : Any="<pad>" , __lowerCAmelCase : Optional[Any]="<mask>" , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Dict=True , __lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__( __lowerCAmelCase , __lowerCAmelCase , tokenizer_file=__lowerCAmelCase , errors=__lowerCAmelCase , bos_token=__lowerCAmelCase , eos_token=__lowerCAmelCase , sep_token=__lowerCAmelCase , cls_token=__lowerCAmelCase , unk_token=__lowerCAmelCase , pad_token=__lowerCAmelCase , mask_token=__lowerCAmelCase , add_prefix_space=__lowerCAmelCase , trim_offsets=__lowerCAmelCase , __lowerCAmelCase , ) _lowerCamelCase : Tuple = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = getattr(__lowerCAmelCase , pre_tok_state.pop('''type''' ) ) _lowerCamelCase : Any = add_prefix_space _lowerCamelCase : int = pre_tok_class(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _lowerCamelCase : List[str] = '''post_processor''' _lowerCamelCase : List[str] = getattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) if tokenizer_component_instance: _lowerCamelCase : int = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _lowerCamelCase : Tuple = tuple(state['''sep'''] ) if "cls" in state: _lowerCamelCase : int = tuple(state['''cls'''] ) _lowerCamelCase : Union[str, Any] = False if state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = add_prefix_space _lowerCamelCase : Optional[Any] = True if state.get('''trim_offsets''' , __lowerCAmelCase ) != trim_offsets: _lowerCamelCase : Any = trim_offsets _lowerCamelCase : str = True if changes_to_apply: _lowerCamelCase : List[str] = getattr(__lowerCAmelCase , state.pop('''type''' ) ) _lowerCamelCase : str = component_class(__lowerCAmelCase ) setattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) @property def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : int ): """simple docstring""" _lowerCamelCase : Tuple = AddedToken(__lowerCAmelCase , lstrip=__lowerCAmelCase , rstrip=__lowerCAmelCase ) if isinstance(__lowerCAmelCase , __lowerCAmelCase ) else value _lowerCamelCase : str = value def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Dict = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._batch_encode_plus(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : Tuple , *__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Any = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._encode_plus(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[str] = None ): """simple docstring""" _lowerCamelCase : Tuple = self._tokenizer.model.save(__lowerCAmelCase , name=__lowerCAmelCase ) return tuple(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : Dict , __lowerCAmelCase : List[str]=None ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : List[int] , __lowerCAmelCase : Optional[List[int]] = None ): """simple docstring""" _lowerCamelCase : List[str] = [self.sep_token_id] _lowerCamelCase : Tuple = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]	72
from copy import deepcopy import torch import torch.nn.functional as F from torch.optim import AdamW from torch.optim.lr_scheduler import LambdaLR from torch.utils.data import DataLoader from accelerate.accelerator import Accelerator from accelerate.state import GradientState from accelerate.test_utils import RegressionDataset, RegressionModel from accelerate.utils import DistributedType, is_torch_version, set_seed def A ( a_ ,a_ ,a_ ,a_ ) -> List[str]: for param, grad_param in zip(model_a.parameters() ,model_b.parameters() ): if not param.requires_grad: continue if not did_step: # Grads should not be in sync assert ( torch.allclose(param.grad ,grad_param.grad ) is False ), F'Gradients in sync when they should not be at iteration {iteration}:\nmodel_a grad ({param.grad}) == model_b grad ({grad_param.grad})' else: # Grads should be in sync assert ( torch.allclose(param.grad ,grad_param.grad ) is True ), F'Gradients not in sync when they should be at iteration {iteration}:\nmodel_a grad ({param.grad}) != model_b grad ({grad_param.grad})' def A ( a_ ,a_ ,a_ ,a_ ,a_=True ) -> Tuple: model.train() __UpperCamelCase : List[Any] =model(a_ ) __UpperCamelCase : List[Any] =F.mse_loss(a_ ,target.to(output.device ) ) if not do_backward: loss /= accelerator.gradient_accumulation_steps loss.backward() else: accelerator.backward(a_ ) def A ( a_ ,a_=False ) -> List[Any]: set_seed(42 ) __UpperCamelCase : str =RegressionModel() __UpperCamelCase : int =deepcopy(a_ ) __UpperCamelCase : Optional[int] =RegressionDataset(length=80 ) __UpperCamelCase : List[Any] =DataLoader(a_ ,batch_size=16 ) model.to(accelerator.device ) if sched: __UpperCamelCase : Optional[int] =AdamW(params=model.parameters() ,lr=1e-3 ) __UpperCamelCase : Tuple =AdamW(params=ddp_model.parameters() ,lr=1e-3 ) __UpperCamelCase : int =LambdaLR(a_ ,lr_lambda=lambda a_ : epoch0.65 ) __UpperCamelCase : Tuple =LambdaLR(a_ ,lr_lambda=lambda a_ : epoch0.65 ) # Make a copy of `model` if sched: __UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase : Dict =accelerator.prepare(a_ ,a_ ,a_ ,a_ ) else: __UpperCamelCase , __UpperCamelCase : str =accelerator.prepare(a_ ,a_ ) if sched: return (model, opt, sched, dataloader, ddp_model, ddp_opt, ddp_sched) return model, ddp_model, dataloader def A ( a_ ) -> Union[str, Any]: # Test when on a single CPU or GPU that the context manager does nothing __UpperCamelCase , __UpperCamelCase , __UpperCamelCase : Any =get_training_setup(a_ ) # Use a single batch __UpperCamelCase , __UpperCamelCase : int =next(iter(a_ ) ).values() for iteration in range(3 ): # Gather the distributed inputs and targs for the base model __UpperCamelCase , __UpperCamelCase : List[str] =accelerator.gather((ddp_input, ddp_target) ) __UpperCamelCase , __UpperCamelCase : Union[str, Any] =input.to(accelerator.device ), target.to(accelerator.device ) # Perform our initial ground truth step in non "DDP" step_model(a_ ,a_ ,a_ ,a_ ) # Do "gradient accumulation" (noop) if iteration % 2 == 0: # Accumulate grads locally with accelerator.no_sync(a_ ): step_model(a_ ,a_ ,a_ ,a_ ) else: # Sync grads step_model(a_ ,a_ ,a_ ,a_ ) # Since `no_sync` is a noop, `ddp_model` and `model` grads should always be in sync check_model_parameters(a_ ,a_ ,a_ ,a_ ) for param, ddp_param in zip(model.parameters() ,ddp_model.parameters() ): if not param.requires_grad: continue assert torch.allclose( param.grad ,ddp_param.grad ), F'Gradients not in sync when they should be:\nModel grad ({param.grad}) != DDP grad ({ddp_param.grad})' # Shuffle ddp_input on each iteration torch.manual_seed(1_337 + iteration ) __UpperCamelCase : str =ddp_input[torch.randperm(len(a_ ) )] def A ( a_ ) -> Tuple: # Test on distributed setup that context manager behaves properly __UpperCamelCase , __UpperCamelCase , __UpperCamelCase : Dict =get_training_setup(a_ ) # Use a single batch __UpperCamelCase , __UpperCamelCase : Optional[int] =next(iter(a_ ) ).values() for iteration in range(3 ): # Gather the distributed inputs and targs for the base model __UpperCamelCase , __UpperCamelCase : Optional[Any] =accelerator.gather((ddp_input, ddp_target) ) __UpperCamelCase , __UpperCamelCase : int =input.to(accelerator.device ), target.to(accelerator.device ) # Perform our initial ground truth step in non "DDP" step_model(a_ ,a_ ,a_ ,a_ ) # Do "gradient accumulation" (noop) if iteration % 2 == 0: # Accumulate grads locally with accelerator.no_sync(a_ ): step_model(a_ ,a_ ,a_ ,a_ ) else: # Sync grads step_model(a_ ,a_ ,a_ ,a_ ) # DDP model and model should only be in sync when not (iteration % 2 == 0) for param, ddp_param in zip(model.parameters() ,ddp_model.parameters() ): if not param.requires_grad: continue if iteration % 2 == 0: # Grads should not be in sync assert ( torch.allclose(param.grad ,ddp_param.grad ) is False ), F'Gradients in sync when they should not be:\nModel grad ({param.grad}) == DDP grad ({ddp_param.grad})' else: # Grads should be in sync assert ( torch.allclose(param.grad ,ddp_param.grad ) is True ), F'Gradients not in sync when they should be:\nModel grad ({param.grad}) != DDP grad ({ddp_param.grad})' # Shuffle ddp_input on each iteration torch.manual_seed(1_337 + iteration ) __UpperCamelCase : Optional[int] =ddp_input[torch.randperm(len(a_ ) )] def A ( a_=False ,a_=False ) -> Tuple: __UpperCamelCase : Union[str, Any] =Accelerator( split_batches=a_ ,dispatch_batches=a_ ,gradient_accumulation_steps=2 ) # Test that context manager behaves properly __UpperCamelCase , __UpperCamelCase , __UpperCamelCase : Tuple =get_training_setup(a_ ) for iteration, batch in enumerate(a_ ): __UpperCamelCase , __UpperCamelCase : Tuple =batch.values() # Gather the distributed inputs and targs for the base model __UpperCamelCase , __UpperCamelCase : Union[str, Any] =accelerator.gather((ddp_input, ddp_target) ) __UpperCamelCase , __UpperCamelCase : Any =input.to(accelerator.device ), target.to(accelerator.device ) # Perform our initial ground truth step in non "DDP" step_model(a_ ,a_ ,a_ ,a_ ,a_ ) # Do "gradient accumulation" (noop) with accelerator.accumulate(a_ ): step_model(a_ ,a_ ,a_ ,a_ ) # DDP model and model should only be in sync when not (iteration % 2 == 0) for param, ddp_param in zip(model.parameters() ,ddp_model.parameters() ): if not param.requires_grad: continue if ((iteration + 1) % 2 == 0) or (iteration == len(a_ ) - 1): # Grads should be in sync assert ( torch.allclose(param.grad ,ddp_param.grad ) is True ), F'Gradients not in sync when they should be at iteration {iteration}:\nModel grad ({param.grad}) != DDP grad ({ddp_param.grad})' else: # Grads should not be in sync assert ( torch.allclose(param.grad ,ddp_param.grad ) is False ), F'Gradients in sync when they should not be at iteration {iteration}:\nModel grad ({param.grad}) == DDP grad ({ddp_param.grad})' # Shuffle ddp_input on each iteration torch.manual_seed(1_337 + iteration ) __UpperCamelCase : Union[str, Any] =ddp_input[torch.randperm(len(a_ ) )] GradientState._reset_state() def A ( a_=False ,a_=False ) -> Dict: __UpperCamelCase : int =Accelerator( split_batches=a_ ,dispatch_batches=a_ ,gradient_accumulation_steps=2 ) # Test that context manager behaves properly __UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase : str =get_training_setup(a_ ,a_ ) for iteration, batch in enumerate(a_ ): __UpperCamelCase , __UpperCamelCase : List[Any] =batch.values() # Gather the distributed inputs and targs for the base model __UpperCamelCase , __UpperCamelCase : Dict =accelerator.gather((ddp_input, ddp_target) ) __UpperCamelCase , __UpperCamelCase : Optional[int] =input.to(accelerator.device ), target.to(accelerator.device ) # Perform our initial ground truth step in non "DDP" model.train() ddp_model.train() step_model(a_ ,a_ ,a_ ,a_ ,a_ ) opt.step() if ((iteration + 1) % 2 == 0) or ((iteration + 1) == len(a_ )): if split_batches: sched.step() else: for _ in range(accelerator.num_processes ): sched.step() opt.zero_grad() # Perform gradient accumulation under wrapper with accelerator.accumulate(a_ ): step_model(a_ ,a_ ,a_ ,a_ ) ddp_opt.step() ddp_sched.step() ddp_opt.zero_grad() # Learning rates should be the same assert ( opt.param_groups[0]["lr"] == ddp_opt.param_groups[0]["lr"] ), F'Learning rates found in each optimizer did not align\nopt: {opt.param_groups[0]["lr"]}\nDDP opt: {ddp_opt.param_groups[0]["lr"]}\n' __UpperCamelCase : Tuple =(((iteration + 1) % 2) == 0) or ((iteration + 1) == len(a_ )) if accelerator.num_processes > 1: check_model_parameters(a_ ,a_ ,a_ ,a_ ) # Shuffle ddp_input on each iteration torch.manual_seed(1_337 + iteration ) GradientState._reset_state() def A ( ) -> int: __UpperCamelCase : List[Any] =Accelerator() __UpperCamelCase : Any =RegressionDataset(length=80 ) __UpperCamelCase : Any =DataLoader(a_ ,batch_size=16 ) __UpperCamelCase : List[Any] =RegressionDataset(length=96 ) __UpperCamelCase : Optional[int] =DataLoader(a_ ,batch_size=16 ) __UpperCamelCase , __UpperCamelCase : Dict =accelerator.prepare(a_ ,a_ ) assert accelerator.gradient_state.active_dataloader is None for iteration, _ in enumerate(a_ ): assert id(accelerator.gradient_state.active_dataloader ) == id(a_ ) if iteration < len(a_ ) - 1: assert not accelerator.gradient_state.end_of_dataloader if iteration == 1: for batch_num, _ in enumerate(a_ ): assert id(accelerator.gradient_state.active_dataloader ) == id(a_ ) if batch_num < len(a_ ) - 1: assert not accelerator.gradient_state.end_of_dataloader else: assert accelerator.gradient_state.end_of_dataloader else: assert accelerator.gradient_state.end_of_dataloader assert accelerator.gradient_state.active_dataloader is None def A ( ) -> Union[str, Any]: __UpperCamelCase : List[Any] =Accelerator() __UpperCamelCase : List[str] =accelerator.state if state.local_process_index == 0: print('Test `accumulate` gradient accumulation with dataloader break' ) test_dataloader_break() if state.distributed_type == DistributedType.NO: if state.local_process_index == 0: print('Test NOOP `no_sync` context manager' ) test_noop_sync(a_ ) if state.distributed_type in (DistributedType.MULTI_GPU, DistributedType.MULTI_CPU): if state.local_process_index == 0: print('Test Distributed `no_sync` context manager' ) test_distributed_sync(a_ ) if state.distributed_type == DistributedType.MULTI_GPU: for split_batch in [True, False]: for dispatch_batches in [True, False]: if state.local_process_index == 0: print( 'Test `accumulate` gradient accumulation, ' ,F'`split_batches={split_batch}` and `dispatch_batches={dispatch_batches}`' ,) test_gradient_accumulation(a_ ,a_ ) # Currently will break on torch 2.0 +, need to investigate why if is_torch_version('<' ,'2.0' ) or state.distributed_type == DistributedType.NO: if state.local_process_index == 0: print( 'Test `accumulate` gradient accumulation with optimizer and scheduler, ' ,'`split_batches=False`, `dispatch_batches=False`' ,) test_gradient_accumulation_with_opt_and_scheduler() if state.distributed_type == DistributedType.MULTI_GPU: for split_batch in [True, False]: for dispatch_batches in [True, False]: if not split_batch and not dispatch_batches: continue if state.local_process_index == 0: print( 'Test `accumulate` gradient accumulation with optimizer and scheduler, ' ,F'`split_batches={split_batch}` and `dispatch_batches={dispatch_batches}`' ,) test_gradient_accumulation_with_opt_and_scheduler(a_ ,a_ ) def A ( a_ ) -> Dict: # For xla_spawn (TPUs) main() if __name__ == "__main__": main()	71	"""simple docstring""" from __future__ import annotations def snake_case_ ( A_ : str ): '''simple docstring''' return [ord(A_ ) - 96 for elem in plain] def snake_case_ ( A_ : list[int] ): '''simple docstring''' return "".join(chr(elem + 96 ) for elem in encoded ) def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Dict = encode(input('''-> ''' ).strip().lower() ) print('''Encoded: ''', A_ ) print('''Decoded:''', decode(A_ ) ) if __name__ == "__main__": main()	72
import os from pathlib import Path import numpy as np import pytest from pack_dataset import pack_data_dir from parameterized import parameterized from save_len_file import save_len_file from torch.utils.data import DataLoader from transformers import AutoTokenizer from transformers.models.mbart.modeling_mbart import shift_tokens_right from transformers.testing_utils import TestCasePlus, slow from utils import FAIRSEQ_AVAILABLE, DistributedSortishSampler, LegacySeqaSeqDataset, SeqaSeqDataset a ="""bert-base-cased""" a ="""google/pegasus-xsum""" a =[""" Sam ate lunch today.""", """Sams lunch ingredients."""] a =["""A very interesting story about what I ate for lunch.""", """Avocado, celery, turkey, coffee"""] a ="""patrickvonplaten/t5-tiny-random""" a ="""sshleifer/bart-tiny-random""" a ="""sshleifer/tiny-mbart""" a ="""sshleifer/tiny-marian-en-de""" def SCREAMING_SNAKE_CASE__ ( lowerCamelCase__ , lowerCamelCase__ ) -> int: __lowerCamelCase : str = '\n'.join(lowerCamelCase__ ) Path(lowerCamelCase__ ).open('w' ).writelines(lowerCamelCase__ ) def SCREAMING_SNAKE_CASE__ ( lowerCamelCase__ ) -> Union[str, Any]: for split in ["train", "val", "test"]: _dump_articles(os.path.join(lowerCamelCase__ , F"{split}.source" ) , lowerCamelCase__ ) _dump_articles(os.path.join(lowerCamelCase__ , F"{split}.target" ) , lowerCamelCase__ ) return tmp_dir class A_ ( SCREAMING_SNAKE_CASE ): @parameterized.expand( [ MBART_TINY, MARIAN_TINY, T5_TINY, BART_TINY, PEGASUS_XSUM, ] ,) @slow def lowerCAmelCase ( self : Dict ,SCREAMING_SNAKE_CASE__ : Tuple): __lowerCamelCase : Dict = AutoTokenizer.from_pretrained(SCREAMING_SNAKE_CASE__) __lowerCamelCase : Dict = make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir()) __lowerCamelCase : Union[str, Any] = max(len(tokenizer.encode(SCREAMING_SNAKE_CASE__)) for a in ARTICLES) __lowerCamelCase : List[str] = max(len(tokenizer.encode(SCREAMING_SNAKE_CASE__)) for a in SUMMARIES) __lowerCamelCase : str = 4 __lowerCamelCase : List[str] = 8 assert max_len_target > max_src_len # Will be truncated assert max_len_source > max_src_len # Will be truncated __lowerCamelCase , __lowerCamelCase : Dict = 'ro_RO', 'de_DE' # ignored for all but mbart, but never causes error. __lowerCamelCase : Dict = SeqaSeqDataset( SCREAMING_SNAKE_CASE__ ,data_dir=SCREAMING_SNAKE_CASE__ ,type_path='train' ,max_source_length=SCREAMING_SNAKE_CASE__ ,max_target_length=SCREAMING_SNAKE_CASE__ ,src_lang=SCREAMING_SNAKE_CASE__ ,tgt_lang=SCREAMING_SNAKE_CASE__ ,) __lowerCamelCase : Any = DataLoader(SCREAMING_SNAKE_CASE__ ,batch_size=2 ,collate_fn=train_dataset.collate_fn) for batch in dataloader: assert isinstance(SCREAMING_SNAKE_CASE__ ,SCREAMING_SNAKE_CASE__) assert batch["attention_mask"].shape == batch["input_ids"].shape # show that articles were trimmed. assert batch["input_ids"].shape[1] == max_src_len # show that targets are the same len assert batch["labels"].shape[1] == max_tgt_len if tok_name != MBART_TINY: continue # check language codes in correct place __lowerCamelCase : Union[str, Any] = shift_tokens_right(batch['labels'] ,tokenizer.pad_token_id) assert batch["decoder_input_ids"][0, 0].item() == tokenizer.lang_code_to_id[tgt_lang] assert batch["decoder_input_ids"][0, -1].item() == tokenizer.eos_token_id assert batch["input_ids"][0, -2].item() == tokenizer.eos_token_id assert batch["input_ids"][0, -1].item() == tokenizer.lang_code_to_id[src_lang] break # No need to test every batch @parameterized.expand([BART_TINY, BERT_BASE_CASED]) def lowerCAmelCase ( self : int ,SCREAMING_SNAKE_CASE__ : Any): __lowerCamelCase : Union[str, Any] = AutoTokenizer.from_pretrained(SCREAMING_SNAKE_CASE__) __lowerCamelCase : Dict = make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir()) __lowerCamelCase : List[Any] = max(len(tokenizer.encode(SCREAMING_SNAKE_CASE__)) for a in ARTICLES) __lowerCamelCase : List[Any] = max(len(tokenizer.encode(SCREAMING_SNAKE_CASE__)) for a in SUMMARIES) __lowerCamelCase : Dict = 4 __lowerCamelCase : List[Any] = LegacySeqaSeqDataset( SCREAMING_SNAKE_CASE__ ,data_dir=SCREAMING_SNAKE_CASE__ ,type_path='train' ,max_source_length=2_0 ,max_target_length=SCREAMING_SNAKE_CASE__ ,) __lowerCamelCase : Optional[Any] = DataLoader(SCREAMING_SNAKE_CASE__ ,batch_size=2 ,collate_fn=train_dataset.collate_fn) for batch in dataloader: assert batch["attention_mask"].shape == batch["input_ids"].shape # show that articles were trimmed. assert batch["input_ids"].shape[1] == max_len_source assert 2_0 >= batch["input_ids"].shape[1] # trimmed significantly # show that targets were truncated assert batch["labels"].shape[1] == trunc_target # Truncated assert max_len_target > trunc_target # Truncated break # No need to test every batch def lowerCAmelCase ( self : List[str]): __lowerCamelCase : int = AutoTokenizer.from_pretrained('facebook/mbart-large-cc25') __lowerCamelCase : int = Path(make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir())) __lowerCamelCase : Union[str, Any] = tmp_dir.joinpath('train.source').open().readlines() __lowerCamelCase : str = Path(make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir())) pack_data_dir(SCREAMING_SNAKE_CASE__ ,SCREAMING_SNAKE_CASE__ ,1_2_8 ,SCREAMING_SNAKE_CASE__) __lowerCamelCase : int = {x.name for x in tmp_dir.iterdir()} __lowerCamelCase : Optional[int] = {x.name for x in save_dir.iterdir()} __lowerCamelCase : int = save_dir.joinpath('train.source').open().readlines() # orig: [' Sam ate lunch today.\n', 'Sams lunch ingredients.'] # desired_packed: [' Sam ate lunch today.\n Sams lunch ingredients.'] assert len(SCREAMING_SNAKE_CASE__) < len(SCREAMING_SNAKE_CASE__) assert len(SCREAMING_SNAKE_CASE__) == 1 assert len(packed_examples[0]) == sum(len(SCREAMING_SNAKE_CASE__) for x in orig_examples) assert orig_paths == new_paths @pytest.mark.skipif(not FAIRSEQ_AVAILABLE ,reason='This test requires fairseq') def lowerCAmelCase ( self : str): if not FAIRSEQ_AVAILABLE: return __lowerCamelCase , __lowerCamelCase , __lowerCamelCase : str = self._get_dataset(max_len=6_4) __lowerCamelCase : Dict = 6_4 __lowerCamelCase : str = ds.make_dynamic_sampler(SCREAMING_SNAKE_CASE__ ,required_batch_size_multiple=SCREAMING_SNAKE_CASE__) __lowerCamelCase : int = [len(SCREAMING_SNAKE_CASE__) for x in batch_sampler] assert len(set(SCREAMING_SNAKE_CASE__)) > 1 # it's not dynamic batch size if every batch is the same length assert sum(SCREAMING_SNAKE_CASE__) == len(SCREAMING_SNAKE_CASE__) # no dropped or added examples __lowerCamelCase : Union[str, Any] = DataLoader(SCREAMING_SNAKE_CASE__ ,batch_sampler=SCREAMING_SNAKE_CASE__ ,collate_fn=ds.collate_fn ,num_workers=2) __lowerCamelCase : Optional[Any] = [] __lowerCamelCase : Tuple = [] for batch in data_loader: __lowerCamelCase : Tuple = batch['input_ids'].shape __lowerCamelCase : Dict = src_shape[0] assert bs % required_batch_size_multiple == 0 or bs < required_batch_size_multiple __lowerCamelCase : int = np.product(batch['input_ids'].shape) num_src_per_batch.append(SCREAMING_SNAKE_CASE__) if num_src_tokens > (max_tokens * 1.1): failures.append(SCREAMING_SNAKE_CASE__) assert num_src_per_batch[0] == max(SCREAMING_SNAKE_CASE__) if failures: raise AssertionError(F"too many tokens in {len(SCREAMING_SNAKE_CASE__)} batches") def lowerCAmelCase ( self : Any): __lowerCamelCase , __lowerCamelCase , __lowerCamelCase : Dict = self._get_dataset(max_len=5_1_2) __lowerCamelCase : Optional[int] = 2 __lowerCamelCase : Dict = ds.make_sortish_sampler(SCREAMING_SNAKE_CASE__ ,shuffle=SCREAMING_SNAKE_CASE__) __lowerCamelCase : Optional[int] = DataLoader(SCREAMING_SNAKE_CASE__ ,batch_size=SCREAMING_SNAKE_CASE__ ,collate_fn=ds.collate_fn ,num_workers=2) __lowerCamelCase : Any = DataLoader(SCREAMING_SNAKE_CASE__ ,batch_size=SCREAMING_SNAKE_CASE__ ,collate_fn=ds.collate_fn ,num_workers=2 ,sampler=SCREAMING_SNAKE_CASE__) __lowerCamelCase : Optional[Any] = tokenizer.pad_token_id def count_pad_tokens(SCREAMING_SNAKE_CASE__ : List[str] ,SCREAMING_SNAKE_CASE__ : Dict="input_ids"): return [batch[k].eq(SCREAMING_SNAKE_CASE__).sum().item() for batch in data_loader] assert sum(count_pad_tokens(SCREAMING_SNAKE_CASE__ ,k='labels')) < sum(count_pad_tokens(SCREAMING_SNAKE_CASE__ ,k='labels')) assert sum(count_pad_tokens(SCREAMING_SNAKE_CASE__)) < sum(count_pad_tokens(SCREAMING_SNAKE_CASE__)) assert len(SCREAMING_SNAKE_CASE__) == len(SCREAMING_SNAKE_CASE__) def lowerCAmelCase ( self : List[str] ,SCREAMING_SNAKE_CASE__ : str=1_0_0_0 ,SCREAMING_SNAKE_CASE__ : Dict=1_2_8): if os.getenv('USE_REAL_DATA' ,SCREAMING_SNAKE_CASE__): __lowerCamelCase : int = 'examples/seq2seq/wmt_en_ro' __lowerCamelCase : str = max_len * 2 * 6_4 if not Path(SCREAMING_SNAKE_CASE__).joinpath('train.len').exists(): save_len_file(SCREAMING_SNAKE_CASE__ ,SCREAMING_SNAKE_CASE__) else: __lowerCamelCase : Dict = 'examples/seq2seq/test_data/wmt_en_ro' __lowerCamelCase : Any = max_len * 4 save_len_file(SCREAMING_SNAKE_CASE__ ,SCREAMING_SNAKE_CASE__) __lowerCamelCase : Optional[Any] = AutoTokenizer.from_pretrained(SCREAMING_SNAKE_CASE__) __lowerCamelCase : int = SeqaSeqDataset( SCREAMING_SNAKE_CASE__ ,data_dir=SCREAMING_SNAKE_CASE__ ,type_path='train' ,max_source_length=SCREAMING_SNAKE_CASE__ ,max_target_length=SCREAMING_SNAKE_CASE__ ,n_obs=SCREAMING_SNAKE_CASE__ ,) return ds, max_tokens, tokenizer def lowerCAmelCase ( self : str): __lowerCamelCase , __lowerCamelCase , __lowerCamelCase : List[str] = self._get_dataset() __lowerCamelCase : List[str] = set(DistributedSortishSampler(SCREAMING_SNAKE_CASE__ ,2_5_6 ,num_replicas=2 ,rank=0 ,add_extra_examples=SCREAMING_SNAKE_CASE__)) __lowerCamelCase : Any = set(DistributedSortishSampler(SCREAMING_SNAKE_CASE__ ,2_5_6 ,num_replicas=2 ,rank=1 ,add_extra_examples=SCREAMING_SNAKE_CASE__)) assert idsa.intersection(SCREAMING_SNAKE_CASE__) == set() @parameterized.expand( [ MBART_TINY, MARIAN_TINY, T5_TINY, BART_TINY, PEGASUS_XSUM, ] ,) def lowerCAmelCase ( self : int ,SCREAMING_SNAKE_CASE__ : Optional[Any]): __lowerCamelCase : str = AutoTokenizer.from_pretrained(SCREAMING_SNAKE_CASE__ ,use_fast=SCREAMING_SNAKE_CASE__) if tok_name == MBART_TINY: __lowerCamelCase : List[str] = SeqaSeqDataset( SCREAMING_SNAKE_CASE__ ,data_dir=make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir()) ,type_path='train' ,max_source_length=4 ,max_target_length=8 ,src_lang='EN' ,tgt_lang='FR' ,) __lowerCamelCase : List[Any] = train_dataset.dataset_kwargs assert "src_lang" in kwargs and "tgt_lang" in kwargs else: __lowerCamelCase : Union[str, Any] = SeqaSeqDataset( SCREAMING_SNAKE_CASE__ ,data_dir=make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir()) ,type_path='train' ,max_source_length=4 ,max_target_length=8 ,) __lowerCamelCase : Dict = train_dataset.dataset_kwargs assert "add_prefix_space" not in kwargs if tok_name != BART_TINY else "add_prefix_space" in kwargs assert len(SCREAMING_SNAKE_CASE__) == 1 if tok_name == BART_TINY else len(SCREAMING_SNAKE_CASE__) == 0	73	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = { '''configuration_lxmert''': ['''LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LxmertConfig'''], '''tokenization_lxmert''': ['''LxmertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''LxmertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''LxmertEncoder''', '''LxmertForPreTraining''', '''LxmertForQuestionAnswering''', '''LxmertModel''', '''LxmertPreTrainedModel''', '''LxmertVisualFeatureEncoder''', '''LxmertXLayer''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFLxmertForPreTraining''', '''TFLxmertMainLayer''', '''TFLxmertModel''', '''TFLxmertPreTrainedModel''', '''TFLxmertVisualFeatureEncoder''', ] if TYPE_CHECKING: from .configuration_lxmert import LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, LxmertConfig from .tokenization_lxmert import LxmertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_lxmert_fast import LxmertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lxmert import ( LxmertEncoder, LxmertForPreTraining, LxmertForQuestionAnswering, LxmertModel, LxmertPreTrainedModel, LxmertVisualFeatureEncoder, LxmertXLayer, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_lxmert import ( TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFLxmertForPreTraining, TFLxmertMainLayer, TFLxmertModel, TFLxmertPreTrainedModel, TFLxmertVisualFeatureEncoder, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
"""simple docstring""" from typing import List, Optional, Union from ...configuration_utils import PretrainedConfig from ...utils import logging _lowercase = logging.get_logger(__name__) _lowercase = { '''huggingface/informer-tourism-monthly''': ( '''https://huggingface.co/huggingface/informer-tourism-monthly/resolve/main/config.json''' ), # See all Informer models at https://huggingface.co/models?filter=informer } class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: List[str] = '''informer''' _lowerCamelCase: Dict = { '''hidden_size''': '''d_model''', '''num_attention_heads''': '''encoder_attention_heads''', '''num_hidden_layers''': '''encoder_layers''', } def __init__( self : Union[str, Any] ,A_ : Optional[int] = None ,A_ : Optional[int] = None ,A_ : str = "student_t" ,A_ : str = "nll" ,A_ : int = 1 ,A_ : List[int] = None ,A_ : Optional[Union[str, bool]] = "mean" ,A_ : int = 0 ,A_ : int = 0 ,A_ : int = 0 ,A_ : int = 0 ,A_ : Optional[List[int]] = None ,A_ : Optional[List[int]] = None ,A_ : int = 64 ,A_ : int = 32 ,A_ : int = 32 ,A_ : int = 2 ,A_ : int = 2 ,A_ : int = 2 ,A_ : int = 2 ,A_ : bool = True ,A_ : str = "gelu" ,A_ : float = 0.05 ,A_ : float = 0.1 ,A_ : float = 0.1 ,A_ : float = 0.1 ,A_ : float = 0.1 ,A_ : int = 100 ,A_ : float = 0.02 ,A_ : Tuple=True ,A_ : str = "prob" ,A_ : int = 5 ,A_ : bool = True ,*A_ : Any ,) -> Dict: # time series specific configuration A = prediction_length A = context_length or prediction_length A = distribution_output A = loss A = input_size A = num_time_features A = lags_sequence if lags_sequence is not None else [1, 2, 3, 4, 5, 6, 7] A = scaling A = num_dynamic_real_features A = num_static_real_features A = num_static_categorical_features # set cardinality if cardinality and num_static_categorical_features > 0: if len(A_ ) != num_static_categorical_features: raise ValueError( 'The cardinality should be a list of the same length as `num_static_categorical_features`' ) A = cardinality else: A = [0] # set embedding_dimension if embedding_dimension and num_static_categorical_features > 0: if len(A_ ) != num_static_categorical_features: raise ValueError( 'The embedding dimension should be a list of the same length as `num_static_categorical_features`' ) A = embedding_dimension else: A = [min(50 ,(cat + 1) // 2 ) for cat in self.cardinality] A = num_parallel_samples # Transformer architecture configuration A = input_size len(self.lags_sequence ) + self._number_of_features A = d_model A = encoder_attention_heads A = decoder_attention_heads A = encoder_ffn_dim A = decoder_ffn_dim A = encoder_layers A = decoder_layers A = dropout A = attention_dropout A = activation_dropout A = encoder_layerdrop A = decoder_layerdrop A = activation_function A = init_std A = use_cache # Informer A = attention_type A = sampling_factor A = distil super().__init__(is_encoder_decoder=A_ ,*A_ ) @property def _SCREAMING_SNAKE_CASE ( self : Tuple ) -> int: return ( sum(self.embedding_dimension ) + self.num_dynamic_real_features + self.num_time_features + self.num_static_real_features + self.input_size 2 # the log1p(abs(loc)) and log(scale) features )	74	"""simple docstring""" def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for data in source_data: for i, el in enumerate(A_ ): if len(A_ ) < i + 1: data_lists.append([] ) data_lists[i].append(float(A_ ) ) return data_lists def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for dlist, weight in zip(A_, A_ ): _lowerCamelCase : Any = min(A_ ) _lowerCamelCase : Optional[Any] = max(A_ ) _lowerCamelCase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowerCamelCase : str = F'''Invalid weight of {weight:f} provided''' raise ValueError(A_ ) score_lists.append(A_ ) return score_lists def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(A_ ): _lowerCamelCase : List[str] = final_scores[j] + ele return final_scores def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : Tuple = get_data(A_ ) _lowerCamelCase : Optional[Any] = calculate_each_score(A_, A_ ) _lowerCamelCase : str = generate_final_scores(A_ ) # append scores to source data for i, ele in enumerate(A_ ): source_data[i].append(A_ ) return source_data	72
'''simple docstring''' from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) a_ : Union[str, Any] = { """configuration_funnel""": ["""FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP""", """FunnelConfig"""], """convert_funnel_original_tf_checkpoint_to_pytorch""": [], """tokenization_funnel""": ["""FunnelTokenizer"""], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a_ : List[str] = ["""FunnelTokenizerFast"""] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a_ : Optional[int] = [ """FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""", """FunnelBaseModel""", """FunnelForMaskedLM""", """FunnelForMultipleChoice""", """FunnelForPreTraining""", """FunnelForQuestionAnswering""", """FunnelForSequenceClassification""", """FunnelForTokenClassification""", """FunnelModel""", """FunnelPreTrainedModel""", """load_tf_weights_in_funnel""", ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a_ : Optional[Any] = [ """TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""", """TFFunnelBaseModel""", """TFFunnelForMaskedLM""", """TFFunnelForMultipleChoice""", """TFFunnelForPreTraining""", """TFFunnelForQuestionAnswering""", """TFFunnelForSequenceClassification""", """TFFunnelForTokenClassification""", """TFFunnelModel""", """TFFunnelPreTrainedModel""", ] if TYPE_CHECKING: from .configuration_funnel import FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP, FunnelConfig from .tokenization_funnel import FunnelTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_funnel_fast import FunnelTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_funnel import ( FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST, FunnelBaseModel, FunnelForMaskedLM, FunnelForMultipleChoice, FunnelForPreTraining, FunnelForQuestionAnswering, FunnelForSequenceClassification, FunnelForTokenClassification, FunnelModel, FunnelPreTrainedModel, load_tf_weights_in_funnel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_funnel import ( TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST, TFFunnelBaseModel, TFFunnelForMaskedLM, TFFunnelForMultipleChoice, TFFunnelForPreTraining, TFFunnelForQuestionAnswering, TFFunnelForSequenceClassification, TFFunnelForTokenClassification, TFFunnelModel, TFFunnelPreTrainedModel, ) else: import sys a_ : str = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)	75	"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = { '''microsoft/unispeech-large-1500h-cv''': ( '''https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json''' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class __snake_case ( _lowercase): snake_case__ : List[str] = "unispeech" def __init__( self : List[str] , __lowerCAmelCase : List[Any]=3_2 , __lowerCAmelCase : str=7_6_8 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=3_0_7_2 , __lowerCAmelCase : Tuple="gelu" , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : str=0.1 , __lowerCAmelCase : Tuple=0.0 , __lowerCAmelCase : Optional[int]=0.0 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Optional[int]=0.1 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Dict=1E-5 , __lowerCAmelCase : Optional[int]="group" , __lowerCAmelCase : Dict="gelu" , __lowerCAmelCase : int=(5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2) , __lowerCAmelCase : Optional[int]=(5, 2, 2, 2, 2, 2, 2) , __lowerCAmelCase : Union[str, Any]=(1_0, 3, 3, 3, 3, 2, 2) , __lowerCAmelCase : List[Any]=False , __lowerCAmelCase : List[str]=1_2_8 , __lowerCAmelCase : Any=1_6 , __lowerCAmelCase : Optional[int]=False , __lowerCAmelCase : Optional[Any]=True , __lowerCAmelCase : Union[str, Any]=0.05 , __lowerCAmelCase : Union[str, Any]=1_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.0 , __lowerCAmelCase : Optional[int]=1_0 , __lowerCAmelCase : Dict=0 , __lowerCAmelCase : List[str]=3_2_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Tuple=1_0_0 , __lowerCAmelCase : Dict=2_5_6 , __lowerCAmelCase : str=2_5_6 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Dict="mean" , __lowerCAmelCase : Union[str, Any]=False , __lowerCAmelCase : Dict=False , __lowerCAmelCase : Optional[Any]=2_5_6 , __lowerCAmelCase : Dict=8_0 , __lowerCAmelCase : int=0 , __lowerCAmelCase : Optional[int]=1 , __lowerCAmelCase : Dict=2 , __lowerCAmelCase : Any=0.5 , __lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__(__lowerCAmelCase , pad_token_id=__lowerCAmelCase , bos_token_id=__lowerCAmelCase , eos_token_id=__lowerCAmelCase ) _lowerCamelCase : Dict = hidden_size _lowerCamelCase : Any = feat_extract_norm _lowerCamelCase : List[Any] = feat_extract_activation _lowerCamelCase : Any = list(__lowerCAmelCase ) _lowerCamelCase : Tuple = list(__lowerCAmelCase ) _lowerCamelCase : int = list(__lowerCAmelCase ) _lowerCamelCase : List[str] = conv_bias _lowerCamelCase : List[str] = num_conv_pos_embeddings _lowerCamelCase : Tuple = num_conv_pos_embedding_groups _lowerCamelCase : List[str] = len(self.conv_dim ) _lowerCamelCase : Tuple = num_hidden_layers _lowerCamelCase : List[Any] = intermediate_size _lowerCamelCase : Dict = hidden_act _lowerCamelCase : Union[str, Any] = num_attention_heads _lowerCamelCase : Tuple = hidden_dropout _lowerCamelCase : List[Any] = attention_dropout _lowerCamelCase : Optional[int] = activation_dropout _lowerCamelCase : Optional[Any] = feat_proj_dropout _lowerCamelCase : Optional[int] = final_dropout _lowerCamelCase : Any = layerdrop _lowerCamelCase : Any = layer_norm_eps _lowerCamelCase : List[Any] = initializer_range _lowerCamelCase : List[str] = num_ctc_classes _lowerCamelCase : List[Any] = vocab_size _lowerCamelCase : Optional[Any] = do_stable_layer_norm _lowerCamelCase : Tuple = use_weighted_layer_sum _lowerCamelCase : List[Any] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' f''' {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,''' f''' `len(config.conv_kernel) = {len(self.conv_kernel )}`.''' ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 _lowerCamelCase : Any = apply_spec_augment _lowerCamelCase : Dict = mask_time_prob _lowerCamelCase : List[str] = mask_time_length _lowerCamelCase : Optional[Any] = mask_time_min_masks _lowerCamelCase : List[str] = mask_feature_prob _lowerCamelCase : int = mask_feature_length _lowerCamelCase : Dict = mask_feature_min_masks # parameters for pretraining with codevector quantized representations _lowerCamelCase : Optional[Any] = num_codevectors_per_group _lowerCamelCase : int = num_codevector_groups _lowerCamelCase : List[Any] = contrastive_logits_temperature _lowerCamelCase : List[str] = feat_quantizer_dropout _lowerCamelCase : Dict = num_negatives _lowerCamelCase : Optional[int] = codevector_dim _lowerCamelCase : List[Any] = proj_codevector_dim _lowerCamelCase : List[Any] = diversity_loss_weight # ctc loss _lowerCamelCase : Union[str, Any] = ctc_loss_reduction _lowerCamelCase : Any = ctc_zero_infinity # pretraining loss _lowerCamelCase : str = replace_prob @property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )	72
def lowerCamelCase__ ( _a , _a): _validate_point(_a) _validate_point(_a) if len(_a) != len(_a): raise ValueError("Both points must be in the same n-dimensional space") return float(sum(abs(a - b) for a, b in zip(_a , _a))) def lowerCamelCase__ ( _a): if point: if isinstance(_a , _a): for item in point: if not isinstance(_a , (int, float)): SCREAMING_SNAKE_CASE : List[Any] = ( "Expected a list of numbers as input, found " f"{type(_a).__name__}" ) raise TypeError(_a) else: SCREAMING_SNAKE_CASE : List[Any] = f"Expected a list of numbers as input, found {type(_a).__name__}" raise TypeError(_a) else: raise ValueError("Missing an input") def lowerCamelCase__ ( _a , _a): _validate_point(_a) _validate_point(_a) if len(_a) != len(_a): raise ValueError("Both points must be in the same n-dimensional space") return float(sum(abs(x - y) for x, y in zip(_a , _a))) if __name__ == "__main__": import doctest doctest.testmod()	76	"""simple docstring""" from typing import Optional from urllib.parse import quote import huggingface_hub as hfh from packaging import version def snake_case_ ( A_ : str, A_ : str, A_ : Optional[str] = None ): '''simple docstring''' if version.parse(hfh.__version__ ).release < version.parse('''0.11.0''' ).release: # old versions of hfh don't url-encode the file path _lowerCamelCase : Optional[Any] = quote(A_ ) return hfh.hf_hub_url(A_, A_, repo_type='''dataset''', revision=A_ )	72
"""simple docstring""" from typing import Dict, List, Optional, Tuple, Union import torch from ...models import AutoencoderKL, TransformeraDModel from ...schedulers import KarrasDiffusionSchedulers from ...utils import randn_tensor from ..pipeline_utils import DiffusionPipeline, ImagePipelineOutput class UpperCAmelCase_ ( _a): def __init__( self , a , a , a , a = None , ) -> Optional[int]: super().__init__() self.register_modules(transformer=a , vae=a , scheduler=a ) # create a imagenet -> id dictionary for easier use lowercase__ : Optional[int] = {} if idalabel is not None: for key, value in idalabel.items(): for label in value.split(',' ): lowercase__ : Union[str, Any] = int(a ) lowercase__ : int = dict(sorted(self.labels.items() ) ) def _UpperCAmelCase ( self , a ) -> List[int]: if not isinstance(a , a ): lowercase__ : List[str] = list(a ) for l in label: if l not in self.labels: raise ValueError( f"""{l} does not exist. Please make sure to select one of the following labels: \n {self.labels}.""" ) return [self.labels[l] for l in label] @torch.no_grad() def __call__( self , a , a = 4.0 , a = None , a = 5_0 , a = "pil" , a = True , ) -> Union[ImagePipelineOutput, Tuple]: lowercase__ : Optional[int] = len(a ) lowercase__ : List[Any] = self.transformer.config.sample_size lowercase__ : Optional[Any] = self.transformer.config.in_channels lowercase__ : Optional[Any] = randn_tensor( shape=(batch_size, latent_channels, latent_size, latent_size) , generator=a , device=self.device , dtype=self.transformer.dtype , ) lowercase__ : Union[str, Any] = torch.cat([latents] * 2 ) if guidance_scale > 1 else latents lowercase__ : Optional[int] = torch.tensor(a , device=self.device ).reshape(-1 ) lowercase__ : str = torch.tensor([1_0_0_0] * batch_size , device=self.device ) lowercase__ : List[str] = torch.cat([class_labels, class_null] , 0 ) if guidance_scale > 1 else class_labels # set step values self.scheduler.set_timesteps(a ) for t in self.progress_bar(self.scheduler.timesteps ): if guidance_scale > 1: lowercase__ : Optional[Any] = latent_model_input[: len(a ) // 2] lowercase__ : Optional[int] = torch.cat([half, half] , dim=0 ) lowercase__ : Dict = self.scheduler.scale_model_input(a , a ) lowercase__ : str = t if not torch.is_tensor(a ): # TODO: this requires sync between CPU and GPU. So try to pass timesteps as tensors if you can # This would be a good case for the `match` statement (Python 3.10+) lowercase__ : str = latent_model_input.device.type == 'mps' if isinstance(a , a ): lowercase__ : Optional[int] = torch.floataa if is_mps else torch.floataa else: lowercase__ : List[str] = torch.intaa if is_mps else torch.intaa lowercase__ : List[Any] = torch.tensor([timesteps] , dtype=a , device=latent_model_input.device ) elif len(timesteps.shape ) == 0: lowercase__ : int = timesteps[None].to(latent_model_input.device ) # broadcast to batch dimension in a way that's compatible with ONNX/Core ML lowercase__ : List[str] = timesteps.expand(latent_model_input.shape[0] ) # predict noise model_output lowercase__ : Optional[Any] = self.transformer( a , timestep=a , class_labels=a ).sample # perform guidance if guidance_scale > 1: lowercase__ , lowercase__ : Tuple = noise_pred[:, :latent_channels], noise_pred[:, latent_channels:] lowercase__ , lowercase__ : Dict = torch.split(a , len(a ) // 2 , dim=0 ) lowercase__ : Optional[int] = uncond_eps + guidance_scale * (cond_eps - uncond_eps) lowercase__ : str = torch.cat([half_eps, half_eps] , dim=0 ) lowercase__ : Union[str, Any] = torch.cat([eps, rest] , dim=1 ) # learned sigma if self.transformer.config.out_channels // 2 == latent_channels: lowercase__ , lowercase__ : int = torch.split(a , a , dim=1 ) else: lowercase__ : str = noise_pred # compute previous image: x_t -> x_t-1 lowercase__ : Optional[int] = self.scheduler.step(a , a , a ).prev_sample if guidance_scale > 1: lowercase__ , lowercase__ : str = latent_model_input.chunk(2 , dim=0 ) else: lowercase__ : List[Any] = latent_model_input lowercase__ : int = 1 / self.vae.config.scaling_factor * latents lowercase__ : List[str] = self.vae.decode(a ).sample lowercase__ : List[Any] = (samples / 2 + 0.5).clamp(0 , 1 ) # we always cast to float32 as this does not cause significant overhead and is compatible with bfloat16 lowercase__ : Tuple = samples.cpu().permute(0 , 2 , 3 , 1 ).float().numpy() if output_type == "pil": lowercase__ : Dict = self.numpy_to_pil(a ) if not return_dict: return (samples,) return ImagePipelineOutput(images=a )	77	"""simple docstring""" import unittest import numpy as np def snake_case_ ( A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray \| None = None, ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) if shape_a[0] != shape_b[0]: _lowerCamelCase : Tuple = ( '''Expected the same number of rows for A and B. ''' F'''Instead found A of size {shape_a} and B of size {shape_b}''' ) raise ValueError(A_ ) if shape_b[1] != shape_c[1]: _lowerCamelCase : Tuple = ( '''Expected the same number of columns for B and C. ''' F'''Instead found B of size {shape_b} and C of size {shape_c}''' ) raise ValueError(A_ ) _lowerCamelCase : List[str] = pseudo_inv if a_inv is None: try: _lowerCamelCase : Any = np.linalg.inv(A_ ) except np.linalg.LinAlgError: raise ValueError( '''Input matrix A is not invertible. Cannot compute Schur complement.''' ) return mat_c - mat_b.T @ a_inv @ mat_b class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : List[str] = np.array([[2, 1], [6, 3]] ) _lowerCamelCase : List[Any] = schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = np.block([[a, b], [b.T, c]] ) _lowerCamelCase : Tuple = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : List[str] = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : Any = np.linalg.det(__lowerCAmelCase ) self.assertAlmostEqual(__lowerCAmelCase , det_a * det_s ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : Optional[int] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : int = np.array([[2, 1], [6, 3]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : str = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : Union[str, Any] = np.array([[2, 1, 3], [6, 3, 5]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) if __name__ == "__main__": import doctest doctest.testmod() unittest.main()	72
"""simple docstring""" import os from datetime import datetime as dt from github import Github snake_case_ = [ """good first issue""", """feature request""", """wip""", ] def _lowerCAmelCase ( ): UpperCAmelCase = Github(os.environ['GITHUB_TOKEN'] ) UpperCAmelCase = g.get_repo('huggingface/accelerate' ) UpperCAmelCase = repo.get_issues(state='open' ) for issue in open_issues: UpperCAmelCase = sorted([comment for comment in issue.get_comments()] , key=lambda lowercase_ : i.created_at , reverse=lowercase_ ) UpperCAmelCase = comments[0] if len(lowercase_ ) > 0 else None UpperCAmelCase = dt.utcnow() UpperCAmelCase = (current_time - issue.updated_at).days UpperCAmelCase = (current_time - issue.created_at).days if ( last_comment is not None and last_comment.user.login == "github-actions[bot]" and days_since_updated > 7 and days_since_creation >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels() ) ): # Close issue since it has been 7 days of inactivity since bot mention. issue.edit(state='closed' ) elif ( days_since_updated > 23 and days_since_creation >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels() ) ): # Add stale comment issue.create_comment( 'This issue has been automatically marked as stale because it has not had ' 'recent activity. If you think this still needs to be addressed ' 'please comment on this thread.\n\nPlease note that issues that do not follow the ' '[contributing guidelines](https://github.com/huggingface/accelerate/blob/main/CONTRIBUTING.md) ' 'are likely to be ignored.' ) if __name__ == "__main__": main()	78	"""simple docstring""" def snake_case_ ( A_ : list[int], A_ : str ): '''simple docstring''' _lowerCamelCase : Tuple = int(A_ ) # Initialize Result _lowerCamelCase : Dict = [] # Traverse through all denomination for denomination in reversed(A_ ): # Find denominations while int(A_ ) >= int(A_ ): total_value -= int(A_ ) answer.append(A_ ) # Append the "answers" array return answer # Driver Code if __name__ == "__main__": lowerCAmelCase__ = [] lowerCAmelCase__ = '''0''' if ( input('''Do you want to enter your denominations ? (yY/n): ''').strip().lower() == "y" ): lowerCAmelCase__ = int(input('''Enter the number of denominations you want to add: ''').strip()) for i in range(0, n): denominations.append(int(input(F"""Denomination {i}: """).strip())) lowerCAmelCase__ = input('''Enter the change you want to make in Indian Currency: ''').strip() else: # All denominations of Indian Currency if user does not enter lowerCAmelCase__ = [1, 2, 5, 10, 20, 50, 100, 500, 2000] lowerCAmelCase__ = input('''Enter the change you want to make: ''').strip() if int(value) == 0 or int(value) < 0: print('''The total value cannot be zero or negative.''') else: print(F"""Following is minimal change for {value}: """) lowerCAmelCase__ = find_minimum_change(denominations, value) # Print result for i in range(len(answer)): print(answer[i], end=''' ''')	72
'''simple docstring''' import shutil import tempfile import unittest from transformers import ( SPIECE_UNDERLINE, AddedToken, BatchEncoding, NllbTokenizer, NllbTokenizerFast, is_torch_available, ) from transformers.testing_utils import ( get_tests_dir, nested_simplify, require_sentencepiece, require_tokenizers, require_torch, ) from ...test_tokenization_common import TokenizerTesterMixin lowerCamelCase_ = get_tests_dir('''fixtures/test_sentencepiece.model''') if is_torch_available(): from transformers.models.mam_aaa.modeling_mam_aaa import shift_tokens_right lowerCamelCase_ = 25_60_47 lowerCamelCase_ = 25_61_45 @require_sentencepiece @require_tokenizers class _UpperCAmelCase ( snake_case_ , unittest.TestCase ): """simple docstring""" snake_case = NllbTokenizer snake_case = NllbTokenizerFast snake_case = True snake_case = True snake_case = {} def lowerCAmelCase ( self : str ): '''simple docstring''' super().setUp() # We have a SentencePiece fixture for testing _A = NllbTokenizer(__UpperCAmelCase , keep_accents=__UpperCAmelCase ) tokenizer.save_pretrained(self.tmpdirname ) def lowerCAmelCase ( self : str ): '''simple docstring''' _A = NllbTokenizer(__UpperCAmelCase , keep_accents=__UpperCAmelCase ) _A = tokenizer.tokenize("This is a test" ) self.assertListEqual(__UpperCAmelCase , ["▁This", "▁is", "▁a", "▁t", "est"] ) self.assertListEqual( tokenizer.convert_tokens_to_ids(__UpperCAmelCase ) , [value + tokenizer.fairseq_offset for value in [285, 46, 10, 170, 382]] , ) _A = tokenizer.tokenize("I was born in 92000, and this is falsé." ) self.assertListEqual( __UpperCAmelCase , [ SPIECE_UNDERLINE + "I", SPIECE_UNDERLINE + "was", SPIECE_UNDERLINE + "b", "or", "n", SPIECE_UNDERLINE + "in", SPIECE_UNDERLINE + "", "9", "2", "0", "0", "0", ",", SPIECE_UNDERLINE + "and", SPIECE_UNDERLINE + "this", SPIECE_UNDERLINE + "is", SPIECE_UNDERLINE + "f", "al", "s", "é", ".", ] , ) _A = tokenizer.convert_tokens_to_ids(__UpperCAmelCase ) self.assertListEqual( __UpperCAmelCase , [ value + tokenizer.fairseq_offset for value in [8, 21, 84, 55, 24, 19, 7, 2, 602, 347, 347, 347, 3, 12, 66, 46, 72, 80, 6, 2, 4] ] , ) _A = tokenizer.convert_ids_to_tokens(__UpperCAmelCase ) self.assertListEqual( __UpperCAmelCase , [ SPIECE_UNDERLINE + "I", SPIECE_UNDERLINE + "was", SPIECE_UNDERLINE + "b", "or", "n", SPIECE_UNDERLINE + "in", SPIECE_UNDERLINE + "", "<unk>", "2", "0", "0", "0", ",", SPIECE_UNDERLINE + "and", SPIECE_UNDERLINE + "this", SPIECE_UNDERLINE + "is", SPIECE_UNDERLINE + "f", "al", "s", "<unk>", ".", ] , ) def lowerCAmelCase ( self : int ): '''simple docstring''' _A = (self.rust_tokenizer_class, "hf-internal-testing/tiny-random-nllb", {}) for tokenizer, pretrained_name, kwargs in self.tokenizers_list: with self.subTest(f'''{tokenizer.__class__.__name__} ({pretrained_name})''' ): _A = self.rust_tokenizer_class.from_pretrained(__UpperCAmelCase , __UpperCAmelCase ) _A = self.tokenizer_class.from_pretrained(__UpperCAmelCase , __UpperCAmelCase ) _A = tempfile.mkdtemp() _A = tokenizer_r.save_pretrained(__UpperCAmelCase ) _A = tokenizer_p.save_pretrained(__UpperCAmelCase ) # Checks it save with the same files + the tokenizer.json file for the fast one self.assertTrue(any("tokenizer.json" in f for f in tokenizer_r_files ) ) _A = tuple(f for f in tokenizer_r_files if "tokenizer.json" not in f ) self.assertSequenceEqual(__UpperCAmelCase , __UpperCAmelCase ) # Checks everything loads correctly in the same way _A = tokenizer_r.from_pretrained(__UpperCAmelCase ) _A = tokenizer_p.from_pretrained(__UpperCAmelCase ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(__UpperCAmelCase , __UpperCAmelCase ) ) shutil.rmtree(__UpperCAmelCase ) # Save tokenizer rust, legacy_format=True _A = tempfile.mkdtemp() _A = tokenizer_r.save_pretrained(__UpperCAmelCase , legacy_format=__UpperCAmelCase ) _A = tokenizer_p.save_pretrained(__UpperCAmelCase ) # Checks it save with the same files self.assertSequenceEqual(__UpperCAmelCase , __UpperCAmelCase ) # Checks everything loads correctly in the same way _A = tokenizer_r.from_pretrained(__UpperCAmelCase ) _A = tokenizer_p.from_pretrained(__UpperCAmelCase ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(__UpperCAmelCase , __UpperCAmelCase ) ) shutil.rmtree(__UpperCAmelCase ) # Save tokenizer rust, legacy_format=False _A = tempfile.mkdtemp() _A = tokenizer_r.save_pretrained(__UpperCAmelCase , legacy_format=__UpperCAmelCase ) _A = tokenizer_p.save_pretrained(__UpperCAmelCase ) # Checks it saved the tokenizer.json file self.assertTrue(any("tokenizer.json" in f for f in tokenizer_r_files ) ) # Checks everything loads correctly in the same way _A = tokenizer_r.from_pretrained(__UpperCAmelCase ) _A = tokenizer_p.from_pretrained(__UpperCAmelCase ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(__UpperCAmelCase , __UpperCAmelCase ) ) shutil.rmtree(__UpperCAmelCase ) @require_torch def lowerCAmelCase ( self : Union[str, Any] ): '''simple docstring''' if not self.test_seqaseq: return _A = self.get_tokenizers() for tokenizer in tokenizers: with self.subTest(f'''{tokenizer.__class__.__name__}''' ): # Longer text that will definitely require truncation. _A = [ " UN Chief Says There Is No Military Solution in Syria", " Secretary-General Ban Ki-moon says his response to Russia's stepped up military support for" " Syria is that 'there is no military solution' to the nearly five-year conflict and more weapons" " will only worsen the violence and misery for millions of people.", ] _A = [ "Şeful ONU declară că nu există o soluţie militară în Siria", "Secretarul General Ban Ki-moon declară că răspunsul său la intensificarea sprijinului militar al" " Rusiei pentru Siria este că \"nu există o soluţie militară\" la conflictul de aproape cinci ani şi" " că noi arme nu vor face decât să înrăutăţească violenţele şi mizeria pentru milioane de oameni.", ] try: _A = tokenizer.prepare_seqaseq_batch( src_texts=__UpperCAmelCase , tgt_texts=__UpperCAmelCase , max_length=3 , max_target_length=10 , return_tensors="pt" , src_lang="eng_Latn" , tgt_lang="ron_Latn" , ) except NotImplementedError: return self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.labels.shape[1] , 10 ) # max_target_length will default to max_length if not specified _A = tokenizer.prepare_seqaseq_batch( __UpperCAmelCase , tgt_texts=__UpperCAmelCase , max_length=3 , return_tensors="pt" ) self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.labels.shape[1] , 3 ) _A = tokenizer.prepare_seqaseq_batch( src_texts=__UpperCAmelCase , max_length=3 , max_target_length=10 , return_tensors="pt" ) self.assertEqual(batch_encoder_only.input_ids.shape[1] , 3 ) self.assertEqual(batch_encoder_only.attention_mask.shape[1] , 3 ) self.assertNotIn("decoder_input_ids" , __UpperCAmelCase ) @unittest.skip("Unfortunately way too slow to build a BPE with SentencePiece." ) def lowerCAmelCase ( self : Union[str, Any] ): '''simple docstring''' pass def lowerCAmelCase ( self : Dict ): '''simple docstring''' for tokenizer, pretrained_name, kwargs in self.tokenizers_list: with self.subTest(f'''{tokenizer.__class__.__name__} ({pretrained_name})''' ): _A = [AddedToken("<special>" , lstrip=__UpperCAmelCase )] _A = self.rust_tokenizer_class.from_pretrained( __UpperCAmelCase , additional_special_tokens=__UpperCAmelCase , __UpperCAmelCase ) _A = tokenizer_r.encode("Hey this is a <special> token" ) _A = tokenizer_r.encode("<special>" , add_special_tokens=__UpperCAmelCase )[0] self.assertTrue(special_token_id in r_output ) if self.test_slow_tokenizer: _A = self.rust_tokenizer_class.from_pretrained( __UpperCAmelCase , additional_special_tokens=__UpperCAmelCase , __UpperCAmelCase , ) _A = self.tokenizer_class.from_pretrained( __UpperCAmelCase , additional_special_tokens=__UpperCAmelCase , *__UpperCAmelCase ) _A = tokenizer_p.encode("Hey this is a <special> token" ) _A = tokenizer_cr.encode("Hey this is a <special> token" ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertTrue(special_token_id in p_output ) self.assertTrue(special_token_id in cr_output ) @require_torch @require_sentencepiece @require_tokenizers class _UpperCAmelCase ( unittest.TestCase ): """simple docstring""" snake_case = '''facebook/nllb-200-distilled-600M''' snake_case = [ ''' UN Chief Says There Is No Military Solution in Syria''', ''' Secretary-General Ban Ki-moon says his response to Russia\'s stepped up military support for Syria is that "there is no military solution" to the nearly five-year conflict and more weapons will only worsen the violence and misery for millions of people.''', ] snake_case = [ '''Şeful ONU declară că nu există o soluţie militară în Siria''', '''Secretarul General Ban Ki-moon declară că răspunsul său la intensificarea sprijinului militar al Rusiei''' ''' pentru Siria este că "nu există o soluţie militară" la conflictul de aproape cinci ani şi că noi arme nu vor''' ''' face decât să înrăutăţească violenţele şi mizeria pentru milioane de oameni.''', ] snake_case = [ 25_60_47, 1_62_97, 13_44_08, 81_65, 24_80_66, 1_47_34, 9_50, 11_35, 10_57_21, 35_73, 83, 2_73_52, 1_08, 4_94_86, 2, ] @classmethod def lowerCAmelCase ( cls : Optional[int] ): '''simple docstring''' _A = NllbTokenizer.from_pretrained( cls.checkpoint_name , src_lang="eng_Latn" , tgt_lang="ron_Latn" ) _A = 1 return cls def lowerCAmelCase ( self : List[str] ): '''simple docstring''' self.assertEqual(self.tokenizer.fairseq_tokens_to_ids["ace_Arab"] , 256001 ) self.assertEqual(self.tokenizer.fairseq_tokens_to_ids["ace_Latn"] , 256002 ) self.assertEqual(self.tokenizer.fairseq_tokens_to_ids["fra_Latn"] , 256057 ) def lowerCAmelCase ( self : int ): '''simple docstring''' _A = self.tokenizer.batch_encode_plus(self.src_text ).input_ids[0] self.assertListEqual(self.expected_src_tokens , __UpperCAmelCase ) def lowerCAmelCase ( self : Any ): '''simple docstring''' self.assertIn(__UpperCAmelCase , self.tokenizer.all_special_ids ) # fmt: off _A = [RO_CODE, 4254, 98068, 112923, 39072, 3909, 713, 102767, 26, 17314, 35642, 14683, 33118, 2022, 66987, 2, 256047] # fmt: on _A = self.tokenizer.decode(__UpperCAmelCase , skip_special_tokens=__UpperCAmelCase ) _A = self.tokenizer.decode(generated_ids[1:] , skip_special_tokens=__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertNotIn(self.tokenizer.eos_token , __UpperCAmelCase ) def lowerCAmelCase ( self : Tuple ): '''simple docstring''' _A = ["this is gunna be a long sentence " 20] assert isinstance(src_text[0] , __UpperCAmelCase ) _A = 10 _A = self.tokenizer(__UpperCAmelCase , max_length=__UpperCAmelCase , truncation=__UpperCAmelCase ).input_ids[0] self.assertEqual(ids[-1] , 2 ) self.assertEqual(ids[0] , __UpperCAmelCase ) self.assertEqual(len(__UpperCAmelCase ) , __UpperCAmelCase ) def lowerCAmelCase ( self : Any ): '''simple docstring''' self.assertListEqual(self.tokenizer.convert_tokens_to_ids(["<mask>", "ar_AR"] ) , [256203, 3] ) def lowerCAmelCase ( self : int ): '''simple docstring''' _A = tempfile.mkdtemp() _A = self.tokenizer.fairseq_tokens_to_ids self.tokenizer.save_pretrained(__UpperCAmelCase ) _A = NllbTokenizer.from_pretrained(__UpperCAmelCase ) self.assertDictEqual(new_tok.fairseq_tokens_to_ids , __UpperCAmelCase ) @require_torch def lowerCAmelCase ( self : Optional[Any] ): '''simple docstring''' _A = self.tokenizer( self.src_text , text_target=self.tgt_text , padding=__UpperCAmelCase , truncation=__UpperCAmelCase , max_length=len(self.expected_src_tokens ) , return_tensors="pt" , ) _A = shift_tokens_right( batch["labels"] , self.tokenizer.pad_token_id , self.tokenizer.lang_code_to_id["ron_Latn"] ) self.assertIsInstance(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual((2, 15) , batch.input_ids.shape ) self.assertEqual((2, 15) , batch.attention_mask.shape ) _A = batch.input_ids.tolist()[0] self.assertListEqual(self.expected_src_tokens , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , batch.decoder_input_ids[0, 0] ) # EOS # Test that special tokens are reset self.assertEqual(self.tokenizer.prefix_tokens , [EN_CODE] ) self.assertEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) def lowerCAmelCase ( self : List[str] ): '''simple docstring''' _A = self.tokenizer(self.src_text , padding=__UpperCAmelCase , truncation=__UpperCAmelCase , max_length=3 , return_tensors="pt" ) _A = self.tokenizer( text_target=self.tgt_text , padding=__UpperCAmelCase , truncation=__UpperCAmelCase , max_length=10 , return_tensors="pt" ) _A = targets["input_ids"] _A = shift_tokens_right( __UpperCAmelCase , self.tokenizer.pad_token_id , decoder_start_token_id=self.tokenizer.lang_code_to_id[self.tokenizer.tgt_lang] , ) self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.decoder_input_ids.shape[1] , 10 ) @require_torch def lowerCAmelCase ( self : List[str] ): '''simple docstring''' _A = self.tokenizer._build_translation_inputs( "A test" , return_tensors="pt" , src_lang="eng_Latn" , tgt_lang="fra_Latn" ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , { # A, test, EOS, en_XX "input_ids": [[256047, 70, 7356, 2]], "attention_mask": [[1, 1, 1, 1]], # ar_AR "forced_bos_token_id": 256057, } , ) @require_torch def lowerCAmelCase ( self : List[Any] ): '''simple docstring''' _A = True _A = self.tokenizer( "UN Chief says there is no military solution in Syria" , src_lang="eng_Latn" , tgt_lang="fra_Latn" ) self.assertEqual( inputs.input_ids , [16297, 134408, 25653, 6370, 248, 254, 103929, 94995, 108, 49486, 2, 256047] ) _A = False _A = self.tokenizer( "UN Chief says there is no military solution in Syria" , src_lang="eng_Latn" , tgt_lang="fra_Latn" ) self.assertEqual( inputs.input_ids , [256047, 16297, 134408, 25653, 6370, 248, 254, 103929, 94995, 108, 49486, 2] )	79	"""simple docstring""" def snake_case_ ( A_ : int = 2_00_00_00 ): '''simple docstring''' _lowerCamelCase : int = [0 for i in range(n + 1 )] _lowerCamelCase : List[str] = 1 _lowerCamelCase : Any = 1 for i in range(2, int(n*0.5 ) + 1 ): if primality_list[i] == 0: for j in range(i i, n + 1, A_ ): _lowerCamelCase : str = 1 _lowerCamelCase : Tuple = 0 for i in range(A_ ): if primality_list[i] == 0: sum_of_primes += i return sum_of_primes if __name__ == "__main__": print(F"""{solution() = }""")	72
'''simple docstring''' def _UpperCamelCase ( __A ) -> list: '''simple docstring''' def merge(__A , __A ) -> list: def _merge(): while left and right: yield (left if left[0] <= right[0] else right).pop(0 ) yield from left yield from right return list(_merge() ) if len(__A ) <= 1: return collection UpperCamelCase__ = len(__A ) // 2 return merge(merge_sort(collection[:mid] ) , merge_sort(collection[mid:] ) ) if __name__ == "__main__": import doctest doctest.testmod() a__ : List[str] = input('Enter numbers separated by a comma:\n').strip() a__ : Tuple = [int(item) for item in user_input.split(',')] print(*merge_sort(unsorted), sep=',')	80	"""simple docstring""" import argparse import torch from torch import nn from transformers import MBartConfig, MBartForConditionalGeneration def snake_case_ ( A_ : Any ): '''simple docstring''' _lowerCamelCase : Any = [ '''encoder.version''', '''decoder.version''', '''model.encoder.version''', '''model.decoder.version''', '''_float_tensor''', '''decoder.output_projection.weight''', ] for k in ignore_keys: state_dict.pop(A_, A_ ) def snake_case_ ( A_ : Union[str, Any] ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : Tuple = emb.weight.shape _lowerCamelCase : Dict = nn.Linear(A_, A_, bias=A_ ) _lowerCamelCase : str = emb.weight.data return lin_layer def snake_case_ ( A_ : str, A_ : Optional[int]="facebook/mbart-large-en-ro", A_ : Union[str, Any]=False, A_ : List[str]=False ): '''simple docstring''' _lowerCamelCase : Tuple = torch.load(A_, map_location='''cpu''' )['''model'''] remove_ignore_keys_(A_ ) _lowerCamelCase : int = state_dict['''encoder.embed_tokens.weight'''].shape[0] _lowerCamelCase : Any = MBartConfig.from_pretrained(A_, vocab_size=A_ ) if mbart_aa and finetuned: _lowerCamelCase : Any = '''relu''' _lowerCamelCase : Optional[int] = state_dict['''decoder.embed_tokens.weight'''] _lowerCamelCase : Any = MBartForConditionalGeneration(A_ ) model.model.load_state_dict(A_ ) if finetuned: _lowerCamelCase : str = make_linear_from_emb(model.model.shared ) return model if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''fairseq_path''', type=str, help='''bart.large, bart.large.cnn or a path to a model.pt on local filesystem.''' ) parser.add_argument('''pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model.''') parser.add_argument( '''--hf_config''', default='''facebook/mbart-large-cc25''', type=str, help='''Which huggingface architecture to use: mbart-large''', ) parser.add_argument('''--mbart_50''', action='''store_true''', help='''whether the model is mMART-50 checkpoint''') parser.add_argument('''--finetuned''', action='''store_true''', help='''whether the model is a fine-tuned checkpoint''') lowerCAmelCase__ = parser.parse_args() lowerCAmelCase__ = convert_fairseq_mbart_checkpoint_from_disk( args.fairseq_path, hf_config_path=args.hf_config, finetuned=args.finetuned, mbart_aa=args.mbart_aa ) model.save_pretrained(args.pytorch_dump_folder_path)	72
"""simple docstring""" lowerCamelCase_ : List[Any] = """0.18.2""" from .configuration_utils import ConfigMixin from .utils import ( OptionalDependencyNotAvailable, is_flax_available, is_inflect_available, is_invisible_watermark_available, is_k_diffusion_available, is_k_diffusion_version, is_librosa_available, is_note_seq_available, is_onnx_available, is_scipy_available, is_torch_available, is_torchsde_available, is_transformers_available, is_transformers_version, is_unidecode_available, logging, ) try: if not is_onnx_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_onnx_objects import * # noqa F403 else: from .pipelines import OnnxRuntimeModel try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_pt_objects import * # noqa F403 else: from .models import ( AutoencoderKL, ControlNetModel, ModelMixin, PriorTransformer, TaFilmDecoder, TransformeraDModel, UNetaDModel, UNetaDConditionModel, UNetaDModel, UNetaDConditionModel, VQModel, ) from .optimization import ( get_constant_schedule, get_constant_schedule_with_warmup, get_cosine_schedule_with_warmup, get_cosine_with_hard_restarts_schedule_with_warmup, get_linear_schedule_with_warmup, get_polynomial_decay_schedule_with_warmup, get_scheduler, ) from .pipelines import ( AudioPipelineOutput, ConsistencyModelPipeline, DanceDiffusionPipeline, DDIMPipeline, DDPMPipeline, DiffusionPipeline, DiTPipeline, ImagePipelineOutput, KarrasVePipeline, LDMPipeline, LDMSuperResolutionPipeline, PNDMPipeline, RePaintPipeline, ScoreSdeVePipeline, ) from .schedulers import ( CMStochasticIterativeScheduler, DDIMInverseScheduler, DDIMParallelScheduler, DDIMScheduler, DDPMParallelScheduler, DDPMScheduler, DEISMultistepScheduler, DPMSolverMultistepInverseScheduler, DPMSolverMultistepScheduler, DPMSolverSinglestepScheduler, EulerAncestralDiscreteScheduler, EulerDiscreteScheduler, HeunDiscreteScheduler, IPNDMScheduler, KarrasVeScheduler, KDPMaAncestralDiscreteScheduler, KDPMaDiscreteScheduler, PNDMScheduler, RePaintScheduler, SchedulerMixin, ScoreSdeVeScheduler, UnCLIPScheduler, UniPCMultistepScheduler, VQDiffusionScheduler, ) from .training_utils import EMAModel try: if not (is_torch_available() and is_scipy_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_scipy_objects import * # noqa F403 else: from .schedulers import LMSDiscreteScheduler try: if not (is_torch_available() and is_torchsde_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_torchsde_objects import * # noqa F403 else: from .schedulers import DPMSolverSDEScheduler try: if not (is_torch_available() and is_transformers_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_transformers_objects import * # noqa F403 else: from .pipelines import ( AltDiffusionImgaImgPipeline, AltDiffusionPipeline, AudioLDMPipeline, CycleDiffusionPipeline, IFImgaImgPipeline, IFImgaImgSuperResolutionPipeline, IFInpaintingPipeline, IFInpaintingSuperResolutionPipeline, IFPipeline, IFSuperResolutionPipeline, ImageTextPipelineOutput, KandinskyImgaImgPipeline, KandinskyInpaintPipeline, KandinskyPipeline, KandinskyPriorPipeline, KandinskyVaaControlnetImgaImgPipeline, KandinskyVaaControlnetPipeline, KandinskyVaaImgaImgPipeline, KandinskyVaaInpaintPipeline, KandinskyVaaPipeline, KandinskyVaaPriorEmbaEmbPipeline, KandinskyVaaPriorPipeline, LDMTextToImagePipeline, PaintByExamplePipeline, SemanticStableDiffusionPipeline, ShapEImgaImgPipeline, ShapEPipeline, StableDiffusionAttendAndExcitePipeline, StableDiffusionControlNetImgaImgPipeline, StableDiffusionControlNetInpaintPipeline, StableDiffusionControlNetPipeline, StableDiffusionDepthaImgPipeline, StableDiffusionDiffEditPipeline, StableDiffusionImageVariationPipeline, StableDiffusionImgaImgPipeline, StableDiffusionInpaintPipeline, StableDiffusionInpaintPipelineLegacy, StableDiffusionInstructPixaPixPipeline, StableDiffusionLatentUpscalePipeline, StableDiffusionLDMaDPipeline, StableDiffusionModelEditingPipeline, StableDiffusionPanoramaPipeline, StableDiffusionParadigmsPipeline, StableDiffusionPipeline, StableDiffusionPipelineSafe, StableDiffusionPixaPixZeroPipeline, StableDiffusionSAGPipeline, StableDiffusionUpscalePipeline, StableUnCLIPImgaImgPipeline, StableUnCLIPPipeline, TextToVideoSDPipeline, TextToVideoZeroPipeline, UnCLIPImageVariationPipeline, UnCLIPPipeline, UniDiffuserModel, UniDiffuserPipeline, UniDiffuserTextDecoder, VersatileDiffusionDualGuidedPipeline, VersatileDiffusionImageVariationPipeline, VersatileDiffusionPipeline, VersatileDiffusionTextToImagePipeline, VideoToVideoSDPipeline, VQDiffusionPipeline, ) try: if not (is_torch_available() and is_transformers_available() and is_invisible_watermark_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_transformers_and_invisible_watermark_objects import * # noqa F403 else: from .pipelines import StableDiffusionXLImgaImgPipeline, StableDiffusionXLPipeline try: if not (is_torch_available() and is_transformers_available() and is_k_diffusion_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_transformers_and_k_diffusion_objects import * # noqa F403 else: from .pipelines import StableDiffusionKDiffusionPipeline try: if not (is_torch_available() and is_transformers_available() and is_onnx_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_transformers_and_onnx_objects import * # noqa F403 else: from .pipelines import ( OnnxStableDiffusionImgaImgPipeline, OnnxStableDiffusionInpaintPipeline, OnnxStableDiffusionInpaintPipelineLegacy, OnnxStableDiffusionPipeline, OnnxStableDiffusionUpscalePipeline, StableDiffusionOnnxPipeline, ) try: if not (is_torch_available() and is_librosa_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_librosa_objects import * # noqa F403 else: from .pipelines import AudioDiffusionPipeline, Mel try: if not (is_transformers_available() and is_torch_available() and is_note_seq_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_transformers_and_torch_and_note_seq_objects import * # noqa F403 else: from .pipelines import SpectrogramDiffusionPipeline try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_flax_objects import * # noqa F403 else: from .models.controlnet_flax import FlaxControlNetModel from .models.modeling_flax_utils import FlaxModelMixin from .models.unet_ad_condition_flax import FlaxUNetaDConditionModel from .models.vae_flax import FlaxAutoencoderKL from .pipelines import FlaxDiffusionPipeline from .schedulers import ( FlaxDDIMScheduler, FlaxDDPMScheduler, FlaxDPMSolverMultistepScheduler, FlaxKarrasVeScheduler, FlaxLMSDiscreteScheduler, FlaxPNDMScheduler, FlaxSchedulerMixin, FlaxScoreSdeVeScheduler, ) try: if not (is_flax_available() and is_transformers_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_flax_and_transformers_objects import * # noqa F403 else: from .pipelines import ( FlaxStableDiffusionControlNetPipeline, FlaxStableDiffusionImgaImgPipeline, FlaxStableDiffusionInpaintPipeline, FlaxStableDiffusionPipeline, ) try: if not (is_note_seq_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_note_seq_objects import * # noqa F403 else: from .pipelines import MidiProcessor	81	"""simple docstring""" def snake_case_ ( A_ : list[list] ): '''simple docstring''' _lowerCamelCase : Optional[int] = current_set.copy() for row_index, row in enumerate(A_ ): _lowerCamelCase : Tuple = row[0] for column_index, column in enumerate(A_ ): if magnitude == 0: _lowerCamelCase : List[Any] = column continue _lowerCamelCase : List[Any] = column / magnitude # Subtract to cancel term _lowerCamelCase : Union[str, Any] = current_set[0] _lowerCamelCase : Dict = [first_row] _lowerCamelCase : str = current_set[1::] for row in current_set: _lowerCamelCase : Union[str, Any] = [] # If first term is 0, it is already in form we want, so we preserve it if row[0] == 0: final_set.append(A_ ) continue for column_index in range(len(A_ ) ): temp_row.append(first_row[column_index] - row[column_index] ) final_set.append(A_ ) # Create next recursion iteration set if len(final_set[0] ) != 3: _lowerCamelCase : Any = final_set[0] _lowerCamelCase : Any = [] _lowerCamelCase : Optional[int] = [] for row in final_set[1::]: current_first_column.append(row[0] ) next_iteration.append(row[1::] ) _lowerCamelCase : Dict = simplify(A_ ) for i in range(len(A_ ) ): resultant[i].insert(0, current_first_column[i] ) resultant.insert(0, A_ ) _lowerCamelCase : Tuple = resultant return final_set def snake_case_ ( A_ : list[list] ): '''simple docstring''' if len(A_ ) == 0: raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) _lowerCamelCase : Dict = len(A_ ) + 1 if any(len(A_ ) != _length for item in equations ): raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) for row in equations: if any(not isinstance(A_, (int, float) ) for column in row ): raise ValueError('''solve_simultaneous() requires lists of integers''' ) if len(A_ ) == 1: return [equations[0][-1] / equations[0][0]] _lowerCamelCase : Optional[Any] = equations.copy() if any(0 in row for row in data_set ): _lowerCamelCase : str = data_set.copy() _lowerCamelCase : List[Any] = [] for row_index, row in enumerate(A_ ): if 0 not in row: _lowerCamelCase : Union[str, Any] = data_set.pop(A_ ) break if not full_row: raise ValueError('''solve_simultaneous() requires at least 1 full equation''' ) data_set.insert(0, A_ ) _lowerCamelCase : List[str] = data_set.copy() _lowerCamelCase : int = simplify(A_ ) _lowerCamelCase : int = simplified[::-1] _lowerCamelCase : list = [] for row in simplified: _lowerCamelCase : Tuple = row[-1] if not solutions: if row[-2] == 0: solutions.append(0 ) continue solutions.append(current_solution / row[-2] ) continue _lowerCamelCase : Optional[Any] = row.copy()[: len(A_ ) - 1 :] while temp_row[0] == 0: temp_row.pop(0 ) if len(A_ ) == 0: solutions.append(0 ) continue _lowerCamelCase : Tuple = temp_row[1::] _lowerCamelCase : Tuple = temp_row[::-1] for column_index, column in enumerate(A_ ): current_solution -= column * solutions[column_index] solutions.append(A_ ) _lowerCamelCase : Optional[int] = [] for item in solutions: final.append(float(round(A_, 5 ) ) ) return final[::-1] if __name__ == "__main__": import doctest doctest.testmod() lowerCAmelCase__ = [ [2, 1, 1, 1, 1, 4], [1, 2, 1, 1, 1, 5], [1, 1, 2, 1, 1, 6], [1, 1, 1, 2, 1, 7], [1, 1, 1, 1, 2, 8], ] print(solve_simultaneous(eq)) print(solve_simultaneous([[4, 2]]))	72
def _UpperCAmelCase ( snake_case , snake_case , snake_case , snake_case , snake_case ): """simple docstring""" if index == number_of_items: return 0 _lowerCAmelCase = 0 _lowerCAmelCase = 0 _lowerCAmelCase = knapsack(snake_case , snake_case , snake_case , snake_case , index + 1 ) if weights[index] <= max_weight: _lowerCAmelCase = values[index] + knapsack( snake_case , snake_case , snake_case , max_weight - weights[index] , index + 1 ) return max(snake_case , snake_case ) if __name__ == "__main__": import doctest doctest.testmod()	82	"""simple docstring""" import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class __snake_case ( _lowercase): snake_case__ : List[Any] = "Speech2TextFeatureExtractor" snake_case__ : Union[str, Any] = "Speech2TextTokenizer" def __init__( self : int , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" super().__init__(__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : str = False def __call__( self : List[Any] , __lowerCAmelCase : int , __lowerCAmelCase : List[str] ): """simple docstring""" if self._in_target_context_manager: return self.current_processor(__lowerCAmelCase , *__lowerCAmelCase ) if "raw_speech" in kwargs: warnings.warn('''Using `raw_speech` as a keyword argument is deprecated. Use `audio` instead.''' ) _lowerCamelCase : str = kwargs.pop('''raw_speech''' ) else: _lowerCamelCase : Tuple = kwargs.pop('''audio''' , __lowerCAmelCase ) _lowerCamelCase : Optional[Any] = kwargs.pop('''sampling_rate''' , __lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = kwargs.pop('''text''' , __lowerCAmelCase ) if len(__lowerCAmelCase ) > 0: _lowerCamelCase : List[Any] = args[0] _lowerCamelCase : int = args[1:] if audio is None and text is None: raise ValueError('''You need to specify either an `audio` or `text` input to process.''' ) if audio is not None: _lowerCamelCase : List[Any] = self.feature_extractor(__lowerCAmelCase , __lowerCAmelCase , sampling_rate=__lowerCAmelCase , __lowerCAmelCase ) if text is not None: _lowerCamelCase : List[Any] = self.tokenizer(__lowerCAmelCase , __lowerCAmelCase ) if text is None: return inputs elif audio is None: return encodings else: _lowerCamelCase : List[str] = encodings['''input_ids'''] return inputs def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : List[Any] , __lowerCAmelCase : Tuple ): """simple docstring""" return self.tokenizer.batch_decode(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : List[str] , *__lowerCAmelCase : int ): """simple docstring""" return self.tokenizer.decode(__lowerCAmelCase , **__lowerCAmelCase ) @contextmanager def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" warnings.warn( '''`as_target_processor` is deprecated and will be removed in v5 of Transformers. You can process your ''' '''labels by using the argument `text` of the regular `__call__` method (either in the same call as ''' '''your audio inputs, or in a separate call.''' ) _lowerCamelCase : Union[str, Any] = True _lowerCamelCase : Any = self.tokenizer yield _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : Tuple = False	72
'''simple docstring''' import copy from typing import Dict, Optional from ...configuration_utils import PretrainedConfig from ...utils import logging from ..auto import CONFIG_MAPPING from ..detr import DetrConfig from ..swin import SwinConfig snake_case_ : List[str] = { 'facebook/maskformer-swin-base-ade': ( 'https://huggingface.co/facebook/maskformer-swin-base-ade/blob/main/config.json' ) # See all MaskFormer models at https://huggingface.co/models?filter=maskformer } snake_case_ : Tuple = logging.get_logger(__name__) class lowercase__ ( lowercase ): lowercase__ = """maskformer""" lowercase__ = {"""hidden_size""": """mask_feature_size"""} lowercase__ = ["""resnet""", """swin"""] lowercase__ = ["""detr"""] def __init__( self : Union[str, Any] ,lowerCamelCase__ : int = 256 ,lowerCamelCase__ : int = 256 ,lowerCamelCase__ : float = 0.1 ,lowerCamelCase__ : bool = False ,lowerCamelCase__ : Optional[Dict] = None ,lowerCamelCase__ : Optional[Dict] = None ,lowerCamelCase__ : float = 0.0_2 ,lowerCamelCase__ : float = 1.0 ,lowerCamelCase__ : float = 1.0 ,lowerCamelCase__ : float = 1.0 ,lowerCamelCase__ : float = 2_0.0 ,lowerCamelCase__ : Optional[bool] = None ,lowerCamelCase__ : Any ,): '''simple docstring''' if backbone_config is None: # fall back to https://huggingface.co/microsoft/swin-base-patch4-window12-384-in22k _UpperCamelCase : Optional[Any] = SwinConfig( image_size=384 ,in_channels=3 ,patch_size=4 ,embed_dim=128 ,depths=[2, 2, 18, 2] ,num_heads=[4, 8, 16, 32] ,window_size=12 ,drop_path_rate=0.3 ,out_features=['stage1', 'stage2', 'stage3', 'stage4'] ,) if isinstance(lowerCamelCase__ ,lowerCamelCase__ ): _UpperCamelCase : Tuple = backbone_config.pop('model_type' ) _UpperCamelCase : Optional[Any] = CONFIG_MAPPING[backbone_model_type] _UpperCamelCase : Optional[int] = config_class.from_dict(lowerCamelCase__ ) # verify that the backbone is supported if backbone_config.model_type not in self.backbones_supported: logger.warning_once( F'Backbone {backbone_config.model_type} is not a supported model and may not be compatible with MaskFormer. ' F'Supported model types: {",".join(self.backbones_supported )}' ) if decoder_config is None: # fall back to https://huggingface.co/facebook/detr-resnet-50 _UpperCamelCase : List[Any] = DetrConfig() else: # verify that the decoder is supported _UpperCamelCase : Tuple = ( decoder_config.pop('model_type' ) if isinstance(lowerCamelCase__ ,lowerCamelCase__ ) else decoder_config.model_type ) if decoder_type not in self.decoders_supported: raise ValueError( F'Transformer Decoder {decoder_type} not supported, please use one of' F' {",".join(self.decoders_supported )}' ) if isinstance(lowerCamelCase__ ,lowerCamelCase__ ): _UpperCamelCase : Optional[Any] = CONFIG_MAPPING[decoder_type] _UpperCamelCase : Optional[Any] = config_class.from_dict(lowerCamelCase__ ) _UpperCamelCase : Dict = backbone_config _UpperCamelCase : Optional[Any] = decoder_config # main feature dimension for the model _UpperCamelCase : Dict = fpn_feature_size _UpperCamelCase : str = mask_feature_size # initializer _UpperCamelCase : Any = init_std _UpperCamelCase : Any = init_xavier_std # Hungarian matcher && loss _UpperCamelCase : Optional[int] = cross_entropy_weight _UpperCamelCase : Union[str, Any] = dice_weight _UpperCamelCase : Tuple = mask_weight _UpperCamelCase : Optional[int] = use_auxiliary_loss _UpperCamelCase : List[str] = no_object_weight _UpperCamelCase : Optional[int] = output_auxiliary_logits _UpperCamelCase : List[str] = self.decoder_config.encoder_attention_heads _UpperCamelCase : Optional[Any] = self.decoder_config.num_hidden_layers super().__init__(lowerCamelCase__ ) @classmethod def UpperCamelCase_ ( cls : Union[str, Any] ,lowerCamelCase__ : PretrainedConfig ,lowerCamelCase__ : PretrainedConfig ,lowerCamelCase__ : Union[str, Any] ): '''simple docstring''' return cls( backbone_config=lowerCamelCase__ ,decoder_config=lowerCamelCase__ ,lowerCamelCase__ ,) def UpperCamelCase_ ( self : Union[str, Any] ): '''simple docstring''' _UpperCamelCase : Union[str, Any] = copy.deepcopy(self.__dict__ ) _UpperCamelCase : str = self.backbone_config.to_dict() _UpperCamelCase : Any = self.decoder_config.to_dict() _UpperCamelCase : Any = self.__class__.model_type return output	83	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = {'''configuration_reformer''': ['''REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ReformerConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ReformerAttention''', '''ReformerForMaskedLM''', '''ReformerForQuestionAnswering''', '''ReformerForSequenceClassification''', '''ReformerLayer''', '''ReformerModel''', '''ReformerModelWithLMHead''', '''ReformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_reformer import REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, ReformerConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer import ReformerTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer_fast import ReformerTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_reformer import ( REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, ReformerAttention, ReformerForMaskedLM, ReformerForQuestionAnswering, ReformerForSequenceClassification, ReformerLayer, ReformerModel, ReformerModelWithLMHead, ReformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
"""simple docstring""" # This code is adapted from OpenAI's release # https://github.com/openai/human-eval/blob/master/human_eval/execution.py import contextlib import faulthandler import io import multiprocessing import os import platform import signal import tempfile def _snake_case ( lowercase__ : List[Any] , lowercase__ : Tuple , lowercase__ : List[Any] , lowercase__ : Optional[Any] ) -> Optional[Any]: '''simple docstring''' lowerCAmelCase_ :Optional[Any] = multiprocessing.Manager() lowerCAmelCase_ :Union[str, Any] = manager.list() lowerCAmelCase_ :Any = multiprocessing.Process(target=lowercase__ , args=(check_program, result, timeout) ) p.start() p.join(timeout=timeout + 1 ) if p.is_alive(): p.kill() if not result: result.append("""timed out""" ) return { "task_id": task_id, "passed": result[0] == "passed", "result": result[0], "completion_id": completion_id, } def _snake_case ( lowercase__ : List[Any] , lowercase__ : Union[str, Any] , lowercase__ : Tuple ) -> List[str]: '''simple docstring''' with create_tempdir(): # These system calls are needed when cleaning up tempdir. import os import shutil lowerCAmelCase_ :Union[str, Any] = shutil.rmtree lowerCAmelCase_ :str = os.rmdir lowerCAmelCase_ :Any = os.chdir # Disable functionalities that can make destructive changes to the test. reliability_guard() # Run program. try: lowerCAmelCase_ :Any = {} with swallow_io(): with time_limit(lowercase__ ): exec(lowercase__ , lowercase__ ) result.append("""passed""" ) except TimeoutException: result.append("""timed out""" ) except BaseException as e: result.append(f"""failed: {e}""" ) # Needed for cleaning up. lowerCAmelCase_ :Dict = rmtree lowerCAmelCase_ :List[str] = rmdir lowerCAmelCase_ :int = chdir @contextlib.contextmanager def _snake_case ( lowercase__ : Tuple ) -> Optional[int]: '''simple docstring''' def signal_handler(lowercase__ : List[Any] , lowercase__ : Dict ): raise TimeoutException("""Timed out!""" ) signal.setitimer(signal.ITIMER_REAL , lowercase__ ) signal.signal(signal.SIGALRM , lowercase__ ) try: yield finally: signal.setitimer(signal.ITIMER_REAL , 0 ) @contextlib.contextmanager def _snake_case ( ) -> List[Any]: '''simple docstring''' lowerCAmelCase_ :List[str] = WriteOnlyStringIO() with contextlib.redirect_stdout(lowercase__ ): with contextlib.redirect_stderr(lowercase__ ): with redirect_stdin(lowercase__ ): yield @contextlib.contextmanager def _snake_case ( ) -> int: '''simple docstring''' with tempfile.TemporaryDirectory() as dirname: with chdir(lowercase__ ): yield dirname class _SCREAMING_SNAKE_CASE ( A__ ): pass class _SCREAMING_SNAKE_CASE ( io.StringIO ): def __lowerCAmelCase ( self , __A , __A ) -> List[str]: raise OSError def __lowerCAmelCase ( self , __A , *__A ) -> Optional[int]: raise OSError def __lowerCAmelCase ( self , __A , *__A ) -> List[Any]: raise OSError def __lowerCAmelCase ( self , __A , **__A ) -> Dict: return False class _SCREAMING_SNAKE_CASE ( contextlib._RedirectStream ): # type: ignore UpperCAmelCase_ :Union[str, Any] = "stdin" @contextlib.contextmanager def _snake_case ( lowercase__ : Dict ) -> Dict: '''simple docstring''' if root == ".": yield return lowerCAmelCase_ :List[Any] = os.getcwd() os.chdir(lowercase__ ) try: yield except BaseException as exc: raise exc finally: os.chdir(lowercase__ ) def _snake_case ( lowercase__ : List[str]=None ) -> List[str]: '''simple docstring''' if maximum_memory_bytes is not None: import resource resource.setrlimit(resource.RLIMIT_AS , (maximum_memory_bytes, maximum_memory_bytes) ) resource.setrlimit(resource.RLIMIT_DATA , (maximum_memory_bytes, maximum_memory_bytes) ) if not platform.uname().system == "Darwin": resource.setrlimit(resource.RLIMIT_STACK , (maximum_memory_bytes, maximum_memory_bytes) ) faulthandler.disable() import builtins lowerCAmelCase_ :Any = None lowerCAmelCase_ :Optional[int] = None import os lowerCAmelCase_ :List[str] = """1""" lowerCAmelCase_ :Tuple = None lowerCAmelCase_ :Union[str, Any] = None lowerCAmelCase_ :Dict = None lowerCAmelCase_ :Dict = None lowerCAmelCase_ :Any = None lowerCAmelCase_ :Dict = None lowerCAmelCase_ :Union[str, Any] = None lowerCAmelCase_ :List[Any] = None lowerCAmelCase_ :Optional[Any] = None lowerCAmelCase_ :Dict = None lowerCAmelCase_ :Any = None lowerCAmelCase_ :str = None lowerCAmelCase_ :Optional[Any] = None lowerCAmelCase_ :Optional[int] = None lowerCAmelCase_ :int = None lowerCAmelCase_ :List[str] = None lowerCAmelCase_ :Union[str, Any] = None lowerCAmelCase_ :List[str] = None lowerCAmelCase_ :Optional[int] = None lowerCAmelCase_ :Any = None lowerCAmelCase_ :Optional[Any] = None lowerCAmelCase_ :Dict = None lowerCAmelCase_ :List[str] = None lowerCAmelCase_ :Optional[Any] = None lowerCAmelCase_ :List[str] = None lowerCAmelCase_ :Optional[int] = None lowerCAmelCase_ :Dict = None import shutil lowerCAmelCase_ :Union[str, Any] = None lowerCAmelCase_ :int = None lowerCAmelCase_ :int = None import subprocess lowerCAmelCase_ :Dict = None # type: ignore lowerCAmelCase_ :Dict = None import sys lowerCAmelCase_ :Tuple = None lowerCAmelCase_ :int = None lowerCAmelCase_ :Optional[int] = None lowerCAmelCase_ :Union[str, Any] = None lowerCAmelCase_ :Optional[Any] = None	84	"""simple docstring""" from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available lowerCAmelCase__ = { '''configuration_autoformer''': [ '''AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''AutoformerConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''AutoformerForPrediction''', '''AutoformerModel''', '''AutoformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_autoformer import ( AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, AutoformerConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_autoformer import ( AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, AutoformerForPrediction, AutoformerModel, AutoformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
'''simple docstring''' from typing import List, Optional, Union from ...processing_utils import ProcessorMixin from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy from ...utils import TensorType class _snake_case ( lowercase_ ): lowerCAmelCase_ : int = ["image_processor", "tokenizer"] lowerCAmelCase_ : Union[str, Any] = "BridgeTowerImageProcessor" lowerCAmelCase_ : Union[str, Any] = ("RobertaTokenizer", "RobertaTokenizerFast") def __init__( self , a__ , a__ ) -> Optional[int]: '''simple docstring''' super().__init__(a__ , a__ ) def __call__( self , a__ , a__ = None , a__ = True , a__ = False , a__ = None , a__ = None , a__ = 0 , a__ = None , a__ = None , a__ = None , a__ = False , a__ = False , a__ = False , a__ = False , a__ = True , a__ = None , a__ , ) -> BatchEncoding: '''simple docstring''' snake_case_ = self.tokenizer( text=a__ , add_special_tokens=a__ , padding=a__ , truncation=a__ , max_length=a__ , stride=a__ , pad_to_multiple_of=a__ , return_token_type_ids=a__ , return_attention_mask=a__ , return_overflowing_tokens=a__ , return_special_tokens_mask=a__ , return_offsets_mapping=a__ , return_length=a__ , verbose=a__ , return_tensors=a__ , a__ , ) # add pixel_values + pixel_mask snake_case_ = self.image_processor( a__ , return_tensors=a__ , do_normalize=a__ , do_center_crop=a__ , *a__ ) encoding.update(a__ ) return encoding def lowerCAmelCase__ ( self , a__ , *a__ ) -> Optional[int]: '''simple docstring''' return self.tokenizer.batch_decode(a__ , *a__ ) def lowerCAmelCase__ ( self , a__ , *a__ ) -> int: '''simple docstring''' return self.tokenizer.decode(a__ , **a__ ) @property def lowerCAmelCase__ ( self ) -> Tuple: '''simple docstring''' snake_case_ = self.tokenizer.model_input_names snake_case_ = self.image_processor.model_input_names return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )	85	"""simple docstring""" import math def snake_case_ ( A_ : int ): '''simple docstring''' if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5, int(math.sqrt(A_ ) + 1 ), 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def snake_case_ ( A_ : float = 0.1 ): '''simple docstring''' _lowerCamelCase : Optional[int] = 3 _lowerCamelCase : List[str] = 3 while primes / (2 * j - 1) >= ratio: for i in range(j * j + j + 1, (j + 2) * (j + 2), j + 1 ): primes += is_prime(A_ ) j += 2 return j if __name__ == "__main__": import doctest doctest.testmod()	72
"""simple docstring""" from __future__ import annotations import unittest from transformers import is_tf_available, is_torch_available from transformers.testing_utils import DUMMY_UNKNOWN_IDENTIFIER, SMALL_MODEL_IDENTIFIER, is_pt_tf_cross_test, slow if is_tf_available(): from transformers import ( AutoConfig, BertConfig, GPTaConfig, TaConfig, TFAutoModel, TFAutoModelForCausalLM, TFAutoModelForMaskedLM, TFAutoModelForPreTraining, TFAutoModelForQuestionAnswering, TFAutoModelForSeqaSeqLM, TFAutoModelForSequenceClassification, TFAutoModelWithLMHead, TFBertForMaskedLM, TFBertForPreTraining, TFBertForQuestionAnswering, TFBertForSequenceClassification, TFBertModel, TFGPTaLMHeadModel, TFRobertaForMaskedLM, TFTaForConditionalGeneration, ) from transformers.models.bert.modeling_tf_bert import TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST from transformers.models.gpta.modeling_tf_gpta import TF_GPT2_PRETRAINED_MODEL_ARCHIVE_LIST from transformers.models.ta.modeling_tf_ta import TF_T5_PRETRAINED_MODEL_ARCHIVE_LIST if is_torch_available(): from transformers import ( AutoModel, AutoModelForCausalLM, AutoModelForMaskedLM, AutoModelForPreTraining, AutoModelForQuestionAnswering, AutoModelForSeqaSeqLM, AutoModelForSequenceClassification, AutoModelWithLMHead, BertForMaskedLM, BertForPreTraining, BertForQuestionAnswering, BertForSequenceClassification, BertModel, GPTaLMHeadModel, RobertaForMaskedLM, TaForConditionalGeneration, ) @is_pt_tf_cross_test class A__ ( unittest.TestCase): @slow def __lowerCamelCase ( self ): # for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: for model_name in ["bert-base-uncased"]: __lowerCAmelCase : Tuple = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[str] = TFAutoModel.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Optional[int] = AutoModel.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): # for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: for model_name in ["bert-base-uncased"]: __lowerCAmelCase : int = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Tuple = TFAutoModelForPreTraining.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : str = AutoModelForPreTraining.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): for model_name in TF_GPT2_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Dict = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[str] = TFAutoModelForCausalLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : List[str] = TFAutoModelForCausalLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Any = AutoModelForCausalLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : List[Any] = AutoModelForCausalLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Dict = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : int = TFAutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Optional[int] = AutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Optional[Any] = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[Any] = TFAutoModelForMaskedLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : int = TFAutoModelForMaskedLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Union[str, Any] = AutoModelForMaskedLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : str = AutoModelForMaskedLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): for model_name in TF_T5_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Optional[int] = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Tuple = TFAutoModelForSeqaSeqLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : Tuple = TFAutoModelForSeqaSeqLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : int = AutoModelForSeqaSeqLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : Dict = AutoModelForSeqaSeqLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): # for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: for model_name in ["bert-base-uncased"]: __lowerCAmelCase : Dict = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[str] = TFAutoModelForSequenceClassification.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Union[str, Any] = AutoModelForSequenceClassification.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): # for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: for model_name in ["bert-base-uncased"]: __lowerCAmelCase : Union[str, Any] = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Optional[Any] = TFAutoModelForQuestionAnswering.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Union[str, Any] = AutoModelForQuestionAnswering.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : List[Any] = TFAutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) self.assertEqual(model.num_parameters() , 1_44_10 ) self.assertEqual(model.num_parameters(only_trainable=_SCREAMING_SNAKE_CASE ) , 1_44_10 ) __lowerCAmelCase : Tuple = AutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) self.assertEqual(model.num_parameters() , 1_44_10 ) self.assertEqual(model.num_parameters(only_trainable=_SCREAMING_SNAKE_CASE ) , 1_44_10 ) def __lowerCamelCase ( self ): __lowerCAmelCase : int = TFAutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) self.assertEqual(model.num_parameters() , 1_44_10 ) self.assertEqual(model.num_parameters(only_trainable=_SCREAMING_SNAKE_CASE ) , 1_44_10 ) __lowerCAmelCase : Tuple = AutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) self.assertEqual(model.num_parameters() , 1_44_10 ) self.assertEqual(model.num_parameters(only_trainable=_SCREAMING_SNAKE_CASE ) , 1_44_10 )	86	"""simple docstring""" import unittest from queue import Empty from threading import Thread from transformers import AutoTokenizer, TextIteratorStreamer, TextStreamer, is_torch_available from transformers.testing_utils import CaptureStdout, require_torch, torch_device from ..test_modeling_common import ids_tensor if is_torch_available(): import torch from transformers import AutoModelForCausalLM @require_torch class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Optional[Any] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Union[str, Any] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = tokenizer.decode(greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Union[str, Any] = TextStreamer(__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : int = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Optional[int] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : List[str] = tokenizer.decode(greedy_ids[0] ) _lowerCamelCase : Tuple = TextIteratorStreamer(__lowerCAmelCase ) _lowerCamelCase : Tuple = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() _lowerCamelCase : int = '''''' for new_text in streamer: streamer_text += new_text self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Dict = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : str = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : Optional[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : int = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = greedy_ids[:, input_ids.shape[1] :] _lowerCamelCase : int = tokenizer.decode(new_greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Any = TextStreamer(__lowerCAmelCase , skip_prompt=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : Union[str, Any] = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''distilgpt2''' ) _lowerCamelCase : Optional[Any] = AutoModelForCausalLM.from_pretrained('''distilgpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = -1 _lowerCamelCase : Any = torch.ones((1, 5) , device=__lowerCAmelCase ).long() * model.config.bos_token_id with CaptureStdout() as cs: _lowerCamelCase : List[Any] = TextStreamer(__lowerCAmelCase , skip_special_tokens=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The prompt contains a special token, so the streamer should not print it. As such, the output text, when # re-tokenized, must only contain one token _lowerCamelCase : Any = cs.out[:-1] # Remove the final "\n" _lowerCamelCase : int = tokenizer(__lowerCAmelCase , return_tensors='''pt''' ) self.assertEqual(streamer_text_tokenized.input_ids.shape , (1, 1) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : List[str] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Dict = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = -1 _lowerCamelCase : Any = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = TextIteratorStreamer(__lowerCAmelCase , timeout=0.0_01 ) _lowerCamelCase : str = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() # The streamer will timeout after 0.001 seconds, so an exception will be raised with self.assertRaises(__lowerCAmelCase ): _lowerCamelCase : Optional[Any] = '''''' for new_text in streamer: streamer_text += new_text	72
from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCamelCase = logging.get_logger(__name__) UpperCamelCase = { '''uclanlp/visualbert-vqa''': '''https://huggingface.co/uclanlp/visualbert-vqa/resolve/main/config.json''', '''uclanlp/visualbert-vqa-pre''': '''https://huggingface.co/uclanlp/visualbert-vqa-pre/resolve/main/config.json''', '''uclanlp/visualbert-vqa-coco-pre''': ( '''https://huggingface.co/uclanlp/visualbert-vqa-coco-pre/resolve/main/config.json''' ), '''uclanlp/visualbert-vcr''': '''https://huggingface.co/uclanlp/visualbert-vcr/resolve/main/config.json''', '''uclanlp/visualbert-vcr-pre''': '''https://huggingface.co/uclanlp/visualbert-vcr-pre/resolve/main/config.json''', '''uclanlp/visualbert-vcr-coco-pre''': ( '''https://huggingface.co/uclanlp/visualbert-vcr-coco-pre/resolve/main/config.json''' ), '''uclanlp/visualbert-nlvr2''': '''https://huggingface.co/uclanlp/visualbert-nlvr2/resolve/main/config.json''', '''uclanlp/visualbert-nlvr2-pre''': '''https://huggingface.co/uclanlp/visualbert-nlvr2-pre/resolve/main/config.json''', '''uclanlp/visualbert-nlvr2-coco-pre''': ( '''https://huggingface.co/uclanlp/visualbert-nlvr2-coco-pre/resolve/main/config.json''' ) # See all VisualBERT models at https://huggingface.co/models?filter=visual_bert } class snake_case_ ( __A ): __A : Union[str, Any] = "visual_bert" def __init__( self : Any , lowercase_ : Any=3_05_22 , lowercase_ : List[Any]=7_68 , lowercase_ : List[str]=5_12 , lowercase_ : Dict=12 , lowercase_ : Union[str, Any]=12 , lowercase_ : List[Any]=30_72 , lowercase_ : Dict="gelu" , lowercase_ : List[str]=0.1 , lowercase_ : int=0.1 , lowercase_ : Tuple=5_12 , lowercase_ : int=2 , lowercase_ : List[Any]=0.02 , lowercase_ : List[Any]=1E-12 , lowercase_ : str=False , lowercase_ : Tuple=True , lowercase_ : Optional[Any]=1 , lowercase_ : List[str]=0 , lowercase_ : str=2 , lowercase_ : Dict , ) -> List[str]: super().__init__(pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , lowercase_ ) lowercase__ : Optional[int] = vocab_size lowercase__ : List[str] = max_position_embeddings lowercase__ : List[str] = hidden_size lowercase__ : str = visual_embedding_dim lowercase__ : List[Any] = num_hidden_layers lowercase__ : str = num_attention_heads lowercase__ : Union[str, Any] = intermediate_size lowercase__ : Any = hidden_act lowercase__ : int = hidden_dropout_prob lowercase__ : Any = attention_probs_dropout_prob lowercase__ : Dict = initializer_range lowercase__ : str = type_vocab_size lowercase__ : Any = layer_norm_eps lowercase__ : Tuple = bypass_transformer lowercase__ : Tuple = special_visual_initialize	87	"""simple docstring""" from ....configuration_utils import PretrainedConfig from ....utils import logging lowerCAmelCase__ = logging.get_logger(__name__) # TODO: upload to AWS lowerCAmelCase__ = { '''yjernite/retribert-base-uncased''': ( '''https://huggingface.co/yjernite/retribert-base-uncased/resolve/main/config.json''' ), } class __snake_case ( _lowercase): snake_case__ : int = "retribert" def __init__( self : Optional[int] , __lowerCAmelCase : str=3_0_5_2_2 , __lowerCAmelCase : Tuple=7_6_8 , __lowerCAmelCase : Union[str, Any]=8 , __lowerCAmelCase : Any=1_2 , __lowerCAmelCase : Optional[int]=3_0_7_2 , __lowerCAmelCase : List[str]="gelu" , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=5_1_2 , __lowerCAmelCase : List[str]=2 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Optional[Any]=1E-12 , __lowerCAmelCase : Tuple=True , __lowerCAmelCase : Any=1_2_8 , __lowerCAmelCase : Optional[int]=0 , __lowerCAmelCase : str , ): """simple docstring""" super().__init__(pad_token_id=__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = vocab_size _lowerCamelCase : Union[str, Any] = hidden_size _lowerCamelCase : Dict = num_hidden_layers _lowerCamelCase : int = num_attention_heads _lowerCamelCase : int = hidden_act _lowerCamelCase : str = intermediate_size _lowerCamelCase : Union[str, Any] = hidden_dropout_prob _lowerCamelCase : List[Any] = attention_probs_dropout_prob _lowerCamelCase : Optional[int] = max_position_embeddings _lowerCamelCase : List[Any] = type_vocab_size _lowerCamelCase : Any = initializer_range _lowerCamelCase : Optional[int] = layer_norm_eps _lowerCamelCase : int = share_encoders _lowerCamelCase : Optional[Any] = projection_dim	72
from __future__ import annotations import math def a__ ( A_, A_, A_, A_, A_ ): '''simple docstring''' if depth < 0: raise ValueError("""Depth cannot be less than 0""" ) if not scores: raise ValueError("""Scores cannot be empty""" ) if depth == height: return scores[node_index] return ( max( minimax(depth + 1, node_index * 2, A_, A_, A_ ), minimax(depth + 1, node_index * 2 + 1, A_, A_, A_ ), ) if is_max else min( minimax(depth + 1, node_index * 2, A_, A_, A_ ), minimax(depth + 1, node_index * 2 + 1, A_, A_, A_ ), ) ) def a__ ( ): '''simple docstring''' __magic_name__ = [90, 23, 6, 33, 21, 65, 123, 34423] __magic_name__ = math.log(len(A_ ), 2 ) print(f'''Optimal value : {minimax(0, 0, A_, A_, A_ )}''' ) if __name__ == "__main__": import doctest doctest.testmod() main()	88	"""simple docstring""" import unittest from diffusers.pipelines.pipeline_utils import is_safetensors_compatible class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : Optional[int] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', # Removed: 'unet/diffusion_pytorch_model.safetensors', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', # Removed: 'text_encoder/model.safetensors', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Optional[int] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" _lowerCamelCase : str = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] _lowerCamelCase : Optional[Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : Tuple = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', # Removed: 'unet/diffusion_pytorch_model.fp16.safetensors', ] _lowerCamelCase : Any = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', ] _lowerCamelCase : str = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', # 'text_encoder/model.fp16.safetensors', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : int = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) )	72
'''simple docstring''' from typing import List, Optional, Union import torch from ...models import UNetaDConditionModel, VQModel from ...pipelines import DiffusionPipeline from ...pipelines.pipeline_utils import ImagePipelineOutput from ...schedulers import DDPMScheduler from ...utils import ( is_accelerate_available, is_accelerate_version, logging, randn_tensor, replace_example_docstring, ) __lowerCAmelCase = logging.get_logger(__name__) # pylint: disable=invalid-name __lowerCAmelCase = ''' Examples: ```py >>> import torch >>> import numpy as np >>> from diffusers import KandinskyV22PriorPipeline, KandinskyV22ControlnetPipeline >>> from transformers import pipeline >>> from diffusers.utils import load_image >>> def make_hint(image, depth_estimator): ... image = depth_estimator(image)["depth"] ... image = np.array(image) ... image = image[:, :, None] ... image = np.concatenate([image, image, image], axis=2) ... detected_map = torch.from_numpy(image).float() / 255.0 ... hint = detected_map.permute(2, 0, 1) ... return hint >>> depth_estimator = pipeline("depth-estimation") >>> pipe_prior = KandinskyV22PriorPipeline.from_pretrained( ... "kandinsky-community/kandinsky-2-2-prior", torch_dtype=torch.float16 ... ) >>> pipe_prior = pipe_prior.to("cuda") >>> pipe = KandinskyV22ControlnetPipeline.from_pretrained( ... "kandinsky-community/kandinsky-2-2-controlnet-depth", torch_dtype=torch.float16 ... ) >>> pipe = pipe.to("cuda") >>> img = load_image( ... "https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main" ... "/kandinsky/cat.png" ... ).resize((768, 768)) >>> hint = make_hint(img, depth_estimator).unsqueeze(0).half().to("cuda") >>> prompt = "A robot, 4k photo" >>> negative_prior_prompt = "lowres, text, error, cropped, worst quality, low quality, jpeg artifacts, ugly, duplicate, morbid, mutilated, out of frame, extra fingers, mutated hands, poorly drawn hands, poorly drawn face, mutation, deformed, blurry, dehydrated, bad anatomy, bad proportions, extra limbs, cloned face, disfigured, gross proportions, malformed limbs, missing arms, missing legs, extra arms, extra legs, fused fingers, too many fingers, long neck, username, watermark, signature" >>> generator = torch.Generator(device="cuda").manual_seed(43) >>> image_emb, zero_image_emb = pipe_prior( ... prompt=prompt, negative_prompt=negative_prior_prompt, generator=generator ... ).to_tuple() >>> images = pipe( ... image_embeds=image_emb, ... negative_image_embeds=zero_image_emb, ... hint=hint, ... num_inference_steps=50, ... generator=generator, ... height=768, ... width=768, ... ).images >>> images[0].save("robot_cat.png") ``` ''' def __lowerCamelCase ( lowerCAmelCase_ , lowerCAmelCase_ , lowerCAmelCase_=8 ) -> List[str]: _a : List[Any] = height // scale_factor2 if height % scale_factor2 != 0: new_height += 1 _a : List[Any] = width // scale_factor2 if width % scale_factor2 != 0: new_width += 1 return new_height * scale_factor, new_width * scale_factor class __magic_name__ ( _UpperCamelCase ): def __init__( self : Optional[Any] ,_UpperCAmelCase : UNetaDConditionModel ,_UpperCAmelCase : DDPMScheduler ,_UpperCAmelCase : VQModel ,): super().__init__() self.register_modules( unet=_UpperCAmelCase ,scheduler=_UpperCAmelCase ,movq=_UpperCAmelCase ,) _a : Dict = 2 ** (len(self.movq.config.block_out_channels ) - 1) def __lowercase ( self : int ,_UpperCAmelCase : List[str] ,_UpperCAmelCase : int ,_UpperCAmelCase : Union[str, Any] ,_UpperCAmelCase : Dict ,_UpperCAmelCase : Optional[int] ,_UpperCAmelCase : Tuple ): if latents is None: _a : Union[str, Any] = randn_tensor(_UpperCAmelCase ,generator=_UpperCAmelCase ,device=_UpperCAmelCase ,dtype=_UpperCAmelCase ) else: if latents.shape != shape: raise ValueError(F"""Unexpected latents shape, got {latents.shape}, expected {shape}""" ) _a : Optional[int] = latents.to(_UpperCAmelCase ) _a : str = latents * scheduler.init_noise_sigma return latents def __lowercase ( self : Tuple ,_UpperCAmelCase : int=0 ): if is_accelerate_available(): from accelerate import cpu_offload else: raise ImportError('Please install accelerate via `pip install accelerate`' ) _a : int = torch.device(F"""cuda:{gpu_id}""" ) _a : Optional[Any] = [ self.unet, self.movq, ] for cpu_offloaded_model in models: if cpu_offloaded_model is not None: cpu_offload(_UpperCAmelCase ,_UpperCAmelCase ) def __lowercase ( self : Union[str, Any] ,_UpperCAmelCase : int=0 ): if is_accelerate_available() and is_accelerate_version('>=' ,'0.17.0.dev0' ): from accelerate import cpu_offload_with_hook else: raise ImportError('`enable_model_cpu_offload` requires `accelerate v0.17.0` or higher.' ) _a : Tuple = torch.device(F"""cuda:{gpu_id}""" ) if self.device.type != "cpu": self.to('cpu' ,silence_dtype_warnings=_UpperCAmelCase ) torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist) _a : Optional[Any] = None for cpu_offloaded_model in [self.unet, self.movq]: _a , _a : str = cpu_offload_with_hook(_UpperCAmelCase ,_UpperCAmelCase ,prev_module_hook=_UpperCAmelCase ) # We'll offload the last model manually. _a : List[Any] = hook @property # Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device def __lowercase ( self : int ): if not hasattr(self.unet ,'_hf_hook' ): return self.device for module in self.unet.modules(): if ( hasattr(_UpperCAmelCase ,'_hf_hook' ) and hasattr(module._hf_hook ,'execution_device' ) and module._hf_hook.execution_device is not None ): return torch.device(module._hf_hook.execution_device ) return self.device @torch.no_grad() @replace_example_docstring(_UpperCAmelCase ) def __call__( self : List[Any] ,_UpperCAmelCase : Union[torch.FloatTensor, List[torch.FloatTensor]] ,_UpperCAmelCase : Union[torch.FloatTensor, List[torch.FloatTensor]] ,_UpperCAmelCase : torch.FloatTensor ,_UpperCAmelCase : int = 512 ,_UpperCAmelCase : int = 512 ,_UpperCAmelCase : int = 100 ,_UpperCAmelCase : float = 4.0 ,_UpperCAmelCase : int = 1 ,_UpperCAmelCase : Optional[Union[torch.Generator, List[torch.Generator]]] = None ,_UpperCAmelCase : Optional[torch.FloatTensor] = None ,_UpperCAmelCase : Optional[str] = "pil" ,_UpperCAmelCase : bool = True ,): _a : List[Any] = self._execution_device _a : Tuple = guidance_scale > 1.0 if isinstance(_UpperCAmelCase ,_UpperCAmelCase ): _a : Dict = torch.cat(_UpperCAmelCase ,dim=0 ) if isinstance(_UpperCAmelCase ,_UpperCAmelCase ): _a : Optional[Any] = torch.cat(_UpperCAmelCase ,dim=0 ) if isinstance(_UpperCAmelCase ,_UpperCAmelCase ): _a : Dict = torch.cat(_UpperCAmelCase ,dim=0 ) _a : Optional[int] = image_embeds.shape[0] * num_images_per_prompt if do_classifier_free_guidance: _a : List[Any] = image_embeds.repeat_interleave(_UpperCAmelCase ,dim=0 ) _a : Optional[Any] = negative_image_embeds.repeat_interleave(_UpperCAmelCase ,dim=0 ) _a : str = hint.repeat_interleave(_UpperCAmelCase ,dim=0 ) _a : Optional[int] = torch.cat([negative_image_embeds, image_embeds] ,dim=0 ).to(dtype=self.unet.dtype ,device=_UpperCAmelCase ) _a : Any = torch.cat([hint, hint] ,dim=0 ).to(dtype=self.unet.dtype ,device=_UpperCAmelCase ) self.scheduler.set_timesteps(_UpperCAmelCase ,device=_UpperCAmelCase ) _a : Optional[int] = self.scheduler.timesteps _a : Union[str, Any] = self.movq.config.latent_channels _a , _a : List[Any] = downscale_height_and_width(_UpperCAmelCase ,_UpperCAmelCase ,self.movq_scale_factor ) # create initial latent _a : int = self.prepare_latents( (batch_size, num_channels_latents, height, width) ,image_embeds.dtype ,_UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ,self.scheduler ,) for i, t in enumerate(self.progress_bar(_UpperCAmelCase ) ): # expand the latents if we are doing classifier free guidance _a : Dict = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents _a : Union[str, Any] = {'image_embeds': image_embeds, 'hint': hint} _a : Union[str, Any] = self.unet( sample=_UpperCAmelCase ,timestep=_UpperCAmelCase ,encoder_hidden_states=_UpperCAmelCase ,added_cond_kwargs=_UpperCAmelCase ,return_dict=_UpperCAmelCase ,)[0] if do_classifier_free_guidance: _a , _a : Optional[int] = noise_pred.split(latents.shape[1] ,dim=1 ) _a , _a : List[Any] = noise_pred.chunk(2 ) _a , _a : str = variance_pred.chunk(2 ) _a : Optional[int] = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond) _a : Any = torch.cat([noise_pred, variance_pred_text] ,dim=1 ) if not ( hasattr(self.scheduler.config ,'variance_type' ) and self.scheduler.config.variance_type in ["learned", "learned_range"] ): _a , _a : Any = noise_pred.split(latents.shape[1] ,dim=1 ) # compute the previous noisy sample x_t -> x_t-1 _a : str = self.scheduler.step( _UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ,generator=_UpperCAmelCase ,)[0] # post-processing _a : str = self.movq.decode(_UpperCAmelCase ,force_not_quantize=_UpperCAmelCase )['sample'] if output_type not in ["pt", "np", "pil"]: raise ValueError(F"""Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}""" ) if output_type in ["np", "pil"]: _a : str = image * 0.5 + 0.5 _a : str = image.clamp(0 ,1 ) _a : int = image.cpu().permute(0 ,2 ,3 ,1 ).float().numpy() if output_type == "pil": _a : Optional[Any] = self.numpy_to_pil(_UpperCAmelCase ) if not return_dict: return (image,) return ImagePipelineOutput(images=_UpperCAmelCase )	89	"""simple docstring""" import inspect import unittest import numpy as np from tests.test_modeling_common import floats_tensor from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel if is_vision_available(): from transformers import MaskFormerImageProcessor if is_vision_available(): from PIL import Image class __snake_case : def __init__( self : Tuple , __lowerCAmelCase : Tuple , __lowerCAmelCase : Any=2 , __lowerCAmelCase : Any=True , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Optional[Any]=1_0 , __lowerCAmelCase : List[str]=3 , __lowerCAmelCase : int=3_2 * 4 , __lowerCAmelCase : Dict=3_2 * 6 , __lowerCAmelCase : Any=4 , __lowerCAmelCase : List[str]=3_2 , ): """simple docstring""" _lowerCamelCase : List[str] = parent _lowerCamelCase : str = batch_size _lowerCamelCase : Dict = is_training _lowerCamelCase : str = use_auxiliary_loss _lowerCamelCase : Any = num_queries _lowerCamelCase : List[Any] = num_channels _lowerCamelCase : int = min_size _lowerCamelCase : Any = max_size _lowerCamelCase : int = num_labels _lowerCamelCase : List[str] = mask_feature_size def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size] ).to( __lowerCAmelCase ) _lowerCamelCase : List[Any] = torch.ones([self.batch_size, self.min_size, self.max_size] , device=__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = ( torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=__lowerCAmelCase ) > 0.5 ).float() _lowerCamelCase : Optional[int] = (torch.rand((self.batch_size, self.num_labels) , device=__lowerCAmelCase ) > 0.5).long() _lowerCamelCase : Dict = self.get_config() return config, pixel_values, pixel_mask, mask_labels, class_labels def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" return MaskFormerConfig.from_backbone_and_decoder_configs( backbone_config=SwinConfig( depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig( decoder_ffn_dim=1_2_8 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : Dict = self.prepare_config_and_inputs() _lowerCamelCase : List[str] = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask} return config, inputs_dict def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = output.encoder_hidden_states _lowerCamelCase : Tuple = output.pixel_decoder_hidden_states _lowerCamelCase : Dict = output.transformer_decoder_hidden_states self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , config.decoder_config.decoder_layers ) def SCREAMING_SNAKE_CASE ( self : Tuple , __lowerCAmelCase : Dict , __lowerCAmelCase : str , __lowerCAmelCase : Tuple , __lowerCAmelCase : List[Any]=False ): """simple docstring""" with torch.no_grad(): _lowerCamelCase : Optional[int] = MaskFormerModel(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() _lowerCamelCase : Tuple = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) # the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the # encoder and pixel decoder self.parent.assertEqual( output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , ) # let's ensure the other two hidden state exists self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(output.encoder_last_hidden_state is not None ) if output_hidden_states: self.check_output_hidden_state(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = MaskFormerForInstanceSegmentation(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() def comm_check_on_output(__lowerCAmelCase : Dict ): # let's still check that all the required stuff is there self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.encoder_last_hidden_state is not None ) # okay, now we need to check the logits shape # due to the encoder compression, masks have a //4 spatial size self.parent.assertEqual( result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , ) # + 1 for null class self.parent.assertEqual( result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1) ) with torch.no_grad(): _lowerCamelCase : str = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) _lowerCamelCase : List[str] = model( pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) self.parent.assertTrue(result.loss is not None ) self.parent.assertEqual(result.loss.shape , torch.Size([1] ) ) @require_torch class __snake_case ( _lowercase , _lowercase , unittest.TestCase): snake_case__ : Dict = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else () snake_case__ : Any = ( {"feature-extraction": MaskFormerModel, "image-segmentation": MaskFormerForInstanceSegmentation} if is_torch_available() else {} ) snake_case__ : List[str] = False snake_case__ : List[str] = False snake_case__ : Optional[int] = False snake_case__ : Dict = False def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = MaskFormerModelTester(self ) _lowerCamelCase : Optional[Any] = ConfigTester(self , config_class=__lowerCAmelCase , has_text_modality=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Dict = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , *__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(__lowerCAmelCase ) @unittest.skip(reason='''MaskFormer does not use inputs_embeds''' ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''' ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer is not a generative model''' ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not use token embeddings''' ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" pass @require_torch_multi_gpu @unittest.skip( reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''' ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" pass @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : str = model_class(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCamelCase : Dict = [signature.parameters.keys()] _lowerCamelCase : Optional[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __lowerCAmelCase ) @slow def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" for model_name in ["facebook/maskformer-swin-small-coco"]: _lowerCamelCase : Union[str, Any] = MaskFormerModel.from_pretrained(__lowerCAmelCase ) self.assertIsNotNone(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = (self.model_tester.min_size,) 2 _lowerCamelCase : Union[str, Any] = { '''pixel_values''': torch.randn((2, 3, size) , device=__lowerCAmelCase ), '''mask_labels''': torch.randn((2, 1_0, size) , device=__lowerCAmelCase ), '''class_labels''': torch.zeros(2 , 1_0 , device=__lowerCAmelCase ).long(), } _lowerCamelCase : int = MaskFormerForInstanceSegmentation(MaskFormerConfig() ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = model(__lowerCAmelCase ) self.assertTrue(outputs.loss is not None ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : List[str] = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , __lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : List[Any] = model_class(__lowerCAmelCase ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_attentions=__lowerCAmelCase ) self.assertTrue(outputs.attentions is not None ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" if not self.model_tester.is_training: return # only MaskFormerForInstanceSegmentation has the loss _lowerCamelCase : Union[str, Any] = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : int = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : Any = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : List[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ).loss loss.backward() def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : int = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : str = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : List[str] = True _lowerCamelCase : Optional[int] = True _lowerCamelCase : Optional[Any] = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) _lowerCamelCase : List[Any] = outputs.encoder_hidden_states[0] encoder_hidden_states.retain_grad() _lowerCamelCase : Tuple = outputs.pixel_decoder_hidden_states[0] pixel_decoder_hidden_states.retain_grad() # we requires_grad=True in inputs_embeds (line 2152), the original implementation don't _lowerCamelCase : List[str] = outputs.transformer_decoder_hidden_states[0] transformer_decoder_hidden_states.retain_grad() _lowerCamelCase : Optional[int] = outputs.attentions[0] attentions.retain_grad() outputs.loss.backward(retain_graph=__lowerCAmelCase ) self.assertIsNotNone(encoder_hidden_states.grad ) self.assertIsNotNone(pixel_decoder_hidden_states.grad ) self.assertIsNotNone(transformer_decoder_hidden_states.grad ) self.assertIsNotNone(attentions.grad ) lowerCAmelCase__ = 1E-4 def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_vision @slow class __snake_case ( unittest.TestCase): @cached_property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return ( MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''' ) if is_vision_available() else None ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : str = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = self.default_image_processor _lowerCamelCase : List[Any] = prepare_img() _lowerCamelCase : Any = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : int = model(__lowerCAmelCase ) _lowerCamelCase : str = torch.tensor( [[-0.04_82, 0.92_28, 0.49_51], [-0.25_47, 0.80_17, 0.85_27], [-0.00_69, 0.33_85, -0.00_89]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.encoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Union[str, Any] = torch.tensor( [[-0.84_22, -0.84_34, -0.97_18], [-1.01_44, -0.55_65, -0.41_95], [-1.00_38, -0.44_84, -0.19_61]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Optional[int] = torch.tensor( [[0.28_52, -0.01_59, 0.97_35], [0.62_54, 0.18_58, 0.85_29], [-0.06_80, -0.41_16, 1.84_13]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.transformer_decoder_last_hidden_state[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[int] = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : str = prepare_img() _lowerCamelCase : int = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[int] = model(__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : Optional[int] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : List[str] = [ [-1.3_73_71_24, -1.7_72_49_37, -1.9_36_42_33], [-1.5_97_72_81, -1.9_86_79_39, -2.1_52_36_95], [-1.5_79_53_98, -1.9_26_98_32, -2.09_39_42], ] _lowerCamelCase : Any = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : List[Any] = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : str = torch.tensor( [ [1.6512E00, -5.2572E00, -3.3519E00], [3.6169E-02, -5.9025E00, -2.9313E00], [1.0766E-04, -7.7630E00, -5.1263E00], ] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Any = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : Tuple = self.default_image_processor _lowerCamelCase : Tuple = prepare_img() _lowerCamelCase : Optional[Any] = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : List[Any] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : int = [[-0.90_46, -2.63_66, -4.60_62], [-3.41_79, -5.78_90, -8.80_57], [-4.91_79, -7.65_60, -10.77_11]] _lowerCamelCase : List[Any] = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : Dict = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : Any = torch.tensor( [[4.71_88, -3.25_85, -2.88_57], [6.68_71, -2.91_81, -1.24_87], [7.24_49, -2.27_64, -2.18_74]] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : List[str] = image_processor( [np.zeros((3, 8_0_0, 1_3_3_3) ), np.zeros((3, 8_0_0, 1_3_3_3) )] , segmentation_maps=[np.zeros((3_8_4, 3_8_4) ).astype(np.floataa ), np.zeros((3_8_4, 3_8_4) ).astype(np.floataa )] , return_tensors='''pt''' , ) _lowerCamelCase : Union[str, Any] = inputs['''pixel_values'''].to(__lowerCAmelCase ) _lowerCamelCase : Dict = [el.to(__lowerCAmelCase ) for el in inputs['''mask_labels''']] _lowerCamelCase : Optional[Any] = [el.to(__lowerCAmelCase ) for el in inputs['''class_labels''']] with torch.no_grad(): _lowerCamelCase : Tuple = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None )	72
import unittest from transformers import SPIECE_UNDERLINE, XLNetTokenizer, XLNetTokenizerFast from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow from ...test_tokenization_common import TokenizerTesterMixin __A = get_tests_dir("fixtures/test_sentencepiece.model") @require_sentencepiece @require_tokenizers class __lowerCAmelCase ( __magic_name__ , unittest.TestCase ): """simple docstring""" snake_case_ = XLNetTokenizer snake_case_ = XLNetTokenizerFast snake_case_ = True snake_case_ = True def lowercase_ ( self ) -> Union[str, Any]: '''simple docstring''' super().setUp() # We have a SentencePiece fixture for testing __lowerCamelCase = XLNetTokenizer(lowerCamelCase__ , keep_accents=lowerCamelCase__ ) tokenizer.sanitize_special_tokens() tokenizer.save_pretrained(self.tmpdirname ) def lowercase_ ( self ) -> Union[str, Any]: '''simple docstring''' __lowerCamelCase = '<s>' __lowerCamelCase = 1 self.assertEqual(self.get_tokenizer()._convert_token_to_id(lowerCamelCase__ ) , lowerCamelCase__ ) self.assertEqual(self.get_tokenizer()._convert_id_to_token(lowerCamelCase__ ) , lowerCamelCase__ ) def lowercase_ ( self ) -> str: '''simple docstring''' __lowerCamelCase = list(self.get_tokenizer().get_vocab().keys() ) self.assertEqual(vocab_keys[0] , '<unk>' ) self.assertEqual(vocab_keys[1] , '<s>' ) self.assertEqual(vocab_keys[-1] , '<eod>' ) self.assertEqual(len(lowerCamelCase__ ) , 1_006 ) def lowercase_ ( self ) -> Tuple: '''simple docstring''' self.assertEqual(self.get_tokenizer().vocab_size , 1_000 ) def lowercase_ ( self ) -> List[str]: '''simple docstring''' __lowerCamelCase = XLNetTokenizer(lowerCamelCase__ , keep_accents=lowerCamelCase__ ) __lowerCamelCase = tokenizer.tokenize('This is a test' ) self.assertListEqual(lowerCamelCase__ , ['▁This', '▁is', '▁a', '▁t', 'est'] ) self.assertListEqual(tokenizer.convert_tokens_to_ids(lowerCamelCase__ ) , [285, 46, 10, 170, 382] ) __lowerCamelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' ) self.assertListEqual( lowerCamelCase__ , [ SPIECE_UNDERLINE + 'I', SPIECE_UNDERLINE + 'was', SPIECE_UNDERLINE + 'b', 'or', 'n', SPIECE_UNDERLINE + 'in', SPIECE_UNDERLINE + '', '9', '2', '0', '0', '0', ',', SPIECE_UNDERLINE + 'and', SPIECE_UNDERLINE + 'this', SPIECE_UNDERLINE + 'is', SPIECE_UNDERLINE + 'f', 'al', 's', 'é', '.', ] , ) __lowerCamelCase = tokenizer.convert_tokens_to_ids(lowerCamelCase__ ) self.assertListEqual(lowerCamelCase__ , [8, 21, 84, 55, 24, 19, 7, 0, 602, 347, 347, 347, 3, 12, 66, 46, 72, 80, 6, 0, 4] ) __lowerCamelCase = tokenizer.convert_ids_to_tokens(lowerCamelCase__ ) self.assertListEqual( lowerCamelCase__ , [ SPIECE_UNDERLINE + 'I', SPIECE_UNDERLINE + 'was', SPIECE_UNDERLINE + 'b', 'or', 'n', SPIECE_UNDERLINE + 'in', SPIECE_UNDERLINE + '', '<unk>', '2', '0', '0', '0', ',', SPIECE_UNDERLINE + 'and', SPIECE_UNDERLINE + 'this', SPIECE_UNDERLINE + 'is', SPIECE_UNDERLINE + 'f', 'al', 's', '<unk>', '.', ] , ) def lowercase_ ( self ) -> Tuple: '''simple docstring''' __lowerCamelCase = XLNetTokenizer(lowerCamelCase__ , do_lower_case=lowerCamelCase__ ) __lowerCamelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' ) self.assertListEqual( lowerCamelCase__ , [ SPIECE_UNDERLINE + '', 'i', SPIECE_UNDERLINE + 'was', SPIECE_UNDERLINE + 'b', 'or', 'n', SPIECE_UNDERLINE + 'in', SPIECE_UNDERLINE + '', '9', '2', '0', '0', '0', ',', SPIECE_UNDERLINE + 'and', SPIECE_UNDERLINE + 'this', SPIECE_UNDERLINE + 'is', SPIECE_UNDERLINE + 'f', 'al', 'se', '.', ] , ) self.assertListEqual(tokenizer.tokenize('H\u00E9llo' ) , ['▁he', 'll', 'o'] ) def lowercase_ ( self ) -> Optional[Any]: '''simple docstring''' __lowerCamelCase = XLNetTokenizer(lowerCamelCase__ , do_lower_case=lowerCamelCase__ ) __lowerCamelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' ) self.assertListEqual( lowerCamelCase__ , [ SPIECE_UNDERLINE + 'I', SPIECE_UNDERLINE + 'was', SPIECE_UNDERLINE + 'b', 'or', 'n', SPIECE_UNDERLINE + 'in', SPIECE_UNDERLINE + '', '9', '2', '0', '0', '0', ',', SPIECE_UNDERLINE + 'and', SPIECE_UNDERLINE + 'this', SPIECE_UNDERLINE + 'is', SPIECE_UNDERLINE + 'f', 'al', 'se', '.', ] , ) @slow def lowercase_ ( self ) -> List[Any]: '''simple docstring''' __lowerCamelCase = XLNetTokenizer.from_pretrained('xlnet-base-cased' ) __lowerCamelCase = tokenizer.encode('sequence builders' , add_special_tokens=lowerCamelCase__ ) __lowerCamelCase = tokenizer.encode('multi-sequence build' , add_special_tokens=lowerCamelCase__ ) __lowerCamelCase = tokenizer.build_inputs_with_special_tokens(lowerCamelCase__ ) __lowerCamelCase = tokenizer.build_inputs_with_special_tokens(lowerCamelCase__ , lowerCamelCase__ ) assert encoded_sentence == text + [4, 3] assert encoded_pair == text + [4] + text_a + [4, 3] @slow def lowercase_ ( self ) -> str: '''simple docstring''' # fmt: off __lowerCamelCase = {'input_ids': [[17, 21_442, 270, 17, 10, 14_645, 318, 34, 17, 4_546, 3_145, 787, 13, 7_752, 22_018, 23, 21, 17, 4_546, 3_145, 787, 13, 3_352, 14_431, 13, 5_500, 11, 1_176, 580, 13, 16_819, 4_797, 23, 17, 10, 17_135, 658, 19, 457, 7_932, 13, 184, 19, 3_154, 17_135, 6_468, 19, 1_404, 12_269, 19, 4_229, 5_356, 16_264, 46, 19, 17, 20_545, 10_395, 9, 9, 9, 11, 28, 6_421, 9_531, 20_729, 17, 10, 353, 17_022, 11, 21, 6_421, 9_531, 16_949, 17, 10, 11_509, 753, 11, 33, 95, 2_421, 7_385, 956, 14_431, 2_626, 25, 842, 7_385, 4_836, 21, 1_429, 2_272, 9_855, 3_120, 161, 24_738, 19, 13_203, 658, 218, 787, 21, 430, 18_482, 847, 2_637, 9, 4, 3], [5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 322, 22_178, 27, 1_064, 22, 956, 13, 11_101, 1_429, 5_854, 24_313, 18_953, 40, 422, 24_366, 68, 1_758, 37, 10_483, 14_257, 31, 207, 263, 21, 203, 3_773, 25, 71, 9_735, 9, 4, 3], [5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 32, 2_049, 3_442, 17, 13_894, 3_380, 23, 95, 18, 17_634, 2_288, 9, 4, 3]], 'token_type_ids': [[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2], [3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2], [3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2]], 'attention_mask': [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]]} # noqa: E501 # fmt: on self.tokenizer_integration_test_util( expected_encoding=lowerCamelCase__ , model_name='xlnet-base-cased' , revision='c841166438c31ec7ca9a106dee7bb312b73ae511' , )	90	"""simple docstring""" lowerCAmelCase__ = { '''A''': ['''B''', '''C''', '''E'''], '''B''': ['''A''', '''D''', '''E'''], '''C''': ['''A''', '''F''', '''G'''], '''D''': ['''B'''], '''E''': ['''A''', '''B''', '''D'''], '''F''': ['''C'''], '''G''': ['''C'''], } def snake_case_ ( A_ : dict, A_ : int, A_ : int ): '''simple docstring''' _lowerCamelCase : List[str] = set() # keep track of all the paths to be checked _lowerCamelCase : str = [[start]] # return path if start is goal if start == goal: return [start] # keeps looping until all possible paths have been checked while queue: # pop the first path from the queue _lowerCamelCase : str = queue.pop(0 ) # get the last node from the path _lowerCamelCase : List[Any] = path[-1] if node not in explored: _lowerCamelCase : Union[str, Any] = graph[node] # go through all neighbour nodes, construct a new path and # push it into the queue for neighbour in neighbours: _lowerCamelCase : Union[str, Any] = list(A_ ) new_path.append(A_ ) queue.append(A_ ) # return path if neighbour is goal if neighbour == goal: return new_path # mark node as explored explored.add(A_ ) # in case there's no path between the 2 nodes return [] def snake_case_ ( A_ : dict, A_ : int, A_ : Dict ): '''simple docstring''' if not graph or start not in graph or target not in graph: return -1 if start == target: return 0 _lowerCamelCase : Optional[int] = [start] _lowerCamelCase : int = set(A_ ) # Keep tab on distances from `start` node. _lowerCamelCase : int = {start: 0, target: -1} while queue: _lowerCamelCase : Optional[Any] = queue.pop(0 ) if node == target: _lowerCamelCase : Any = ( dist[node] if dist[target] == -1 else min(dist[target], dist[node] ) ) for adjacent in graph[node]: if adjacent not in visited: visited.add(A_ ) queue.append(A_ ) _lowerCamelCase : Any = dist[node] + 1 return dist[target] if __name__ == "__main__": print(bfs_shortest_path(demo_graph, '''G''', '''D''')) # returns ['G', 'C', 'A', 'B', 'D'] print(bfs_shortest_path_distance(demo_graph, '''G''', '''D''')) # returns 4	72
"""simple docstring""" def _A (__a ) -> list: """simple docstring""" if len(__a ) < 2: return collection def circle_sort_util(__a , __a , __a ) -> bool: SCREAMING_SNAKE_CASE_ : Tuple = False if low == high: return swapped SCREAMING_SNAKE_CASE_ : Any = low SCREAMING_SNAKE_CASE_ : List[Any] = high while left < right: if collection[left] > collection[right]: SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ : List[Any] = ( collection[right], collection[left], ) SCREAMING_SNAKE_CASE_ : str = True left += 1 right -= 1 if left == right and collection[left] > collection[right + 1]: SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ : Optional[int] = ( collection[right + 1], collection[left], ) SCREAMING_SNAKE_CASE_ : List[Any] = True SCREAMING_SNAKE_CASE_ : Optional[Any] = low + int((high - low) / 2 ) SCREAMING_SNAKE_CASE_ : Optional[int] = circle_sort_util(__a , __a , __a ) SCREAMING_SNAKE_CASE_ : Optional[int] = circle_sort_util(__a , mid + 1 , __a ) return swapped or left_swap or right_swap SCREAMING_SNAKE_CASE_ : str = True while is_not_sorted is True: SCREAMING_SNAKE_CASE_ : Union[str, Any] = circle_sort_util(__a , 0 , len(__a ) - 1 ) return collection if __name__ == "__main__": UpperCAmelCase_ : int = input("""Enter numbers separated by a comma:\n""").strip() UpperCAmelCase_ : Tuple = [int(item) for item in user_input.split(""",""")] print(circle_sort(unsorted))	91	"""simple docstring""" import argparse import torch from transformers import LxmertConfig, LxmertForPreTraining, load_tf_weights_in_lxmert from transformers.utils import logging logging.set_verbosity_info() def snake_case_ ( A_ : Tuple, A_ : int, A_ : Dict ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = LxmertConfig.from_json_file(A_ ) print(F'''Building PyTorch model from configuration: {config}''' ) _lowerCamelCase : List[str] = LxmertForPreTraining(A_ ) # Load weights from tf checkpoint load_tf_weights_in_lxmert(A_, A_, A_ ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) torch.save(model.state_dict(), A_ ) if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained model. \nThis specifies the model architecture.''', ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) lowerCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)	72
import importlib import sys from argparse import REMAINDER, ArgumentParser from pathlib import Path import torch_xla.distributed.xla_multiprocessing as xmp def _a ( ): __lowerCAmelCase = ArgumentParser( description=( "PyTorch TPU distributed training launch " "helper utility that will spawn up " "multiple distributed processes" ) ) # Optional arguments for the launch helper parser.add_argument("--num_cores" , type=SCREAMING_SNAKE_CASE_ , default=1 , help="Number of TPU cores to use (1 or 8)." ) # positional parser.add_argument( "training_script" , type=SCREAMING_SNAKE_CASE_ , help=( "The full path to the single TPU training " "program/script to be launched in parallel, " "followed by all the arguments for the " "training script" ) , ) # rest from the training program parser.add_argument("training_script_args" , nargs=SCREAMING_SNAKE_CASE_ ) return parser.parse_args() def _a ( ): __lowerCAmelCase = parse_args() # Import training_script as a module. __lowerCAmelCase = Path(args.training_script ) sys.path.append(str(script_fpath.parent.resolve() ) ) __lowerCAmelCase = script_fpath.stem __lowerCAmelCase = importlib.import_module(SCREAMING_SNAKE_CASE_ ) # Patch sys.argv __lowerCAmelCase = [args.training_script] + args.training_script_args + ["--tpu_num_cores", str(args.num_cores )] xmp.spawn(mod._mp_fn , args=() , nprocs=args.num_cores ) if __name__ == "__main__": main()	92	"""simple docstring""" from collections import defaultdict from graphs.minimum_spanning_tree_prims import prisms_algorithm as mst def snake_case_ ( ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : int = 9, 14 # noqa: F841 _lowerCamelCase : List[Any] = [ [0, 1, 4], [0, 7, 8], [1, 2, 8], [7, 8, 7], [7, 6, 1], [2, 8, 2], [8, 6, 6], [2, 3, 7], [2, 5, 4], [6, 5, 2], [3, 5, 14], [3, 4, 9], [5, 4, 10], [1, 7, 11], ] _lowerCamelCase : Any = defaultdict(A_ ) for nodea, nodea, cost in edges: adjancency[nodea].append([nodea, cost] ) adjancency[nodea].append([nodea, cost] ) _lowerCamelCase : List[str] = mst(A_ ) _lowerCamelCase : Optional[int] = [ [7, 6, 1], [2, 8, 2], [6, 5, 2], [0, 1, 4], [2, 5, 4], [2, 3, 7], [0, 7, 8], [3, 4, 9], ] for answer in expected: _lowerCamelCase : int = tuple(answer[:2] ) _lowerCamelCase : int = tuple(edge[::-1] ) assert edge in result or reverse in result	72
'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_roberta import RobertaTokenizer _lowercase : Tuple = logging.get_logger(__name__) _lowercase : Dict = {"vocab_file": "vocab.json", "merges_file": "merges.txt", "tokenizer_file": "tokenizer.json"} _lowercase : Union[str, Any] = { "vocab_file": { "roberta-base": "https://huggingface.co/roberta-base/resolve/main/vocab.json", "roberta-large": "https://huggingface.co/roberta-large/resolve/main/vocab.json", "roberta-large-mnli": "https://huggingface.co/roberta-large-mnli/resolve/main/vocab.json", "distilroberta-base": "https://huggingface.co/distilroberta-base/resolve/main/vocab.json", "roberta-base-openai-detector": "https://huggingface.co/roberta-base-openai-detector/resolve/main/vocab.json", "roberta-large-openai-detector": ( "https://huggingface.co/roberta-large-openai-detector/resolve/main/vocab.json" ), }, "merges_file": { "roberta-base": "https://huggingface.co/roberta-base/resolve/main/merges.txt", "roberta-large": "https://huggingface.co/roberta-large/resolve/main/merges.txt", "roberta-large-mnli": "https://huggingface.co/roberta-large-mnli/resolve/main/merges.txt", "distilroberta-base": "https://huggingface.co/distilroberta-base/resolve/main/merges.txt", "roberta-base-openai-detector": "https://huggingface.co/roberta-base-openai-detector/resolve/main/merges.txt", "roberta-large-openai-detector": ( "https://huggingface.co/roberta-large-openai-detector/resolve/main/merges.txt" ), }, "tokenizer_file": { "roberta-base": "https://huggingface.co/roberta-base/resolve/main/tokenizer.json", "roberta-large": "https://huggingface.co/roberta-large/resolve/main/tokenizer.json", "roberta-large-mnli": "https://huggingface.co/roberta-large-mnli/resolve/main/tokenizer.json", "distilroberta-base": "https://huggingface.co/distilroberta-base/resolve/main/tokenizer.json", "roberta-base-openai-detector": ( "https://huggingface.co/roberta-base-openai-detector/resolve/main/tokenizer.json" ), "roberta-large-openai-detector": ( "https://huggingface.co/roberta-large-openai-detector/resolve/main/tokenizer.json" ), }, } _lowercase : Union[str, Any] = { "roberta-base": 5_1_2, "roberta-large": 5_1_2, "roberta-large-mnli": 5_1_2, "distilroberta-base": 5_1_2, "roberta-base-openai-detector": 5_1_2, "roberta-large-openai-detector": 5_1_2, } class lowerCAmelCase__ ( lowerCamelCase_ ): lowerCAmelCase_ = VOCAB_FILES_NAMES lowerCAmelCase_ = PRETRAINED_VOCAB_FILES_MAP lowerCAmelCase_ = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES lowerCAmelCase_ = ['''input_ids''', '''attention_mask'''] lowerCAmelCase_ = RobertaTokenizer def __init__( self , __SCREAMING_SNAKE_CASE=None , __SCREAMING_SNAKE_CASE=None , __SCREAMING_SNAKE_CASE=None , __SCREAMING_SNAKE_CASE="replace" , __SCREAMING_SNAKE_CASE="<s>" , __SCREAMING_SNAKE_CASE="</s>" , __SCREAMING_SNAKE_CASE="</s>" , __SCREAMING_SNAKE_CASE="<s>" , __SCREAMING_SNAKE_CASE="<unk>" , __SCREAMING_SNAKE_CASE="<pad>" , __SCREAMING_SNAKE_CASE="<mask>" , __SCREAMING_SNAKE_CASE=False , __SCREAMING_SNAKE_CASE=True , __SCREAMING_SNAKE_CASE , ): """simple docstring""" super().__init__( __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , tokenizer_file=__SCREAMING_SNAKE_CASE , errors=__SCREAMING_SNAKE_CASE , bos_token=__SCREAMING_SNAKE_CASE , eos_token=__SCREAMING_SNAKE_CASE , sep_token=__SCREAMING_SNAKE_CASE , cls_token=__SCREAMING_SNAKE_CASE , unk_token=__SCREAMING_SNAKE_CASE , pad_token=__SCREAMING_SNAKE_CASE , mask_token=__SCREAMING_SNAKE_CASE , add_prefix_space=__SCREAMING_SNAKE_CASE , trim_offsets=__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , ) lowercase_ : List[str] = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __SCREAMING_SNAKE_CASE ) != add_prefix_space: lowercase_ : Optional[int] = getattr(__SCREAMING_SNAKE_CASE , pre_tok_state.pop('''type''' ) ) lowercase_ : Dict = add_prefix_space lowercase_ : Optional[int] = pre_tok_class(__SCREAMING_SNAKE_CASE ) lowercase_ : List[Any] = add_prefix_space lowercase_ : Tuple = '''post_processor''' lowercase_ : Any = getattr(self.backend_tokenizer , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) if tokenizer_component_instance: lowercase_ : str = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: lowercase_ : List[str] = tuple(state['''sep'''] ) if "cls" in state: lowercase_ : List[str] = tuple(state['''cls'''] ) lowercase_ : List[Any] = False if state.get('''add_prefix_space''' , __SCREAMING_SNAKE_CASE ) != add_prefix_space: lowercase_ : int = add_prefix_space lowercase_ : Optional[int] = True if state.get('''trim_offsets''' , __SCREAMING_SNAKE_CASE ) != trim_offsets: lowercase_ : Tuple = trim_offsets lowercase_ : int = True if changes_to_apply: lowercase_ : Tuple = getattr(__SCREAMING_SNAKE_CASE , state.pop('''type''' ) ) lowercase_ : Optional[Any] = component_class(__SCREAMING_SNAKE_CASE ) setattr(self.backend_tokenizer , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) @property def _snake_case ( self ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def _snake_case ( self , __SCREAMING_SNAKE_CASE ): """simple docstring""" lowercase_ : List[Any] = AddedToken(__SCREAMING_SNAKE_CASE , lstrip=__SCREAMING_SNAKE_CASE , rstrip=__SCREAMING_SNAKE_CASE ) if isinstance(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) else value lowercase_ : Union[str, Any] = value def _snake_case ( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ): """simple docstring""" lowercase_ : Optional[Any] = kwargs.get('''is_split_into_words''' , __SCREAMING_SNAKE_CASE ) assert self.add_prefix_space or not is_split_into_words, ( F'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' "to use it with pretokenized inputs." ) return super()._batch_encode_plus(__SCREAMING_SNAKE_CASE , *__SCREAMING_SNAKE_CASE ) def _snake_case ( self , __SCREAMING_SNAKE_CASE , *__SCREAMING_SNAKE_CASE ): """simple docstring""" lowercase_ : Tuple = kwargs.get('''is_split_into_words''' , __SCREAMING_SNAKE_CASE ) assert self.add_prefix_space or not is_split_into_words, ( F'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' "to use it with pretokenized inputs." ) return super()._encode_plus(__SCREAMING_SNAKE_CASE , *__SCREAMING_SNAKE_CASE ) def _snake_case ( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE = None ): """simple docstring""" lowercase_ : Optional[Any] = self._tokenizer.model.save(__SCREAMING_SNAKE_CASE , name=__SCREAMING_SNAKE_CASE ) return tuple(__SCREAMING_SNAKE_CASE ) def _snake_case ( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE=None ): """simple docstring""" lowercase_ : List[str] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def _snake_case ( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE = None ): """simple docstring""" lowercase_ : Optional[int] = [self.sep_token_id] lowercase_ : int = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]	93	"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt''', '''tokenizer_file''': '''tokenizer.json'''} # See all BART models at https://huggingface.co/models?filter=bart lowerCAmelCase__ = { '''vocab_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/vocab.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/vocab.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json''', }, '''merges_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/merges.txt''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/merges.txt''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt''', }, '''tokenizer_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1024, '''facebook/bart-large''': 1024, '''facebook/bart-large-mnli''': 1024, '''facebook/bart-large-cnn''': 1024, '''facebook/bart-large-xsum''': 1024, '''yjernite/bart_eli5''': 1024, } class __snake_case ( _lowercase): snake_case__ : Any = VOCAB_FILES_NAMES snake_case__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP snake_case__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES snake_case__ : Optional[int] = ["input_ids", "attention_mask"] snake_case__ : Any = BartTokenizer def __init__( self : int , __lowerCAmelCase : Dict=None , __lowerCAmelCase : int=None , __lowerCAmelCase : Dict=None , __lowerCAmelCase : List[Any]="replace" , __lowerCAmelCase : Any="<s>" , __lowerCAmelCase : Optional[int]="</s>" , __lowerCAmelCase : str="</s>" , __lowerCAmelCase : Dict="<s>" , __lowerCAmelCase : Union[str, Any]="<unk>" , __lowerCAmelCase : Any="<pad>" , __lowerCAmelCase : Optional[Any]="<mask>" , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Dict=True , __lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__( __lowerCAmelCase , __lowerCAmelCase , tokenizer_file=__lowerCAmelCase , errors=__lowerCAmelCase , bos_token=__lowerCAmelCase , eos_token=__lowerCAmelCase , sep_token=__lowerCAmelCase , cls_token=__lowerCAmelCase , unk_token=__lowerCAmelCase , pad_token=__lowerCAmelCase , mask_token=__lowerCAmelCase , add_prefix_space=__lowerCAmelCase , trim_offsets=__lowerCAmelCase , __lowerCAmelCase , ) _lowerCamelCase : Tuple = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = getattr(__lowerCAmelCase , pre_tok_state.pop('''type''' ) ) _lowerCamelCase : Any = add_prefix_space _lowerCamelCase : int = pre_tok_class(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _lowerCamelCase : List[str] = '''post_processor''' _lowerCamelCase : List[str] = getattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) if tokenizer_component_instance: _lowerCamelCase : int = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _lowerCamelCase : Tuple = tuple(state['''sep'''] ) if "cls" in state: _lowerCamelCase : int = tuple(state['''cls'''] ) _lowerCamelCase : Union[str, Any] = False if state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = add_prefix_space _lowerCamelCase : Optional[Any] = True if state.get('''trim_offsets''' , __lowerCAmelCase ) != trim_offsets: _lowerCamelCase : Any = trim_offsets _lowerCamelCase : str = True if changes_to_apply: _lowerCamelCase : List[str] = getattr(__lowerCAmelCase , state.pop('''type''' ) ) _lowerCamelCase : str = component_class(__lowerCAmelCase ) setattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) @property def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : int ): """simple docstring""" _lowerCamelCase : Tuple = AddedToken(__lowerCAmelCase , lstrip=__lowerCAmelCase , rstrip=__lowerCAmelCase ) if isinstance(__lowerCAmelCase , __lowerCAmelCase ) else value _lowerCamelCase : str = value def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Dict = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._batch_encode_plus(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : Tuple , *__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Any = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._encode_plus(__lowerCAmelCase , *__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[str] = None ): """simple docstring""" _lowerCamelCase : Tuple = self._tokenizer.model.save(__lowerCAmelCase , name=__lowerCAmelCase ) return tuple(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : Dict , __lowerCAmelCase : List[str]=None ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : List[int] , __lowerCAmelCase : Optional[List[int]] = None ): """simple docstring""" _lowerCamelCase : List[str] = [self.sep_token_id] _lowerCamelCase : Tuple = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]	72
from copy import deepcopy from typing import Optional, Union import numpy as np from ...processing_utils import ProcessorMixin from ...tokenization_utils_base import BatchEncoding from ...utils import TensorType, is_tf_available, is_torch_available if is_torch_available(): import torch if is_tf_available(): import tensorflow as tf class _snake_case ( _snake_case ): SCREAMING_SNAKE_CASE__ = ['image_processor'] SCREAMING_SNAKE_CASE__ = 'SamImageProcessor' def __init__( self , _lowerCamelCase ): super().__init__(_lowerCamelCase ) a :Dict = self.image_processor a :str = -10 a :List[str] = self.image_processor.size['''longest_edge'''] def __call__( self , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase = None , _lowerCamelCase , ): a :List[Any] = self.image_processor( _lowerCamelCase , return_tensors=_lowerCamelCase , _lowerCamelCase , ) # pop arguments that are not used in the foward but used nevertheless a :Any = encoding_image_processor['''original_sizes'''] if hasattr(_lowerCamelCase , '''numpy''' ): # Checks if Torch or TF tensor a :Union[str, Any] = original_sizes.numpy() a , a , a :Optional[Any] = self._check_and_preprocess_points( input_points=_lowerCamelCase , input_labels=_lowerCamelCase , input_boxes=_lowerCamelCase , ) a :Optional[Any] = self._normalize_and_convert( _lowerCamelCase , _lowerCamelCase , input_points=_lowerCamelCase , input_labels=_lowerCamelCase , input_boxes=_lowerCamelCase , return_tensors=_lowerCamelCase , ) return encoding_image_processor def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase="pt" , ): if input_points is not None: if len(_lowerCamelCase ) != len(_lowerCamelCase ): a :Tuple = [ self._normalize_coordinates(self.target_size , _lowerCamelCase , original_sizes[0] ) for point in input_points ] else: a :str = [ self._normalize_coordinates(self.target_size , _lowerCamelCase , _lowerCamelCase ) for point, original_size in zip(_lowerCamelCase , _lowerCamelCase ) ] # check that all arrays have the same shape if not all(point.shape == input_points[0].shape for point in input_points ): if input_labels is not None: a , a :Tuple = self._pad_points_and_labels(_lowerCamelCase , _lowerCamelCase ) a :List[str] = np.array(_lowerCamelCase ) if input_labels is not None: a :Tuple = np.array(_lowerCamelCase ) if input_boxes is not None: if len(_lowerCamelCase ) != len(_lowerCamelCase ): a :Dict = [ self._normalize_coordinates(self.target_size , _lowerCamelCase , original_sizes[0] , is_bounding_box=_lowerCamelCase ) for box in input_boxes ] else: a :str = [ self._normalize_coordinates(self.target_size , _lowerCamelCase , _lowerCamelCase , is_bounding_box=_lowerCamelCase ) for box, original_size in zip(_lowerCamelCase , _lowerCamelCase ) ] a :Union[str, Any] = np.array(_lowerCamelCase ) if input_boxes is not None: if return_tensors == "pt": a :Optional[Any] = torch.from_numpy(_lowerCamelCase ) # boxes batch size of 1 by default a :Optional[Any] = input_boxes.unsqueeze(1 ) if len(input_boxes.shape ) != 3 else input_boxes elif return_tensors == "tf": a :Dict = tf.convert_to_tensor(_lowerCamelCase ) # boxes batch size of 1 by default a :Tuple = tf.expand_dims(_lowerCamelCase , 1 ) if len(input_boxes.shape ) != 3 else input_boxes encoding_image_processor.update({'''input_boxes''': input_boxes} ) if input_points is not None: if return_tensors == "pt": a :List[Any] = torch.from_numpy(_lowerCamelCase ) # point batch size of 1 by default a :Any = input_points.unsqueeze(1 ) if len(input_points.shape ) != 4 else input_points elif return_tensors == "tf": a :Tuple = tf.convert_to_tensor(_lowerCamelCase ) # point batch size of 1 by default a :int = tf.expand_dims(_lowerCamelCase , 1 ) if len(input_points.shape ) != 4 else input_points encoding_image_processor.update({'''input_points''': input_points} ) if input_labels is not None: if return_tensors == "pt": a :Dict = torch.from_numpy(_lowerCamelCase ) # point batch size of 1 by default a :int = input_labels.unsqueeze(1 ) if len(input_labels.shape ) != 3 else input_labels elif return_tensors == "tf": a :Union[str, Any] = tf.convert_to_tensor(_lowerCamelCase ) # point batch size of 1 by default a :Dict = tf.expand_dims(_lowerCamelCase , 1 ) if len(input_labels.shape ) != 3 else input_labels encoding_image_processor.update({'''input_labels''': input_labels} ) return encoding_image_processor def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase , _lowerCamelCase ): a :List[Any] = max([point.shape[0] for point in input_points] ) a :Union[str, Any] = [] for i, point in enumerate(_lowerCamelCase ): if point.shape[0] != expected_nb_points: a :int = np.concatenate( [point, np.zeros((expected_nb_points - point.shape[0], 2) ) + self.point_pad_value] , axis=0 ) a :Union[str, Any] = np.append(input_labels[i] , [self.point_pad_value] ) processed_input_points.append(_lowerCamelCase ) a :Any = processed_input_points return input_points, input_labels def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase=False ): a , a :str = original_size a , a :Optional[Any] = self.image_processor._get_preprocess_shape(_lowerCamelCase , longest_edge=_lowerCamelCase ) a :List[Any] = deepcopy(_lowerCamelCase ).astype(_lowerCamelCase ) if is_bounding_box: a :Dict = coords.reshape(-1 , 2 , 2 ) a :Tuple = coords[..., 0] * (new_w / old_w) a :Dict = coords[..., 1] * (new_h / old_h) if is_bounding_box: a :Any = coords.reshape(-1 , 4 ) return coords def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase=None , ): if input_points is not None: if hasattr(_lowerCamelCase , '''numpy''' ): # Checks for TF or Torch tensor a :int = input_points.numpy().tolist() if not isinstance(_lowerCamelCase , _lowerCamelCase ) or not isinstance(input_points[0] , _lowerCamelCase ): raise ValueError('''Input points must be a list of list of floating points.''' ) a :Dict = [np.array(_lowerCamelCase ) for input_point in input_points] else: a :List[str] = None if input_labels is not None: if hasattr(_lowerCamelCase , '''numpy''' ): a :Optional[int] = input_labels.numpy().tolist() if not isinstance(_lowerCamelCase , _lowerCamelCase ) or not isinstance(input_labels[0] , _lowerCamelCase ): raise ValueError('''Input labels must be a list of list integers.''' ) a :List[Any] = [np.array(_lowerCamelCase ) for label in input_labels] else: a :Optional[Any] = None if input_boxes is not None: if hasattr(_lowerCamelCase , '''numpy''' ): a :int = input_boxes.numpy().tolist() if ( not isinstance(_lowerCamelCase , _lowerCamelCase ) or not isinstance(input_boxes[0] , _lowerCamelCase ) or not isinstance(input_boxes[0][0] , _lowerCamelCase ) ): raise ValueError('''Input boxes must be a list of list of list of floating points.''' ) a :Optional[int] = [np.array(_lowerCamelCase ).astype(np.floataa ) for box in input_boxes] else: a :Optional[int] = None return input_points, input_labels, input_boxes @property def SCREAMING_SNAKE_CASE__ ( self ): a :List[str] = self.image_processor.model_input_names return list(dict.fromkeys(_lowerCamelCase ) ) def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase , _lowerCamelCase ): return self.image_processor.post_process_masks(_lowerCamelCase , **_lowerCamelCase )	94	"""simple docstring""" from __future__ import annotations def snake_case_ ( A_ : str ): '''simple docstring''' return [ord(A_ ) - 96 for elem in plain] def snake_case_ ( A_ : list[int] ): '''simple docstring''' return "".join(chr(elem + 96 ) for elem in encoded ) def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Dict = encode(input('''-> ''' ).strip().lower() ) print('''Encoded: ''', A_ ) print('''Decoded:''', decode(A_ ) ) if __name__ == "__main__": main()	72
# Lint as: python3 import sys from collections.abc import Mapping from typing import TYPE_CHECKING import numpy as np import pyarrow as pa from .. import config from ..utils.py_utils import map_nested from .formatting import TensorFormatter if TYPE_CHECKING: import torch class __lowerCAmelCase ( TensorFormatter[Mapping, """torch.Tensor""", Mapping]): def __init__( self , lowerCAmelCase__=None , lowerCAmelCase__ ) -> List[Any]: '''simple docstring''' super().__init__(features=lowerCAmelCase__ ) a__ : List[str] =torch_tensor_kwargs import torch # noqa import torch at initialization def _lowercase ( self , lowerCAmelCase__ ) -> Union[str, Any]: '''simple docstring''' import torch if isinstance(lowerCAmelCase__ , lowerCAmelCase__ ) and column: if all( isinstance(lowerCAmelCase__ , torch.Tensor ) and x.shape == column[0].shape and x.dtype == column[0].dtype for x in column ): return torch.stack(lowerCAmelCase__ ) return column def _lowercase ( self , lowerCAmelCase__ ) -> List[Any]: '''simple docstring''' import torch if isinstance(lowerCAmelCase__ , (str, bytes, type(lowerCAmelCase__ )) ): return value elif isinstance(lowerCAmelCase__ , (np.character, np.ndarray) ) and np.issubdtype(value.dtype , np.character ): return value.tolist() a__ : Optional[Any] ={} if isinstance(lowerCAmelCase__ , (np.number, np.ndarray) ) and np.issubdtype(value.dtype , np.integer ): a__ : Dict ={"dtype": torch.intaa} elif isinstance(lowerCAmelCase__ , (np.number, np.ndarray) ) and np.issubdtype(value.dtype , np.floating ): a__ : Dict ={"dtype": torch.floataa} elif config.PIL_AVAILABLE and "PIL" in sys.modules: import PIL.Image if isinstance(lowerCAmelCase__ , PIL.Image.Image ): a__ : Optional[int] =np.asarray(lowerCAmelCase__ ) return torch.tensor(lowerCAmelCase__ , {default_dtype, self.torch_tensor_kwargs} ) def _lowercase ( self , lowerCAmelCase__ ) -> int: '''simple docstring''' import torch # support for torch, tf, jax etc. if hasattr(lowerCAmelCase__ , "__array__" ) and not isinstance(lowerCAmelCase__ , torch.Tensor ): a__ : Dict =data_struct.__array__() # support for nested types like struct of list of struct if isinstance(lowerCAmelCase__ , np.ndarray ): if data_struct.dtype == object: # torch tensors cannot be instantied from an array of objects return self._consolidate([self.recursive_tensorize(lowerCAmelCase__ ) for substruct in data_struct] ) elif isinstance(lowerCAmelCase__ , (list, tuple) ): return self._consolidate([self.recursive_tensorize(lowerCAmelCase__ ) for substruct in data_struct] ) return self._tensorize(lowerCAmelCase__ ) def _lowercase ( self , lowerCAmelCase__ ) -> int: '''simple docstring''' return map_nested(self._recursive_tensorize , lowerCAmelCase__ , map_list=lowerCAmelCase__ ) def _lowercase ( self , lowerCAmelCase__ ) -> Mapping: '''simple docstring''' a__ : List[Any] =self.numpy_arrow_extractor().extract_row(lowerCAmelCase__ ) a__ : Tuple =self.python_features_decoder.decode_row(lowerCAmelCase__ ) return self.recursive_tensorize(lowerCAmelCase__ ) def _lowercase ( self , lowerCAmelCase__ ) -> "torch.Tensor": '''simple docstring''' a__ : Tuple =self.numpy_arrow_extractor().extract_column(lowerCAmelCase__ ) a__ : Any =self.python_features_decoder.decode_column(lowerCAmelCase__ , pa_table.column_names[0] ) a__ : Optional[int] =self.recursive_tensorize(lowerCAmelCase__ ) a__ : int =self._consolidate(lowerCAmelCase__ ) return column def _lowercase ( self , lowerCAmelCase__ ) -> Mapping: '''simple docstring''' a__ : str =self.numpy_arrow_extractor().extract_batch(lowerCAmelCase__ ) a__ : List[str] =self.python_features_decoder.decode_batch(lowerCAmelCase__ ) a__ : Optional[Any] =self.recursive_tensorize(lowerCAmelCase__ ) for column_name in batch: a__ : List[Any] =self._consolidate(batch[column_name] ) return batch	95	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = { '''configuration_lxmert''': ['''LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LxmertConfig'''], '''tokenization_lxmert''': ['''LxmertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''LxmertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''LxmertEncoder''', '''LxmertForPreTraining''', '''LxmertForQuestionAnswering''', '''LxmertModel''', '''LxmertPreTrainedModel''', '''LxmertVisualFeatureEncoder''', '''LxmertXLayer''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFLxmertForPreTraining''', '''TFLxmertMainLayer''', '''TFLxmertModel''', '''TFLxmertPreTrainedModel''', '''TFLxmertVisualFeatureEncoder''', ] if TYPE_CHECKING: from .configuration_lxmert import LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, LxmertConfig from .tokenization_lxmert import LxmertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_lxmert_fast import LxmertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lxmert import ( LxmertEncoder, LxmertForPreTraining, LxmertForQuestionAnswering, LxmertModel, LxmertPreTrainedModel, LxmertVisualFeatureEncoder, LxmertXLayer, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_lxmert import ( TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFLxmertForPreTraining, TFLxmertMainLayer, TFLxmertModel, TFLxmertPreTrainedModel, TFLxmertVisualFeatureEncoder, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	72
"""simple docstring""" import pytest from datasets.utils.sharding import _distribute_shards, _number_of_shards_in_gen_kwargs, _split_gen_kwargs @pytest.mark.parametrize( 'kwargs, expected' , [ ({'num_shards': 0, 'max_num_jobs': 1}, []), ({'num_shards': 10, 'max_num_jobs': 1}, [range(10 )]), ({'num_shards': 10, 'max_num_jobs': 10}, [range(lowercase__ , i + 1 ) for i in range(10 )]), ({'num_shards': 1, 'max_num_jobs': 10}, [range(1 )]), ({'num_shards': 10, 'max_num_jobs': 3}, [range(0 , 4 ), range(4 , 7 ), range(7 , 10 )]), ({'num_shards': 3, 'max_num_jobs': 10}, [range(0 , 1 ), range(1 , 2 ), range(2 , 3 )]), ] , ) def _snake_case ( lowercase__ , lowercase__ ): _lowerCamelCase : int = _distribute_shards(**lowercase__ ) assert out == expected @pytest.mark.parametrize( 'gen_kwargs, max_num_jobs, expected' , [ ({'foo': 0}, 10, [{'foo': 0}]), ({'shards': [0, 1, 2, 3]}, 1, [{'shards': [0, 1, 2, 3]}]), ({'shards': [0, 1, 2, 3]}, 4, [{'shards': [0]}, {'shards': [1]}, {'shards': [2]}, {'shards': [3]}]), ({'shards': [0, 1]}, 4, [{'shards': [0]}, {'shards': [1]}]), ({'shards': [0, 1, 2, 3]}, 2, [{'shards': [0, 1]}, {'shards': [2, 3]}]), ] , ) def _snake_case ( lowercase__ , lowercase__ , lowercase__ ): _lowerCamelCase : int = _split_gen_kwargs(lowercase__ , lowercase__ ) assert out == expected @pytest.mark.parametrize( 'gen_kwargs, expected' , [ ({'foo': 0}, 1), ({'shards': [0]}, 1), ({'shards': [0, 1, 2, 3]}, 4), ({'shards': [0, 1, 2, 3], 'foo': 0}, 4), ({'shards': [0, 1, 2, 3], 'other': (0, 1)}, 4), ({'shards': [0, 1, 2, 3], 'shards2': [0, 1]}, RuntimeError), ] , ) def _snake_case ( lowercase__ , lowercase__ ): if expected is RuntimeError: with pytest.raises(lowercase__ ): _number_of_shards_in_gen_kwargs(lowercase__ ) else: _lowerCamelCase : Tuple = _number_of_shards_in_gen_kwargs(lowercase__ ) assert out == expected	96	"""simple docstring""" def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for data in source_data: for i, el in enumerate(A_ ): if len(A_ ) < i + 1: data_lists.append([] ) data_lists[i].append(float(A_ ) ) return data_lists def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for dlist, weight in zip(A_, A_ ): _lowerCamelCase : Any = min(A_ ) _lowerCamelCase : Optional[Any] = max(A_ ) _lowerCamelCase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowerCamelCase : str = F'''Invalid weight of {weight:f} provided''' raise ValueError(A_ ) score_lists.append(A_ ) return score_lists def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(A_ ): _lowerCamelCase : List[str] = final_scores[j] + ele return final_scores def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : Tuple = get_data(A_ ) _lowerCamelCase : Optional[Any] = calculate_each_score(A_, A_ ) _lowerCamelCase : str = generate_final_scores(A_ ) # append scores to source data for i, ele in enumerate(A_ ): source_data[i].append(A_ ) return source_data	72
'''simple docstring''' from .imports import is_rich_available if is_rich_available(): from rich.traceback import install install(show_locals=False) else: raise ModuleNotFoundError('''To use the rich extension, install rich with `pip install rich`''')	97	"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = { '''microsoft/unispeech-large-1500h-cv''': ( '''https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json''' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class __snake_case ( _lowercase): snake_case__ : List[str] = "unispeech" def __init__( self : List[str] , __lowerCAmelCase : List[Any]=3_2 , __lowerCAmelCase : str=7_6_8 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=3_0_7_2 , __lowerCAmelCase : Tuple="gelu" , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : str=0.1 , __lowerCAmelCase : Tuple=0.0 , __lowerCAmelCase : Optional[int]=0.0 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Optional[int]=0.1 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Dict=1E-5 , __lowerCAmelCase : Optional[int]="group" , __lowerCAmelCase : Dict="gelu" , __lowerCAmelCase : int=(5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2) , __lowerCAmelCase : Optional[int]=(5, 2, 2, 2, 2, 2, 2) , __lowerCAmelCase : Union[str, Any]=(1_0, 3, 3, 3, 3, 2, 2) , __lowerCAmelCase : List[Any]=False , __lowerCAmelCase : List[str]=1_2_8 , __lowerCAmelCase : Any=1_6 , __lowerCAmelCase : Optional[int]=False , __lowerCAmelCase : Optional[Any]=True , __lowerCAmelCase : Union[str, Any]=0.05 , __lowerCAmelCase : Union[str, Any]=1_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.0 , __lowerCAmelCase : Optional[int]=1_0 , __lowerCAmelCase : Dict=0 , __lowerCAmelCase : List[str]=3_2_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Tuple=1_0_0 , __lowerCAmelCase : Dict=2_5_6 , __lowerCAmelCase : str=2_5_6 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Dict="mean" , __lowerCAmelCase : Union[str, Any]=False , __lowerCAmelCase : Dict=False , __lowerCAmelCase : Optional[Any]=2_5_6 , __lowerCAmelCase : Dict=8_0 , __lowerCAmelCase : int=0 , __lowerCAmelCase : Optional[int]=1 , __lowerCAmelCase : Dict=2 , __lowerCAmelCase : Any=0.5 , __lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__(__lowerCAmelCase , pad_token_id=__lowerCAmelCase , bos_token_id=__lowerCAmelCase , eos_token_id=__lowerCAmelCase ) _lowerCamelCase : Dict = hidden_size _lowerCamelCase : Any = feat_extract_norm _lowerCamelCase : List[Any] = feat_extract_activation _lowerCamelCase : Any = list(__lowerCAmelCase ) _lowerCamelCase : Tuple = list(__lowerCAmelCase ) _lowerCamelCase : int = list(__lowerCAmelCase ) _lowerCamelCase : List[str] = conv_bias _lowerCamelCase : List[str] = num_conv_pos_embeddings _lowerCamelCase : Tuple = num_conv_pos_embedding_groups _lowerCamelCase : List[str] = len(self.conv_dim ) _lowerCamelCase : Tuple = num_hidden_layers _lowerCamelCase : List[Any] = intermediate_size _lowerCamelCase : Dict = hidden_act _lowerCamelCase : Union[str, Any] = num_attention_heads _lowerCamelCase : Tuple = hidden_dropout _lowerCamelCase : List[Any] = attention_dropout _lowerCamelCase : Optional[int] = activation_dropout _lowerCamelCase : Optional[Any] = feat_proj_dropout _lowerCamelCase : Optional[int] = final_dropout _lowerCamelCase : Any = layerdrop _lowerCamelCase : Any = layer_norm_eps _lowerCamelCase : List[Any] = initializer_range _lowerCamelCase : List[str] = num_ctc_classes _lowerCamelCase : List[Any] = vocab_size _lowerCamelCase : Optional[Any] = do_stable_layer_norm _lowerCamelCase : Tuple = use_weighted_layer_sum _lowerCamelCase : List[Any] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' f''' {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,''' f''' `len(config.conv_kernel) = {len(self.conv_kernel )}`.''' ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 _lowerCamelCase : Any = apply_spec_augment _lowerCamelCase : Dict = mask_time_prob _lowerCamelCase : List[str] = mask_time_length _lowerCamelCase : Optional[Any] = mask_time_min_masks _lowerCamelCase : List[str] = mask_feature_prob _lowerCamelCase : int = mask_feature_length _lowerCamelCase : Dict = mask_feature_min_masks # parameters for pretraining with codevector quantized representations _lowerCamelCase : Optional[Any] = num_codevectors_per_group _lowerCamelCase : int = num_codevector_groups _lowerCamelCase : List[Any] = contrastive_logits_temperature _lowerCamelCase : List[str] = feat_quantizer_dropout _lowerCamelCase : Dict = num_negatives _lowerCamelCase : Optional[int] = codevector_dim _lowerCamelCase : List[Any] = proj_codevector_dim _lowerCamelCase : List[Any] = diversity_loss_weight # ctc loss _lowerCamelCase : Union[str, Any] = ctc_loss_reduction _lowerCamelCase : Any = ctc_zero_infinity # pretraining loss _lowerCamelCase : str = replace_prob @property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )	72
"""simple docstring""" import copy import os from typing import Union from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ : Optional[int] = logging.get_logger(__name__) lowerCAmelCase__ : List[str] = { 'Salesforce/blip-vqa-base': 'https://huggingface.co/Salesforce/blip-vqa-base/resolve/main/config.json', 'Salesforce/blip-vqa-capfit-large': ( 'https://huggingface.co/Salesforce/blip-vqa-base-capfit/resolve/main/config.json' ), 'Salesforce/blip-image-captioning-base': ( 'https://huggingface.co/Salesforce/blip-image-captioning-base/resolve/main/config.json' ), 'Salesforce/blip-image-captioning-large': ( 'https://huggingface.co/Salesforce/blip-image-captioning-large/resolve/main/config.json' ), 'Salesforce/blip-itm-base-coco': 'https://huggingface.co/Salesforce/blip-itm-base-coco/resolve/main/config.json', 'Salesforce/blip-itm-large-coco': 'https://huggingface.co/Salesforce/blip-itm-large-coco/resolve/main/config.json', 'Salesforce/blip-itm-base-flikr': 'https://huggingface.co/Salesforce/blip-itm-base-flikr/resolve/main/config.json', 'Salesforce/blip-itm-large-flikr': ( 'https://huggingface.co/Salesforce/blip-itm-large-flikr/resolve/main/config.json' ), } class snake_case ( __UpperCAmelCase ): """simple docstring""" snake_case__ = "blip_text_model" def __init__( self : Tuple ,lowerCamelCase__ : str=30_524 ,lowerCamelCase__ : Tuple=768 ,lowerCamelCase__ : Union[str, Any]=768 ,lowerCamelCase__ : Union[str, Any]=3_072 ,lowerCamelCase__ : str=768 ,lowerCamelCase__ : Optional[int]=12 ,lowerCamelCase__ : Any=8 ,lowerCamelCase__ : List[Any]=512 ,lowerCamelCase__ : Tuple="gelu" ,lowerCamelCase__ : Dict=1e-12 ,lowerCamelCase__ : Dict=0.0 ,lowerCamelCase__ : Union[str, Any]=0.0 ,lowerCamelCase__ : int=0.0_2 ,lowerCamelCase__ : List[str]=30_522 ,lowerCamelCase__ : Tuple=2 ,lowerCamelCase__ : Tuple=0 ,lowerCamelCase__ : str=102 ,lowerCamelCase__ : Tuple=True ,lowerCamelCase__ : str=True ,lowerCamelCase__ : Optional[Any] ,): super().__init__( pad_token_id=lowerCamelCase__ ,bos_token_id=lowerCamelCase__ ,eos_token_id=lowerCamelCase__ ,sep_token_id=lowerCamelCase__ ,lowerCamelCase__ ,) UpperCAmelCase__ = vocab_size UpperCAmelCase__ = hidden_size UpperCAmelCase__ = encoder_hidden_size UpperCAmelCase__ = intermediate_size UpperCAmelCase__ = projection_dim UpperCAmelCase__ = hidden_dropout_prob UpperCAmelCase__ = num_hidden_layers UpperCAmelCase__ = num_attention_heads UpperCAmelCase__ = max_position_embeddings UpperCAmelCase__ = layer_norm_eps UpperCAmelCase__ = hidden_act UpperCAmelCase__ = initializer_range UpperCAmelCase__ = attention_probs_dropout_prob UpperCAmelCase__ = is_decoder UpperCAmelCase__ = use_cache @classmethod def __lowerCAmelCase ( cls : Union[str, Any] ,lowerCamelCase__ : Union[str, os.PathLike] ,lowerCamelCase__ : List[Any] ): cls._set_token_in_kwargs(lowerCamelCase__ ) UpperCAmelCase__ , UpperCAmelCase__ = cls.get_config_dict(lowerCamelCase__ ,lowerCamelCase__ ) # get the text config dict if we are loading from BlipConfig if config_dict.get('model_type' ) == "blip": UpperCAmelCase__ = config_dict['text_config'] if "model_type" in config_dict and hasattr(cls ,'model_type' ) and config_dict["model_type"] != cls.model_type: logger.warning( f'''You are using a model of type {config_dict["model_type"]} to instantiate a model of type ''' f'''{cls.model_type}. This is not supported for all configurations of models and can yield errors.''' ) return cls.from_dict(lowerCamelCase__ ,lowerCamelCase__ ) class snake_case ( __UpperCAmelCase ): """simple docstring""" snake_case__ = "blip_vision_model" def __init__( self : Tuple ,lowerCamelCase__ : List[str]=768 ,lowerCamelCase__ : Any=3_072 ,lowerCamelCase__ : List[Any]=512 ,lowerCamelCase__ : Optional[Any]=12 ,lowerCamelCase__ : Any=12 ,lowerCamelCase__ : List[str]=384 ,lowerCamelCase__ : Any=16 ,lowerCamelCase__ : Any="gelu" ,lowerCamelCase__ : Any=1e-5 ,lowerCamelCase__ : Any=0.0 ,lowerCamelCase__ : Optional[int]=1e-10 ,lowerCamelCase__ : Union[str, Any] ,): super().__init__(lowerCamelCase__ ) UpperCAmelCase__ = hidden_size UpperCAmelCase__ = intermediate_size UpperCAmelCase__ = projection_dim UpperCAmelCase__ = num_hidden_layers UpperCAmelCase__ = num_attention_heads UpperCAmelCase__ = patch_size UpperCAmelCase__ = image_size UpperCAmelCase__ = initializer_range UpperCAmelCase__ = attention_dropout UpperCAmelCase__ = layer_norm_eps UpperCAmelCase__ = hidden_act @classmethod def __lowerCAmelCase ( cls : int ,lowerCamelCase__ : Union[str, os.PathLike] ,lowerCamelCase__ : List[str] ): cls._set_token_in_kwargs(lowerCamelCase__ ) UpperCAmelCase__ , UpperCAmelCase__ = cls.get_config_dict(lowerCamelCase__ ,lowerCamelCase__ ) # get the vision config dict if we are loading from BlipConfig if config_dict.get('model_type' ) == "blip": UpperCAmelCase__ = config_dict['vision_config'] if "model_type" in config_dict and hasattr(cls ,'model_type' ) and config_dict["model_type"] != cls.model_type: logger.warning( f'''You are using a model of type {config_dict["model_type"]} to instantiate a model of type ''' f'''{cls.model_type}. This is not supported for all configurations of models and can yield errors.''' ) return cls.from_dict(lowerCamelCase__ ,lowerCamelCase__ ) class snake_case ( __UpperCAmelCase ): """simple docstring""" snake_case__ = "blip" snake_case__ = True def __init__( self : Any ,lowerCamelCase__ : List[Any]=None ,lowerCamelCase__ : List[Any]=None ,lowerCamelCase__ : Dict=512 ,lowerCamelCase__ : List[str]=2.6_5_9_2 ,lowerCamelCase__ : List[Any]=256 ,lowerCamelCase__ : int ,): super().__init__(lowerCamelCase__ ) if text_config is None: UpperCAmelCase__ = {} logger.info('`text_config` is `None`. Initializing the `BlipTextConfig` with default values.' ) if vision_config is None: UpperCAmelCase__ = {} logger.info('`vision_config` is `None`. Initializing the `BlipVisionConfig` with default values.' ) UpperCAmelCase__ = BlipTextConfig(lowerCamelCase__ ) UpperCAmelCase__ = BlipVisionConfig(lowerCamelCase__ ) UpperCAmelCase__ = self.vision_config.hidden_size UpperCAmelCase__ = projection_dim UpperCAmelCase__ = logit_scale_init_value UpperCAmelCase__ = 1.0 UpperCAmelCase__ = 0.0_2 UpperCAmelCase__ = image_text_hidden_size @classmethod def __lowerCAmelCase ( cls : List[Any] ,lowerCamelCase__ : BlipTextConfig ,lowerCamelCase__ : BlipVisionConfig ,lowerCamelCase__ : int ): return cls(text_config=text_config.to_dict() ,vision_config=vision_config.to_dict() ,lowerCamelCase__ ) def __lowerCAmelCase ( self : List[Any] ): UpperCAmelCase__ = copy.deepcopy(self.__dict__ ) UpperCAmelCase__ = self.text_config.to_dict() UpperCAmelCase__ = self.vision_config.to_dict() UpperCAmelCase__ = self.__class__.model_type return output	98	"""simple docstring""" from typing import Optional from urllib.parse import quote import huggingface_hub as hfh from packaging import version def snake_case_ ( A_ : str, A_ : str, A_ : Optional[str] = None ): '''simple docstring''' if version.parse(hfh.__version__ ).release < version.parse('''0.11.0''' ).release: # old versions of hfh don't url-encode the file path _lowerCamelCase : Optional[Any] = quote(A_ ) return hfh.hf_hub_url(A_, A_, repo_type='''dataset''', revision=A_ )	72
def A_ ( A__ , A__ ) -> str: return "\n".join( F'{number} * {i} = {number * i}' for i in range(1 , number_of_terms + 1 ) ) if __name__ == "__main__": print(multiplication_table(number=5, number_of_terms=1_0))	99	"""simple docstring""" import unittest import numpy as np def snake_case_ ( A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray \| None = None, ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) if shape_a[0] != shape_b[0]: _lowerCamelCase : Tuple = ( '''Expected the same number of rows for A and B. ''' F'''Instead found A of size {shape_a} and B of size {shape_b}''' ) raise ValueError(A_ ) if shape_b[1] != shape_c[1]: _lowerCamelCase : Tuple = ( '''Expected the same number of columns for B and C. ''' F'''Instead found B of size {shape_b} and C of size {shape_c}''' ) raise ValueError(A_ ) _lowerCamelCase : List[str] = pseudo_inv if a_inv is None: try: _lowerCamelCase : Any = np.linalg.inv(A_ ) except np.linalg.LinAlgError: raise ValueError( '''Input matrix A is not invertible. Cannot compute Schur complement.''' ) return mat_c - mat_b.T @ a_inv @ mat_b class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : List[str] = np.array([[2, 1], [6, 3]] ) _lowerCamelCase : List[Any] = schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = np.block([[a, b], [b.T, c]] ) _lowerCamelCase : Tuple = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : List[str] = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : Any = np.linalg.det(__lowerCAmelCase ) self.assertAlmostEqual(__lowerCAmelCase , det_a * det_s ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : Optional[int] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : int = np.array([[2, 1], [6, 3]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : str = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : Union[str, Any] = np.array([[2, 1, 3], [6, 3, 5]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) if __name__ == "__main__": import doctest doctest.testmod() unittest.main()	72
"""simple docstring""" import unittest from transformers import ( MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING, TF_MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING, TextaTextGenerationPipeline, pipeline, ) from transformers.testing_utils import is_pipeline_test, require_tf, require_torch from transformers.utils import is_torch_available from .test_pipelines_common import ANY if is_torch_available(): import torch @is_pipeline_test class SCREAMING_SNAKE_CASE_ ( unittest.TestCase ): """simple docstring""" __lowercase : Optional[Any] = MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING __lowercase : Any = TF_MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING def snake_case_ ( self , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__): __SCREAMING_SNAKE_CASE = TextaTextGenerationPipeline(model=lowerCAmelCase__ , tokenizer=lowerCAmelCase__) return generator, ["Something to write", "Something else"] def snake_case_ ( self , lowerCAmelCase__ , lowerCAmelCase__): __SCREAMING_SNAKE_CASE = generator("""Something there""") self.assertEqual(lowerCAmelCase__ , [{"""generated_text""": ANY(lowerCAmelCase__)}]) # These are encoder decoder, they don't just append to incoming string self.assertFalse(outputs[0]["""generated_text"""].startswith("""Something there""")) __SCREAMING_SNAKE_CASE = generator(["""This is great !""", """Something else"""] , num_return_sequences=2 , do_sample=lowerCAmelCase__) self.assertEqual( lowerCAmelCase__ , [ [{"""generated_text""": ANY(lowerCAmelCase__)}, {"""generated_text""": ANY(lowerCAmelCase__)}], [{"""generated_text""": ANY(lowerCAmelCase__)}, {"""generated_text""": ANY(lowerCAmelCase__)}], ] , ) __SCREAMING_SNAKE_CASE = generator( ["""This is great !""", """Something else"""] , num_return_sequences=2 , batch_size=2 , do_sample=lowerCAmelCase__) self.assertEqual( lowerCAmelCase__ , [ [{"""generated_text""": ANY(lowerCAmelCase__)}, {"""generated_text""": ANY(lowerCAmelCase__)}], [{"""generated_text""": ANY(lowerCAmelCase__)}, {"""generated_text""": ANY(lowerCAmelCase__)}], ] , ) with self.assertRaises(lowerCAmelCase__): generator(4) @require_torch def snake_case_ ( self): __SCREAMING_SNAKE_CASE = pipeline("""text2text-generation""" , model="""patrickvonplaten/t5-tiny-random""" , framework="""pt""") # do_sample=False necessary for reproducibility __SCREAMING_SNAKE_CASE = generator("""Something there""" , do_sample=lowerCAmelCase__) self.assertEqual(lowerCAmelCase__ , [{"""generated_text""": """"""}]) __SCREAMING_SNAKE_CASE = 3 __SCREAMING_SNAKE_CASE = generator( """Something there""" , num_return_sequences=lowerCAmelCase__ , num_beams=lowerCAmelCase__ , ) __SCREAMING_SNAKE_CASE = [ {"""generated_text""": """Beide Beide Beide Beide Beide Beide Beide Beide Beide"""}, {"""generated_text""": """Beide Beide Beide Beide Beide Beide Beide Beide"""}, {"""generated_text""": """"""}, ] self.assertEqual(lowerCAmelCase__ , lowerCAmelCase__) __SCREAMING_SNAKE_CASE = generator("""This is a test""" , do_sample=lowerCAmelCase__ , num_return_sequences=2 , return_tensors=lowerCAmelCase__) self.assertEqual( lowerCAmelCase__ , [ {"""generated_token_ids""": ANY(torch.Tensor)}, {"""generated_token_ids""": ANY(torch.Tensor)}, ] , ) __SCREAMING_SNAKE_CASE = generator.model.config.eos_token_id __SCREAMING_SNAKE_CASE = """<pad>""" __SCREAMING_SNAKE_CASE = generator( ["""This is a test""", """This is a second test"""] , do_sample=lowerCAmelCase__ , num_return_sequences=2 , batch_size=2 , return_tensors=lowerCAmelCase__ , ) self.assertEqual( lowerCAmelCase__ , [ [ {"""generated_token_ids""": ANY(torch.Tensor)}, {"""generated_token_ids""": ANY(torch.Tensor)}, ], [ {"""generated_token_ids""": ANY(torch.Tensor)}, {"""generated_token_ids""": ANY(torch.Tensor)}, ], ] , ) @require_tf def snake_case_ ( self): __SCREAMING_SNAKE_CASE = pipeline("""text2text-generation""" , model="""patrickvonplaten/t5-tiny-random""" , framework="""tf""") # do_sample=False necessary for reproducibility __SCREAMING_SNAKE_CASE = generator("""Something there""" , do_sample=lowerCAmelCase__) self.assertEqual(lowerCAmelCase__ , [{"""generated_text""": """"""}])	100	"""simple docstring""" def snake_case_ ( A_ : list[int], A_ : str ): '''simple docstring''' _lowerCamelCase : Tuple = int(A_ ) # Initialize Result _lowerCamelCase : Dict = [] # Traverse through all denomination for denomination in reversed(A_ ): # Find denominations while int(A_ ) >= int(A_ ): total_value -= int(A_ ) answer.append(A_ ) # Append the "answers" array return answer # Driver Code if __name__ == "__main__": lowerCAmelCase__ = [] lowerCAmelCase__ = '''0''' if ( input('''Do you want to enter your denominations ? (yY/n): ''').strip().lower() == "y" ): lowerCAmelCase__ = int(input('''Enter the number of denominations you want to add: ''').strip()) for i in range(0, n): denominations.append(int(input(F"""Denomination {i}: """).strip())) lowerCAmelCase__ = input('''Enter the change you want to make in Indian Currency: ''').strip() else: # All denominations of Indian Currency if user does not enter lowerCAmelCase__ = [1, 2, 5, 10, 20, 50, 100, 500, 2000] lowerCAmelCase__ = input('''Enter the change you want to make: ''').strip() if int(value) == 0 or int(value) < 0: print('''The total value cannot be zero or negative.''') else: print(F"""Following is minimal change for {value}: """) lowerCAmelCase__ = find_minimum_change(denominations, value) # Print result for i in range(len(answer)): print(answer[i], end=''' ''')	72

import math import tensorflow as tf from packaging import version def _a ( a :Any ) -> Union[str, Any]: a = tf.convert_to_tensor(a ) a = 0.5 * (1.0 + tf.math.erf(x / tf.cast(tf.sqrt(2.0 ) , x.dtype ) )) return x * cdf def _a ( a :Union[str, Any] ) -> Union[str, Any]: a = tf.convert_to_tensor(a ) a = tf.cast(math.pi , x.dtype ) a = tf.cast(0.044_715 , x.dtype ) a = 0.5 * (1.0 + tf.tanh(tf.sqrt(2.0 / pi ) * (x + coeff * tf.pow(a , 3 )) )) return x * cdf def _a ( a :List[Any] ) -> Optional[int]: a = tf.convert_to_tensor(a ) return x * tf.tanh(tf.math.softplus(a ) ) def _a ( a :Union[str, Any] ) -> Tuple: a = tf.convert_to_tensor(a ) a = tf.cast(0.044_715 , x.dtype ) a = tf.cast(0.7_978_845_608 , x.dtype ) return 0.5 * x * (1.0 + tf.tanh(x * coeffa * (1.0 + coeffa * x * x) )) def _a ( a :Union[str, Any] ) -> Optional[Any]: a = tf.convert_to_tensor(a ) a = tf.cast(1.702 , x.dtype ) return x * tf.math.sigmoid(coeff * x ) def _a ( a :List[str] ) -> List[str]: return tf.clip_by_value(_gelu(a ) , -10 , 10 ) def _a ( a :Dict , a :Optional[Any]=-1 ) -> Union[str, Any]: a , a = tf.split(a , 2 , axis=a ) return a * tf.math.sigmoid(a ) if version.parse(tf.version.VERSION) >= version.parse("2.4"): def _a ( a :int ) -> List[str]: return tf.keras.activations.gelu(a , approximate=a ) UpperCAmelCase__ = tf.keras.activations.gelu UpperCAmelCase__ = approximate_gelu_wrap else: UpperCAmelCase__ = _gelu UpperCAmelCase__ = _gelu_new UpperCAmelCase__ = { "gelu": gelu, "gelu_10": gelu_aa, "gelu_fast": gelu_fast, "gelu_new": gelu_new, "glu": glu, "mish": mish, "quick_gelu": quick_gelu, "relu": tf.keras.activations.relu, "sigmoid": tf.keras.activations.sigmoid, "silu": tf.keras.activations.swish, "swish": tf.keras.activations.swish, "tanh": tf.keras.activations.tanh, } def _a ( a :Dict ) -> List[Any]: if activation_string in ACTaFN: return ACTaFN[activation_string] else: raise KeyError(F"""function {activation_string} not found in ACT2FN mapping {list(ACTaFN.keys() )}""" )

0

"""simple docstring""" import inspect import unittest import numpy as np from tests.test_modeling_common import floats_tensor from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel if is_vision_available(): from transformers import MaskFormerImageProcessor if is_vision_available(): from PIL import Image class __snake_case : def __init__( self : Tuple , __lowerCAmelCase : Tuple , __lowerCAmelCase : Any=2 , __lowerCAmelCase : Any=True , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Optional[Any]=1_0 , __lowerCAmelCase : List[str]=3 , __lowerCAmelCase : int=3_2 * 4 , __lowerCAmelCase : Dict=3_2 * 6 , __lowerCAmelCase : Any=4 , __lowerCAmelCase : List[str]=3_2 , ): """simple docstring""" _lowerCamelCase : List[str] = parent _lowerCamelCase : str = batch_size _lowerCamelCase : Dict = is_training _lowerCamelCase : str = use_auxiliary_loss _lowerCamelCase : Any = num_queries _lowerCamelCase : List[Any] = num_channels _lowerCamelCase : int = min_size _lowerCamelCase : Any = max_size _lowerCamelCase : int = num_labels _lowerCamelCase : List[str] = mask_feature_size def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size] ).to( __lowerCAmelCase ) _lowerCamelCase : List[Any] = torch.ones([self.batch_size, self.min_size, self.max_size] , device=__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = ( torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=__lowerCAmelCase ) > 0.5 ).float() _lowerCamelCase : Optional[int] = (torch.rand((self.batch_size, self.num_labels) , device=__lowerCAmelCase ) > 0.5).long() _lowerCamelCase : Dict = self.get_config() return config, pixel_values, pixel_mask, mask_labels, class_labels def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" return MaskFormerConfig.from_backbone_and_decoder_configs( backbone_config=SwinConfig( depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig( decoder_ffn_dim=1_2_8 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : Dict = self.prepare_config_and_inputs() _lowerCamelCase : List[str] = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask} return config, inputs_dict def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = output.encoder_hidden_states _lowerCamelCase : Tuple = output.pixel_decoder_hidden_states _lowerCamelCase : Dict = output.transformer_decoder_hidden_states self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , config.decoder_config.decoder_layers ) def SCREAMING_SNAKE_CASE ( self : Tuple , __lowerCAmelCase : Dict , __lowerCAmelCase : str , __lowerCAmelCase : Tuple , __lowerCAmelCase : List[Any]=False ): """simple docstring""" with torch.no_grad(): _lowerCamelCase : Optional[int] = MaskFormerModel(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() _lowerCamelCase : Tuple = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) # the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the # encoder and pixel decoder self.parent.assertEqual( output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , ) # let's ensure the other two hidden state exists self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(output.encoder_last_hidden_state is not None ) if output_hidden_states: self.check_output_hidden_state(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = MaskFormerForInstanceSegmentation(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() def comm_check_on_output(__lowerCAmelCase : Dict ): # let's still check that all the required stuff is there self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.encoder_last_hidden_state is not None ) # okay, now we need to check the logits shape # due to the encoder compression, masks have a //4 spatial size self.parent.assertEqual( result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , ) # + 1 for null class self.parent.assertEqual( result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1) ) with torch.no_grad(): _lowerCamelCase : str = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) _lowerCamelCase : List[str] = model( pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) self.parent.assertTrue(result.loss is not None ) self.parent.assertEqual(result.loss.shape , torch.Size([1] ) ) @require_torch class __snake_case ( _lowercase , _lowercase , unittest.TestCase): snake_case__ : Dict = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else () snake_case__ : Any = ( {"feature-extraction": MaskFormerModel, "image-segmentation": MaskFormerForInstanceSegmentation} if is_torch_available() else {} ) snake_case__ : List[str] = False snake_case__ : List[str] = False snake_case__ : Optional[int] = False snake_case__ : Dict = False def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = MaskFormerModelTester(self ) _lowerCamelCase : Optional[Any] = ConfigTester(self , config_class=__lowerCAmelCase , has_text_modality=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Dict = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , **__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(*__lowerCAmelCase ) @unittest.skip(reason='''MaskFormer does not use inputs_embeds''' ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''' ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer is not a generative model''' ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not use token embeddings''' ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" pass @require_torch_multi_gpu @unittest.skip( reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''' ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" pass @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : str = model_class(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCamelCase : Dict = [*signature.parameters.keys()] _lowerCamelCase : Optional[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __lowerCAmelCase ) @slow def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" for model_name in ["facebook/maskformer-swin-small-coco"]: _lowerCamelCase : Union[str, Any] = MaskFormerModel.from_pretrained(__lowerCAmelCase ) self.assertIsNotNone(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = (self.model_tester.min_size,) * 2 _lowerCamelCase : Union[str, Any] = { '''pixel_values''': torch.randn((2, 3, *size) , device=__lowerCAmelCase ), '''mask_labels''': torch.randn((2, 1_0, *size) , device=__lowerCAmelCase ), '''class_labels''': torch.zeros(2 , 1_0 , device=__lowerCAmelCase ).long(), } _lowerCamelCase : int = MaskFormerForInstanceSegmentation(MaskFormerConfig() ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : List[str] = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , **__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : List[Any] = model_class(__lowerCAmelCase ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = model(**__lowerCAmelCase , output_attentions=__lowerCAmelCase ) self.assertTrue(outputs.attentions is not None ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" if not self.model_tester.is_training: return # only MaskFormerForInstanceSegmentation has the loss _lowerCamelCase : Union[str, Any] = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : int = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : Any = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : List[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ).loss loss.backward() def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : int = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : str = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : List[str] = True _lowerCamelCase : Optional[int] = True _lowerCamelCase : Optional[Any] = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) _lowerCamelCase : List[Any] = outputs.encoder_hidden_states[0] encoder_hidden_states.retain_grad() _lowerCamelCase : Tuple = outputs.pixel_decoder_hidden_states[0] pixel_decoder_hidden_states.retain_grad() # we requires_grad=True in inputs_embeds (line 2152), the original implementation don't _lowerCamelCase : List[str] = outputs.transformer_decoder_hidden_states[0] transformer_decoder_hidden_states.retain_grad() _lowerCamelCase : Optional[int] = outputs.attentions[0] attentions.retain_grad() outputs.loss.backward(retain_graph=__lowerCAmelCase ) self.assertIsNotNone(encoder_hidden_states.grad ) self.assertIsNotNone(pixel_decoder_hidden_states.grad ) self.assertIsNotNone(transformer_decoder_hidden_states.grad ) self.assertIsNotNone(attentions.grad ) lowerCAmelCase__ = 1E-4 def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_vision @slow class __snake_case ( unittest.TestCase): @cached_property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return ( MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''' ) if is_vision_available() else None ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : str = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = self.default_image_processor _lowerCamelCase : List[Any] = prepare_img() _lowerCamelCase : Any = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : int = model(**__lowerCAmelCase ) _lowerCamelCase : str = torch.tensor( [[-0.04_82, 0.92_28, 0.49_51], [-0.25_47, 0.80_17, 0.85_27], [-0.00_69, 0.33_85, -0.00_89]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.encoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Union[str, Any] = torch.tensor( [[-0.84_22, -0.84_34, -0.97_18], [-1.01_44, -0.55_65, -0.41_95], [-1.00_38, -0.44_84, -0.19_61]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Optional[int] = torch.tensor( [[0.28_52, -0.01_59, 0.97_35], [0.62_54, 0.18_58, 0.85_29], [-0.06_80, -0.41_16, 1.84_13]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.transformer_decoder_last_hidden_state[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[int] = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : str = prepare_img() _lowerCamelCase : int = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[int] = model(**__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : Optional[int] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : List[str] = [ [-1.3_73_71_24, -1.7_72_49_37, -1.9_36_42_33], [-1.5_97_72_81, -1.9_86_79_39, -2.1_52_36_95], [-1.5_79_53_98, -1.9_26_98_32, -2.09_39_42], ] _lowerCamelCase : Any = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : List[Any] = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : str = torch.tensor( [ [1.6512E00, -5.2572E00, -3.3519E00], [3.6169E-02, -5.9025E00, -2.9313E00], [1.0766E-04, -7.7630E00, -5.1263E00], ] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Any = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : Tuple = self.default_image_processor _lowerCamelCase : Tuple = prepare_img() _lowerCamelCase : Optional[Any] = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[Any] = model(**__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : List[Any] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : int = [[-0.90_46, -2.63_66, -4.60_62], [-3.41_79, -5.78_90, -8.80_57], [-4.91_79, -7.65_60, -10.77_11]] _lowerCamelCase : List[Any] = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : Dict = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : Any = torch.tensor( [[4.71_88, -3.25_85, -2.88_57], [6.68_71, -2.91_81, -1.24_87], [7.24_49, -2.27_64, -2.18_74]] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : List[str] = image_processor( [np.zeros((3, 8_0_0, 1_3_3_3) ), np.zeros((3, 8_0_0, 1_3_3_3) )] , segmentation_maps=[np.zeros((3_8_4, 3_8_4) ).astype(np.floataa ), np.zeros((3_8_4, 3_8_4) ).astype(np.floataa )] , return_tensors='''pt''' , ) _lowerCamelCase : Union[str, Any] = inputs['''pixel_values'''].to(__lowerCAmelCase ) _lowerCamelCase : Dict = [el.to(__lowerCAmelCase ) for el in inputs['''mask_labels''']] _lowerCamelCase : Optional[Any] = [el.to(__lowerCAmelCase ) for el in inputs['''class_labels''']] with torch.no_grad(): _lowerCamelCase : Tuple = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None )

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'''simple docstring''' import json import os import unittest from transformers.models.biogpt.tokenization_biogpt import VOCAB_FILES_NAMES, BioGptTokenizer from transformers.testing_utils import slow from ...test_tokenization_common import TokenizerTesterMixin class __A ( UpperCamelCase__ , unittest.TestCase ): a__ : List[str] = BioGptTokenizer a__ : int = False def _lowercase (self : Optional[Any] ): super().setUp() # Adapted from Sennrich et al. 2015 and https://github.com/rsennrich/subword-nmt UpperCAmelCase_ = [ "l", "o", "w", "e", "r", "s", "t", "i", "d", "n", "w</w>", "r</w>", "t</w>", "lo", "low", "er</w>", "low</w>", "lowest</w>", "newer</w>", "wider</w>", "<unk>", ] UpperCAmelCase_ = dict(zip(__a , range(len(__a ) ) ) ) UpperCAmelCase_ = ["l o 123", "lo w 1456", "e r</w> 1789", ""] UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["vocab_file"] ) UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["merges_file"] ) with open(self.vocab_file , "w" ) as fp: fp.write(json.dumps(__a ) ) with open(self.merges_file , "w" ) as fp: fp.write("\n".join(__a ) ) def _lowercase (self : Union[str, Any] , __a : List[Any] ): UpperCAmelCase_ = "lower newer" UpperCAmelCase_ = "lower newer" return input_text, output_text def _lowercase (self : str ): UpperCAmelCase_ = BioGptTokenizer(self.vocab_file , self.merges_file ) UpperCAmelCase_ = "lower" UpperCAmelCase_ = ["low", "er</w>"] UpperCAmelCase_ = tokenizer.tokenize(__a ) self.assertListEqual(__a , __a ) UpperCAmelCase_ = tokens + ["<unk>"] UpperCAmelCase_ = [14, 15, 20] self.assertListEqual(tokenizer.convert_tokens_to_ids(__a ) , __a ) @slow def _lowercase (self : Union[str, Any] ): UpperCAmelCase_ = BioGptTokenizer.from_pretrained("microsoft/biogpt" ) UpperCAmelCase_ = tokenizer.encode("sequence builders" , add_special_tokens=__a ) UpperCAmelCase_ = tokenizer.encode("multi-sequence build" , add_special_tokens=__a ) UpperCAmelCase_ = tokenizer.build_inputs_with_special_tokens(__a ) UpperCAmelCase_ = tokenizer.build_inputs_with_special_tokens(__a , __a ) self.assertTrue(encoded_sentence == [2] + text ) self.assertTrue(encoded_pair == [2] + text + [2] + text_a )

1

"""simple docstring""" lowerCAmelCase__ = { '''A''': ['''B''', '''C''', '''E'''], '''B''': ['''A''', '''D''', '''E'''], '''C''': ['''A''', '''F''', '''G'''], '''D''': ['''B'''], '''E''': ['''A''', '''B''', '''D'''], '''F''': ['''C'''], '''G''': ['''C'''], } def snake_case_ ( A_ : dict, A_ : int, A_ : int ): '''simple docstring''' _lowerCamelCase : List[str] = set() # keep track of all the paths to be checked _lowerCamelCase : str = [[start]] # return path if start is goal if start == goal: return [start] # keeps looping until all possible paths have been checked while queue: # pop the first path from the queue _lowerCamelCase : str = queue.pop(0 ) # get the last node from the path _lowerCamelCase : List[Any] = path[-1] if node not in explored: _lowerCamelCase : Union[str, Any] = graph[node] # go through all neighbour nodes, construct a new path and # push it into the queue for neighbour in neighbours: _lowerCamelCase : Union[str, Any] = list(A_ ) new_path.append(A_ ) queue.append(A_ ) # return path if neighbour is goal if neighbour == goal: return new_path # mark node as explored explored.add(A_ ) # in case there's no path between the 2 nodes return [] def snake_case_ ( A_ : dict, A_ : int, A_ : Dict ): '''simple docstring''' if not graph or start not in graph or target not in graph: return -1 if start == target: return 0 _lowerCamelCase : Optional[int] = [start] _lowerCamelCase : int = set(A_ ) # Keep tab on distances from `start` node. _lowerCamelCase : int = {start: 0, target: -1} while queue: _lowerCamelCase : Optional[Any] = queue.pop(0 ) if node == target: _lowerCamelCase : Any = ( dist[node] if dist[target] == -1 else min(dist[target], dist[node] ) ) for adjacent in graph[node]: if adjacent not in visited: visited.add(A_ ) queue.append(A_ ) _lowerCamelCase : Any = dist[node] + 1 return dist[target] if __name__ == "__main__": print(bfs_shortest_path(demo_graph, '''G''', '''D''')) # returns ['G', 'C', 'A', 'B', 'D'] print(bfs_shortest_path_distance(demo_graph, '''G''', '''D''')) # returns 4

72

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'''simple docstring''' def _SCREAMING_SNAKE_CASE (A , A ) -> List[str]: """simple docstring""" _enforce_args(A , A ) if n == 0: return 0 lowercase__ = float('''-inf''' ) for i in range(1 , n + 1 ): lowercase__ = max( A , prices[i - 1] + naive_cut_rod_recursive(n - i , A ) ) return max_revue def _SCREAMING_SNAKE_CASE (A , A ) -> Dict: """simple docstring""" _enforce_args(A , A ) lowercase__ = [float('''-inf''' ) for _ in range(n + 1 )] return _top_down_cut_rod_recursive(A , A , A ) def _SCREAMING_SNAKE_CASE (A , A , A ) -> List[Any]: """simple docstring""" if max_rev[n] >= 0: return max_rev[n] elif n == 0: return 0 else: lowercase__ = float('''-inf''' ) for i in range(1 , n + 1 ): lowercase__ = max( A , prices[i - 1] + _top_down_cut_rod_recursive(n - i , A , A ) , ) lowercase__ = max_revenue return max_rev[n] def _SCREAMING_SNAKE_CASE (A , A ) -> Any: """simple docstring""" _enforce_args(A , A ) # length(max_rev) = n + 1, to accommodate for the revenue obtainable from a rod of # length 0. lowercase__ = [float('''-inf''' ) for _ in range(n + 1 )] lowercase__ = 0 for i in range(1 , n + 1 ): lowercase__ = max_rev[i] for j in range(1 , i + 1 ): lowercase__ = max(A , prices[j - 1] + max_rev[i - j] ) lowercase__ = max_revenue_i return max_rev[n] def _SCREAMING_SNAKE_CASE (A , A ) -> Union[str, Any]: """simple docstring""" if n < 0: lowercase__ = f"n must be greater than or equal to 0. Got n = {n}" raise ValueError(A ) if n > len(A ): lowercase__ = ( '''Each integral piece of rod must have a corresponding price. ''' f"Got n = {n} but length of prices = {len(A )}" ) raise ValueError(A ) def _SCREAMING_SNAKE_CASE () -> Any: """simple docstring""" lowercase__ = [6, 10, 12, 15, 20, 23] lowercase__ = len(A ) # the best revenue comes from cutting the rod into 6 pieces, each # of length 1 resulting in a revenue of 6 * 6 = 36. lowercase__ = 36 lowercase__ = top_down_cut_rod(A , A ) lowercase__ = bottom_up_cut_rod(A , A ) lowercase__ = naive_cut_rod_recursive(A , A ) assert expected_max_revenue == max_rev_top_down assert max_rev_top_down == max_rev_bottom_up assert max_rev_bottom_up == max_rev_naive if __name__ == "__main__": main()

2

"""simple docstring""" import argparse import torch from transformers import LxmertConfig, LxmertForPreTraining, load_tf_weights_in_lxmert from transformers.utils import logging logging.set_verbosity_info() def snake_case_ ( A_ : Tuple, A_ : int, A_ : Dict ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = LxmertConfig.from_json_file(A_ ) print(F'''Building PyTorch model from configuration: {config}''' ) _lowerCamelCase : List[str] = LxmertForPreTraining(A_ ) # Load weights from tf checkpoint load_tf_weights_in_lxmert(A_, A_, A_ ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) torch.save(model.state_dict(), A_ ) if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained model. \nThis specifies the model architecture.''', ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) lowerCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)

72

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'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_squeezebert import SqueezeBertTokenizer lowercase : Tuple = logging.get_logger(__name__) lowercase : Optional[Any] = {'vocab_file': 'vocab.txt', 'tokenizer_file': 'tokenizer.json'} lowercase : Union[str, Any] = { 'vocab_file': { 'squeezebert/squeezebert-uncased': ( 'https://huggingface.co/squeezebert/squeezebert-uncased/resolve/main/vocab.txt' ), 'squeezebert/squeezebert-mnli': 'https://huggingface.co/squeezebert/squeezebert-mnli/resolve/main/vocab.txt', 'squeezebert/squeezebert-mnli-headless': ( 'https://huggingface.co/squeezebert/squeezebert-mnli-headless/resolve/main/vocab.txt' ), }, 'tokenizer_file': { 'squeezebert/squeezebert-uncased': ( 'https://huggingface.co/squeezebert/squeezebert-uncased/resolve/main/tokenizer.json' ), 'squeezebert/squeezebert-mnli': ( 'https://huggingface.co/squeezebert/squeezebert-mnli/resolve/main/tokenizer.json' ), 'squeezebert/squeezebert-mnli-headless': ( 'https://huggingface.co/squeezebert/squeezebert-mnli-headless/resolve/main/tokenizer.json' ), }, } lowercase : List[str] = { 'squeezebert/squeezebert-uncased': 5_12, 'squeezebert/squeezebert-mnli': 5_12, 'squeezebert/squeezebert-mnli-headless': 5_12, } lowercase : List[str] = { 'squeezebert/squeezebert-uncased': {'do_lower_case': True}, 'squeezebert/squeezebert-mnli': {'do_lower_case': True}, 'squeezebert/squeezebert-mnli-headless': {'do_lower_case': True}, } class A ( __snake_case ): __magic_name__ = VOCAB_FILES_NAMES __magic_name__ = PRETRAINED_VOCAB_FILES_MAP __magic_name__ = PRETRAINED_INIT_CONFIGURATION __magic_name__ = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __magic_name__ = SqueezeBertTokenizer def __init__( self , SCREAMING_SNAKE_CASE=None , SCREAMING_SNAKE_CASE=None , SCREAMING_SNAKE_CASE=True , SCREAMING_SNAKE_CASE="[UNK]" , SCREAMING_SNAKE_CASE="[SEP]" , SCREAMING_SNAKE_CASE="[PAD]" , SCREAMING_SNAKE_CASE="[CLS]" , SCREAMING_SNAKE_CASE="[MASK]" , SCREAMING_SNAKE_CASE=True , SCREAMING_SNAKE_CASE=None , **SCREAMING_SNAKE_CASE , ) -> int: """simple docstring""" super().__init__( SCREAMING_SNAKE_CASE , tokenizer_file=SCREAMING_SNAKE_CASE , do_lower_case=SCREAMING_SNAKE_CASE , unk_token=SCREAMING_SNAKE_CASE , sep_token=SCREAMING_SNAKE_CASE , pad_token=SCREAMING_SNAKE_CASE , cls_token=SCREAMING_SNAKE_CASE , mask_token=SCREAMING_SNAKE_CASE , tokenize_chinese_chars=SCREAMING_SNAKE_CASE , strip_accents=SCREAMING_SNAKE_CASE , **SCREAMING_SNAKE_CASE , ) A : int = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get('''lowercase''' , SCREAMING_SNAKE_CASE ) != do_lower_case or normalizer_state.get('''strip_accents''' , SCREAMING_SNAKE_CASE ) != strip_accents or normalizer_state.get('''handle_chinese_chars''' , SCREAMING_SNAKE_CASE ) != tokenize_chinese_chars ): A : Union[str, Any] = getattr(SCREAMING_SNAKE_CASE , normalizer_state.pop('''type''' ) ) A : Dict = do_lower_case A : Dict = strip_accents A : Any = tokenize_chinese_chars A : Optional[int] = normalizer_class(**SCREAMING_SNAKE_CASE ) A : str = do_lower_case def __lowerCAmelCase ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE=None ) -> Optional[Any]: """simple docstring""" A : List[str] = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def __lowerCAmelCase ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None ) -> List[int]: """simple docstring""" A : Union[str, Any] = [self.sep_token_id] A : Dict = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def __lowerCAmelCase ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None ) -> Tuple[str]: """simple docstring""" A : str = self._tokenizer.model.save(SCREAMING_SNAKE_CASE , name=SCREAMING_SNAKE_CASE ) return tuple(SCREAMING_SNAKE_CASE )

3

"""simple docstring""" from collections import defaultdict from graphs.minimum_spanning_tree_prims import prisms_algorithm as mst def snake_case_ ( ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : int = 9, 14 # noqa: F841 _lowerCamelCase : List[Any] = [ [0, 1, 4], [0, 7, 8], [1, 2, 8], [7, 8, 7], [7, 6, 1], [2, 8, 2], [8, 6, 6], [2, 3, 7], [2, 5, 4], [6, 5, 2], [3, 5, 14], [3, 4, 9], [5, 4, 10], [1, 7, 11], ] _lowerCamelCase : Any = defaultdict(A_ ) for nodea, nodea, cost in edges: adjancency[nodea].append([nodea, cost] ) adjancency[nodea].append([nodea, cost] ) _lowerCamelCase : List[str] = mst(A_ ) _lowerCamelCase : Optional[int] = [ [7, 6, 1], [2, 8, 2], [6, 5, 2], [0, 1, 4], [2, 5, 4], [2, 3, 7], [0, 7, 8], [3, 4, 9], ] for answer in expected: _lowerCamelCase : int = tuple(answer[:2] ) _lowerCamelCase : int = tuple(edge[::-1] ) assert edge in result or reverse in result

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'''simple docstring''' def a_ ( lowerCamelCase : list ): if len(lowerCamelCase ) <= 1: return [tuple(lowerCamelCase )] lowerCAmelCase = [] def generate(lowerCamelCase : int , lowerCamelCase : list ): if k == 1: res.append(tuple(arr[:] ) ) return generate(k - 1 , lowerCamelCase ) for i in range(k - 1 ): if k % 2 == 0: # k is even lowerCAmelCase , lowerCAmelCase = arr[k - 1], arr[i] else: # k is odd lowerCAmelCase , lowerCAmelCase = arr[k - 1], arr[0] generate(k - 1 , lowerCamelCase ) generate(len(lowerCamelCase ) , lowerCamelCase ) return res if __name__ == "__main__": __snake_case =input("""Enter numbers separated by a comma:\n""").strip() __snake_case =[int(item) for item in user_input.split(""",""")] print(heaps(arr))

4

"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt''', '''tokenizer_file''': '''tokenizer.json'''} # See all BART models at https://huggingface.co/models?filter=bart lowerCAmelCase__ = { '''vocab_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/vocab.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/vocab.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json''', }, '''merges_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/merges.txt''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/merges.txt''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt''', }, '''tokenizer_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1024, '''facebook/bart-large''': 1024, '''facebook/bart-large-mnli''': 1024, '''facebook/bart-large-cnn''': 1024, '''facebook/bart-large-xsum''': 1024, '''yjernite/bart_eli5''': 1024, } class __snake_case ( _lowercase): snake_case__ : Any = VOCAB_FILES_NAMES snake_case__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP snake_case__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES snake_case__ : Optional[int] = ["input_ids", "attention_mask"] snake_case__ : Any = BartTokenizer def __init__( self : int , __lowerCAmelCase : Dict=None , __lowerCAmelCase : int=None , __lowerCAmelCase : Dict=None , __lowerCAmelCase : List[Any]="replace" , __lowerCAmelCase : Any="<s>" , __lowerCAmelCase : Optional[int]="</s>" , __lowerCAmelCase : str="</s>" , __lowerCAmelCase : Dict="<s>" , __lowerCAmelCase : Union[str, Any]="<unk>" , __lowerCAmelCase : Any="<pad>" , __lowerCAmelCase : Optional[Any]="<mask>" , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Dict=True , **__lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__( __lowerCAmelCase , __lowerCAmelCase , tokenizer_file=__lowerCAmelCase , errors=__lowerCAmelCase , bos_token=__lowerCAmelCase , eos_token=__lowerCAmelCase , sep_token=__lowerCAmelCase , cls_token=__lowerCAmelCase , unk_token=__lowerCAmelCase , pad_token=__lowerCAmelCase , mask_token=__lowerCAmelCase , add_prefix_space=__lowerCAmelCase , trim_offsets=__lowerCAmelCase , **__lowerCAmelCase , ) _lowerCamelCase : Tuple = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = getattr(__lowerCAmelCase , pre_tok_state.pop('''type''' ) ) _lowerCamelCase : Any = add_prefix_space _lowerCamelCase : int = pre_tok_class(**__lowerCAmelCase ) _lowerCamelCase : Optional[int] = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _lowerCamelCase : List[str] = '''post_processor''' _lowerCamelCase : List[str] = getattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) if tokenizer_component_instance: _lowerCamelCase : int = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _lowerCamelCase : Tuple = tuple(state['''sep'''] ) if "cls" in state: _lowerCamelCase : int = tuple(state['''cls'''] ) _lowerCamelCase : Union[str, Any] = False if state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = add_prefix_space _lowerCamelCase : Optional[Any] = True if state.get('''trim_offsets''' , __lowerCAmelCase ) != trim_offsets: _lowerCamelCase : Any = trim_offsets _lowerCamelCase : str = True if changes_to_apply: _lowerCamelCase : List[str] = getattr(__lowerCAmelCase , state.pop('''type''' ) ) _lowerCamelCase : str = component_class(**__lowerCAmelCase ) setattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) @property def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : int ): """simple docstring""" _lowerCamelCase : Tuple = AddedToken(__lowerCAmelCase , lstrip=__lowerCAmelCase , rstrip=__lowerCAmelCase ) if isinstance(__lowerCAmelCase , __lowerCAmelCase ) else value _lowerCamelCase : str = value def SCREAMING_SNAKE_CASE ( self : int , *__lowerCAmelCase : Optional[Any] , **__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Dict = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._batch_encode_plus(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : Tuple , **__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Any = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._encode_plus(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[str] = None ): """simple docstring""" _lowerCamelCase : Tuple = self._tokenizer.model.save(__lowerCAmelCase , name=__lowerCAmelCase ) return tuple(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : Dict , __lowerCAmelCase : List[str]=None ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : List[int] , __lowerCAmelCase : Optional[List[int]] = None ): """simple docstring""" _lowerCamelCase : List[str] = [self.sep_token_id] _lowerCamelCase : Tuple = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]

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def UpperCAmelCase_ ( __snake_case ) -> str: """simple docstring""" _lowercase =0 # if input_string is "aba" than new_input_string become "a|b|a" _lowercase ='''''' _lowercase ='''''' # append each character + "|" in new_string for range(0, length-1) for i in input_string[: len(__snake_case ) - 1]: new_input_string += i + "|" # append last character new_input_string += input_string[-1] # we will store the starting and ending of previous furthest ending palindromic # substring _lowercase , _lowercase =0, 0 # length[i] shows the length of palindromic substring with center i _lowercase =[1 for i in range(len(__snake_case ) )] # for each character in new_string find corresponding palindromic string _lowercase =0 for j in range(len(__snake_case ) ): _lowercase =1 if j > r else min(length[l + r - j] // 2 , r - j + 1 ) while ( j - k >= 0 and j + k < len(__snake_case ) and new_input_string[k + j] == new_input_string[j - k] ): k += 1 _lowercase =2 * k - 1 # does this string is ending after the previously explored end (that is r) ? # if yes the update the new r to the last index of this if j + k - 1 > r: _lowercase =j - k + 1 # noqa: E741 _lowercase =j + k - 1 # update max_length and start position if max_length < length[j]: _lowercase =length[j] _lowercase =j # create that string _lowercase =new_input_string[start - max_length // 2 : start + max_length // 2 + 1] for i in s: if i != "|": output_string += i return output_string if __name__ == "__main__": import doctest doctest.testmod()

5

"""simple docstring""" from __future__ import annotations def snake_case_ ( A_ : str ): '''simple docstring''' return [ord(A_ ) - 96 for elem in plain] def snake_case_ ( A_ : list[int] ): '''simple docstring''' return "".join(chr(elem + 96 ) for elem in encoded ) def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Dict = encode(input('''-> ''' ).strip().lower() ) print('''Encoded: ''', A_ ) print('''Decoded:''', decode(A_ ) ) if __name__ == "__main__": main()

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import unittest from transformers import load_tool from .test_tools_common import ToolTesterMixin A : Tuple = '\nHugging Face was founded in 2016 by French entrepreneurs Clément Delangue, Julien Chaumond, and Thomas Wolf originally as a company that developed a chatbot app targeted at teenagers.[2] After open-sourcing the model behind the chatbot, the company pivoted to focus on being a platform for machine learning.\n\nIn March 2021, Hugging Face raised $40 million in a Series B funding round.[3]\n\nOn April 28, 2021, the company launched the BigScience Research Workshop in collaboration with several other research groups to release an open large language model.[4] In 2022, the workshop concluded with the announcement of BLOOM, a multilingual large language model with 176 billion parameters.[5]\n' class __A( unittest.TestCase , a ): def SCREAMING_SNAKE_CASE_ ( self ) -> int: '''simple docstring''' __a = load_tool('''text-question-answering''' ) self.tool.setup() __a = load_tool('''text-question-answering''' , remote=_snake_case ) def SCREAMING_SNAKE_CASE_ ( self ) -> Optional[Any]: '''simple docstring''' __a = self.tool(_snake_case , '''What did Hugging Face do in April 2021?''' ) self.assertEqual(_snake_case , '''launched the BigScience Research Workshop''' ) def SCREAMING_SNAKE_CASE_ ( self ) -> Dict: '''simple docstring''' __a = self.remote_tool(_snake_case , '''What did Hugging Face do in April 2021?''' ) self.assertEqual(_snake_case , '''launched the BigScience Research Workshop''' ) def SCREAMING_SNAKE_CASE_ ( self ) -> Dict: '''simple docstring''' __a = self.tool(text=_snake_case , question='''What did Hugging Face do in April 2021?''' ) self.assertEqual(_snake_case , '''launched the BigScience Research Workshop''' ) def SCREAMING_SNAKE_CASE_ ( self ) -> Union[str, Any]: '''simple docstring''' __a = self.remote_tool(text=_snake_case , question='''What did Hugging Face do in April 2021?''' ) self.assertEqual(_snake_case , '''launched the BigScience Research Workshop''' )

6

"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = { '''configuration_lxmert''': ['''LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LxmertConfig'''], '''tokenization_lxmert''': ['''LxmertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''LxmertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''LxmertEncoder''', '''LxmertForPreTraining''', '''LxmertForQuestionAnswering''', '''LxmertModel''', '''LxmertPreTrainedModel''', '''LxmertVisualFeatureEncoder''', '''LxmertXLayer''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFLxmertForPreTraining''', '''TFLxmertMainLayer''', '''TFLxmertModel''', '''TFLxmertPreTrainedModel''', '''TFLxmertVisualFeatureEncoder''', ] if TYPE_CHECKING: from .configuration_lxmert import LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, LxmertConfig from .tokenization_lxmert import LxmertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_lxmert_fast import LxmertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lxmert import ( LxmertEncoder, LxmertForPreTraining, LxmertForQuestionAnswering, LxmertModel, LxmertPreTrainedModel, LxmertVisualFeatureEncoder, LxmertXLayer, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_lxmert import ( TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFLxmertForPreTraining, TFLxmertMainLayer, TFLxmertModel, TFLxmertPreTrainedModel, TFLxmertVisualFeatureEncoder, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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from manim import * class A ( _UpperCAmelCase ): """simple docstring""" def snake_case__ ( self : Any )-> Optional[int]: '''simple docstring''' A__ = Rectangle(height=0.5,width=0.5 ) A__ = Rectangle(height=0.25,width=0.25 ) A__ = Rectangle(height=0.46,width=0.46 ).set_stroke(width=0 ) A__ = [mem.copy() for i in range(6 )] A__ = [mem.copy() for i in range(6 )] A__ = VGroup(*lowercase_ ).arrange(lowercase_,buff=0 ) A__ = VGroup(*lowercase_ ).arrange(lowercase_,buff=0 ) A__ = VGroup(lowercase_,lowercase_ ).arrange(lowercase_,buff=0 ) A__ = Text('CPU',font_size=2_4 ) A__ = Group(lowercase_,lowercase_ ).arrange(lowercase_,buff=0.5,aligned_edge=lowercase_ ) cpu.move_to([-2.5, -0.5, 0] ) self.add(lowercase_ ) A__ = [mem.copy() for i in range(4 )] A__ = VGroup(*lowercase_ ).arrange(lowercase_,buff=0 ) A__ = Text('GPU',font_size=2_4 ) A__ = Group(lowercase_,lowercase_ ).arrange(lowercase_,buff=0.5,aligned_edge=lowercase_ ) gpu.move_to([-1, -1, 0] ) self.add(lowercase_ ) A__ = [mem.copy() for i in range(6 )] A__ = VGroup(*lowercase_ ).arrange(lowercase_,buff=0 ) A__ = Text('Model',font_size=2_4 ) A__ = Group(lowercase_,lowercase_ ).arrange(lowercase_,buff=0.5,aligned_edge=lowercase_ ) model.move_to([3, -1.0, 0] ) self.add(lowercase_ ) A__ = [] A__ = [] A__ = [] for i, rect in enumerate(lowercase_ ): rect.set_stroke(lowercase_ ) A__ = Rectangle(height=0.46 / 4,width=0.46 / 3 ).set_stroke(width=0.0 ).set_fill(lowercase_,opacity=0.7 ) if i == 0: cpu_target.next_to(cpu_left_col_base[0].get_corner(DOWN + LEFT ),buff=0.02,direction=lowercase_ ) cpu_target.set_x(cpu_target.get_x() + 0.1 ) elif i == 3: cpu_target.next_to(model_cpu_arr[0],direction=lowercase_,buff=0.0 ) else: cpu_target.next_to(model_cpu_arr[i - 1],direction=lowercase_,buff=0.0 ) self.add(lowercase_ ) model_cpu_arr.append(lowercase_ ) self.add(*lowercase_,*lowercase_,*lowercase_ ) A__ = [mem.copy() for i in range(6 )] A__ = VGroup(*lowercase_ ).arrange(lowercase_,buff=0 ) A__ = Text('Loaded Checkpoint',font_size=2_4 ) A__ = Group(lowercase_,lowercase_ ).arrange(lowercase_,buff=0.5,aligned_edge=lowercase_ ) checkpoint.move_to([3, 0.5, 0] ) self.add(lowercase_ ) A__ = [] A__ = [] for i, rect in enumerate(lowercase_ ): A__ = fill.copy().set_fill(lowercase_,opacity=0.7 ) target.move_to(lowercase_ ) ckpt_arr.append(lowercase_ ) A__ = target.copy() if i < 5: cpu_target.move_to(cpu_left_col_base[i + 1] ) else: cpu_target.move_to(cpu_right_col_base[i - 5] ) ckpt_cpu_arr.append(lowercase_ ) self.add(*lowercase_,*lowercase_ ) A__ = Square(side_length=2.2 ) key.move_to([-5, 2, 0] ) A__ = MarkupText( F'Key:\n\n● Empty Model',font_size=1_8,) key_text.move_to([-5, 2.4, 0] ) self.add(lowercase_,lowercase_ ) A__ = MarkupText( F'● Checkpoint',font_size=1_8,) blue_text.next_to(lowercase_,DOWN * 2.4,aligned_edge=key_text.get_left() ) self.add(lowercase_ ) A__ = MarkupText( F'Based on the passed in configuration, weights are stored in\na variety of np.memmaps on disk or to a particular device.',font_size=2_4,) step_a.move_to([2, 2, 0] ) A__ = [meta_mem.copy() for i in range(6 )] A__ = [meta_mem.copy() for i in range(6 )] A__ = VGroup(*lowercase_ ).arrange(lowercase_,buff=0 ) A__ = VGroup(*lowercase_ ).arrange(lowercase_,buff=0 ) A__ = VGroup(lowercase_,lowercase_ ).arrange(lowercase_,buff=0 ) A__ = Text('Disk',font_size=2_4 ) A__ = Group(lowercase_,lowercase_ ).arrange(lowercase_,buff=0.5,aligned_edge=lowercase_ ) disk.move_to([-4.0, -1.25, 0] ) self.play(Write(lowercase_,run_time=3 ),Write(lowercase_,run_time=1 ),Create(lowercase_,run_time=1 ) ) A__ = [] for i, rect in enumerate(lowercase_ ): A__ = rect.copy() target.generate_target() target.target.move_to(disk_left_col_base[i] ).scale(0.5 ) animations.append(MoveToTarget(lowercase_,run_time=1.5 ) ) self.play(*lowercase_ ) self.play(FadeOut(lowercase_ ) ) A__ = MarkupText(F'Then, the checkpoint is removed from memory\nthrough garbage collection.',font_size=2_4 ) step_a.move_to([2, 2, 0] ) self.play(Write(lowercase_,run_time=3 ) ) self.play( FadeOut(lowercase_,lowercase_,*lowercase_,*lowercase_ ),) self.wait()

7

"""simple docstring""" def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for data in source_data: for i, el in enumerate(A_ ): if len(A_ ) < i + 1: data_lists.append([] ) data_lists[i].append(float(A_ ) ) return data_lists def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for dlist, weight in zip(A_, A_ ): _lowerCamelCase : Any = min(A_ ) _lowerCamelCase : Optional[Any] = max(A_ ) _lowerCamelCase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowerCamelCase : str = F'''Invalid weight of {weight:f} provided''' raise ValueError(A_ ) score_lists.append(A_ ) return score_lists def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(A_ ): _lowerCamelCase : List[str] = final_scores[j] + ele return final_scores def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : Tuple = get_data(A_ ) _lowerCamelCase : Optional[Any] = calculate_each_score(A_, A_ ) _lowerCamelCase : str = generate_final_scores(A_ ) # append scores to source data for i, ele in enumerate(A_ ): source_data[i].append(A_ ) return source_data

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import json import os import tempfile import datasets from utils import generate_example_dataset, get_duration lowerCAmelCase_ = 5_00_00 lowerCAmelCase_ = 50_00 lowerCAmelCase_ , lowerCAmelCase_ = os.path.split(__file__) lowerCAmelCase_ = os.path.join(RESULTS_BASEPATH, '''results''', RESULTS_FILENAME.replace('''.py''', '''.json''')) @get_duration def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ): for i in range(SCREAMING_SNAKE_CASE__ ): snake_case_ = dataset[i] @get_duration def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ): for i in range(0 , len(SCREAMING_SNAKE_CASE__ ) , SCREAMING_SNAKE_CASE__ ): snake_case_ = dataset[i : i + batch_size] @get_duration def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ): with dataset.formatted_as(type=SCREAMING_SNAKE_CASE__ ): for i in range(SCREAMING_SNAKE_CASE__ ): snake_case_ = dataset[i] @get_duration def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ): with dataset.formatted_as(type=SCREAMING_SNAKE_CASE__ ): for i in range(0 , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ): snake_case_ = dataset[i : i + batch_size] def __SCREAMING_SNAKE_CASE (): snake_case_ = {'''num examples''': SPEED_TEST_N_EXAMPLES} snake_case_ = [ (read, {'''length''': SMALL_TEST}), (read, {'''length''': SPEED_TEST_N_EXAMPLES}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 10}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 100}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 1000}), (read_formatted, {'''type''': '''numpy''', '''length''': SMALL_TEST}), (read_formatted, {'''type''': '''pandas''', '''length''': SMALL_TEST}), (read_formatted, {'''type''': '''torch''', '''length''': SMALL_TEST}), (read_formatted, {'''type''': '''tensorflow''', '''length''': SMALL_TEST}), (read_formatted_batch, {'''type''': '''numpy''', '''length''': SMALL_TEST, '''batch_size''': 10}), (read_formatted_batch, {'''type''': '''numpy''', '''length''': SMALL_TEST, '''batch_size''': 1000}), ] snake_case_ = [ (read, {'''length''': SMALL_TEST}), (read, {'''length''': SPEED_TEST_N_EXAMPLES}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 10}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 100}), (read_batch, {'''length''': SPEED_TEST_N_EXAMPLES, '''batch_size''': 1000}), (read_formatted, {'''type''': '''numpy''', '''length''': SMALL_TEST}), (read_formatted_batch, {'''type''': '''numpy''', '''length''': SMALL_TEST, '''batch_size''': 10}), (read_formatted_batch, {'''type''': '''numpy''', '''length''': SMALL_TEST, '''batch_size''': 1000}), ] with tempfile.TemporaryDirectory() as tmp_dir: print('''generating dataset''' ) snake_case_ = datasets.Features( {'''list''': datasets.Sequence(datasets.Value('''float32''' ) ), '''numbers''': datasets.Value('''float32''' )} ) snake_case_ = generate_example_dataset( os.path.join(SCREAMING_SNAKE_CASE__ , '''dataset.arrow''' ) , SCREAMING_SNAKE_CASE__ , num_examples=SCREAMING_SNAKE_CASE__ , seq_shapes={'''list''': (100,)} , ) print('''first set of iterations''' ) for func, kwargs in functions: print(func.__name__ , str(SCREAMING_SNAKE_CASE__ ) ) snake_case_ = func(SCREAMING_SNAKE_CASE__ , **SCREAMING_SNAKE_CASE__ ) print('''shuffling dataset''' ) snake_case_ = dataset.shuffle() print('''Second set of iterations (after shuffling''' ) for func, kwargs in functions_shuffled: print('''shuffled ''' , func.__name__ , str(SCREAMING_SNAKE_CASE__ ) ) snake_case_ = func( SCREAMING_SNAKE_CASE__ , **SCREAMING_SNAKE_CASE__ ) with open(SCREAMING_SNAKE_CASE__ , '''wb''' ) as f: f.write(json.dumps(SCREAMING_SNAKE_CASE__ ).encode('''utf-8''' ) ) if __name__ == "__main__": # useful to run the profiler benchmark_iterating()

8

"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = { '''microsoft/unispeech-large-1500h-cv''': ( '''https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json''' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class __snake_case ( _lowercase): snake_case__ : List[str] = "unispeech" def __init__( self : List[str] , __lowerCAmelCase : List[Any]=3_2 , __lowerCAmelCase : str=7_6_8 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=3_0_7_2 , __lowerCAmelCase : Tuple="gelu" , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : str=0.1 , __lowerCAmelCase : Tuple=0.0 , __lowerCAmelCase : Optional[int]=0.0 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Optional[int]=0.1 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Dict=1E-5 , __lowerCAmelCase : Optional[int]="group" , __lowerCAmelCase : Dict="gelu" , __lowerCAmelCase : int=(5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2) , __lowerCAmelCase : Optional[int]=(5, 2, 2, 2, 2, 2, 2) , __lowerCAmelCase : Union[str, Any]=(1_0, 3, 3, 3, 3, 2, 2) , __lowerCAmelCase : List[Any]=False , __lowerCAmelCase : List[str]=1_2_8 , __lowerCAmelCase : Any=1_6 , __lowerCAmelCase : Optional[int]=False , __lowerCAmelCase : Optional[Any]=True , __lowerCAmelCase : Union[str, Any]=0.05 , __lowerCAmelCase : Union[str, Any]=1_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.0 , __lowerCAmelCase : Optional[int]=1_0 , __lowerCAmelCase : Dict=0 , __lowerCAmelCase : List[str]=3_2_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Tuple=1_0_0 , __lowerCAmelCase : Dict=2_5_6 , __lowerCAmelCase : str=2_5_6 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Dict="mean" , __lowerCAmelCase : Union[str, Any]=False , __lowerCAmelCase : Dict=False , __lowerCAmelCase : Optional[Any]=2_5_6 , __lowerCAmelCase : Dict=8_0 , __lowerCAmelCase : int=0 , __lowerCAmelCase : Optional[int]=1 , __lowerCAmelCase : Dict=2 , __lowerCAmelCase : Any=0.5 , **__lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__(**__lowerCAmelCase , pad_token_id=__lowerCAmelCase , bos_token_id=__lowerCAmelCase , eos_token_id=__lowerCAmelCase ) _lowerCamelCase : Dict = hidden_size _lowerCamelCase : Any = feat_extract_norm _lowerCamelCase : List[Any] = feat_extract_activation _lowerCamelCase : Any = list(__lowerCAmelCase ) _lowerCamelCase : Tuple = list(__lowerCAmelCase ) _lowerCamelCase : int = list(__lowerCAmelCase ) _lowerCamelCase : List[str] = conv_bias _lowerCamelCase : List[str] = num_conv_pos_embeddings _lowerCamelCase : Tuple = num_conv_pos_embedding_groups _lowerCamelCase : List[str] = len(self.conv_dim ) _lowerCamelCase : Tuple = num_hidden_layers _lowerCamelCase : List[Any] = intermediate_size _lowerCamelCase : Dict = hidden_act _lowerCamelCase : Union[str, Any] = num_attention_heads _lowerCamelCase : Tuple = hidden_dropout _lowerCamelCase : List[Any] = attention_dropout _lowerCamelCase : Optional[int] = activation_dropout _lowerCamelCase : Optional[Any] = feat_proj_dropout _lowerCamelCase : Optional[int] = final_dropout _lowerCamelCase : Any = layerdrop _lowerCamelCase : Any = layer_norm_eps _lowerCamelCase : List[Any] = initializer_range _lowerCamelCase : List[str] = num_ctc_classes _lowerCamelCase : List[Any] = vocab_size _lowerCamelCase : Optional[Any] = do_stable_layer_norm _lowerCamelCase : Tuple = use_weighted_layer_sum _lowerCamelCase : List[Any] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' f''' {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,''' f''' `len(config.conv_kernel) = {len(self.conv_kernel )}`.''' ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 _lowerCamelCase : Any = apply_spec_augment _lowerCamelCase : Dict = mask_time_prob _lowerCamelCase : List[str] = mask_time_length _lowerCamelCase : Optional[Any] = mask_time_min_masks _lowerCamelCase : List[str] = mask_feature_prob _lowerCamelCase : int = mask_feature_length _lowerCamelCase : Dict = mask_feature_min_masks # parameters for pretraining with codevector quantized representations _lowerCamelCase : Optional[Any] = num_codevectors_per_group _lowerCamelCase : int = num_codevector_groups _lowerCamelCase : List[Any] = contrastive_logits_temperature _lowerCamelCase : List[str] = feat_quantizer_dropout _lowerCamelCase : Dict = num_negatives _lowerCamelCase : Optional[int] = codevector_dim _lowerCamelCase : List[Any] = proj_codevector_dim _lowerCamelCase : List[Any] = diversity_loss_weight # ctc loss _lowerCamelCase : Union[str, Any] = ctc_loss_reduction _lowerCamelCase : Any = ctc_zero_infinity # pretraining loss _lowerCamelCase : str = replace_prob @property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )

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from typing import TYPE_CHECKING from ....utils import _LazyModule __lowerCAmelCase : Union[str, Any] ={'tokenization_tapex': ['TapexTokenizer']} if TYPE_CHECKING: from .tokenization_tapex import TapexTokenizer else: import sys __lowerCAmelCase : int =_LazyModule(__name__, globals()['__file__'], _import_structure)

9

"""simple docstring""" from typing import Optional from urllib.parse import quote import huggingface_hub as hfh from packaging import version def snake_case_ ( A_ : str, A_ : str, A_ : Optional[str] = None ): '''simple docstring''' if version.parse(hfh.__version__ ).release < version.parse('''0.11.0''' ).release: # old versions of hfh don't url-encode the file path _lowerCamelCase : Optional[Any] = quote(A_ ) return hfh.hf_hub_url(A_, A_, repo_type='''dataset''', revision=A_ )

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def lowerCAmelCase_ ( __a , __a , __a ) -> int: """simple docstring""" def update_area_of_max_square(__a , __a ) -> int: # BASE CASE if row >= rows or col >= cols: return 0 lowerCamelCase__: Union[str, Any] =update_area_of_max_square(__a , col + 1 ) lowerCamelCase__: Dict =update_area_of_max_square(row + 1 , col + 1 ) lowerCamelCase__: List[str] =update_area_of_max_square(row + 1 , __a ) if mat[row][col]: lowerCamelCase__: Tuple =1 + min([right, diagonal, down] ) lowerCamelCase__: str =max(largest_square_area[0] , __a ) return sub_problem_sol else: return 0 lowerCamelCase__: Dict =[0] update_area_of_max_square(0 , 0 ) return largest_square_area[0] def lowerCAmelCase_ ( __a , __a , __a ) -> int: """simple docstring""" def update_area_of_max_square_using_dp_array( __a , __a , __a ) -> int: if row >= rows or col >= cols: return 0 if dp_array[row][col] != -1: return dp_array[row][col] lowerCamelCase__: str =update_area_of_max_square_using_dp_array(__a , col + 1 , __a ) lowerCamelCase__: str =update_area_of_max_square_using_dp_array(row + 1 , col + 1 , __a ) lowerCamelCase__: Dict =update_area_of_max_square_using_dp_array(row + 1 , __a , __a ) if mat[row][col]: lowerCamelCase__: List[Any] =1 + min([right, diagonal, down] ) lowerCamelCase__: Optional[int] =max(largest_square_area[0] , __a ) lowerCamelCase__: Tuple =sub_problem_sol return sub_problem_sol else: return 0 lowerCamelCase__: Union[str, Any] =[0] lowerCamelCase__: Optional[int] =[[-1] * cols for _ in range(__a )] update_area_of_max_square_using_dp_array(0 , 0 , __a ) return largest_square_area[0] def lowerCAmelCase_ ( __a , __a , __a ) -> int: """simple docstring""" lowerCamelCase__: Optional[Any] =[[0] * (cols + 1) for _ in range(rows + 1 )] lowerCamelCase__: Tuple =0 for row in range(rows - 1 , -1 , -1 ): for col in range(cols - 1 , -1 , -1 ): lowerCamelCase__: int =dp_array[row][col + 1] lowerCamelCase__: Union[str, Any] =dp_array[row + 1][col + 1] lowerCamelCase__: Any =dp_array[row + 1][col] if mat[row][col] == 1: lowerCamelCase__: str =1 + min(__a , __a , __a ) lowerCamelCase__: Tuple =max(dp_array[row][col] , __a ) else: lowerCamelCase__: Tuple =0 return largest_square_area def lowerCAmelCase_ ( __a , __a , __a ) -> int: """simple docstring""" lowerCamelCase__: Union[str, Any] =[0] * (cols + 1) lowerCamelCase__: Dict =[0] * (cols + 1) lowerCamelCase__: List[Any] =0 for row in range(rows - 1 , -1 , -1 ): for col in range(cols - 1 , -1 , -1 ): lowerCamelCase__: Optional[int] =current_row[col + 1] lowerCamelCase__: int =next_row[col + 1] lowerCamelCase__: Optional[int] =next_row[col] if mat[row][col] == 1: lowerCamelCase__: Dict =1 + min(__a , __a , __a ) lowerCamelCase__: Dict =max(current_row[col] , __a ) else: lowerCamelCase__: Tuple =0 lowerCamelCase__: List[Any] =current_row return largest_square_area if __name__ == "__main__": import doctest doctest.testmod() print(largest_square_area_in_matrix_bottom_up(2, 2, [[1, 1], [1, 1]]))

10

"""simple docstring""" import unittest import numpy as np def snake_case_ ( A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray | None = None, ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) if shape_a[0] != shape_b[0]: _lowerCamelCase : Tuple = ( '''Expected the same number of rows for A and B. ''' F'''Instead found A of size {shape_a} and B of size {shape_b}''' ) raise ValueError(A_ ) if shape_b[1] != shape_c[1]: _lowerCamelCase : Tuple = ( '''Expected the same number of columns for B and C. ''' F'''Instead found B of size {shape_b} and C of size {shape_c}''' ) raise ValueError(A_ ) _lowerCamelCase : List[str] = pseudo_inv if a_inv is None: try: _lowerCamelCase : Any = np.linalg.inv(A_ ) except np.linalg.LinAlgError: raise ValueError( '''Input matrix A is not invertible. Cannot compute Schur complement.''' ) return mat_c - mat_b.T @ a_inv @ mat_b class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : List[str] = np.array([[2, 1], [6, 3]] ) _lowerCamelCase : List[Any] = schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = np.block([[a, b], [b.T, c]] ) _lowerCamelCase : Tuple = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : List[str] = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : Any = np.linalg.det(__lowerCAmelCase ) self.assertAlmostEqual(__lowerCAmelCase , det_a * det_s ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : Optional[int] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : int = np.array([[2, 1], [6, 3]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : str = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : Union[str, Any] = np.array([[2, 1, 3], [6, 3, 5]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) if __name__ == "__main__": import doctest doctest.testmod() unittest.main()

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from itertools import product def _UpperCAmelCase (UpperCamelCase__ : int , UpperCamelCase__ : int ): _A : Dict = sides_number _A : Any = max_face_number * dice_number _A : Optional[int] = [0] * (max_total + 1) _A : Any = 1 _A : str = range(UpperCamelCase__ , max_face_number + 1 ) for dice_numbers in product(UpperCamelCase__ , repeat=UpperCamelCase__ ): _A : Tuple = sum(UpperCamelCase__ ) totals_frequencies[total] += 1 return totals_frequencies def _UpperCAmelCase (): _A : Any = total_frequency_distribution( sides_number=4 , dice_number=9 ) _A : Tuple = total_frequency_distribution( sides_number=6 , dice_number=6 ) _A : Any = 0 _A : int = 9 _A : List[str] = 4 * 9 _A : Dict = 6 for peter_total in range(UpperCamelCase__ , max_peter_total + 1 ): peter_wins_count += peter_totals_frequencies[peter_total] * sum( colin_totals_frequencies[min_colin_total:peter_total] ) _A : Dict = (4**9) * (6**6) _A : List[str] = peter_wins_count / total_games_number _A : Dict = round(UpperCamelCase__ , ndigits=7 ) return rounded_peter_win_probability if __name__ == "__main__": print(f"{solution() = }")

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"""simple docstring""" def snake_case_ ( A_ : list[int], A_ : str ): '''simple docstring''' _lowerCamelCase : Tuple = int(A_ ) # Initialize Result _lowerCamelCase : Dict = [] # Traverse through all denomination for denomination in reversed(A_ ): # Find denominations while int(A_ ) >= int(A_ ): total_value -= int(A_ ) answer.append(A_ ) # Append the "answers" array return answer # Driver Code if __name__ == "__main__": lowerCAmelCase__ = [] lowerCAmelCase__ = '''0''' if ( input('''Do you want to enter your denominations ? (yY/n): ''').strip().lower() == "y" ): lowerCAmelCase__ = int(input('''Enter the number of denominations you want to add: ''').strip()) for i in range(0, n): denominations.append(int(input(F"""Denomination {i}: """).strip())) lowerCAmelCase__ = input('''Enter the change you want to make in Indian Currency: ''').strip() else: # All denominations of Indian Currency if user does not enter lowerCAmelCase__ = [1, 2, 5, 10, 20, 50, 100, 500, 2000] lowerCAmelCase__ = input('''Enter the change you want to make: ''').strip() if int(value) == 0 or int(value) < 0: print('''The total value cannot be zero or negative.''') else: print(F"""Following is minimal change for {value}: """) lowerCAmelCase__ = find_minimum_change(denominations, value) # Print result for i in range(len(answer)): print(answer[i], end=''' ''')

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from math import factorial class lowerCamelCase__: def __init__( self: List[str] , UpperCamelCase_: str , UpperCamelCase_: int ): __lowerCamelCase = real if isinstance(UpperCamelCase_ , UpperCamelCase_ ): __lowerCamelCase = [1] * rank else: __lowerCamelCase = rank def __repr__( self: List[Any] ): return ( F'{self.real}+' F'{"+".join(str(UpperCamelCase_ )+"E"+str(n+1 )for n,dual in enumerate(self.duals ) )}' ) def lowerCAmelCase__ ( self: Tuple ): __lowerCamelCase = self.duals.copy() while cur[-1] == 0: cur.pop(-1 ) return Dual(self.real , UpperCamelCase_ ) def __add__( self: int , UpperCamelCase_: Tuple ): if not isinstance(UpperCamelCase_ , UpperCamelCase_ ): return Dual(self.real + other , self.duals ) __lowerCamelCase = self.duals.copy() __lowerCamelCase = other.duals.copy() if len(UpperCamelCase_ ) > len(UpperCamelCase_ ): o_dual.extend([1] * (len(UpperCamelCase_ ) - len(UpperCamelCase_ )) ) elif len(UpperCamelCase_ ) < len(UpperCamelCase_ ): s_dual.extend([1] * (len(UpperCamelCase_ ) - len(UpperCamelCase_ )) ) __lowerCamelCase = [] for i in range(len(UpperCamelCase_ ) ): new_duals.append(s_dual[i] + o_dual[i] ) return Dual(self.real + other.real , UpperCamelCase_ ) UpperCAmelCase__ : Dict = __add__ def __sub__( self: List[str] , UpperCamelCase_: Dict ): return self + other * -1 def __mul__( self: Any , UpperCamelCase_: Optional[Any] ): if not isinstance(UpperCamelCase_ , UpperCamelCase_ ): __lowerCamelCase = [] for i in self.duals: new_duals.append(i * other ) return Dual(self.real * other , UpperCamelCase_ ) __lowerCamelCase = [0] * (len(self.duals ) + len(other.duals ) + 1) for i, item in enumerate(self.duals ): for j, jtem in enumerate(other.duals ): new_duals[i + j + 1] += item * jtem for k in range(len(self.duals ) ): new_duals[k] += self.duals[k] * other.real for index in range(len(other.duals ) ): new_duals[index] += other.duals[index] * self.real return Dual(self.real * other.real , UpperCamelCase_ ) UpperCAmelCase__ : Optional[int] = __mul__ def __truediv__( self: Dict , UpperCamelCase_: Tuple ): if not isinstance(UpperCamelCase_ , UpperCamelCase_ ): __lowerCamelCase = [] for i in self.duals: new_duals.append(i / other ) return Dual(self.real / other , UpperCamelCase_ ) raise ValueError def __floordiv__( self: int , UpperCamelCase_: int ): if not isinstance(UpperCamelCase_ , UpperCamelCase_ ): __lowerCamelCase = [] for i in self.duals: new_duals.append(i // other ) return Dual(self.real // other , UpperCamelCase_ ) raise ValueError def __pow__( self: Tuple , UpperCamelCase_: str ): if n < 0 or isinstance(UpperCamelCase_ , UpperCamelCase_ ): raise ValueError("""power must be a positive integer""" ) if n == 0: return 1 if n == 1: return self __lowerCamelCase = self for _ in range(n - 1 ): x *= self return x def lowerCamelCase__ ( A__ : List[str] , A__ : str , A__ : str ): '''simple docstring''' if not callable(A__ ): raise ValueError("""differentiate() requires a function as input for func""" ) if not isinstance(A__ , (float, int) ): raise ValueError("""differentiate() requires a float as input for position""" ) if not isinstance(A__ , A__ ): raise ValueError("""differentiate() requires an int as input for order""" ) __lowerCamelCase = Dual(A__ , 1 ) __lowerCamelCase = func(A__ ) if order == 0: return result.real return result.duals[order - 1] * factorial(A__ ) if __name__ == "__main__": import doctest doctest.testmod() def lowerCamelCase__ ( A__ : int ): '''simple docstring''' return y**2 * y**4 print(differentiate(f, 9, 2))

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"""simple docstring""" def snake_case_ ( A_ : int = 2_00_00_00 ): '''simple docstring''' _lowerCamelCase : int = [0 for i in range(n + 1 )] _lowerCamelCase : List[str] = 1 _lowerCamelCase : Any = 1 for i in range(2, int(n**0.5 ) + 1 ): if primality_list[i] == 0: for j in range(i * i, n + 1, A_ ): _lowerCamelCase : str = 1 _lowerCamelCase : Tuple = 0 for i in range(A_ ): if primality_list[i] == 0: sum_of_primes += i return sum_of_primes if __name__ == "__main__": print(F"""{solution() = }""")

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import argparse import os import re # All paths are set with the intent you should run this script from the root of the repo with the command # python utils/check_dummies.py lowerCAmelCase : Optional[Any] = """src/diffusers""" # Matches is_xxx_available() lowerCAmelCase : str = re.compile(R"""is\_([a-z_]*)_available""") # Matches from xxx import bla lowerCAmelCase : List[str] = re.compile(R"""\s+from\s+\S*\s+import\s+([^\(\s].*)\n""") lowerCAmelCase : Union[str, Any] = """ {0} = None """ lowerCAmelCase : List[str] = """ class {0}(metaclass=DummyObject): _backends = {1} def __init__(self, *args, **kwargs): requires_backends(self, {1}) @classmethod def from_config(cls, *args, **kwargs): requires_backends(cls, {1}) @classmethod def from_pretrained(cls, *args, **kwargs): requires_backends(cls, {1}) """ lowerCAmelCase : List[Any] = """ def {0}(*args, **kwargs): requires_backends({0}, {1}) """ def A_ ( _UpperCAmelCase ): SCREAMING_SNAKE_CASE_: List[str] = _re_backend.findall(_UpperCAmelCase ) if len(_UpperCAmelCase ) == 0: return None return "_and_".join(_UpperCAmelCase ) def A_ ( ): with open(os.path.join(_UpperCAmelCase , "__init__.py" ) , "r" , encoding="utf-8" , newline="\n" ) as f: SCREAMING_SNAKE_CASE_: Optional[Any] = f.readlines() # Get to the point we do the actual imports for type checking SCREAMING_SNAKE_CASE_: Union[str, Any] = 0 SCREAMING_SNAKE_CASE_: Optional[int] = {} # Go through the end of the file while line_index < len(_UpperCAmelCase ): # If the line contains is_backend_available, we grab all objects associated with the `else` block SCREAMING_SNAKE_CASE_: List[str] = find_backend(lines[line_index] ) if backend is not None: while not lines[line_index].startswith("else:" ): line_index += 1 line_index += 1 SCREAMING_SNAKE_CASE_: str = [] # Until we unindent, add backend objects to the list while line_index < len(_UpperCAmelCase ) and len(lines[line_index] ) > 1: SCREAMING_SNAKE_CASE_: List[Any] = lines[line_index] SCREAMING_SNAKE_CASE_: Optional[int] = _re_single_line_import.search(_UpperCAmelCase ) if single_line_import_search is not None: objects.extend(single_line_import_search.groups()[0].split(", " ) ) elif line.startswith(" " * 8 ): objects.append(line[8:-2] ) line_index += 1 if len(_UpperCAmelCase ) > 0: SCREAMING_SNAKE_CASE_: Any = objects else: line_index += 1 return backend_specific_objects def A_ ( _UpperCAmelCase , _UpperCAmelCase ): if name.isupper(): return DUMMY_CONSTANT.format(_UpperCAmelCase ) elif name.islower(): return DUMMY_FUNCTION.format(_UpperCAmelCase , _UpperCAmelCase ) else: return DUMMY_CLASS.format(_UpperCAmelCase , _UpperCAmelCase ) def A_ ( _UpperCAmelCase=None ): if backend_specific_objects is None: SCREAMING_SNAKE_CASE_: Optional[Any] = read_init() # For special correspondence backend to module name as used in the function requires_modulename SCREAMING_SNAKE_CASE_: Optional[Any] = {} for backend, objects in backend_specific_objects.items(): SCREAMING_SNAKE_CASE_: Tuple = "[" + ", ".join(f"\"{b}\"" for b in backend.split("_and_" ) ) + "]" SCREAMING_SNAKE_CASE_: Tuple = "# This file is autogenerated by the command `make fix-copies`, do not edit.\n" dummy_file += "from ..utils import DummyObject, requires_backends\n\n" dummy_file += "\n".join([create_dummy_object(_UpperCAmelCase , _UpperCAmelCase ) for o in objects] ) SCREAMING_SNAKE_CASE_: Any = dummy_file return dummy_files def A_ ( _UpperCAmelCase=False ): SCREAMING_SNAKE_CASE_: Union[str, Any] = create_dummy_files() # For special correspondence backend to shortcut as used in utils/dummy_xxx_objects.py SCREAMING_SNAKE_CASE_: int = {"torch": "pt"} # Locate actual dummy modules and read their content. SCREAMING_SNAKE_CASE_: Dict = os.path.join(_UpperCAmelCase , "utils" ) SCREAMING_SNAKE_CASE_: List[Any] = { backend: os.path.join(_UpperCAmelCase , f"dummy_{short_names.get(_UpperCAmelCase , _UpperCAmelCase )}_objects.py" ) for backend in dummy_files.keys() } SCREAMING_SNAKE_CASE_: Any = {} for backend, file_path in dummy_file_paths.items(): if os.path.isfile(_UpperCAmelCase ): with open(_UpperCAmelCase , "r" , encoding="utf-8" , newline="\n" ) as f: SCREAMING_SNAKE_CASE_: Tuple = f.read() else: SCREAMING_SNAKE_CASE_: Optional[Any] = "" for backend in dummy_files.keys(): if dummy_files[backend] != actual_dummies[backend]: if overwrite: print( f"Updating diffusers.utils.dummy_{short_names.get(_UpperCAmelCase , _UpperCAmelCase )}_objects.py as the main " "__init__ has new objects." ) with open(dummy_file_paths[backend] , "w" , encoding="utf-8" , newline="\n" ) as f: f.write(dummy_files[backend] ) else: raise ValueError( "The main __init__ has objects that are not present in " f"diffusers.utils.dummy_{short_names.get(_UpperCAmelCase , _UpperCAmelCase )}_objects.py. Run `make fix-copies` " "to fix this." ) if __name__ == "__main__": lowerCAmelCase : Optional[Any] = argparse.ArgumentParser() parser.add_argument("""--fix_and_overwrite""", action="""store_true""", help="""Whether to fix inconsistencies.""") lowerCAmelCase : str = parser.parse_args() check_dummies(args.fix_and_overwrite)

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"""simple docstring""" import argparse import torch from torch import nn from transformers import MBartConfig, MBartForConditionalGeneration def snake_case_ ( A_ : Any ): '''simple docstring''' _lowerCamelCase : Any = [ '''encoder.version''', '''decoder.version''', '''model.encoder.version''', '''model.decoder.version''', '''_float_tensor''', '''decoder.output_projection.weight''', ] for k in ignore_keys: state_dict.pop(A_, A_ ) def snake_case_ ( A_ : Union[str, Any] ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : Tuple = emb.weight.shape _lowerCamelCase : Dict = nn.Linear(A_, A_, bias=A_ ) _lowerCamelCase : str = emb.weight.data return lin_layer def snake_case_ ( A_ : str, A_ : Optional[int]="facebook/mbart-large-en-ro", A_ : Union[str, Any]=False, A_ : List[str]=False ): '''simple docstring''' _lowerCamelCase : Tuple = torch.load(A_, map_location='''cpu''' )['''model'''] remove_ignore_keys_(A_ ) _lowerCamelCase : int = state_dict['''encoder.embed_tokens.weight'''].shape[0] _lowerCamelCase : Any = MBartConfig.from_pretrained(A_, vocab_size=A_ ) if mbart_aa and finetuned: _lowerCamelCase : Any = '''relu''' _lowerCamelCase : Optional[int] = state_dict['''decoder.embed_tokens.weight'''] _lowerCamelCase : Any = MBartForConditionalGeneration(A_ ) model.model.load_state_dict(A_ ) if finetuned: _lowerCamelCase : str = make_linear_from_emb(model.model.shared ) return model if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''fairseq_path''', type=str, help='''bart.large, bart.large.cnn or a path to a model.pt on local filesystem.''' ) parser.add_argument('''pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model.''') parser.add_argument( '''--hf_config''', default='''facebook/mbart-large-cc25''', type=str, help='''Which huggingface architecture to use: mbart-large''', ) parser.add_argument('''--mbart_50''', action='''store_true''', help='''whether the model is mMART-50 checkpoint''') parser.add_argument('''--finetuned''', action='''store_true''', help='''whether the model is a fine-tuned checkpoint''') lowerCAmelCase__ = parser.parse_args() lowerCAmelCase__ = convert_fairseq_mbart_checkpoint_from_disk( args.fairseq_path, hf_config_path=args.hf_config, finetuned=args.finetuned, mbart_aa=args.mbart_aa ) model.save_pretrained(args.pytorch_dump_folder_path)

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from __future__ import annotations import unittest from transformers import is_tf_available from transformers.testing_utils import require_sentencepiece, require_tf, require_tokenizers, slow if is_tf_available(): import tensorflow as tf from transformers import AutoTokenizer, TFAutoModelForSeqaSeqLM @require_tf @require_sentencepiece @require_tokenizers class UpperCamelCase_ ( unittest.TestCase ): '''simple docstring''' @slow def SCREAMING_SNAKE_CASE ( self : int) ->Optional[int]: '''simple docstring''' A__ = TFAutoModelForSeqaSeqLM.from_pretrained('''google/mt5-small''') A__ = AutoTokenizer.from_pretrained('''google/mt5-small''') A__ = tokenizer('''Hello there''' , return_tensors='''tf''').input_ids A__ = tokenizer('''Hi I am''' , return_tensors='''tf''').input_ids A__ = model(UpperCAmelCase__ , labels=UpperCAmelCase__).loss A__ = -tf.math.reduce_mean(UpperCAmelCase__).numpy() A__ = -21.228168 self.assertTrue(abs(mtf_score - EXPECTED_SCORE) < 2e-4)

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"""simple docstring""" def snake_case_ ( A_ : list[list] ): '''simple docstring''' _lowerCamelCase : Optional[int] = current_set.copy() for row_index, row in enumerate(A_ ): _lowerCamelCase : Tuple = row[0] for column_index, column in enumerate(A_ ): if magnitude == 0: _lowerCamelCase : List[Any] = column continue _lowerCamelCase : List[Any] = column / magnitude # Subtract to cancel term _lowerCamelCase : Union[str, Any] = current_set[0] _lowerCamelCase : Dict = [first_row] _lowerCamelCase : str = current_set[1::] for row in current_set: _lowerCamelCase : Union[str, Any] = [] # If first term is 0, it is already in form we want, so we preserve it if row[0] == 0: final_set.append(A_ ) continue for column_index in range(len(A_ ) ): temp_row.append(first_row[column_index] - row[column_index] ) final_set.append(A_ ) # Create next recursion iteration set if len(final_set[0] ) != 3: _lowerCamelCase : Any = final_set[0] _lowerCamelCase : Any = [] _lowerCamelCase : Optional[int] = [] for row in final_set[1::]: current_first_column.append(row[0] ) next_iteration.append(row[1::] ) _lowerCamelCase : Dict = simplify(A_ ) for i in range(len(A_ ) ): resultant[i].insert(0, current_first_column[i] ) resultant.insert(0, A_ ) _lowerCamelCase : Tuple = resultant return final_set def snake_case_ ( A_ : list[list] ): '''simple docstring''' if len(A_ ) == 0: raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) _lowerCamelCase : Dict = len(A_ ) + 1 if any(len(A_ ) != _length for item in equations ): raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) for row in equations: if any(not isinstance(A_, (int, float) ) for column in row ): raise ValueError('''solve_simultaneous() requires lists of integers''' ) if len(A_ ) == 1: return [equations[0][-1] / equations[0][0]] _lowerCamelCase : Optional[Any] = equations.copy() if any(0 in row for row in data_set ): _lowerCamelCase : str = data_set.copy() _lowerCamelCase : List[Any] = [] for row_index, row in enumerate(A_ ): if 0 not in row: _lowerCamelCase : Union[str, Any] = data_set.pop(A_ ) break if not full_row: raise ValueError('''solve_simultaneous() requires at least 1 full equation''' ) data_set.insert(0, A_ ) _lowerCamelCase : List[str] = data_set.copy() _lowerCamelCase : int = simplify(A_ ) _lowerCamelCase : int = simplified[::-1] _lowerCamelCase : list = [] for row in simplified: _lowerCamelCase : Tuple = row[-1] if not solutions: if row[-2] == 0: solutions.append(0 ) continue solutions.append(current_solution / row[-2] ) continue _lowerCamelCase : Optional[Any] = row.copy()[: len(A_ ) - 1 :] while temp_row[0] == 0: temp_row.pop(0 ) if len(A_ ) == 0: solutions.append(0 ) continue _lowerCamelCase : Tuple = temp_row[1::] _lowerCamelCase : Tuple = temp_row[::-1] for column_index, column in enumerate(A_ ): current_solution -= column * solutions[column_index] solutions.append(A_ ) _lowerCamelCase : Optional[int] = [] for item in solutions: final.append(float(round(A_, 5 ) ) ) return final[::-1] if __name__ == "__main__": import doctest doctest.testmod() lowerCAmelCase__ = [ [2, 1, 1, 1, 1, 4], [1, 2, 1, 1, 1, 5], [1, 1, 2, 1, 1, 6], [1, 1, 1, 2, 1, 7], [1, 1, 1, 1, 2, 8], ] print(solve_simultaneous(eq)) print(solve_simultaneous([[4, 2]]))

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from typing import Optional, Tuple, Union import flax import flax.linen as nn import jax import jax.numpy as jnp from flax.core.frozen_dict import FrozenDict from ..configuration_utils import ConfigMixin, flax_register_to_config from ..utils import BaseOutput from .embeddings_flax import FlaxTimestepEmbedding, FlaxTimesteps from .modeling_flax_utils import FlaxModelMixin from .unet_ad_blocks_flax import ( FlaxCrossAttnDownBlockaD, FlaxCrossAttnUpBlockaD, FlaxDownBlockaD, FlaxUNetMidBlockaDCrossAttn, FlaxUpBlockaD, ) @flax.struct.dataclass class UpperCAmelCase ( __SCREAMING_SNAKE_CASE ): '''simple docstring''' snake_case_ = 42 @flax_register_to_config class UpperCAmelCase ( nn.Module , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ): '''simple docstring''' snake_case_ = 32 snake_case_ = 4 snake_case_ = 4 snake_case_ = ( "CrossAttnDownBlock2D", "CrossAttnDownBlock2D", "CrossAttnDownBlock2D", "DownBlock2D", ) snake_case_ = ("UpBlock2D", "CrossAttnUpBlock2D", "CrossAttnUpBlock2D", "CrossAttnUpBlock2D") snake_case_ = False snake_case_ = (320, 640, 1280, 1280) snake_case_ = 2 snake_case_ = 8 snake_case_ = None snake_case_ = 1280 snake_case_ = 0.0 snake_case_ = False snake_case_ = jnp.floataa snake_case_ = True snake_case_ = 0 snake_case_ = False def UpperCamelCase_ ( self : Tuple ,A : jax.random.KeyArray ): # init input tensors __A = (1, self.in_channels, self.sample_size, self.sample_size) __A = jnp.zeros(A ,dtype=jnp.floataa ) __A = jnp.ones((1,) ,dtype=jnp.intaa ) __A = jnp.zeros((1, 1, self.cross_attention_dim) ,dtype=jnp.floataa ) __A , __A = jax.random.split(A ) __A = {"params": params_rng, "dropout": dropout_rng} return self.init(A ,A ,A ,A )["params"] def UpperCamelCase_ ( self : Dict ): __A = self.block_out_channels __A = block_out_channels[0] * 4 if self.num_attention_heads is not None: raise ValueError( "At the moment it is not possible to define the number of attention heads via `num_attention_heads` because of a naming issue as described in https://github.com/huggingface/diffusers/issues/2011#issuecomment-1547958131. Passing `num_attention_heads` will only be supported in diffusers v0.19." ) # If `num_attention_heads` is not defined (which is the case for most models) # it will default to `attention_head_dim`. This looks weird upon first reading it and it is. # The reason for this behavior is to correct for incorrectly named variables that were introduced # when this library was created. The incorrect naming was only discovered much later in https://github.com/huggingface/diffusers/issues/2011#issuecomment-1547958131 # Changing `attention_head_dim` to `num_attention_heads` for 40,000+ configurations is too backwards breaking # which is why we correct for the naming here. __A = self.num_attention_heads or self.attention_head_dim # input __A = nn.Conv( block_out_channels[0] ,kernel_size=(3, 3) ,strides=(1, 1) ,padding=((1, 1), (1, 1)) ,dtype=self.dtype ,) # time __A = FlaxTimesteps( block_out_channels[0] ,flip_sin_to_cos=self.flip_sin_to_cos ,freq_shift=self.config.freq_shift ) __A = FlaxTimestepEmbedding(A ,dtype=self.dtype ) __A = self.only_cross_attention if isinstance(A ,A ): __A = (only_cross_attention,) * len(self.down_block_types ) if isinstance(A ,A ): __A = (num_attention_heads,) * len(self.down_block_types ) # down __A = [] __A = block_out_channels[0] for i, down_block_type in enumerate(self.down_block_types ): __A = output_channel __A = block_out_channels[i] __A = i == len(A ) - 1 if down_block_type == "CrossAttnDownBlock2D": __A = FlaxCrossAttnDownBlockaD( in_channels=A ,out_channels=A ,dropout=self.dropout ,num_layers=self.layers_per_block ,num_attention_heads=num_attention_heads[i] ,add_downsample=not is_final_block ,use_linear_projection=self.use_linear_projection ,only_cross_attention=only_cross_attention[i] ,use_memory_efficient_attention=self.use_memory_efficient_attention ,dtype=self.dtype ,) else: __A = FlaxDownBlockaD( in_channels=A ,out_channels=A ,dropout=self.dropout ,num_layers=self.layers_per_block ,add_downsample=not is_final_block ,dtype=self.dtype ,) down_blocks.append(A ) __A = down_blocks # mid __A = FlaxUNetMidBlockaDCrossAttn( in_channels=block_out_channels[-1] ,dropout=self.dropout ,num_attention_heads=num_attention_heads[-1] ,use_linear_projection=self.use_linear_projection ,use_memory_efficient_attention=self.use_memory_efficient_attention ,dtype=self.dtype ,) # up __A = [] __A = list(reversed(A ) ) __A = list(reversed(A ) ) __A = list(reversed(A ) ) __A = reversed_block_out_channels[0] for i, up_block_type in enumerate(self.up_block_types ): __A = output_channel __A = reversed_block_out_channels[i] __A = reversed_block_out_channels[min(i + 1 ,len(A ) - 1 )] __A = i == len(A ) - 1 if up_block_type == "CrossAttnUpBlock2D": __A = FlaxCrossAttnUpBlockaD( in_channels=A ,out_channels=A ,prev_output_channel=A ,num_layers=self.layers_per_block + 1 ,num_attention_heads=reversed_num_attention_heads[i] ,add_upsample=not is_final_block ,dropout=self.dropout ,use_linear_projection=self.use_linear_projection ,only_cross_attention=only_cross_attention[i] ,use_memory_efficient_attention=self.use_memory_efficient_attention ,dtype=self.dtype ,) else: __A = FlaxUpBlockaD( in_channels=A ,out_channels=A ,prev_output_channel=A ,num_layers=self.layers_per_block + 1 ,add_upsample=not is_final_block ,dropout=self.dropout ,dtype=self.dtype ,) up_blocks.append(A ) __A = output_channel __A = up_blocks # out __A = nn.GroupNorm(num_groups=32 ,epsilon=1E-5 ) __A = nn.Conv( self.out_channels ,kernel_size=(3, 3) ,strides=(1, 1) ,padding=((1, 1), (1, 1)) ,dtype=self.dtype ,) def __call__( self : Optional[Any] ,A : Tuple ,A : List[Any] ,A : List[str] ,A : Union[str, Any]=None ,A : Union[str, Any]=None ,A : bool = True ,A : bool = False ,): # 1. time if not isinstance(A ,jnp.ndarray ): __A = jnp.array([timesteps] ,dtype=jnp.intaa ) elif isinstance(A ,jnp.ndarray ) and len(timesteps.shape ) == 0: __A = timesteps.astype(dtype=jnp.floataa ) __A = jnp.expand_dims(A ,0 ) __A = self.time_proj(A ) __A = self.time_embedding(A ) # 2. pre-process __A = jnp.transpose(A ,(0, 2, 3, 1) ) __A = self.conv_in(A ) # 3. down __A = (sample,) for down_block in self.down_blocks: if isinstance(A ,A ): __A , __A = down_block(A ,A ,A ,deterministic=not train ) else: __A , __A = down_block(A ,A ,deterministic=not train ) down_block_res_samples += res_samples if down_block_additional_residuals is not None: __A = () for down_block_res_sample, down_block_additional_residual in zip( A ,A ): down_block_res_sample += down_block_additional_residual new_down_block_res_samples += (down_block_res_sample,) __A = new_down_block_res_samples # 4. mid __A = self.mid_block(A ,A ,A ,deterministic=not train ) if mid_block_additional_residual is not None: sample += mid_block_additional_residual # 5. up for up_block in self.up_blocks: __A = down_block_res_samples[-(self.layers_per_block + 1) :] __A = down_block_res_samples[: -(self.layers_per_block + 1)] if isinstance(A ,A ): __A = up_block( A ,temb=A ,encoder_hidden_states=A ,res_hidden_states_tuple=A ,deterministic=not train ,) else: __A = up_block(A ,temb=A ,res_hidden_states_tuple=A ,deterministic=not train ) # 6. post-process __A = self.conv_norm_out(A ) __A = nn.silu(A ) __A = self.conv_out(A ) __A = jnp.transpose(A ,(0, 3, 1, 2) ) if not return_dict: return (sample,) return FlaxUNetaDConditionOutput(sample=A )

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"""simple docstring""" import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class __snake_case ( _lowercase): snake_case__ : List[Any] = "Speech2TextFeatureExtractor" snake_case__ : Union[str, Any] = "Speech2TextTokenizer" def __init__( self : int , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" super().__init__(__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : str = False def __call__( self : List[Any] , *__lowerCAmelCase : int , **__lowerCAmelCase : List[str] ): """simple docstring""" if self._in_target_context_manager: return self.current_processor(*__lowerCAmelCase , **__lowerCAmelCase ) if "raw_speech" in kwargs: warnings.warn('''Using `raw_speech` as a keyword argument is deprecated. Use `audio` instead.''' ) _lowerCamelCase : str = kwargs.pop('''raw_speech''' ) else: _lowerCamelCase : Tuple = kwargs.pop('''audio''' , __lowerCAmelCase ) _lowerCamelCase : Optional[Any] = kwargs.pop('''sampling_rate''' , __lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = kwargs.pop('''text''' , __lowerCAmelCase ) if len(__lowerCAmelCase ) > 0: _lowerCamelCase : List[Any] = args[0] _lowerCamelCase : int = args[1:] if audio is None and text is None: raise ValueError('''You need to specify either an `audio` or `text` input to process.''' ) if audio is not None: _lowerCamelCase : List[Any] = self.feature_extractor(__lowerCAmelCase , *__lowerCAmelCase , sampling_rate=__lowerCAmelCase , **__lowerCAmelCase ) if text is not None: _lowerCamelCase : List[Any] = self.tokenizer(__lowerCAmelCase , **__lowerCAmelCase ) if text is None: return inputs elif audio is None: return encodings else: _lowerCamelCase : List[str] = encodings['''input_ids'''] return inputs def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : List[Any] , **__lowerCAmelCase : Tuple ): """simple docstring""" return self.tokenizer.batch_decode(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : List[str] , **__lowerCAmelCase : int ): """simple docstring""" return self.tokenizer.decode(*__lowerCAmelCase , **__lowerCAmelCase ) @contextmanager def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" warnings.warn( '''`as_target_processor` is deprecated and will be removed in v5 of Transformers. You can process your ''' '''labels by using the argument `text` of the regular `__call__` method (either in the same call as ''' '''your audio inputs, or in a separate call.''' ) _lowerCamelCase : Union[str, Any] = True _lowerCamelCase : Any = self.tokenizer yield _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : Tuple = False

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"""simple docstring""" import dataclasses import json import warnings from dataclasses import dataclass, field from time import time from typing import List from ..utils import logging lowerCAmelCase_ = logging.get_logger(__name__) def __UpperCAmelCase ( __lowerCamelCase=None , __lowerCamelCase=None ) -> Union[str, Any]: return field(default_factory=lambda: default , metadata=__lowerCamelCase ) @dataclass class __A : '''simple docstring''' lowerCAmelCase : List[str] = list_field( default=[] ,metadata={ "help": ( "Model checkpoints to be provided to the AutoModel classes. Leave blank to benchmark the base version" " of all available models" ) } ,) lowerCAmelCase : List[int] = list_field( default=[8] ,metadata={"help": "List of batch sizes for which memory and time performance will be evaluated"} ) lowerCAmelCase : List[int] = list_field( default=[8, 3_2, 1_2_8, 5_1_2] ,metadata={"help": "List of sequence lengths for which memory and time performance will be evaluated"} ,) lowerCAmelCase : bool = field( default=A_ ,metadata={"help": "Whether to benchmark inference of model. Inference can be disabled via --no-inference."} ,) lowerCAmelCase : bool = field( default=A_ ,metadata={"help": "Whether to run on available cuda devices. Cuda can be disabled via --no-cuda."} ,) lowerCAmelCase : bool = field( default=A_ ,metadata={"help": "Whether to run on available tpu devices. TPU can be disabled via --no-tpu."} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Use FP16 to accelerate inference."} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Benchmark training of model"} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Verbose memory tracing"} ) lowerCAmelCase : bool = field( default=A_ ,metadata={"help": "Whether to perform speed measurements. Speed measurements can be disabled via --no-speed."} ,) lowerCAmelCase : bool = field( default=A_ ,metadata={ "help": "Whether to perform memory measurements. Memory measurements can be disabled via --no-memory" } ,) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Trace memory line by line"} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Save result to a CSV file"} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Save all print statements in a log file"} ) lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Whether to print environment information"} ) lowerCAmelCase : bool = field( default=A_ ,metadata={ "help": ( "Whether to use multiprocessing for memory and speed measurement. It is highly recommended to use" " multiprocessing for accurate CPU and GPU memory measurements. This option should only be disabled" " for debugging / testing and on TPU." ) } ,) lowerCAmelCase : str = field( default=F"inference_time_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving time results to csv."} ,) lowerCAmelCase : str = field( default=F"inference_memory_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving memory results to csv."} ,) lowerCAmelCase : str = field( default=F"train_time_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving time results to csv for training."} ,) lowerCAmelCase : str = field( default=F"train_memory_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving memory results to csv for training."} ,) lowerCAmelCase : str = field( default=F"env_info_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving environment information."} ,) lowerCAmelCase : str = field( default=F"log_{round(time() )}.csv" ,metadata={"help": "Log filename used if print statements are saved in log."} ,) lowerCAmelCase : int = field(default=3 ,metadata={"help": "Times an experiment will be run."} ) lowerCAmelCase : bool = field( default=A_ ,metadata={ "help": ( "Instead of loading the model as defined in `config.architectures` if exists, just load the pretrain" " model weights." ) } ,) def UpperCAmelCase ( self : Dict ) -> int: """simple docstring""" warnings.warn( f"""The class {self.__class__} is deprecated. Hugging Face Benchmarking utils""" ''' are deprecated in general and it is advised to use external Benchmarking libraries ''' ''' to benchmark Transformer models.''' ,_snake_case ,) def UpperCAmelCase ( self : Dict ) -> str: """simple docstring""" return json.dumps(dataclasses.asdict(self ) ,indent=2 ) @property def UpperCAmelCase ( self : int ) -> List[str]: """simple docstring""" if len(self.models ) <= 0: raise ValueError( '''Please make sure you provide at least one model name / model identifier, *e.g.* `--models''' ''' bert-base-cased` or `args.models = [\'bert-base-cased\'].''' ) return self.models @property def UpperCAmelCase ( self : Optional[int] ) -> str: """simple docstring""" if not self.multi_process: return False elif self.is_tpu: logger.info('''Multiprocessing is currently not possible on TPU.''' ) return False else: return True

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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = {'''configuration_reformer''': ['''REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ReformerConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ReformerAttention''', '''ReformerForMaskedLM''', '''ReformerForQuestionAnswering''', '''ReformerForSequenceClassification''', '''ReformerLayer''', '''ReformerModel''', '''ReformerModelWithLMHead''', '''ReformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_reformer import REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, ReformerConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer import ReformerTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer_fast import ReformerTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_reformer import ( REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, ReformerAttention, ReformerForMaskedLM, ReformerForQuestionAnswering, ReformerForSequenceClassification, ReformerLayer, ReformerModel, ReformerModelWithLMHead, ReformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" from typing import TYPE_CHECKING from ..utils import _LazyModule _a = { 'config': [ 'EXTERNAL_DATA_FORMAT_SIZE_LIMIT', 'OnnxConfig', 'OnnxConfigWithPast', 'OnnxSeq2SeqConfigWithPast', 'PatchingSpec', ], 'convert': ['export', 'validate_model_outputs'], 'features': ['FeaturesManager'], 'utils': ['ParameterFormat', 'compute_serialized_parameters_size'], } if TYPE_CHECKING: from .config import ( EXTERNAL_DATA_FORMAT_SIZE_LIMIT, OnnxConfig, OnnxConfigWithPast, OnnxSeqaSeqConfigWithPast, PatchingSpec, ) from .convert import export, validate_model_outputs from .features import FeaturesManager from .utils import ParameterFormat, compute_serialized_parameters_size else: import sys _a = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)

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"""simple docstring""" from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available lowerCAmelCase__ = { '''configuration_autoformer''': [ '''AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''AutoformerConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''AutoformerForPrediction''', '''AutoformerModel''', '''AutoformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_autoformer import ( AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, AutoformerConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_autoformer import ( AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, AutoformerForPrediction, AutoformerModel, AutoformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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import numpy as np from cva import destroyAllWindows, imread, imshow, waitKey class a__ : def __init__( self : Union[str, Any],_A : Tuple,_A : int,_A : int ): """simple docstring""" if dst_width < 0 or dst_height < 0: raise ValueError("Destination width/height should be > 0" ) SCREAMING_SNAKE_CASE_ : Optional[Any] = img SCREAMING_SNAKE_CASE_ : Union[str, Any] = img.shape[1] SCREAMING_SNAKE_CASE_ : Tuple = img.shape[0] SCREAMING_SNAKE_CASE_ : Optional[Any] = dst_width SCREAMING_SNAKE_CASE_ : Optional[int] = dst_height SCREAMING_SNAKE_CASE_ : Dict = self.src_w / self.dst_w SCREAMING_SNAKE_CASE_ : str = self.src_h / self.dst_h SCREAMING_SNAKE_CASE_ : Dict = ( np.ones((self.dst_h, self.dst_w, 3),np.uinta ) * 255 ) def __UpperCamelCase ( self : Optional[int] ): """simple docstring""" for i in range(self.dst_h ): for j in range(self.dst_w ): SCREAMING_SNAKE_CASE_ : List[str] = self.img[self.get_y(_A )][self.get_x(_A )] def __UpperCamelCase ( self : str,_A : int ): """simple docstring""" return int(self.ratio_x * x ) def __UpperCamelCase ( self : Tuple,_A : int ): """simple docstring""" return int(self.ratio_y * y ) if __name__ == "__main__": __lowerCamelCase , __lowerCamelCase : Dict = 8_00, 6_00 __lowerCamelCase : Dict = imread('''image_data/lena.jpg''', 1) __lowerCamelCase : Any = NearestNeighbour(im, dst_w, dst_h) n.process() imshow( f'''Image resized from: {im.shape[1]}x{im.shape[0]} to {dst_w}x{dst_h}''', n.output ) waitKey(0) destroyAllWindows()

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"""simple docstring""" import math def snake_case_ ( A_ : int ): '''simple docstring''' if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5, int(math.sqrt(A_ ) + 1 ), 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def snake_case_ ( A_ : float = 0.1 ): '''simple docstring''' _lowerCamelCase : Optional[int] = 3 _lowerCamelCase : List[str] = 3 while primes / (2 * j - 1) >= ratio: for i in range(j * j + j + 1, (j + 2) * (j + 2), j + 1 ): primes += is_prime(A_ ) j += 2 return j if __name__ == "__main__": import doctest doctest.testmod()

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import argparse import torch from transformers import BlenderbotConfig, BlenderbotForConditionalGeneration from transformers.utils import logging logging.set_verbosity_info() __A =logging.get_logger(__name__) __A =[ ['''attention''', '''attn'''], ['''encoder_attention''', '''encoder_attn'''], ['''q_lin''', '''q_proj'''], ['''k_lin''', '''k_proj'''], ['''v_lin''', '''v_proj'''], ['''out_lin''', '''out_proj'''], ['''norm_embeddings''', '''layernorm_embedding'''], ['''position_embeddings''', '''embed_positions'''], ['''embeddings''', '''embed_tokens'''], ['''ffn.lin''', '''fc'''], ] def lowerCamelCase_ ( lowerCamelCase__ ): if k == "embeddings.weight": return "shared.weight" for parlai_name, hf_name in PATTERNS: lowerCamelCase_ = k.replace(lowerCamelCase__ , lowerCamelCase__ ) if k.startswith("encoder" ): lowerCamelCase_ = k.replace(".attn" , ".self_attn" ) lowerCamelCase_ = k.replace("norm1" , "self_attn_layer_norm" ) lowerCamelCase_ = k.replace("norm2" , "final_layer_norm" ) elif k.startswith("decoder" ): lowerCamelCase_ = k.replace("norm1" , "self_attn_layer_norm" ) lowerCamelCase_ = k.replace("norm2" , "encoder_attn_layer_norm" ) lowerCamelCase_ = k.replace("norm3" , "final_layer_norm" ) return k def lowerCamelCase_ ( lowerCamelCase__ ): lowerCamelCase_ = [ "model.encoder.layernorm_embedding.weight", "model.encoder.layernorm_embedding.bias", "model.decoder.layernorm_embedding.weight", "model.decoder.layernorm_embedding.bias", ] for k in keys: lowerCamelCase_ = sd.pop(lowerCamelCase__ ) lowerCamelCase_ = k.replace("layernorm_embedding" , "layer_norm" ) assert new_k not in sd lowerCamelCase_ = v __A =['''START'''] @torch.no_grad() def lowerCamelCase_ ( lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ ): lowerCamelCase_ = torch.load(lowerCamelCase__ , map_location="cpu" ) lowerCamelCase_ = model["model"] lowerCamelCase_ = BlenderbotConfig.from_json_file(lowerCamelCase__ ) lowerCamelCase_ = BlenderbotForConditionalGeneration(lowerCamelCase__ ) lowerCamelCase_ = m.model.state_dict().keys() lowerCamelCase_ = [] lowerCamelCase_ = {} for k, v in sd.items(): if k in IGNORE_KEYS: continue lowerCamelCase_ = rename_state_dict_key(lowerCamelCase__ ) if new_k not in valid_keys: failures.append([k, new_k] ) else: lowerCamelCase_ = v if cfg.normalize_before: # Blenderbot-3B checkpoints. Rename layernorm_embedding -> layer_norm rename_layernorm_keys(lowerCamelCase__ ) m.model.load_state_dict(lowerCamelCase__ , strict=lowerCamelCase__ ) m.half() m.save_pretrained(lowerCamelCase__ ) if __name__ == "__main__": __A =argparse.ArgumentParser() # Required parameters parser.add_argument('''--src_path''', type=str, help='''like blenderbot-model.bin''') parser.add_argument('''--save_dir''', default='''hf_blenderbot''', type=str, help='''Where to save converted model.''') parser.add_argument( '''--hf_config_json''', default='''blenderbot-3b-config.json''', type=str, help='''Path to config to use''' ) __A =parser.parse_args() convert_parlai_checkpoint(args.src_path, args.save_dir, args.hf_config_json)

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"""simple docstring""" import unittest from queue import Empty from threading import Thread from transformers import AutoTokenizer, TextIteratorStreamer, TextStreamer, is_torch_available from transformers.testing_utils import CaptureStdout, require_torch, torch_device from ..test_modeling_common import ids_tensor if is_torch_available(): import torch from transformers import AutoModelForCausalLM @require_torch class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Optional[Any] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Union[str, Any] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = tokenizer.decode(greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Union[str, Any] = TextStreamer(__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : int = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Optional[int] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : List[str] = tokenizer.decode(greedy_ids[0] ) _lowerCamelCase : Tuple = TextIteratorStreamer(__lowerCAmelCase ) _lowerCamelCase : Tuple = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() _lowerCamelCase : int = '''''' for new_text in streamer: streamer_text += new_text self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Dict = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : str = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : Optional[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : int = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = greedy_ids[:, input_ids.shape[1] :] _lowerCamelCase : int = tokenizer.decode(new_greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Any = TextStreamer(__lowerCAmelCase , skip_prompt=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : Union[str, Any] = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''distilgpt2''' ) _lowerCamelCase : Optional[Any] = AutoModelForCausalLM.from_pretrained('''distilgpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = -1 _lowerCamelCase : Any = torch.ones((1, 5) , device=__lowerCAmelCase ).long() * model.config.bos_token_id with CaptureStdout() as cs: _lowerCamelCase : List[Any] = TextStreamer(__lowerCAmelCase , skip_special_tokens=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The prompt contains a special token, so the streamer should not print it. As such, the output text, when # re-tokenized, must only contain one token _lowerCamelCase : Any = cs.out[:-1] # Remove the final "\n" _lowerCamelCase : int = tokenizer(__lowerCAmelCase , return_tensors='''pt''' ) self.assertEqual(streamer_text_tokenized.input_ids.shape , (1, 1) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : List[str] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Dict = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = -1 _lowerCamelCase : Any = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = TextIteratorStreamer(__lowerCAmelCase , timeout=0.0_01 ) _lowerCamelCase : str = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() # The streamer will timeout after 0.001 seconds, so an exception will be raised with self.assertRaises(__lowerCAmelCase ): _lowerCamelCase : Optional[Any] = '''''' for new_text in streamer: streamer_text += new_text

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from arguments import InitializationArguments from transformers import AutoConfig, AutoModelForCausalLM, AutoTokenizer, HfArgumentParser # Configuration lowercase : str = HfArgumentParser(InitializationArguments) lowercase : int = parser.parse_args() # Load codeparrot tokenizer trained for Python code tokenization lowercase : Optional[int] = AutoTokenizer.from_pretrained(args.tokenizer_name) # Config: "scale_attn_by_layer_idx" and "reorder_and_upcast_attn" are Mistral stability tweaks lowercase : Optional[Any] = { """vocab_size""": len(tokenizer), """scale_attn_by_inverse_layer_idx""": True, """reorder_and_upcast_attn""": True, } # Load model config (GPT-2 large in this case) lowercase : str = AutoConfig.from_pretrained(args.config_name, **config_kwargs) # Initialize new model with config lowercase : Union[str, Any] = AutoModelForCausalLM.from_config(config) # Save model to the hub model.save_pretrained(args.model_name, push_to_hub=args.push_to_hub)

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"""simple docstring""" from ....configuration_utils import PretrainedConfig from ....utils import logging lowerCAmelCase__ = logging.get_logger(__name__) # TODO: upload to AWS lowerCAmelCase__ = { '''yjernite/retribert-base-uncased''': ( '''https://huggingface.co/yjernite/retribert-base-uncased/resolve/main/config.json''' ), } class __snake_case ( _lowercase): snake_case__ : int = "retribert" def __init__( self : Optional[int] , __lowerCAmelCase : str=3_0_5_2_2 , __lowerCAmelCase : Tuple=7_6_8 , __lowerCAmelCase : Union[str, Any]=8 , __lowerCAmelCase : Any=1_2 , __lowerCAmelCase : Optional[int]=3_0_7_2 , __lowerCAmelCase : List[str]="gelu" , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=5_1_2 , __lowerCAmelCase : List[str]=2 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Optional[Any]=1E-12 , __lowerCAmelCase : Tuple=True , __lowerCAmelCase : Any=1_2_8 , __lowerCAmelCase : Optional[int]=0 , **__lowerCAmelCase : str , ): """simple docstring""" super().__init__(pad_token_id=__lowerCAmelCase , **__lowerCAmelCase ) _lowerCamelCase : Dict = vocab_size _lowerCamelCase : Union[str, Any] = hidden_size _lowerCamelCase : Dict = num_hidden_layers _lowerCamelCase : int = num_attention_heads _lowerCamelCase : int = hidden_act _lowerCamelCase : str = intermediate_size _lowerCamelCase : Union[str, Any] = hidden_dropout_prob _lowerCamelCase : List[Any] = attention_probs_dropout_prob _lowerCamelCase : Optional[int] = max_position_embeddings _lowerCamelCase : List[Any] = type_vocab_size _lowerCamelCase : Any = initializer_range _lowerCamelCase : Optional[int] = layer_norm_eps _lowerCamelCase : int = share_encoders _lowerCamelCase : Optional[Any] = projection_dim

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import warnings from typing import List, Optional, Union from ...image_utils import ImageInput from ...processing_utils import ProcessorMixin from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy from ...utils import TensorType class _lowerCamelCase( _a ): lowercase_ : Dict = ["""image_processor""", """tokenizer"""] lowercase_ : Optional[Any] = """FlavaImageProcessor""" lowercase_ : List[str] = ("""BertTokenizer""", """BertTokenizerFast""") def __init__( self, lowerCamelCase=None, lowerCamelCase=None, **lowerCamelCase) -> List[str]: """simple docstring""" _lowercase : Dict = None if "feature_extractor" in kwargs: warnings.warn( 'The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`' ' instead.', lowerCamelCase, ) _lowercase : List[Any] = kwargs.pop('feature_extractor') _lowercase : List[Any] = image_processor if image_processor is not None else feature_extractor if image_processor is None: raise ValueError('You need to specify an `image_processor`.') if tokenizer is None: raise ValueError('You need to specify a `tokenizer`.') super().__init__(lowerCamelCase, lowerCamelCase) _lowercase : int = self.image_processor def __call__( self, lowerCamelCase = None, lowerCamelCase = None, lowerCamelCase = True, lowerCamelCase = False, lowerCamelCase = False, lowerCamelCase = None, lowerCamelCase = 0, lowerCamelCase = None, lowerCamelCase = None, lowerCamelCase = None, lowerCamelCase = None, lowerCamelCase = None, lowerCamelCase = False, lowerCamelCase = False, lowerCamelCase = False, lowerCamelCase = False, lowerCamelCase = True, lowerCamelCase = None, **lowerCamelCase, ) -> Dict: """simple docstring""" if text is None and images is None: raise ValueError('You have to specify either text or images. Both cannot be none.') if text is not None: _lowercase : Optional[int] = self.tokenizer( text=lowerCamelCase, add_special_tokens=lowerCamelCase, padding=lowerCamelCase, truncation=lowerCamelCase, max_length=lowerCamelCase, stride=lowerCamelCase, pad_to_multiple_of=lowerCamelCase, return_token_type_ids=lowerCamelCase, return_attention_mask=lowerCamelCase, return_overflowing_tokens=lowerCamelCase, return_special_tokens_mask=lowerCamelCase, return_offsets_mapping=lowerCamelCase, return_length=lowerCamelCase, verbose=lowerCamelCase, return_tensors=lowerCamelCase, **lowerCamelCase, ) if images is not None: _lowercase : str = self.image_processor( lowerCamelCase, return_image_mask=lowerCamelCase, return_codebook_pixels=lowerCamelCase, return_tensors=lowerCamelCase, **lowerCamelCase, ) if text is not None and images is not None: encoding.update(lowerCamelCase) return encoding elif text is not None: return encoding else: return BatchEncoding(data=dict(**lowerCamelCase), tensor_type=lowerCamelCase) def UpperCamelCase ( self, *lowerCamelCase, **lowerCamelCase) -> str: """simple docstring""" return self.tokenizer.batch_decode(*lowerCamelCase, **lowerCamelCase) def UpperCamelCase ( self, *lowerCamelCase, **lowerCamelCase) -> List[str]: """simple docstring""" return self.tokenizer.decode(*lowerCamelCase, **lowerCamelCase) @property def UpperCamelCase ( self) -> Optional[Any]: """simple docstring""" _lowercase : Dict = self.tokenizer.model_input_names _lowercase : List[str] = self.image_processor.model_input_names return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names)) @property def UpperCamelCase ( self) -> Optional[int]: """simple docstring""" warnings.warn( '`feature_extractor_class` is deprecated and will be removed in v5. Use `image_processor_class` instead.', lowerCamelCase, ) return self.image_processor_class @property def UpperCamelCase ( self) -> int: """simple docstring""" warnings.warn( '`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.', lowerCamelCase, ) return self.image_processor

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"""simple docstring""" import unittest from diffusers.pipelines.pipeline_utils import is_safetensors_compatible class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : Optional[int] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', # Removed: 'unet/diffusion_pytorch_model.safetensors', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', # Removed: 'text_encoder/model.safetensors', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Optional[int] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" _lowerCamelCase : str = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] _lowerCamelCase : Optional[Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : Tuple = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', # Removed: 'unet/diffusion_pytorch_model.fp16.safetensors', ] _lowerCamelCase : Any = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', ] _lowerCamelCase : str = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', # 'text_encoder/model.fp16.safetensors', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : int = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) )

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'''simple docstring''' import argparse import json import re from pathlib import Path import requests import torch from huggingface_hub import hf_hub_download from PIL import Image from transformers import ( MobileNetVaConfig, MobileNetVaForImageClassification, MobileNetVaImageProcessor, load_tf_weights_in_mobilenet_va, ) from transformers.utils import logging logging.set_verbosity_info() __SCREAMING_SNAKE_CASE :Any = logging.get_logger(__name__) def UpperCAmelCase_ ( __lowercase : Union[str, Any] ) -> Any: '''simple docstring''' _UpperCAmelCase = MobileNetVaConfig(layer_norm_eps=0.001 ) if "_quant" in model_name: raise ValueError("Quantized models are not supported." ) _UpperCAmelCase = re.match(r"^mobilenet_v1_([^_]*)_([^_]*)$" , __lowercase ) if matches: _UpperCAmelCase = float(matches[1] ) _UpperCAmelCase = int(matches[2] ) # The TensorFlow version of MobileNetV1 predicts 1001 classes instead of # the usual 1000. The first class (index 0) is "background". _UpperCAmelCase = 1001 _UpperCAmelCase = "imagenet-1k-id2label.json" _UpperCAmelCase = "huggingface/label-files" _UpperCAmelCase = json.load(open(hf_hub_download(__lowercase , __lowercase , repo_type="dataset" ) , "r" ) ) _UpperCAmelCase = {int(__lowercase ) + 1: v for k, v in idalabel.items()} _UpperCAmelCase = "background" _UpperCAmelCase = idalabel _UpperCAmelCase = {v: k for k, v in idalabel.items()} return config def UpperCAmelCase_ ( ) -> Optional[Any]: '''simple docstring''' _UpperCAmelCase = "http://images.cocodataset.org/val2017/000000039769.jpg" _UpperCAmelCase = Image.open(requests.get(__lowercase , stream=__lowercase ).raw ) return im @torch.no_grad() def UpperCAmelCase_ ( __lowercase : Dict , __lowercase : Optional[int] , __lowercase : int , __lowercase : Optional[Any]=False ) -> List[str]: '''simple docstring''' _UpperCAmelCase = get_mobilenet_va_config(__lowercase ) # Load 🤗 model _UpperCAmelCase = MobileNetVaForImageClassification(__lowercase ).eval() # Load weights from TensorFlow checkpoint load_tf_weights_in_mobilenet_va(__lowercase , __lowercase , __lowercase ) # Check outputs on an image, prepared by MobileNetV1ImageProcessor _UpperCAmelCase = MobileNetVaImageProcessor( crop_size={"width": config.image_size, "height": config.image_size} , size={"shortest_edge": config.image_size + 32} , ) _UpperCAmelCase = image_processor(images=prepare_img() , return_tensors="pt" ) _UpperCAmelCase = model(**__lowercase ) _UpperCAmelCase = outputs.logits assert logits.shape == (1, 1001) if model_name == "mobilenet_v1_1.0_224": _UpperCAmelCase = torch.tensor([-4.1739, -1.1233, 3.1205] ) elif model_name == "mobilenet_v1_0.75_192": _UpperCAmelCase = torch.tensor([-3.9440, -2.3141, -0.3333] ) else: _UpperCAmelCase = None if expected_logits is not None: assert torch.allclose(logits[0, :3] , __lowercase , atol=1E-4 ) Path(__lowercase ).mkdir(exist_ok=__lowercase ) print(f'Saving model {model_name} to {pytorch_dump_folder_path}' ) model.save_pretrained(__lowercase ) print(f'Saving image processor to {pytorch_dump_folder_path}' ) image_processor.save_pretrained(__lowercase ) if push_to_hub: print("Pushing to the hub..." ) _UpperCAmelCase = "google/" + model_name image_processor.push_to_hub(__lowercase ) model.push_to_hub(__lowercase ) if __name__ == "__main__": __SCREAMING_SNAKE_CASE :Dict = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--model_name''', default='''mobilenet_v1_1.0_224''', type=str, help='''Name of the MobileNetV1 model you\'d like to convert. Should in the form \'mobilenet_v1_<depth>_<size>\'.''', ) parser.add_argument( '''--checkpoint_path''', required=True, type=str, help='''Path to the original TensorFlow checkpoint (.ckpt file).''' ) parser.add_argument( '''--pytorch_dump_folder_path''', required=True, type=str, help='''Path to the output PyTorch model directory.''' ) parser.add_argument( '''--push_to_hub''', action='''store_true''', help='''Whether or not to push the converted model to the 🤗 hub.''' ) __SCREAMING_SNAKE_CASE :List[str] = parser.parse_args() convert_movilevit_checkpoint( args.model_name, args.checkpoint_path, args.pytorch_dump_folder_path, args.push_to_hub )

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"""simple docstring""" import inspect import unittest import numpy as np from tests.test_modeling_common import floats_tensor from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel if is_vision_available(): from transformers import MaskFormerImageProcessor if is_vision_available(): from PIL import Image class __snake_case : def __init__( self : Tuple , __lowerCAmelCase : Tuple , __lowerCAmelCase : Any=2 , __lowerCAmelCase : Any=True , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Optional[Any]=1_0 , __lowerCAmelCase : List[str]=3 , __lowerCAmelCase : int=3_2 * 4 , __lowerCAmelCase : Dict=3_2 * 6 , __lowerCAmelCase : Any=4 , __lowerCAmelCase : List[str]=3_2 , ): """simple docstring""" _lowerCamelCase : List[str] = parent _lowerCamelCase : str = batch_size _lowerCamelCase : Dict = is_training _lowerCamelCase : str = use_auxiliary_loss _lowerCamelCase : Any = num_queries _lowerCamelCase : List[Any] = num_channels _lowerCamelCase : int = min_size _lowerCamelCase : Any = max_size _lowerCamelCase : int = num_labels _lowerCamelCase : List[str] = mask_feature_size def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size] ).to( __lowerCAmelCase ) _lowerCamelCase : List[Any] = torch.ones([self.batch_size, self.min_size, self.max_size] , device=__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = ( torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=__lowerCAmelCase ) > 0.5 ).float() _lowerCamelCase : Optional[int] = (torch.rand((self.batch_size, self.num_labels) , device=__lowerCAmelCase ) > 0.5).long() _lowerCamelCase : Dict = self.get_config() return config, pixel_values, pixel_mask, mask_labels, class_labels def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" return MaskFormerConfig.from_backbone_and_decoder_configs( backbone_config=SwinConfig( depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig( decoder_ffn_dim=1_2_8 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : Dict = self.prepare_config_and_inputs() _lowerCamelCase : List[str] = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask} return config, inputs_dict def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = output.encoder_hidden_states _lowerCamelCase : Tuple = output.pixel_decoder_hidden_states _lowerCamelCase : Dict = output.transformer_decoder_hidden_states self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , config.decoder_config.decoder_layers ) def SCREAMING_SNAKE_CASE ( self : Tuple , __lowerCAmelCase : Dict , __lowerCAmelCase : str , __lowerCAmelCase : Tuple , __lowerCAmelCase : List[Any]=False ): """simple docstring""" with torch.no_grad(): _lowerCamelCase : Optional[int] = MaskFormerModel(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() _lowerCamelCase : Tuple = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) # the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the # encoder and pixel decoder self.parent.assertEqual( output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , ) # let's ensure the other two hidden state exists self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(output.encoder_last_hidden_state is not None ) if output_hidden_states: self.check_output_hidden_state(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = MaskFormerForInstanceSegmentation(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() def comm_check_on_output(__lowerCAmelCase : Dict ): # let's still check that all the required stuff is there self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.encoder_last_hidden_state is not None ) # okay, now we need to check the logits shape # due to the encoder compression, masks have a //4 spatial size self.parent.assertEqual( result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , ) # + 1 for null class self.parent.assertEqual( result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1) ) with torch.no_grad(): _lowerCamelCase : str = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) _lowerCamelCase : List[str] = model( pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) self.parent.assertTrue(result.loss is not None ) self.parent.assertEqual(result.loss.shape , torch.Size([1] ) ) @require_torch class __snake_case ( _lowercase , _lowercase , unittest.TestCase): snake_case__ : Dict = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else () snake_case__ : Any = ( {"feature-extraction": MaskFormerModel, "image-segmentation": MaskFormerForInstanceSegmentation} if is_torch_available() else {} ) snake_case__ : List[str] = False snake_case__ : List[str] = False snake_case__ : Optional[int] = False snake_case__ : Dict = False def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = MaskFormerModelTester(self ) _lowerCamelCase : Optional[Any] = ConfigTester(self , config_class=__lowerCAmelCase , has_text_modality=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Dict = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , **__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(*__lowerCAmelCase ) @unittest.skip(reason='''MaskFormer does not use inputs_embeds''' ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''' ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer is not a generative model''' ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not use token embeddings''' ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" pass @require_torch_multi_gpu @unittest.skip( reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''' ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" pass @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : str = model_class(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCamelCase : Dict = [*signature.parameters.keys()] _lowerCamelCase : Optional[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __lowerCAmelCase ) @slow def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" for model_name in ["facebook/maskformer-swin-small-coco"]: _lowerCamelCase : Union[str, Any] = MaskFormerModel.from_pretrained(__lowerCAmelCase ) self.assertIsNotNone(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = (self.model_tester.min_size,) * 2 _lowerCamelCase : Union[str, Any] = { '''pixel_values''': torch.randn((2, 3, *size) , device=__lowerCAmelCase ), '''mask_labels''': torch.randn((2, 1_0, *size) , device=__lowerCAmelCase ), '''class_labels''': torch.zeros(2 , 1_0 , device=__lowerCAmelCase ).long(), } _lowerCamelCase : int = MaskFormerForInstanceSegmentation(MaskFormerConfig() ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : List[str] = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , **__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : List[Any] = model_class(__lowerCAmelCase ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = model(**__lowerCAmelCase , output_attentions=__lowerCAmelCase ) self.assertTrue(outputs.attentions is not None ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" if not self.model_tester.is_training: return # only MaskFormerForInstanceSegmentation has the loss _lowerCamelCase : Union[str, Any] = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : int = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : Any = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : List[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ).loss loss.backward() def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : int = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : str = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : List[str] = True _lowerCamelCase : Optional[int] = True _lowerCamelCase : Optional[Any] = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) _lowerCamelCase : List[Any] = outputs.encoder_hidden_states[0] encoder_hidden_states.retain_grad() _lowerCamelCase : Tuple = outputs.pixel_decoder_hidden_states[0] pixel_decoder_hidden_states.retain_grad() # we requires_grad=True in inputs_embeds (line 2152), the original implementation don't _lowerCamelCase : List[str] = outputs.transformer_decoder_hidden_states[0] transformer_decoder_hidden_states.retain_grad() _lowerCamelCase : Optional[int] = outputs.attentions[0] attentions.retain_grad() outputs.loss.backward(retain_graph=__lowerCAmelCase ) self.assertIsNotNone(encoder_hidden_states.grad ) self.assertIsNotNone(pixel_decoder_hidden_states.grad ) self.assertIsNotNone(transformer_decoder_hidden_states.grad ) self.assertIsNotNone(attentions.grad ) lowerCAmelCase__ = 1E-4 def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_vision @slow class __snake_case ( unittest.TestCase): @cached_property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return ( MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''' ) if is_vision_available() else None ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : str = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = self.default_image_processor _lowerCamelCase : List[Any] = prepare_img() _lowerCamelCase : Any = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : int = model(**__lowerCAmelCase ) _lowerCamelCase : str = torch.tensor( [[-0.04_82, 0.92_28, 0.49_51], [-0.25_47, 0.80_17, 0.85_27], [-0.00_69, 0.33_85, -0.00_89]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.encoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Union[str, Any] = torch.tensor( [[-0.84_22, -0.84_34, -0.97_18], [-1.01_44, -0.55_65, -0.41_95], [-1.00_38, -0.44_84, -0.19_61]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Optional[int] = torch.tensor( [[0.28_52, -0.01_59, 0.97_35], [0.62_54, 0.18_58, 0.85_29], [-0.06_80, -0.41_16, 1.84_13]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.transformer_decoder_last_hidden_state[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[int] = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : str = prepare_img() _lowerCamelCase : int = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[int] = model(**__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : Optional[int] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : List[str] = [ [-1.3_73_71_24, -1.7_72_49_37, -1.9_36_42_33], [-1.5_97_72_81, -1.9_86_79_39, -2.1_52_36_95], [-1.5_79_53_98, -1.9_26_98_32, -2.09_39_42], ] _lowerCamelCase : Any = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : List[Any] = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : str = torch.tensor( [ [1.6512E00, -5.2572E00, -3.3519E00], [3.6169E-02, -5.9025E00, -2.9313E00], [1.0766E-04, -7.7630E00, -5.1263E00], ] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Any = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : Tuple = self.default_image_processor _lowerCamelCase : Tuple = prepare_img() _lowerCamelCase : Optional[Any] = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[Any] = model(**__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : List[Any] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : int = [[-0.90_46, -2.63_66, -4.60_62], [-3.41_79, -5.78_90, -8.80_57], [-4.91_79, -7.65_60, -10.77_11]] _lowerCamelCase : List[Any] = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : Dict = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : Any = torch.tensor( [[4.71_88, -3.25_85, -2.88_57], [6.68_71, -2.91_81, -1.24_87], [7.24_49, -2.27_64, -2.18_74]] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : List[str] = image_processor( [np.zeros((3, 8_0_0, 1_3_3_3) ), np.zeros((3, 8_0_0, 1_3_3_3) )] , segmentation_maps=[np.zeros((3_8_4, 3_8_4) ).astype(np.floataa ), np.zeros((3_8_4, 3_8_4) ).astype(np.floataa )] , return_tensors='''pt''' , ) _lowerCamelCase : Union[str, Any] = inputs['''pixel_values'''].to(__lowerCAmelCase ) _lowerCamelCase : Dict = [el.to(__lowerCAmelCase ) for el in inputs['''mask_labels''']] _lowerCamelCase : Optional[Any] = [el.to(__lowerCAmelCase ) for el in inputs['''class_labels''']] with torch.no_grad(): _lowerCamelCase : Tuple = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None )

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'''simple docstring''' import torch from transformers import CamembertForMaskedLM, CamembertTokenizer def snake_case_ ( _lowerCAmelCase : Dict , _lowerCAmelCase : Optional[Any] , _lowerCAmelCase : Tuple , _lowerCAmelCase : str=5 ) -> Any: # Adapted from https://github.com/pytorch/fairseq/blob/master/fairseq/models/roberta/hub_interface.py assert masked_input.count('''<mask>''' ) == 1 UpperCAmelCase : Dict = torch.tensor(tokenizer.encode(_lowerCAmelCase , add_special_tokens=_lowerCAmelCase ) ).unsqueeze(0 ) # Batch size 1 UpperCAmelCase : List[str] = model(_lowerCAmelCase )[0] # The last hidden-state is the first element of the output tuple UpperCAmelCase : Tuple = (input_ids.squeeze() == tokenizer.mask_token_id).nonzero().item() UpperCAmelCase : int = logits[0, masked_index, :] UpperCAmelCase : str = logits.softmax(dim=0 ) UpperCAmelCase , UpperCAmelCase : str = prob.topk(k=_lowerCAmelCase , dim=0 ) UpperCAmelCase : str = ''' '''.join( [tokenizer.convert_ids_to_tokens(indices[i].item() ) for i in range(len(_lowerCAmelCase ) )] ) UpperCAmelCase : Any = tokenizer.mask_token UpperCAmelCase : Optional[int] = [] for index, predicted_token_bpe in enumerate(topk_predicted_token_bpe.split(''' ''' ) ): UpperCAmelCase : int = predicted_token_bpe.replace('''\u2581''' , ''' ''' ) if " {0}".format(_lowerCAmelCase ) in masked_input: topk_filled_outputs.append( ( masked_input.replace(''' {0}'''.format(_lowerCAmelCase ) , _lowerCAmelCase ), values[index].item(), predicted_token, ) ) else: topk_filled_outputs.append( ( masked_input.replace(_lowerCAmelCase , _lowerCAmelCase ), values[index].item(), predicted_token, ) ) return topk_filled_outputs UpperCamelCase__: Optional[int] = CamembertTokenizer.from_pretrained("camembert-base") UpperCamelCase__: List[Any] = CamembertForMaskedLM.from_pretrained("camembert-base") model.eval() UpperCamelCase__: int = "Le camembert est <mask> :)" print(fill_mask(masked_input, model, tokenizer, topk=3))

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"""simple docstring""" lowerCAmelCase__ = { '''A''': ['''B''', '''C''', '''E'''], '''B''': ['''A''', '''D''', '''E'''], '''C''': ['''A''', '''F''', '''G'''], '''D''': ['''B'''], '''E''': ['''A''', '''B''', '''D'''], '''F''': ['''C'''], '''G''': ['''C'''], } def snake_case_ ( A_ : dict, A_ : int, A_ : int ): '''simple docstring''' _lowerCamelCase : List[str] = set() # keep track of all the paths to be checked _lowerCamelCase : str = [[start]] # return path if start is goal if start == goal: return [start] # keeps looping until all possible paths have been checked while queue: # pop the first path from the queue _lowerCamelCase : str = queue.pop(0 ) # get the last node from the path _lowerCamelCase : List[Any] = path[-1] if node not in explored: _lowerCamelCase : Union[str, Any] = graph[node] # go through all neighbour nodes, construct a new path and # push it into the queue for neighbour in neighbours: _lowerCamelCase : Union[str, Any] = list(A_ ) new_path.append(A_ ) queue.append(A_ ) # return path if neighbour is goal if neighbour == goal: return new_path # mark node as explored explored.add(A_ ) # in case there's no path between the 2 nodes return [] def snake_case_ ( A_ : dict, A_ : int, A_ : Dict ): '''simple docstring''' if not graph or start not in graph or target not in graph: return -1 if start == target: return 0 _lowerCamelCase : Optional[int] = [start] _lowerCamelCase : int = set(A_ ) # Keep tab on distances from `start` node. _lowerCamelCase : int = {start: 0, target: -1} while queue: _lowerCamelCase : Optional[Any] = queue.pop(0 ) if node == target: _lowerCamelCase : Any = ( dist[node] if dist[target] == -1 else min(dist[target], dist[node] ) ) for adjacent in graph[node]: if adjacent not in visited: visited.add(A_ ) queue.append(A_ ) _lowerCamelCase : Any = dist[node] + 1 return dist[target] if __name__ == "__main__": print(bfs_shortest_path(demo_graph, '''G''', '''D''')) # returns ['G', 'C', 'A', 'B', 'D'] print(bfs_shortest_path_distance(demo_graph, '''G''', '''D''')) # returns 4

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import flax.linen as nn import jax import jax.numpy as jnp class SCREAMING_SNAKE_CASE__ ( nn.Module ): A_ : int A_ : jnp.dtype = jnp.floataa def a (self : str ): """simple docstring""" __snake_case = nn.Conv( self.out_channels , kernel_size=(3, 3) , strides=(1, 1) , padding=((1, 1), (1, 1)) , dtype=self.dtype , ) def __call__(self : Dict , a__ : Any ): """simple docstring""" __snake_case , __snake_case , __snake_case , __snake_case = hidden_states.shape __snake_case = jax.image.resize( a__ , shape=(batch, height * 2, width * 2, channels) , method='''nearest''' , ) __snake_case = self.conv(a__ ) return hidden_states class SCREAMING_SNAKE_CASE__ ( nn.Module ): A_ : int A_ : jnp.dtype = jnp.floataa def a (self : Dict ): """simple docstring""" __snake_case = nn.Conv( self.out_channels , kernel_size=(3, 3) , strides=(2, 2) , padding=((1, 1), (1, 1)) , dtype=self.dtype , ) def __call__(self : Dict , a__ : List[Any] ): """simple docstring""" __snake_case = self.conv(a__ ) return hidden_states class SCREAMING_SNAKE_CASE__ ( nn.Module ): A_ : int A_ : int = None A_ : float = 0.0 A_ : bool = None A_ : jnp.dtype = jnp.floataa def a (self : Union[str, Any] ): """simple docstring""" __snake_case = self.in_channels if self.out_channels is None else self.out_channels __snake_case = nn.GroupNorm(num_groups=32 , epsilon=1E-5 ) __snake_case = nn.Conv( a__ , kernel_size=(3, 3) , strides=(1, 1) , padding=((1, 1), (1, 1)) , dtype=self.dtype , ) __snake_case = nn.Dense(a__ , dtype=self.dtype ) __snake_case = nn.GroupNorm(num_groups=32 , epsilon=1E-5 ) __snake_case = nn.Dropout(self.dropout_prob ) __snake_case = nn.Conv( a__ , kernel_size=(3, 3) , strides=(1, 1) , padding=((1, 1), (1, 1)) , dtype=self.dtype , ) __snake_case = self.in_channels != out_channels if self.use_nin_shortcut is None else self.use_nin_shortcut __snake_case = None if use_nin_shortcut: __snake_case = nn.Conv( a__ , kernel_size=(1, 1) , strides=(1, 1) , padding='''VALID''' , dtype=self.dtype , ) def __call__(self : Optional[Any] , a__ : int , a__ : List[Any] , a__ : str=True ): """simple docstring""" __snake_case = hidden_states __snake_case = self.norma(a__ ) __snake_case = nn.swish(a__ ) __snake_case = self.conva(a__ ) __snake_case = self.time_emb_proj(nn.swish(a__ ) ) __snake_case = jnp.expand_dims(jnp.expand_dims(a__ , 1 ) , 1 ) __snake_case = hidden_states + temb __snake_case = self.norma(a__ ) __snake_case = nn.swish(a__ ) __snake_case = self.dropout(a__ , a__ ) __snake_case = self.conva(a__ ) if self.conv_shortcut is not None: __snake_case = self.conv_shortcut(a__ ) return hidden_states + residual

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"""simple docstring""" import argparse import torch from transformers import LxmertConfig, LxmertForPreTraining, load_tf_weights_in_lxmert from transformers.utils import logging logging.set_verbosity_info() def snake_case_ ( A_ : Tuple, A_ : int, A_ : Dict ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = LxmertConfig.from_json_file(A_ ) print(F'''Building PyTorch model from configuration: {config}''' ) _lowerCamelCase : List[str] = LxmertForPreTraining(A_ ) # Load weights from tf checkpoint load_tf_weights_in_lxmert(A_, A_, A_ ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) torch.save(model.state_dict(), A_ ) if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained model. \nThis specifies the model architecture.''', ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) lowerCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)

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"""simple docstring""" from typing import Dict, Optional import numpy as np import datasets UpperCAmelCase__ : int = '\nIoU is the area of overlap between the predicted segmentation and the ground truth divided by the area of union\nbetween the predicted segmentation and the ground truth. For binary (two classes) or multi-class segmentation,\nthe mean IoU of the image is calculated by taking the IoU of each class and averaging them.\n' UpperCAmelCase__ : List[str] = '\nArgs:\n predictions (`List[ndarray]`):\n List of predicted segmentation maps, each of shape (height, width). Each segmentation map can be of a different size.\n references (`List[ndarray]`):\n List of ground truth segmentation maps, each of shape (height, width). Each segmentation map can be of a different size.\n num_labels (`int`):\n Number of classes (categories).\n ignore_index (`int`):\n Index that will be ignored during evaluation.\n nan_to_num (`int`, *optional*):\n If specified, NaN values will be replaced by the number defined by the user.\n label_map (`dict`, *optional*):\n If specified, dictionary mapping old label indices to new label indices.\n reduce_labels (`bool`, *optional*, defaults to `False`):\n Whether or not to reduce all label values of segmentation maps by 1. Usually used for datasets where 0 is used for background,\n and background itself is not included in all classes of a dataset (e.g. ADE20k). The background label will be replaced by 255.\n\nReturns:\n `Dict[str, float | ndarray]` comprising various elements:\n - *mean_iou* (`float`):\n Mean Intersection-over-Union (IoU averaged over all categories).\n - *mean_accuracy* (`float`):\n Mean accuracy (averaged over all categories).\n - *overall_accuracy* (`float`):\n Overall accuracy on all images.\n - *per_category_accuracy* (`ndarray` of shape `(num_labels,)`):\n Per category accuracy.\n - *per_category_iou* (`ndarray` of shape `(num_labels,)`):\n Per category IoU.\n\nExamples:\n\n >>> import numpy as np\n\n >>> mean_iou = datasets.load_metric("mean_iou")\n\n >>> # suppose one has 3 different segmentation maps predicted\n >>> predicted_1 = np.array([[1, 2], [3, 4], [5, 255]])\n >>> actual_1 = np.array([[0, 3], [5, 4], [6, 255]])\n\n >>> predicted_2 = np.array([[2, 7], [9, 2], [3, 6]])\n >>> actual_2 = np.array([[1, 7], [9, 2], [3, 6]])\n\n >>> predicted_3 = np.array([[2, 2, 3], [8, 2, 4], [3, 255, 2]])\n >>> actual_3 = np.array([[1, 2, 2], [8, 2, 1], [3, 255, 1]])\n\n >>> predicted = [predicted_1, predicted_2, predicted_3]\n >>> ground_truth = [actual_1, actual_2, actual_3]\n\n >>> results = mean_iou.compute(predictions=predicted, references=ground_truth, num_labels=10, ignore_index=255, reduce_labels=False)\n >>> print(results) # doctest: +NORMALIZE_WHITESPACE\n {\'mean_iou\': 0.47750000000000004, \'mean_accuracy\': 0.5916666666666666, \'overall_accuracy\': 0.5263157894736842, \'per_category_iou\': array([0. , 0. , 0.375, 0.4 , 0.5 , 0. , 0.5 , 1. , 1. , 1. ]), \'per_category_accuracy\': array([0. , 0. , 0.75 , 0.66666667, 1. , 0. , 0.5 , 1. , 1. , 1. ])}\n' UpperCAmelCase__ : Union[str, Any] = '\\n@software{MMSegmentation_Contributors_OpenMMLab_Semantic_Segmentation_2020,\nauthor = {{MMSegmentation Contributors}},\nlicense = {Apache-2.0},\nmonth = {7},\ntitle = {{OpenMMLab Semantic Segmentation Toolbox and Benchmark}},\nurl = {https://github.com/open-mmlab/mmsegmentation},\nyear = {2020}\n}' def lowercase_ ( _snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case = None ,_snake_case = False ,): if label_map is not None: for old_id, new_id in label_map.items(): SCREAMING_SNAKE_CASE__ : Dict = new_id # turn into Numpy arrays SCREAMING_SNAKE_CASE__ : Dict = np.array(_snake_case ) SCREAMING_SNAKE_CASE__ : List[Any] = np.array(_snake_case ) if reduce_labels: SCREAMING_SNAKE_CASE__ : Dict = 255 SCREAMING_SNAKE_CASE__ : Dict = label - 1 SCREAMING_SNAKE_CASE__ : int = 255 SCREAMING_SNAKE_CASE__ : Optional[int] = label != ignore_index SCREAMING_SNAKE_CASE__ : Dict = np.not_equal(_snake_case ,_snake_case ) SCREAMING_SNAKE_CASE__ : Optional[int] = pred_label[mask] SCREAMING_SNAKE_CASE__ : Any = np.array(_snake_case )[mask] SCREAMING_SNAKE_CASE__ : Tuple = pred_label[pred_label == label] SCREAMING_SNAKE_CASE__ : str = np.histogram(_snake_case ,bins=_snake_case ,range=(0, num_labels - 1) )[0] SCREAMING_SNAKE_CASE__ : Any = np.histogram(_snake_case ,bins=_snake_case ,range=(0, num_labels - 1) )[0] SCREAMING_SNAKE_CASE__ : List[str] = np.histogram(_snake_case ,bins=_snake_case ,range=(0, num_labels - 1) )[0] SCREAMING_SNAKE_CASE__ : Optional[int] = area_pred_label + area_label - area_intersect return area_intersect, area_union, area_pred_label, area_label def lowercase_ ( _snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case = None ,_snake_case = False ,): SCREAMING_SNAKE_CASE__ : Union[str, Any] = np.zeros((num_labels,) ,dtype=np.floataa ) SCREAMING_SNAKE_CASE__ : List[Any] = np.zeros((num_labels,) ,dtype=np.floataa ) SCREAMING_SNAKE_CASE__ : Union[str, Any] = np.zeros((num_labels,) ,dtype=np.floataa ) SCREAMING_SNAKE_CASE__ : Union[str, Any] = np.zeros((num_labels,) ,dtype=np.floataa ) for result, gt_seg_map in zip(_snake_case ,_snake_case ): SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ : List[Any] = intersect_and_union( _snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case ) total_area_intersect += area_intersect total_area_union += area_union total_area_pred_label += area_pred_label total_area_label += area_label return total_area_intersect, total_area_union, total_area_pred_label, total_area_label def lowercase_ ( _snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case = None ,_snake_case = None ,_snake_case = False ,): SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ : Optional[int] = total_intersect_and_union( _snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case ,_snake_case ) # compute metrics SCREAMING_SNAKE_CASE__ : Optional[Any] = {} SCREAMING_SNAKE_CASE__ : Union[str, Any] = total_area_intersect.sum() / total_area_label.sum() SCREAMING_SNAKE_CASE__ : Dict = total_area_intersect / total_area_union SCREAMING_SNAKE_CASE__ : Optional[Any] = total_area_intersect / total_area_label SCREAMING_SNAKE_CASE__ : int = np.nanmean(_snake_case ) SCREAMING_SNAKE_CASE__ : Dict = np.nanmean(_snake_case ) SCREAMING_SNAKE_CASE__ : List[str] = all_acc SCREAMING_SNAKE_CASE__ : List[Any] = iou SCREAMING_SNAKE_CASE__ : Tuple = acc if nan_to_num is not None: SCREAMING_SNAKE_CASE__ : Any = {metric: np.nan_to_num(_snake_case ,nan=_snake_case ) for metric, metric_value in metrics.items()} return metrics @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION ) class lowerCAmelCase_ (datasets.Metric ): """simple docstring""" def __magic_name__ (self ) -> List[str]: """simple docstring""" return datasets.MetricInfo( description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features( # 1st Seq - height dim, 2nd - width dim { """predictions""": datasets.Sequence(datasets.Sequence(datasets.Value("""uint16""" ) ) ), """references""": datasets.Sequence(datasets.Sequence(datasets.Value("""uint16""" ) ) ), } ) , reference_urls=[ """https://github.com/open-mmlab/mmsegmentation/blob/71c201b1813267d78764f306a297ca717827c4bf/mmseg/core/evaluation/metrics.py""" ] , ) def __magic_name__ (self , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ = None , SCREAMING_SNAKE_CASE__ = None , SCREAMING_SNAKE_CASE__ = False , ) -> Dict: """simple docstring""" SCREAMING_SNAKE_CASE__ : Any = mean_iou( results=SCREAMING_SNAKE_CASE__ , gt_seg_maps=SCREAMING_SNAKE_CASE__ , num_labels=SCREAMING_SNAKE_CASE__ , ignore_index=SCREAMING_SNAKE_CASE__ , nan_to_num=SCREAMING_SNAKE_CASE__ , label_map=SCREAMING_SNAKE_CASE__ , reduce_labels=SCREAMING_SNAKE_CASE__ , ) return iou_result

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"""simple docstring""" from collections import defaultdict from graphs.minimum_spanning_tree_prims import prisms_algorithm as mst def snake_case_ ( ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : int = 9, 14 # noqa: F841 _lowerCamelCase : List[Any] = [ [0, 1, 4], [0, 7, 8], [1, 2, 8], [7, 8, 7], [7, 6, 1], [2, 8, 2], [8, 6, 6], [2, 3, 7], [2, 5, 4], [6, 5, 2], [3, 5, 14], [3, 4, 9], [5, 4, 10], [1, 7, 11], ] _lowerCamelCase : Any = defaultdict(A_ ) for nodea, nodea, cost in edges: adjancency[nodea].append([nodea, cost] ) adjancency[nodea].append([nodea, cost] ) _lowerCamelCase : List[str] = mst(A_ ) _lowerCamelCase : Optional[int] = [ [7, 6, 1], [2, 8, 2], [6, 5, 2], [0, 1, 4], [2, 5, 4], [2, 3, 7], [0, 7, 8], [3, 4, 9], ] for answer in expected: _lowerCamelCase : int = tuple(answer[:2] ) _lowerCamelCase : int = tuple(edge[::-1] ) assert edge in result or reverse in result

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from numpy import exp, pi, sqrt def lowerCAmelCase_ ( snake_case_,snake_case_ = 0.0,snake_case_ = 1.0 ): return 1 / sqrt(2 * pi * sigma**2 ) * exp(-((x - mu) ** 2) / (2 * sigma**2) ) if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt''', '''tokenizer_file''': '''tokenizer.json'''} # See all BART models at https://huggingface.co/models?filter=bart lowerCAmelCase__ = { '''vocab_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/vocab.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/vocab.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json''', }, '''merges_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/merges.txt''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/merges.txt''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt''', }, '''tokenizer_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1024, '''facebook/bart-large''': 1024, '''facebook/bart-large-mnli''': 1024, '''facebook/bart-large-cnn''': 1024, '''facebook/bart-large-xsum''': 1024, '''yjernite/bart_eli5''': 1024, } class __snake_case ( _lowercase): snake_case__ : Any = VOCAB_FILES_NAMES snake_case__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP snake_case__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES snake_case__ : Optional[int] = ["input_ids", "attention_mask"] snake_case__ : Any = BartTokenizer def __init__( self : int , __lowerCAmelCase : Dict=None , __lowerCAmelCase : int=None , __lowerCAmelCase : Dict=None , __lowerCAmelCase : List[Any]="replace" , __lowerCAmelCase : Any="<s>" , __lowerCAmelCase : Optional[int]="</s>" , __lowerCAmelCase : str="</s>" , __lowerCAmelCase : Dict="<s>" , __lowerCAmelCase : Union[str, Any]="<unk>" , __lowerCAmelCase : Any="<pad>" , __lowerCAmelCase : Optional[Any]="<mask>" , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Dict=True , **__lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__( __lowerCAmelCase , __lowerCAmelCase , tokenizer_file=__lowerCAmelCase , errors=__lowerCAmelCase , bos_token=__lowerCAmelCase , eos_token=__lowerCAmelCase , sep_token=__lowerCAmelCase , cls_token=__lowerCAmelCase , unk_token=__lowerCAmelCase , pad_token=__lowerCAmelCase , mask_token=__lowerCAmelCase , add_prefix_space=__lowerCAmelCase , trim_offsets=__lowerCAmelCase , **__lowerCAmelCase , ) _lowerCamelCase : Tuple = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = getattr(__lowerCAmelCase , pre_tok_state.pop('''type''' ) ) _lowerCamelCase : Any = add_prefix_space _lowerCamelCase : int = pre_tok_class(**__lowerCAmelCase ) _lowerCamelCase : Optional[int] = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _lowerCamelCase : List[str] = '''post_processor''' _lowerCamelCase : List[str] = getattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) if tokenizer_component_instance: _lowerCamelCase : int = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _lowerCamelCase : Tuple = tuple(state['''sep'''] ) if "cls" in state: _lowerCamelCase : int = tuple(state['''cls'''] ) _lowerCamelCase : Union[str, Any] = False if state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = add_prefix_space _lowerCamelCase : Optional[Any] = True if state.get('''trim_offsets''' , __lowerCAmelCase ) != trim_offsets: _lowerCamelCase : Any = trim_offsets _lowerCamelCase : str = True if changes_to_apply: _lowerCamelCase : List[str] = getattr(__lowerCAmelCase , state.pop('''type''' ) ) _lowerCamelCase : str = component_class(**__lowerCAmelCase ) setattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) @property def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : int ): """simple docstring""" _lowerCamelCase : Tuple = AddedToken(__lowerCAmelCase , lstrip=__lowerCAmelCase , rstrip=__lowerCAmelCase ) if isinstance(__lowerCAmelCase , __lowerCAmelCase ) else value _lowerCamelCase : str = value def SCREAMING_SNAKE_CASE ( self : int , *__lowerCAmelCase : Optional[Any] , **__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Dict = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._batch_encode_plus(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : Tuple , **__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Any = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._encode_plus(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[str] = None ): """simple docstring""" _lowerCamelCase : Tuple = self._tokenizer.model.save(__lowerCAmelCase , name=__lowerCAmelCase ) return tuple(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : Dict , __lowerCAmelCase : List[str]=None ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : List[int] , __lowerCAmelCase : Optional[List[int]] = None ): """simple docstring""" _lowerCamelCase : List[str] = [self.sep_token_id] _lowerCamelCase : Tuple = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]

72

0

'''simple docstring''' import copy import os import tempfile from unittest import TestCase from unittest.mock import patch import numpy as np import pyarrow as pa import pyarrow.parquet as pq import pytest from datasets.arrow_writer import ArrowWriter, OptimizedTypedSequence, ParquetWriter, TypedSequence from datasets.features import ArrayaD, ClassLabel, Features, Image, Value from datasets.features.features import ArrayaDExtensionType, cast_to_python_objects from datasets.keyhash import DuplicatedKeysError, InvalidKeyError from .utils import require_pil class __UpperCamelCase ( lowerCAmelCase_ ): def __UpperCAmelCase ( self ): '''simple docstring''' __a : Tuple = pa.array(TypedSequence([1, 2, 3] ) ) self.assertEqual(arr.type , pa.intaa() ) def __UpperCAmelCase ( self ): '''simple docstring''' with self.assertRaises(__a ): __a : Any = pa.array(TypedSequence([1, 2, 3] ) , type=pa.intaa() ) def __UpperCAmelCase ( self ): '''simple docstring''' with self.assertRaises(__a ): __a : Optional[Any] = pa.array(TypedSequence([1, 2, 3] , try_type=Value('bool' ) , type=Value('int64' ) ) ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : Union[str, Any] = pa.array(TypedSequence([1, 2, 3] , type=Value('int32' ) ) ) self.assertEqual(arr.type , pa.intaa() ) def __UpperCAmelCase ( self ): '''simple docstring''' with self.assertRaises((TypeError, pa.lib.ArrowInvalid) ): __a : Union[str, Any] = pa.array(TypedSequence(['foo', 'bar'] , type=Value('int64' ) ) ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : Optional[Any] = pa.array(TypedSequence([1, 2, 3] , try_type=Value('int32' ) ) ) self.assertEqual(arr.type , pa.intaa() ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : List[str] = pa.array(TypedSequence(['foo', 'bar'] , try_type=Value('int64' ) ) ) self.assertEqual(arr.type , pa.string() ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : Tuple = pa.array(TypedSequence([[[1, 2, 3]]] , type=ArrayaD((1, 3) , 'int64' ) ) ) self.assertEqual(arr.type , ArrayaDExtensionType((1, 3) , 'int64' ) ) def __UpperCAmelCase ( self ): '''simple docstring''' with self.assertRaises((TypeError, pa.lib.ArrowInvalid) ): __a : Any = pa.array(TypedSequence(['foo', 'bar'] , type=ArrayaD((1, 3) , 'int64' ) ) ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : str = pa.array(TypedSequence([[[1, 2, 3]]] , try_type=ArrayaD((1, 3) , 'int64' ) ) ) self.assertEqual(arr.type , ArrayaDExtensionType((1, 3) , 'int64' ) ) def __UpperCAmelCase ( self ): '''simple docstring''' __a : List[str] = pa.array(TypedSequence(['foo', 'bar'] , try_type=ArrayaD((1, 3) , 'int64' ) ) ) self.assertEqual(arr.type , pa.string() ) @require_pil def __UpperCAmelCase ( self ): '''simple docstring''' import PIL.Image __a : Union[str, Any] = PIL.Image.fromarray(np.arange(10 , dtype=np.uinta ).reshape(2 , 5 ) ) with patch( 'datasets.arrow_writer.cast_to_python_objects' , side_effect=__a ) as mock_cast_to_python_objects: __a : Union[str, Any] = pa.array(TypedSequence([{'path': None, 'bytes': b'image_bytes'}, pil_image] , type=Image() ) ) __a , __a : Optional[Any] = mock_cast_to_python_objects.call_args_list[-1] self.assertIn('optimize_list_casting' , __a ) self.assertFalse(kwargs['optimize_list_casting'] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Union[str, Any] , _SCREAMING_SNAKE_CASE : int ): __a : str = pa.BufferReader(_SCREAMING_SNAKE_CASE ) if isinstance(_SCREAMING_SNAKE_CASE , pa.Buffer ) else pa.memory_map(_SCREAMING_SNAKE_CASE ) __a : Dict = pa.ipc.open_stream(_SCREAMING_SNAKE_CASE ) __a : pa.Table = f.read_all() assert len(pa_table.to_batches() ) == expected_num_chunks assert pa_table.to_pydict() == {"col_1": ["foo", "bar"], "col_2": [1, 2]} del pa_table @pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] ) @pytest.mark.parametrize( 'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : List[str] , _SCREAMING_SNAKE_CASE : Optional[Any] ): __a : str = pa.BufferOutputStream() __a : Any = pa.schema(_SCREAMING_SNAKE_CASE ) if fields else None with ArrowWriter(stream=_SCREAMING_SNAKE_CASE , schema=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE ) as writer: writer.write({'col_1': 'foo', 'col_2': 1} ) writer.write({'col_1': 'bar', 'col_2': 2} ) __a , __a : Dict = writer.finalize() assert num_examples == 2 assert num_bytes > 0 if not fields: __a : List[Any] = {'col_1': pa.string(), 'col_2': pa.intaa()} assert writer._schema == pa.schema(_SCREAMING_SNAKE_CASE , metadata=writer._schema.metadata ) _check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 ) def lowerCamelCase (): __a : int = pa.BufferOutputStream() __a : Optional[int] = Features({'labels': ClassLabel(names=['neg', 'pos'] )} ) with ArrowWriter(stream=_SCREAMING_SNAKE_CASE , features=_SCREAMING_SNAKE_CASE ) as writer: writer.write({'labels': 0} ) writer.write({'labels': 1} ) __a , __a : List[Any] = writer.finalize() assert num_examples == 2 assert num_bytes > 0 assert writer._schema == features.arrow_schema assert writer._schema.metadata == features.arrow_schema.metadata __a : int = pa.BufferReader(output.getvalue() ) __a : Tuple = pa.ipc.open_stream(_SCREAMING_SNAKE_CASE ) __a : pa.Table = f.read_all() __a : Optional[int] = pa_table.schema assert pa_table.num_rows == 2 assert schema == features.arrow_schema assert schema.metadata == features.arrow_schema.metadata assert features == Features.from_arrow_schema(_SCREAMING_SNAKE_CASE ) @pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Any ): __a : int = pa.BufferOutputStream() with ArrowWriter( stream=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE , hash_salt='split_name' , check_duplicates=_SCREAMING_SNAKE_CASE , ) as writer: with pytest.raises(_SCREAMING_SNAKE_CASE ): writer.write({'col_1': 'foo', 'col_2': 1} , key=[1, 2] ) __a , __a : Optional[Any] = writer.finalize() @pytest.mark.parametrize('writer_batch_size' , [None, 2, 10] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Optional[Any] ): __a : Tuple = pa.BufferOutputStream() with ArrowWriter( stream=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE , hash_salt='split_name' , check_duplicates=_SCREAMING_SNAKE_CASE , ) as writer: with pytest.raises(_SCREAMING_SNAKE_CASE ): writer.write({'col_1': 'foo', 'col_2': 1} , key=10 ) writer.write({'col_1': 'bar', 'col_2': 2} , key=10 ) __a , __a : Optional[Any] = writer.finalize() @pytest.mark.parametrize('writer_batch_size' , [None, 2, 10] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : List[str] ): __a : List[str] = pa.BufferOutputStream() with ArrowWriter( stream=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE , hash_salt='split_name' , check_duplicates=_SCREAMING_SNAKE_CASE , ) as writer: writer.write({'col_1': 'foo', 'col_2': 1} , key=1 ) writer.write({'col_1': 'bar', 'col_2': 2} , key=2 ) __a , __a : Optional[int] = writer.finalize() assert num_examples == 2 assert num_bytes > 0 _check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 ) @pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] ) @pytest.mark.parametrize( 'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Optional[Any] , _SCREAMING_SNAKE_CASE : Dict ): __a : Optional[int] = pa.BufferOutputStream() __a : int = pa.schema(_SCREAMING_SNAKE_CASE ) if fields else None with ArrowWriter(stream=_SCREAMING_SNAKE_CASE , schema=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE ) as writer: writer.write_batch({'col_1': ['foo', 'bar'], 'col_2': [1, 2]} ) writer.write_batch({'col_1': [], 'col_2': []} ) __a , __a : Dict = writer.finalize() assert num_examples == 2 assert num_bytes > 0 if not fields: __a : str = {'col_1': pa.string(), 'col_2': pa.intaa()} assert writer._schema == pa.schema(_SCREAMING_SNAKE_CASE , metadata=writer._schema.metadata ) _check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 ) @pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] ) @pytest.mark.parametrize( 'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Any , _SCREAMING_SNAKE_CASE : List[Any] ): __a : Tuple = pa.BufferOutputStream() __a : str = pa.schema(_SCREAMING_SNAKE_CASE ) if fields else None with ArrowWriter(stream=_SCREAMING_SNAKE_CASE , schema=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE ) as writer: writer.write_table(pa.Table.from_pydict({'col_1': ['foo', 'bar'], 'col_2': [1, 2]} ) ) __a , __a : str = writer.finalize() assert num_examples == 2 assert num_bytes > 0 if not fields: __a : List[str] = {'col_1': pa.string(), 'col_2': pa.intaa()} assert writer._schema == pa.schema(_SCREAMING_SNAKE_CASE , metadata=writer._schema.metadata ) _check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 ) @pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] ) @pytest.mark.parametrize( 'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Union[str, Any] , _SCREAMING_SNAKE_CASE : List[str] ): __a : List[Any] = pa.BufferOutputStream() __a : List[Any] = pa.schema(_SCREAMING_SNAKE_CASE ) if fields else None with ArrowWriter(stream=_SCREAMING_SNAKE_CASE , schema=_SCREAMING_SNAKE_CASE , writer_batch_size=_SCREAMING_SNAKE_CASE ) as writer: writer.write_row(pa.Table.from_pydict({'col_1': ['foo'], 'col_2': [1]} ) ) writer.write_row(pa.Table.from_pydict({'col_1': ['bar'], 'col_2': [2]} ) ) __a , __a : str = writer.finalize() assert num_examples == 2 assert num_bytes > 0 if not fields: __a : List[Any] = {'col_1': pa.string(), 'col_2': pa.intaa()} assert writer._schema == pa.schema(_SCREAMING_SNAKE_CASE , metadata=writer._schema.metadata ) _check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 ) def lowerCamelCase (): with tempfile.TemporaryDirectory() as tmp_dir: __a : List[Any] = {'col_1': pa.string(), 'col_2': pa.intaa()} __a : Optional[int] = os.path.join(_SCREAMING_SNAKE_CASE , 'test.arrow' ) with ArrowWriter(path=_SCREAMING_SNAKE_CASE , schema=pa.schema(_SCREAMING_SNAKE_CASE ) ) as writer: writer.write_batch({'col_1': ['foo', 'bar'], 'col_2': [1, 2]} ) __a , __a : List[Any] = writer.finalize() assert num_examples == 2 assert num_bytes > 0 assert writer._schema == pa.schema(_SCREAMING_SNAKE_CASE , metadata=writer._schema.metadata ) _check_output(_SCREAMING_SNAKE_CASE , 1 ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : int ): if pa.types.is_list(_SCREAMING_SNAKE_CASE ): return get_base_dtype(arr_type.value_type ) else: return arr_type def lowerCamelCase (_SCREAMING_SNAKE_CASE : Any , _SCREAMING_SNAKE_CASE : int ): if isinstance(lst[0] , _SCREAMING_SNAKE_CASE ): change_first_primitive_element_in_list(lst[0] , _SCREAMING_SNAKE_CASE ) else: __a : List[str] = value @pytest.mark.parametrize('optimized_int_type, expected_dtype' , [(None, pa.intaa()), (Value('int32' ), pa.intaa())] ) @pytest.mark.parametrize('sequence' , [[1, 2, 3], [[1, 2, 3]], [[[1, 2, 3]]]] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Union[str, Any] , _SCREAMING_SNAKE_CASE : Optional[int] , _SCREAMING_SNAKE_CASE : Union[str, Any] ): __a : Optional[Any] = pa.array(TypedSequence(_SCREAMING_SNAKE_CASE , optimized_int_type=_SCREAMING_SNAKE_CASE ) ) assert get_base_dtype(arr.type ) == expected_dtype @pytest.mark.parametrize( 'col, expected_dtype' , [ ('attention_mask', pa.inta()), ('special_tokens_mask', pa.inta()), ('token_type_ids', pa.inta()), ('input_ids', pa.intaa()), ('other', pa.intaa()), ] , ) @pytest.mark.parametrize('sequence' , [[1, 2, 3], [[1, 2, 3]], [[[1, 2, 3]]]] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : Any , _SCREAMING_SNAKE_CASE : Optional[Any] , _SCREAMING_SNAKE_CASE : Optional[Any] ): # in range __a : Any = pa.array(OptimizedTypedSequence(_SCREAMING_SNAKE_CASE , col=_SCREAMING_SNAKE_CASE ) ) assert get_base_dtype(arr.type ) == expected_dtype # not in range if col != "other": # avoids errors due to in-place modifications __a : Optional[Any] = copy.deepcopy(_SCREAMING_SNAKE_CASE ) __a : List[str] = np.iinfo(expected_dtype.to_pandas_dtype() ).max + 1 change_first_primitive_element_in_list(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __a : Dict = pa.array(OptimizedTypedSequence(_SCREAMING_SNAKE_CASE , col=_SCREAMING_SNAKE_CASE ) ) assert get_base_dtype(arr.type ) == pa.intaa() @pytest.mark.parametrize('raise_exception' , [False, True] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : List[Any] , _SCREAMING_SNAKE_CASE : Union[str, Any] ): __a : Union[str, Any] = str(tmp_path / 'dataset-train.arrow' ) try: with ArrowWriter(path=_SCREAMING_SNAKE_CASE ) as writer: if raise_exception: raise pa.lib.ArrowInvalid() else: writer.stream.close() except pa.lib.ArrowInvalid: pass finally: assert writer.stream.closed def lowerCamelCase (_SCREAMING_SNAKE_CASE : Optional[Any] ): __a : Optional[Any] = 'mock://dataset-train.arrow' with ArrowWriter(path=_SCREAMING_SNAKE_CASE , storage_options=mockfs.storage_options ) as writer: assert isinstance(writer._fs , type(_SCREAMING_SNAKE_CASE ) ) assert writer._fs.storage_options == mockfs.storage_options writer.write({'col_1': 'foo', 'col_2': 1} ) writer.write({'col_1': 'bar', 'col_2': 2} ) __a , __a : Dict = writer.finalize() assert num_examples == 2 assert num_bytes > 0 assert mockfs.exists(_SCREAMING_SNAKE_CASE ) def lowerCamelCase (): __a : List[Any] = pa.BufferOutputStream() with ParquetWriter(stream=_SCREAMING_SNAKE_CASE ) as writer: writer.write({'col_1': 'foo', 'col_2': 1} ) writer.write({'col_1': 'bar', 'col_2': 2} ) __a , __a : int = writer.finalize() assert num_examples == 2 assert num_bytes > 0 __a : Optional[Any] = pa.BufferReader(output.getvalue() ) __a : pa.Table = pq.read_table(_SCREAMING_SNAKE_CASE ) assert pa_table.to_pydict() == {"col_1": ["foo", "bar"], "col_2": [1, 2]} @require_pil @pytest.mark.parametrize('embed_local_files' , [False, True] ) def lowerCamelCase (_SCREAMING_SNAKE_CASE : str , _SCREAMING_SNAKE_CASE : str ): import PIL.Image __a : List[Any] = str(tmp_path / 'test_image_rgb.jpg' ) PIL.Image.fromarray(np.zeros((5, 5) , dtype=np.uinta ) ).save(_SCREAMING_SNAKE_CASE , format='png' ) __a : Union[str, Any] = pa.BufferOutputStream() with ParquetWriter( stream=_SCREAMING_SNAKE_CASE , features=Features({'image': Image()} ) , embed_local_files=_SCREAMING_SNAKE_CASE ) as writer: writer.write({'image': image_path} ) writer.finalize() __a : Any = pa.BufferReader(output.getvalue() ) __a : pa.Table = pq.read_table(_SCREAMING_SNAKE_CASE ) __a : Union[str, Any] = pa_table.to_pydict() if embed_local_files: assert isinstance(out['image'][0]['path'] , _SCREAMING_SNAKE_CASE ) with open(_SCREAMING_SNAKE_CASE , 'rb' ) as f: assert out["image"][0]["bytes"] == f.read() else: assert out["image"][0]["path"] == image_path assert out["image"][0]["bytes"] is None def lowerCamelCase (): __a : Tuple = pa.schema([pa.field('col_1' , pa.string() , nullable=_SCREAMING_SNAKE_CASE )] ) __a : str = pa.BufferOutputStream() with ArrowWriter(stream=_SCREAMING_SNAKE_CASE ) as writer: writer._build_writer(inferred_schema=_SCREAMING_SNAKE_CASE ) assert writer._schema == pa.schema([pa.field('col_1' , pa.string() )] )

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"""simple docstring""" from __future__ import annotations def snake_case_ ( A_ : str ): '''simple docstring''' return [ord(A_ ) - 96 for elem in plain] def snake_case_ ( A_ : list[int] ): '''simple docstring''' return "".join(chr(elem + 96 ) for elem in encoded ) def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Dict = encode(input('''-> ''' ).strip().lower() ) print('''Encoded: ''', A_ ) print('''Decoded:''', decode(A_ ) ) if __name__ == "__main__": main()

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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available _lowerCamelCase : List[str] = {} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCamelCase : List[str] = ["BartphoTokenizer"] if TYPE_CHECKING: try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_bartpho import BartphoTokenizer else: import sys _lowerCamelCase : Any = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = { '''configuration_lxmert''': ['''LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LxmertConfig'''], '''tokenization_lxmert''': ['''LxmertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''LxmertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''LxmertEncoder''', '''LxmertForPreTraining''', '''LxmertForQuestionAnswering''', '''LxmertModel''', '''LxmertPreTrainedModel''', '''LxmertVisualFeatureEncoder''', '''LxmertXLayer''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFLxmertForPreTraining''', '''TFLxmertMainLayer''', '''TFLxmertModel''', '''TFLxmertPreTrainedModel''', '''TFLxmertVisualFeatureEncoder''', ] if TYPE_CHECKING: from .configuration_lxmert import LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, LxmertConfig from .tokenization_lxmert import LxmertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_lxmert_fast import LxmertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lxmert import ( LxmertEncoder, LxmertForPreTraining, LxmertForQuestionAnswering, LxmertModel, LxmertPreTrainedModel, LxmertVisualFeatureEncoder, LxmertXLayer, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_lxmert import ( TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFLxmertForPreTraining, TFLxmertMainLayer, TFLxmertModel, TFLxmertPreTrainedModel, TFLxmertVisualFeatureEncoder, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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import os from collections import namedtuple import pytest from datasets import ClassLabel, Features, Sequence, Value from datasets.commands.test import TestCommand from datasets.info import DatasetInfo, DatasetInfosDict __UpperCAmelCase = namedtuple( '_TestCommandArgs', [ 'dataset', 'name', 'cache_dir', 'data_dir', 'all_configs', 'save_infos', 'ignore_verifications', 'force_redownload', 'clear_cache', ], defaults=[None, None, None, False, False, False, False, False], ) def lowercase__ ( __snake_case : int , __snake_case : Union[str, Any] ): '''simple docstring''' return (abs(source - target ) / target) < 0.01 @pytest.mark.integration def lowercase__ ( __snake_case : Dict ): '''simple docstring''' UpperCAmelCase_ : Tuple = _TestCommandArgs(dataset=__snake_case , all_configs=__snake_case , save_infos=__snake_case ) UpperCAmelCase_ : Optional[int] = TestCommand(*__snake_case ) test_command.run() UpperCAmelCase_ : Optional[int] = os.path.join(__snake_case , 'README.md' ) assert os.path.exists(__snake_case ) UpperCAmelCase_ : str = DatasetInfosDict.from_directory(__snake_case ) UpperCAmelCase_ : List[str] = DatasetInfosDict( { 'default': DatasetInfo( features=Features( { 'tokens': Sequence(Value('string' ) ), 'ner_tags': Sequence( ClassLabel(names=['O', 'B-PER', 'I-PER', 'B-ORG', 'I-ORG', 'B-LOC', 'I-LOC'] ) ), 'langs': Sequence(Value('string' ) ), 'spans': Sequence(Value('string' ) ), } ) , splits=[ { 'name': 'train', 'num_bytes': 2_351_563, 'num_examples': 10_000, }, { 'name': 'validation', 'num_bytes': 238_418, 'num_examples': 1_000, }, ] , download_size=3_940_680 , dataset_size=2_589_981 , ) } ) assert dataset_infos.keys() == expected_dataset_infos.keys() for key in DatasetInfo._INCLUDED_INFO_IN_YAML: UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = getattr(dataset_infos['default'] , __snake_case ), getattr(expected_dataset_infos['default'] , __snake_case ) if key == "num_bytes": assert is_apercent_close(__snake_case , __snake_case ) elif key == "splits": assert list(__snake_case ) == list(__snake_case ) for split in result: assert result[split].name == expected[split].name assert result[split].num_examples == expected[split].num_examples assert is_apercent_close(result[split].num_bytes , expected[split].num_bytes ) else: result == expected

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"""simple docstring""" def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for data in source_data: for i, el in enumerate(A_ ): if len(A_ ) < i + 1: data_lists.append([] ) data_lists[i].append(float(A_ ) ) return data_lists def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for dlist, weight in zip(A_, A_ ): _lowerCamelCase : Any = min(A_ ) _lowerCamelCase : Optional[Any] = max(A_ ) _lowerCamelCase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowerCamelCase : str = F'''Invalid weight of {weight:f} provided''' raise ValueError(A_ ) score_lists.append(A_ ) return score_lists def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(A_ ): _lowerCamelCase : List[str] = final_scores[j] + ele return final_scores def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : Tuple = get_data(A_ ) _lowerCamelCase : Optional[Any] = calculate_each_score(A_, A_ ) _lowerCamelCase : str = generate_final_scores(A_ ) # append scores to source data for i, ele in enumerate(A_ ): source_data[i].append(A_ ) return source_data

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import copy import os from typing import Union from ...configuration_utils import PretrainedConfig from ...utils import logging __a = logging.get_logger(__name__) __a = { 'BAAI/AltCLIP': 'https://huggingface.co/BAAI/AltCLIP/resolve/main/config.json', # See all AltCLIP models at https://huggingface.co/models?filter=altclip } class lowercase__( UpperCAmelCase ): """simple docstring""" a :str = 'altclip_text_model' def __init__( self : Union[str, Any] , SCREAMING_SNAKE_CASE_ : Union[str, Any]=2_5_0_0_0_2 , SCREAMING_SNAKE_CASE_ : int=1_0_2_4 , SCREAMING_SNAKE_CASE_ : Union[str, Any]=2_4 , SCREAMING_SNAKE_CASE_ : Tuple=1_6 , SCREAMING_SNAKE_CASE_ : Union[str, Any]=4_0_9_6 , SCREAMING_SNAKE_CASE_ : str="gelu" , SCREAMING_SNAKE_CASE_ : Dict=0.1 , SCREAMING_SNAKE_CASE_ : str=0.1 , SCREAMING_SNAKE_CASE_ : List[str]=5_1_4 , SCREAMING_SNAKE_CASE_ : Union[str, Any]=1 , SCREAMING_SNAKE_CASE_ : Any=0.02 , SCREAMING_SNAKE_CASE_ : Optional[Any]=0.02 , SCREAMING_SNAKE_CASE_ : str=1e-05 , SCREAMING_SNAKE_CASE_ : List[str]=1 , SCREAMING_SNAKE_CASE_ : str=0 , SCREAMING_SNAKE_CASE_ : Dict=2 , SCREAMING_SNAKE_CASE_ : int="absolute" , SCREAMING_SNAKE_CASE_ : Tuple=True , SCREAMING_SNAKE_CASE_ : Optional[Any]=7_6_8 , **SCREAMING_SNAKE_CASE_ : int , ) -> Any: super().__init__(pad_token_id=SCREAMING_SNAKE_CASE_ , bos_token_id=SCREAMING_SNAKE_CASE_ , eos_token_id=SCREAMING_SNAKE_CASE_ , **SCREAMING_SNAKE_CASE_ ) lowercase_ = vocab_size lowercase_ = hidden_size lowercase_ = num_hidden_layers lowercase_ = num_attention_heads lowercase_ = hidden_act lowercase_ = intermediate_size lowercase_ = hidden_dropout_prob lowercase_ = attention_probs_dropout_prob lowercase_ = max_position_embeddings lowercase_ = type_vocab_size lowercase_ = initializer_range lowercase_ = initializer_factor lowercase_ = layer_norm_eps lowercase_ = position_embedding_type lowercase_ = use_cache lowercase_ = project_dim class lowercase__( UpperCAmelCase ): """simple docstring""" a :Tuple = 'altclip_vision_model' def __init__( self : List[str] , SCREAMING_SNAKE_CASE_ : List[Any]=7_6_8 , SCREAMING_SNAKE_CASE_ : Dict=3_0_7_2 , SCREAMING_SNAKE_CASE_ : List[Any]=5_1_2 , SCREAMING_SNAKE_CASE_ : Optional[Any]=1_2 , SCREAMING_SNAKE_CASE_ : List[Any]=1_2 , SCREAMING_SNAKE_CASE_ : Dict=3 , SCREAMING_SNAKE_CASE_ : Optional[int]=2_2_4 , SCREAMING_SNAKE_CASE_ : List[str]=3_2 , SCREAMING_SNAKE_CASE_ : Tuple="quick_gelu" , SCREAMING_SNAKE_CASE_ : Dict=1e-5 , SCREAMING_SNAKE_CASE_ : Dict=0.0 , SCREAMING_SNAKE_CASE_ : Dict=0.02 , SCREAMING_SNAKE_CASE_ : Tuple=1.0 , **SCREAMING_SNAKE_CASE_ : str , ) -> str: super().__init__(**SCREAMING_SNAKE_CASE_ ) lowercase_ = hidden_size lowercase_ = intermediate_size lowercase_ = projection_dim lowercase_ = num_hidden_layers lowercase_ = num_attention_heads lowercase_ = num_channels lowercase_ = patch_size lowercase_ = image_size lowercase_ = initializer_range lowercase_ = initializer_factor lowercase_ = attention_dropout lowercase_ = layer_norm_eps lowercase_ = hidden_act @classmethod def _lowercase ( cls : Dict , SCREAMING_SNAKE_CASE_ : Union[str, os.PathLike] , **SCREAMING_SNAKE_CASE_ : Optional[Any] ) -> "PretrainedConfig": cls._set_token_in_kwargs(SCREAMING_SNAKE_CASE_ ) lowercase_ , lowercase_ = cls.get_config_dict(SCREAMING_SNAKE_CASE_ , **SCREAMING_SNAKE_CASE_ ) # get the vision config dict if we are loading from AltCLIPConfig if config_dict.get('''model_type''' ) == "altclip": lowercase_ = config_dict['''vision_config'''] if "model_type" in config_dict and hasattr(cls , '''model_type''' ) and config_dict["model_type"] != cls.model_type: logger.warning( f'''You are using a model of type {config_dict['model_type']} to instantiate a model of type ''' f'''{cls.model_type}. This is not supported for all configurations of models and can yield errors.''' ) return cls.from_dict(SCREAMING_SNAKE_CASE_ , **SCREAMING_SNAKE_CASE_ ) class lowercase__( UpperCAmelCase ): """simple docstring""" a :Any = 'altclip' a :List[str] = True def __init__( self : List[Any] , SCREAMING_SNAKE_CASE_ : int=None , SCREAMING_SNAKE_CASE_ : List[Any]=None , SCREAMING_SNAKE_CASE_ : List[str]=7_6_8 , SCREAMING_SNAKE_CASE_ : Dict=2.65_92 , **SCREAMING_SNAKE_CASE_ : List[Any] ) -> List[str]: # If `_config_dict` exist, we use them for the backward compatibility. # We pop out these 2 attributes before calling `super().__init__` to avoid them being saved (which causes a lot # of confusion!). lowercase_ = kwargs.pop('''text_config_dict''' , SCREAMING_SNAKE_CASE_ ) lowercase_ = kwargs.pop('''vision_config_dict''' , SCREAMING_SNAKE_CASE_ ) super().__init__(**SCREAMING_SNAKE_CASE_ ) # Instead of simply assigning `[text|vision]_config_dict` to `[text|vision]_config`, we use the values in # `[text|vision]_config_dict` to update the values in `[text|vision]_config`. The values should be same in most # cases, but we don't want to break anything regarding `_config_dict` that existed before commit `8827e1b2`. if text_config_dict is not None: if text_config is None: lowercase_ = {} # This is the complete result when using `text_config_dict`. lowercase_ = AltCLIPTextConfig(**SCREAMING_SNAKE_CASE_ ).to_dict() # Give a warning if the values exist in both `_text_config_dict` and `text_config` but being different. for key, value in _text_config_dict.items(): if key in text_config and value != text_config[key] and key not in ["transformers_version"]: # If specified in `text_config_dict` if key in text_config_dict: lowercase_ = ( f'''`{key}` is found in both `text_config_dict` and `text_config` but with different values. ''' f'''The value `text_config_dict["{key}"]` will be used instead.''' ) # If inferred from default argument values (just to be super careful) else: lowercase_ = ( f'''`text_config_dict` is provided which will be used to initialize `AltCLIPTextConfig`. The ''' f'''value `text_config["{key}"]` will be overriden.''' ) logger.warning(SCREAMING_SNAKE_CASE_ ) # Update all values in `text_config` with the ones in `_text_config_dict`. text_config.update(_text_config_dict ) if vision_config_dict is not None: if vision_config is None: lowercase_ = {} # This is the complete result when using `vision_config_dict`. lowercase_ = AltCLIPVisionConfig(**SCREAMING_SNAKE_CASE_ ).to_dict() # convert keys to string instead of integer if "id2label" in _vision_config_dict: lowercase_ = { str(SCREAMING_SNAKE_CASE_ ): value for key, value in _vision_config_dict['''id2label'''].items() } # Give a warning if the values exist in both `_vision_config_dict` and `vision_config` but being different. for key, value in _vision_config_dict.items(): if key in vision_config and value != vision_config[key] and key not in ["transformers_version"]: # If specified in `vision_config_dict` if key in vision_config_dict: lowercase_ = ( f'''`{key}` is found in both `vision_config_dict` and `vision_config` but with different ''' f'''values. The value `vision_config_dict["{key}"]` will be used instead.''' ) # If inferred from default argument values (just to be super careful) else: lowercase_ = ( f'''`vision_config_dict` is provided which will be used to initialize `AltCLIPVisionConfig`. ''' f'''The value `vision_config["{key}"]` will be overriden.''' ) logger.warning(SCREAMING_SNAKE_CASE_ ) # Update all values in `vision_config` with the ones in `_vision_config_dict`. vision_config.update(_vision_config_dict ) if text_config is None: lowercase_ = {} logger.info('''`text_config` is `None`. Initializing the `AltCLIPTextConfig` with default values.''' ) if vision_config is None: lowercase_ = {} logger.info('''`vision_config` is `None`. initializing the `AltCLIPVisionConfig` with default values.''' ) lowercase_ = AltCLIPTextConfig(**SCREAMING_SNAKE_CASE_ ) lowercase_ = AltCLIPVisionConfig(**SCREAMING_SNAKE_CASE_ ) lowercase_ = projection_dim lowercase_ = logit_scale_init_value lowercase_ = 1.0 @classmethod def _lowercase ( cls : Union[str, Any] , SCREAMING_SNAKE_CASE_ : AltCLIPTextConfig , SCREAMING_SNAKE_CASE_ : AltCLIPVisionConfig , **SCREAMING_SNAKE_CASE_ : Any ) -> List[Any]: return cls(text_config=text_config.to_dict() , vision_config=vision_config.to_dict() , **SCREAMING_SNAKE_CASE_ ) def _lowercase ( self : Union[str, Any] ) -> Dict: lowercase_ = copy.deepcopy(self.__dict__ ) lowercase_ = self.text_config.to_dict() lowercase_ = self.vision_config.to_dict() lowercase_ = self.__class__.model_type return output

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"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = { '''microsoft/unispeech-large-1500h-cv''': ( '''https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json''' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class __snake_case ( _lowercase): snake_case__ : List[str] = "unispeech" def __init__( self : List[str] , __lowerCAmelCase : List[Any]=3_2 , __lowerCAmelCase : str=7_6_8 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=3_0_7_2 , __lowerCAmelCase : Tuple="gelu" , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : str=0.1 , __lowerCAmelCase : Tuple=0.0 , __lowerCAmelCase : Optional[int]=0.0 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Optional[int]=0.1 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Dict=1E-5 , __lowerCAmelCase : Optional[int]="group" , __lowerCAmelCase : Dict="gelu" , __lowerCAmelCase : int=(5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2) , __lowerCAmelCase : Optional[int]=(5, 2, 2, 2, 2, 2, 2) , __lowerCAmelCase : Union[str, Any]=(1_0, 3, 3, 3, 3, 2, 2) , __lowerCAmelCase : List[Any]=False , __lowerCAmelCase : List[str]=1_2_8 , __lowerCAmelCase : Any=1_6 , __lowerCAmelCase : Optional[int]=False , __lowerCAmelCase : Optional[Any]=True , __lowerCAmelCase : Union[str, Any]=0.05 , __lowerCAmelCase : Union[str, Any]=1_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.0 , __lowerCAmelCase : Optional[int]=1_0 , __lowerCAmelCase : Dict=0 , __lowerCAmelCase : List[str]=3_2_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Tuple=1_0_0 , __lowerCAmelCase : Dict=2_5_6 , __lowerCAmelCase : str=2_5_6 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Dict="mean" , __lowerCAmelCase : Union[str, Any]=False , __lowerCAmelCase : Dict=False , __lowerCAmelCase : Optional[Any]=2_5_6 , __lowerCAmelCase : Dict=8_0 , __lowerCAmelCase : int=0 , __lowerCAmelCase : Optional[int]=1 , __lowerCAmelCase : Dict=2 , __lowerCAmelCase : Any=0.5 , **__lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__(**__lowerCAmelCase , pad_token_id=__lowerCAmelCase , bos_token_id=__lowerCAmelCase , eos_token_id=__lowerCAmelCase ) _lowerCamelCase : Dict = hidden_size _lowerCamelCase : Any = feat_extract_norm _lowerCamelCase : List[Any] = feat_extract_activation _lowerCamelCase : Any = list(__lowerCAmelCase ) _lowerCamelCase : Tuple = list(__lowerCAmelCase ) _lowerCamelCase : int = list(__lowerCAmelCase ) _lowerCamelCase : List[str] = conv_bias _lowerCamelCase : List[str] = num_conv_pos_embeddings _lowerCamelCase : Tuple = num_conv_pos_embedding_groups _lowerCamelCase : List[str] = len(self.conv_dim ) _lowerCamelCase : Tuple = num_hidden_layers _lowerCamelCase : List[Any] = intermediate_size _lowerCamelCase : Dict = hidden_act _lowerCamelCase : Union[str, Any] = num_attention_heads _lowerCamelCase : Tuple = hidden_dropout _lowerCamelCase : List[Any] = attention_dropout _lowerCamelCase : Optional[int] = activation_dropout _lowerCamelCase : Optional[Any] = feat_proj_dropout _lowerCamelCase : Optional[int] = final_dropout _lowerCamelCase : Any = layerdrop _lowerCamelCase : Any = layer_norm_eps _lowerCamelCase : List[Any] = initializer_range _lowerCamelCase : List[str] = num_ctc_classes _lowerCamelCase : List[Any] = vocab_size _lowerCamelCase : Optional[Any] = do_stable_layer_norm _lowerCamelCase : Tuple = use_weighted_layer_sum _lowerCamelCase : List[Any] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' f''' {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,''' f''' `len(config.conv_kernel) = {len(self.conv_kernel )}`.''' ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 _lowerCamelCase : Any = apply_spec_augment _lowerCamelCase : Dict = mask_time_prob _lowerCamelCase : List[str] = mask_time_length _lowerCamelCase : Optional[Any] = mask_time_min_masks _lowerCamelCase : List[str] = mask_feature_prob _lowerCamelCase : int = mask_feature_length _lowerCamelCase : Dict = mask_feature_min_masks # parameters for pretraining with codevector quantized representations _lowerCamelCase : Optional[Any] = num_codevectors_per_group _lowerCamelCase : int = num_codevector_groups _lowerCamelCase : List[Any] = contrastive_logits_temperature _lowerCamelCase : List[str] = feat_quantizer_dropout _lowerCamelCase : Dict = num_negatives _lowerCamelCase : Optional[int] = codevector_dim _lowerCamelCase : List[Any] = proj_codevector_dim _lowerCamelCase : List[Any] = diversity_loss_weight # ctc loss _lowerCamelCase : Union[str, Any] = ctc_loss_reduction _lowerCamelCase : Any = ctc_zero_infinity # pretraining loss _lowerCamelCase : str = replace_prob @property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )

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'''simple docstring''' import shutil import tempfile import unittest import numpy as np import pytest from transformers import is_speech_available, is_vision_available from transformers.testing_utils import require_torch if is_vision_available(): from transformers import TvltImageProcessor if is_speech_available(): from transformers import TvltFeatureExtractor from transformers import TvltProcessor @require_torch class lowerCamelCase_ (unittest.TestCase ): '''simple docstring''' def _A ( self : Optional[int] ): _UpperCAmelCase : int = "ZinengTang/tvlt-base" _UpperCAmelCase : List[Any] = tempfile.mkdtemp() def _A ( self : str , **A : Optional[int] ): return TvltImageProcessor.from_pretrained(self.checkpoint , **A ) def _A ( self : Any , **A : Dict ): return TvltFeatureExtractor.from_pretrained(self.checkpoint , **A ) def _A ( self : Union[str, Any] ): shutil.rmtree(self.tmpdirname ) def _A ( self : Tuple ): _UpperCAmelCase : Union[str, Any] = self.get_image_processor() _UpperCAmelCase : Tuple = self.get_feature_extractor() _UpperCAmelCase : int = TvltProcessor(image_processor=A , feature_extractor=A ) processor.save_pretrained(self.tmpdirname ) _UpperCAmelCase : Union[str, Any] = TvltProcessor.from_pretrained(self.tmpdirname ) self.assertIsInstance(processor.feature_extractor , A ) self.assertIsInstance(processor.image_processor , A ) def _A ( self : List[Any] ): _UpperCAmelCase : Optional[int] = self.get_image_processor() _UpperCAmelCase : Tuple = self.get_feature_extractor() _UpperCAmelCase : Tuple = TvltProcessor(image_processor=A , feature_extractor=A ) _UpperCAmelCase : Tuple = np.ones([12000] ) _UpperCAmelCase : Dict = feature_extractor(A , return_tensors="np" ) _UpperCAmelCase : int = processor(audio=A , return_tensors="np" ) for key in audio_dict.keys(): self.assertAlmostEqual(audio_dict[key].sum() , input_processor[key].sum() , delta=1E-2 ) def _A ( self : Optional[Any] ): _UpperCAmelCase : Union[str, Any] = self.get_image_processor() _UpperCAmelCase : str = self.get_feature_extractor() _UpperCAmelCase : Any = TvltProcessor(image_processor=A , feature_extractor=A ) _UpperCAmelCase : Any = np.ones([3, 224, 224] ) _UpperCAmelCase : str = image_processor(A , return_tensors="np" ) _UpperCAmelCase : Tuple = processor(images=A , return_tensors="np" ) for key in image_dict.keys(): self.assertAlmostEqual(image_dict[key].sum() , input_processor[key].sum() , delta=1E-2 ) def _A ( self : List[str] ): _UpperCAmelCase : Tuple = self.get_image_processor() _UpperCAmelCase : str = self.get_feature_extractor() _UpperCAmelCase : str = TvltProcessor(image_processor=A , feature_extractor=A ) _UpperCAmelCase : Any = np.ones([12000] ) _UpperCAmelCase : Optional[Any] = np.ones([3, 224, 224] ) _UpperCAmelCase : Any = processor(audio=A , images=A ) self.assertListEqual(list(inputs.keys() ) , ["audio_values", "audio_mask", "pixel_values", "pixel_mask"] ) # test if it raises when no input is passed with pytest.raises(A ): processor() def _A ( self : Optional[int] ): _UpperCAmelCase : Optional[int] = self.get_image_processor() _UpperCAmelCase : Tuple = self.get_feature_extractor() _UpperCAmelCase : List[Any] = TvltProcessor(image_processor=A , feature_extractor=A ) self.assertListEqual( processor.model_input_names , image_processor.model_input_names + feature_extractor.model_input_names , msg="`processor` and `image_processor`+`feature_extractor` model input names do not match" , )

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"""simple docstring""" from typing import Optional from urllib.parse import quote import huggingface_hub as hfh from packaging import version def snake_case_ ( A_ : str, A_ : str, A_ : Optional[str] = None ): '''simple docstring''' if version.parse(hfh.__version__ ).release < version.parse('''0.11.0''' ).release: # old versions of hfh don't url-encode the file path _lowerCamelCase : Optional[Any] = quote(A_ ) return hfh.hf_hub_url(A_, A_, repo_type='''dataset''', revision=A_ )

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from manim import * class SCREAMING_SNAKE_CASE__ ( lowercase__ ): def SCREAMING_SNAKE_CASE ( self : Any ) -> Optional[int]: a_ : Optional[int] = Rectangle(height=0.5 , width=0.5 ) a_ : List[Any] = Rectangle(height=0.25 , width=0.25 ) a_ : Optional[Any] = Rectangle(height=0.46 , width=0.46 ).set_stroke(width=0 ) a_ : str = [mem.copy() for i in range(6 )] a_ : Tuple = [mem.copy() for i in range(6 )] a_ : Any = VGroup(*SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : int = VGroup(*SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Optional[Any] = VGroup(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Optional[Any] = Text('CPU' , font_size=2_4 ) a_ : Any = Group(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0.5 , aligned_edge=SCREAMING_SNAKE_CASE__ ) cpu.move_to([-2.5, -0.5, 0] ) self.add(SCREAMING_SNAKE_CASE__ ) a_ : Union[str, Any] = [mem.copy() for i in range(4 )] a_ : List[Any] = VGroup(*SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Any = Text('GPU' , font_size=2_4 ) a_ : Optional[Any] = Group(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0.5 , aligned_edge=SCREAMING_SNAKE_CASE__ ) gpu.move_to([-1, -1, 0] ) self.add(SCREAMING_SNAKE_CASE__ ) a_ : Optional[Any] = [mem.copy() for i in range(6 )] a_ : List[Any] = VGroup(*SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : List[str] = Text('Model' , font_size=2_4 ) a_ : int = Group(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0.5 , aligned_edge=SCREAMING_SNAKE_CASE__ ) model.move_to([3, -1.0, 0] ) self.add(SCREAMING_SNAKE_CASE__ ) a_ : Dict = [] a_ : str = [] a_ : int = [] for i, rect in enumerate(SCREAMING_SNAKE_CASE__ ): rect.set_stroke(SCREAMING_SNAKE_CASE__ ) a_ : int = Rectangle(height=0.46 / 4 , width=0.46 / 3 ).set_stroke(width=0.0 ).set_fill(SCREAMING_SNAKE_CASE__ , opacity=0.7 ) if i == 0: cpu_target.next_to(cpu_left_col_base[0].get_corner(DOWN + LEFT ) , buff=0.02 , direction=SCREAMING_SNAKE_CASE__ ) cpu_target.set_x(cpu_target.get_x() + 0.1 ) elif i == 3: cpu_target.next_to(model_cpu_arr[0] , direction=SCREAMING_SNAKE_CASE__ , buff=0.0 ) else: cpu_target.next_to(model_cpu_arr[i - 1] , direction=SCREAMING_SNAKE_CASE__ , buff=0.0 ) self.add(SCREAMING_SNAKE_CASE__ ) model_cpu_arr.append(SCREAMING_SNAKE_CASE__ ) self.add(*SCREAMING_SNAKE_CASE__ , *SCREAMING_SNAKE_CASE__ , *SCREAMING_SNAKE_CASE__ ) a_ : Tuple = [mem.copy() for i in range(6 )] a_ : Union[str, Any] = VGroup(*SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Dict = Text('Loaded Checkpoint' , font_size=2_4 ) a_ : str = Group(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0.5 , aligned_edge=SCREAMING_SNAKE_CASE__ ) checkpoint.move_to([3, 0.5, 0] ) self.add(SCREAMING_SNAKE_CASE__ ) a_ : Dict = [] a_ : Optional[int] = [] for i, rect in enumerate(SCREAMING_SNAKE_CASE__ ): a_ : Union[str, Any] = fill.copy().set_fill(SCREAMING_SNAKE_CASE__ , opacity=0.7 ) target.move_to(SCREAMING_SNAKE_CASE__ ) ckpt_arr.append(SCREAMING_SNAKE_CASE__ ) a_ : List[str] = target.copy() if i < 5: cpu_target.move_to(cpu_left_col_base[i + 1] ) else: cpu_target.move_to(cpu_right_col_base[i - 5] ) ckpt_cpu_arr.append(SCREAMING_SNAKE_CASE__ ) self.add(*SCREAMING_SNAKE_CASE__ , *SCREAMING_SNAKE_CASE__ ) a_ : List[str] = Square(side_length=2.2 ) key.move_to([-5, 2, 0] ) a_ : Optional[Any] = MarkupText( F"""Key:\n\n● Empty Model""" , font_size=1_8 , ) key_text.move_to([-5, 2.4, 0] ) self.add(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) a_ : Optional[int] = MarkupText( F"""● Checkpoint""" , font_size=1_8 , ) blue_text.next_to(SCREAMING_SNAKE_CASE__ , DOWN * 2.4 , aligned_edge=key_text.get_left() ) self.add(SCREAMING_SNAKE_CASE__ ) a_ : str = MarkupText( F"""Based on the passed in configuration, weights are stored in\na variety of np.memmaps on disk or to a particular device.""" , font_size=2_4 , ) step_a.move_to([2, 2, 0] ) a_ : List[Any] = [meta_mem.copy() for i in range(6 )] a_ : Optional[Any] = [meta_mem.copy() for i in range(6 )] a_ : int = VGroup(*SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Optional[int] = VGroup(*SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Tuple = VGroup(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0 ) a_ : Dict = Text('Disk' , font_size=2_4 ) a_ : Optional[Any] = Group(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ).arrange(SCREAMING_SNAKE_CASE__ , buff=0.5 , aligned_edge=SCREAMING_SNAKE_CASE__ ) disk.move_to([-4.0, -1.25, 0] ) self.play(Write(SCREAMING_SNAKE_CASE__ , run_time=3 ) , Write(SCREAMING_SNAKE_CASE__ , run_time=1 ) , Create(SCREAMING_SNAKE_CASE__ , run_time=1 ) ) a_ : List[Any] = [] for i, rect in enumerate(SCREAMING_SNAKE_CASE__ ): a_ : List[str] = rect.copy() target.generate_target() target.target.move_to(disk_left_col_base[i] ).scale(0.5 ) animations.append(MoveToTarget(SCREAMING_SNAKE_CASE__ , run_time=1.5 ) ) self.play(*SCREAMING_SNAKE_CASE__ ) self.play(FadeOut(SCREAMING_SNAKE_CASE__ ) ) a_ : Optional[Any] = MarkupText(F"""Then, the checkpoint is removed from memory\nthrough garbage collection.""" , font_size=2_4 ) step_a.move_to([2, 2, 0] ) self.play(Write(SCREAMING_SNAKE_CASE__ , run_time=3 ) ) self.play( FadeOut(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , *SCREAMING_SNAKE_CASE__ , *SCREAMING_SNAKE_CASE__ ) , ) self.wait()

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"""simple docstring""" import unittest import numpy as np def snake_case_ ( A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray | None = None, ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) if shape_a[0] != shape_b[0]: _lowerCamelCase : Tuple = ( '''Expected the same number of rows for A and B. ''' F'''Instead found A of size {shape_a} and B of size {shape_b}''' ) raise ValueError(A_ ) if shape_b[1] != shape_c[1]: _lowerCamelCase : Tuple = ( '''Expected the same number of columns for B and C. ''' F'''Instead found B of size {shape_b} and C of size {shape_c}''' ) raise ValueError(A_ ) _lowerCamelCase : List[str] = pseudo_inv if a_inv is None: try: _lowerCamelCase : Any = np.linalg.inv(A_ ) except np.linalg.LinAlgError: raise ValueError( '''Input matrix A is not invertible. Cannot compute Schur complement.''' ) return mat_c - mat_b.T @ a_inv @ mat_b class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : List[str] = np.array([[2, 1], [6, 3]] ) _lowerCamelCase : List[Any] = schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = np.block([[a, b], [b.T, c]] ) _lowerCamelCase : Tuple = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : List[str] = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : Any = np.linalg.det(__lowerCAmelCase ) self.assertAlmostEqual(__lowerCAmelCase , det_a * det_s ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : Optional[int] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : int = np.array([[2, 1], [6, 3]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : str = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : Union[str, Any] = np.array([[2, 1, 3], [6, 3, 5]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) if __name__ == "__main__": import doctest doctest.testmod() unittest.main()

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"""simple docstring""" from typing import List, Optional, Union from ...processing_utils import ProcessorMixin from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy from ...utils import TensorType class _UpperCAmelCase ( _A ): SCREAMING_SNAKE_CASE_ : int = ["image_processor", "tokenizer"] SCREAMING_SNAKE_CASE_ : Union[str, Any] = "BridgeTowerImageProcessor" SCREAMING_SNAKE_CASE_ : List[Any] = ("RobertaTokenizer", "RobertaTokenizerFast") def __init__( self : int , A : Any , A : List[str] ) -> int: super().__init__(A , A ) def __call__( self : str , A : Optional[Any] , A : Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]] = None , A : bool = True , A : Union[bool, str, PaddingStrategy] = False , A : Union[bool, str, TruncationStrategy] = None , A : Optional[int] = None , A : int = 0 , A : Optional[int] = None , A : Optional[bool] = None , A : Optional[bool] = None , A : bool = False , A : bool = False , A : bool = False , A : bool = False , A : bool = True , A : Optional[Union[str, TensorType]] = None , **A : Optional[int] , ) -> BatchEncoding: lowercase_ : List[Any] = self.tokenizer( text=A , add_special_tokens=A , padding=A , truncation=A , max_length=A , stride=A , pad_to_multiple_of=A , return_token_type_ids=A , return_attention_mask=A , return_overflowing_tokens=A , return_special_tokens_mask=A , return_offsets_mapping=A , return_length=A , verbose=A , return_tensors=A , **A , ) # add pixel_values + pixel_mask lowercase_ : int = self.image_processor( A , return_tensors=A , do_normalize=A , do_center_crop=A , **A ) encoding.update(A ) return encoding def A ( self : Tuple , *A : str , **A : Optional[Any] ) -> List[str]: return self.tokenizer.batch_decode(*A , **A ) def A ( self : List[Any] , *A : Any , **A : Union[str, Any] ) -> List[str]: return self.tokenizer.decode(*A , **A ) @property def A ( self : Optional[int] ) -> Tuple: lowercase_ : Union[str, Any] = self.tokenizer.model_input_names lowercase_ : List[str] = self.image_processor.model_input_names return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )

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"""simple docstring""" def snake_case_ ( A_ : list[int], A_ : str ): '''simple docstring''' _lowerCamelCase : Tuple = int(A_ ) # Initialize Result _lowerCamelCase : Dict = [] # Traverse through all denomination for denomination in reversed(A_ ): # Find denominations while int(A_ ) >= int(A_ ): total_value -= int(A_ ) answer.append(A_ ) # Append the "answers" array return answer # Driver Code if __name__ == "__main__": lowerCAmelCase__ = [] lowerCAmelCase__ = '''0''' if ( input('''Do you want to enter your denominations ? (yY/n): ''').strip().lower() == "y" ): lowerCAmelCase__ = int(input('''Enter the number of denominations you want to add: ''').strip()) for i in range(0, n): denominations.append(int(input(F"""Denomination {i}: """).strip())) lowerCAmelCase__ = input('''Enter the change you want to make in Indian Currency: ''').strip() else: # All denominations of Indian Currency if user does not enter lowerCAmelCase__ = [1, 2, 5, 10, 20, 50, 100, 500, 2000] lowerCAmelCase__ = input('''Enter the change you want to make: ''').strip() if int(value) == 0 or int(value) < 0: print('''The total value cannot be zero or negative.''') else: print(F"""Following is minimal change for {value}: """) lowerCAmelCase__ = find_minimum_change(denominations, value) # Print result for i in range(len(answer)): print(answer[i], end=''' ''')

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'''simple docstring''' def snake_case_ (_a : int , _a : int ): return "\n".join( F"{number} * {i} = {number * i}" for i in range(1 , number_of_terms + 1 ) ) if __name__ == "__main__": print(multiplication_table(number=5, number_of_terms=10))

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"""simple docstring""" def snake_case_ ( A_ : int = 2_00_00_00 ): '''simple docstring''' _lowerCamelCase : int = [0 for i in range(n + 1 )] _lowerCamelCase : List[str] = 1 _lowerCamelCase : Any = 1 for i in range(2, int(n**0.5 ) + 1 ): if primality_list[i] == 0: for j in range(i * i, n + 1, A_ ): _lowerCamelCase : str = 1 _lowerCamelCase : Tuple = 0 for i in range(A_ ): if primality_list[i] == 0: sum_of_primes += i return sum_of_primes if __name__ == "__main__": print(F"""{solution() = }""")

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'''simple docstring''' import warnings from ...utils import logging from .image_processing_beit import BeitImageProcessor __a = logging.get_logger(__name__) class UpperCAmelCase_ ( _a ): """simple docstring""" def __init__( self : List[str] , *snake_case_ : str , **snake_case_ : List[str] ): warnings.warn( """The class BeitFeatureExtractor is deprecated and will be removed in version 5 of Transformers. Please""" """ use BeitImageProcessor instead.""" , snake_case_ , ) super().__init__(*snake_case_ , **snake_case_ )

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"""simple docstring""" import argparse import torch from torch import nn from transformers import MBartConfig, MBartForConditionalGeneration def snake_case_ ( A_ : Any ): '''simple docstring''' _lowerCamelCase : Any = [ '''encoder.version''', '''decoder.version''', '''model.encoder.version''', '''model.decoder.version''', '''_float_tensor''', '''decoder.output_projection.weight''', ] for k in ignore_keys: state_dict.pop(A_, A_ ) def snake_case_ ( A_ : Union[str, Any] ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : Tuple = emb.weight.shape _lowerCamelCase : Dict = nn.Linear(A_, A_, bias=A_ ) _lowerCamelCase : str = emb.weight.data return lin_layer def snake_case_ ( A_ : str, A_ : Optional[int]="facebook/mbart-large-en-ro", A_ : Union[str, Any]=False, A_ : List[str]=False ): '''simple docstring''' _lowerCamelCase : Tuple = torch.load(A_, map_location='''cpu''' )['''model'''] remove_ignore_keys_(A_ ) _lowerCamelCase : int = state_dict['''encoder.embed_tokens.weight'''].shape[0] _lowerCamelCase : Any = MBartConfig.from_pretrained(A_, vocab_size=A_ ) if mbart_aa and finetuned: _lowerCamelCase : Any = '''relu''' _lowerCamelCase : Optional[int] = state_dict['''decoder.embed_tokens.weight'''] _lowerCamelCase : Any = MBartForConditionalGeneration(A_ ) model.model.load_state_dict(A_ ) if finetuned: _lowerCamelCase : str = make_linear_from_emb(model.model.shared ) return model if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''fairseq_path''', type=str, help='''bart.large, bart.large.cnn or a path to a model.pt on local filesystem.''' ) parser.add_argument('''pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model.''') parser.add_argument( '''--hf_config''', default='''facebook/mbart-large-cc25''', type=str, help='''Which huggingface architecture to use: mbart-large''', ) parser.add_argument('''--mbart_50''', action='''store_true''', help='''whether the model is mMART-50 checkpoint''') parser.add_argument('''--finetuned''', action='''store_true''', help='''whether the model is a fine-tuned checkpoint''') lowerCAmelCase__ = parser.parse_args() lowerCAmelCase__ = convert_fairseq_mbart_checkpoint_from_disk( args.fairseq_path, hf_config_path=args.hf_config, finetuned=args.finetuned, mbart_aa=args.mbart_aa ) model.save_pretrained(args.pytorch_dump_folder_path)

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import os import unittest from transformers.models.bartpho.tokenization_bartpho import VOCAB_FILES_NAMES, BartphoTokenizer from transformers.testing_utils import get_tests_dir from ...test_tokenization_common import TokenizerTesterMixin _snake_case = get_tests_dir("fixtures/test_sentencepiece_bpe.model") class UpperCAmelCase_ ( a , unittest.TestCase): lowerCamelCase__ = BartphoTokenizer lowerCamelCase__ = False lowerCamelCase__ = True def snake_case__ ( self): '''simple docstring''' super().setUp() _lowerCAmelCase : str = ["▁This", "▁is", "▁a", "▁t", "est"] _lowerCAmelCase : List[str] = dict(zip(__a, range(len(__a)))) _lowerCAmelCase : Optional[Any] = {"unk_token": "<unk>"} _lowerCAmelCase : Optional[int] = os.path.join(self.tmpdirname, VOCAB_FILES_NAMES["monolingual_vocab_file"]) with open(self.monolingual_vocab_file, "w", encoding="utf-8") as fp: for token in vocab_tokens: fp.write(f"{token} {vocab_tokens[token]}\n") _lowerCAmelCase : Optional[Any] = BartphoTokenizer(__a, self.monolingual_vocab_file, **self.special_tokens_map) tokenizer.save_pretrained(self.tmpdirname) def snake_case__ ( self, **__a): '''simple docstring''' kwargs.update(self.special_tokens_map) return BartphoTokenizer.from_pretrained(self.tmpdirname, **__a) def snake_case__ ( self, __a): '''simple docstring''' _lowerCAmelCase : Union[str, Any] = "This is a là test" _lowerCAmelCase : Optional[int] = "This is a<unk><unk> test" return input_text, output_text def snake_case__ ( self): '''simple docstring''' _lowerCAmelCase : Optional[int] = BartphoTokenizer(__a, self.monolingual_vocab_file, **self.special_tokens_map) _lowerCAmelCase : List[Any] = "This is a là test" _lowerCAmelCase : str = "▁This ▁is ▁a ▁l à ▁t est".split() _lowerCAmelCase : str = tokenizer.tokenize(__a) self.assertListEqual(__a, __a) _lowerCAmelCase : Tuple = tokens + [tokenizer.unk_token] _lowerCAmelCase : List[str] = [4, 5, 6, 3, 3, 7, 8, 3] self.assertListEqual(tokenizer.convert_tokens_to_ids(__a), __a)

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"""simple docstring""" def snake_case_ ( A_ : list[list] ): '''simple docstring''' _lowerCamelCase : Optional[int] = current_set.copy() for row_index, row in enumerate(A_ ): _lowerCamelCase : Tuple = row[0] for column_index, column in enumerate(A_ ): if magnitude == 0: _lowerCamelCase : List[Any] = column continue _lowerCamelCase : List[Any] = column / magnitude # Subtract to cancel term _lowerCamelCase : Union[str, Any] = current_set[0] _lowerCamelCase : Dict = [first_row] _lowerCamelCase : str = current_set[1::] for row in current_set: _lowerCamelCase : Union[str, Any] = [] # If first term is 0, it is already in form we want, so we preserve it if row[0] == 0: final_set.append(A_ ) continue for column_index in range(len(A_ ) ): temp_row.append(first_row[column_index] - row[column_index] ) final_set.append(A_ ) # Create next recursion iteration set if len(final_set[0] ) != 3: _lowerCamelCase : Any = final_set[0] _lowerCamelCase : Any = [] _lowerCamelCase : Optional[int] = [] for row in final_set[1::]: current_first_column.append(row[0] ) next_iteration.append(row[1::] ) _lowerCamelCase : Dict = simplify(A_ ) for i in range(len(A_ ) ): resultant[i].insert(0, current_first_column[i] ) resultant.insert(0, A_ ) _lowerCamelCase : Tuple = resultant return final_set def snake_case_ ( A_ : list[list] ): '''simple docstring''' if len(A_ ) == 0: raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) _lowerCamelCase : Dict = len(A_ ) + 1 if any(len(A_ ) != _length for item in equations ): raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) for row in equations: if any(not isinstance(A_, (int, float) ) for column in row ): raise ValueError('''solve_simultaneous() requires lists of integers''' ) if len(A_ ) == 1: return [equations[0][-1] / equations[0][0]] _lowerCamelCase : Optional[Any] = equations.copy() if any(0 in row for row in data_set ): _lowerCamelCase : str = data_set.copy() _lowerCamelCase : List[Any] = [] for row_index, row in enumerate(A_ ): if 0 not in row: _lowerCamelCase : Union[str, Any] = data_set.pop(A_ ) break if not full_row: raise ValueError('''solve_simultaneous() requires at least 1 full equation''' ) data_set.insert(0, A_ ) _lowerCamelCase : List[str] = data_set.copy() _lowerCamelCase : int = simplify(A_ ) _lowerCamelCase : int = simplified[::-1] _lowerCamelCase : list = [] for row in simplified: _lowerCamelCase : Tuple = row[-1] if not solutions: if row[-2] == 0: solutions.append(0 ) continue solutions.append(current_solution / row[-2] ) continue _lowerCamelCase : Optional[Any] = row.copy()[: len(A_ ) - 1 :] while temp_row[0] == 0: temp_row.pop(0 ) if len(A_ ) == 0: solutions.append(0 ) continue _lowerCamelCase : Tuple = temp_row[1::] _lowerCamelCase : Tuple = temp_row[::-1] for column_index, column in enumerate(A_ ): current_solution -= column * solutions[column_index] solutions.append(A_ ) _lowerCamelCase : Optional[int] = [] for item in solutions: final.append(float(round(A_, 5 ) ) ) return final[::-1] if __name__ == "__main__": import doctest doctest.testmod() lowerCAmelCase__ = [ [2, 1, 1, 1, 1, 4], [1, 2, 1, 1, 1, 5], [1, 1, 2, 1, 1, 6], [1, 1, 1, 2, 1, 7], [1, 1, 1, 1, 2, 8], ] print(solve_simultaneous(eq)) print(solve_simultaneous([[4, 2]]))

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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_torch_available _lowerCAmelCase = {'''configuration_speech_encoder_decoder''': ['''SpeechEncoderDecoderConfig''']} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCAmelCase = ['''SpeechEncoderDecoderModel'''] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCAmelCase = ['''FlaxSpeechEncoderDecoderModel'''] if TYPE_CHECKING: from .configuration_speech_encoder_decoder import SpeechEncoderDecoderConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_speech_encoder_decoder import SpeechEncoderDecoderModel try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_speech_encoder_decoder import FlaxSpeechEncoderDecoderModel else: import sys _lowerCAmelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class __snake_case ( _lowercase): snake_case__ : List[Any] = "Speech2TextFeatureExtractor" snake_case__ : Union[str, Any] = "Speech2TextTokenizer" def __init__( self : int , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" super().__init__(__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : str = False def __call__( self : List[Any] , *__lowerCAmelCase : int , **__lowerCAmelCase : List[str] ): """simple docstring""" if self._in_target_context_manager: return self.current_processor(*__lowerCAmelCase , **__lowerCAmelCase ) if "raw_speech" in kwargs: warnings.warn('''Using `raw_speech` as a keyword argument is deprecated. Use `audio` instead.''' ) _lowerCamelCase : str = kwargs.pop('''raw_speech''' ) else: _lowerCamelCase : Tuple = kwargs.pop('''audio''' , __lowerCAmelCase ) _lowerCamelCase : Optional[Any] = kwargs.pop('''sampling_rate''' , __lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = kwargs.pop('''text''' , __lowerCAmelCase ) if len(__lowerCAmelCase ) > 0: _lowerCamelCase : List[Any] = args[0] _lowerCamelCase : int = args[1:] if audio is None and text is None: raise ValueError('''You need to specify either an `audio` or `text` input to process.''' ) if audio is not None: _lowerCamelCase : List[Any] = self.feature_extractor(__lowerCAmelCase , *__lowerCAmelCase , sampling_rate=__lowerCAmelCase , **__lowerCAmelCase ) if text is not None: _lowerCamelCase : List[Any] = self.tokenizer(__lowerCAmelCase , **__lowerCAmelCase ) if text is None: return inputs elif audio is None: return encodings else: _lowerCamelCase : List[str] = encodings['''input_ids'''] return inputs def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : List[Any] , **__lowerCAmelCase : Tuple ): """simple docstring""" return self.tokenizer.batch_decode(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : List[str] , **__lowerCAmelCase : int ): """simple docstring""" return self.tokenizer.decode(*__lowerCAmelCase , **__lowerCAmelCase ) @contextmanager def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" warnings.warn( '''`as_target_processor` is deprecated and will be removed in v5 of Transformers. You can process your ''' '''labels by using the argument `text` of the regular `__call__` method (either in the same call as ''' '''your audio inputs, or in a separate call.''' ) _lowerCamelCase : Union[str, Any] = True _lowerCamelCase : Any = self.tokenizer yield _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : Tuple = False

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from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_tf_available, is_tokenizers_available, is_torch_available, ) UpperCAmelCase_ : str = { '''configuration_distilbert''': [ '''DISTILBERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''DistilBertConfig''', '''DistilBertOnnxConfig''', ], '''tokenization_distilbert''': ['''DistilBertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase_ : Optional[Any] = ['''DistilBertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase_ : Optional[int] = [ '''DISTILBERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''DistilBertForMaskedLM''', '''DistilBertForMultipleChoice''', '''DistilBertForQuestionAnswering''', '''DistilBertForSequenceClassification''', '''DistilBertForTokenClassification''', '''DistilBertModel''', '''DistilBertPreTrainedModel''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase_ : Optional[Any] = [ '''TF_DISTILBERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFDistilBertForMaskedLM''', '''TFDistilBertForMultipleChoice''', '''TFDistilBertForQuestionAnswering''', '''TFDistilBertForSequenceClassification''', '''TFDistilBertForTokenClassification''', '''TFDistilBertMainLayer''', '''TFDistilBertModel''', '''TFDistilBertPreTrainedModel''', ] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase_ : List[Any] = [ '''FlaxDistilBertForMaskedLM''', '''FlaxDistilBertForMultipleChoice''', '''FlaxDistilBertForQuestionAnswering''', '''FlaxDistilBertForSequenceClassification''', '''FlaxDistilBertForTokenClassification''', '''FlaxDistilBertModel''', '''FlaxDistilBertPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_distilbert import ( DISTILBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, DistilBertConfig, DistilBertOnnxConfig, ) from .tokenization_distilbert import DistilBertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_distilbert_fast import DistilBertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_distilbert import ( DISTILBERT_PRETRAINED_MODEL_ARCHIVE_LIST, DistilBertForMaskedLM, DistilBertForMultipleChoice, DistilBertForQuestionAnswering, DistilBertForSequenceClassification, DistilBertForTokenClassification, DistilBertModel, DistilBertPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_distilbert import ( TF_DISTILBERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFDistilBertForMaskedLM, TFDistilBertForMultipleChoice, TFDistilBertForQuestionAnswering, TFDistilBertForSequenceClassification, TFDistilBertForTokenClassification, TFDistilBertMainLayer, TFDistilBertModel, TFDistilBertPreTrainedModel, ) try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_distilbert import ( FlaxDistilBertForMaskedLM, FlaxDistilBertForMultipleChoice, FlaxDistilBertForQuestionAnswering, FlaxDistilBertForSequenceClassification, FlaxDistilBertForTokenClassification, FlaxDistilBertModel, FlaxDistilBertPreTrainedModel, ) else: import sys UpperCAmelCase_ : List[Any] = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = {'''configuration_reformer''': ['''REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ReformerConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ReformerAttention''', '''ReformerForMaskedLM''', '''ReformerForQuestionAnswering''', '''ReformerForSequenceClassification''', '''ReformerLayer''', '''ReformerModel''', '''ReformerModelWithLMHead''', '''ReformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_reformer import REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, ReformerConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer import ReformerTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer_fast import ReformerTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_reformer import ( REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, ReformerAttention, ReformerForMaskedLM, ReformerForQuestionAnswering, ReformerForSequenceClassification, ReformerLayer, ReformerModel, ReformerModelWithLMHead, ReformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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def __A ( __lowerCAmelCase )-> set: """simple docstring""" _UpperCAmelCase = set() # edges = list of graph's edges _UpperCAmelCase = get_edges(__lowerCAmelCase ) # While there are still elements in edges list, take an arbitrary edge # (from_node, to_node) and add his extremity to chosen_vertices and then # remove all arcs adjacent to the from_node and to_node while edges: _UpperCAmelCase , _UpperCAmelCase = edges.pop() chosen_vertices.add(__lowerCAmelCase ) chosen_vertices.add(__lowerCAmelCase ) for edge in edges.copy(): if from_node in edge or to_node in edge: edges.discard(__lowerCAmelCase ) return chosen_vertices def __A ( __lowerCAmelCase )-> set: """simple docstring""" _UpperCAmelCase = set() for from_node, to_nodes in graph.items(): for to_node in to_nodes: edges.add((from_node, to_node) ) return edges if __name__ == "__main__": import doctest doctest.testmod() # graph = {0: [1, 3], 1: [0, 3], 2: [0, 3, 4], 3: [0, 1, 2], 4: [2, 3]} # print(f"Matching vertex cover:\n{matching_min_vertex_cover(graph)}")

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"""simple docstring""" from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available lowerCAmelCase__ = { '''configuration_autoformer''': [ '''AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''AutoformerConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''AutoformerForPrediction''', '''AutoformerModel''', '''AutoformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_autoformer import ( AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, AutoformerConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_autoformer import ( AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, AutoformerForPrediction, AutoformerModel, AutoformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" from __future__ import annotations def lowercase ( A_ , A_ , A_ , A_ )-> Optional[Any]: # noqa: E741 '''simple docstring''' while r - l > 1: a : Tuple = (l + r) // 2 if v[m] >= key: a : str = m else: a : Tuple = m # noqa: E741 return r def lowercase ( A_ )-> int: '''simple docstring''' if len(A_ ) == 0: return 0 a : str = [0] * len(A_ ) a : List[Any] = 1 a : List[Any] = v[0] for i in range(1 , len(A_ ) ): if v[i] < tail[0]: a : List[str] = v[i] elif v[i] > tail[length - 1]: a : Optional[Any] = v[i] length += 1 else: a : List[Any] = v[i] return length if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" import math def snake_case_ ( A_ : int ): '''simple docstring''' if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5, int(math.sqrt(A_ ) + 1 ), 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def snake_case_ ( A_ : float = 0.1 ): '''simple docstring''' _lowerCamelCase : Optional[int] = 3 _lowerCamelCase : List[str] = 3 while primes / (2 * j - 1) >= ratio: for i in range(j * j + j + 1, (j + 2) * (j + 2), j + 1 ): primes += is_prime(A_ ) j += 2 return j if __name__ == "__main__": import doctest doctest.testmod()

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'''simple docstring''' from collections import OrderedDict from typing import Mapping from packaging import version from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...utils import logging _A : Tuple =logging.get_logger(__name__) _A : str ={ '''google/mobilenet_v2_1.4_224''': '''https://huggingface.co/google/mobilenet_v2_1.4_224/resolve/main/config.json''', '''google/mobilenet_v2_1.0_224''': '''https://huggingface.co/google/mobilenet_v2_1.0_224/resolve/main/config.json''', '''google/mobilenet_v2_0.75_160''': '''https://huggingface.co/google/mobilenet_v2_0.75_160/resolve/main/config.json''', '''google/mobilenet_v2_0.35_96''': '''https://huggingface.co/google/mobilenet_v2_0.35_96/resolve/main/config.json''', # See all MobileNetV2 models at https://huggingface.co/models?filter=mobilenet_v2 } class _lowercase ( _lowercase ): a = """mobilenet_v2""" def __init__( self: List[Any] , UpperCamelCase__: List[Any]=3 , UpperCamelCase__: Dict=224 , UpperCamelCase__: Optional[Any]=1.0 , UpperCamelCase__: Tuple=8 , UpperCamelCase__: Dict=8 , UpperCamelCase__: List[str]=6 , UpperCamelCase__: Tuple=32 , UpperCamelCase__: List[Any]=True , UpperCamelCase__: str=True , UpperCamelCase__: Dict="relu6" , UpperCamelCase__: Dict=True , UpperCamelCase__: Union[str, Any]=0.8 , UpperCamelCase__: List[Any]=0.02 , UpperCamelCase__: str=0.001 , UpperCamelCase__: Union[str, Any]=255 , **UpperCamelCase__: Dict , ): super().__init__(**UpperCamelCase__ ) if depth_multiplier <= 0: raise ValueError("""depth_multiplier must be greater than zero.""" ) lowerCamelCase__ : str = num_channels lowerCamelCase__ : Tuple = image_size lowerCamelCase__ : str = depth_multiplier lowerCamelCase__ : Optional[Any] = depth_divisible_by lowerCamelCase__ : List[str] = min_depth lowerCamelCase__ : Tuple = expand_ratio lowerCamelCase__ : Union[str, Any] = output_stride lowerCamelCase__ : str = first_layer_is_expansion lowerCamelCase__ : List[Any] = finegrained_output lowerCamelCase__ : Tuple = hidden_act lowerCamelCase__ : int = tf_padding lowerCamelCase__ : List[str] = classifier_dropout_prob lowerCamelCase__ : Optional[Any] = initializer_range lowerCamelCase__ : Union[str, Any] = layer_norm_eps lowerCamelCase__ : List[str] = semantic_loss_ignore_index class _lowercase ( _lowercase ): a = version.parse("""1.11""" ) @property def lowerCamelCase_ ( self: Tuple ): return OrderedDict([("""pixel_values""", {0: """batch"""})] ) @property def lowerCamelCase_ ( self: Optional[Any] ): if self.task == "image-classification": return OrderedDict([("""logits""", {0: """batch"""})] ) else: return OrderedDict([("""last_hidden_state""", {0: """batch"""}), ("""pooler_output""", {0: """batch"""})] ) @property def lowerCamelCase_ ( self: str ): return 1e-4

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"""simple docstring""" import unittest from queue import Empty from threading import Thread from transformers import AutoTokenizer, TextIteratorStreamer, TextStreamer, is_torch_available from transformers.testing_utils import CaptureStdout, require_torch, torch_device from ..test_modeling_common import ids_tensor if is_torch_available(): import torch from transformers import AutoModelForCausalLM @require_torch class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Optional[Any] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Union[str, Any] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = tokenizer.decode(greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Union[str, Any] = TextStreamer(__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : int = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Optional[int] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : List[str] = tokenizer.decode(greedy_ids[0] ) _lowerCamelCase : Tuple = TextIteratorStreamer(__lowerCAmelCase ) _lowerCamelCase : Tuple = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() _lowerCamelCase : int = '''''' for new_text in streamer: streamer_text += new_text self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Dict = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : str = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : Optional[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : int = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = greedy_ids[:, input_ids.shape[1] :] _lowerCamelCase : int = tokenizer.decode(new_greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Any = TextStreamer(__lowerCAmelCase , skip_prompt=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : Union[str, Any] = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''distilgpt2''' ) _lowerCamelCase : Optional[Any] = AutoModelForCausalLM.from_pretrained('''distilgpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = -1 _lowerCamelCase : Any = torch.ones((1, 5) , device=__lowerCAmelCase ).long() * model.config.bos_token_id with CaptureStdout() as cs: _lowerCamelCase : List[Any] = TextStreamer(__lowerCAmelCase , skip_special_tokens=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The prompt contains a special token, so the streamer should not print it. As such, the output text, when # re-tokenized, must only contain one token _lowerCamelCase : Any = cs.out[:-1] # Remove the final "\n" _lowerCamelCase : int = tokenizer(__lowerCAmelCase , return_tensors='''pt''' ) self.assertEqual(streamer_text_tokenized.input_ids.shape , (1, 1) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : List[str] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Dict = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = -1 _lowerCamelCase : Any = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = TextIteratorStreamer(__lowerCAmelCase , timeout=0.0_01 ) _lowerCamelCase : str = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() # The streamer will timeout after 0.001 seconds, so an exception will be raised with self.assertRaises(__lowerCAmelCase ): _lowerCamelCase : Optional[Any] = '''''' for new_text in streamer: streamer_text += new_text

72

0

'''simple docstring''' import unittest from transformers import RoFormerTokenizer, RoFormerTokenizerFast from transformers.testing_utils import require_rjieba, require_tokenizers from ...test_tokenization_common import TokenizerTesterMixin @require_rjieba @require_tokenizers class __UpperCAmelCase ( _lowerCamelCase , unittest.TestCase ): __lowercase = RoFormerTokenizer __lowercase = RoFormerTokenizerFast __lowercase = True __lowercase = True def lowerCamelCase ( self ): """simple docstring""" super().setUp() def lowerCamelCase ( self , **lowerCAmelCase_ ): """simple docstring""" return self.tokenizer_class.from_pretrained('junnyu/roformer_chinese_base' , **lowerCAmelCase_ ) def lowerCamelCase ( self , **lowerCAmelCase_ ): """simple docstring""" return self.rust_tokenizer_class.from_pretrained('junnyu/roformer_chinese_base' , **lowerCAmelCase_ ) def lowerCamelCase ( self ): """simple docstring""" _snake_case = '永和服装饰品有限公司,今天天气非常好' _snake_case = '永和服装饰品有限公司 , 今天天气非常好' return input_text, output_text def lowerCamelCase ( self ): """simple docstring""" _snake_case = self.get_tokenizer() _snake_case , _snake_case = self.get_chinese_input_output_texts() _snake_case = tokenizer.tokenize(lowerCAmelCase_ ) self.assertListEqual(lowerCAmelCase_ , output_text.split() ) _snake_case = tokens + [tokenizer.unk_token] _snake_case = [2_29_43, 2_13_32, 3_44_31, 4_59_04, 1_17, 3_06, 12_31, 12_31, 26_53, 3_39_94, 12_66, 1_00] self.assertListEqual(tokenizer.convert_tokens_to_ids(lowerCAmelCase_ ) , lowerCAmelCase_ ) def lowerCamelCase ( self ): """simple docstring""" _snake_case = self.get_rust_tokenizer() _snake_case , _snake_case = self.get_chinese_input_output_texts() _snake_case = tokenizer.tokenize(lowerCAmelCase_ ) self.assertListEqual(lowerCAmelCase_ , output_text.split() ) _snake_case = tokens + [tokenizer.unk_token] _snake_case = [2_29_43, 2_13_32, 3_44_31, 4_59_04, 1_17, 3_06, 12_31, 12_31, 26_53, 3_39_94, 12_66, 1_00] self.assertListEqual(tokenizer.convert_tokens_to_ids(lowerCAmelCase_ ) , lowerCAmelCase_ ) def lowerCamelCase ( self ): """simple docstring""" pass def lowerCamelCase ( self ): """simple docstring""" pass def lowerCamelCase ( self ): """simple docstring""" pass

42

"""simple docstring""" from ....configuration_utils import PretrainedConfig from ....utils import logging lowerCAmelCase__ = logging.get_logger(__name__) # TODO: upload to AWS lowerCAmelCase__ = { '''yjernite/retribert-base-uncased''': ( '''https://huggingface.co/yjernite/retribert-base-uncased/resolve/main/config.json''' ), } class __snake_case ( _lowercase): snake_case__ : int = "retribert" def __init__( self : Optional[int] , __lowerCAmelCase : str=3_0_5_2_2 , __lowerCAmelCase : Tuple=7_6_8 , __lowerCAmelCase : Union[str, Any]=8 , __lowerCAmelCase : Any=1_2 , __lowerCAmelCase : Optional[int]=3_0_7_2 , __lowerCAmelCase : List[str]="gelu" , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=5_1_2 , __lowerCAmelCase : List[str]=2 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Optional[Any]=1E-12 , __lowerCAmelCase : Tuple=True , __lowerCAmelCase : Any=1_2_8 , __lowerCAmelCase : Optional[int]=0 , **__lowerCAmelCase : str , ): """simple docstring""" super().__init__(pad_token_id=__lowerCAmelCase , **__lowerCAmelCase ) _lowerCamelCase : Dict = vocab_size _lowerCamelCase : Union[str, Any] = hidden_size _lowerCamelCase : Dict = num_hidden_layers _lowerCamelCase : int = num_attention_heads _lowerCamelCase : int = hidden_act _lowerCamelCase : str = intermediate_size _lowerCamelCase : Union[str, Any] = hidden_dropout_prob _lowerCamelCase : List[Any] = attention_probs_dropout_prob _lowerCamelCase : Optional[int] = max_position_embeddings _lowerCamelCase : List[Any] = type_vocab_size _lowerCamelCase : Any = initializer_range _lowerCamelCase : Optional[int] = layer_norm_eps _lowerCamelCase : int = share_encoders _lowerCamelCase : Optional[Any] = projection_dim

72

0

import json import os import shutil import tempfile import unittest import numpy as np import pytest from transformers import CLIPTokenizer, CLIPTokenizerFast from transformers.models.clip.tokenization_clip import VOCAB_FILES_NAMES from transformers.testing_utils import require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import CLIPSegProcessor, ViTImageProcessor @require_vision class lowerCamelCase_ ( unittest.TestCase ): '''simple docstring''' def UpperCamelCase__ ( self) -> List[str]: __UpperCamelCase :int = tempfile.mkdtemp() # fmt: off __UpperCamelCase :int = ['''l''', '''o''', '''w''', '''e''', '''r''', '''s''', '''t''', '''i''', '''d''', '''n''', '''lo''', '''l</w>''', '''w</w>''', '''r</w>''', '''t</w>''', '''low</w>''', '''er</w>''', '''lowest</w>''', '''newer</w>''', '''wider''', '''<unk>''', '''<|startoftext|>''', '''<|endoftext|>'''] # fmt: on __UpperCamelCase :Tuple = dict(zip(__lowercase , range(len(__lowercase)))) __UpperCamelCase :List[Any] = ['''#version: 0.2''', '''l o''', '''lo w</w>''', '''e r</w>''', ''''''] __UpperCamelCase :Optional[Any] = {'''unk_token''': '''<unk>'''} __UpperCamelCase :List[str] = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file''']) __UpperCamelCase :List[Any] = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''merges_file''']) with open(self.vocab_file , '''w''' , encoding='''utf-8''') as fp: fp.write(json.dumps(__lowercase) + '''\n''') with open(self.merges_file , '''w''' , encoding='''utf-8''') as fp: fp.write('''\n'''.join(__lowercase)) __UpperCamelCase :List[str] = { '''do_resize''': True, '''size''': 20, '''do_center_crop''': True, '''crop_size''': 18, '''do_normalize''': True, '''image_mean''': [0.48_14_54_66, 0.4_57_82_75, 0.40_82_10_73], '''image_std''': [0.26_86_29_54, 0.26_13_02_58, 0.27_57_77_11], } __UpperCamelCase :Any = os.path.join(self.tmpdirname , __lowercase) with open(self.image_processor_file , '''w''' , encoding='''utf-8''') as fp: json.dump(__lowercase , __lowercase) def UpperCamelCase__ ( self , **__lowercase) -> Any: return CLIPTokenizer.from_pretrained(self.tmpdirname , **__lowercase) def UpperCamelCase__ ( self , **__lowercase) -> Any: return CLIPTokenizerFast.from_pretrained(self.tmpdirname , **__lowercase) def UpperCamelCase__ ( self , **__lowercase) -> List[str]: return ViTImageProcessor.from_pretrained(self.tmpdirname , **__lowercase) def UpperCamelCase__ ( self) -> List[str]: shutil.rmtree(self.tmpdirname) def UpperCamelCase__ ( self) -> Tuple: __UpperCamelCase :Dict = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta)] __UpperCamelCase :int = [Image.fromarray(np.moveaxis(__lowercase , 0 , -1)) for x in image_inputs] return image_inputs def UpperCamelCase__ ( self) -> Tuple: __UpperCamelCase :Dict = self.get_tokenizer() __UpperCamelCase :str = self.get_rust_tokenizer() __UpperCamelCase :Optional[Any] = self.get_image_processor() __UpperCamelCase :List[Any] = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) processor_slow.save_pretrained(self.tmpdirname) __UpperCamelCase :Optional[int] = CLIPSegProcessor.from_pretrained(self.tmpdirname , use_fast=__lowercase) __UpperCamelCase :Union[str, Any] = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) processor_fast.save_pretrained(self.tmpdirname) __UpperCamelCase :Dict = CLIPSegProcessor.from_pretrained(self.tmpdirname) self.assertEqual(processor_slow.tokenizer.get_vocab() , tokenizer_slow.get_vocab()) self.assertEqual(processor_fast.tokenizer.get_vocab() , tokenizer_fast.get_vocab()) self.assertEqual(tokenizer_slow.get_vocab() , tokenizer_fast.get_vocab()) self.assertIsInstance(processor_slow.tokenizer , __lowercase) self.assertIsInstance(processor_fast.tokenizer , __lowercase) self.assertEqual(processor_slow.image_processor.to_json_string() , image_processor.to_json_string()) self.assertEqual(processor_fast.image_processor.to_json_string() , image_processor.to_json_string()) self.assertIsInstance(processor_slow.image_processor , __lowercase) self.assertIsInstance(processor_fast.image_processor , __lowercase) def UpperCamelCase__ ( self) -> Union[str, Any]: __UpperCamelCase :Dict = CLIPSegProcessor(tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor()) processor.save_pretrained(self.tmpdirname) __UpperCamelCase :int = self.get_tokenizer(bos_token='''(BOS)''' , eos_token='''(EOS)''') __UpperCamelCase :List[Any] = self.get_image_processor(do_normalize=__lowercase , padding_value=1.0) __UpperCamelCase :Optional[Any] = CLIPSegProcessor.from_pretrained( self.tmpdirname , bos_token='''(BOS)''' , eos_token='''(EOS)''' , do_normalize=__lowercase , padding_value=1.0) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab()) self.assertIsInstance(processor.tokenizer , __lowercase) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string()) self.assertIsInstance(processor.image_processor , __lowercase) def UpperCamelCase__ ( self) -> Optional[Any]: __UpperCamelCase :Optional[int] = self.get_image_processor() __UpperCamelCase :Optional[Any] = self.get_tokenizer() __UpperCamelCase :Dict = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) __UpperCamelCase :Dict = self.prepare_image_inputs() __UpperCamelCase :Union[str, Any] = image_processor(__lowercase , return_tensors='''np''') __UpperCamelCase :str = processor(images=__lowercase , return_tensors='''np''') for key in input_feat_extract.keys(): self.assertAlmostEqual(input_feat_extract[key].sum() , input_processor[key].sum() , delta=1E-2) def UpperCamelCase__ ( self) -> Tuple: __UpperCamelCase :Tuple = self.get_image_processor() __UpperCamelCase :Dict = self.get_tokenizer() __UpperCamelCase :str = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) __UpperCamelCase :Tuple = '''lower newer''' __UpperCamelCase :str = processor(text=__lowercase) __UpperCamelCase :Optional[Any] = tokenizer(__lowercase) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key]) def UpperCamelCase__ ( self) -> Any: __UpperCamelCase :str = self.get_image_processor() __UpperCamelCase :Tuple = self.get_tokenizer() __UpperCamelCase :Optional[Any] = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) __UpperCamelCase :Optional[int] = '''lower newer''' __UpperCamelCase :str = self.prepare_image_inputs() __UpperCamelCase :Any = processor(text=__lowercase , images=__lowercase) self.assertListEqual(list(inputs.keys()) , ['''input_ids''', '''attention_mask''', '''pixel_values''']) # test if it raises when no input is passed with pytest.raises(__lowercase): processor() def UpperCamelCase__ ( self) -> Any: __UpperCamelCase :str = self.get_image_processor() __UpperCamelCase :Tuple = self.get_tokenizer() __UpperCamelCase :List[Any] = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) __UpperCamelCase :Optional[Any] = self.prepare_image_inputs() __UpperCamelCase :Optional[Any] = self.prepare_image_inputs() __UpperCamelCase :List[Any] = processor(images=__lowercase , visual_prompt=__lowercase) self.assertListEqual(list(inputs.keys()) , ['''pixel_values''', '''conditional_pixel_values''']) # test if it raises when no input is passed with pytest.raises(__lowercase): processor() def UpperCamelCase__ ( self) -> Dict: __UpperCamelCase :Optional[Any] = self.get_image_processor() __UpperCamelCase :List[str] = self.get_tokenizer() __UpperCamelCase :Optional[Any] = CLIPSegProcessor(tokenizer=__lowercase , image_processor=__lowercase) __UpperCamelCase :int = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] __UpperCamelCase :Optional[Any] = processor.batch_decode(__lowercase) __UpperCamelCase :Any = tokenizer.batch_decode(__lowercase) self.assertListEqual(__lowercase , __lowercase)

43

"""simple docstring""" import unittest from diffusers.pipelines.pipeline_utils import is_safetensors_compatible class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : Optional[int] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', # Removed: 'unet/diffusion_pytorch_model.safetensors', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', # Removed: 'text_encoder/model.safetensors', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Optional[int] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" _lowerCamelCase : str = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] _lowerCamelCase : Optional[Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : Tuple = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', # Removed: 'unet/diffusion_pytorch_model.fp16.safetensors', ] _lowerCamelCase : Any = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', ] _lowerCamelCase : str = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', # 'text_encoder/model.fp16.safetensors', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : int = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) )

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0

"""simple docstring""" # Algorithm for the pigeonhole sorting def SCREAMING_SNAKE_CASE ( _lowerCamelCase : List[str] ) -> Dict: _lowerCAmelCase : Any = min(_lowerCamelCase ) # min() finds the minimum value _lowerCAmelCase : Dict = max(_lowerCamelCase ) # max() finds the maximum value _lowerCAmelCase : Tuple = max_val - min_val + 1 # size is difference of max and min values plus one # list of pigeonholes of size equal to the variable size _lowerCAmelCase : Optional[Any] = [0] * size # Populate the pigeonholes. for x in a: assert isinstance(_lowerCamelCase ,_lowerCamelCase ), "integers only please" holes[x - min_val] += 1 # Putting the elements back into the array in an order. _lowerCAmelCase : Tuple = 0 for count in range(_lowerCamelCase ): while holes[count] > 0: holes[count] -= 1 _lowerCAmelCase : Optional[int] = count + min_val i += 1 def SCREAMING_SNAKE_CASE ( ) -> List[Any]: _lowerCAmelCase : List[str] = [8, 3, 2, 7, 4, 6, 8] pigeonhole_sort(_lowerCamelCase ) print("""Sorted order is:""" ,""" """.join(_lowerCamelCase ) ) if __name__ == "__main__": main()

44

"""simple docstring""" import inspect import unittest import numpy as np from tests.test_modeling_common import floats_tensor from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel if is_vision_available(): from transformers import MaskFormerImageProcessor if is_vision_available(): from PIL import Image class __snake_case : def __init__( self : Tuple , __lowerCAmelCase : Tuple , __lowerCAmelCase : Any=2 , __lowerCAmelCase : Any=True , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Optional[Any]=1_0 , __lowerCAmelCase : List[str]=3 , __lowerCAmelCase : int=3_2 * 4 , __lowerCAmelCase : Dict=3_2 * 6 , __lowerCAmelCase : Any=4 , __lowerCAmelCase : List[str]=3_2 , ): """simple docstring""" _lowerCamelCase : List[str] = parent _lowerCamelCase : str = batch_size _lowerCamelCase : Dict = is_training _lowerCamelCase : str = use_auxiliary_loss _lowerCamelCase : Any = num_queries _lowerCamelCase : List[Any] = num_channels _lowerCamelCase : int = min_size _lowerCamelCase : Any = max_size _lowerCamelCase : int = num_labels _lowerCamelCase : List[str] = mask_feature_size def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size] ).to( __lowerCAmelCase ) _lowerCamelCase : List[Any] = torch.ones([self.batch_size, self.min_size, self.max_size] , device=__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = ( torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=__lowerCAmelCase ) > 0.5 ).float() _lowerCamelCase : Optional[int] = (torch.rand((self.batch_size, self.num_labels) , device=__lowerCAmelCase ) > 0.5).long() _lowerCamelCase : Dict = self.get_config() return config, pixel_values, pixel_mask, mask_labels, class_labels def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" return MaskFormerConfig.from_backbone_and_decoder_configs( backbone_config=SwinConfig( depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig( decoder_ffn_dim=1_2_8 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : Dict = self.prepare_config_and_inputs() _lowerCamelCase : List[str] = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask} return config, inputs_dict def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = output.encoder_hidden_states _lowerCamelCase : Tuple = output.pixel_decoder_hidden_states _lowerCamelCase : Dict = output.transformer_decoder_hidden_states self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , config.decoder_config.decoder_layers ) def SCREAMING_SNAKE_CASE ( self : Tuple , __lowerCAmelCase : Dict , __lowerCAmelCase : str , __lowerCAmelCase : Tuple , __lowerCAmelCase : List[Any]=False ): """simple docstring""" with torch.no_grad(): _lowerCamelCase : Optional[int] = MaskFormerModel(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() _lowerCamelCase : Tuple = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) # the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the # encoder and pixel decoder self.parent.assertEqual( output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , ) # let's ensure the other two hidden state exists self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(output.encoder_last_hidden_state is not None ) if output_hidden_states: self.check_output_hidden_state(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = MaskFormerForInstanceSegmentation(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() def comm_check_on_output(__lowerCAmelCase : Dict ): # let's still check that all the required stuff is there self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.encoder_last_hidden_state is not None ) # okay, now we need to check the logits shape # due to the encoder compression, masks have a //4 spatial size self.parent.assertEqual( result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , ) # + 1 for null class self.parent.assertEqual( result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1) ) with torch.no_grad(): _lowerCamelCase : str = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) _lowerCamelCase : List[str] = model( pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) self.parent.assertTrue(result.loss is not None ) self.parent.assertEqual(result.loss.shape , torch.Size([1] ) ) @require_torch class __snake_case ( _lowercase , _lowercase , unittest.TestCase): snake_case__ : Dict = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else () snake_case__ : Any = ( {"feature-extraction": MaskFormerModel, "image-segmentation": MaskFormerForInstanceSegmentation} if is_torch_available() else {} ) snake_case__ : List[str] = False snake_case__ : List[str] = False snake_case__ : Optional[int] = False snake_case__ : Dict = False def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = MaskFormerModelTester(self ) _lowerCamelCase : Optional[Any] = ConfigTester(self , config_class=__lowerCAmelCase , has_text_modality=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Dict = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , **__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(*__lowerCAmelCase ) @unittest.skip(reason='''MaskFormer does not use inputs_embeds''' ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''' ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer is not a generative model''' ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not use token embeddings''' ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" pass @require_torch_multi_gpu @unittest.skip( reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''' ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" pass @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : str = model_class(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCamelCase : Dict = [*signature.parameters.keys()] _lowerCamelCase : Optional[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __lowerCAmelCase ) @slow def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" for model_name in ["facebook/maskformer-swin-small-coco"]: _lowerCamelCase : Union[str, Any] = MaskFormerModel.from_pretrained(__lowerCAmelCase ) self.assertIsNotNone(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = (self.model_tester.min_size,) * 2 _lowerCamelCase : Union[str, Any] = { '''pixel_values''': torch.randn((2, 3, *size) , device=__lowerCAmelCase ), '''mask_labels''': torch.randn((2, 1_0, *size) , device=__lowerCAmelCase ), '''class_labels''': torch.zeros(2 , 1_0 , device=__lowerCAmelCase ).long(), } _lowerCamelCase : int = MaskFormerForInstanceSegmentation(MaskFormerConfig() ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : List[str] = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , **__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : List[Any] = model_class(__lowerCAmelCase ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = model(**__lowerCAmelCase , output_attentions=__lowerCAmelCase ) self.assertTrue(outputs.attentions is not None ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" if not self.model_tester.is_training: return # only MaskFormerForInstanceSegmentation has the loss _lowerCamelCase : Union[str, Any] = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : int = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : Any = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : List[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ).loss loss.backward() def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : int = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : str = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : List[str] = True _lowerCamelCase : Optional[int] = True _lowerCamelCase : Optional[Any] = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) _lowerCamelCase : List[Any] = outputs.encoder_hidden_states[0] encoder_hidden_states.retain_grad() _lowerCamelCase : Tuple = outputs.pixel_decoder_hidden_states[0] pixel_decoder_hidden_states.retain_grad() # we requires_grad=True in inputs_embeds (line 2152), the original implementation don't _lowerCamelCase : List[str] = outputs.transformer_decoder_hidden_states[0] transformer_decoder_hidden_states.retain_grad() _lowerCamelCase : Optional[int] = outputs.attentions[0] attentions.retain_grad() outputs.loss.backward(retain_graph=__lowerCAmelCase ) self.assertIsNotNone(encoder_hidden_states.grad ) self.assertIsNotNone(pixel_decoder_hidden_states.grad ) self.assertIsNotNone(transformer_decoder_hidden_states.grad ) self.assertIsNotNone(attentions.grad ) lowerCAmelCase__ = 1E-4 def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_vision @slow class __snake_case ( unittest.TestCase): @cached_property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return ( MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''' ) if is_vision_available() else None ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : str = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = self.default_image_processor _lowerCamelCase : List[Any] = prepare_img() _lowerCamelCase : Any = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : int = model(**__lowerCAmelCase ) _lowerCamelCase : str = torch.tensor( [[-0.04_82, 0.92_28, 0.49_51], [-0.25_47, 0.80_17, 0.85_27], [-0.00_69, 0.33_85, -0.00_89]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.encoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Union[str, Any] = torch.tensor( [[-0.84_22, -0.84_34, -0.97_18], [-1.01_44, -0.55_65, -0.41_95], [-1.00_38, -0.44_84, -0.19_61]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Optional[int] = torch.tensor( [[0.28_52, -0.01_59, 0.97_35], [0.62_54, 0.18_58, 0.85_29], [-0.06_80, -0.41_16, 1.84_13]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.transformer_decoder_last_hidden_state[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[int] = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : str = prepare_img() _lowerCamelCase : int = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[int] = model(**__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : Optional[int] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : List[str] = [ [-1.3_73_71_24, -1.7_72_49_37, -1.9_36_42_33], [-1.5_97_72_81, -1.9_86_79_39, -2.1_52_36_95], [-1.5_79_53_98, -1.9_26_98_32, -2.09_39_42], ] _lowerCamelCase : Any = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : List[Any] = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : str = torch.tensor( [ [1.6512E00, -5.2572E00, -3.3519E00], [3.6169E-02, -5.9025E00, -2.9313E00], [1.0766E-04, -7.7630E00, -5.1263E00], ] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Any = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : Tuple = self.default_image_processor _lowerCamelCase : Tuple = prepare_img() _lowerCamelCase : Optional[Any] = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[Any] = model(**__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : List[Any] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : int = [[-0.90_46, -2.63_66, -4.60_62], [-3.41_79, -5.78_90, -8.80_57], [-4.91_79, -7.65_60, -10.77_11]] _lowerCamelCase : List[Any] = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : Dict = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : Any = torch.tensor( [[4.71_88, -3.25_85, -2.88_57], [6.68_71, -2.91_81, -1.24_87], [7.24_49, -2.27_64, -2.18_74]] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : List[str] = image_processor( [np.zeros((3, 8_0_0, 1_3_3_3) ), np.zeros((3, 8_0_0, 1_3_3_3) )] , segmentation_maps=[np.zeros((3_8_4, 3_8_4) ).astype(np.floataa ), np.zeros((3_8_4, 3_8_4) ).astype(np.floataa )] , return_tensors='''pt''' , ) _lowerCamelCase : Union[str, Any] = inputs['''pixel_values'''].to(__lowerCAmelCase ) _lowerCamelCase : Dict = [el.to(__lowerCAmelCase ) for el in inputs['''mask_labels''']] _lowerCamelCase : Optional[Any] = [el.to(__lowerCAmelCase ) for el in inputs['''class_labels''']] with torch.no_grad(): _lowerCamelCase : Tuple = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None )

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"""simple docstring""" import argparse import re from typing import Dict import torch from datasets import Audio, Dataset, load_dataset, load_metric from transformers import AutoFeatureExtractor, pipeline def lowercase ( lowerCAmelCase__ : Dataset , lowerCAmelCase__ : Dict[str, str] ) -> Dict: __a = args.log_outputs __a = '''_'''.join(args.dataset.split('''/''' ) + [args.config, args.split] ) # load metric __a = load_metric('''wer''' ) __a = load_metric('''cer''' ) # compute metrics __a = wer.compute(references=result['''target'''] , predictions=result['''prediction'''] ) __a = cer.compute(references=result['''target'''] , predictions=result['''prediction'''] ) # print & log results __a = f'''WER: {wer_result}\nCER: {cer_result}''' print(lowerCAmelCase__ ) with open(f'''{dataset_id}_eval_results.txt''' , '''w''' ) as f: f.write(lowerCAmelCase__ ) # log all results in text file. Possibly interesting for analysis if log_outputs is not None: __a = f'''log_{dataset_id}_predictions.txt''' __a = f'''log_{dataset_id}_targets.txt''' with open(lowerCAmelCase__ , '''w''' ) as p, open(lowerCAmelCase__ , '''w''' ) as t: # mapping function to write output def write_to_file(lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : int ): p.write(f'''{i}''' + '''\n''' ) p.write(batch['''prediction'''] + '''\n''' ) t.write(f'''{i}''' + '''\n''' ) t.write(batch['''target'''] + '''\n''' ) result.map(lowerCAmelCase__ , with_indices=lowerCAmelCase__ ) def lowercase ( lowerCAmelCase__ : str ) -> str: __a = '''[,?.!\-\;\:"“%‘”�—’…–]''' # noqa: W605 IMPORTANT: this should correspond to the chars that were ignored during training __a = re.sub(lowerCAmelCase__ , '''''' , text.lower() ) # In addition, we can normalize the target text, e.g. removing new lines characters etc... # note that order is important here! __a = ['''\n\n''', '''\n''', ''' ''', ''' '''] for t in token_sequences_to_ignore: __a = ''' '''.join(text.split(lowerCAmelCase__ ) ) return text def lowercase ( lowerCAmelCase__ : int ) -> Any: # load dataset __a = load_dataset(args.dataset , args.config , split=args.split , use_auth_token=lowerCAmelCase__ ) # for testing: only process the first two examples as a test # dataset = dataset.select(range(10)) # load processor __a = AutoFeatureExtractor.from_pretrained(args.model_id ) __a = feature_extractor.sampling_rate # resample audio __a = dataset.cast_column('''audio''' , Audio(sampling_rate=lowerCAmelCase__ ) ) # load eval pipeline if args.device is None: __a = 0 if torch.cuda.is_available() else -1 __a = pipeline('''automatic-speech-recognition''' , model=args.model_id , device=args.device ) # map function to decode audio def map_to_pred(lowerCAmelCase__ : Any ): __a = asr( batch['''audio''']['''array'''] , chunk_length_s=args.chunk_length_s , stride_length_s=args.stride_length_s ) __a = prediction['''text'''] __a = normalize_text(batch['''sentence'''] ) return batch # run inference on all examples __a = dataset.map(lowerCAmelCase__ , remove_columns=dataset.column_names ) # compute and log_results # do not change function below log_results(lowerCAmelCase__ , lowerCAmelCase__ ) if __name__ == "__main__": lowercase_ = argparse.ArgumentParser() parser.add_argument( "--model_id", type=str, required=True, help="Model identifier. Should be loadable with 🤗 Transformers" ) parser.add_argument( "--dataset", type=str, required=True, help="Dataset name to evaluate the `model_id`. Should be loadable with 🤗 Datasets", ) parser.add_argument( "--config", type=str, required=True, help="Config of the dataset. *E.g.* `'en'` for Common Voice" ) parser.add_argument("--split", type=str, required=True, help="Split of the dataset. *E.g.* `'test'`") parser.add_argument( "--chunk_length_s", type=float, default=None, help="Chunk length in seconds. Defaults to 5 seconds." ) parser.add_argument( "--stride_length_s", type=float, default=None, help="Stride of the audio chunks. Defaults to 1 second." ) parser.add_argument( "--log_outputs", action="store_true", help="If defined, write outputs to log file for analysis." ) parser.add_argument( "--device", type=int, default=None, help="The device to run the pipeline on. -1 for CPU (default), 0 for the first GPU and so on.", ) lowercase_ = parser.parse_args() main(args)

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"""simple docstring""" lowerCAmelCase__ = { '''A''': ['''B''', '''C''', '''E'''], '''B''': ['''A''', '''D''', '''E'''], '''C''': ['''A''', '''F''', '''G'''], '''D''': ['''B'''], '''E''': ['''A''', '''B''', '''D'''], '''F''': ['''C'''], '''G''': ['''C'''], } def snake_case_ ( A_ : dict, A_ : int, A_ : int ): '''simple docstring''' _lowerCamelCase : List[str] = set() # keep track of all the paths to be checked _lowerCamelCase : str = [[start]] # return path if start is goal if start == goal: return [start] # keeps looping until all possible paths have been checked while queue: # pop the first path from the queue _lowerCamelCase : str = queue.pop(0 ) # get the last node from the path _lowerCamelCase : List[Any] = path[-1] if node not in explored: _lowerCamelCase : Union[str, Any] = graph[node] # go through all neighbour nodes, construct a new path and # push it into the queue for neighbour in neighbours: _lowerCamelCase : Union[str, Any] = list(A_ ) new_path.append(A_ ) queue.append(A_ ) # return path if neighbour is goal if neighbour == goal: return new_path # mark node as explored explored.add(A_ ) # in case there's no path between the 2 nodes return [] def snake_case_ ( A_ : dict, A_ : int, A_ : Dict ): '''simple docstring''' if not graph or start not in graph or target not in graph: return -1 if start == target: return 0 _lowerCamelCase : Optional[int] = [start] _lowerCamelCase : int = set(A_ ) # Keep tab on distances from `start` node. _lowerCamelCase : int = {start: 0, target: -1} while queue: _lowerCamelCase : Optional[Any] = queue.pop(0 ) if node == target: _lowerCamelCase : Any = ( dist[node] if dist[target] == -1 else min(dist[target], dist[node] ) ) for adjacent in graph[node]: if adjacent not in visited: visited.add(A_ ) queue.append(A_ ) _lowerCamelCase : Any = dist[node] + 1 return dist[target] if __name__ == "__main__": print(bfs_shortest_path(demo_graph, '''G''', '''D''')) # returns ['G', 'C', 'A', 'B', 'D'] print(bfs_shortest_path_distance(demo_graph, '''G''', '''D''')) # returns 4

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"""simple docstring""" from dataclasses import dataclass from typing import Optional, Tuple, Union import torch import torch.nn as nn from ..configuration_utils import ConfigMixin, register_to_config from ..utils import BaseOutput, apply_forward_hook from .modeling_utils import ModelMixin from .vae import Decoder, DecoderOutput, Encoder, VectorQuantizer @dataclass class lowercase ( _UpperCAmelCase ): _SCREAMING_SNAKE_CASE = 42 class lowercase ( _UpperCAmelCase , _UpperCAmelCase ): @register_to_config def __init__( self , lowercase = 3 , lowercase = 3 , lowercase = ("DownEncoderBlock2D",) , lowercase = ("UpDecoderBlock2D",) , lowercase = (64,) , lowercase = 1 , lowercase = "silu" , lowercase = 3 , lowercase = 32 , lowercase = 256 , lowercase = 32 , lowercase = None , lowercase = 0.18_215 , lowercase = "group" , ) -> Union[str, Any]: super().__init__() # pass init params to Encoder lowerCAmelCase = Encoder( in_channels=lowercase , out_channels=lowercase , down_block_types=lowercase , block_out_channels=lowercase , layers_per_block=lowercase , act_fn=lowercase , norm_num_groups=lowercase , double_z=lowercase , ) lowerCAmelCase = vq_embed_dim if vq_embed_dim is not None else latent_channels lowerCAmelCase = nn.Convad(lowercase , lowercase , 1 ) lowerCAmelCase = VectorQuantizer(lowercase , lowercase , beta=0.25 , remap=lowercase , sane_index_shape=lowercase ) lowerCAmelCase = nn.Convad(lowercase , lowercase , 1 ) # pass init params to Decoder lowerCAmelCase = Decoder( in_channels=lowercase , out_channels=lowercase , up_block_types=lowercase , block_out_channels=lowercase , layers_per_block=lowercase , act_fn=lowercase , norm_num_groups=lowercase , norm_type=lowercase , ) @apply_forward_hook def _snake_case ( self , lowercase , lowercase = True ) -> VQEncoderOutput: lowerCAmelCase = self.encoder(lowercase ) lowerCAmelCase = self.quant_conv(lowercase ) if not return_dict: return (h,) return VQEncoderOutput(latents=lowercase ) @apply_forward_hook def _snake_case ( self , lowercase , lowercase = False , lowercase = True ) -> Union[DecoderOutput, torch.FloatTensor]: # also go through quantization layer if not force_not_quantize: lowerCAmelCase , lowerCAmelCase , lowerCAmelCase = self.quantize(lowercase ) else: lowerCAmelCase = h lowerCAmelCase = self.post_quant_conv(lowercase ) lowerCAmelCase = self.decoder(lowercase , quant if self.config.norm_type == """spatial""" else None ) if not return_dict: return (dec,) return DecoderOutput(sample=lowercase ) def _snake_case ( self , lowercase , lowercase = True ) -> Union[DecoderOutput, torch.FloatTensor]: lowerCAmelCase = sample lowerCAmelCase = self.encode(lowercase ).latents lowerCAmelCase = self.decode(lowercase ).sample if not return_dict: return (dec,) return DecoderOutput(sample=lowercase )

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"""simple docstring""" import argparse import torch from transformers import LxmertConfig, LxmertForPreTraining, load_tf_weights_in_lxmert from transformers.utils import logging logging.set_verbosity_info() def snake_case_ ( A_ : Tuple, A_ : int, A_ : Dict ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = LxmertConfig.from_json_file(A_ ) print(F'''Building PyTorch model from configuration: {config}''' ) _lowerCamelCase : List[str] = LxmertForPreTraining(A_ ) # Load weights from tf checkpoint load_tf_weights_in_lxmert(A_, A_, A_ ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) torch.save(model.state_dict(), A_ ) if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained model. \nThis specifies the model architecture.''', ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) lowerCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)

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'''simple docstring''' import unittest from transformers import MPNetConfig, is_torch_available from transformers.testing_utils import require_torch, slow, torch_device from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( MPNetForMaskedLM, MPNetForMultipleChoice, MPNetForQuestionAnswering, MPNetForSequenceClassification, MPNetForTokenClassification, MPNetModel, ) class A__ : def __init__( self : int , _a : Optional[int] , _a : Optional[Any]=13 , _a : List[Any]=7 , _a : List[Any]=True , _a : str=True , _a : Dict=False , _a : str=True , _a : List[str]=99 , _a : str=64 , _a : Union[str, Any]=5 , _a : List[Any]=4 , _a : Optional[Any]=64 , _a : Tuple="gelu" , _a : List[str]=0.1 , _a : str=0.1 , _a : int=512 , _a : Dict=16 , _a : List[str]=2 , _a : int=0.02 , _a : Union[str, Any]=3 , _a : str=4 , _a : Tuple=None , ) -> Optional[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =parent _SCREAMING_SNAKE_CASE =batch_size _SCREAMING_SNAKE_CASE =seq_length _SCREAMING_SNAKE_CASE =is_training _SCREAMING_SNAKE_CASE =use_input_mask _SCREAMING_SNAKE_CASE =use_token_type_ids _SCREAMING_SNAKE_CASE =use_labels _SCREAMING_SNAKE_CASE =vocab_size _SCREAMING_SNAKE_CASE =hidden_size _SCREAMING_SNAKE_CASE =num_hidden_layers _SCREAMING_SNAKE_CASE =num_attention_heads _SCREAMING_SNAKE_CASE =intermediate_size _SCREAMING_SNAKE_CASE =hidden_act _SCREAMING_SNAKE_CASE =hidden_dropout_prob _SCREAMING_SNAKE_CASE =attention_probs_dropout_prob _SCREAMING_SNAKE_CASE =max_position_embeddings _SCREAMING_SNAKE_CASE =type_vocab_size _SCREAMING_SNAKE_CASE =type_sequence_label_size _SCREAMING_SNAKE_CASE =initializer_range _SCREAMING_SNAKE_CASE =num_labels _SCREAMING_SNAKE_CASE =num_choices _SCREAMING_SNAKE_CASE =scope def A ( self : str ) -> Tuple: '''simple docstring''' return MPNetConfig.from_pretrained('microsoft/mpnet-base' ) def A ( self : int ) -> int: '''simple docstring''' _SCREAMING_SNAKE_CASE =ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) _SCREAMING_SNAKE_CASE =None if self.use_input_mask: _SCREAMING_SNAKE_CASE =random_attention_mask([self.batch_size, self.seq_length] ) _SCREAMING_SNAKE_CASE =None _SCREAMING_SNAKE_CASE =None _SCREAMING_SNAKE_CASE =None if self.use_labels: _SCREAMING_SNAKE_CASE =ids_tensor([self.batch_size] , self.type_sequence_label_size ) _SCREAMING_SNAKE_CASE =ids_tensor([self.batch_size, self.seq_length] , self.num_labels ) _SCREAMING_SNAKE_CASE =ids_tensor([self.batch_size] , self.num_choices ) _SCREAMING_SNAKE_CASE =self.get_config() return config, input_ids, input_mask, sequence_labels, token_labels, choice_labels def A ( self : Dict ) -> Dict: '''simple docstring''' return MPNetConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , initializer_range=self.initializer_range , ) def A ( self : Tuple , _a : Dict , _a : Dict , _a : Dict , _a : int , _a : Optional[int] , _a : Any ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =MPNetModel(config=_a ) model.to(_a ) model.eval() _SCREAMING_SNAKE_CASE =model(_a , _a ) _SCREAMING_SNAKE_CASE =model(_a ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.hidden_size) ) def A ( self : Union[str, Any] , _a : List[Any] , _a : Dict , _a : List[Any] , _a : Any , _a : List[Any] , _a : Dict ) -> Optional[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =MPNetForQuestionAnswering(config=_a ) model.to(_a ) model.eval() _SCREAMING_SNAKE_CASE =model( _a , attention_mask=_a , start_positions=_a , end_positions=_a , ) self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length) ) self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length) ) def A ( self : Tuple , _a : Any , _a : List[Any] , _a : List[Any] , _a : Dict , _a : List[str] , _a : List[Any] ) -> List[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.num_labels _SCREAMING_SNAKE_CASE =MPNetForSequenceClassification(_a ) model.to(_a ) model.eval() _SCREAMING_SNAKE_CASE =model(_a , attention_mask=_a , labels=_a ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) ) def A ( self : Any , _a : int , _a : Optional[Any] , _a : List[Any] , _a : Tuple , _a : Tuple , _a : int ) -> Any: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.num_choices _SCREAMING_SNAKE_CASE =MPNetForMultipleChoice(config=_a ) model.to(_a ) model.eval() _SCREAMING_SNAKE_CASE =input_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() _SCREAMING_SNAKE_CASE =input_mask.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() _SCREAMING_SNAKE_CASE =model( _a , attention_mask=_a , labels=_a , ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_choices) ) def A ( self : Any , _a : int , _a : Optional[Any] , _a : Optional[Any] , _a : str , _a : List[Any] , _a : Any ) -> Any: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.num_labels _SCREAMING_SNAKE_CASE =MPNetForTokenClassification(config=_a ) model.to(_a ) model.eval() _SCREAMING_SNAKE_CASE =model(_a , attention_mask=_a , labels=_a ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels) ) def A ( self : Any ) -> List[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.prepare_config_and_inputs() ((_SCREAMING_SNAKE_CASE) , (_SCREAMING_SNAKE_CASE) , (_SCREAMING_SNAKE_CASE) , (_SCREAMING_SNAKE_CASE) , (_SCREAMING_SNAKE_CASE) , (_SCREAMING_SNAKE_CASE)) =config_and_inputs _SCREAMING_SNAKE_CASE ={'input_ids': input_ids, 'attention_mask': input_mask} return config, inputs_dict @require_torch class A__ ( A__ , A__ , unittest.TestCase ): A__ = ( ( MPNetForMaskedLM, MPNetForMultipleChoice, MPNetForQuestionAnswering, MPNetForSequenceClassification, MPNetForTokenClassification, MPNetModel, ) if is_torch_available() else () ) A__ = ( { 'feature-extraction': MPNetModel, 'fill-mask': MPNetForMaskedLM, 'question-answering': MPNetForQuestionAnswering, 'text-classification': MPNetForSequenceClassification, 'token-classification': MPNetForTokenClassification, 'zero-shot': MPNetForSequenceClassification, } if is_torch_available() else {} ) A__ = False A__ = True def A ( self : int ) -> Optional[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =MPNetModelTester(self ) _SCREAMING_SNAKE_CASE =ConfigTester(self , config_class=_a , hidden_size=37 ) def A ( self : List[Any] ) -> int: '''simple docstring''' self.config_tester.run_common_tests() def A ( self : Any ) -> Any: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_mpnet_model(*_a ) def A ( self : List[Any] ) -> List[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_mpnet_for_sequence_classification(*_a ) def A ( self : Optional[int] ) -> str: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_mpnet_for_multiple_choice(*_a ) def A ( self : Any ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_mpnet_for_token_classification(*_a ) def A ( self : str ) -> str: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_mpnet_for_question_answering(*_a ) @require_torch class A__ ( unittest.TestCase ): @slow def A ( self : Optional[Any] ) -> List[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =MPNetModel.from_pretrained('microsoft/mpnet-base' ) _SCREAMING_SNAKE_CASE =torch.tensor([[0, 345, 232, 328, 740, 140, 1695, 69, 6078, 1588, 2]] ) _SCREAMING_SNAKE_CASE =model(_a )[0] _SCREAMING_SNAKE_CASE =torch.Size((1, 11, 768) ) self.assertEqual(output.shape , _a ) _SCREAMING_SNAKE_CASE =torch.tensor( [[[-0.05_50, 0.19_43, -0.07_40], [-0.05_62, 0.22_11, -0.05_79], [-0.04_37, 0.33_37, -0.06_41]]] ) # compare the actual values for a slice. self.assertTrue(torch.allclose(output[:, :3, :3] , _a , atol=1e-4 ) )

47

"""simple docstring""" from collections import defaultdict from graphs.minimum_spanning_tree_prims import prisms_algorithm as mst def snake_case_ ( ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : int = 9, 14 # noqa: F841 _lowerCamelCase : List[Any] = [ [0, 1, 4], [0, 7, 8], [1, 2, 8], [7, 8, 7], [7, 6, 1], [2, 8, 2], [8, 6, 6], [2, 3, 7], [2, 5, 4], [6, 5, 2], [3, 5, 14], [3, 4, 9], [5, 4, 10], [1, 7, 11], ] _lowerCamelCase : Any = defaultdict(A_ ) for nodea, nodea, cost in edges: adjancency[nodea].append([nodea, cost] ) adjancency[nodea].append([nodea, cost] ) _lowerCamelCase : List[str] = mst(A_ ) _lowerCamelCase : Optional[int] = [ [7, 6, 1], [2, 8, 2], [6, 5, 2], [0, 1, 4], [2, 5, 4], [2, 3, 7], [0, 7, 8], [3, 4, 9], ] for answer in expected: _lowerCamelCase : int = tuple(answer[:2] ) _lowerCamelCase : int = tuple(edge[::-1] ) assert edge in result or reverse in result

72

0

import tempfile import unittest from pathlib import Path from shutil import copyfile from transformers import MaMaaaTokenizer, is_torch_available from transformers.testing_utils import ( get_tests_dir, nested_simplify, require_sentencepiece, require_tokenizers, require_torch, slow, ) from transformers.utils import is_sentencepiece_available if is_sentencepiece_available(): from transformers.models.mam_aaa.tokenization_mam_aaa import VOCAB_FILES_NAMES, save_json from ...test_tokenization_common import TokenizerTesterMixin if is_sentencepiece_available(): SCREAMING_SNAKE_CASE__ : Optional[Any] = get_tests_dir('fixtures/test_sentencepiece.model') if is_torch_available(): from transformers.models.mam_aaa.modeling_mam_aaa import shift_tokens_right SCREAMING_SNAKE_CASE__ : Tuple = 128022 SCREAMING_SNAKE_CASE__ : Optional[Any] = 128028 @require_sentencepiece class UpperCamelCase__ (lowerCAmelCase__ , unittest.TestCase ): '''simple docstring''' lowerCamelCase_ : Optional[Any] = MaMaaaTokenizer lowerCamelCase_ : List[str] = False lowerCamelCase_ : Any = False lowerCamelCase_ : List[str] = True def _lowercase ( self ) -> List[str]: super().setUp() lowerCamelCase : Union[str, Any] = ["</s>", "<unk>", "▁This", "▁is", "▁a", "▁t", "est", "\u0120", "<pad>"] lowerCamelCase : str = dict(zip(UpperCamelCase__ , range(len(UpperCamelCase__ ) ) ) ) lowerCamelCase : List[str] = Path(self.tmpdirname ) save_json(UpperCamelCase__ , save_dir / VOCAB_FILES_NAMES["vocab_file"] ) if not (save_dir / VOCAB_FILES_NAMES["spm_file"]).exists(): copyfile(UpperCamelCase__ , save_dir / VOCAB_FILES_NAMES["spm_file"] ) lowerCamelCase : Tuple = MaMaaaTokenizer.from_pretrained(self.tmpdirname ) tokenizer.save_pretrained(self.tmpdirname ) def _lowercase ( self , **UpperCamelCase__ ) -> Union[str, Any]: return MaMaaaTokenizer.from_pretrained(self.tmpdirname , **UpperCamelCase__ ) def _lowercase ( self , UpperCamelCase__ ) -> List[Any]: return ( "This is a test", "This is a test", ) def _lowercase ( self ) -> Dict: lowerCamelCase : str = "</s>" lowerCamelCase : int = 0 self.assertEqual(self.get_tokenizer()._convert_token_to_id(UpperCamelCase__ ) , UpperCamelCase__ ) self.assertEqual(self.get_tokenizer()._convert_id_to_token(UpperCamelCase__ ) , UpperCamelCase__ ) def _lowercase ( self ) -> Optional[int]: lowerCamelCase : Tuple = self.get_tokenizer() lowerCamelCase : int = list(tokenizer.get_vocab().keys() ) self.assertEqual(vocab_keys[0] , "</s>" ) self.assertEqual(vocab_keys[1] , "<unk>" ) self.assertEqual(vocab_keys[-1] , "<s>" ) self.assertEqual(len(UpperCamelCase__ ) , tokenizer.vocab_size + len(tokenizer.get_added_vocab() ) ) @unittest.skip("Skip this test while all models are still to be uploaded." ) def _lowercase ( self ) -> int: pass def _lowercase ( self ) -> Dict: lowerCamelCase : List[Any] = self.get_tokenizer() lowerCamelCase : Optional[Any] = tokenizer.tokenize("This is a test" ) self.assertListEqual(UpperCamelCase__ , ["▁This", "▁is", "▁a", "▁t", "est"] ) self.assertListEqual( tokenizer.convert_tokens_to_ids(UpperCamelCase__ ) , [2, 3, 4, 5, 6] , ) lowerCamelCase : List[Any] = tokenizer.convert_ids_to_tokens([2, 3, 4, 5, 6] ) self.assertListEqual(UpperCamelCase__ , ["▁This", "▁is", "▁a", "▁t", "est"] ) lowerCamelCase : str = tokenizer.convert_tokens_to_string(UpperCamelCase__ ) self.assertEqual(UpperCamelCase__ , "This is a test" ) @slow def _lowercase ( self ) -> Optional[int]: # fmt: off lowerCamelCase : Optional[int] = {"input_ids": [[12_8022, 11_0108, 397, 11, 3_8272, 2247, 12_4811, 285, 1_8105, 1586, 207, 7, 3_9534, 4428, 397, 1019, 1_8105, 1586, 207, 7, 4_1337, 1_6786, 241, 7, 2_0214, 17, 12_5690, 1_0398, 7, 4_4378, 5_8069, 6_8342, 7798, 7343, 11, 299, 3_3310, 4, 158, 3_7350, 9_4077, 4569, 299, 3_3310, 90, 4, 5_2840, 290, 4, 3_1270, 112, 299, 682, 4, 5_2840, 3_9953, 1_4079, 193, 5_2519, 9_0894, 1_7894, 12_0697, 11, 4_0445, 551, 17, 1019, 5_2519, 9_0894, 1_7756, 963, 11, 4_0445, 480, 17, 9792, 1120, 5173, 1393, 6240, 1_6786, 241, 12_0996, 28, 1245, 1393, 11_8240, 1_1123, 1019, 9_3612, 2691, 1_0618, 9_8058, 12_0409, 1928, 279, 4, 4_0683, 367, 178, 207, 1019, 103, 10_3121, 506, 6_5296, 5, 2], [12_8022, 2_1217, 367, 117, 12_5450, 128, 719, 7, 7308, 40, 9_3612, 1_2669, 1116, 1_6704, 71, 1_7785, 3699, 1_5592, 35, 144, 9584, 241, 1_1943, 713, 950, 799, 2247, 8_8427, 150, 149, 11_8813, 12_0706, 1019, 10_6906, 8_1518, 28, 1224, 2_2799, 397, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [12_8022, 1658, 12_3311, 5155, 5578, 4722, 279, 1_4947, 2366, 1120, 1197, 14, 1348, 9232, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]], "attention_mask": [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]]} # noqa: E501 # fmt: on self.tokenizer_integration_test_util( expected_encoding=UpperCamelCase__ , model_name="facebook/m2m100_418M" , revision="c168bae485c864188cf9aa0e4108b0b6934dc91e" , ) @require_torch @require_sentencepiece @require_tokenizers class UpperCamelCase__ (unittest.TestCase ): '''simple docstring''' lowerCamelCase_ : Optional[int] = """facebook/m2m100_418M""" lowerCamelCase_ : Optional[int] = [ """In my opinion, there are two levels of response from the French government.""", """NSA Affair Emphasizes Complete Lack of Debate on Intelligence""", ] lowerCamelCase_ : List[Any] = [ """Selon moi, il y a deux niveaux de réponse de la part du gouvernement français.""", """L'affaire NSA souligne l'absence totale de débat sur le renseignement""", ] # fmt: off lowerCamelCase_ : List[str] = [EN_CODE, 5_9_3, 1_9_4_9, 1_1_5_7_8_1, 4, 7_1_5_8_6, 4_2_3_4, 6_0_6_3_3, 1_2_6_2_3_3, 4_3_2, 1_2_3_8_0_8, 1_5_5_9_2, 1_1_9_7, 1_1_7_1_3_2, 1_2_0_6_1_8, 5, 2] @classmethod def _lowercase ( cls ) -> List[Any]: lowerCamelCase : MaMaaaTokenizer = MaMaaaTokenizer.from_pretrained( cls.checkpoint_name , src_lang="en" , tgt_lang="fr" ) lowerCamelCase : Dict = 1 return cls def _lowercase ( self ) -> Tuple: self.assertEqual(self.tokenizer.get_lang_id("ar" ) , 12_8006 ) self.assertEqual(self.tokenizer.get_lang_id("en" ) , 12_8022 ) self.assertEqual(self.tokenizer.get_lang_id("ro" ) , 12_8076 ) self.assertEqual(self.tokenizer.get_lang_id("mr" ) , 12_8063 ) def _lowercase ( self ) -> Dict: lowerCamelCase : List[str] = self.tokenizer.get_vocab() self.assertEqual(len(UpperCamelCase__ ) , self.tokenizer.vocab_size ) self.assertEqual(vocab["<unk>"] , 3 ) self.assertIn(self.tokenizer.get_lang_token("en" ) , UpperCamelCase__ ) def _lowercase ( self ) -> Tuple: lowerCamelCase : Any = "en" lowerCamelCase : Optional[Any] = self.tokenizer.batch_encode_plus(self.src_text ).input_ids[0] self.assertListEqual(self.expected_src_tokens , UpperCamelCase__ ) def _lowercase ( self ) -> int: self.assertIn(UpperCamelCase__ , self.tokenizer.all_special_ids ) # fmt: off lowerCamelCase : Any = [FR_CODE, 5364, 82, 8642, 4, 294, 47, 8, 1_4028, 136, 3286, 9706, 6, 9_0797, 6, 14_4012, 162, 8_8128, 3_0061, 5, 2] # fmt: on lowerCamelCase : List[str] = self.tokenizer.decode(UpperCamelCase__ , skip_special_tokens=UpperCamelCase__ ) lowerCamelCase : Any = self.tokenizer.decode(generated_ids[1:] , skip_special_tokens=UpperCamelCase__ ) self.assertEqual(UpperCamelCase__ , UpperCamelCase__ ) self.assertNotIn(self.tokenizer.eos_token , UpperCamelCase__ ) def _lowercase ( self ) -> Optional[int]: lowerCamelCase : List[Any] = tempfile.mkdtemp() lowerCamelCase : List[Any] = self.tokenizer.lang_token_to_id self.tokenizer.save_pretrained(UpperCamelCase__ ) lowerCamelCase : Tuple = MaMaaaTokenizer.from_pretrained(UpperCamelCase__ ) self.assertDictEqual(new_tok.lang_token_to_id , UpperCamelCase__ ) @require_torch def _lowercase ( self ) -> Any: lowerCamelCase : Any = "en" lowerCamelCase : Optional[Any] = "fr" lowerCamelCase : List[Any] = self.tokenizer(self.src_text , text_target=self.tgt_text , padding=UpperCamelCase__ , return_tensors="pt" ) lowerCamelCase : Dict = shift_tokens_right( batch["labels"] , self.tokenizer.pad_token_id , self.tokenizer.eos_token_id ) for k in batch: lowerCamelCase : Any = batch[k].tolist() # batch = {k: v.tolist() for k,v in batch.items()} # fairseq batch: https://gist.github.com/sshleifer/cba08bc2109361a74ac3760a7e30e4f4 # batch.decoder_inputs_ids[0][0] == assert batch.input_ids[1][0] == EN_CODE assert batch.input_ids[1][-1] == 2 assert batch.labels[1][0] == FR_CODE assert batch.labels[1][-1] == 2 assert batch.decoder_input_ids[1][:2] == [2, FR_CODE] @require_torch def _lowercase ( self ) -> Optional[int]: lowerCamelCase : Union[str, Any] = "mr" self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id("mr" )] ) self.assertListEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) lowerCamelCase : List[str] = "zh" self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id("zh" )] ) self.assertListEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) @require_torch def _lowercase ( self ) -> Optional[int]: lowerCamelCase : List[Any] = "mr" self.tokenizer._switch_to_target_mode() self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id("mr" )] ) self.assertListEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) self.tokenizer._switch_to_input_mode() self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id(self.tokenizer.src_lang )] ) lowerCamelCase : Dict = "zh" self.tokenizer._switch_to_target_mode() self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id("zh" )] ) self.assertListEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) self.tokenizer._switch_to_input_mode() self.assertListEqual(self.tokenizer.prefix_tokens , [self.tokenizer.get_lang_id(self.tokenizer.src_lang )] ) @require_torch def _lowercase ( self ) -> Union[str, Any]: lowerCamelCase : List[Any] = self.tokenizer._build_translation_inputs("A test" , return_tensors="pt" , src_lang="en" , tgt_lang="ar" ) self.assertEqual( nested_simplify(UpperCamelCase__ ) , { # en_XX, A, test, EOS "input_ids": [[12_8022, 58, 4183, 2]], "attention_mask": [[1, 1, 1, 1]], # ar_AR "forced_bos_token_id": 12_8006, } , )

48

"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt''', '''tokenizer_file''': '''tokenizer.json'''} # See all BART models at https://huggingface.co/models?filter=bart lowerCAmelCase__ = { '''vocab_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/vocab.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/vocab.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json''', }, '''merges_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/merges.txt''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/merges.txt''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt''', }, '''tokenizer_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1024, '''facebook/bart-large''': 1024, '''facebook/bart-large-mnli''': 1024, '''facebook/bart-large-cnn''': 1024, '''facebook/bart-large-xsum''': 1024, '''yjernite/bart_eli5''': 1024, } class __snake_case ( _lowercase): snake_case__ : Any = VOCAB_FILES_NAMES snake_case__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP snake_case__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES snake_case__ : Optional[int] = ["input_ids", "attention_mask"] snake_case__ : Any = BartTokenizer def __init__( self : int , __lowerCAmelCase : Dict=None , __lowerCAmelCase : int=None , __lowerCAmelCase : Dict=None , __lowerCAmelCase : List[Any]="replace" , __lowerCAmelCase : Any="<s>" , __lowerCAmelCase : Optional[int]="</s>" , __lowerCAmelCase : str="</s>" , __lowerCAmelCase : Dict="<s>" , __lowerCAmelCase : Union[str, Any]="<unk>" , __lowerCAmelCase : Any="<pad>" , __lowerCAmelCase : Optional[Any]="<mask>" , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Dict=True , **__lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__( __lowerCAmelCase , __lowerCAmelCase , tokenizer_file=__lowerCAmelCase , errors=__lowerCAmelCase , bos_token=__lowerCAmelCase , eos_token=__lowerCAmelCase , sep_token=__lowerCAmelCase , cls_token=__lowerCAmelCase , unk_token=__lowerCAmelCase , pad_token=__lowerCAmelCase , mask_token=__lowerCAmelCase , add_prefix_space=__lowerCAmelCase , trim_offsets=__lowerCAmelCase , **__lowerCAmelCase , ) _lowerCamelCase : Tuple = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = getattr(__lowerCAmelCase , pre_tok_state.pop('''type''' ) ) _lowerCamelCase : Any = add_prefix_space _lowerCamelCase : int = pre_tok_class(**__lowerCAmelCase ) _lowerCamelCase : Optional[int] = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _lowerCamelCase : List[str] = '''post_processor''' _lowerCamelCase : List[str] = getattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) if tokenizer_component_instance: _lowerCamelCase : int = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _lowerCamelCase : Tuple = tuple(state['''sep'''] ) if "cls" in state: _lowerCamelCase : int = tuple(state['''cls'''] ) _lowerCamelCase : Union[str, Any] = False if state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = add_prefix_space _lowerCamelCase : Optional[Any] = True if state.get('''trim_offsets''' , __lowerCAmelCase ) != trim_offsets: _lowerCamelCase : Any = trim_offsets _lowerCamelCase : str = True if changes_to_apply: _lowerCamelCase : List[str] = getattr(__lowerCAmelCase , state.pop('''type''' ) ) _lowerCamelCase : str = component_class(**__lowerCAmelCase ) setattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) @property def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : int ): """simple docstring""" _lowerCamelCase : Tuple = AddedToken(__lowerCAmelCase , lstrip=__lowerCAmelCase , rstrip=__lowerCAmelCase ) if isinstance(__lowerCAmelCase , __lowerCAmelCase ) else value _lowerCamelCase : str = value def SCREAMING_SNAKE_CASE ( self : int , *__lowerCAmelCase : Optional[Any] , **__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Dict = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._batch_encode_plus(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : Tuple , **__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Any = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._encode_plus(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[str] = None ): """simple docstring""" _lowerCamelCase : Tuple = self._tokenizer.model.save(__lowerCAmelCase , name=__lowerCAmelCase ) return tuple(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : Dict , __lowerCAmelCase : List[str]=None ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : List[int] , __lowerCAmelCase : Optional[List[int]] = None ): """simple docstring""" _lowerCamelCase : List[str] = [self.sep_token_id] _lowerCamelCase : Tuple = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]

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def __snake_case ( _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase ): __a = len(_UpperCAmelCase ) __a = [[0] * n for i in range(_UpperCAmelCase )] for i in range(_UpperCAmelCase ): __a = y_points[i] for i in range(2 , _UpperCAmelCase ): for j in range(_UpperCAmelCase , _UpperCAmelCase ): __a = ( (xa - x_points[j - i + 1]) * q[j][i - 1] - (xa - x_points[j]) * q[j - 1][i - 1] ) / (x_points[j] - x_points[j - i + 1]) return [q[n - 1][n - 1], q] if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" from __future__ import annotations def snake_case_ ( A_ : str ): '''simple docstring''' return [ord(A_ ) - 96 for elem in plain] def snake_case_ ( A_ : list[int] ): '''simple docstring''' return "".join(chr(elem + 96 ) for elem in encoded ) def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Dict = encode(input('''-> ''' ).strip().lower() ) print('''Encoded: ''', A_ ) print('''Decoded:''', decode(A_ ) ) if __name__ == "__main__": main()

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import unittest import numpy as np from transformers.testing_utils import require_flax, require_tf, require_torch from transformers.utils import ( expand_dims, flatten_dict, is_flax_available, is_tf_available, is_torch_available, reshape, squeeze, transpose, ) if is_flax_available(): import jax.numpy as jnp if is_tf_available(): import tensorflow as tf if is_torch_available(): import torch class lowerCAmelCase ( unittest.TestCase ): def A_ ( self : List[str] ) -> int: lowerCamelCase__ : Union[str, Any] = { 'task_specific_params': { 'summarization': {'length_penalty': 1.0, 'max_length': 128, 'min_length': 12, 'num_beams': 4}, 'summarization_cnn': {'length_penalty': 2.0, 'max_length': 142, 'min_length': 56, 'num_beams': 4}, 'summarization_xsum': {'length_penalty': 1.0, 'max_length': 62, 'min_length': 11, 'num_beams': 6}, } } lowerCamelCase__ : Tuple = { 'task_specific_params.summarization.length_penalty': 1.0, 'task_specific_params.summarization.max_length': 128, 'task_specific_params.summarization.min_length': 12, 'task_specific_params.summarization.num_beams': 4, 'task_specific_params.summarization_cnn.length_penalty': 2.0, 'task_specific_params.summarization_cnn.max_length': 142, 'task_specific_params.summarization_cnn.min_length': 56, 'task_specific_params.summarization_cnn.num_beams': 4, 'task_specific_params.summarization_xsum.length_penalty': 1.0, 'task_specific_params.summarization_xsum.max_length': 62, 'task_specific_params.summarization_xsum.min_length': 11, 'task_specific_params.summarization_xsum.num_beams': 6, } self.assertEqual(flatten_dict(UpperCAmelCase ) , UpperCAmelCase ) def A_ ( self : List[str] ) -> Optional[int]: lowerCamelCase__ : Union[str, Any] = np.random.randn(3 , 4 ) self.assertTrue(np.allclose(transpose(UpperCAmelCase ) , x.transpose() ) ) lowerCamelCase__ : str = np.random.randn(3 , 4 , 5 ) self.assertTrue(np.allclose(transpose(UpperCAmelCase , axes=(1, 2, 0) ) , x.transpose((1, 2, 0) ) ) ) @require_torch def A_ ( self : Any ) -> int: lowerCamelCase__ : List[Any] = np.random.randn(3 , 4 ) lowerCamelCase__ : Dict = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase ) , transpose(UpperCAmelCase ).numpy() ) ) lowerCamelCase__ : Union[str, Any] = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : str = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase , axes=(1, 2, 0) ) , transpose(UpperCAmelCase , axes=(1, 2, 0) ).numpy() ) ) @require_tf def A_ ( self : int ) -> Union[str, Any]: lowerCamelCase__ : int = np.random.randn(3 , 4 ) lowerCamelCase__ : Any = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase ) , transpose(UpperCAmelCase ).numpy() ) ) lowerCamelCase__ : Any = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : List[str] = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase , axes=(1, 2, 0) ) , transpose(UpperCAmelCase , axes=(1, 2, 0) ).numpy() ) ) @require_flax def A_ ( self : Any ) -> Optional[Any]: lowerCamelCase__ : List[str] = np.random.randn(3 , 4 ) lowerCamelCase__ : Optional[int] = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase ) , np.asarray(transpose(UpperCAmelCase ) ) ) ) lowerCamelCase__ : Any = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : List[str] = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(transpose(UpperCAmelCase , axes=(1, 2, 0) ) , np.asarray(transpose(UpperCAmelCase , axes=(1, 2, 0) ) ) ) ) def A_ ( self : List[str] ) -> Dict: lowerCamelCase__ : Tuple = np.random.randn(3 , 4 ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (4, 3) ) , np.reshape(UpperCAmelCase , (4, 3) ) ) ) lowerCamelCase__ : List[Any] = np.random.randn(3 , 4 , 5 ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (12, 5) ) , np.reshape(UpperCAmelCase , (12, 5) ) ) ) @require_torch def A_ ( self : List[Any] ) -> int: lowerCamelCase__ : Dict = np.random.randn(3 , 4 ) lowerCamelCase__ : Dict = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (4, 3) ) , reshape(UpperCAmelCase , (4, 3) ).numpy() ) ) lowerCamelCase__ : Union[str, Any] = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : Union[str, Any] = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (12, 5) ) , reshape(UpperCAmelCase , (12, 5) ).numpy() ) ) @require_tf def A_ ( self : Tuple ) -> List[Any]: lowerCamelCase__ : int = np.random.randn(3 , 4 ) lowerCamelCase__ : Dict = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (4, 3) ) , reshape(UpperCAmelCase , (4, 3) ).numpy() ) ) lowerCamelCase__ : List[str] = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : Dict = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (12, 5) ) , reshape(UpperCAmelCase , (12, 5) ).numpy() ) ) @require_flax def A_ ( self : Optional[int] ) -> str: lowerCamelCase__ : Optional[Any] = np.random.randn(3 , 4 ) lowerCamelCase__ : int = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (4, 3) ) , np.asarray(reshape(UpperCAmelCase , (4, 3) ) ) ) ) lowerCamelCase__ : str = np.random.randn(3 , 4 , 5 ) lowerCamelCase__ : Any = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(reshape(UpperCAmelCase , (12, 5) ) , np.asarray(reshape(UpperCAmelCase , (12, 5) ) ) ) ) def A_ ( self : str ) -> List[str]: lowerCamelCase__ : Union[str, Any] = np.random.randn(1 , 3 , 4 ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase ) , np.squeeze(UpperCAmelCase ) ) ) lowerCamelCase__ : Any = np.random.randn(1 , 4 , 1 , 5 ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase , axis=2 ) , np.squeeze(UpperCAmelCase , axis=2 ) ) ) @require_torch def A_ ( self : List[str] ) -> List[str]: lowerCamelCase__ : Tuple = np.random.randn(1 , 3 , 4 ) lowerCamelCase__ : Union[str, Any] = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase ) , squeeze(UpperCAmelCase ).numpy() ) ) lowerCamelCase__ : str = np.random.randn(1 , 4 , 1 , 5 ) lowerCamelCase__ : Optional[Any] = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase , axis=2 ) , squeeze(UpperCAmelCase , axis=2 ).numpy() ) ) @require_tf def A_ ( self : Optional[int] ) -> List[str]: lowerCamelCase__ : str = np.random.randn(1 , 3 , 4 ) lowerCamelCase__ : Optional[int] = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase ) , squeeze(UpperCAmelCase ).numpy() ) ) lowerCamelCase__ : List[str] = np.random.randn(1 , 4 , 1 , 5 ) lowerCamelCase__ : Optional[Any] = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase , axis=2 ) , squeeze(UpperCAmelCase , axis=2 ).numpy() ) ) @require_flax def A_ ( self : Optional[Any] ) -> List[Any]: lowerCamelCase__ : List[str] = np.random.randn(1 , 3 , 4 ) lowerCamelCase__ : Optional[Any] = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase ) , np.asarray(squeeze(UpperCAmelCase ) ) ) ) lowerCamelCase__ : Optional[Any] = np.random.randn(1 , 4 , 1 , 5 ) lowerCamelCase__ : Tuple = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(squeeze(UpperCAmelCase , axis=2 ) , np.asarray(squeeze(UpperCAmelCase , axis=2 ) ) ) ) def A_ ( self : Dict ) -> Optional[Any]: lowerCamelCase__ : Any = np.random.randn(3 , 4 ) self.assertTrue(np.allclose(expand_dims(UpperCAmelCase , axis=1 ) , np.expand_dims(UpperCAmelCase , axis=1 ) ) ) @require_torch def A_ ( self : Optional[Any] ) -> List[Any]: lowerCamelCase__ : Any = np.random.randn(3 , 4 ) lowerCamelCase__ : Optional[int] = torch.tensor(UpperCAmelCase ) self.assertTrue(np.allclose(expand_dims(UpperCAmelCase , axis=1 ) , expand_dims(UpperCAmelCase , axis=1 ).numpy() ) ) @require_tf def A_ ( self : int ) -> Optional[int]: lowerCamelCase__ : Optional[int] = np.random.randn(3 , 4 ) lowerCamelCase__ : Any = tf.constant(UpperCAmelCase ) self.assertTrue(np.allclose(expand_dims(UpperCAmelCase , axis=1 ) , expand_dims(UpperCAmelCase , axis=1 ).numpy() ) ) @require_flax def A_ ( self : Any ) -> Optional[Any]: lowerCamelCase__ : Optional[Any] = np.random.randn(3 , 4 ) lowerCamelCase__ : Optional[Any] = jnp.array(UpperCAmelCase ) self.assertTrue(np.allclose(expand_dims(UpperCAmelCase , axis=1 ) , np.asarray(expand_dims(UpperCAmelCase , axis=1 ) ) ) )

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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = { '''configuration_lxmert''': ['''LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LxmertConfig'''], '''tokenization_lxmert''': ['''LxmertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''LxmertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''LxmertEncoder''', '''LxmertForPreTraining''', '''LxmertForQuestionAnswering''', '''LxmertModel''', '''LxmertPreTrainedModel''', '''LxmertVisualFeatureEncoder''', '''LxmertXLayer''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFLxmertForPreTraining''', '''TFLxmertMainLayer''', '''TFLxmertModel''', '''TFLxmertPreTrainedModel''', '''TFLxmertVisualFeatureEncoder''', ] if TYPE_CHECKING: from .configuration_lxmert import LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, LxmertConfig from .tokenization_lxmert import LxmertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_lxmert_fast import LxmertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lxmert import ( LxmertEncoder, LxmertForPreTraining, LxmertForQuestionAnswering, LxmertModel, LxmertPreTrainedModel, LxmertVisualFeatureEncoder, LxmertXLayer, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_lxmert import ( TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFLxmertForPreTraining, TFLxmertMainLayer, TFLxmertModel, TFLxmertPreTrainedModel, TFLxmertVisualFeatureEncoder, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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# HF Trainer benchmarking tool # # This tool can be used to run and compare multiple dimensions of the HF Trainers args. # # It then prints a report once in github format with all the information that needs to be shared # with others and second time in a console-friendly format, so it's easier to use for tuning things up. # # The main idea is: # # ./trainer-benchmark.py --base-cmd '<cmd args that don't change>' \ # --variations '--tf32 0|--tf32 1' '--fp16 0|--fp16 1|--bf16 1' \ # --target-metric-key train_samples_per_second # # The variations can be any command line argument that you want to compare and not just dtype as in # the example. # # --variations allows you to compare variations in multiple dimensions. # # as the first dimention has 2 options and the second 3 in our example, this will run the trainer 6 # times adding one of: # # 1. --tf32 0 --fp16 0 # 2. --tf32 0 --fp16 1 # 3. --tf32 0 --bf16 1 # 4. --tf32 1 --fp16 0 # 5. --tf32 1 --fp16 1 # 6. --tf32 1 --bf16 1 # # and print the results. This is just a cartesian product - and more than 2 dimensions can be used. # # If you want to rely on defaults, this: # --variations '--tf32 0|--tf32 1' '--fp16 0|--fp16 1|--bf16 1' # is identical to this: # --variations '--tf32 0|--tf32 1' '|--fp16|--bf16' # # the leading empty variation in the 2nd dimension is a valid variation. # # So here we get the following 6 variations: # # 1. --tf32 0 # 2. --tf32 0 --fp16 # 3. --tf32 0 --bf16 # 4. --tf32 1 # 5. --tf32 1 --fp16 # 6. --tf32 1 --bf16 # # In this particular case we don't know what the default tf32 setting is as it's normally # pytorch-version dependent). That's why it's best to do an explicit setting of each variation: # `--tf32 0|--tf32 1` # # Here is a full example of a train: # # CUDA_VISIBLE_DEVICES=0 python ./scripts/benchmark/trainer-benchmark.py \ # --base-cmd \ # ' examples/pytorch/translation/run_translation.py --model_name_or_path t5-small \ # --output_dir output_dir --do_train --label_smoothing 0.1 --logging_strategy no \ # --save_strategy no --per_device_train_batch_size 32 --max_source_length 512 \ # --max_target_length 512 --num_train_epochs 1 --overwrite_output_dir \ # --source_lang en --target_lang ro --dataset_name wmt16 --dataset_config "ro-en" \ # --source_prefix "translate English to Romanian: " --warmup_steps 50 \ # --max_train_samples 20000 --dataloader_num_workers 2 ' \ # --target-metric-key train_samples_per_second --repeat-times 1 --variations \ # '|--fp16|--bf16' '--tf32 0|--tf32 1' --report-metric-keys train_loss \ # --repeat-times 1 --base-variation '--tf32 0' # # and here is a possible output: # # # | Variation | Train | Diff | Train | # | | samples | % | loss | # | | per | | | # | | second | | | # |:----------------|----------:|-------:|--------:| # | --tf32 0 | 285.11 | 0 | 2.51 | # | --tf32 1 | 342.09 | 20 | 2.51 | # | --fp16 --tf32 0 | 423.49 | 49 | 2.51 | # | --fp16 --tf32 1 | 423.13 | 48 | 2.51 | # | --bf16 --tf32 0 | 416.80 | 46 | 2.52 | # | --bf16 --tf32 1 | 415.87 | 46 | 2.52 | # # # So you can quickly compare the different outcomes. # # Typically running each experiment once is enough, but if the environment is unstable you can # re-run each multiple times, e.g., 3 using --repeat-times 3 and it will report the averaged results. # # By default it'll use the lowest result as the base line to use as 100% and then compare the rest to # it as can be seen from the table above, but you can also specify which combination is the one to use as # the baseline, e.g., to change to another entry use: --base-variation '--tf32 1 --fp16 0' # # --target-metric-key is there to tell the program which metrics to compare - the different metric keys are # inside output_dir/all_results.json. e.g., to measure eval performance instead of train use: # --target-metric-key eval_samples_per_second # but of course you will need to adjust the --base-cmd value in the example to perform evaluation as # well (as currently it doesn't) # import argparse import datetime import io import itertools import json import math import os import platform import re import shlex import subprocess import sys from pathlib import Path from statistics import fmean import pandas as pd import torch from tqdm import tqdm import transformers snake_case_ : List[Any] = float("nan") class __snake_case : def __init__( self : Optional[int] , _snake_case : int): """simple docstring""" UpperCAmelCase_ = sys.stdout UpperCAmelCase_ = open(_snake_case , '''a''') def __getattr__( self : List[str] , _snake_case : Tuple): """simple docstring""" return getattr(self.stdout , _snake_case) def lowerCamelCase ( self : int , _snake_case : List[Any]): """simple docstring""" self.stdout.write(_snake_case) # strip tqdm codes self.file.write(re.sub(r'''^.*\r''' , '''''' , _snake_case , 0 , re.M)) def A (__A : Optional[Any]=80 , __A : Union[str, Any]=False ) -> Optional[int]: """simple docstring""" UpperCAmelCase_ = [] # deal with critical env vars UpperCAmelCase_ = ['''CUDA_VISIBLE_DEVICES'''] for key in env_keys: UpperCAmelCase_ = os.environ.get(__A , __A ) if val is not None: cmd.append(F"""{key}={val}""" ) # python executable (not always needed if the script is executable) UpperCAmelCase_ = sys.executable if full_python_path else sys.executable.split('''/''' )[-1] cmd.append(__A ) # now the normal args cmd += list(map(shlex.quote , sys.argv ) ) # split up into up to MAX_WIDTH lines with shell multi-line escapes UpperCAmelCase_ = [] UpperCAmelCase_ = '''''' while len(__A ) > 0: current_line += F"""{cmd.pop(0 )} """ if len(__A ) == 0 or len(__A ) + len(cmd[0] ) + 1 > max_width - 1: lines.append(__A ) UpperCAmelCase_ = '''''' return "\\\n".join(__A ) def A (__A : Union[str, Any] , __A : List[Any] ) -> Dict: """simple docstring""" UpperCAmelCase_ = re.sub(R'''[\\\n]+''' , ''' ''' , args.base_cmd ) # remove --output_dir if any and set our own UpperCAmelCase_ = re.sub('''--output_dir\s+[^\s]+''' , '''''' , args.base_cmd ) args.base_cmd += F""" --output_dir {output_dir}""" # ensure we have --overwrite_output_dir UpperCAmelCase_ = re.sub('''--overwrite_output_dir\s+''' , '''''' , args.base_cmd ) args.base_cmd += " --overwrite_output_dir" return [sys.executable] + shlex.split(args.base_cmd ) def A (__A : str , __A : List[str] , __A : Optional[Any] , __A : List[Any] , __A : Optional[int] , __A : Tuple , __A : Union[str, Any] ) -> Dict: """simple docstring""" if 0: import random from time import sleep sleep(0 ) return dict( {k: random.uniform(0 , 100 ) for k in metric_keys} , **{target_metric_key: random.choice([nan, 10.31, 100.2, 55.6_666, 222.22_222_222] )} , ) UpperCAmelCase_ = subprocess.run(__A , capture_output=__A , text=__A ) if verbose: print('''STDOUT''' , result.stdout ) print('''STDERR''' , result.stderr ) # save the streams UpperCAmelCase_ = variation.replace(''' ''' , '''-''' ) with open(Path(__A ) / F"""log.{prefix}.stdout.txt""" , '''w''' ) as f: f.write(result.stdout ) with open(Path(__A ) / F"""log.{prefix}.stderr.txt""" , '''w''' ) as f: f.write(result.stderr ) if result.returncode != 0: if verbose: print('''failed''' ) return {target_metric_key: nan} with io.open(F"""{output_dir}/all_results.json""" , '''r''' , encoding='''utf-8''' ) as f: UpperCAmelCase_ = json.load(__A ) # filter out just the keys we want return {k: v for k, v in metrics.items() if k in metric_keys} def A (__A : Tuple , __A : int , __A : Any , __A : Dict , __A : List[str] , __A : Tuple , __A : Optional[int] , __A : List[Any] , __A : int , __A : Any , ) -> int: """simple docstring""" UpperCAmelCase_ = [] UpperCAmelCase_ = [] UpperCAmelCase_ = F"""{id}: {variation:<{longest_variation_len}}""" UpperCAmelCase_ = F"""{preamble}: """ UpperCAmelCase_ = set(report_metric_keys + [target_metric_key] ) for i in tqdm(range(__A ) , desc=__A , leave=__A ): UpperCAmelCase_ = process_run_single( __A , __A , __A , __A , __A , __A , __A ) UpperCAmelCase_ = single_run_metrics[target_metric_key] if not math.isnan(__A ): metrics.append(__A ) results.append(__A ) outcome += "✓" else: outcome += "✘" UpperCAmelCase_ = F"""\33[2K\r{outcome}""" if len(__A ) > 0: UpperCAmelCase_ = {k: fmean([x[k] for x in metrics] ) for k in metrics[0].keys()} UpperCAmelCase_ = round(mean_metrics[target_metric_key] , 2 ) UpperCAmelCase_ = F"""{outcome} {mean_target}""" if len(__A ) > 1: results_str += F""" {tuple(round(__A , 2 ) for x in results )}""" print(__A ) UpperCAmelCase_ = variation return mean_metrics else: print(__A ) return {variation_key: variation, target_metric_key: nan} def A () -> Dict: """simple docstring""" UpperCAmelCase_ = torch.cuda.get_device_properties(torch.device('''cuda''' ) ) return F""" Datetime : {datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S" )} Software: transformers: {transformers.__version__} torch : {torch.__version__} cuda : {torch.version.cuda} python : {platform.python_version()} Hardware: {torch.cuda.device_count()} GPUs : {properties.name}, {properties.total_memory/2**30:0.2f}GB """ def A (__A : Optional[Any] , __A : str , __A : str , __A : List[str] , __A : Tuple ) -> List[Any]: """simple docstring""" UpperCAmelCase_ = pd.DataFrame(__A ) UpperCAmelCase_ = '''variation''' UpperCAmelCase_ = '''diff_%''' UpperCAmelCase_ = nan if base_variation is not None and len(df[df[variation_key] == base_variation] ): # this may still return nan UpperCAmelCase_ = df.loc[df[variation_key] == base_variation][target_metric_key].item() if math.isnan(__A ): # as a fallback, use the minimal value as the sentinel UpperCAmelCase_ = df.loc[df[target_metric_key] != nan][target_metric_key].min() # create diff column if possible if not math.isnan(__A ): UpperCAmelCase_ = df.apply( lambda __A : round(100 * (r[target_metric_key] - sentinel_value) / sentinel_value ) if not math.isnan(r[target_metric_key] ) else 0 , axis='''columns''' , ) # re-order columns UpperCAmelCase_ = [variation_key, target_metric_key, diff_key, *report_metric_keys] UpperCAmelCase_ = df.reindex(__A , axis='''columns''' ) # reorder cols # capitalize UpperCAmelCase_ = df.rename(str.capitalize , axis='''columns''' ) # make the cols as narrow as possible UpperCAmelCase_ = df.rename(lambda __A : c.replace('''_''' , ''' ''' ) , axis='''columns''' ) UpperCAmelCase_ = df.rename(lambda __A : c.replace('''_''' , '''\n''' ) , axis='''columns''' ) UpperCAmelCase_ = ['''''', '''Copy between the cut-here-lines and paste as is to github or a forum'''] report += ["----------8<-----------------8<--------"] report += ["*** Results:", df_github.to_markdown(index=__A , floatfmt='''.2f''' )] report += ["```"] report += ["*** Setup:", get_versions()] report += ["*** The benchmark command line was:", get_original_command()] report += ["```"] report += ["----------8<-----------------8<--------"] report += ["*** Results (console):", df_console.to_markdown(index=__A , floatfmt='''.2f''' )] print('''\n\n'''.join(__A ) ) def A () -> int: """simple docstring""" UpperCAmelCase_ = argparse.ArgumentParser() parser.add_argument( '''--base-cmd''' , default=__A , type=__A , required=__A , help='''Base cmd''' , ) parser.add_argument( '''--variations''' , default=__A , type=__A , nargs='''+''' , required=__A , help='''Multi-dimensional variations, example: \'|--fp16|--bf16\' \'|--tf32\'''' , ) parser.add_argument( '''--base-variation''' , default=__A , type=__A , help='''Baseline variation to compare to. if None the minimal target value will be used to compare against''' , ) parser.add_argument( '''--target-metric-key''' , default=__A , type=__A , required=__A , help='''Target metric key in output_dir/all_results.json, e.g., train_samples_per_second''' , ) parser.add_argument( '''--report-metric-keys''' , default='''''' , type=__A , help='''Report metric keys - other metric keys from output_dir/all_results.json to report, e.g., train_loss. Use a single argument e.g., \'train_loss train_samples''' , ) parser.add_argument( '''--repeat-times''' , default=1 , type=__A , help='''How many times to re-run each variation - an average will be reported''' , ) parser.add_argument( '''--output_dir''' , default='''output_benchmark''' , type=__A , help='''The output directory where all the benchmark reports will go to and additionally this directory will be used to override --output_dir in the script that is being benchmarked''' , ) parser.add_argument( '''--verbose''' , default=__A , action='''store_true''' , help='''Whether to show the outputs of each run or just the benchmark progress''' , ) UpperCAmelCase_ = parser.parse_args() UpperCAmelCase_ = args.output_dir Path(__A ).mkdir(exist_ok=__A ) UpperCAmelCase_ = get_base_command(__A , __A ) # split each dimension into its --foo variations UpperCAmelCase_ = [list(map(str.strip , re.split(R'''\|''' , __A ) ) ) for x in args.variations] # build a cartesian product of dimensions and convert those back into cmd-line arg strings, # while stripping white space for inputs that were empty UpperCAmelCase_ = list(map(str.strip , map(''' '''.join , itertools.product(*__A ) ) ) ) UpperCAmelCase_ = max(len(__A ) for x in variations ) # split wanted keys UpperCAmelCase_ = args.report_metric_keys.split() # capture prints into a log file for convenience UpperCAmelCase_ = F"""benchmark-report-{datetime.datetime.now().strftime("%Y-%m-%d-%H-%M-%S" )}.txt""" print(F"""\nNote: each run's output is also logged under {output_dir}/log.*.std*.txt""" ) print(F"""and this script's output is also piped into {report_fn}""" ) UpperCAmelCase_ = Tee(__A ) print(F"""\n*** Running {len(__A )} benchmarks:""" ) print(F"""Base command: {" ".join(__A )}""" ) UpperCAmelCase_ = '''variation''' UpperCAmelCase_ = [] for id, variation in enumerate(tqdm(__A , desc='''Total completion: ''' , leave=__A ) ): UpperCAmelCase_ = base_cmd + variation.split() results.append( process_run( id + 1 , __A , __A , __A , __A , args.target_metric_key , __A , args.repeat_times , __A , args.verbose , ) ) process_results(__A , args.target_metric_key , __A , args.base_variation , __A ) if __name__ == "__main__": main()

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"""simple docstring""" def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for data in source_data: for i, el in enumerate(A_ ): if len(A_ ) < i + 1: data_lists.append([] ) data_lists[i].append(float(A_ ) ) return data_lists def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for dlist, weight in zip(A_, A_ ): _lowerCamelCase : Any = min(A_ ) _lowerCamelCase : Optional[Any] = max(A_ ) _lowerCamelCase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowerCamelCase : str = F'''Invalid weight of {weight:f} provided''' raise ValueError(A_ ) score_lists.append(A_ ) return score_lists def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(A_ ): _lowerCamelCase : List[str] = final_scores[j] + ele return final_scores def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : Tuple = get_data(A_ ) _lowerCamelCase : Optional[Any] = calculate_each_score(A_, A_ ) _lowerCamelCase : str = generate_final_scores(A_ ) # append scores to source data for i, ele in enumerate(A_ ): source_data[i].append(A_ ) return source_data

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import os def A_ ( ) -> int: with open(os.path.dirname(_lowerCAmelCase ) + "/grid.txt" ) as f: UpperCamelCase : Optional[Any] = [] # noqa: E741 for _ in range(20 ): l.append([int(_lowerCAmelCase ) for x in f.readline().split()] ) UpperCamelCase : Optional[Any] = 0 # right for i in range(20 ): for j in range(17 ): UpperCamelCase : int = l[i][j] * l[i][j + 1] * l[i][j + 2] * l[i][j + 3] if temp > maximum: UpperCamelCase : Union[str, Any] = temp # down for i in range(17 ): for j in range(20 ): UpperCamelCase : str = l[i][j] * l[i + 1][j] * l[i + 2][j] * l[i + 3][j] if temp > maximum: UpperCamelCase : Optional[Any] = temp # diagonal 1 for i in range(17 ): for j in range(17 ): UpperCamelCase : Union[str, Any] = l[i][j] * l[i + 1][j + 1] * l[i + 2][j + 2] * l[i + 3][j + 3] if temp > maximum: UpperCamelCase : List[Any] = temp # diagonal 2 for i in range(17 ): for j in range(3 , 20 ): UpperCamelCase : int = l[i][j] * l[i + 1][j - 1] * l[i + 2][j - 2] * l[i + 3][j - 3] if temp > maximum: UpperCamelCase : Optional[int] = temp return maximum if __name__ == "__main__": print(solution())

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"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = { '''microsoft/unispeech-large-1500h-cv''': ( '''https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json''' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class __snake_case ( _lowercase): snake_case__ : List[str] = "unispeech" def __init__( self : List[str] , __lowerCAmelCase : List[Any]=3_2 , __lowerCAmelCase : str=7_6_8 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=3_0_7_2 , __lowerCAmelCase : Tuple="gelu" , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : str=0.1 , __lowerCAmelCase : Tuple=0.0 , __lowerCAmelCase : Optional[int]=0.0 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Optional[int]=0.1 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Dict=1E-5 , __lowerCAmelCase : Optional[int]="group" , __lowerCAmelCase : Dict="gelu" , __lowerCAmelCase : int=(5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2) , __lowerCAmelCase : Optional[int]=(5, 2, 2, 2, 2, 2, 2) , __lowerCAmelCase : Union[str, Any]=(1_0, 3, 3, 3, 3, 2, 2) , __lowerCAmelCase : List[Any]=False , __lowerCAmelCase : List[str]=1_2_8 , __lowerCAmelCase : Any=1_6 , __lowerCAmelCase : Optional[int]=False , __lowerCAmelCase : Optional[Any]=True , __lowerCAmelCase : Union[str, Any]=0.05 , __lowerCAmelCase : Union[str, Any]=1_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.0 , __lowerCAmelCase : Optional[int]=1_0 , __lowerCAmelCase : Dict=0 , __lowerCAmelCase : List[str]=3_2_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Tuple=1_0_0 , __lowerCAmelCase : Dict=2_5_6 , __lowerCAmelCase : str=2_5_6 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Dict="mean" , __lowerCAmelCase : Union[str, Any]=False , __lowerCAmelCase : Dict=False , __lowerCAmelCase : Optional[Any]=2_5_6 , __lowerCAmelCase : Dict=8_0 , __lowerCAmelCase : int=0 , __lowerCAmelCase : Optional[int]=1 , __lowerCAmelCase : Dict=2 , __lowerCAmelCase : Any=0.5 , **__lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__(**__lowerCAmelCase , pad_token_id=__lowerCAmelCase , bos_token_id=__lowerCAmelCase , eos_token_id=__lowerCAmelCase ) _lowerCamelCase : Dict = hidden_size _lowerCamelCase : Any = feat_extract_norm _lowerCamelCase : List[Any] = feat_extract_activation _lowerCamelCase : Any = list(__lowerCAmelCase ) _lowerCamelCase : Tuple = list(__lowerCAmelCase ) _lowerCamelCase : int = list(__lowerCAmelCase ) _lowerCamelCase : List[str] = conv_bias _lowerCamelCase : List[str] = num_conv_pos_embeddings _lowerCamelCase : Tuple = num_conv_pos_embedding_groups _lowerCamelCase : List[str] = len(self.conv_dim ) _lowerCamelCase : Tuple = num_hidden_layers _lowerCamelCase : List[Any] = intermediate_size _lowerCamelCase : Dict = hidden_act _lowerCamelCase : Union[str, Any] = num_attention_heads _lowerCamelCase : Tuple = hidden_dropout _lowerCamelCase : List[Any] = attention_dropout _lowerCamelCase : Optional[int] = activation_dropout _lowerCamelCase : Optional[Any] = feat_proj_dropout _lowerCamelCase : Optional[int] = final_dropout _lowerCamelCase : Any = layerdrop _lowerCamelCase : Any = layer_norm_eps _lowerCamelCase : List[Any] = initializer_range _lowerCamelCase : List[str] = num_ctc_classes _lowerCamelCase : List[Any] = vocab_size _lowerCamelCase : Optional[Any] = do_stable_layer_norm _lowerCamelCase : Tuple = use_weighted_layer_sum _lowerCamelCase : List[Any] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' f''' {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,''' f''' `len(config.conv_kernel) = {len(self.conv_kernel )}`.''' ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 _lowerCamelCase : Any = apply_spec_augment _lowerCamelCase : Dict = mask_time_prob _lowerCamelCase : List[str] = mask_time_length _lowerCamelCase : Optional[Any] = mask_time_min_masks _lowerCamelCase : List[str] = mask_feature_prob _lowerCamelCase : int = mask_feature_length _lowerCamelCase : Dict = mask_feature_min_masks # parameters for pretraining with codevector quantized representations _lowerCamelCase : Optional[Any] = num_codevectors_per_group _lowerCamelCase : int = num_codevector_groups _lowerCamelCase : List[Any] = contrastive_logits_temperature _lowerCamelCase : List[str] = feat_quantizer_dropout _lowerCamelCase : Dict = num_negatives _lowerCamelCase : Optional[int] = codevector_dim _lowerCamelCase : List[Any] = proj_codevector_dim _lowerCamelCase : List[Any] = diversity_loss_weight # ctc loss _lowerCamelCase : Union[str, Any] = ctc_loss_reduction _lowerCamelCase : Any = ctc_zero_infinity # pretraining loss _lowerCamelCase : str = replace_prob @property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )

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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available a__ : Optional[int] ={} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a__ : Optional[Any] =['''MLukeTokenizer'''] if TYPE_CHECKING: try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_mluke import MLukeTokenizer else: import sys a__ : Union[str, Any] =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" from typing import Optional from urllib.parse import quote import huggingface_hub as hfh from packaging import version def snake_case_ ( A_ : str, A_ : str, A_ : Optional[str] = None ): '''simple docstring''' if version.parse(hfh.__version__ ).release < version.parse('''0.11.0''' ).release: # old versions of hfh don't url-encode the file path _lowerCamelCase : Optional[Any] = quote(A_ ) return hfh.hf_hub_url(A_, A_, repo_type='''dataset''', revision=A_ )

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"""simple docstring""" import string # frequency taken from https://en.wikipedia.org/wiki/Letter_frequency a__ : Union[str, Any] = { '''E''': 12.70, '''T''': 9.06, '''A''': 8.17, '''O''': 7.51, '''I''': 6.97, '''N''': 6.75, '''S''': 6.33, '''H''': 6.09, '''R''': 5.99, '''D''': 4.25, '''L''': 4.03, '''C''': 2.78, '''U''': 2.76, '''M''': 2.41, '''W''': 2.36, '''F''': 2.23, '''G''': 2.02, '''Y''': 1.97, '''P''': 1.93, '''B''': 1.29, '''V''': 0.98, '''K''': 0.77, '''J''': 0.15, '''X''': 0.15, '''Q''': 0.10, '''Z''': 0.07, } a__ : Optional[Any] = '''ETAOINSHRDLCUMWFGYPBVKJXQZ''' a__ : Dict = '''ABCDEFGHIJKLMNOPQRSTUVWXYZ''' def UpperCAmelCase__ (lowerCAmelCase_ ): '''simple docstring''' __SCREAMING_SNAKE_CASE = {letter: 0 for letter in string.ascii_uppercase} for letter in message.upper(): if letter in LETTERS: letter_count[letter] += 1 return letter_count def UpperCAmelCase__ (lowerCAmelCase_ ): '''simple docstring''' return x[0] def UpperCAmelCase__ (lowerCAmelCase_ ): '''simple docstring''' __SCREAMING_SNAKE_CASE = get_letter_count(lowerCAmelCase_ ) __SCREAMING_SNAKE_CASE = { freq: [] for letter, freq in letter_to_freq.items() } for letter in LETTERS: freq_to_letter[letter_to_freq[letter]].append(lowerCAmelCase_ ) __SCREAMING_SNAKE_CASE = {} for freq in freq_to_letter: freq_to_letter[freq].sort(key=ETAOIN.find , reverse=lowerCAmelCase_ ) __SCREAMING_SNAKE_CASE = "".join(freq_to_letter[freq] ) __SCREAMING_SNAKE_CASE = list(freq_to_letter_str.items() ) freq_pairs.sort(key=lowerCAmelCase_ , reverse=lowerCAmelCase_ ) __SCREAMING_SNAKE_CASE = [freq_pair[1] for freq_pair in freq_pairs] return "".join(lowerCAmelCase_ ) def UpperCAmelCase__ (lowerCAmelCase_ ): '''simple docstring''' __SCREAMING_SNAKE_CASE = get_frequency_order(lowerCAmelCase_ ) __SCREAMING_SNAKE_CASE = 0 for common_letter in ETAOIN[:6]: if common_letter in freq_order[:6]: match_score += 1 for uncommon_letter in ETAOIN[-6:]: if uncommon_letter in freq_order[-6:]: match_score += 1 return match_score if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" import unittest import numpy as np def snake_case_ ( A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray | None = None, ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) if shape_a[0] != shape_b[0]: _lowerCamelCase : Tuple = ( '''Expected the same number of rows for A and B. ''' F'''Instead found A of size {shape_a} and B of size {shape_b}''' ) raise ValueError(A_ ) if shape_b[1] != shape_c[1]: _lowerCamelCase : Tuple = ( '''Expected the same number of columns for B and C. ''' F'''Instead found B of size {shape_b} and C of size {shape_c}''' ) raise ValueError(A_ ) _lowerCamelCase : List[str] = pseudo_inv if a_inv is None: try: _lowerCamelCase : Any = np.linalg.inv(A_ ) except np.linalg.LinAlgError: raise ValueError( '''Input matrix A is not invertible. Cannot compute Schur complement.''' ) return mat_c - mat_b.T @ a_inv @ mat_b class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : List[str] = np.array([[2, 1], [6, 3]] ) _lowerCamelCase : List[Any] = schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = np.block([[a, b], [b.T, c]] ) _lowerCamelCase : Tuple = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : List[str] = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : Any = np.linalg.det(__lowerCAmelCase ) self.assertAlmostEqual(__lowerCAmelCase , det_a * det_s ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : Optional[int] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : int = np.array([[2, 1], [6, 3]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : str = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : Union[str, Any] = np.array([[2, 1, 3], [6, 3, 5]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) if __name__ == "__main__": import doctest doctest.testmod() unittest.main()

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'''simple docstring''' from timeit import timeit def __snake_case ( UpperCAmelCase_ : int ): if number < 0: raise ValueError("the value of input must not be negative" ) lowerCamelCase_ = 0 while number: number &= number - 1 result += 1 return result def __snake_case ( UpperCAmelCase_ : int ): if number < 0: raise ValueError("the value of input must not be negative" ) lowerCamelCase_ = 0 while number: if number % 2 == 1: result += 1 number >>= 1 return result def __snake_case ( ): def do_benchmark(UpperCAmelCase_ : int ) -> None: lowerCamelCase_ = "import __main__ as z" print(F'''Benchmark when {number = }:''' ) print(F'''{get_set_bits_count_using_modulo_operator(UpperCAmelCase_ ) = }''' ) lowerCamelCase_ = timeit("z.get_set_bits_count_using_modulo_operator(25)" , setup=UpperCAmelCase_ ) print(F'''timeit() runs in {timing} seconds''' ) print(F'''{get_set_bits_count_using_brian_kernighans_algorithm(UpperCAmelCase_ ) = }''' ) lowerCamelCase_ = timeit( "z.get_set_bits_count_using_brian_kernighans_algorithm(25)" , setup=UpperCAmelCase_ , ) print(F'''timeit() runs in {timing} seconds''' ) for number in (25, 37, 58, 0): do_benchmark(UpperCAmelCase_ ) print() if __name__ == "__main__": import doctest doctest.testmod() benchmark()

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"""simple docstring""" def snake_case_ ( A_ : list[int], A_ : str ): '''simple docstring''' _lowerCamelCase : Tuple = int(A_ ) # Initialize Result _lowerCamelCase : Dict = [] # Traverse through all denomination for denomination in reversed(A_ ): # Find denominations while int(A_ ) >= int(A_ ): total_value -= int(A_ ) answer.append(A_ ) # Append the "answers" array return answer # Driver Code if __name__ == "__main__": lowerCAmelCase__ = [] lowerCAmelCase__ = '''0''' if ( input('''Do you want to enter your denominations ? (yY/n): ''').strip().lower() == "y" ): lowerCAmelCase__ = int(input('''Enter the number of denominations you want to add: ''').strip()) for i in range(0, n): denominations.append(int(input(F"""Denomination {i}: """).strip())) lowerCAmelCase__ = input('''Enter the change you want to make in Indian Currency: ''').strip() else: # All denominations of Indian Currency if user does not enter lowerCAmelCase__ = [1, 2, 5, 10, 20, 50, 100, 500, 2000] lowerCAmelCase__ = input('''Enter the change you want to make: ''').strip() if int(value) == 0 or int(value) < 0: print('''The total value cannot be zero or negative.''') else: print(F"""Following is minimal change for {value}: """) lowerCAmelCase__ = find_minimum_change(denominations, value) # Print result for i in range(len(answer)): print(answer[i], end=''' ''')

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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available, is_vision_available a : List[str] = { 'configuration_pix2struct': [ 'PIX2STRUCT_PRETRAINED_CONFIG_ARCHIVE_MAP', 'Pix2StructConfig', 'Pix2StructTextConfig', 'Pix2StructVisionConfig', ], 'processing_pix2struct': ['Pix2StructProcessor'], } try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a : Union[str, Any] = ['Pix2StructImageProcessor'] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a : Union[str, Any] = [ 'PIX2STRUCT_PRETRAINED_MODEL_ARCHIVE_LIST', 'Pix2StructPreTrainedModel', 'Pix2StructForConditionalGeneration', 'Pix2StructVisionModel', 'Pix2StructTextModel', ] if TYPE_CHECKING: from .configuration_pixastruct import ( PIX2STRUCT_PRETRAINED_CONFIG_ARCHIVE_MAP, PixaStructConfig, PixaStructTextConfig, PixaStructVisionConfig, ) from .processing_pixastruct import PixaStructProcessor try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .image_processing_pixastruct import PixaStructImageProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_pixastruct import ( PIX2STRUCT_PRETRAINED_MODEL_ARCHIVE_LIST, PixaStructForConditionalGeneration, PixaStructPreTrainedModel, PixaStructTextModel, PixaStructVisionModel, ) else: import sys a : int = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)

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"""simple docstring""" def snake_case_ ( A_ : int = 2_00_00_00 ): '''simple docstring''' _lowerCamelCase : int = [0 for i in range(n + 1 )] _lowerCamelCase : List[str] = 1 _lowerCamelCase : Any = 1 for i in range(2, int(n**0.5 ) + 1 ): if primality_list[i] == 0: for j in range(i * i, n + 1, A_ ): _lowerCamelCase : str = 1 _lowerCamelCase : Tuple = 0 for i in range(A_ ): if primality_list[i] == 0: sum_of_primes += i return sum_of_primes if __name__ == "__main__": print(F"""{solution() = }""")

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"""simple docstring""" from __future__ import annotations def _lowerCamelCase ( _UpperCamelCase ): '''simple docstring''' __lowerCAmelCase = 0.00 __lowerCAmelCase = 0 for resistor in resistors: if resistor <= 0: __lowerCAmelCase = f"Resistor at index {index} has a negative or zero value!" raise ValueError(_UpperCamelCase ) first_sum += 1 / float(_UpperCamelCase ) index += 1 return 1 / first_sum def _lowerCamelCase ( _UpperCamelCase ): '''simple docstring''' __lowerCAmelCase = 0.00 __lowerCAmelCase = 0 for resistor in resistors: sum_r += resistor if resistor < 0: __lowerCAmelCase = f"Resistor at index {index} has a negative value!" raise ValueError(_UpperCamelCase ) index += 1 return sum_r if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" import argparse import torch from torch import nn from transformers import MBartConfig, MBartForConditionalGeneration def snake_case_ ( A_ : Any ): '''simple docstring''' _lowerCamelCase : Any = [ '''encoder.version''', '''decoder.version''', '''model.encoder.version''', '''model.decoder.version''', '''_float_tensor''', '''decoder.output_projection.weight''', ] for k in ignore_keys: state_dict.pop(A_, A_ ) def snake_case_ ( A_ : Union[str, Any] ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : Tuple = emb.weight.shape _lowerCamelCase : Dict = nn.Linear(A_, A_, bias=A_ ) _lowerCamelCase : str = emb.weight.data return lin_layer def snake_case_ ( A_ : str, A_ : Optional[int]="facebook/mbart-large-en-ro", A_ : Union[str, Any]=False, A_ : List[str]=False ): '''simple docstring''' _lowerCamelCase : Tuple = torch.load(A_, map_location='''cpu''' )['''model'''] remove_ignore_keys_(A_ ) _lowerCamelCase : int = state_dict['''encoder.embed_tokens.weight'''].shape[0] _lowerCamelCase : Any = MBartConfig.from_pretrained(A_, vocab_size=A_ ) if mbart_aa and finetuned: _lowerCamelCase : Any = '''relu''' _lowerCamelCase : Optional[int] = state_dict['''decoder.embed_tokens.weight'''] _lowerCamelCase : Any = MBartForConditionalGeneration(A_ ) model.model.load_state_dict(A_ ) if finetuned: _lowerCamelCase : str = make_linear_from_emb(model.model.shared ) return model if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''fairseq_path''', type=str, help='''bart.large, bart.large.cnn or a path to a model.pt on local filesystem.''' ) parser.add_argument('''pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model.''') parser.add_argument( '''--hf_config''', default='''facebook/mbart-large-cc25''', type=str, help='''Which huggingface architecture to use: mbart-large''', ) parser.add_argument('''--mbart_50''', action='''store_true''', help='''whether the model is mMART-50 checkpoint''') parser.add_argument('''--finetuned''', action='''store_true''', help='''whether the model is a fine-tuned checkpoint''') lowerCAmelCase__ = parser.parse_args() lowerCAmelCase__ = convert_fairseq_mbart_checkpoint_from_disk( args.fairseq_path, hf_config_path=args.hf_config, finetuned=args.finetuned, mbart_aa=args.mbart_aa ) model.save_pretrained(args.pytorch_dump_folder_path)

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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_tf_available, is_torch_available, ) lowercase_ = {"""configuration_unispeech""": ["""UNISPEECH_PRETRAINED_CONFIG_ARCHIVE_MAP""", """UniSpeechConfig"""]} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowercase_ = [ """UNISPEECH_PRETRAINED_MODEL_ARCHIVE_LIST""", """UniSpeechForCTC""", """UniSpeechForPreTraining""", """UniSpeechForSequenceClassification""", """UniSpeechModel""", """UniSpeechPreTrainedModel""", ] if TYPE_CHECKING: from .configuration_unispeech import UNISPEECH_PRETRAINED_CONFIG_ARCHIVE_MAP, UniSpeechConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_unispeech import ( UNISPEECH_PRETRAINED_MODEL_ARCHIVE_LIST, UniSpeechForCTC, UniSpeechForPreTraining, UniSpeechForSequenceClassification, UniSpeechModel, UniSpeechPreTrainedModel, ) else: import sys lowercase_ = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)

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"""simple docstring""" def snake_case_ ( A_ : list[list] ): '''simple docstring''' _lowerCamelCase : Optional[int] = current_set.copy() for row_index, row in enumerate(A_ ): _lowerCamelCase : Tuple = row[0] for column_index, column in enumerate(A_ ): if magnitude == 0: _lowerCamelCase : List[Any] = column continue _lowerCamelCase : List[Any] = column / magnitude # Subtract to cancel term _lowerCamelCase : Union[str, Any] = current_set[0] _lowerCamelCase : Dict = [first_row] _lowerCamelCase : str = current_set[1::] for row in current_set: _lowerCamelCase : Union[str, Any] = [] # If first term is 0, it is already in form we want, so we preserve it if row[0] == 0: final_set.append(A_ ) continue for column_index in range(len(A_ ) ): temp_row.append(first_row[column_index] - row[column_index] ) final_set.append(A_ ) # Create next recursion iteration set if len(final_set[0] ) != 3: _lowerCamelCase : Any = final_set[0] _lowerCamelCase : Any = [] _lowerCamelCase : Optional[int] = [] for row in final_set[1::]: current_first_column.append(row[0] ) next_iteration.append(row[1::] ) _lowerCamelCase : Dict = simplify(A_ ) for i in range(len(A_ ) ): resultant[i].insert(0, current_first_column[i] ) resultant.insert(0, A_ ) _lowerCamelCase : Tuple = resultant return final_set def snake_case_ ( A_ : list[list] ): '''simple docstring''' if len(A_ ) == 0: raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) _lowerCamelCase : Dict = len(A_ ) + 1 if any(len(A_ ) != _length for item in equations ): raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) for row in equations: if any(not isinstance(A_, (int, float) ) for column in row ): raise ValueError('''solve_simultaneous() requires lists of integers''' ) if len(A_ ) == 1: return [equations[0][-1] / equations[0][0]] _lowerCamelCase : Optional[Any] = equations.copy() if any(0 in row for row in data_set ): _lowerCamelCase : str = data_set.copy() _lowerCamelCase : List[Any] = [] for row_index, row in enumerate(A_ ): if 0 not in row: _lowerCamelCase : Union[str, Any] = data_set.pop(A_ ) break if not full_row: raise ValueError('''solve_simultaneous() requires at least 1 full equation''' ) data_set.insert(0, A_ ) _lowerCamelCase : List[str] = data_set.copy() _lowerCamelCase : int = simplify(A_ ) _lowerCamelCase : int = simplified[::-1] _lowerCamelCase : list = [] for row in simplified: _lowerCamelCase : Tuple = row[-1] if not solutions: if row[-2] == 0: solutions.append(0 ) continue solutions.append(current_solution / row[-2] ) continue _lowerCamelCase : Optional[Any] = row.copy()[: len(A_ ) - 1 :] while temp_row[0] == 0: temp_row.pop(0 ) if len(A_ ) == 0: solutions.append(0 ) continue _lowerCamelCase : Tuple = temp_row[1::] _lowerCamelCase : Tuple = temp_row[::-1] for column_index, column in enumerate(A_ ): current_solution -= column * solutions[column_index] solutions.append(A_ ) _lowerCamelCase : Optional[int] = [] for item in solutions: final.append(float(round(A_, 5 ) ) ) return final[::-1] if __name__ == "__main__": import doctest doctest.testmod() lowerCAmelCase__ = [ [2, 1, 1, 1, 1, 4], [1, 2, 1, 1, 1, 5], [1, 1, 2, 1, 1, 6], [1, 1, 1, 2, 1, 7], [1, 1, 1, 1, 2, 8], ] print(solve_simultaneous(eq)) print(solve_simultaneous([[4, 2]]))

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import argparse import re from typing import Dict import torch from datasets import Audio, Dataset, load_dataset, load_metric from transformers import AutoFeatureExtractor, pipeline def UpperCamelCase ( __lowerCamelCase : Dataset , __lowerCamelCase : Dict[str, str] ): snake_case : int = args.log_outputs snake_case : Dict = "_".join(args.dataset.split("/" ) + [args.config, args.split] ) # load metric snake_case : List[str] = load_metric("wer" ) snake_case : Tuple = load_metric("cer" ) # compute metrics snake_case : List[Any] = wer.compute(references=result["target"] , predictions=result["prediction"] ) snake_case : int = cer.compute(references=result["target"] , predictions=result["prediction"] ) # print & log results snake_case : int = f"""WER: {wer_result}\nCER: {cer_result}""" print(__lowerCamelCase ) with open(f"""{dataset_id}_eval_results.txt""" , "w" ) as f: f.write(__lowerCamelCase ) # log all results in text file. Possibly interesting for analysis if log_outputs is not None: snake_case : int = f"""log_{dataset_id}_predictions.txt""" snake_case : List[Any] = f"""log_{dataset_id}_targets.txt""" with open(__lowerCamelCase , "w" ) as p, open(__lowerCamelCase , "w" ) as t: # mapping function to write output def write_to_file(__lowerCamelCase : str , __lowerCamelCase : Optional[int] ): p.write(f"""{i}""" + "\n" ) p.write(batch["prediction"] + "\n" ) t.write(f"""{i}""" + "\n" ) t.write(batch["target"] + "\n" ) result.map(__lowerCamelCase , with_indices=__lowerCamelCase ) def UpperCamelCase ( __lowerCamelCase : str ): snake_case : List[Any] = "[,?.!\-\;\:\"“%‘”�—’…–]" # noqa: W605 IMPORTANT: this should correspond to the chars that were ignored during training snake_case : List[Any] = re.sub(__lowerCamelCase , "" , text.lower() ) # In addition, we can normalize the target text, e.g. removing new lines characters etc... # note that order is important here! snake_case : Optional[Any] = ["\n\n", "\n", " ", " "] for t in token_sequences_to_ignore: snake_case : Dict = " ".join(text.split(__lowerCamelCase ) ) return text def UpperCamelCase ( __lowerCamelCase : int ): # load dataset snake_case : str = load_dataset(args.dataset , args.config , split=args.split , use_auth_token=__lowerCamelCase ) # for testing: only process the first two examples as a test # dataset = dataset.select(range(10)) # load processor snake_case : List[Any] = AutoFeatureExtractor.from_pretrained(args.model_id ) snake_case : Union[str, Any] = feature_extractor.sampling_rate # resample audio snake_case : Union[str, Any] = dataset.cast_column("audio" , Audio(sampling_rate=__lowerCamelCase ) ) # load eval pipeline if args.device is None: snake_case : List[str] = 0 if torch.cuda.is_available() else -1 snake_case : str = pipeline("automatic-speech-recognition" , model=args.model_id , device=args.device ) # map function to decode audio def map_to_pred(__lowerCamelCase : int ): snake_case : Dict = asr( batch["audio"]["array"] , chunk_length_s=args.chunk_length_s , stride_length_s=args.stride_length_s ) snake_case : str = prediction["text"] snake_case : Tuple = normalize_text(batch["sentence"] ) return batch # run inference on all examples snake_case : Dict = dataset.map(__lowerCamelCase , remove_columns=dataset.column_names ) # compute and log_results # do not change function below log_results(__lowerCamelCase , __lowerCamelCase ) if __name__ == "__main__": __lowerCamelCase = argparse.ArgumentParser() parser.add_argument( """--model_id""", type=str, required=True, help="""Model identifier. Should be loadable with 🤗 Transformers""" ) parser.add_argument( """--dataset""", type=str, required=True, help="""Dataset name to evaluate the `model_id`. Should be loadable with 🤗 Datasets""", ) parser.add_argument( """--config""", type=str, required=True, help="""Config of the dataset. *E.g.* `'en'` for Common Voice""" ) parser.add_argument("""--split""", type=str, required=True, help="""Split of the dataset. *E.g.* `'test'`""") parser.add_argument( """--chunk_length_s""", type=float, default=None, help="""Chunk length in seconds. Defaults to 5 seconds.""" ) parser.add_argument( """--stride_length_s""", type=float, default=None, help="""Stride of the audio chunks. Defaults to 1 second.""" ) parser.add_argument( """--log_outputs""", action="""store_true""", help="""If defined, write outputs to log file for analysis.""" ) parser.add_argument( """--device""", type=int, default=None, help="""The device to run the pipeline on. -1 for CPU (default), 0 for the first GPU and so on.""", ) __lowerCamelCase = parser.parse_args() main(args)

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"""simple docstring""" import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class __snake_case ( _lowercase): snake_case__ : List[Any] = "Speech2TextFeatureExtractor" snake_case__ : Union[str, Any] = "Speech2TextTokenizer" def __init__( self : int , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" super().__init__(__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : str = False def __call__( self : List[Any] , *__lowerCAmelCase : int , **__lowerCAmelCase : List[str] ): """simple docstring""" if self._in_target_context_manager: return self.current_processor(*__lowerCAmelCase , **__lowerCAmelCase ) if "raw_speech" in kwargs: warnings.warn('''Using `raw_speech` as a keyword argument is deprecated. Use `audio` instead.''' ) _lowerCamelCase : str = kwargs.pop('''raw_speech''' ) else: _lowerCamelCase : Tuple = kwargs.pop('''audio''' , __lowerCAmelCase ) _lowerCamelCase : Optional[Any] = kwargs.pop('''sampling_rate''' , __lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = kwargs.pop('''text''' , __lowerCAmelCase ) if len(__lowerCAmelCase ) > 0: _lowerCamelCase : List[Any] = args[0] _lowerCamelCase : int = args[1:] if audio is None and text is None: raise ValueError('''You need to specify either an `audio` or `text` input to process.''' ) if audio is not None: _lowerCamelCase : List[Any] = self.feature_extractor(__lowerCAmelCase , *__lowerCAmelCase , sampling_rate=__lowerCAmelCase , **__lowerCAmelCase ) if text is not None: _lowerCamelCase : List[Any] = self.tokenizer(__lowerCAmelCase , **__lowerCAmelCase ) if text is None: return inputs elif audio is None: return encodings else: _lowerCamelCase : List[str] = encodings['''input_ids'''] return inputs def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : List[Any] , **__lowerCAmelCase : Tuple ): """simple docstring""" return self.tokenizer.batch_decode(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : List[str] , **__lowerCAmelCase : int ): """simple docstring""" return self.tokenizer.decode(*__lowerCAmelCase , **__lowerCAmelCase ) @contextmanager def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" warnings.warn( '''`as_target_processor` is deprecated and will be removed in v5 of Transformers. You can process your ''' '''labels by using the argument `text` of the regular `__call__` method (either in the same call as ''' '''your audio inputs, or in a separate call.''' ) _lowerCamelCase : Union[str, Any] = True _lowerCamelCase : Any = self.tokenizer yield _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : Tuple = False

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"""simple docstring""" import gc import unittest from diffusers import FlaxDPMSolverMultistepScheduler, FlaxStableDiffusionPipeline from diffusers.utils import is_flax_available, slow from diffusers.utils.testing_utils import require_flax if is_flax_available(): import jax import jax.numpy as jnp from flax.jax_utils import replicate from flax.training.common_utils import shard @slow @require_flax class snake_case_( unittest.TestCase ): def lowerCamelCase__ ( self : int ): # clean up the VRAM after each test super().tearDown() gc.collect() def lowerCamelCase__ ( self : Optional[Any] ): lowerCAmelCase, lowerCAmelCase : Optional[int] = FlaxStableDiffusionPipeline.from_pretrained( '''stabilityai/stable-diffusion-2''' , revision='''bf16''' , dtype=jnp.bfloataa , ) lowerCAmelCase : Optional[int] = '''A painting of a squirrel eating a burger''' lowerCAmelCase : List[str] = jax.device_count() lowerCAmelCase : Optional[int] = num_samples * [prompt] lowerCAmelCase : Any = sd_pipe.prepare_inputs(UpperCamelCase_ ) lowerCAmelCase : Optional[int] = replicate(UpperCamelCase_ ) lowerCAmelCase : Union[str, Any] = shard(UpperCamelCase_ ) lowerCAmelCase : Optional[int] = jax.random.PRNGKey(0 ) lowerCAmelCase : Optional[Any] = jax.random.split(UpperCamelCase_ , jax.device_count() ) lowerCAmelCase : str = sd_pipe(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , num_inference_steps=2_5 , jit=UpperCamelCase_ )[0] assert images.shape == (jax.device_count(), 1, 7_6_8, 7_6_8, 3) lowerCAmelCase : str = images.reshape((images.shape[0] * images.shape[1],) + images.shape[-3:] ) lowerCAmelCase : List[str] = images[0, 2_5_3:2_5_6, 2_5_3:2_5_6, -1] lowerCAmelCase : Dict = jnp.asarray(jax.device_get(image_slice.flatten() ) ) lowerCAmelCase : List[str] = jnp.array([0.4_238, 0.4_414, 0.4_395, 0.4_453, 0.4_629, 0.4_590, 0.4_531, 0.45_508, 0.4_512] ) print(F'''output_slice: {output_slice}''' ) assert jnp.abs(output_slice - expected_slice ).max() < 1E-2 def lowerCamelCase__ ( self : Union[str, Any] ): lowerCAmelCase : Union[str, Any] = '''stabilityai/stable-diffusion-2''' lowerCAmelCase, lowerCAmelCase : Dict = FlaxDPMSolverMultistepScheduler.from_pretrained(UpperCamelCase_ , subfolder='''scheduler''' ) lowerCAmelCase, lowerCAmelCase : int = FlaxStableDiffusionPipeline.from_pretrained( UpperCamelCase_ , scheduler=UpperCamelCase_ , revision='''bf16''' , dtype=jnp.bfloataa , ) lowerCAmelCase : List[Any] = scheduler_params lowerCAmelCase : List[Any] = '''A painting of a squirrel eating a burger''' lowerCAmelCase : Any = jax.device_count() lowerCAmelCase : int = num_samples * [prompt] lowerCAmelCase : int = sd_pipe.prepare_inputs(UpperCamelCase_ ) lowerCAmelCase : Dict = replicate(UpperCamelCase_ ) lowerCAmelCase : Tuple = shard(UpperCamelCase_ ) lowerCAmelCase : int = jax.random.PRNGKey(0 ) lowerCAmelCase : Optional[int] = jax.random.split(UpperCamelCase_ , jax.device_count() ) lowerCAmelCase : Tuple = sd_pipe(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , num_inference_steps=2_5 , jit=UpperCamelCase_ )[0] assert images.shape == (jax.device_count(), 1, 7_6_8, 7_6_8, 3) lowerCAmelCase : Any = images.reshape((images.shape[0] * images.shape[1],) + images.shape[-3:] ) lowerCAmelCase : str = images[0, 2_5_3:2_5_6, 2_5_3:2_5_6, -1] lowerCAmelCase : Optional[int] = jnp.asarray(jax.device_get(image_slice.flatten() ) ) lowerCAmelCase : Tuple = jnp.array([0.4_336, 0.42_969, 0.4_453, 0.4_199, 0.4_297, 0.4_531, 0.4_434, 0.4_434, 0.4_297] ) print(F'''output_slice: {output_slice}''' ) assert jnp.abs(output_slice - expected_slice ).max() < 1E-2

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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = {'''configuration_reformer''': ['''REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ReformerConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ReformerAttention''', '''ReformerForMaskedLM''', '''ReformerForQuestionAnswering''', '''ReformerForSequenceClassification''', '''ReformerLayer''', '''ReformerModel''', '''ReformerModelWithLMHead''', '''ReformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_reformer import REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, ReformerConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer import ReformerTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer_fast import ReformerTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_reformer import ( REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, ReformerAttention, ReformerForMaskedLM, ReformerForQuestionAnswering, ReformerForSequenceClassification, ReformerLayer, ReformerModel, ReformerModelWithLMHead, ReformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" from collections import OrderedDict from typing import Mapping from packaging import version from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...utils import logging _a = logging.get_logger(__name__) _a = { 'hustvl/yolos-small': 'https://huggingface.co/hustvl/yolos-small/resolve/main/config.json', # See all YOLOS models at https://huggingface.co/models?filter=yolos } class A_ (lowercase__ ): '''simple docstring''' SCREAMING_SNAKE_CASE__ : Optional[Any] = """yolos""" def __init__( self , lowercase_=768 , lowercase_=12 , lowercase_=12 , lowercase_=3072 , lowercase_="gelu" , lowercase_=0.0 , lowercase_=0.0 , lowercase_=0.02 , lowercase_=1E-1_2 , lowercase_=[512, 864] , lowercase_=16 , lowercase_=3 , lowercase_=True , lowercase_=100 , lowercase_=True , lowercase_=False , lowercase_=1 , lowercase_=5 , lowercase_=2 , lowercase_=5 , lowercase_=2 , lowercase_=0.1 , **lowercase_ , ): """simple docstring""" super().__init__(**lowercase_ ) UpperCAmelCase_ : List[Any] = hidden_size UpperCAmelCase_ : int = num_hidden_layers UpperCAmelCase_ : Union[str, Any] = num_attention_heads UpperCAmelCase_ : List[str] = intermediate_size UpperCAmelCase_ : List[str] = hidden_act UpperCAmelCase_ : Any = hidden_dropout_prob UpperCAmelCase_ : Union[str, Any] = attention_probs_dropout_prob UpperCAmelCase_ : Union[str, Any] = initializer_range UpperCAmelCase_ : List[str] = layer_norm_eps UpperCAmelCase_ : Tuple = image_size UpperCAmelCase_ : List[str] = patch_size UpperCAmelCase_ : List[str] = num_channels UpperCAmelCase_ : str = qkv_bias UpperCAmelCase_ : Any = num_detection_tokens UpperCAmelCase_ : Optional[int] = use_mid_position_embeddings UpperCAmelCase_ : Union[str, Any] = auxiliary_loss # Hungarian matcher UpperCAmelCase_ : int = class_cost UpperCAmelCase_ : Dict = bbox_cost UpperCAmelCase_ : int = giou_cost # Loss coefficients UpperCAmelCase_ : Dict = bbox_loss_coefficient UpperCAmelCase_ : List[str] = giou_loss_coefficient UpperCAmelCase_ : int = eos_coefficient class A_ (lowercase__ ): '''simple docstring''' SCREAMING_SNAKE_CASE__ : Union[str, Any] = version.parse("""1.11""" ) @property def UpperCamelCase__ ( self ): """simple docstring""" return OrderedDict( [ ("pixel_values", {0: "batch", 1: "num_channels", 2: "height", 3: "width"}), ] ) @property def UpperCamelCase__ ( self ): """simple docstring""" return 1E-4 @property def UpperCamelCase__ ( self ): """simple docstring""" return 12

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"""simple docstring""" from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available lowerCAmelCase__ = { '''configuration_autoformer''': [ '''AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''AutoformerConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''AutoformerForPrediction''', '''AutoformerModel''', '''AutoformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_autoformer import ( AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, AutoformerConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_autoformer import ( AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, AutoformerForPrediction, AutoformerModel, AutoformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available _A = { 'configuration_informer': [ 'INFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP', 'InformerConfig', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _A = [ 'INFORMER_PRETRAINED_MODEL_ARCHIVE_LIST', 'InformerForPrediction', 'InformerModel', 'InformerPreTrainedModel', ] if TYPE_CHECKING: from .configuration_informer import INFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, InformerConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_informer import ( INFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, InformerForPrediction, InformerModel, InformerPreTrainedModel, ) else: import sys _A = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)

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"""simple docstring""" import math def snake_case_ ( A_ : int ): '''simple docstring''' if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5, int(math.sqrt(A_ ) + 1 ), 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def snake_case_ ( A_ : float = 0.1 ): '''simple docstring''' _lowerCamelCase : Optional[int] = 3 _lowerCamelCase : List[str] = 3 while primes / (2 * j - 1) >= ratio: for i in range(j * j + j + 1, (j + 2) * (j + 2), j + 1 ): primes += is_prime(A_ ) j += 2 return j if __name__ == "__main__": import doctest doctest.testmod()

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'''simple docstring''' import math from collections.abc import Iterator from itertools import takewhile def _lowerCamelCase ( lowercase : int ) -> bool: if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5 , int(math.sqrt(lowercase ) + 1 ) , 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def _lowerCamelCase ( ) -> Iterator[int]: _a = 2 while True: if is_prime(lowercase ): yield num num += 1 def _lowerCamelCase ( lowercase : int = 200_0000 ) -> int: return sum(takewhile(lambda lowercase : x < n , prime_generator() ) ) if __name__ == "__main__": print(f"""{solution() = }""")

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"""simple docstring""" import unittest from queue import Empty from threading import Thread from transformers import AutoTokenizer, TextIteratorStreamer, TextStreamer, is_torch_available from transformers.testing_utils import CaptureStdout, require_torch, torch_device from ..test_modeling_common import ids_tensor if is_torch_available(): import torch from transformers import AutoModelForCausalLM @require_torch class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Optional[Any] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Union[str, Any] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = tokenizer.decode(greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Union[str, Any] = TextStreamer(__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : int = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Optional[int] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : List[str] = tokenizer.decode(greedy_ids[0] ) _lowerCamelCase : Tuple = TextIteratorStreamer(__lowerCAmelCase ) _lowerCamelCase : Tuple = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() _lowerCamelCase : int = '''''' for new_text in streamer: streamer_text += new_text self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Dict = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : str = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : Optional[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : int = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = greedy_ids[:, input_ids.shape[1] :] _lowerCamelCase : int = tokenizer.decode(new_greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Any = TextStreamer(__lowerCAmelCase , skip_prompt=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : Union[str, Any] = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''distilgpt2''' ) _lowerCamelCase : Optional[Any] = AutoModelForCausalLM.from_pretrained('''distilgpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = -1 _lowerCamelCase : Any = torch.ones((1, 5) , device=__lowerCAmelCase ).long() * model.config.bos_token_id with CaptureStdout() as cs: _lowerCamelCase : List[Any] = TextStreamer(__lowerCAmelCase , skip_special_tokens=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The prompt contains a special token, so the streamer should not print it. As such, the output text, when # re-tokenized, must only contain one token _lowerCamelCase : Any = cs.out[:-1] # Remove the final "\n" _lowerCamelCase : int = tokenizer(__lowerCAmelCase , return_tensors='''pt''' ) self.assertEqual(streamer_text_tokenized.input_ids.shape , (1, 1) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : List[str] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Dict = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = -1 _lowerCamelCase : Any = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = TextIteratorStreamer(__lowerCAmelCase , timeout=0.0_01 ) _lowerCamelCase : str = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() # The streamer will timeout after 0.001 seconds, so an exception will be raised with self.assertRaises(__lowerCAmelCase ): _lowerCamelCase : Optional[Any] = '''''' for new_text in streamer: streamer_text += new_text

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"""simple docstring""" import warnings from typing import Any, Dict, List, Optional, Union import numpy as np from ...audio_utils import mel_filter_bank, optimal_fft_length, spectrogram, window_function from ...feature_extraction_sequence_utils import SequenceFeatureExtractor from ...feature_extraction_utils import BatchFeature from ...utils import PaddingStrategy, TensorType, logging A_ = logging.get_logger(__name__) class lowercase( __a ): '''simple docstring''' lowercase__ = ["input_values", "attention_mask"] def __init__( self: Union[str, Any], a_: int = 1, a_: int = 16_000, a_: float = 0.0, a_: bool = False, a_: int = 80, a_: int = 16, a_: int = 64, a_: str = "hann_window", a_: float = 1.0, a_: float = 80, a_: float = 7_600, a_: float = 1E-10, a_: int = 2, a_: bool = True, **a_: Optional[Any], ): '''simple docstring''' super().__init__(feature_size=a_, sampling_rate=a_, padding_value=a_, **a_ ) _snake_case : Any = do_normalize _snake_case : Optional[int] = return_attention_mask _snake_case : Optional[Any] = num_mel_bins _snake_case : Optional[Any] = hop_length _snake_case : List[Any] = win_length _snake_case : int = win_function _snake_case : Dict = frame_signal_scale _snake_case : Union[str, Any] = fmin _snake_case : Union[str, Any] = fmax _snake_case : Optional[Any] = mel_floor _snake_case : Optional[int] = reduction_factor _snake_case : List[str] = win_length * sampling_rate // 1_000 _snake_case : str = hop_length * sampling_rate // 1_000 _snake_case : Optional[int] = optimal_fft_length(self.sample_size ) _snake_case : List[str] = (self.n_fft // 2) + 1 _snake_case : int = window_function(window_length=self.sample_size, name=self.win_function, periodic=a_ ) _snake_case : Optional[Any] = mel_filter_bank( num_frequency_bins=self.n_freqs, num_mel_filters=self.num_mel_bins, min_frequency=self.fmin, max_frequency=self.fmax, sampling_rate=self.sampling_rate, norm="""slaney""", mel_scale="""slaney""", ) if frame_signal_scale != 1.0: warnings.warn( """The argument `frame_signal_scale` is deprecated and will be removed in version 4.30.0 of Transformers""", a_, ) if reduction_factor != 2.0: warnings.warn( """The argument `reduction_factor` is deprecated and will be removed in version 4.30.0 of Transformers""", a_, ) @staticmethod # Copied from transformers.models.wav2vec2.feature_extraction_wav2vec2.Wav2Vec2FeatureExtractor.zero_mean_unit_var_norm def UpperCamelCase_ ( a_: List[np.ndarray], a_: List[np.ndarray], a_: float = 0.0 ): '''simple docstring''' if attention_mask is not None: _snake_case : Union[str, Any] = np.array(a_, np.intaa ) _snake_case : Optional[int] = [] for vector, length in zip(a_, attention_mask.sum(-1 ) ): _snake_case : str = (vector - vector[:length].mean()) / np.sqrt(vector[:length].var() + 1E-7 ) if length < normed_slice.shape[0]: _snake_case : Union[str, Any] = padding_value normed_input_values.append(a_ ) else: _snake_case : List[str] = [(x - x.mean()) / np.sqrt(x.var() + 1E-7 ) for x in input_values] return normed_input_values def UpperCamelCase_ ( self: str, a_: np.ndarray, ): '''simple docstring''' _snake_case : Tuple = spectrogram( a_, window=self.window, frame_length=self.sample_size, hop_length=self.sample_stride, fft_length=self.n_fft, mel_filters=self.mel_filters, mel_floor=self.mel_floor, log_mel="""log10""", ) return log_mel_spec.T def __call__( self: Tuple, a_: Optional[Union[np.ndarray, List[float], List[np.ndarray], List[List[float]]]] = None, a_: Optional[Union[np.ndarray, List[float], List[np.ndarray], List[List[float]]]] = None, a_: Union[bool, str, PaddingStrategy] = False, a_: Optional[int] = None, a_: bool = False, a_: Optional[int] = None, a_: Optional[bool] = None, a_: Optional[Union[str, TensorType]] = None, a_: Optional[int] = None, **a_: Any, ): '''simple docstring''' if audio is None and audio_target is None: raise ValueError("""You must provide either `audio` or `audio_target` values.""" ) if sampling_rate is not None: if sampling_rate != self.sampling_rate: raise ValueError( f"The model corresponding to this feature extractor: {self} was trained using a sampling rate of" f" {self.sampling_rate}. Please make sure that the provided audio input was sampled with" f" {self.sampling_rate} and not {sampling_rate}." ) else: logger.warning( """It is strongly recommended to pass the ``sampling_rate`` argument to this function. """ """Failing to do so can result in silent errors that might be hard to debug.""" ) if audio is not None: _snake_case : Optional[Any] = self._process_audio( a_, a_, a_, a_, a_, a_, a_, a_, **a_, ) else: _snake_case : Optional[int] = None if audio_target is not None: _snake_case : List[Any] = self._process_audio( a_, a_, a_, a_, a_, a_, a_, a_, **a_, ) if inputs is None: return inputs_target else: _snake_case : Tuple = inputs_target["""input_values"""] _snake_case : Any = inputs_target.get("""attention_mask""" ) if decoder_attention_mask is not None: _snake_case : Optional[Any] = decoder_attention_mask return inputs def UpperCamelCase_ ( self: Dict, a_: Union[np.ndarray, List[float], List[np.ndarray], List[List[float]]], a_: bool = False, a_: Union[bool, str, PaddingStrategy] = False, a_: Optional[int] = None, a_: bool = False, a_: Optional[int] = None, a_: Optional[bool] = None, a_: Optional[Union[str, TensorType]] = None, **a_: List[str], ): '''simple docstring''' _snake_case : Any = isinstance(a_, np.ndarray ) and len(speech.shape ) > 1 if is_batched_numpy and len(speech.shape ) > 2: raise ValueError(f"Only mono-channel audio is supported for input to {self}" ) _snake_case : Optional[int] = is_batched_numpy or ( isinstance(a_, (list, tuple) ) and (isinstance(speech[0], (np.ndarray, tuple, list) )) ) if is_batched: _snake_case : Tuple = [np.asarray(a_, dtype=np.floataa ) for speech in speech] elif not is_batched and not isinstance(a_, np.ndarray ): _snake_case : Union[str, Any] = np.asarray(a_, dtype=np.floataa ) elif isinstance(a_, np.ndarray ) and speech.dtype is np.dtype(np.floataa ): _snake_case : Union[str, Any] = speech.astype(np.floataa ) # always return batch if not is_batched: _snake_case : Optional[int] = [speech] # needed to make pad() work on spectrogram inputs _snake_case : Any = self.feature_size # convert into correct format for padding if is_target: _snake_case : str = [self._extract_mel_features(a_ ) for waveform in speech] _snake_case : Dict = BatchFeature({"""input_values""": features} ) _snake_case : Tuple = self.num_mel_bins else: _snake_case : Tuple = BatchFeature({"""input_values""": speech} ) _snake_case : Union[str, Any] = self.pad( a_, padding=a_, max_length=a_, truncation=a_, pad_to_multiple_of=a_, return_attention_mask=a_, **a_, ) _snake_case : int = feature_size_hack # convert input values to correct format _snake_case : List[str] = padded_inputs["""input_values"""] if not isinstance(input_values[0], np.ndarray ): _snake_case : Optional[Any] = [np.asarray(a_, dtype=np.floataa ) for array in input_values] elif ( not isinstance(a_, np.ndarray ) and isinstance(input_values[0], np.ndarray ) and input_values[0].dtype is np.dtype(np.floataa ) ): _snake_case : str = [array.astype(np.floataa ) for array in input_values] elif isinstance(a_, np.ndarray ) and input_values.dtype is np.dtype(np.floataa ): _snake_case : Optional[Any] = input_values.astype(np.floataa ) # convert attention_mask to correct format _snake_case : Optional[Any] = padded_inputs.get("""attention_mask""" ) if attention_mask is not None: _snake_case : Dict = [np.asarray(a_, dtype=np.intaa ) for array in attention_mask] # zero-mean and unit-variance normalization if not is_target and self.do_normalize: _snake_case : str = ( attention_mask if self._get_padding_strategies(a_, max_length=a_ ) is not PaddingStrategy.DO_NOT_PAD else None ) _snake_case : List[str] = self.zero_mean_unit_var_norm( padded_inputs["""input_values"""], attention_mask=a_, padding_value=self.padding_value ) if return_tensors is not None: _snake_case : Union[str, Any] = padded_inputs.convert_to_tensors(a_ ) return padded_inputs def UpperCamelCase_ ( self: Dict ): '''simple docstring''' _snake_case : List[Any] = super().to_dict() # Don't serialize these as they are derived from the other properties. _snake_case : List[str] = ["""window""", """mel_filters""", """sample_size""", """sample_stride""", """n_fft""", """n_freqs"""] for name in names: if name in output: del output[name] return output

64

"""simple docstring""" from ....configuration_utils import PretrainedConfig from ....utils import logging lowerCAmelCase__ = logging.get_logger(__name__) # TODO: upload to AWS lowerCAmelCase__ = { '''yjernite/retribert-base-uncased''': ( '''https://huggingface.co/yjernite/retribert-base-uncased/resolve/main/config.json''' ), } class __snake_case ( _lowercase): snake_case__ : int = "retribert" def __init__( self : Optional[int] , __lowerCAmelCase : str=3_0_5_2_2 , __lowerCAmelCase : Tuple=7_6_8 , __lowerCAmelCase : Union[str, Any]=8 , __lowerCAmelCase : Any=1_2 , __lowerCAmelCase : Optional[int]=3_0_7_2 , __lowerCAmelCase : List[str]="gelu" , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=5_1_2 , __lowerCAmelCase : List[str]=2 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Optional[Any]=1E-12 , __lowerCAmelCase : Tuple=True , __lowerCAmelCase : Any=1_2_8 , __lowerCAmelCase : Optional[int]=0 , **__lowerCAmelCase : str , ): """simple docstring""" super().__init__(pad_token_id=__lowerCAmelCase , **__lowerCAmelCase ) _lowerCamelCase : Dict = vocab_size _lowerCamelCase : Union[str, Any] = hidden_size _lowerCamelCase : Dict = num_hidden_layers _lowerCamelCase : int = num_attention_heads _lowerCamelCase : int = hidden_act _lowerCamelCase : str = intermediate_size _lowerCamelCase : Union[str, Any] = hidden_dropout_prob _lowerCamelCase : List[Any] = attention_probs_dropout_prob _lowerCamelCase : Optional[int] = max_position_embeddings _lowerCamelCase : List[Any] = type_vocab_size _lowerCamelCase : Any = initializer_range _lowerCamelCase : Optional[int] = layer_norm_eps _lowerCamelCase : int = share_encoders _lowerCamelCase : Optional[Any] = projection_dim

72

0

from collections.abc import Callable import numpy as np def lowerCAmelCase_ ( __A, __A, __A, __A, __A ) -> np.array: '''simple docstring''' UpperCAmelCase__ = int(np.ceil((x_end - xa) / step_size ) ) UpperCAmelCase__ = np.zeros((n + 1,) ) UpperCAmelCase__ = ya UpperCAmelCase__ = xa for k in range(__A ): UpperCAmelCase__ = y[k] + step_size * ode_func(__A, y[k] ) UpperCAmelCase__ = y[k] + ( (step_size / 2) * (ode_func(__A, y[k] ) + ode_func(x + step_size, __A )) ) x += step_size return y if __name__ == "__main__": import doctest doctest.testmod()

65

"""simple docstring""" import unittest from diffusers.pipelines.pipeline_utils import is_safetensors_compatible class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : Optional[int] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', # Removed: 'unet/diffusion_pytorch_model.safetensors', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', # Removed: 'text_encoder/model.safetensors', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Optional[int] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" _lowerCamelCase : str = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] _lowerCamelCase : Optional[Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : Tuple = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', # Removed: 'unet/diffusion_pytorch_model.fp16.safetensors', ] _lowerCamelCase : Any = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', ] _lowerCamelCase : str = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', # 'text_encoder/model.fp16.safetensors', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : int = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) )

72

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"""simple docstring""" import argparse import json import numpy import torch from transformers.models.xlm.tokenization_xlm import VOCAB_FILES_NAMES from transformers.utils import CONFIG_NAME, WEIGHTS_NAME, logging logging.set_verbosity_info() def A_ ( _lowercase, _lowercase ): '''simple docstring''' snake_case_ :Optional[int] = torch.load(_lowercase, map_location="""cpu""" ) snake_case_ :Any = chkpt["""model"""] # We have the base model one level deeper than the original XLM repository snake_case_ :Dict = {} for k, v in state_dict.items(): if "pred_layer" in k: snake_case_ :Optional[Any] = v else: snake_case_ :List[str] = v snake_case_ :List[Any] = chkpt["""params"""] snake_case_ :str = {n: v for n, v in config.items() if not isinstance(_lowercase, (torch.FloatTensor, numpy.ndarray) )} snake_case_ :List[Any] = chkpt["""dico_word2id"""] snake_case_ :Optional[Any] = {s + """</w>""" if s.find("""@@""" ) == -1 and i > 13 else s.replace("""@@""", """""" ): i for s, i in vocab.items()} # Save pytorch-model snake_case_ :Dict = pytorch_dump_folder_path + """/""" + WEIGHTS_NAME snake_case_ :List[Any] = pytorch_dump_folder_path + """/""" + CONFIG_NAME snake_case_ :Optional[int] = pytorch_dump_folder_path + """/""" + VOCAB_FILES_NAMES["""vocab_file"""] print(f"""Save PyTorch model to {pytorch_weights_dump_path}""" ) torch.save(_lowercase, _lowercase ) print(f"""Save configuration file to {pytorch_config_dump_path}""" ) with open(_lowercase, """w""", encoding="""utf-8""" ) as f: f.write(json.dumps(_lowercase, indent=2 ) + """\n""" ) print(f"""Save vocab file to {pytorch_config_dump_path}""" ) with open(_lowercase, """w""", encoding="""utf-8""" ) as f: f.write(json.dumps(_lowercase, indent=2 ) + """\n""" ) if __name__ == "__main__": __a = argparse.ArgumentParser() # Required parameters parser.add_argument( "--xlm_checkpoint_path", default=None, type=str, required=True, help="Path the official PyTorch dump." ) parser.add_argument( "--pytorch_dump_folder_path", default=None, type=str, required=True, help="Path to the output PyTorch model." ) __a = parser.parse_args() convert_xlm_checkpoint_to_pytorch(args.xlm_checkpoint_path, args.pytorch_dump_folder_path)

66

"""simple docstring""" import inspect import unittest import numpy as np from tests.test_modeling_common import floats_tensor from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel if is_vision_available(): from transformers import MaskFormerImageProcessor if is_vision_available(): from PIL import Image class __snake_case : def __init__( self : Tuple , __lowerCAmelCase : Tuple , __lowerCAmelCase : Any=2 , __lowerCAmelCase : Any=True , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Optional[Any]=1_0 , __lowerCAmelCase : List[str]=3 , __lowerCAmelCase : int=3_2 * 4 , __lowerCAmelCase : Dict=3_2 * 6 , __lowerCAmelCase : Any=4 , __lowerCAmelCase : List[str]=3_2 , ): """simple docstring""" _lowerCamelCase : List[str] = parent _lowerCamelCase : str = batch_size _lowerCamelCase : Dict = is_training _lowerCamelCase : str = use_auxiliary_loss _lowerCamelCase : Any = num_queries _lowerCamelCase : List[Any] = num_channels _lowerCamelCase : int = min_size _lowerCamelCase : Any = max_size _lowerCamelCase : int = num_labels _lowerCamelCase : List[str] = mask_feature_size def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size] ).to( __lowerCAmelCase ) _lowerCamelCase : List[Any] = torch.ones([self.batch_size, self.min_size, self.max_size] , device=__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = ( torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=__lowerCAmelCase ) > 0.5 ).float() _lowerCamelCase : Optional[int] = (torch.rand((self.batch_size, self.num_labels) , device=__lowerCAmelCase ) > 0.5).long() _lowerCamelCase : Dict = self.get_config() return config, pixel_values, pixel_mask, mask_labels, class_labels def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" return MaskFormerConfig.from_backbone_and_decoder_configs( backbone_config=SwinConfig( depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig( decoder_ffn_dim=1_2_8 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : Dict = self.prepare_config_and_inputs() _lowerCamelCase : List[str] = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask} return config, inputs_dict def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = output.encoder_hidden_states _lowerCamelCase : Tuple = output.pixel_decoder_hidden_states _lowerCamelCase : Dict = output.transformer_decoder_hidden_states self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , config.decoder_config.decoder_layers ) def SCREAMING_SNAKE_CASE ( self : Tuple , __lowerCAmelCase : Dict , __lowerCAmelCase : str , __lowerCAmelCase : Tuple , __lowerCAmelCase : List[Any]=False ): """simple docstring""" with torch.no_grad(): _lowerCamelCase : Optional[int] = MaskFormerModel(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() _lowerCamelCase : Tuple = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) # the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the # encoder and pixel decoder self.parent.assertEqual( output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , ) # let's ensure the other two hidden state exists self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(output.encoder_last_hidden_state is not None ) if output_hidden_states: self.check_output_hidden_state(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = MaskFormerForInstanceSegmentation(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() def comm_check_on_output(__lowerCAmelCase : Dict ): # let's still check that all the required stuff is there self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.encoder_last_hidden_state is not None ) # okay, now we need to check the logits shape # due to the encoder compression, masks have a //4 spatial size self.parent.assertEqual( result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , ) # + 1 for null class self.parent.assertEqual( result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1) ) with torch.no_grad(): _lowerCamelCase : str = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) _lowerCamelCase : List[str] = model( pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) self.parent.assertTrue(result.loss is not None ) self.parent.assertEqual(result.loss.shape , torch.Size([1] ) ) @require_torch class __snake_case ( _lowercase , _lowercase , unittest.TestCase): snake_case__ : Dict = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else () snake_case__ : Any = ( {"feature-extraction": MaskFormerModel, "image-segmentation": MaskFormerForInstanceSegmentation} if is_torch_available() else {} ) snake_case__ : List[str] = False snake_case__ : List[str] = False snake_case__ : Optional[int] = False snake_case__ : Dict = False def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = MaskFormerModelTester(self ) _lowerCamelCase : Optional[Any] = ConfigTester(self , config_class=__lowerCAmelCase , has_text_modality=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Dict = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , **__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(*__lowerCAmelCase ) @unittest.skip(reason='''MaskFormer does not use inputs_embeds''' ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''' ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer is not a generative model''' ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not use token embeddings''' ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" pass @require_torch_multi_gpu @unittest.skip( reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''' ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" pass @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : str = model_class(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCamelCase : Dict = [*signature.parameters.keys()] _lowerCamelCase : Optional[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __lowerCAmelCase ) @slow def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" for model_name in ["facebook/maskformer-swin-small-coco"]: _lowerCamelCase : Union[str, Any] = MaskFormerModel.from_pretrained(__lowerCAmelCase ) self.assertIsNotNone(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = (self.model_tester.min_size,) * 2 _lowerCamelCase : Union[str, Any] = { '''pixel_values''': torch.randn((2, 3, *size) , device=__lowerCAmelCase ), '''mask_labels''': torch.randn((2, 1_0, *size) , device=__lowerCAmelCase ), '''class_labels''': torch.zeros(2 , 1_0 , device=__lowerCAmelCase ).long(), } _lowerCamelCase : int = MaskFormerForInstanceSegmentation(MaskFormerConfig() ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : List[str] = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , **__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : List[Any] = model_class(__lowerCAmelCase ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = model(**__lowerCAmelCase , output_attentions=__lowerCAmelCase ) self.assertTrue(outputs.attentions is not None ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" if not self.model_tester.is_training: return # only MaskFormerForInstanceSegmentation has the loss _lowerCamelCase : Union[str, Any] = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : int = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : Any = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : List[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ).loss loss.backward() def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : int = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : str = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : List[str] = True _lowerCamelCase : Optional[int] = True _lowerCamelCase : Optional[Any] = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) _lowerCamelCase : List[Any] = outputs.encoder_hidden_states[0] encoder_hidden_states.retain_grad() _lowerCamelCase : Tuple = outputs.pixel_decoder_hidden_states[0] pixel_decoder_hidden_states.retain_grad() # we requires_grad=True in inputs_embeds (line 2152), the original implementation don't _lowerCamelCase : List[str] = outputs.transformer_decoder_hidden_states[0] transformer_decoder_hidden_states.retain_grad() _lowerCamelCase : Optional[int] = outputs.attentions[0] attentions.retain_grad() outputs.loss.backward(retain_graph=__lowerCAmelCase ) self.assertIsNotNone(encoder_hidden_states.grad ) self.assertIsNotNone(pixel_decoder_hidden_states.grad ) self.assertIsNotNone(transformer_decoder_hidden_states.grad ) self.assertIsNotNone(attentions.grad ) lowerCAmelCase__ = 1E-4 def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_vision @slow class __snake_case ( unittest.TestCase): @cached_property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return ( MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''' ) if is_vision_available() else None ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : str = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = self.default_image_processor _lowerCamelCase : List[Any] = prepare_img() _lowerCamelCase : Any = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : int = model(**__lowerCAmelCase ) _lowerCamelCase : str = torch.tensor( [[-0.04_82, 0.92_28, 0.49_51], [-0.25_47, 0.80_17, 0.85_27], [-0.00_69, 0.33_85, -0.00_89]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.encoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Union[str, Any] = torch.tensor( [[-0.84_22, -0.84_34, -0.97_18], [-1.01_44, -0.55_65, -0.41_95], [-1.00_38, -0.44_84, -0.19_61]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Optional[int] = torch.tensor( [[0.28_52, -0.01_59, 0.97_35], [0.62_54, 0.18_58, 0.85_29], [-0.06_80, -0.41_16, 1.84_13]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.transformer_decoder_last_hidden_state[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[int] = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : str = prepare_img() _lowerCamelCase : int = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[int] = model(**__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : Optional[int] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : List[str] = [ [-1.3_73_71_24, -1.7_72_49_37, -1.9_36_42_33], [-1.5_97_72_81, -1.9_86_79_39, -2.1_52_36_95], [-1.5_79_53_98, -1.9_26_98_32, -2.09_39_42], ] _lowerCamelCase : Any = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : List[Any] = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : str = torch.tensor( [ [1.6512E00, -5.2572E00, -3.3519E00], [3.6169E-02, -5.9025E00, -2.9313E00], [1.0766E-04, -7.7630E00, -5.1263E00], ] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Any = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : Tuple = self.default_image_processor _lowerCamelCase : Tuple = prepare_img() _lowerCamelCase : Optional[Any] = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[Any] = model(**__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : List[Any] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : int = [[-0.90_46, -2.63_66, -4.60_62], [-3.41_79, -5.78_90, -8.80_57], [-4.91_79, -7.65_60, -10.77_11]] _lowerCamelCase : List[Any] = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : Dict = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : Any = torch.tensor( [[4.71_88, -3.25_85, -2.88_57], [6.68_71, -2.91_81, -1.24_87], [7.24_49, -2.27_64, -2.18_74]] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : List[str] = image_processor( [np.zeros((3, 8_0_0, 1_3_3_3) ), np.zeros((3, 8_0_0, 1_3_3_3) )] , segmentation_maps=[np.zeros((3_8_4, 3_8_4) ).astype(np.floataa ), np.zeros((3_8_4, 3_8_4) ).astype(np.floataa )] , return_tensors='''pt''' , ) _lowerCamelCase : Union[str, Any] = inputs['''pixel_values'''].to(__lowerCAmelCase ) _lowerCamelCase : Dict = [el.to(__lowerCAmelCase ) for el in inputs['''mask_labels''']] _lowerCamelCase : Optional[Any] = [el.to(__lowerCAmelCase ) for el in inputs['''class_labels''']] with torch.no_grad(): _lowerCamelCase : Tuple = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None )

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'''simple docstring''' import shutil import tempfile import unittest from transformers import ( SPIECE_UNDERLINE, AddedToken, BatchEncoding, NllbTokenizer, NllbTokenizerFast, is_torch_available, ) from transformers.testing_utils import ( get_tests_dir, nested_simplify, require_sentencepiece, require_tokenizers, require_torch, ) from ...test_tokenization_common import TokenizerTesterMixin __UpperCAmelCase =get_tests_dir("fixtures/test_sentencepiece.model") if is_torch_available(): from transformers.models.mam_aaa.modeling_mam_aaa import shift_tokens_right __UpperCAmelCase =2_5_6_0_4_7 __UpperCAmelCase =2_5_6_1_4_5 @require_sentencepiece @require_tokenizers class a__ ( UpperCAmelCase__ , unittest.TestCase ): lowerCamelCase : Union[str, Any] =NllbTokenizer lowerCamelCase : Optional[int] =NllbTokenizerFast lowerCamelCase : str =True lowerCamelCase : str =True lowerCamelCase : Tuple ={} def SCREAMING_SNAKE_CASE__ ( self : List[Any] ): """simple docstring""" super().setUp() # We have a SentencePiece fixture for testing __lowerCamelCase = NllbTokenizer(a , keep_accents=a ) tokenizer.save_pretrained(self.tmpdirname ) def SCREAMING_SNAKE_CASE__ ( self : Any ): """simple docstring""" __lowerCamelCase = NllbTokenizer(a , keep_accents=a ) __lowerCamelCase = tokenizer.tokenize('''This is a test''' ) self.assertListEqual(a , ['''▁This''', '''▁is''', '''▁a''', '''▁t''', '''est'''] ) self.assertListEqual( tokenizer.convert_tokens_to_ids(a ) , [value + tokenizer.fairseq_offset for value in [2_85, 46, 10, 1_70, 3_82]] , ) __lowerCamelCase = tokenizer.tokenize('''I was born in 92000, and this is falsé.''' ) self.assertListEqual( a , [ SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''9''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''é''', '''.''', ] , ) __lowerCamelCase = tokenizer.convert_tokens_to_ids(a ) self.assertListEqual( a , [ value + tokenizer.fairseq_offset for value in [8, 21, 84, 55, 24, 19, 7, 2, 6_02, 3_47, 3_47, 3_47, 3, 12, 66, 46, 72, 80, 6, 2, 4] ] , ) __lowerCamelCase = tokenizer.convert_ids_to_tokens(a ) self.assertListEqual( a , [ SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''<unk>''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''<unk>''', '''.''', ] , ) def SCREAMING_SNAKE_CASE__ ( self : Optional[Any] ): """simple docstring""" __lowerCamelCase = (self.rust_tokenizer_class, '''hf-internal-testing/tiny-random-nllb''', {}) for tokenizer, pretrained_name, kwargs in self.tokenizers_list: with self.subTest(f"""{tokenizer.__class__.__name__} ({pretrained_name})""" ): __lowerCamelCase = self.rust_tokenizer_class.from_pretrained(a , **a ) __lowerCamelCase = self.tokenizer_class.from_pretrained(a , **a ) __lowerCamelCase = tempfile.mkdtemp() __lowerCamelCase = tokenizer_r.save_pretrained(a ) __lowerCamelCase = tokenizer_p.save_pretrained(a ) # Checks it save with the same files + the tokenizer.json file for the fast one self.assertTrue(any('''tokenizer.json''' in f for f in tokenizer_r_files ) ) __lowerCamelCase = tuple(f for f in tokenizer_r_files if '''tokenizer.json''' not in f ) self.assertSequenceEqual(a , a ) # Checks everything loads correctly in the same way __lowerCamelCase = tokenizer_r.from_pretrained(a ) __lowerCamelCase = tokenizer_p.from_pretrained(a ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(a , a ) ) shutil.rmtree(a ) # Save tokenizer rust, legacy_format=True __lowerCamelCase = tempfile.mkdtemp() __lowerCamelCase = tokenizer_r.save_pretrained(a , legacy_format=a ) __lowerCamelCase = tokenizer_p.save_pretrained(a ) # Checks it save with the same files self.assertSequenceEqual(a , a ) # Checks everything loads correctly in the same way __lowerCamelCase = tokenizer_r.from_pretrained(a ) __lowerCamelCase = tokenizer_p.from_pretrained(a ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(a , a ) ) shutil.rmtree(a ) # Save tokenizer rust, legacy_format=False __lowerCamelCase = tempfile.mkdtemp() __lowerCamelCase = tokenizer_r.save_pretrained(a , legacy_format=a ) __lowerCamelCase = tokenizer_p.save_pretrained(a ) # Checks it saved the tokenizer.json file self.assertTrue(any('''tokenizer.json''' in f for f in tokenizer_r_files ) ) # Checks everything loads correctly in the same way __lowerCamelCase = tokenizer_r.from_pretrained(a ) __lowerCamelCase = tokenizer_p.from_pretrained(a ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(a , a ) ) shutil.rmtree(a ) @require_torch def SCREAMING_SNAKE_CASE__ ( self : List[str] ): """simple docstring""" if not self.test_seqaseq: return __lowerCamelCase = self.get_tokenizers() for tokenizer in tokenizers: with self.subTest(f"""{tokenizer.__class__.__name__}""" ): # Longer text that will definitely require truncation. __lowerCamelCase = [ ''' UN Chief Says There Is No Military Solution in Syria''', ''' Secretary-General Ban Ki-moon says his response to Russia\'s stepped up military support for''' ''' Syria is that \'there is no military solution\' to the nearly five-year conflict and more weapons''' ''' will only worsen the violence and misery for millions of people.''', ] __lowerCamelCase = [ '''Şeful ONU declară că nu există o soluţie militară în Siria''', '''Secretarul General Ban Ki-moon declară că răspunsul său la intensificarea sprijinului militar al''' ''' Rusiei pentru Siria este că "nu există o soluţie militară" la conflictul de aproape cinci ani şi''' ''' că noi arme nu vor face decât să înrăutăţească violenţele şi mizeria pentru milioane de oameni.''', ] try: __lowerCamelCase = tokenizer.prepare_seqaseq_batch( src_texts=a , tgt_texts=a , max_length=3 , max_target_length=10 , return_tensors='''pt''' , src_lang='''eng_Latn''' , tgt_lang='''ron_Latn''' , ) except NotImplementedError: return self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.labels.shape[1] , 10 ) # max_target_length will default to max_length if not specified __lowerCamelCase = tokenizer.prepare_seqaseq_batch( a , tgt_texts=a , max_length=3 , return_tensors='''pt''' ) self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.labels.shape[1] , 3 ) __lowerCamelCase = tokenizer.prepare_seqaseq_batch( src_texts=a , max_length=3 , max_target_length=10 , return_tensors='''pt''' ) self.assertEqual(batch_encoder_only.input_ids.shape[1] , 3 ) self.assertEqual(batch_encoder_only.attention_mask.shape[1] , 3 ) self.assertNotIn('''decoder_input_ids''' , a ) @unittest.skip('''Unfortunately way too slow to build a BPE with SentencePiece.''' ) def SCREAMING_SNAKE_CASE__ ( self : Optional[int] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE__ ( self : List[Any] ): """simple docstring""" for tokenizer, pretrained_name, kwargs in self.tokenizers_list: with self.subTest(f"""{tokenizer.__class__.__name__} ({pretrained_name})""" ): __lowerCamelCase = [AddedToken('''<special>''' , lstrip=a )] __lowerCamelCase = self.rust_tokenizer_class.from_pretrained( a , additional_special_tokens=a , **a ) __lowerCamelCase = tokenizer_r.encode('''Hey this is a <special> token''' ) __lowerCamelCase = tokenizer_r.encode('''<special>''' , add_special_tokens=a )[0] self.assertTrue(special_token_id in r_output ) if self.test_slow_tokenizer: __lowerCamelCase = self.rust_tokenizer_class.from_pretrained( a , additional_special_tokens=a , **a , ) __lowerCamelCase = self.tokenizer_class.from_pretrained( a , additional_special_tokens=a , **a ) __lowerCamelCase = tokenizer_p.encode('''Hey this is a <special> token''' ) __lowerCamelCase = tokenizer_cr.encode('''Hey this is a <special> token''' ) self.assertEqual(a , a ) self.assertEqual(a , a ) self.assertTrue(special_token_id in p_output ) self.assertTrue(special_token_id in cr_output ) @require_torch @require_sentencepiece @require_tokenizers class a__ ( unittest.TestCase ): lowerCamelCase : int ="facebook/nllb-200-distilled-600M" lowerCamelCase : Optional[int] =[ " UN Chief Says There Is No Military Solution in Syria", " Secretary-General Ban Ki-moon says his response to Russia's stepped up military support for Syria is that \"there is no military solution\" to the nearly five-year conflict and more weapons will only worsen the violence and misery for millions of people.", ] lowerCamelCase : Tuple =[ "Şeful ONU declară că nu există o soluţie militară în Siria", "Secretarul General Ban Ki-moon declară că răspunsul său la intensificarea sprijinului militar al Rusiei" " pentru Siria este că \"nu există o soluţie militară\" la conflictul de aproape cinci ani şi că noi arme nu vor" " face decât să înrăutăţească violenţele şi mizeria pentru milioane de oameni.", ] lowerCamelCase : Union[str, Any] =[ 2_5_6_0_4_7, 1_6_2_9_7, 1_3_4_4_0_8, 8_1_6_5, 2_4_8_0_6_6, 1_4_7_3_4, 9_5_0, 1_1_3_5, 1_0_5_7_2_1, 3_5_7_3, 8_3, 2_7_3_5_2, 1_0_8, 4_9_4_8_6, 2, ] @classmethod def SCREAMING_SNAKE_CASE__ ( cls : Tuple ): """simple docstring""" __lowerCamelCase = NllbTokenizer.from_pretrained( cls.checkpoint_name , src_lang='''eng_Latn''' , tgt_lang='''ron_Latn''' ) __lowerCamelCase = 1 return cls def SCREAMING_SNAKE_CASE__ ( self : str ): """simple docstring""" self.assertEqual(self.tokenizer.fairseq_tokens_to_ids['''ace_Arab'''] , 25_60_01 ) self.assertEqual(self.tokenizer.fairseq_tokens_to_ids['''ace_Latn'''] , 25_60_02 ) self.assertEqual(self.tokenizer.fairseq_tokens_to_ids['''fra_Latn'''] , 25_60_57 ) def SCREAMING_SNAKE_CASE__ ( self : int ): """simple docstring""" __lowerCamelCase = self.tokenizer.batch_encode_plus(self.src_text ).input_ids[0] self.assertListEqual(self.expected_src_tokens , a ) def SCREAMING_SNAKE_CASE__ ( self : Union[str, Any] ): """simple docstring""" self.assertIn(a , self.tokenizer.all_special_ids ) # fmt: off __lowerCamelCase = [RO_CODE, 42_54, 9_80_68, 11_29_23, 3_90_72, 39_09, 7_13, 10_27_67, 26, 1_73_14, 3_56_42, 1_46_83, 3_31_18, 20_22, 6_69_87, 2, 25_60_47] # fmt: on __lowerCamelCase = self.tokenizer.decode(a , skip_special_tokens=a ) __lowerCamelCase = self.tokenizer.decode(generated_ids[1:] , skip_special_tokens=a ) self.assertEqual(a , a ) self.assertNotIn(self.tokenizer.eos_token , a ) def SCREAMING_SNAKE_CASE__ ( self : Union[str, Any] ): """simple docstring""" __lowerCamelCase = ['''this is gunna be a long sentence ''' * 20] assert isinstance(src_text[0] , a ) __lowerCamelCase = 10 __lowerCamelCase = self.tokenizer(a , max_length=a , truncation=a ).input_ids[0] self.assertEqual(ids[-1] , 2 ) self.assertEqual(ids[0] , a ) self.assertEqual(len(a ) , a ) def SCREAMING_SNAKE_CASE__ ( self : Optional[int] ): """simple docstring""" self.assertListEqual(self.tokenizer.convert_tokens_to_ids(['''<mask>''', '''ar_AR'''] ) , [25_62_03, 3] ) def SCREAMING_SNAKE_CASE__ ( self : int ): """simple docstring""" __lowerCamelCase = tempfile.mkdtemp() __lowerCamelCase = self.tokenizer.fairseq_tokens_to_ids self.tokenizer.save_pretrained(a ) __lowerCamelCase = NllbTokenizer.from_pretrained(a ) self.assertDictEqual(new_tok.fairseq_tokens_to_ids , a ) @require_torch def SCREAMING_SNAKE_CASE__ ( self : List[Any] ): """simple docstring""" __lowerCamelCase = self.tokenizer( self.src_text , text_target=self.tgt_text , padding=a , truncation=a , max_length=len(self.expected_src_tokens ) , return_tensors='''pt''' , ) __lowerCamelCase = shift_tokens_right( batch['''labels'''] , self.tokenizer.pad_token_id , self.tokenizer.lang_code_to_id['''ron_Latn'''] ) self.assertIsInstance(a , a ) self.assertEqual((2, 15) , batch.input_ids.shape ) self.assertEqual((2, 15) , batch.attention_mask.shape ) __lowerCamelCase = batch.input_ids.tolist()[0] self.assertListEqual(self.expected_src_tokens , a ) self.assertEqual(a , batch.decoder_input_ids[0, 0] ) # EOS # Test that special tokens are reset self.assertEqual(self.tokenizer.prefix_tokens , [EN_CODE] ) self.assertEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) def SCREAMING_SNAKE_CASE__ ( self : Optional[Any] ): """simple docstring""" __lowerCamelCase = self.tokenizer(self.src_text , padding=a , truncation=a , max_length=3 , return_tensors='''pt''' ) __lowerCamelCase = self.tokenizer( text_target=self.tgt_text , padding=a , truncation=a , max_length=10 , return_tensors='''pt''' ) __lowerCamelCase = targets['''input_ids'''] __lowerCamelCase = shift_tokens_right( a , self.tokenizer.pad_token_id , decoder_start_token_id=self.tokenizer.lang_code_to_id[self.tokenizer.tgt_lang] , ) self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.decoder_input_ids.shape[1] , 10 ) @require_torch def SCREAMING_SNAKE_CASE__ ( self : Any ): """simple docstring""" __lowerCamelCase = self.tokenizer._build_translation_inputs( '''A test''' , return_tensors='''pt''' , src_lang='''eng_Latn''' , tgt_lang='''fra_Latn''' ) self.assertEqual( nested_simplify(a ) , { # A, test, EOS, en_XX '''input_ids''': [[25_60_47, 70, 73_56, 2]], '''attention_mask''': [[1, 1, 1, 1]], # ar_AR '''forced_bos_token_id''': 25_60_57, } , ) @require_torch def SCREAMING_SNAKE_CASE__ ( self : Any ): """simple docstring""" __lowerCamelCase = True __lowerCamelCase = self.tokenizer( '''UN Chief says there is no military solution in Syria''' , src_lang='''eng_Latn''' , tgt_lang='''fra_Latn''' ) self.assertEqual( inputs.input_ids , [1_62_97, 13_44_08, 2_56_53, 63_70, 2_48, 2_54, 10_39_29, 9_49_95, 1_08, 4_94_86, 2, 25_60_47] ) __lowerCamelCase = False __lowerCamelCase = self.tokenizer( '''UN Chief says there is no military solution in Syria''' , src_lang='''eng_Latn''' , tgt_lang='''fra_Latn''' ) self.assertEqual( inputs.input_ids , [25_60_47, 1_62_97, 13_44_08, 2_56_53, 63_70, 2_48, 2_54, 10_39_29, 9_49_95, 1_08, 4_94_86, 2] )

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"""simple docstring""" lowerCAmelCase__ = { '''A''': ['''B''', '''C''', '''E'''], '''B''': ['''A''', '''D''', '''E'''], '''C''': ['''A''', '''F''', '''G'''], '''D''': ['''B'''], '''E''': ['''A''', '''B''', '''D'''], '''F''': ['''C'''], '''G''': ['''C'''], } def snake_case_ ( A_ : dict, A_ : int, A_ : int ): '''simple docstring''' _lowerCamelCase : List[str] = set() # keep track of all the paths to be checked _lowerCamelCase : str = [[start]] # return path if start is goal if start == goal: return [start] # keeps looping until all possible paths have been checked while queue: # pop the first path from the queue _lowerCamelCase : str = queue.pop(0 ) # get the last node from the path _lowerCamelCase : List[Any] = path[-1] if node not in explored: _lowerCamelCase : Union[str, Any] = graph[node] # go through all neighbour nodes, construct a new path and # push it into the queue for neighbour in neighbours: _lowerCamelCase : Union[str, Any] = list(A_ ) new_path.append(A_ ) queue.append(A_ ) # return path if neighbour is goal if neighbour == goal: return new_path # mark node as explored explored.add(A_ ) # in case there's no path between the 2 nodes return [] def snake_case_ ( A_ : dict, A_ : int, A_ : Dict ): '''simple docstring''' if not graph or start not in graph or target not in graph: return -1 if start == target: return 0 _lowerCamelCase : Optional[int] = [start] _lowerCamelCase : int = set(A_ ) # Keep tab on distances from `start` node. _lowerCamelCase : int = {start: 0, target: -1} while queue: _lowerCamelCase : Optional[Any] = queue.pop(0 ) if node == target: _lowerCamelCase : Any = ( dist[node] if dist[target] == -1 else min(dist[target], dist[node] ) ) for adjacent in graph[node]: if adjacent not in visited: visited.add(A_ ) queue.append(A_ ) _lowerCamelCase : Any = dist[node] + 1 return dist[target] if __name__ == "__main__": print(bfs_shortest_path(demo_graph, '''G''', '''D''')) # returns ['G', 'C', 'A', 'B', 'D'] print(bfs_shortest_path_distance(demo_graph, '''G''', '''D''')) # returns 4

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import os from argparse import ArgumentParser, Namespace from ..data import SingleSentenceClassificationProcessor as Processor from ..pipelines import TextClassificationPipeline from ..utils import is_tf_available, is_torch_available, logging from . import BaseTransformersCLICommand if not is_tf_available() and not is_torch_available(): raise RuntimeError("""At least one of PyTorch or TensorFlow 2.0+ should be installed to use CLI training""") # TF training parameters lowerCAmelCase__ = False lowerCAmelCase__ = False def lowerCAmelCase__ ( SCREAMING_SNAKE_CASE_: Namespace ) -> List[str]: '''simple docstring''' return TrainCommand(SCREAMING_SNAKE_CASE_ ) class a__ ( snake_case ): """simple docstring""" @staticmethod def UpperCamelCase ( lowercase ) -> Any: '''simple docstring''' A__ = parser.add_parser("train" , help="CLI tool to train a model on a task." ) train_parser.add_argument( "--train_data" , type=lowercase , required=lowercase , help="path to train (and optionally evaluation) dataset as a csv with tab separated labels and sentences." , ) train_parser.add_argument( "--column_label" , type=lowercase , default=0 , help="Column of the dataset csv file with example labels." ) train_parser.add_argument( "--column_text" , type=lowercase , default=1 , help="Column of the dataset csv file with example texts." ) train_parser.add_argument( "--column_id" , type=lowercase , default=2 , help="Column of the dataset csv file with example ids." ) train_parser.add_argument( "--skip_first_row" , action="store_true" , help="Skip the first row of the csv file (headers)." ) train_parser.add_argument("--validation_data" , type=lowercase , default="" , help="path to validation dataset." ) train_parser.add_argument( "--validation_split" , type=lowercase , default=0.1 , help="if validation dataset is not provided, fraction of train dataset to use as validation dataset." , ) train_parser.add_argument("--output" , type=lowercase , default="./" , help="path to saved the trained model." ) train_parser.add_argument( "--task" , type=lowercase , default="text_classification" , help="Task to train the model on." ) train_parser.add_argument( "--model" , type=lowercase , default="bert-base-uncased" , help="Model's name or path to stored model." ) train_parser.add_argument("--train_batch_size" , type=lowercase , default=32 , help="Batch size for training." ) train_parser.add_argument("--valid_batch_size" , type=lowercase , default=64 , help="Batch size for validation." ) train_parser.add_argument("--learning_rate" , type=lowercase , default=3e-5 , help="Learning rate." ) train_parser.add_argument("--adam_epsilon" , type=lowercase , default=1e-08 , help="Epsilon for Adam optimizer." ) train_parser.set_defaults(func=lowercase ) def __init__( self , lowercase ) -> Optional[int]: '''simple docstring''' A__ = logging.get_logger("transformers-cli/training" ) A__ = "tf" if is_tf_available() else "torch" os.makedirs(args.output , exist_ok=lowercase ) A__ = args.output A__ = args.column_label A__ = args.column_text A__ = args.column_id self.logger.info(F'Loading {args.task} pipeline for {args.model}' ) if args.task == "text_classification": A__ = TextClassificationPipeline.from_pretrained(args.model ) elif args.task == "token_classification": raise NotImplementedError elif args.task == "question_answering": raise NotImplementedError self.logger.info(F'Loading dataset from {args.train_data}' ) A__ = Processor.create_from_csv( args.train_data , column_label=args.column_label , column_text=args.column_text , column_id=args.column_id , skip_first_row=args.skip_first_row , ) A__ = None if args.validation_data: self.logger.info(F'Loading validation dataset from {args.validation_data}' ) A__ = Processor.create_from_csv( args.validation_data , column_label=args.column_label , column_text=args.column_text , column_id=args.column_id , skip_first_row=args.skip_first_row , ) A__ = args.validation_split A__ = args.train_batch_size A__ = args.valid_batch_size A__ = args.learning_rate A__ = args.adam_epsilon def UpperCamelCase ( self ) -> List[str]: '''simple docstring''' if self.framework == "tf": return self.run_tf() return self.run_torch() def UpperCamelCase ( self ) -> List[str]: '''simple docstring''' raise NotImplementedError def UpperCamelCase ( self ) -> Optional[Any]: '''simple docstring''' self.pipeline.fit( self.train_dataset , validation_data=self.valid_dataset , validation_split=self.validation_split , learning_rate=self.learning_rate , adam_epsilon=self.adam_epsilon , train_batch_size=self.train_batch_size , valid_batch_size=self.valid_batch_size , ) # Save trained pipeline self.pipeline.save_pretrained(self.output )

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"""simple docstring""" import argparse import torch from transformers import LxmertConfig, LxmertForPreTraining, load_tf_weights_in_lxmert from transformers.utils import logging logging.set_verbosity_info() def snake_case_ ( A_ : Tuple, A_ : int, A_ : Dict ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = LxmertConfig.from_json_file(A_ ) print(F'''Building PyTorch model from configuration: {config}''' ) _lowerCamelCase : List[str] = LxmertForPreTraining(A_ ) # Load weights from tf checkpoint load_tf_weights_in_lxmert(A_, A_, A_ ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) torch.save(model.state_dict(), A_ ) if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained model. \nThis specifies the model architecture.''', ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) lowerCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)

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"""simple docstring""" import os from huggingface_hub.constants import HUGGINGFACE_HUB_CACHE, hf_cache_home __UpperCamelCase = HUGGINGFACE_HUB_CACHE __UpperCamelCase = '''config.json''' __UpperCamelCase = '''diffusion_pytorch_model.bin''' __UpperCamelCase = '''diffusion_flax_model.msgpack''' __UpperCamelCase = '''model.onnx''' __UpperCamelCase = '''diffusion_pytorch_model.safetensors''' __UpperCamelCase = '''weights.pb''' __UpperCamelCase = '''https://huggingface.co''' __UpperCamelCase = default_cache_path __UpperCamelCase = '''diffusers_modules''' __UpperCamelCase = os.getenv('''HF_MODULES_CACHE''', os.path.join(hf_cache_home, '''modules''')) __UpperCamelCase = ['''fp16''', '''non-ema'''] __UpperCamelCase = '''.self_attn'''

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"""simple docstring""" from collections import defaultdict from graphs.minimum_spanning_tree_prims import prisms_algorithm as mst def snake_case_ ( ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : int = 9, 14 # noqa: F841 _lowerCamelCase : List[Any] = [ [0, 1, 4], [0, 7, 8], [1, 2, 8], [7, 8, 7], [7, 6, 1], [2, 8, 2], [8, 6, 6], [2, 3, 7], [2, 5, 4], [6, 5, 2], [3, 5, 14], [3, 4, 9], [5, 4, 10], [1, 7, 11], ] _lowerCamelCase : Any = defaultdict(A_ ) for nodea, nodea, cost in edges: adjancency[nodea].append([nodea, cost] ) adjancency[nodea].append([nodea, cost] ) _lowerCamelCase : List[str] = mst(A_ ) _lowerCamelCase : Optional[int] = [ [7, 6, 1], [2, 8, 2], [6, 5, 2], [0, 1, 4], [2, 5, 4], [2, 3, 7], [0, 7, 8], [3, 4, 9], ] for answer in expected: _lowerCamelCase : int = tuple(answer[:2] ) _lowerCamelCase : int = tuple(edge[::-1] ) assert edge in result or reverse in result

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'''simple docstring''' import logging import os from typing import List, Tuple import numpy as np import psutil import torch import torch.distributed as dist from transformers import RagRetriever A__ : Tuple =logging.getLogger(__name__) class UpperCAmelCase ( snake_case_ ): def __init__( self : int , __snake_case : Union[str, Any] , __snake_case : Dict , __snake_case : Any , __snake_case : str=None ) -> Union[str, Any]: super().__init__( __snake_case , question_encoder_tokenizer=__snake_case , generator_tokenizer=__snake_case , index=__snake_case , init_retrieval=__snake_case , ) _lowerCAmelCase = None def lowercase__ ( self : List[Any] , __snake_case : int ) -> Optional[Any]: logger.info("""initializing retrieval""" ) # initializing a separate process group for retrieval as the default # nccl backend doesn't support gather/scatter operations while gloo # is too slow to replace nccl for the core gpu communication if dist.is_initialized(): logger.info("""dist initialized""" ) # needs to be set manually _lowerCAmelCase = self._infer_socket_ifname() # avoid clash with the NCCL port _lowerCAmelCase = str(distributed_port + 1 ) _lowerCAmelCase = dist.new_group(ranks=__snake_case , backend="""gloo""" ) # initialize retriever only on the main worker if not dist.is_initialized() or self._is_main(): logger.info("""dist not initialized / main""" ) self.index.init_index() # all processes wait untill the retriever is initialized by the main process if dist.is_initialized(): torch.distributed.barrier(group=self.process_group ) def lowercase__ ( self : str ) -> Any: return dist.get_rank(group=self.process_group ) == 0 def lowercase__ ( self : str , __snake_case : str , __snake_case : List[Any] , __snake_case : str=torch.floataa ) -> List[str]: _lowerCAmelCase = torch.empty(__snake_case , dtype=__snake_case ) dist.scatter(__snake_case , src=0 , scatter_list=__snake_case , group=self.process_group ) return target_tensor def lowercase__ ( self : Optional[Any] ) -> int: _lowerCAmelCase = psutil.net_if_addrs() # a hacky way to deal with varying network interface names _lowerCAmelCase = next((addr for addr in addrs if addr.startswith("""e""" )) , __snake_case ) return ifname def lowercase__ ( self : Optional[int] , __snake_case : np.ndarray , __snake_case : int ) -> Tuple[np.ndarray, List[dict]]: # single GPU training if not dist.is_initialized(): _lowerCAmelCase , _lowerCAmelCase = self._main_retrieve(__snake_case , __snake_case ) return retrieved_doc_embeds, doc_ids, self.index.get_doc_dicts(__snake_case ) # distributed training _lowerCAmelCase = dist.get_world_size(group=self.process_group ) # gather logic _lowerCAmelCase = None if self._is_main(): _lowerCAmelCase = [torch.empty(question_hidden_states.shape , dtype=torch.floataa ) for _ in range(__snake_case )] dist.gather(torch.tensor(__snake_case ) , dst=0 , gather_list=__snake_case , group=self.process_group ) # scatter logic _lowerCAmelCase = question_hidden_states.shape[0] _lowerCAmelCase = [] _lowerCAmelCase = [] if self._is_main(): assert len(__snake_case ) == world_size _lowerCAmelCase , _lowerCAmelCase = self._main_retrieve(torch.cat(__snake_case ).numpy() , __snake_case ) _lowerCAmelCase , _lowerCAmelCase = torch.tensor(__snake_case ), torch.tensor(__snake_case ) _lowerCAmelCase = self._chunk_tensor(__snake_case , __snake_case ) _lowerCAmelCase = self._chunk_tensor(__snake_case , __snake_case ) _lowerCAmelCase = self._scattered(__snake_case , [n_queries, n_docs] , target_type=torch.intaa ) _lowerCAmelCase = self._scattered(__snake_case , [n_queries, n_docs, question_hidden_states.shape[1]] ) return retrieved_doc_embeds.numpy(), doc_ids.numpy(), self.index.get_doc_dicts(__snake_case )

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"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt''', '''tokenizer_file''': '''tokenizer.json'''} # See all BART models at https://huggingface.co/models?filter=bart lowerCAmelCase__ = { '''vocab_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/vocab.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/vocab.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json''', }, '''merges_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/merges.txt''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/merges.txt''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt''', }, '''tokenizer_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1024, '''facebook/bart-large''': 1024, '''facebook/bart-large-mnli''': 1024, '''facebook/bart-large-cnn''': 1024, '''facebook/bart-large-xsum''': 1024, '''yjernite/bart_eli5''': 1024, } class __snake_case ( _lowercase): snake_case__ : Any = VOCAB_FILES_NAMES snake_case__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP snake_case__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES snake_case__ : Optional[int] = ["input_ids", "attention_mask"] snake_case__ : Any = BartTokenizer def __init__( self : int , __lowerCAmelCase : Dict=None , __lowerCAmelCase : int=None , __lowerCAmelCase : Dict=None , __lowerCAmelCase : List[Any]="replace" , __lowerCAmelCase : Any="<s>" , __lowerCAmelCase : Optional[int]="</s>" , __lowerCAmelCase : str="</s>" , __lowerCAmelCase : Dict="<s>" , __lowerCAmelCase : Union[str, Any]="<unk>" , __lowerCAmelCase : Any="<pad>" , __lowerCAmelCase : Optional[Any]="<mask>" , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Dict=True , **__lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__( __lowerCAmelCase , __lowerCAmelCase , tokenizer_file=__lowerCAmelCase , errors=__lowerCAmelCase , bos_token=__lowerCAmelCase , eos_token=__lowerCAmelCase , sep_token=__lowerCAmelCase , cls_token=__lowerCAmelCase , unk_token=__lowerCAmelCase , pad_token=__lowerCAmelCase , mask_token=__lowerCAmelCase , add_prefix_space=__lowerCAmelCase , trim_offsets=__lowerCAmelCase , **__lowerCAmelCase , ) _lowerCamelCase : Tuple = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = getattr(__lowerCAmelCase , pre_tok_state.pop('''type''' ) ) _lowerCamelCase : Any = add_prefix_space _lowerCamelCase : int = pre_tok_class(**__lowerCAmelCase ) _lowerCamelCase : Optional[int] = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _lowerCamelCase : List[str] = '''post_processor''' _lowerCamelCase : List[str] = getattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) if tokenizer_component_instance: _lowerCamelCase : int = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _lowerCamelCase : Tuple = tuple(state['''sep'''] ) if "cls" in state: _lowerCamelCase : int = tuple(state['''cls'''] ) _lowerCamelCase : Union[str, Any] = False if state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = add_prefix_space _lowerCamelCase : Optional[Any] = True if state.get('''trim_offsets''' , __lowerCAmelCase ) != trim_offsets: _lowerCamelCase : Any = trim_offsets _lowerCamelCase : str = True if changes_to_apply: _lowerCamelCase : List[str] = getattr(__lowerCAmelCase , state.pop('''type''' ) ) _lowerCamelCase : str = component_class(**__lowerCAmelCase ) setattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) @property def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : int ): """simple docstring""" _lowerCamelCase : Tuple = AddedToken(__lowerCAmelCase , lstrip=__lowerCAmelCase , rstrip=__lowerCAmelCase ) if isinstance(__lowerCAmelCase , __lowerCAmelCase ) else value _lowerCamelCase : str = value def SCREAMING_SNAKE_CASE ( self : int , *__lowerCAmelCase : Optional[Any] , **__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Dict = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._batch_encode_plus(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : Tuple , **__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Any = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._encode_plus(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[str] = None ): """simple docstring""" _lowerCamelCase : Tuple = self._tokenizer.model.save(__lowerCAmelCase , name=__lowerCAmelCase ) return tuple(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : Dict , __lowerCAmelCase : List[str]=None ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : List[int] , __lowerCAmelCase : Optional[List[int]] = None ): """simple docstring""" _lowerCamelCase : List[str] = [self.sep_token_id] _lowerCamelCase : Tuple = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]

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from copy import deepcopy import torch import torch.nn.functional as F from torch.optim import AdamW from torch.optim.lr_scheduler import LambdaLR from torch.utils.data import DataLoader from accelerate.accelerator import Accelerator from accelerate.state import GradientState from accelerate.test_utils import RegressionDataset, RegressionModel from accelerate.utils import DistributedType, is_torch_version, set_seed def A ( a_ ,a_ ,a_ ,a_ ) -> List[str]: for param, grad_param in zip(model_a.parameters() ,model_b.parameters() ): if not param.requires_grad: continue if not did_step: # Grads should not be in sync assert ( torch.allclose(param.grad ,grad_param.grad ) is False ), F'Gradients in sync when they should not be at iteration {iteration}:\nmodel_a grad ({param.grad}) == model_b grad ({grad_param.grad})' else: # Grads should be in sync assert ( torch.allclose(param.grad ,grad_param.grad ) is True ), F'Gradients not in sync when they should be at iteration {iteration}:\nmodel_a grad ({param.grad}) != model_b grad ({grad_param.grad})' def A ( a_ ,a_ ,a_ ,a_ ,a_=True ) -> Tuple: model.train() __UpperCamelCase : List[Any] =model(a_ ) __UpperCamelCase : List[Any] =F.mse_loss(a_ ,target.to(output.device ) ) if not do_backward: loss /= accelerator.gradient_accumulation_steps loss.backward() else: accelerator.backward(a_ ) def A ( a_ ,a_=False ) -> List[Any]: set_seed(42 ) __UpperCamelCase : str =RegressionModel() __UpperCamelCase : int =deepcopy(a_ ) __UpperCamelCase : Optional[int] =RegressionDataset(length=80 ) __UpperCamelCase : List[Any] =DataLoader(a_ ,batch_size=16 ) model.to(accelerator.device ) if sched: __UpperCamelCase : Optional[int] =AdamW(params=model.parameters() ,lr=1e-3 ) __UpperCamelCase : Tuple =AdamW(params=ddp_model.parameters() ,lr=1e-3 ) __UpperCamelCase : int =LambdaLR(a_ ,lr_lambda=lambda a_ : epoch**0.65 ) __UpperCamelCase : Tuple =LambdaLR(a_ ,lr_lambda=lambda a_ : epoch**0.65 ) # Make a copy of `model` if sched: __UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase : Dict =accelerator.prepare(a_ ,a_ ,a_ ,a_ ) else: __UpperCamelCase , __UpperCamelCase : str =accelerator.prepare(a_ ,a_ ) if sched: return (model, opt, sched, dataloader, ddp_model, ddp_opt, ddp_sched) return model, ddp_model, dataloader def A ( a_ ) -> Union[str, Any]: # Test when on a single CPU or GPU that the context manager does nothing __UpperCamelCase , __UpperCamelCase , __UpperCamelCase : Any =get_training_setup(a_ ) # Use a single batch __UpperCamelCase , __UpperCamelCase : int =next(iter(a_ ) ).values() for iteration in range(3 ): # Gather the distributed inputs and targs for the base model __UpperCamelCase , __UpperCamelCase : List[str] =accelerator.gather((ddp_input, ddp_target) ) __UpperCamelCase , __UpperCamelCase : Union[str, Any] =input.to(accelerator.device ), target.to(accelerator.device ) # Perform our initial ground truth step in non "DDP" step_model(a_ ,a_ ,a_ ,a_ ) # Do "gradient accumulation" (noop) if iteration % 2 == 0: # Accumulate grads locally with accelerator.no_sync(a_ ): step_model(a_ ,a_ ,a_ ,a_ ) else: # Sync grads step_model(a_ ,a_ ,a_ ,a_ ) # Since `no_sync` is a noop, `ddp_model` and `model` grads should always be in sync check_model_parameters(a_ ,a_ ,a_ ,a_ ) for param, ddp_param in zip(model.parameters() ,ddp_model.parameters() ): if not param.requires_grad: continue assert torch.allclose( param.grad ,ddp_param.grad ), F'Gradients not in sync when they should be:\nModel grad ({param.grad}) != DDP grad ({ddp_param.grad})' # Shuffle ddp_input on each iteration torch.manual_seed(1_337 + iteration ) __UpperCamelCase : str =ddp_input[torch.randperm(len(a_ ) )] def A ( a_ ) -> Tuple: # Test on distributed setup that context manager behaves properly __UpperCamelCase , __UpperCamelCase , __UpperCamelCase : Dict =get_training_setup(a_ ) # Use a single batch __UpperCamelCase , __UpperCamelCase : Optional[int] =next(iter(a_ ) ).values() for iteration in range(3 ): # Gather the distributed inputs and targs for the base model __UpperCamelCase , __UpperCamelCase : Optional[Any] =accelerator.gather((ddp_input, ddp_target) ) __UpperCamelCase , __UpperCamelCase : int =input.to(accelerator.device ), target.to(accelerator.device ) # Perform our initial ground truth step in non "DDP" step_model(a_ ,a_ ,a_ ,a_ ) # Do "gradient accumulation" (noop) if iteration % 2 == 0: # Accumulate grads locally with accelerator.no_sync(a_ ): step_model(a_ ,a_ ,a_ ,a_ ) else: # Sync grads step_model(a_ ,a_ ,a_ ,a_ ) # DDP model and model should only be in sync when not (iteration % 2 == 0) for param, ddp_param in zip(model.parameters() ,ddp_model.parameters() ): if not param.requires_grad: continue if iteration % 2 == 0: # Grads should not be in sync assert ( torch.allclose(param.grad ,ddp_param.grad ) is False ), F'Gradients in sync when they should not be:\nModel grad ({param.grad}) == DDP grad ({ddp_param.grad})' else: # Grads should be in sync assert ( torch.allclose(param.grad ,ddp_param.grad ) is True ), F'Gradients not in sync when they should be:\nModel grad ({param.grad}) != DDP grad ({ddp_param.grad})' # Shuffle ddp_input on each iteration torch.manual_seed(1_337 + iteration ) __UpperCamelCase : Optional[int] =ddp_input[torch.randperm(len(a_ ) )] def A ( a_=False ,a_=False ) -> Tuple: __UpperCamelCase : Union[str, Any] =Accelerator( split_batches=a_ ,dispatch_batches=a_ ,gradient_accumulation_steps=2 ) # Test that context manager behaves properly __UpperCamelCase , __UpperCamelCase , __UpperCamelCase : Tuple =get_training_setup(a_ ) for iteration, batch in enumerate(a_ ): __UpperCamelCase , __UpperCamelCase : Tuple =batch.values() # Gather the distributed inputs and targs for the base model __UpperCamelCase , __UpperCamelCase : Union[str, Any] =accelerator.gather((ddp_input, ddp_target) ) __UpperCamelCase , __UpperCamelCase : Any =input.to(accelerator.device ), target.to(accelerator.device ) # Perform our initial ground truth step in non "DDP" step_model(a_ ,a_ ,a_ ,a_ ,a_ ) # Do "gradient accumulation" (noop) with accelerator.accumulate(a_ ): step_model(a_ ,a_ ,a_ ,a_ ) # DDP model and model should only be in sync when not (iteration % 2 == 0) for param, ddp_param in zip(model.parameters() ,ddp_model.parameters() ): if not param.requires_grad: continue if ((iteration + 1) % 2 == 0) or (iteration == len(a_ ) - 1): # Grads should be in sync assert ( torch.allclose(param.grad ,ddp_param.grad ) is True ), F'Gradients not in sync when they should be at iteration {iteration}:\nModel grad ({param.grad}) != DDP grad ({ddp_param.grad})' else: # Grads should not be in sync assert ( torch.allclose(param.grad ,ddp_param.grad ) is False ), F'Gradients in sync when they should not be at iteration {iteration}:\nModel grad ({param.grad}) == DDP grad ({ddp_param.grad})' # Shuffle ddp_input on each iteration torch.manual_seed(1_337 + iteration ) __UpperCamelCase : Union[str, Any] =ddp_input[torch.randperm(len(a_ ) )] GradientState._reset_state() def A ( a_=False ,a_=False ) -> Dict: __UpperCamelCase : int =Accelerator( split_batches=a_ ,dispatch_batches=a_ ,gradient_accumulation_steps=2 ) # Test that context manager behaves properly __UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase : str =get_training_setup(a_ ,a_ ) for iteration, batch in enumerate(a_ ): __UpperCamelCase , __UpperCamelCase : List[Any] =batch.values() # Gather the distributed inputs and targs for the base model __UpperCamelCase , __UpperCamelCase : Dict =accelerator.gather((ddp_input, ddp_target) ) __UpperCamelCase , __UpperCamelCase : Optional[int] =input.to(accelerator.device ), target.to(accelerator.device ) # Perform our initial ground truth step in non "DDP" model.train() ddp_model.train() step_model(a_ ,a_ ,a_ ,a_ ,a_ ) opt.step() if ((iteration + 1) % 2 == 0) or ((iteration + 1) == len(a_ )): if split_batches: sched.step() else: for _ in range(accelerator.num_processes ): sched.step() opt.zero_grad() # Perform gradient accumulation under wrapper with accelerator.accumulate(a_ ): step_model(a_ ,a_ ,a_ ,a_ ) ddp_opt.step() ddp_sched.step() ddp_opt.zero_grad() # Learning rates should be the same assert ( opt.param_groups[0]["lr"] == ddp_opt.param_groups[0]["lr"] ), F'Learning rates found in each optimizer did not align\nopt: {opt.param_groups[0]["lr"]}\nDDP opt: {ddp_opt.param_groups[0]["lr"]}\n' __UpperCamelCase : Tuple =(((iteration + 1) % 2) == 0) or ((iteration + 1) == len(a_ )) if accelerator.num_processes > 1: check_model_parameters(a_ ,a_ ,a_ ,a_ ) # Shuffle ddp_input on each iteration torch.manual_seed(1_337 + iteration ) GradientState._reset_state() def A ( ) -> int: __UpperCamelCase : List[Any] =Accelerator() __UpperCamelCase : Any =RegressionDataset(length=80 ) __UpperCamelCase : Any =DataLoader(a_ ,batch_size=16 ) __UpperCamelCase : List[Any] =RegressionDataset(length=96 ) __UpperCamelCase : Optional[int] =DataLoader(a_ ,batch_size=16 ) __UpperCamelCase , __UpperCamelCase : Dict =accelerator.prepare(a_ ,a_ ) assert accelerator.gradient_state.active_dataloader is None for iteration, _ in enumerate(a_ ): assert id(accelerator.gradient_state.active_dataloader ) == id(a_ ) if iteration < len(a_ ) - 1: assert not accelerator.gradient_state.end_of_dataloader if iteration == 1: for batch_num, _ in enumerate(a_ ): assert id(accelerator.gradient_state.active_dataloader ) == id(a_ ) if batch_num < len(a_ ) - 1: assert not accelerator.gradient_state.end_of_dataloader else: assert accelerator.gradient_state.end_of_dataloader else: assert accelerator.gradient_state.end_of_dataloader assert accelerator.gradient_state.active_dataloader is None def A ( ) -> Union[str, Any]: __UpperCamelCase : List[Any] =Accelerator() __UpperCamelCase : List[str] =accelerator.state if state.local_process_index == 0: print('**Test `accumulate` gradient accumulation with dataloader break**' ) test_dataloader_break() if state.distributed_type == DistributedType.NO: if state.local_process_index == 0: print('**Test NOOP `no_sync` context manager**' ) test_noop_sync(a_ ) if state.distributed_type in (DistributedType.MULTI_GPU, DistributedType.MULTI_CPU): if state.local_process_index == 0: print('**Test Distributed `no_sync` context manager**' ) test_distributed_sync(a_ ) if state.distributed_type == DistributedType.MULTI_GPU: for split_batch in [True, False]: for dispatch_batches in [True, False]: if state.local_process_index == 0: print( '**Test `accumulate` gradient accumulation, ' ,F'`split_batches={split_batch}` and `dispatch_batches={dispatch_batches}`**' ,) test_gradient_accumulation(a_ ,a_ ) # Currently will break on torch 2.0 +, need to investigate why if is_torch_version('<' ,'2.0' ) or state.distributed_type == DistributedType.NO: if state.local_process_index == 0: print( '**Test `accumulate` gradient accumulation with optimizer and scheduler, ' ,'`split_batches=False`, `dispatch_batches=False`**' ,) test_gradient_accumulation_with_opt_and_scheduler() if state.distributed_type == DistributedType.MULTI_GPU: for split_batch in [True, False]: for dispatch_batches in [True, False]: if not split_batch and not dispatch_batches: continue if state.local_process_index == 0: print( '**Test `accumulate` gradient accumulation with optimizer and scheduler, ' ,F'`split_batches={split_batch}` and `dispatch_batches={dispatch_batches}`**' ,) test_gradient_accumulation_with_opt_and_scheduler(a_ ,a_ ) def A ( a_ ) -> Dict: # For xla_spawn (TPUs) main() if __name__ == "__main__": main()

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"""simple docstring""" from __future__ import annotations def snake_case_ ( A_ : str ): '''simple docstring''' return [ord(A_ ) - 96 for elem in plain] def snake_case_ ( A_ : list[int] ): '''simple docstring''' return "".join(chr(elem + 96 ) for elem in encoded ) def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Dict = encode(input('''-> ''' ).strip().lower() ) print('''Encoded: ''', A_ ) print('''Decoded:''', decode(A_ ) ) if __name__ == "__main__": main()

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import os from pathlib import Path import numpy as np import pytest from pack_dataset import pack_data_dir from parameterized import parameterized from save_len_file import save_len_file from torch.utils.data import DataLoader from transformers import AutoTokenizer from transformers.models.mbart.modeling_mbart import shift_tokens_right from transformers.testing_utils import TestCasePlus, slow from utils import FAIRSEQ_AVAILABLE, DistributedSortishSampler, LegacySeqaSeqDataset, SeqaSeqDataset a ="""bert-base-cased""" a ="""google/pegasus-xsum""" a =[""" Sam ate lunch today.""", """Sams lunch ingredients."""] a =["""A very interesting story about what I ate for lunch.""", """Avocado, celery, turkey, coffee"""] a ="""patrickvonplaten/t5-tiny-random""" a ="""sshleifer/bart-tiny-random""" a ="""sshleifer/tiny-mbart""" a ="""sshleifer/tiny-marian-en-de""" def SCREAMING_SNAKE_CASE__ ( lowerCamelCase__ , lowerCamelCase__ ) -> int: __lowerCamelCase : str = '\n'.join(lowerCamelCase__ ) Path(lowerCamelCase__ ).open('w' ).writelines(lowerCamelCase__ ) def SCREAMING_SNAKE_CASE__ ( lowerCamelCase__ ) -> Union[str, Any]: for split in ["train", "val", "test"]: _dump_articles(os.path.join(lowerCamelCase__ , F"{split}.source" ) , lowerCamelCase__ ) _dump_articles(os.path.join(lowerCamelCase__ , F"{split}.target" ) , lowerCamelCase__ ) return tmp_dir class A_ ( SCREAMING_SNAKE_CASE ): @parameterized.expand( [ MBART_TINY, MARIAN_TINY, T5_TINY, BART_TINY, PEGASUS_XSUM, ] ,) @slow def lowerCAmelCase ( self : Dict ,SCREAMING_SNAKE_CASE__ : Tuple): __lowerCamelCase : Dict = AutoTokenizer.from_pretrained(SCREAMING_SNAKE_CASE__) __lowerCamelCase : Dict = make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir()) __lowerCamelCase : Union[str, Any] = max(len(tokenizer.encode(SCREAMING_SNAKE_CASE__)) for a in ARTICLES) __lowerCamelCase : List[str] = max(len(tokenizer.encode(SCREAMING_SNAKE_CASE__)) for a in SUMMARIES) __lowerCamelCase : str = 4 __lowerCamelCase : List[str] = 8 assert max_len_target > max_src_len # Will be truncated assert max_len_source > max_src_len # Will be truncated __lowerCamelCase , __lowerCamelCase : Dict = 'ro_RO', 'de_DE' # ignored for all but mbart, but never causes error. __lowerCamelCase : Dict = SeqaSeqDataset( SCREAMING_SNAKE_CASE__ ,data_dir=SCREAMING_SNAKE_CASE__ ,type_path='train' ,max_source_length=SCREAMING_SNAKE_CASE__ ,max_target_length=SCREAMING_SNAKE_CASE__ ,src_lang=SCREAMING_SNAKE_CASE__ ,tgt_lang=SCREAMING_SNAKE_CASE__ ,) __lowerCamelCase : Any = DataLoader(SCREAMING_SNAKE_CASE__ ,batch_size=2 ,collate_fn=train_dataset.collate_fn) for batch in dataloader: assert isinstance(SCREAMING_SNAKE_CASE__ ,SCREAMING_SNAKE_CASE__) assert batch["attention_mask"].shape == batch["input_ids"].shape # show that articles were trimmed. assert batch["input_ids"].shape[1] == max_src_len # show that targets are the same len assert batch["labels"].shape[1] == max_tgt_len if tok_name != MBART_TINY: continue # check language codes in correct place __lowerCamelCase : Union[str, Any] = shift_tokens_right(batch['labels'] ,tokenizer.pad_token_id) assert batch["decoder_input_ids"][0, 0].item() == tokenizer.lang_code_to_id[tgt_lang] assert batch["decoder_input_ids"][0, -1].item() == tokenizer.eos_token_id assert batch["input_ids"][0, -2].item() == tokenizer.eos_token_id assert batch["input_ids"][0, -1].item() == tokenizer.lang_code_to_id[src_lang] break # No need to test every batch @parameterized.expand([BART_TINY, BERT_BASE_CASED]) def lowerCAmelCase ( self : int ,SCREAMING_SNAKE_CASE__ : Any): __lowerCamelCase : Union[str, Any] = AutoTokenizer.from_pretrained(SCREAMING_SNAKE_CASE__) __lowerCamelCase : Dict = make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir()) __lowerCamelCase : List[Any] = max(len(tokenizer.encode(SCREAMING_SNAKE_CASE__)) for a in ARTICLES) __lowerCamelCase : List[Any] = max(len(tokenizer.encode(SCREAMING_SNAKE_CASE__)) for a in SUMMARIES) __lowerCamelCase : Dict = 4 __lowerCamelCase : List[Any] = LegacySeqaSeqDataset( SCREAMING_SNAKE_CASE__ ,data_dir=SCREAMING_SNAKE_CASE__ ,type_path='train' ,max_source_length=2_0 ,max_target_length=SCREAMING_SNAKE_CASE__ ,) __lowerCamelCase : Optional[Any] = DataLoader(SCREAMING_SNAKE_CASE__ ,batch_size=2 ,collate_fn=train_dataset.collate_fn) for batch in dataloader: assert batch["attention_mask"].shape == batch["input_ids"].shape # show that articles were trimmed. assert batch["input_ids"].shape[1] == max_len_source assert 2_0 >= batch["input_ids"].shape[1] # trimmed significantly # show that targets were truncated assert batch["labels"].shape[1] == trunc_target # Truncated assert max_len_target > trunc_target # Truncated break # No need to test every batch def lowerCAmelCase ( self : List[str]): __lowerCamelCase : int = AutoTokenizer.from_pretrained('facebook/mbart-large-cc25') __lowerCamelCase : int = Path(make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir())) __lowerCamelCase : Union[str, Any] = tmp_dir.joinpath('train.source').open().readlines() __lowerCamelCase : str = Path(make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir())) pack_data_dir(SCREAMING_SNAKE_CASE__ ,SCREAMING_SNAKE_CASE__ ,1_2_8 ,SCREAMING_SNAKE_CASE__) __lowerCamelCase : int = {x.name for x in tmp_dir.iterdir()} __lowerCamelCase : Optional[int] = {x.name for x in save_dir.iterdir()} __lowerCamelCase : int = save_dir.joinpath('train.source').open().readlines() # orig: [' Sam ate lunch today.\n', 'Sams lunch ingredients.'] # desired_packed: [' Sam ate lunch today.\n Sams lunch ingredients.'] assert len(SCREAMING_SNAKE_CASE__) < len(SCREAMING_SNAKE_CASE__) assert len(SCREAMING_SNAKE_CASE__) == 1 assert len(packed_examples[0]) == sum(len(SCREAMING_SNAKE_CASE__) for x in orig_examples) assert orig_paths == new_paths @pytest.mark.skipif(not FAIRSEQ_AVAILABLE ,reason='This test requires fairseq') def lowerCAmelCase ( self : str): if not FAIRSEQ_AVAILABLE: return __lowerCamelCase , __lowerCamelCase , __lowerCamelCase : str = self._get_dataset(max_len=6_4) __lowerCamelCase : Dict = 6_4 __lowerCamelCase : str = ds.make_dynamic_sampler(SCREAMING_SNAKE_CASE__ ,required_batch_size_multiple=SCREAMING_SNAKE_CASE__) __lowerCamelCase : int = [len(SCREAMING_SNAKE_CASE__) for x in batch_sampler] assert len(set(SCREAMING_SNAKE_CASE__)) > 1 # it's not dynamic batch size if every batch is the same length assert sum(SCREAMING_SNAKE_CASE__) == len(SCREAMING_SNAKE_CASE__) # no dropped or added examples __lowerCamelCase : Union[str, Any] = DataLoader(SCREAMING_SNAKE_CASE__ ,batch_sampler=SCREAMING_SNAKE_CASE__ ,collate_fn=ds.collate_fn ,num_workers=2) __lowerCamelCase : Optional[Any] = [] __lowerCamelCase : Tuple = [] for batch in data_loader: __lowerCamelCase : Tuple = batch['input_ids'].shape __lowerCamelCase : Dict = src_shape[0] assert bs % required_batch_size_multiple == 0 or bs < required_batch_size_multiple __lowerCamelCase : int = np.product(batch['input_ids'].shape) num_src_per_batch.append(SCREAMING_SNAKE_CASE__) if num_src_tokens > (max_tokens * 1.1): failures.append(SCREAMING_SNAKE_CASE__) assert num_src_per_batch[0] == max(SCREAMING_SNAKE_CASE__) if failures: raise AssertionError(F"too many tokens in {len(SCREAMING_SNAKE_CASE__)} batches") def lowerCAmelCase ( self : Any): __lowerCamelCase , __lowerCamelCase , __lowerCamelCase : Dict = self._get_dataset(max_len=5_1_2) __lowerCamelCase : Optional[int] = 2 __lowerCamelCase : Dict = ds.make_sortish_sampler(SCREAMING_SNAKE_CASE__ ,shuffle=SCREAMING_SNAKE_CASE__) __lowerCamelCase : Optional[int] = DataLoader(SCREAMING_SNAKE_CASE__ ,batch_size=SCREAMING_SNAKE_CASE__ ,collate_fn=ds.collate_fn ,num_workers=2) __lowerCamelCase : Any = DataLoader(SCREAMING_SNAKE_CASE__ ,batch_size=SCREAMING_SNAKE_CASE__ ,collate_fn=ds.collate_fn ,num_workers=2 ,sampler=SCREAMING_SNAKE_CASE__) __lowerCamelCase : Optional[Any] = tokenizer.pad_token_id def count_pad_tokens(SCREAMING_SNAKE_CASE__ : List[str] ,SCREAMING_SNAKE_CASE__ : Dict="input_ids"): return [batch[k].eq(SCREAMING_SNAKE_CASE__).sum().item() for batch in data_loader] assert sum(count_pad_tokens(SCREAMING_SNAKE_CASE__ ,k='labels')) < sum(count_pad_tokens(SCREAMING_SNAKE_CASE__ ,k='labels')) assert sum(count_pad_tokens(SCREAMING_SNAKE_CASE__)) < sum(count_pad_tokens(SCREAMING_SNAKE_CASE__)) assert len(SCREAMING_SNAKE_CASE__) == len(SCREAMING_SNAKE_CASE__) def lowerCAmelCase ( self : List[str] ,SCREAMING_SNAKE_CASE__ : str=1_0_0_0 ,SCREAMING_SNAKE_CASE__ : Dict=1_2_8): if os.getenv('USE_REAL_DATA' ,SCREAMING_SNAKE_CASE__): __lowerCamelCase : int = 'examples/seq2seq/wmt_en_ro' __lowerCamelCase : str = max_len * 2 * 6_4 if not Path(SCREAMING_SNAKE_CASE__).joinpath('train.len').exists(): save_len_file(SCREAMING_SNAKE_CASE__ ,SCREAMING_SNAKE_CASE__) else: __lowerCamelCase : Dict = 'examples/seq2seq/test_data/wmt_en_ro' __lowerCamelCase : Any = max_len * 4 save_len_file(SCREAMING_SNAKE_CASE__ ,SCREAMING_SNAKE_CASE__) __lowerCamelCase : Optional[Any] = AutoTokenizer.from_pretrained(SCREAMING_SNAKE_CASE__) __lowerCamelCase : int = SeqaSeqDataset( SCREAMING_SNAKE_CASE__ ,data_dir=SCREAMING_SNAKE_CASE__ ,type_path='train' ,max_source_length=SCREAMING_SNAKE_CASE__ ,max_target_length=SCREAMING_SNAKE_CASE__ ,n_obs=SCREAMING_SNAKE_CASE__ ,) return ds, max_tokens, tokenizer def lowerCAmelCase ( self : str): __lowerCamelCase , __lowerCamelCase , __lowerCamelCase : List[str] = self._get_dataset() __lowerCamelCase : List[str] = set(DistributedSortishSampler(SCREAMING_SNAKE_CASE__ ,2_5_6 ,num_replicas=2 ,rank=0 ,add_extra_examples=SCREAMING_SNAKE_CASE__)) __lowerCamelCase : Any = set(DistributedSortishSampler(SCREAMING_SNAKE_CASE__ ,2_5_6 ,num_replicas=2 ,rank=1 ,add_extra_examples=SCREAMING_SNAKE_CASE__)) assert idsa.intersection(SCREAMING_SNAKE_CASE__) == set() @parameterized.expand( [ MBART_TINY, MARIAN_TINY, T5_TINY, BART_TINY, PEGASUS_XSUM, ] ,) def lowerCAmelCase ( self : int ,SCREAMING_SNAKE_CASE__ : Optional[Any]): __lowerCamelCase : str = AutoTokenizer.from_pretrained(SCREAMING_SNAKE_CASE__ ,use_fast=SCREAMING_SNAKE_CASE__) if tok_name == MBART_TINY: __lowerCamelCase : List[str] = SeqaSeqDataset( SCREAMING_SNAKE_CASE__ ,data_dir=make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir()) ,type_path='train' ,max_source_length=4 ,max_target_length=8 ,src_lang='EN' ,tgt_lang='FR' ,) __lowerCamelCase : List[Any] = train_dataset.dataset_kwargs assert "src_lang" in kwargs and "tgt_lang" in kwargs else: __lowerCamelCase : Union[str, Any] = SeqaSeqDataset( SCREAMING_SNAKE_CASE__ ,data_dir=make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir()) ,type_path='train' ,max_source_length=4 ,max_target_length=8 ,) __lowerCamelCase : Dict = train_dataset.dataset_kwargs assert "add_prefix_space" not in kwargs if tok_name != BART_TINY else "add_prefix_space" in kwargs assert len(SCREAMING_SNAKE_CASE__) == 1 if tok_name == BART_TINY else len(SCREAMING_SNAKE_CASE__) == 0

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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = { '''configuration_lxmert''': ['''LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LxmertConfig'''], '''tokenization_lxmert''': ['''LxmertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''LxmertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''LxmertEncoder''', '''LxmertForPreTraining''', '''LxmertForQuestionAnswering''', '''LxmertModel''', '''LxmertPreTrainedModel''', '''LxmertVisualFeatureEncoder''', '''LxmertXLayer''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFLxmertForPreTraining''', '''TFLxmertMainLayer''', '''TFLxmertModel''', '''TFLxmertPreTrainedModel''', '''TFLxmertVisualFeatureEncoder''', ] if TYPE_CHECKING: from .configuration_lxmert import LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, LxmertConfig from .tokenization_lxmert import LxmertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_lxmert_fast import LxmertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lxmert import ( LxmertEncoder, LxmertForPreTraining, LxmertForQuestionAnswering, LxmertModel, LxmertPreTrainedModel, LxmertVisualFeatureEncoder, LxmertXLayer, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_lxmert import ( TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFLxmertForPreTraining, TFLxmertMainLayer, TFLxmertModel, TFLxmertPreTrainedModel, TFLxmertVisualFeatureEncoder, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" from typing import List, Optional, Union from ...configuration_utils import PretrainedConfig from ...utils import logging _lowercase = logging.get_logger(__name__) _lowercase = { '''huggingface/informer-tourism-monthly''': ( '''https://huggingface.co/huggingface/informer-tourism-monthly/resolve/main/config.json''' ), # See all Informer models at https://huggingface.co/models?filter=informer } class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: List[str] = '''informer''' _lowerCamelCase: Dict = { '''hidden_size''': '''d_model''', '''num_attention_heads''': '''encoder_attention_heads''', '''num_hidden_layers''': '''encoder_layers''', } def __init__( self : Union[str, Any] ,A_ : Optional[int] = None ,A_ : Optional[int] = None ,A_ : str = "student_t" ,A_ : str = "nll" ,A_ : int = 1 ,A_ : List[int] = None ,A_ : Optional[Union[str, bool]] = "mean" ,A_ : int = 0 ,A_ : int = 0 ,A_ : int = 0 ,A_ : int = 0 ,A_ : Optional[List[int]] = None ,A_ : Optional[List[int]] = None ,A_ : int = 64 ,A_ : int = 32 ,A_ : int = 32 ,A_ : int = 2 ,A_ : int = 2 ,A_ : int = 2 ,A_ : int = 2 ,A_ : bool = True ,A_ : str = "gelu" ,A_ : float = 0.05 ,A_ : float = 0.1 ,A_ : float = 0.1 ,A_ : float = 0.1 ,A_ : float = 0.1 ,A_ : int = 100 ,A_ : float = 0.02 ,A_ : Tuple=True ,A_ : str = "prob" ,A_ : int = 5 ,A_ : bool = True ,**A_ : Any ,) -> Dict: # time series specific configuration A = prediction_length A = context_length or prediction_length A = distribution_output A = loss A = input_size A = num_time_features A = lags_sequence if lags_sequence is not None else [1, 2, 3, 4, 5, 6, 7] A = scaling A = num_dynamic_real_features A = num_static_real_features A = num_static_categorical_features # set cardinality if cardinality and num_static_categorical_features > 0: if len(A_ ) != num_static_categorical_features: raise ValueError( 'The cardinality should be a list of the same length as `num_static_categorical_features`' ) A = cardinality else: A = [0] # set embedding_dimension if embedding_dimension and num_static_categorical_features > 0: if len(A_ ) != num_static_categorical_features: raise ValueError( 'The embedding dimension should be a list of the same length as `num_static_categorical_features`' ) A = embedding_dimension else: A = [min(50 ,(cat + 1) // 2 ) for cat in self.cardinality] A = num_parallel_samples # Transformer architecture configuration A = input_size * len(self.lags_sequence ) + self._number_of_features A = d_model A = encoder_attention_heads A = decoder_attention_heads A = encoder_ffn_dim A = decoder_ffn_dim A = encoder_layers A = decoder_layers A = dropout A = attention_dropout A = activation_dropout A = encoder_layerdrop A = decoder_layerdrop A = activation_function A = init_std A = use_cache # Informer A = attention_type A = sampling_factor A = distil super().__init__(is_encoder_decoder=A_ ,**A_ ) @property def _SCREAMING_SNAKE_CASE ( self : Tuple ) -> int: return ( sum(self.embedding_dimension ) + self.num_dynamic_real_features + self.num_time_features + self.num_static_real_features + self.input_size * 2 # the log1p(abs(loc)) and log(scale) features )

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"""simple docstring""" def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for data in source_data: for i, el in enumerate(A_ ): if len(A_ ) < i + 1: data_lists.append([] ) data_lists[i].append(float(A_ ) ) return data_lists def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for dlist, weight in zip(A_, A_ ): _lowerCamelCase : Any = min(A_ ) _lowerCamelCase : Optional[Any] = max(A_ ) _lowerCamelCase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowerCamelCase : str = F'''Invalid weight of {weight:f} provided''' raise ValueError(A_ ) score_lists.append(A_ ) return score_lists def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(A_ ): _lowerCamelCase : List[str] = final_scores[j] + ele return final_scores def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : Tuple = get_data(A_ ) _lowerCamelCase : Optional[Any] = calculate_each_score(A_, A_ ) _lowerCamelCase : str = generate_final_scores(A_ ) # append scores to source data for i, ele in enumerate(A_ ): source_data[i].append(A_ ) return source_data

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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) a_ : Union[str, Any] = { """configuration_funnel""": ["""FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP""", """FunnelConfig"""], """convert_funnel_original_tf_checkpoint_to_pytorch""": [], """tokenization_funnel""": ["""FunnelTokenizer"""], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a_ : List[str] = ["""FunnelTokenizerFast"""] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a_ : Optional[int] = [ """FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""", """FunnelBaseModel""", """FunnelForMaskedLM""", """FunnelForMultipleChoice""", """FunnelForPreTraining""", """FunnelForQuestionAnswering""", """FunnelForSequenceClassification""", """FunnelForTokenClassification""", """FunnelModel""", """FunnelPreTrainedModel""", """load_tf_weights_in_funnel""", ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: a_ : Optional[Any] = [ """TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""", """TFFunnelBaseModel""", """TFFunnelForMaskedLM""", """TFFunnelForMultipleChoice""", """TFFunnelForPreTraining""", """TFFunnelForQuestionAnswering""", """TFFunnelForSequenceClassification""", """TFFunnelForTokenClassification""", """TFFunnelModel""", """TFFunnelPreTrainedModel""", ] if TYPE_CHECKING: from .configuration_funnel import FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP, FunnelConfig from .tokenization_funnel import FunnelTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_funnel_fast import FunnelTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_funnel import ( FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST, FunnelBaseModel, FunnelForMaskedLM, FunnelForMultipleChoice, FunnelForPreTraining, FunnelForQuestionAnswering, FunnelForSequenceClassification, FunnelForTokenClassification, FunnelModel, FunnelPreTrainedModel, load_tf_weights_in_funnel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_funnel import ( TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST, TFFunnelBaseModel, TFFunnelForMaskedLM, TFFunnelForMultipleChoice, TFFunnelForPreTraining, TFFunnelForQuestionAnswering, TFFunnelForSequenceClassification, TFFunnelForTokenClassification, TFFunnelModel, TFFunnelPreTrainedModel, ) else: import sys a_ : str = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)

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"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = { '''microsoft/unispeech-large-1500h-cv''': ( '''https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json''' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class __snake_case ( _lowercase): snake_case__ : List[str] = "unispeech" def __init__( self : List[str] , __lowerCAmelCase : List[Any]=3_2 , __lowerCAmelCase : str=7_6_8 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=3_0_7_2 , __lowerCAmelCase : Tuple="gelu" , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : str=0.1 , __lowerCAmelCase : Tuple=0.0 , __lowerCAmelCase : Optional[int]=0.0 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Optional[int]=0.1 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Dict=1E-5 , __lowerCAmelCase : Optional[int]="group" , __lowerCAmelCase : Dict="gelu" , __lowerCAmelCase : int=(5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2) , __lowerCAmelCase : Optional[int]=(5, 2, 2, 2, 2, 2, 2) , __lowerCAmelCase : Union[str, Any]=(1_0, 3, 3, 3, 3, 2, 2) , __lowerCAmelCase : List[Any]=False , __lowerCAmelCase : List[str]=1_2_8 , __lowerCAmelCase : Any=1_6 , __lowerCAmelCase : Optional[int]=False , __lowerCAmelCase : Optional[Any]=True , __lowerCAmelCase : Union[str, Any]=0.05 , __lowerCAmelCase : Union[str, Any]=1_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.0 , __lowerCAmelCase : Optional[int]=1_0 , __lowerCAmelCase : Dict=0 , __lowerCAmelCase : List[str]=3_2_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Tuple=1_0_0 , __lowerCAmelCase : Dict=2_5_6 , __lowerCAmelCase : str=2_5_6 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Dict="mean" , __lowerCAmelCase : Union[str, Any]=False , __lowerCAmelCase : Dict=False , __lowerCAmelCase : Optional[Any]=2_5_6 , __lowerCAmelCase : Dict=8_0 , __lowerCAmelCase : int=0 , __lowerCAmelCase : Optional[int]=1 , __lowerCAmelCase : Dict=2 , __lowerCAmelCase : Any=0.5 , **__lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__(**__lowerCAmelCase , pad_token_id=__lowerCAmelCase , bos_token_id=__lowerCAmelCase , eos_token_id=__lowerCAmelCase ) _lowerCamelCase : Dict = hidden_size _lowerCamelCase : Any = feat_extract_norm _lowerCamelCase : List[Any] = feat_extract_activation _lowerCamelCase : Any = list(__lowerCAmelCase ) _lowerCamelCase : Tuple = list(__lowerCAmelCase ) _lowerCamelCase : int = list(__lowerCAmelCase ) _lowerCamelCase : List[str] = conv_bias _lowerCamelCase : List[str] = num_conv_pos_embeddings _lowerCamelCase : Tuple = num_conv_pos_embedding_groups _lowerCamelCase : List[str] = len(self.conv_dim ) _lowerCamelCase : Tuple = num_hidden_layers _lowerCamelCase : List[Any] = intermediate_size _lowerCamelCase : Dict = hidden_act _lowerCamelCase : Union[str, Any] = num_attention_heads _lowerCamelCase : Tuple = hidden_dropout _lowerCamelCase : List[Any] = attention_dropout _lowerCamelCase : Optional[int] = activation_dropout _lowerCamelCase : Optional[Any] = feat_proj_dropout _lowerCamelCase : Optional[int] = final_dropout _lowerCamelCase : Any = layerdrop _lowerCamelCase : Any = layer_norm_eps _lowerCamelCase : List[Any] = initializer_range _lowerCamelCase : List[str] = num_ctc_classes _lowerCamelCase : List[Any] = vocab_size _lowerCamelCase : Optional[Any] = do_stable_layer_norm _lowerCamelCase : Tuple = use_weighted_layer_sum _lowerCamelCase : List[Any] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' f''' {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,''' f''' `len(config.conv_kernel) = {len(self.conv_kernel )}`.''' ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 _lowerCamelCase : Any = apply_spec_augment _lowerCamelCase : Dict = mask_time_prob _lowerCamelCase : List[str] = mask_time_length _lowerCamelCase : Optional[Any] = mask_time_min_masks _lowerCamelCase : List[str] = mask_feature_prob _lowerCamelCase : int = mask_feature_length _lowerCamelCase : Dict = mask_feature_min_masks # parameters for pretraining with codevector quantized representations _lowerCamelCase : Optional[Any] = num_codevectors_per_group _lowerCamelCase : int = num_codevector_groups _lowerCamelCase : List[Any] = contrastive_logits_temperature _lowerCamelCase : List[str] = feat_quantizer_dropout _lowerCamelCase : Dict = num_negatives _lowerCamelCase : Optional[int] = codevector_dim _lowerCamelCase : List[Any] = proj_codevector_dim _lowerCamelCase : List[Any] = diversity_loss_weight # ctc loss _lowerCamelCase : Union[str, Any] = ctc_loss_reduction _lowerCamelCase : Any = ctc_zero_infinity # pretraining loss _lowerCamelCase : str = replace_prob @property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )

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def lowerCamelCase__ ( _a , _a): _validate_point(_a) _validate_point(_a) if len(_a) != len(_a): raise ValueError("Both points must be in the same n-dimensional space") return float(sum(abs(a - b) for a, b in zip(_a , _a))) def lowerCamelCase__ ( _a): if point: if isinstance(_a , _a): for item in point: if not isinstance(_a , (int, float)): SCREAMING_SNAKE_CASE : List[Any] = ( "Expected a list of numbers as input, found " f"{type(_a).__name__}" ) raise TypeError(_a) else: SCREAMING_SNAKE_CASE : List[Any] = f"Expected a list of numbers as input, found {type(_a).__name__}" raise TypeError(_a) else: raise ValueError("Missing an input") def lowerCamelCase__ ( _a , _a): _validate_point(_a) _validate_point(_a) if len(_a) != len(_a): raise ValueError("Both points must be in the same n-dimensional space") return float(sum(abs(x - y) for x, y in zip(_a , _a))) if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" from typing import Optional from urllib.parse import quote import huggingface_hub as hfh from packaging import version def snake_case_ ( A_ : str, A_ : str, A_ : Optional[str] = None ): '''simple docstring''' if version.parse(hfh.__version__ ).release < version.parse('''0.11.0''' ).release: # old versions of hfh don't url-encode the file path _lowerCamelCase : Optional[Any] = quote(A_ ) return hfh.hf_hub_url(A_, A_, repo_type='''dataset''', revision=A_ )

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"""simple docstring""" from typing import Dict, List, Optional, Tuple, Union import torch from ...models import AutoencoderKL, TransformeraDModel from ...schedulers import KarrasDiffusionSchedulers from ...utils import randn_tensor from ..pipeline_utils import DiffusionPipeline, ImagePipelineOutput class UpperCAmelCase_ ( _a): def __init__( self , a , a , a , a = None , ) -> Optional[int]: super().__init__() self.register_modules(transformer=a , vae=a , scheduler=a ) # create a imagenet -> id dictionary for easier use lowercase__ : Optional[int] = {} if idalabel is not None: for key, value in idalabel.items(): for label in value.split(',' ): lowercase__ : Union[str, Any] = int(a ) lowercase__ : int = dict(sorted(self.labels.items() ) ) def _UpperCAmelCase ( self , a ) -> List[int]: if not isinstance(a , a ): lowercase__ : List[str] = list(a ) for l in label: if l not in self.labels: raise ValueError( f"""{l} does not exist. Please make sure to select one of the following labels: \n {self.labels}.""" ) return [self.labels[l] for l in label] @torch.no_grad() def __call__( self , a , a = 4.0 , a = None , a = 5_0 , a = "pil" , a = True , ) -> Union[ImagePipelineOutput, Tuple]: lowercase__ : Optional[int] = len(a ) lowercase__ : List[Any] = self.transformer.config.sample_size lowercase__ : Optional[Any] = self.transformer.config.in_channels lowercase__ : Optional[Any] = randn_tensor( shape=(batch_size, latent_channels, latent_size, latent_size) , generator=a , device=self.device , dtype=self.transformer.dtype , ) lowercase__ : Union[str, Any] = torch.cat([latents] * 2 ) if guidance_scale > 1 else latents lowercase__ : Optional[int] = torch.tensor(a , device=self.device ).reshape(-1 ) lowercase__ : str = torch.tensor([1_0_0_0] * batch_size , device=self.device ) lowercase__ : List[str] = torch.cat([class_labels, class_null] , 0 ) if guidance_scale > 1 else class_labels # set step values self.scheduler.set_timesteps(a ) for t in self.progress_bar(self.scheduler.timesteps ): if guidance_scale > 1: lowercase__ : Optional[Any] = latent_model_input[: len(a ) // 2] lowercase__ : Optional[int] = torch.cat([half, half] , dim=0 ) lowercase__ : Dict = self.scheduler.scale_model_input(a , a ) lowercase__ : str = t if not torch.is_tensor(a ): # TODO: this requires sync between CPU and GPU. So try to pass timesteps as tensors if you can # This would be a good case for the `match` statement (Python 3.10+) lowercase__ : str = latent_model_input.device.type == 'mps' if isinstance(a , a ): lowercase__ : Optional[int] = torch.floataa if is_mps else torch.floataa else: lowercase__ : List[str] = torch.intaa if is_mps else torch.intaa lowercase__ : List[Any] = torch.tensor([timesteps] , dtype=a , device=latent_model_input.device ) elif len(timesteps.shape ) == 0: lowercase__ : int = timesteps[None].to(latent_model_input.device ) # broadcast to batch dimension in a way that's compatible with ONNX/Core ML lowercase__ : List[str] = timesteps.expand(latent_model_input.shape[0] ) # predict noise model_output lowercase__ : Optional[Any] = self.transformer( a , timestep=a , class_labels=a ).sample # perform guidance if guidance_scale > 1: lowercase__ , lowercase__ : Tuple = noise_pred[:, :latent_channels], noise_pred[:, latent_channels:] lowercase__ , lowercase__ : Dict = torch.split(a , len(a ) // 2 , dim=0 ) lowercase__ : Optional[int] = uncond_eps + guidance_scale * (cond_eps - uncond_eps) lowercase__ : str = torch.cat([half_eps, half_eps] , dim=0 ) lowercase__ : Union[str, Any] = torch.cat([eps, rest] , dim=1 ) # learned sigma if self.transformer.config.out_channels // 2 == latent_channels: lowercase__ , lowercase__ : int = torch.split(a , a , dim=1 ) else: lowercase__ : str = noise_pred # compute previous image: x_t -> x_t-1 lowercase__ : Optional[int] = self.scheduler.step(a , a , a ).prev_sample if guidance_scale > 1: lowercase__ , lowercase__ : str = latent_model_input.chunk(2 , dim=0 ) else: lowercase__ : List[Any] = latent_model_input lowercase__ : int = 1 / self.vae.config.scaling_factor * latents lowercase__ : List[str] = self.vae.decode(a ).sample lowercase__ : List[Any] = (samples / 2 + 0.5).clamp(0 , 1 ) # we always cast to float32 as this does not cause significant overhead and is compatible with bfloat16 lowercase__ : Tuple = samples.cpu().permute(0 , 2 , 3 , 1 ).float().numpy() if output_type == "pil": lowercase__ : Dict = self.numpy_to_pil(a ) if not return_dict: return (samples,) return ImagePipelineOutput(images=a )

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"""simple docstring""" import unittest import numpy as np def snake_case_ ( A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray | None = None, ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) if shape_a[0] != shape_b[0]: _lowerCamelCase : Tuple = ( '''Expected the same number of rows for A and B. ''' F'''Instead found A of size {shape_a} and B of size {shape_b}''' ) raise ValueError(A_ ) if shape_b[1] != shape_c[1]: _lowerCamelCase : Tuple = ( '''Expected the same number of columns for B and C. ''' F'''Instead found B of size {shape_b} and C of size {shape_c}''' ) raise ValueError(A_ ) _lowerCamelCase : List[str] = pseudo_inv if a_inv is None: try: _lowerCamelCase : Any = np.linalg.inv(A_ ) except np.linalg.LinAlgError: raise ValueError( '''Input matrix A is not invertible. Cannot compute Schur complement.''' ) return mat_c - mat_b.T @ a_inv @ mat_b class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : List[str] = np.array([[2, 1], [6, 3]] ) _lowerCamelCase : List[Any] = schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = np.block([[a, b], [b.T, c]] ) _lowerCamelCase : Tuple = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : List[str] = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : Any = np.linalg.det(__lowerCAmelCase ) self.assertAlmostEqual(__lowerCAmelCase , det_a * det_s ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : Optional[int] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : int = np.array([[2, 1], [6, 3]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : str = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : Union[str, Any] = np.array([[2, 1, 3], [6, 3, 5]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) if __name__ == "__main__": import doctest doctest.testmod() unittest.main()

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"""simple docstring""" import os from datetime import datetime as dt from github import Github snake_case_ = [ """good first issue""", """feature request""", """wip""", ] def _lowerCAmelCase ( ): UpperCAmelCase = Github(os.environ['GITHUB_TOKEN'] ) UpperCAmelCase = g.get_repo('huggingface/accelerate' ) UpperCAmelCase = repo.get_issues(state='open' ) for issue in open_issues: UpperCAmelCase = sorted([comment for comment in issue.get_comments()] , key=lambda lowercase_ : i.created_at , reverse=lowercase_ ) UpperCAmelCase = comments[0] if len(lowercase_ ) > 0 else None UpperCAmelCase = dt.utcnow() UpperCAmelCase = (current_time - issue.updated_at).days UpperCAmelCase = (current_time - issue.created_at).days if ( last_comment is not None and last_comment.user.login == "github-actions[bot]" and days_since_updated > 7 and days_since_creation >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels() ) ): # Close issue since it has been 7 days of inactivity since bot mention. issue.edit(state='closed' ) elif ( days_since_updated > 23 and days_since_creation >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels() ) ): # Add stale comment issue.create_comment( 'This issue has been automatically marked as stale because it has not had ' 'recent activity. If you think this still needs to be addressed ' 'please comment on this thread.\n\nPlease note that issues that do not follow the ' '[contributing guidelines](https://github.com/huggingface/accelerate/blob/main/CONTRIBUTING.md) ' 'are likely to be ignored.' ) if __name__ == "__main__": main()

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"""simple docstring""" def snake_case_ ( A_ : list[int], A_ : str ): '''simple docstring''' _lowerCamelCase : Tuple = int(A_ ) # Initialize Result _lowerCamelCase : Dict = [] # Traverse through all denomination for denomination in reversed(A_ ): # Find denominations while int(A_ ) >= int(A_ ): total_value -= int(A_ ) answer.append(A_ ) # Append the "answers" array return answer # Driver Code if __name__ == "__main__": lowerCAmelCase__ = [] lowerCAmelCase__ = '''0''' if ( input('''Do you want to enter your denominations ? (yY/n): ''').strip().lower() == "y" ): lowerCAmelCase__ = int(input('''Enter the number of denominations you want to add: ''').strip()) for i in range(0, n): denominations.append(int(input(F"""Denomination {i}: """).strip())) lowerCAmelCase__ = input('''Enter the change you want to make in Indian Currency: ''').strip() else: # All denominations of Indian Currency if user does not enter lowerCAmelCase__ = [1, 2, 5, 10, 20, 50, 100, 500, 2000] lowerCAmelCase__ = input('''Enter the change you want to make: ''').strip() if int(value) == 0 or int(value) < 0: print('''The total value cannot be zero or negative.''') else: print(F"""Following is minimal change for {value}: """) lowerCAmelCase__ = find_minimum_change(denominations, value) # Print result for i in range(len(answer)): print(answer[i], end=''' ''')

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'''simple docstring''' import shutil import tempfile import unittest from transformers import ( SPIECE_UNDERLINE, AddedToken, BatchEncoding, NllbTokenizer, NllbTokenizerFast, is_torch_available, ) from transformers.testing_utils import ( get_tests_dir, nested_simplify, require_sentencepiece, require_tokenizers, require_torch, ) from ...test_tokenization_common import TokenizerTesterMixin lowerCamelCase_ = get_tests_dir('''fixtures/test_sentencepiece.model''') if is_torch_available(): from transformers.models.mam_aaa.modeling_mam_aaa import shift_tokens_right lowerCamelCase_ = 25_60_47 lowerCamelCase_ = 25_61_45 @require_sentencepiece @require_tokenizers class _UpperCAmelCase ( snake_case_ , unittest.TestCase ): """simple docstring""" snake_case = NllbTokenizer snake_case = NllbTokenizerFast snake_case = True snake_case = True snake_case = {} def lowerCAmelCase ( self : str ): '''simple docstring''' super().setUp() # We have a SentencePiece fixture for testing _A = NllbTokenizer(__UpperCAmelCase , keep_accents=__UpperCAmelCase ) tokenizer.save_pretrained(self.tmpdirname ) def lowerCAmelCase ( self : str ): '''simple docstring''' _A = NllbTokenizer(__UpperCAmelCase , keep_accents=__UpperCAmelCase ) _A = tokenizer.tokenize("This is a test" ) self.assertListEqual(__UpperCAmelCase , ["▁This", "▁is", "▁a", "▁t", "est"] ) self.assertListEqual( tokenizer.convert_tokens_to_ids(__UpperCAmelCase ) , [value + tokenizer.fairseq_offset for value in [285, 46, 10, 170, 382]] , ) _A = tokenizer.tokenize("I was born in 92000, and this is falsé." ) self.assertListEqual( __UpperCAmelCase , [ SPIECE_UNDERLINE + "I", SPIECE_UNDERLINE + "was", SPIECE_UNDERLINE + "b", "or", "n", SPIECE_UNDERLINE + "in", SPIECE_UNDERLINE + "", "9", "2", "0", "0", "0", ",", SPIECE_UNDERLINE + "and", SPIECE_UNDERLINE + "this", SPIECE_UNDERLINE + "is", SPIECE_UNDERLINE + "f", "al", "s", "é", ".", ] , ) _A = tokenizer.convert_tokens_to_ids(__UpperCAmelCase ) self.assertListEqual( __UpperCAmelCase , [ value + tokenizer.fairseq_offset for value in [8, 21, 84, 55, 24, 19, 7, 2, 602, 347, 347, 347, 3, 12, 66, 46, 72, 80, 6, 2, 4] ] , ) _A = tokenizer.convert_ids_to_tokens(__UpperCAmelCase ) self.assertListEqual( __UpperCAmelCase , [ SPIECE_UNDERLINE + "I", SPIECE_UNDERLINE + "was", SPIECE_UNDERLINE + "b", "or", "n", SPIECE_UNDERLINE + "in", SPIECE_UNDERLINE + "", "<unk>", "2", "0", "0", "0", ",", SPIECE_UNDERLINE + "and", SPIECE_UNDERLINE + "this", SPIECE_UNDERLINE + "is", SPIECE_UNDERLINE + "f", "al", "s", "<unk>", ".", ] , ) def lowerCAmelCase ( self : int ): '''simple docstring''' _A = (self.rust_tokenizer_class, "hf-internal-testing/tiny-random-nllb", {}) for tokenizer, pretrained_name, kwargs in self.tokenizers_list: with self.subTest(f'''{tokenizer.__class__.__name__} ({pretrained_name})''' ): _A = self.rust_tokenizer_class.from_pretrained(__UpperCAmelCase , **__UpperCAmelCase ) _A = self.tokenizer_class.from_pretrained(__UpperCAmelCase , **__UpperCAmelCase ) _A = tempfile.mkdtemp() _A = tokenizer_r.save_pretrained(__UpperCAmelCase ) _A = tokenizer_p.save_pretrained(__UpperCAmelCase ) # Checks it save with the same files + the tokenizer.json file for the fast one self.assertTrue(any("tokenizer.json" in f for f in tokenizer_r_files ) ) _A = tuple(f for f in tokenizer_r_files if "tokenizer.json" not in f ) self.assertSequenceEqual(__UpperCAmelCase , __UpperCAmelCase ) # Checks everything loads correctly in the same way _A = tokenizer_r.from_pretrained(__UpperCAmelCase ) _A = tokenizer_p.from_pretrained(__UpperCAmelCase ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(__UpperCAmelCase , __UpperCAmelCase ) ) shutil.rmtree(__UpperCAmelCase ) # Save tokenizer rust, legacy_format=True _A = tempfile.mkdtemp() _A = tokenizer_r.save_pretrained(__UpperCAmelCase , legacy_format=__UpperCAmelCase ) _A = tokenizer_p.save_pretrained(__UpperCAmelCase ) # Checks it save with the same files self.assertSequenceEqual(__UpperCAmelCase , __UpperCAmelCase ) # Checks everything loads correctly in the same way _A = tokenizer_r.from_pretrained(__UpperCAmelCase ) _A = tokenizer_p.from_pretrained(__UpperCAmelCase ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(__UpperCAmelCase , __UpperCAmelCase ) ) shutil.rmtree(__UpperCAmelCase ) # Save tokenizer rust, legacy_format=False _A = tempfile.mkdtemp() _A = tokenizer_r.save_pretrained(__UpperCAmelCase , legacy_format=__UpperCAmelCase ) _A = tokenizer_p.save_pretrained(__UpperCAmelCase ) # Checks it saved the tokenizer.json file self.assertTrue(any("tokenizer.json" in f for f in tokenizer_r_files ) ) # Checks everything loads correctly in the same way _A = tokenizer_r.from_pretrained(__UpperCAmelCase ) _A = tokenizer_p.from_pretrained(__UpperCAmelCase ) # Check special tokens are set accordingly on Rust and Python for key in tokenizer_pp.special_tokens_map: self.assertTrue(hasattr(__UpperCAmelCase , __UpperCAmelCase ) ) shutil.rmtree(__UpperCAmelCase ) @require_torch def lowerCAmelCase ( self : Union[str, Any] ): '''simple docstring''' if not self.test_seqaseq: return _A = self.get_tokenizers() for tokenizer in tokenizers: with self.subTest(f'''{tokenizer.__class__.__name__}''' ): # Longer text that will definitely require truncation. _A = [ " UN Chief Says There Is No Military Solution in Syria", " Secretary-General Ban Ki-moon says his response to Russia's stepped up military support for" " Syria is that 'there is no military solution' to the nearly five-year conflict and more weapons" " will only worsen the violence and misery for millions of people.", ] _A = [ "Şeful ONU declară că nu există o soluţie militară în Siria", "Secretarul General Ban Ki-moon declară că răspunsul său la intensificarea sprijinului militar al" " Rusiei pentru Siria este că \"nu există o soluţie militară\" la conflictul de aproape cinci ani şi" " că noi arme nu vor face decât să înrăutăţească violenţele şi mizeria pentru milioane de oameni.", ] try: _A = tokenizer.prepare_seqaseq_batch( src_texts=__UpperCAmelCase , tgt_texts=__UpperCAmelCase , max_length=3 , max_target_length=10 , return_tensors="pt" , src_lang="eng_Latn" , tgt_lang="ron_Latn" , ) except NotImplementedError: return self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.labels.shape[1] , 10 ) # max_target_length will default to max_length if not specified _A = tokenizer.prepare_seqaseq_batch( __UpperCAmelCase , tgt_texts=__UpperCAmelCase , max_length=3 , return_tensors="pt" ) self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.labels.shape[1] , 3 ) _A = tokenizer.prepare_seqaseq_batch( src_texts=__UpperCAmelCase , max_length=3 , max_target_length=10 , return_tensors="pt" ) self.assertEqual(batch_encoder_only.input_ids.shape[1] , 3 ) self.assertEqual(batch_encoder_only.attention_mask.shape[1] , 3 ) self.assertNotIn("decoder_input_ids" , __UpperCAmelCase ) @unittest.skip("Unfortunately way too slow to build a BPE with SentencePiece." ) def lowerCAmelCase ( self : Union[str, Any] ): '''simple docstring''' pass def lowerCAmelCase ( self : Dict ): '''simple docstring''' for tokenizer, pretrained_name, kwargs in self.tokenizers_list: with self.subTest(f'''{tokenizer.__class__.__name__} ({pretrained_name})''' ): _A = [AddedToken("<special>" , lstrip=__UpperCAmelCase )] _A = self.rust_tokenizer_class.from_pretrained( __UpperCAmelCase , additional_special_tokens=__UpperCAmelCase , **__UpperCAmelCase ) _A = tokenizer_r.encode("Hey this is a <special> token" ) _A = tokenizer_r.encode("<special>" , add_special_tokens=__UpperCAmelCase )[0] self.assertTrue(special_token_id in r_output ) if self.test_slow_tokenizer: _A = self.rust_tokenizer_class.from_pretrained( __UpperCAmelCase , additional_special_tokens=__UpperCAmelCase , **__UpperCAmelCase , ) _A = self.tokenizer_class.from_pretrained( __UpperCAmelCase , additional_special_tokens=__UpperCAmelCase , **__UpperCAmelCase ) _A = tokenizer_p.encode("Hey this is a <special> token" ) _A = tokenizer_cr.encode("Hey this is a <special> token" ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertTrue(special_token_id in p_output ) self.assertTrue(special_token_id in cr_output ) @require_torch @require_sentencepiece @require_tokenizers class _UpperCAmelCase ( unittest.TestCase ): """simple docstring""" snake_case = '''facebook/nllb-200-distilled-600M''' snake_case = [ ''' UN Chief Says There Is No Military Solution in Syria''', ''' Secretary-General Ban Ki-moon says his response to Russia\'s stepped up military support for Syria is that "there is no military solution" to the nearly five-year conflict and more weapons will only worsen the violence and misery for millions of people.''', ] snake_case = [ '''Şeful ONU declară că nu există o soluţie militară în Siria''', '''Secretarul General Ban Ki-moon declară că răspunsul său la intensificarea sprijinului militar al Rusiei''' ''' pentru Siria este că "nu există o soluţie militară" la conflictul de aproape cinci ani şi că noi arme nu vor''' ''' face decât să înrăutăţească violenţele şi mizeria pentru milioane de oameni.''', ] snake_case = [ 25_60_47, 1_62_97, 13_44_08, 81_65, 24_80_66, 1_47_34, 9_50, 11_35, 10_57_21, 35_73, 83, 2_73_52, 1_08, 4_94_86, 2, ] @classmethod def lowerCAmelCase ( cls : Optional[int] ): '''simple docstring''' _A = NllbTokenizer.from_pretrained( cls.checkpoint_name , src_lang="eng_Latn" , tgt_lang="ron_Latn" ) _A = 1 return cls def lowerCAmelCase ( self : List[str] ): '''simple docstring''' self.assertEqual(self.tokenizer.fairseq_tokens_to_ids["ace_Arab"] , 256001 ) self.assertEqual(self.tokenizer.fairseq_tokens_to_ids["ace_Latn"] , 256002 ) self.assertEqual(self.tokenizer.fairseq_tokens_to_ids["fra_Latn"] , 256057 ) def lowerCAmelCase ( self : int ): '''simple docstring''' _A = self.tokenizer.batch_encode_plus(self.src_text ).input_ids[0] self.assertListEqual(self.expected_src_tokens , __UpperCAmelCase ) def lowerCAmelCase ( self : Any ): '''simple docstring''' self.assertIn(__UpperCAmelCase , self.tokenizer.all_special_ids ) # fmt: off _A = [RO_CODE, 4254, 98068, 112923, 39072, 3909, 713, 102767, 26, 17314, 35642, 14683, 33118, 2022, 66987, 2, 256047] # fmt: on _A = self.tokenizer.decode(__UpperCAmelCase , skip_special_tokens=__UpperCAmelCase ) _A = self.tokenizer.decode(generated_ids[1:] , skip_special_tokens=__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertNotIn(self.tokenizer.eos_token , __UpperCAmelCase ) def lowerCAmelCase ( self : Tuple ): '''simple docstring''' _A = ["this is gunna be a long sentence " * 20] assert isinstance(src_text[0] , __UpperCAmelCase ) _A = 10 _A = self.tokenizer(__UpperCAmelCase , max_length=__UpperCAmelCase , truncation=__UpperCAmelCase ).input_ids[0] self.assertEqual(ids[-1] , 2 ) self.assertEqual(ids[0] , __UpperCAmelCase ) self.assertEqual(len(__UpperCAmelCase ) , __UpperCAmelCase ) def lowerCAmelCase ( self : Any ): '''simple docstring''' self.assertListEqual(self.tokenizer.convert_tokens_to_ids(["<mask>", "ar_AR"] ) , [256203, 3] ) def lowerCAmelCase ( self : int ): '''simple docstring''' _A = tempfile.mkdtemp() _A = self.tokenizer.fairseq_tokens_to_ids self.tokenizer.save_pretrained(__UpperCAmelCase ) _A = NllbTokenizer.from_pretrained(__UpperCAmelCase ) self.assertDictEqual(new_tok.fairseq_tokens_to_ids , __UpperCAmelCase ) @require_torch def lowerCAmelCase ( self : Optional[Any] ): '''simple docstring''' _A = self.tokenizer( self.src_text , text_target=self.tgt_text , padding=__UpperCAmelCase , truncation=__UpperCAmelCase , max_length=len(self.expected_src_tokens ) , return_tensors="pt" , ) _A = shift_tokens_right( batch["labels"] , self.tokenizer.pad_token_id , self.tokenizer.lang_code_to_id["ron_Latn"] ) self.assertIsInstance(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual((2, 15) , batch.input_ids.shape ) self.assertEqual((2, 15) , batch.attention_mask.shape ) _A = batch.input_ids.tolist()[0] self.assertListEqual(self.expected_src_tokens , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , batch.decoder_input_ids[0, 0] ) # EOS # Test that special tokens are reset self.assertEqual(self.tokenizer.prefix_tokens , [EN_CODE] ) self.assertEqual(self.tokenizer.suffix_tokens , [self.tokenizer.eos_token_id] ) def lowerCAmelCase ( self : List[str] ): '''simple docstring''' _A = self.tokenizer(self.src_text , padding=__UpperCAmelCase , truncation=__UpperCAmelCase , max_length=3 , return_tensors="pt" ) _A = self.tokenizer( text_target=self.tgt_text , padding=__UpperCAmelCase , truncation=__UpperCAmelCase , max_length=10 , return_tensors="pt" ) _A = targets["input_ids"] _A = shift_tokens_right( __UpperCAmelCase , self.tokenizer.pad_token_id , decoder_start_token_id=self.tokenizer.lang_code_to_id[self.tokenizer.tgt_lang] , ) self.assertEqual(batch.input_ids.shape[1] , 3 ) self.assertEqual(batch.decoder_input_ids.shape[1] , 10 ) @require_torch def lowerCAmelCase ( self : List[str] ): '''simple docstring''' _A = self.tokenizer._build_translation_inputs( "A test" , return_tensors="pt" , src_lang="eng_Latn" , tgt_lang="fra_Latn" ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , { # A, test, EOS, en_XX "input_ids": [[256047, 70, 7356, 2]], "attention_mask": [[1, 1, 1, 1]], # ar_AR "forced_bos_token_id": 256057, } , ) @require_torch def lowerCAmelCase ( self : List[Any] ): '''simple docstring''' _A = True _A = self.tokenizer( "UN Chief says there is no military solution in Syria" , src_lang="eng_Latn" , tgt_lang="fra_Latn" ) self.assertEqual( inputs.input_ids , [16297, 134408, 25653, 6370, 248, 254, 103929, 94995, 108, 49486, 2, 256047] ) _A = False _A = self.tokenizer( "UN Chief says there is no military solution in Syria" , src_lang="eng_Latn" , tgt_lang="fra_Latn" ) self.assertEqual( inputs.input_ids , [256047, 16297, 134408, 25653, 6370, 248, 254, 103929, 94995, 108, 49486, 2] )

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"""simple docstring""" def snake_case_ ( A_ : int = 2_00_00_00 ): '''simple docstring''' _lowerCamelCase : int = [0 for i in range(n + 1 )] _lowerCamelCase : List[str] = 1 _lowerCamelCase : Any = 1 for i in range(2, int(n**0.5 ) + 1 ): if primality_list[i] == 0: for j in range(i * i, n + 1, A_ ): _lowerCamelCase : str = 1 _lowerCamelCase : Tuple = 0 for i in range(A_ ): if primality_list[i] == 0: sum_of_primes += i return sum_of_primes if __name__ == "__main__": print(F"""{solution() = }""")

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'''simple docstring''' def _UpperCamelCase ( __A ) -> list: '''simple docstring''' def merge(__A , __A ) -> list: def _merge(): while left and right: yield (left if left[0] <= right[0] else right).pop(0 ) yield from left yield from right return list(_merge() ) if len(__A ) <= 1: return collection UpperCamelCase__ = len(__A ) // 2 return merge(merge_sort(collection[:mid] ) , merge_sort(collection[mid:] ) ) if __name__ == "__main__": import doctest doctest.testmod() a__ : List[str] = input('Enter numbers separated by a comma:\n').strip() a__ : Tuple = [int(item) for item in user_input.split(',')] print(*merge_sort(unsorted), sep=',')

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"""simple docstring""" import argparse import torch from torch import nn from transformers import MBartConfig, MBartForConditionalGeneration def snake_case_ ( A_ : Any ): '''simple docstring''' _lowerCamelCase : Any = [ '''encoder.version''', '''decoder.version''', '''model.encoder.version''', '''model.decoder.version''', '''_float_tensor''', '''decoder.output_projection.weight''', ] for k in ignore_keys: state_dict.pop(A_, A_ ) def snake_case_ ( A_ : Union[str, Any] ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : Tuple = emb.weight.shape _lowerCamelCase : Dict = nn.Linear(A_, A_, bias=A_ ) _lowerCamelCase : str = emb.weight.data return lin_layer def snake_case_ ( A_ : str, A_ : Optional[int]="facebook/mbart-large-en-ro", A_ : Union[str, Any]=False, A_ : List[str]=False ): '''simple docstring''' _lowerCamelCase : Tuple = torch.load(A_, map_location='''cpu''' )['''model'''] remove_ignore_keys_(A_ ) _lowerCamelCase : int = state_dict['''encoder.embed_tokens.weight'''].shape[0] _lowerCamelCase : Any = MBartConfig.from_pretrained(A_, vocab_size=A_ ) if mbart_aa and finetuned: _lowerCamelCase : Any = '''relu''' _lowerCamelCase : Optional[int] = state_dict['''decoder.embed_tokens.weight'''] _lowerCamelCase : Any = MBartForConditionalGeneration(A_ ) model.model.load_state_dict(A_ ) if finetuned: _lowerCamelCase : str = make_linear_from_emb(model.model.shared ) return model if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''fairseq_path''', type=str, help='''bart.large, bart.large.cnn or a path to a model.pt on local filesystem.''' ) parser.add_argument('''pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model.''') parser.add_argument( '''--hf_config''', default='''facebook/mbart-large-cc25''', type=str, help='''Which huggingface architecture to use: mbart-large''', ) parser.add_argument('''--mbart_50''', action='''store_true''', help='''whether the model is mMART-50 checkpoint''') parser.add_argument('''--finetuned''', action='''store_true''', help='''whether the model is a fine-tuned checkpoint''') lowerCAmelCase__ = parser.parse_args() lowerCAmelCase__ = convert_fairseq_mbart_checkpoint_from_disk( args.fairseq_path, hf_config_path=args.hf_config, finetuned=args.finetuned, mbart_aa=args.mbart_aa ) model.save_pretrained(args.pytorch_dump_folder_path)

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"""simple docstring""" lowerCamelCase_ : List[Any] = """0.18.2""" from .configuration_utils import ConfigMixin from .utils import ( OptionalDependencyNotAvailable, is_flax_available, is_inflect_available, is_invisible_watermark_available, is_k_diffusion_available, is_k_diffusion_version, is_librosa_available, is_note_seq_available, is_onnx_available, is_scipy_available, is_torch_available, is_torchsde_available, is_transformers_available, is_transformers_version, is_unidecode_available, logging, ) try: if not is_onnx_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_onnx_objects import * # noqa F403 else: from .pipelines import OnnxRuntimeModel try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_pt_objects import * # noqa F403 else: from .models import ( AutoencoderKL, ControlNetModel, ModelMixin, PriorTransformer, TaFilmDecoder, TransformeraDModel, UNetaDModel, UNetaDConditionModel, UNetaDModel, UNetaDConditionModel, VQModel, ) from .optimization import ( get_constant_schedule, get_constant_schedule_with_warmup, get_cosine_schedule_with_warmup, get_cosine_with_hard_restarts_schedule_with_warmup, get_linear_schedule_with_warmup, get_polynomial_decay_schedule_with_warmup, get_scheduler, ) from .pipelines import ( AudioPipelineOutput, ConsistencyModelPipeline, DanceDiffusionPipeline, DDIMPipeline, DDPMPipeline, DiffusionPipeline, DiTPipeline, ImagePipelineOutput, KarrasVePipeline, LDMPipeline, LDMSuperResolutionPipeline, PNDMPipeline, RePaintPipeline, ScoreSdeVePipeline, ) from .schedulers import ( CMStochasticIterativeScheduler, DDIMInverseScheduler, DDIMParallelScheduler, DDIMScheduler, DDPMParallelScheduler, DDPMScheduler, DEISMultistepScheduler, DPMSolverMultistepInverseScheduler, DPMSolverMultistepScheduler, DPMSolverSinglestepScheduler, EulerAncestralDiscreteScheduler, EulerDiscreteScheduler, HeunDiscreteScheduler, IPNDMScheduler, KarrasVeScheduler, KDPMaAncestralDiscreteScheduler, KDPMaDiscreteScheduler, PNDMScheduler, RePaintScheduler, SchedulerMixin, ScoreSdeVeScheduler, UnCLIPScheduler, UniPCMultistepScheduler, VQDiffusionScheduler, ) from .training_utils import EMAModel try: if not (is_torch_available() and is_scipy_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_scipy_objects import * # noqa F403 else: from .schedulers import LMSDiscreteScheduler try: if not (is_torch_available() and is_torchsde_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_torchsde_objects import * # noqa F403 else: from .schedulers import DPMSolverSDEScheduler try: if not (is_torch_available() and is_transformers_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_transformers_objects import * # noqa F403 else: from .pipelines import ( AltDiffusionImgaImgPipeline, AltDiffusionPipeline, AudioLDMPipeline, CycleDiffusionPipeline, IFImgaImgPipeline, IFImgaImgSuperResolutionPipeline, IFInpaintingPipeline, IFInpaintingSuperResolutionPipeline, IFPipeline, IFSuperResolutionPipeline, ImageTextPipelineOutput, KandinskyImgaImgPipeline, KandinskyInpaintPipeline, KandinskyPipeline, KandinskyPriorPipeline, KandinskyVaaControlnetImgaImgPipeline, KandinskyVaaControlnetPipeline, KandinskyVaaImgaImgPipeline, KandinskyVaaInpaintPipeline, KandinskyVaaPipeline, KandinskyVaaPriorEmbaEmbPipeline, KandinskyVaaPriorPipeline, LDMTextToImagePipeline, PaintByExamplePipeline, SemanticStableDiffusionPipeline, ShapEImgaImgPipeline, ShapEPipeline, StableDiffusionAttendAndExcitePipeline, StableDiffusionControlNetImgaImgPipeline, StableDiffusionControlNetInpaintPipeline, StableDiffusionControlNetPipeline, StableDiffusionDepthaImgPipeline, StableDiffusionDiffEditPipeline, StableDiffusionImageVariationPipeline, StableDiffusionImgaImgPipeline, StableDiffusionInpaintPipeline, StableDiffusionInpaintPipelineLegacy, StableDiffusionInstructPixaPixPipeline, StableDiffusionLatentUpscalePipeline, StableDiffusionLDMaDPipeline, StableDiffusionModelEditingPipeline, StableDiffusionPanoramaPipeline, StableDiffusionParadigmsPipeline, StableDiffusionPipeline, StableDiffusionPipelineSafe, StableDiffusionPixaPixZeroPipeline, StableDiffusionSAGPipeline, StableDiffusionUpscalePipeline, StableUnCLIPImgaImgPipeline, StableUnCLIPPipeline, TextToVideoSDPipeline, TextToVideoZeroPipeline, UnCLIPImageVariationPipeline, UnCLIPPipeline, UniDiffuserModel, UniDiffuserPipeline, UniDiffuserTextDecoder, VersatileDiffusionDualGuidedPipeline, VersatileDiffusionImageVariationPipeline, VersatileDiffusionPipeline, VersatileDiffusionTextToImagePipeline, VideoToVideoSDPipeline, VQDiffusionPipeline, ) try: if not (is_torch_available() and is_transformers_available() and is_invisible_watermark_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_transformers_and_invisible_watermark_objects import * # noqa F403 else: from .pipelines import StableDiffusionXLImgaImgPipeline, StableDiffusionXLPipeline try: if not (is_torch_available() and is_transformers_available() and is_k_diffusion_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_transformers_and_k_diffusion_objects import * # noqa F403 else: from .pipelines import StableDiffusionKDiffusionPipeline try: if not (is_torch_available() and is_transformers_available() and is_onnx_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_transformers_and_onnx_objects import * # noqa F403 else: from .pipelines import ( OnnxStableDiffusionImgaImgPipeline, OnnxStableDiffusionInpaintPipeline, OnnxStableDiffusionInpaintPipelineLegacy, OnnxStableDiffusionPipeline, OnnxStableDiffusionUpscalePipeline, StableDiffusionOnnxPipeline, ) try: if not (is_torch_available() and is_librosa_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_torch_and_librosa_objects import * # noqa F403 else: from .pipelines import AudioDiffusionPipeline, Mel try: if not (is_transformers_available() and is_torch_available() and is_note_seq_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_transformers_and_torch_and_note_seq_objects import * # noqa F403 else: from .pipelines import SpectrogramDiffusionPipeline try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_flax_objects import * # noqa F403 else: from .models.controlnet_flax import FlaxControlNetModel from .models.modeling_flax_utils import FlaxModelMixin from .models.unet_ad_condition_flax import FlaxUNetaDConditionModel from .models.vae_flax import FlaxAutoencoderKL from .pipelines import FlaxDiffusionPipeline from .schedulers import ( FlaxDDIMScheduler, FlaxDDPMScheduler, FlaxDPMSolverMultistepScheduler, FlaxKarrasVeScheduler, FlaxLMSDiscreteScheduler, FlaxPNDMScheduler, FlaxSchedulerMixin, FlaxScoreSdeVeScheduler, ) try: if not (is_flax_available() and is_transformers_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_flax_and_transformers_objects import * # noqa F403 else: from .pipelines import ( FlaxStableDiffusionControlNetPipeline, FlaxStableDiffusionImgaImgPipeline, FlaxStableDiffusionInpaintPipeline, FlaxStableDiffusionPipeline, ) try: if not (is_note_seq_available()): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: from .utils.dummy_note_seq_objects import * # noqa F403 else: from .pipelines import MidiProcessor

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"""simple docstring""" def snake_case_ ( A_ : list[list] ): '''simple docstring''' _lowerCamelCase : Optional[int] = current_set.copy() for row_index, row in enumerate(A_ ): _lowerCamelCase : Tuple = row[0] for column_index, column in enumerate(A_ ): if magnitude == 0: _lowerCamelCase : List[Any] = column continue _lowerCamelCase : List[Any] = column / magnitude # Subtract to cancel term _lowerCamelCase : Union[str, Any] = current_set[0] _lowerCamelCase : Dict = [first_row] _lowerCamelCase : str = current_set[1::] for row in current_set: _lowerCamelCase : Union[str, Any] = [] # If first term is 0, it is already in form we want, so we preserve it if row[0] == 0: final_set.append(A_ ) continue for column_index in range(len(A_ ) ): temp_row.append(first_row[column_index] - row[column_index] ) final_set.append(A_ ) # Create next recursion iteration set if len(final_set[0] ) != 3: _lowerCamelCase : Any = final_set[0] _lowerCamelCase : Any = [] _lowerCamelCase : Optional[int] = [] for row in final_set[1::]: current_first_column.append(row[0] ) next_iteration.append(row[1::] ) _lowerCamelCase : Dict = simplify(A_ ) for i in range(len(A_ ) ): resultant[i].insert(0, current_first_column[i] ) resultant.insert(0, A_ ) _lowerCamelCase : Tuple = resultant return final_set def snake_case_ ( A_ : list[list] ): '''simple docstring''' if len(A_ ) == 0: raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) _lowerCamelCase : Dict = len(A_ ) + 1 if any(len(A_ ) != _length for item in equations ): raise IndexError('''solve_simultaneous() requires n lists of length n+1''' ) for row in equations: if any(not isinstance(A_, (int, float) ) for column in row ): raise ValueError('''solve_simultaneous() requires lists of integers''' ) if len(A_ ) == 1: return [equations[0][-1] / equations[0][0]] _lowerCamelCase : Optional[Any] = equations.copy() if any(0 in row for row in data_set ): _lowerCamelCase : str = data_set.copy() _lowerCamelCase : List[Any] = [] for row_index, row in enumerate(A_ ): if 0 not in row: _lowerCamelCase : Union[str, Any] = data_set.pop(A_ ) break if not full_row: raise ValueError('''solve_simultaneous() requires at least 1 full equation''' ) data_set.insert(0, A_ ) _lowerCamelCase : List[str] = data_set.copy() _lowerCamelCase : int = simplify(A_ ) _lowerCamelCase : int = simplified[::-1] _lowerCamelCase : list = [] for row in simplified: _lowerCamelCase : Tuple = row[-1] if not solutions: if row[-2] == 0: solutions.append(0 ) continue solutions.append(current_solution / row[-2] ) continue _lowerCamelCase : Optional[Any] = row.copy()[: len(A_ ) - 1 :] while temp_row[0] == 0: temp_row.pop(0 ) if len(A_ ) == 0: solutions.append(0 ) continue _lowerCamelCase : Tuple = temp_row[1::] _lowerCamelCase : Tuple = temp_row[::-1] for column_index, column in enumerate(A_ ): current_solution -= column * solutions[column_index] solutions.append(A_ ) _lowerCamelCase : Optional[int] = [] for item in solutions: final.append(float(round(A_, 5 ) ) ) return final[::-1] if __name__ == "__main__": import doctest doctest.testmod() lowerCAmelCase__ = [ [2, 1, 1, 1, 1, 4], [1, 2, 1, 1, 1, 5], [1, 1, 2, 1, 1, 6], [1, 1, 1, 2, 1, 7], [1, 1, 1, 1, 2, 8], ] print(solve_simultaneous(eq)) print(solve_simultaneous([[4, 2]]))

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def _UpperCAmelCase ( snake_case , snake_case , snake_case , snake_case , snake_case ): """simple docstring""" if index == number_of_items: return 0 _lowerCAmelCase = 0 _lowerCAmelCase = 0 _lowerCAmelCase = knapsack(snake_case , snake_case , snake_case , snake_case , index + 1 ) if weights[index] <= max_weight: _lowerCAmelCase = values[index] + knapsack( snake_case , snake_case , snake_case , max_weight - weights[index] , index + 1 ) return max(snake_case , snake_case ) if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class __snake_case ( _lowercase): snake_case__ : List[Any] = "Speech2TextFeatureExtractor" snake_case__ : Union[str, Any] = "Speech2TextTokenizer" def __init__( self : int , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" super().__init__(__lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : str = False def __call__( self : List[Any] , *__lowerCAmelCase : int , **__lowerCAmelCase : List[str] ): """simple docstring""" if self._in_target_context_manager: return self.current_processor(*__lowerCAmelCase , **__lowerCAmelCase ) if "raw_speech" in kwargs: warnings.warn('''Using `raw_speech` as a keyword argument is deprecated. Use `audio` instead.''' ) _lowerCamelCase : str = kwargs.pop('''raw_speech''' ) else: _lowerCamelCase : Tuple = kwargs.pop('''audio''' , __lowerCAmelCase ) _lowerCamelCase : Optional[Any] = kwargs.pop('''sampling_rate''' , __lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = kwargs.pop('''text''' , __lowerCAmelCase ) if len(__lowerCAmelCase ) > 0: _lowerCamelCase : List[Any] = args[0] _lowerCamelCase : int = args[1:] if audio is None and text is None: raise ValueError('''You need to specify either an `audio` or `text` input to process.''' ) if audio is not None: _lowerCamelCase : List[Any] = self.feature_extractor(__lowerCAmelCase , *__lowerCAmelCase , sampling_rate=__lowerCAmelCase , **__lowerCAmelCase ) if text is not None: _lowerCamelCase : List[Any] = self.tokenizer(__lowerCAmelCase , **__lowerCAmelCase ) if text is None: return inputs elif audio is None: return encodings else: _lowerCamelCase : List[str] = encodings['''input_ids'''] return inputs def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : List[Any] , **__lowerCAmelCase : Tuple ): """simple docstring""" return self.tokenizer.batch_decode(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : List[str] , **__lowerCAmelCase : int ): """simple docstring""" return self.tokenizer.decode(*__lowerCAmelCase , **__lowerCAmelCase ) @contextmanager def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" warnings.warn( '''`as_target_processor` is deprecated and will be removed in v5 of Transformers. You can process your ''' '''labels by using the argument `text` of the regular `__call__` method (either in the same call as ''' '''your audio inputs, or in a separate call.''' ) _lowerCamelCase : Union[str, Any] = True _lowerCamelCase : Any = self.tokenizer yield _lowerCamelCase : List[str] = self.feature_extractor _lowerCamelCase : Tuple = False

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'''simple docstring''' import copy from typing import Dict, Optional from ...configuration_utils import PretrainedConfig from ...utils import logging from ..auto import CONFIG_MAPPING from ..detr import DetrConfig from ..swin import SwinConfig snake_case_ : List[str] = { 'facebook/maskformer-swin-base-ade': ( 'https://huggingface.co/facebook/maskformer-swin-base-ade/blob/main/config.json' ) # See all MaskFormer models at https://huggingface.co/models?filter=maskformer } snake_case_ : Tuple = logging.get_logger(__name__) class lowercase__ ( lowercase ): lowercase__ = """maskformer""" lowercase__ = {"""hidden_size""": """mask_feature_size"""} lowercase__ = ["""resnet""", """swin"""] lowercase__ = ["""detr"""] def __init__( self : Union[str, Any] ,lowerCamelCase__ : int = 256 ,lowerCamelCase__ : int = 256 ,lowerCamelCase__ : float = 0.1 ,lowerCamelCase__ : bool = False ,lowerCamelCase__ : Optional[Dict] = None ,lowerCamelCase__ : Optional[Dict] = None ,lowerCamelCase__ : float = 0.0_2 ,lowerCamelCase__ : float = 1.0 ,lowerCamelCase__ : float = 1.0 ,lowerCamelCase__ : float = 1.0 ,lowerCamelCase__ : float = 2_0.0 ,lowerCamelCase__ : Optional[bool] = None ,**lowerCamelCase__ : Any ,): '''simple docstring''' if backbone_config is None: # fall back to https://huggingface.co/microsoft/swin-base-patch4-window12-384-in22k _UpperCamelCase : Optional[Any] = SwinConfig( image_size=384 ,in_channels=3 ,patch_size=4 ,embed_dim=128 ,depths=[2, 2, 18, 2] ,num_heads=[4, 8, 16, 32] ,window_size=12 ,drop_path_rate=0.3 ,out_features=['stage1', 'stage2', 'stage3', 'stage4'] ,) if isinstance(lowerCamelCase__ ,lowerCamelCase__ ): _UpperCamelCase : Tuple = backbone_config.pop('model_type' ) _UpperCamelCase : Optional[Any] = CONFIG_MAPPING[backbone_model_type] _UpperCamelCase : Optional[int] = config_class.from_dict(lowerCamelCase__ ) # verify that the backbone is supported if backbone_config.model_type not in self.backbones_supported: logger.warning_once( F'Backbone {backbone_config.model_type} is not a supported model and may not be compatible with MaskFormer. ' F'Supported model types: {",".join(self.backbones_supported )}' ) if decoder_config is None: # fall back to https://huggingface.co/facebook/detr-resnet-50 _UpperCamelCase : List[Any] = DetrConfig() else: # verify that the decoder is supported _UpperCamelCase : Tuple = ( decoder_config.pop('model_type' ) if isinstance(lowerCamelCase__ ,lowerCamelCase__ ) else decoder_config.model_type ) if decoder_type not in self.decoders_supported: raise ValueError( F'Transformer Decoder {decoder_type} not supported, please use one of' F' {",".join(self.decoders_supported )}' ) if isinstance(lowerCamelCase__ ,lowerCamelCase__ ): _UpperCamelCase : Optional[Any] = CONFIG_MAPPING[decoder_type] _UpperCamelCase : Optional[Any] = config_class.from_dict(lowerCamelCase__ ) _UpperCamelCase : Dict = backbone_config _UpperCamelCase : Optional[Any] = decoder_config # main feature dimension for the model _UpperCamelCase : Dict = fpn_feature_size _UpperCamelCase : str = mask_feature_size # initializer _UpperCamelCase : Any = init_std _UpperCamelCase : Any = init_xavier_std # Hungarian matcher && loss _UpperCamelCase : Optional[int] = cross_entropy_weight _UpperCamelCase : Union[str, Any] = dice_weight _UpperCamelCase : Tuple = mask_weight _UpperCamelCase : Optional[int] = use_auxiliary_loss _UpperCamelCase : List[str] = no_object_weight _UpperCamelCase : Optional[int] = output_auxiliary_logits _UpperCamelCase : List[str] = self.decoder_config.encoder_attention_heads _UpperCamelCase : Optional[Any] = self.decoder_config.num_hidden_layers super().__init__(**lowerCamelCase__ ) @classmethod def UpperCamelCase_ ( cls : Union[str, Any] ,lowerCamelCase__ : PretrainedConfig ,lowerCamelCase__ : PretrainedConfig ,**lowerCamelCase__ : Union[str, Any] ): '''simple docstring''' return cls( backbone_config=lowerCamelCase__ ,decoder_config=lowerCamelCase__ ,**lowerCamelCase__ ,) def UpperCamelCase_ ( self : Union[str, Any] ): '''simple docstring''' _UpperCamelCase : Union[str, Any] = copy.deepcopy(self.__dict__ ) _UpperCamelCase : str = self.backbone_config.to_dict() _UpperCamelCase : Any = self.decoder_config.to_dict() _UpperCamelCase : Any = self.__class__.model_type return output

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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = {'''configuration_reformer''': ['''REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ReformerConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''ReformerTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ReformerAttention''', '''ReformerForMaskedLM''', '''ReformerForQuestionAnswering''', '''ReformerForSequenceClassification''', '''ReformerLayer''', '''ReformerModel''', '''ReformerModelWithLMHead''', '''ReformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_reformer import REFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, ReformerConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer import ReformerTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_reformer_fast import ReformerTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_reformer import ( REFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, ReformerAttention, ReformerForMaskedLM, ReformerForQuestionAnswering, ReformerForSequenceClassification, ReformerLayer, ReformerModel, ReformerModelWithLMHead, ReformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" # This code is adapted from OpenAI's release # https://github.com/openai/human-eval/blob/master/human_eval/execution.py import contextlib import faulthandler import io import multiprocessing import os import platform import signal import tempfile def _snake_case ( lowercase__ : List[Any] , lowercase__ : Tuple , lowercase__ : List[Any] , lowercase__ : Optional[Any] ) -> Optional[Any]: '''simple docstring''' lowerCAmelCase_ :Optional[Any] = multiprocessing.Manager() lowerCAmelCase_ :Union[str, Any] = manager.list() lowerCAmelCase_ :Any = multiprocessing.Process(target=lowercase__ , args=(check_program, result, timeout) ) p.start() p.join(timeout=timeout + 1 ) if p.is_alive(): p.kill() if not result: result.append("""timed out""" ) return { "task_id": task_id, "passed": result[0] == "passed", "result": result[0], "completion_id": completion_id, } def _snake_case ( lowercase__ : List[Any] , lowercase__ : Union[str, Any] , lowercase__ : Tuple ) -> List[str]: '''simple docstring''' with create_tempdir(): # These system calls are needed when cleaning up tempdir. import os import shutil lowerCAmelCase_ :Union[str, Any] = shutil.rmtree lowerCAmelCase_ :str = os.rmdir lowerCAmelCase_ :Any = os.chdir # Disable functionalities that can make destructive changes to the test. reliability_guard() # Run program. try: lowerCAmelCase_ :Any = {} with swallow_io(): with time_limit(lowercase__ ): exec(lowercase__ , lowercase__ ) result.append("""passed""" ) except TimeoutException: result.append("""timed out""" ) except BaseException as e: result.append(f"""failed: {e}""" ) # Needed for cleaning up. lowerCAmelCase_ :Dict = rmtree lowerCAmelCase_ :List[str] = rmdir lowerCAmelCase_ :int = chdir @contextlib.contextmanager def _snake_case ( lowercase__ : Tuple ) -> Optional[int]: '''simple docstring''' def signal_handler(lowercase__ : List[Any] , lowercase__ : Dict ): raise TimeoutException("""Timed out!""" ) signal.setitimer(signal.ITIMER_REAL , lowercase__ ) signal.signal(signal.SIGALRM , lowercase__ ) try: yield finally: signal.setitimer(signal.ITIMER_REAL , 0 ) @contextlib.contextmanager def _snake_case ( ) -> List[Any]: '''simple docstring''' lowerCAmelCase_ :List[str] = WriteOnlyStringIO() with contextlib.redirect_stdout(lowercase__ ): with contextlib.redirect_stderr(lowercase__ ): with redirect_stdin(lowercase__ ): yield @contextlib.contextmanager def _snake_case ( ) -> int: '''simple docstring''' with tempfile.TemporaryDirectory() as dirname: with chdir(lowercase__ ): yield dirname class _SCREAMING_SNAKE_CASE ( A__ ): pass class _SCREAMING_SNAKE_CASE ( io.StringIO ): def __lowerCAmelCase ( self , *__A , **__A ) -> List[str]: raise OSError def __lowerCAmelCase ( self , *__A , **__A ) -> Optional[int]: raise OSError def __lowerCAmelCase ( self , *__A , **__A ) -> List[Any]: raise OSError def __lowerCAmelCase ( self , *__A , **__A ) -> Dict: return False class _SCREAMING_SNAKE_CASE ( contextlib._RedirectStream ): # type: ignore UpperCAmelCase_ :Union[str, Any] = "stdin" @contextlib.contextmanager def _snake_case ( lowercase__ : Dict ) -> Dict: '''simple docstring''' if root == ".": yield return lowerCAmelCase_ :List[Any] = os.getcwd() os.chdir(lowercase__ ) try: yield except BaseException as exc: raise exc finally: os.chdir(lowercase__ ) def _snake_case ( lowercase__ : List[str]=None ) -> List[str]: '''simple docstring''' if maximum_memory_bytes is not None: import resource resource.setrlimit(resource.RLIMIT_AS , (maximum_memory_bytes, maximum_memory_bytes) ) resource.setrlimit(resource.RLIMIT_DATA , (maximum_memory_bytes, maximum_memory_bytes) ) if not platform.uname().system == "Darwin": resource.setrlimit(resource.RLIMIT_STACK , (maximum_memory_bytes, maximum_memory_bytes) ) faulthandler.disable() import builtins lowerCAmelCase_ :Any = None lowerCAmelCase_ :Optional[int] = None import os lowerCAmelCase_ :List[str] = """1""" lowerCAmelCase_ :Tuple = None lowerCAmelCase_ :Union[str, Any] = None lowerCAmelCase_ :Dict = None lowerCAmelCase_ :Dict = None lowerCAmelCase_ :Any = None lowerCAmelCase_ :Dict = None lowerCAmelCase_ :Union[str, Any] = None lowerCAmelCase_ :List[Any] = None lowerCAmelCase_ :Optional[Any] = None lowerCAmelCase_ :Dict = None lowerCAmelCase_ :Any = None lowerCAmelCase_ :str = None lowerCAmelCase_ :Optional[Any] = None lowerCAmelCase_ :Optional[int] = None lowerCAmelCase_ :int = None lowerCAmelCase_ :List[str] = None lowerCAmelCase_ :Union[str, Any] = None lowerCAmelCase_ :List[str] = None lowerCAmelCase_ :Optional[int] = None lowerCAmelCase_ :Any = None lowerCAmelCase_ :Optional[Any] = None lowerCAmelCase_ :Dict = None lowerCAmelCase_ :List[str] = None lowerCAmelCase_ :Optional[Any] = None lowerCAmelCase_ :List[str] = None lowerCAmelCase_ :Optional[int] = None lowerCAmelCase_ :Dict = None import shutil lowerCAmelCase_ :Union[str, Any] = None lowerCAmelCase_ :int = None lowerCAmelCase_ :int = None import subprocess lowerCAmelCase_ :Dict = None # type: ignore lowerCAmelCase_ :Dict = None import sys lowerCAmelCase_ :Tuple = None lowerCAmelCase_ :int = None lowerCAmelCase_ :Optional[int] = None lowerCAmelCase_ :Union[str, Any] = None lowerCAmelCase_ :Optional[Any] = None

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"""simple docstring""" from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available lowerCAmelCase__ = { '''configuration_autoformer''': [ '''AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''AutoformerConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST''', '''AutoformerForPrediction''', '''AutoformerModel''', '''AutoformerPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_autoformer import ( AUTOFORMER_PRETRAINED_CONFIG_ARCHIVE_MAP, AutoformerConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_autoformer import ( AUTOFORMER_PRETRAINED_MODEL_ARCHIVE_LIST, AutoformerForPrediction, AutoformerModel, AutoformerPreTrainedModel, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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'''simple docstring''' from typing import List, Optional, Union from ...processing_utils import ProcessorMixin from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy from ...utils import TensorType class _snake_case ( lowercase_ ): lowerCAmelCase_ : int = ["image_processor", "tokenizer"] lowerCAmelCase_ : Union[str, Any] = "BridgeTowerImageProcessor" lowerCAmelCase_ : Union[str, Any] = ("RobertaTokenizer", "RobertaTokenizerFast") def __init__( self , a__ , a__ ) -> Optional[int]: '''simple docstring''' super().__init__(a__ , a__ ) def __call__( self , a__ , a__ = None , a__ = True , a__ = False , a__ = None , a__ = None , a__ = 0 , a__ = None , a__ = None , a__ = None , a__ = False , a__ = False , a__ = False , a__ = False , a__ = True , a__ = None , **a__ , ) -> BatchEncoding: '''simple docstring''' snake_case_ = self.tokenizer( text=a__ , add_special_tokens=a__ , padding=a__ , truncation=a__ , max_length=a__ , stride=a__ , pad_to_multiple_of=a__ , return_token_type_ids=a__ , return_attention_mask=a__ , return_overflowing_tokens=a__ , return_special_tokens_mask=a__ , return_offsets_mapping=a__ , return_length=a__ , verbose=a__ , return_tensors=a__ , **a__ , ) # add pixel_values + pixel_mask snake_case_ = self.image_processor( a__ , return_tensors=a__ , do_normalize=a__ , do_center_crop=a__ , **a__ ) encoding.update(a__ ) return encoding def lowerCAmelCase__ ( self , *a__ , **a__ ) -> Optional[int]: '''simple docstring''' return self.tokenizer.batch_decode(*a__ , **a__ ) def lowerCAmelCase__ ( self , *a__ , **a__ ) -> int: '''simple docstring''' return self.tokenizer.decode(*a__ , **a__ ) @property def lowerCAmelCase__ ( self ) -> Tuple: '''simple docstring''' snake_case_ = self.tokenizer.model_input_names snake_case_ = self.image_processor.model_input_names return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )

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"""simple docstring""" import math def snake_case_ ( A_ : int ): '''simple docstring''' if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5, int(math.sqrt(A_ ) + 1 ), 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def snake_case_ ( A_ : float = 0.1 ): '''simple docstring''' _lowerCamelCase : Optional[int] = 3 _lowerCamelCase : List[str] = 3 while primes / (2 * j - 1) >= ratio: for i in range(j * j + j + 1, (j + 2) * (j + 2), j + 1 ): primes += is_prime(A_ ) j += 2 return j if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" from __future__ import annotations import unittest from transformers import is_tf_available, is_torch_available from transformers.testing_utils import DUMMY_UNKNOWN_IDENTIFIER, SMALL_MODEL_IDENTIFIER, is_pt_tf_cross_test, slow if is_tf_available(): from transformers import ( AutoConfig, BertConfig, GPTaConfig, TaConfig, TFAutoModel, TFAutoModelForCausalLM, TFAutoModelForMaskedLM, TFAutoModelForPreTraining, TFAutoModelForQuestionAnswering, TFAutoModelForSeqaSeqLM, TFAutoModelForSequenceClassification, TFAutoModelWithLMHead, TFBertForMaskedLM, TFBertForPreTraining, TFBertForQuestionAnswering, TFBertForSequenceClassification, TFBertModel, TFGPTaLMHeadModel, TFRobertaForMaskedLM, TFTaForConditionalGeneration, ) from transformers.models.bert.modeling_tf_bert import TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST from transformers.models.gpta.modeling_tf_gpta import TF_GPT2_PRETRAINED_MODEL_ARCHIVE_LIST from transformers.models.ta.modeling_tf_ta import TF_T5_PRETRAINED_MODEL_ARCHIVE_LIST if is_torch_available(): from transformers import ( AutoModel, AutoModelForCausalLM, AutoModelForMaskedLM, AutoModelForPreTraining, AutoModelForQuestionAnswering, AutoModelForSeqaSeqLM, AutoModelForSequenceClassification, AutoModelWithLMHead, BertForMaskedLM, BertForPreTraining, BertForQuestionAnswering, BertForSequenceClassification, BertModel, GPTaLMHeadModel, RobertaForMaskedLM, TaForConditionalGeneration, ) @is_pt_tf_cross_test class A__ ( unittest.TestCase): @slow def __lowerCamelCase ( self ): # for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: for model_name in ["bert-base-uncased"]: __lowerCAmelCase : Tuple = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[str] = TFAutoModel.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Optional[int] = AutoModel.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): # for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: for model_name in ["bert-base-uncased"]: __lowerCAmelCase : int = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Tuple = TFAutoModelForPreTraining.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : str = AutoModelForPreTraining.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): for model_name in TF_GPT2_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Dict = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[str] = TFAutoModelForCausalLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : List[str] = TFAutoModelForCausalLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Any = AutoModelForCausalLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : List[Any] = AutoModelForCausalLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Dict = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : int = TFAutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Optional[int] = AutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Optional[Any] = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[Any] = TFAutoModelForMaskedLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : int = TFAutoModelForMaskedLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Union[str, Any] = AutoModelForMaskedLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : str = AutoModelForMaskedLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): for model_name in TF_T5_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Optional[int] = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Tuple = TFAutoModelForSeqaSeqLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : Tuple = TFAutoModelForSeqaSeqLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : int = AutoModelForSeqaSeqLM.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase , __lowerCAmelCase : Dict = AutoModelForSeqaSeqLM.from_pretrained( _SCREAMING_SNAKE_CASE , output_loading_info=_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): # for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: for model_name in ["bert-base-uncased"]: __lowerCAmelCase : Dict = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[str] = TFAutoModelForSequenceClassification.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Union[str, Any] = AutoModelForSequenceClassification.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): # for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: for model_name in ["bert-base-uncased"]: __lowerCAmelCase : Union[str, Any] = AutoConfig.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Optional[Any] = TFAutoModelForQuestionAnswering.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Union[str, Any] = AutoModelForQuestionAnswering.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : List[Any] = TFAutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) self.assertEqual(model.num_parameters() , 1_44_10 ) self.assertEqual(model.num_parameters(only_trainable=_SCREAMING_SNAKE_CASE ) , 1_44_10 ) __lowerCAmelCase : Tuple = AutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) self.assertEqual(model.num_parameters() , 1_44_10 ) self.assertEqual(model.num_parameters(only_trainable=_SCREAMING_SNAKE_CASE ) , 1_44_10 ) def __lowerCamelCase ( self ): __lowerCAmelCase : int = TFAutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_pt=_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) self.assertEqual(model.num_parameters() , 1_44_10 ) self.assertEqual(model.num_parameters(only_trainable=_SCREAMING_SNAKE_CASE ) , 1_44_10 ) __lowerCAmelCase : Tuple = AutoModelWithLMHead.from_pretrained(_SCREAMING_SNAKE_CASE , from_tf=_SCREAMING_SNAKE_CASE ) self.assertIsInstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) self.assertEqual(model.num_parameters() , 1_44_10 ) self.assertEqual(model.num_parameters(only_trainable=_SCREAMING_SNAKE_CASE ) , 1_44_10 )

86

"""simple docstring""" import unittest from queue import Empty from threading import Thread from transformers import AutoTokenizer, TextIteratorStreamer, TextStreamer, is_torch_available from transformers.testing_utils import CaptureStdout, require_torch, torch_device from ..test_modeling_common import ids_tensor if is_torch_available(): import torch from transformers import AutoModelForCausalLM @require_torch class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Optional[Any] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Union[str, Any] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = tokenizer.decode(greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Union[str, Any] = TextStreamer(__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : int = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Optional[int] = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : Optional[int] = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : List[str] = tokenizer.decode(greedy_ids[0] ) _lowerCamelCase : Tuple = TextIteratorStreamer(__lowerCAmelCase ) _lowerCamelCase : Tuple = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() _lowerCamelCase : int = '''''' for new_text in streamer: streamer_text += new_text self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Dict = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : str = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Tuple = -1 _lowerCamelCase : Optional[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : int = model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = greedy_ids[:, input_ids.shape[1] :] _lowerCamelCase : int = tokenizer.decode(new_greedy_ids[0] ) with CaptureStdout() as cs: _lowerCamelCase : Any = TextStreamer(__lowerCAmelCase , skip_prompt=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1_0 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The greedy text should be printed to stdout, except for the final "\n" in the streamer _lowerCamelCase : Union[str, Any] = cs.out[:-1] self.assertEqual(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = AutoTokenizer.from_pretrained('''distilgpt2''' ) _lowerCamelCase : Optional[Any] = AutoModelForCausalLM.from_pretrained('''distilgpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = -1 _lowerCamelCase : Any = torch.ones((1, 5) , device=__lowerCAmelCase ).long() * model.config.bos_token_id with CaptureStdout() as cs: _lowerCamelCase : List[Any] = TextStreamer(__lowerCAmelCase , skip_special_tokens=__lowerCAmelCase ) model.generate(__lowerCAmelCase , max_new_tokens=1 , do_sample=__lowerCAmelCase , streamer=__lowerCAmelCase ) # The prompt contains a special token, so the streamer should not print it. As such, the output text, when # re-tokenized, must only contain one token _lowerCamelCase : Any = cs.out[:-1] # Remove the final "\n" _lowerCamelCase : int = tokenizer(__lowerCAmelCase , return_tensors='''pt''' ) self.assertEqual(streamer_text_tokenized.input_ids.shape , (1, 1) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : List[str] = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ) _lowerCamelCase : Dict = AutoModelForCausalLM.from_pretrained('''hf-internal-testing/tiny-random-gpt2''' ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = -1 _lowerCamelCase : Any = ids_tensor((1, 5) , vocab_size=model.config.vocab_size ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = TextIteratorStreamer(__lowerCAmelCase , timeout=0.0_01 ) _lowerCamelCase : str = {'''input_ids''': input_ids, '''max_new_tokens''': 1_0, '''do_sample''': False, '''streamer''': streamer} _lowerCamelCase : List[Any] = Thread(target=model.generate , kwargs=__lowerCAmelCase ) thread.start() # The streamer will timeout after 0.001 seconds, so an exception will be raised with self.assertRaises(__lowerCAmelCase ): _lowerCamelCase : Optional[Any] = '''''' for new_text in streamer: streamer_text += new_text

72

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from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCamelCase = logging.get_logger(__name__) UpperCamelCase = { '''uclanlp/visualbert-vqa''': '''https://huggingface.co/uclanlp/visualbert-vqa/resolve/main/config.json''', '''uclanlp/visualbert-vqa-pre''': '''https://huggingface.co/uclanlp/visualbert-vqa-pre/resolve/main/config.json''', '''uclanlp/visualbert-vqa-coco-pre''': ( '''https://huggingface.co/uclanlp/visualbert-vqa-coco-pre/resolve/main/config.json''' ), '''uclanlp/visualbert-vcr''': '''https://huggingface.co/uclanlp/visualbert-vcr/resolve/main/config.json''', '''uclanlp/visualbert-vcr-pre''': '''https://huggingface.co/uclanlp/visualbert-vcr-pre/resolve/main/config.json''', '''uclanlp/visualbert-vcr-coco-pre''': ( '''https://huggingface.co/uclanlp/visualbert-vcr-coco-pre/resolve/main/config.json''' ), '''uclanlp/visualbert-nlvr2''': '''https://huggingface.co/uclanlp/visualbert-nlvr2/resolve/main/config.json''', '''uclanlp/visualbert-nlvr2-pre''': '''https://huggingface.co/uclanlp/visualbert-nlvr2-pre/resolve/main/config.json''', '''uclanlp/visualbert-nlvr2-coco-pre''': ( '''https://huggingface.co/uclanlp/visualbert-nlvr2-coco-pre/resolve/main/config.json''' ) # See all VisualBERT models at https://huggingface.co/models?filter=visual_bert } class snake_case_ ( __A ): __A : Union[str, Any] = "visual_bert" def __init__( self : Any , lowercase_ : Any=3_05_22 , lowercase_ : List[Any]=7_68 , lowercase_ : List[str]=5_12 , lowercase_ : Dict=12 , lowercase_ : Union[str, Any]=12 , lowercase_ : List[Any]=30_72 , lowercase_ : Dict="gelu" , lowercase_ : List[str]=0.1 , lowercase_ : int=0.1 , lowercase_ : Tuple=5_12 , lowercase_ : int=2 , lowercase_ : List[Any]=0.02 , lowercase_ : List[Any]=1E-12 , lowercase_ : str=False , lowercase_ : Tuple=True , lowercase_ : Optional[Any]=1 , lowercase_ : List[str]=0 , lowercase_ : str=2 , **lowercase_ : Dict , ) -> List[str]: super().__init__(pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ ) lowercase__ : Optional[int] = vocab_size lowercase__ : List[str] = max_position_embeddings lowercase__ : List[str] = hidden_size lowercase__ : str = visual_embedding_dim lowercase__ : List[Any] = num_hidden_layers lowercase__ : str = num_attention_heads lowercase__ : Union[str, Any] = intermediate_size lowercase__ : Any = hidden_act lowercase__ : int = hidden_dropout_prob lowercase__ : Any = attention_probs_dropout_prob lowercase__ : Dict = initializer_range lowercase__ : str = type_vocab_size lowercase__ : Any = layer_norm_eps lowercase__ : Tuple = bypass_transformer lowercase__ : Tuple = special_visual_initialize

87

"""simple docstring""" from ....configuration_utils import PretrainedConfig from ....utils import logging lowerCAmelCase__ = logging.get_logger(__name__) # TODO: upload to AWS lowerCAmelCase__ = { '''yjernite/retribert-base-uncased''': ( '''https://huggingface.co/yjernite/retribert-base-uncased/resolve/main/config.json''' ), } class __snake_case ( _lowercase): snake_case__ : int = "retribert" def __init__( self : Optional[int] , __lowerCAmelCase : str=3_0_5_2_2 , __lowerCAmelCase : Tuple=7_6_8 , __lowerCAmelCase : Union[str, Any]=8 , __lowerCAmelCase : Any=1_2 , __lowerCAmelCase : Optional[int]=3_0_7_2 , __lowerCAmelCase : List[str]="gelu" , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=0.1 , __lowerCAmelCase : Tuple=5_1_2 , __lowerCAmelCase : List[str]=2 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Optional[Any]=1E-12 , __lowerCAmelCase : Tuple=True , __lowerCAmelCase : Any=1_2_8 , __lowerCAmelCase : Optional[int]=0 , **__lowerCAmelCase : str , ): """simple docstring""" super().__init__(pad_token_id=__lowerCAmelCase , **__lowerCAmelCase ) _lowerCamelCase : Dict = vocab_size _lowerCamelCase : Union[str, Any] = hidden_size _lowerCamelCase : Dict = num_hidden_layers _lowerCamelCase : int = num_attention_heads _lowerCamelCase : int = hidden_act _lowerCamelCase : str = intermediate_size _lowerCamelCase : Union[str, Any] = hidden_dropout_prob _lowerCamelCase : List[Any] = attention_probs_dropout_prob _lowerCamelCase : Optional[int] = max_position_embeddings _lowerCamelCase : List[Any] = type_vocab_size _lowerCamelCase : Any = initializer_range _lowerCamelCase : Optional[int] = layer_norm_eps _lowerCamelCase : int = share_encoders _lowerCamelCase : Optional[Any] = projection_dim

72

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from __future__ import annotations import math def a__ ( A_, A_, A_, A_, A_ ): '''simple docstring''' if depth < 0: raise ValueError("""Depth cannot be less than 0""" ) if not scores: raise ValueError("""Scores cannot be empty""" ) if depth == height: return scores[node_index] return ( max( minimax(depth + 1, node_index * 2, A_, A_, A_ ), minimax(depth + 1, node_index * 2 + 1, A_, A_, A_ ), ) if is_max else min( minimax(depth + 1, node_index * 2, A_, A_, A_ ), minimax(depth + 1, node_index * 2 + 1, A_, A_, A_ ), ) ) def a__ ( ): '''simple docstring''' __magic_name__ = [90, 23, 6, 33, 21, 65, 123, 34423] __magic_name__ = math.log(len(A_ ), 2 ) print(f'''Optimal value : {minimax(0, 0, A_, A_, A_ )}''' ) if __name__ == "__main__": import doctest doctest.testmod() main()

88

"""simple docstring""" import unittest from diffusers.pipelines.pipeline_utils import is_safetensors_compatible class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : Optional[int] = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', '''unet/diffusion_pytorch_model.bin''', # Removed: 'unet/diffusion_pytorch_model.safetensors', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] self.assertTrue(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.bin''', '''safety_checker/model.safetensors''', '''vae/diffusion_pytorch_model.bin''', '''vae/diffusion_pytorch_model.safetensors''', '''text_encoder/pytorch_model.bin''', # Removed: 'text_encoder/model.safetensors', '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] self.assertFalse(is_safetensors_compatible(__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Optional[int] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" _lowerCamelCase : str = [ '''unet/diffusion_pytorch_model.bin''', '''unet/diffusion_pytorch_model.safetensors''', ] _lowerCamelCase : Optional[Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : Tuple = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', '''unet/diffusion_pytorch_model.fp16.bin''', # Removed: 'unet/diffusion_pytorch_model.fp16.safetensors', ] _lowerCamelCase : Any = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.fp16.bin''', '''text_encoder/model.fp16.safetensors''', ] _lowerCamelCase : str = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : Optional[Any] = [ '''text_encoder/pytorch_model.bin''', '''text_encoder/model.safetensors''', ] _lowerCamelCase : Union[str, Any] = '''fp16''' self.assertTrue(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : int = [ '''safety_checker/pytorch_model.fp16.bin''', '''safety_checker/model.fp16.safetensors''', '''vae/diffusion_pytorch_model.fp16.bin''', '''vae/diffusion_pytorch_model.fp16.safetensors''', '''text_encoder/pytorch_model.fp16.bin''', # 'text_encoder/model.fp16.safetensors', '''unet/diffusion_pytorch_model.fp16.bin''', '''unet/diffusion_pytorch_model.fp16.safetensors''', ] _lowerCamelCase : int = '''fp16''' self.assertFalse(is_safetensors_compatible(__lowerCAmelCase , variant=__lowerCAmelCase ) )

72

0

'''simple docstring''' from typing import List, Optional, Union import torch from ...models import UNetaDConditionModel, VQModel from ...pipelines import DiffusionPipeline from ...pipelines.pipeline_utils import ImagePipelineOutput from ...schedulers import DDPMScheduler from ...utils import ( is_accelerate_available, is_accelerate_version, logging, randn_tensor, replace_example_docstring, ) __lowerCAmelCase = logging.get_logger(__name__) # pylint: disable=invalid-name __lowerCAmelCase = ''' Examples: ```py >>> import torch >>> import numpy as np >>> from diffusers import KandinskyV22PriorPipeline, KandinskyV22ControlnetPipeline >>> from transformers import pipeline >>> from diffusers.utils import load_image >>> def make_hint(image, depth_estimator): ... image = depth_estimator(image)["depth"] ... image = np.array(image) ... image = image[:, :, None] ... image = np.concatenate([image, image, image], axis=2) ... detected_map = torch.from_numpy(image).float() / 255.0 ... hint = detected_map.permute(2, 0, 1) ... return hint >>> depth_estimator = pipeline("depth-estimation") >>> pipe_prior = KandinskyV22PriorPipeline.from_pretrained( ... "kandinsky-community/kandinsky-2-2-prior", torch_dtype=torch.float16 ... ) >>> pipe_prior = pipe_prior.to("cuda") >>> pipe = KandinskyV22ControlnetPipeline.from_pretrained( ... "kandinsky-community/kandinsky-2-2-controlnet-depth", torch_dtype=torch.float16 ... ) >>> pipe = pipe.to("cuda") >>> img = load_image( ... "https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main" ... "/kandinsky/cat.png" ... ).resize((768, 768)) >>> hint = make_hint(img, depth_estimator).unsqueeze(0).half().to("cuda") >>> prompt = "A robot, 4k photo" >>> negative_prior_prompt = "lowres, text, error, cropped, worst quality, low quality, jpeg artifacts, ugly, duplicate, morbid, mutilated, out of frame, extra fingers, mutated hands, poorly drawn hands, poorly drawn face, mutation, deformed, blurry, dehydrated, bad anatomy, bad proportions, extra limbs, cloned face, disfigured, gross proportions, malformed limbs, missing arms, missing legs, extra arms, extra legs, fused fingers, too many fingers, long neck, username, watermark, signature" >>> generator = torch.Generator(device="cuda").manual_seed(43) >>> image_emb, zero_image_emb = pipe_prior( ... prompt=prompt, negative_prompt=negative_prior_prompt, generator=generator ... ).to_tuple() >>> images = pipe( ... image_embeds=image_emb, ... negative_image_embeds=zero_image_emb, ... hint=hint, ... num_inference_steps=50, ... generator=generator, ... height=768, ... width=768, ... ).images >>> images[0].save("robot_cat.png") ``` ''' def __lowerCamelCase ( lowerCAmelCase_ , lowerCAmelCase_ , lowerCAmelCase_=8 ) -> List[str]: _a : List[Any] = height // scale_factor**2 if height % scale_factor**2 != 0: new_height += 1 _a : List[Any] = width // scale_factor**2 if width % scale_factor**2 != 0: new_width += 1 return new_height * scale_factor, new_width * scale_factor class __magic_name__ ( _UpperCamelCase ): def __init__( self : Optional[Any] ,_UpperCAmelCase : UNetaDConditionModel ,_UpperCAmelCase : DDPMScheduler ,_UpperCAmelCase : VQModel ,): super().__init__() self.register_modules( unet=_UpperCAmelCase ,scheduler=_UpperCAmelCase ,movq=_UpperCAmelCase ,) _a : Dict = 2 ** (len(self.movq.config.block_out_channels ) - 1) def __lowercase ( self : int ,_UpperCAmelCase : List[str] ,_UpperCAmelCase : int ,_UpperCAmelCase : Union[str, Any] ,_UpperCAmelCase : Dict ,_UpperCAmelCase : Optional[int] ,_UpperCAmelCase : Tuple ): if latents is None: _a : Union[str, Any] = randn_tensor(_UpperCAmelCase ,generator=_UpperCAmelCase ,device=_UpperCAmelCase ,dtype=_UpperCAmelCase ) else: if latents.shape != shape: raise ValueError(F"""Unexpected latents shape, got {latents.shape}, expected {shape}""" ) _a : Optional[int] = latents.to(_UpperCAmelCase ) _a : str = latents * scheduler.init_noise_sigma return latents def __lowercase ( self : Tuple ,_UpperCAmelCase : int=0 ): if is_accelerate_available(): from accelerate import cpu_offload else: raise ImportError('Please install accelerate via `pip install accelerate`' ) _a : int = torch.device(F"""cuda:{gpu_id}""" ) _a : Optional[Any] = [ self.unet, self.movq, ] for cpu_offloaded_model in models: if cpu_offloaded_model is not None: cpu_offload(_UpperCAmelCase ,_UpperCAmelCase ) def __lowercase ( self : Union[str, Any] ,_UpperCAmelCase : int=0 ): if is_accelerate_available() and is_accelerate_version('>=' ,'0.17.0.dev0' ): from accelerate import cpu_offload_with_hook else: raise ImportError('`enable_model_cpu_offload` requires `accelerate v0.17.0` or higher.' ) _a : Tuple = torch.device(F"""cuda:{gpu_id}""" ) if self.device.type != "cpu": self.to('cpu' ,silence_dtype_warnings=_UpperCAmelCase ) torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist) _a : Optional[Any] = None for cpu_offloaded_model in [self.unet, self.movq]: _a , _a : str = cpu_offload_with_hook(_UpperCAmelCase ,_UpperCAmelCase ,prev_module_hook=_UpperCAmelCase ) # We'll offload the last model manually. _a : List[Any] = hook @property # Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device def __lowercase ( self : int ): if not hasattr(self.unet ,'_hf_hook' ): return self.device for module in self.unet.modules(): if ( hasattr(_UpperCAmelCase ,'_hf_hook' ) and hasattr(module._hf_hook ,'execution_device' ) and module._hf_hook.execution_device is not None ): return torch.device(module._hf_hook.execution_device ) return self.device @torch.no_grad() @replace_example_docstring(_UpperCAmelCase ) def __call__( self : List[Any] ,_UpperCAmelCase : Union[torch.FloatTensor, List[torch.FloatTensor]] ,_UpperCAmelCase : Union[torch.FloatTensor, List[torch.FloatTensor]] ,_UpperCAmelCase : torch.FloatTensor ,_UpperCAmelCase : int = 512 ,_UpperCAmelCase : int = 512 ,_UpperCAmelCase : int = 100 ,_UpperCAmelCase : float = 4.0 ,_UpperCAmelCase : int = 1 ,_UpperCAmelCase : Optional[Union[torch.Generator, List[torch.Generator]]] = None ,_UpperCAmelCase : Optional[torch.FloatTensor] = None ,_UpperCAmelCase : Optional[str] = "pil" ,_UpperCAmelCase : bool = True ,): _a : List[Any] = self._execution_device _a : Tuple = guidance_scale > 1.0 if isinstance(_UpperCAmelCase ,_UpperCAmelCase ): _a : Dict = torch.cat(_UpperCAmelCase ,dim=0 ) if isinstance(_UpperCAmelCase ,_UpperCAmelCase ): _a : Optional[Any] = torch.cat(_UpperCAmelCase ,dim=0 ) if isinstance(_UpperCAmelCase ,_UpperCAmelCase ): _a : Dict = torch.cat(_UpperCAmelCase ,dim=0 ) _a : Optional[int] = image_embeds.shape[0] * num_images_per_prompt if do_classifier_free_guidance: _a : List[Any] = image_embeds.repeat_interleave(_UpperCAmelCase ,dim=0 ) _a : Optional[Any] = negative_image_embeds.repeat_interleave(_UpperCAmelCase ,dim=0 ) _a : str = hint.repeat_interleave(_UpperCAmelCase ,dim=0 ) _a : Optional[int] = torch.cat([negative_image_embeds, image_embeds] ,dim=0 ).to(dtype=self.unet.dtype ,device=_UpperCAmelCase ) _a : Any = torch.cat([hint, hint] ,dim=0 ).to(dtype=self.unet.dtype ,device=_UpperCAmelCase ) self.scheduler.set_timesteps(_UpperCAmelCase ,device=_UpperCAmelCase ) _a : Optional[int] = self.scheduler.timesteps _a : Union[str, Any] = self.movq.config.latent_channels _a , _a : List[Any] = downscale_height_and_width(_UpperCAmelCase ,_UpperCAmelCase ,self.movq_scale_factor ) # create initial latent _a : int = self.prepare_latents( (batch_size, num_channels_latents, height, width) ,image_embeds.dtype ,_UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ,self.scheduler ,) for i, t in enumerate(self.progress_bar(_UpperCAmelCase ) ): # expand the latents if we are doing classifier free guidance _a : Dict = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents _a : Union[str, Any] = {'image_embeds': image_embeds, 'hint': hint} _a : Union[str, Any] = self.unet( sample=_UpperCAmelCase ,timestep=_UpperCAmelCase ,encoder_hidden_states=_UpperCAmelCase ,added_cond_kwargs=_UpperCAmelCase ,return_dict=_UpperCAmelCase ,)[0] if do_classifier_free_guidance: _a , _a : Optional[int] = noise_pred.split(latents.shape[1] ,dim=1 ) _a , _a : List[Any] = noise_pred.chunk(2 ) _a , _a : str = variance_pred.chunk(2 ) _a : Optional[int] = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond) _a : Any = torch.cat([noise_pred, variance_pred_text] ,dim=1 ) if not ( hasattr(self.scheduler.config ,'variance_type' ) and self.scheduler.config.variance_type in ["learned", "learned_range"] ): _a , _a : Any = noise_pred.split(latents.shape[1] ,dim=1 ) # compute the previous noisy sample x_t -> x_t-1 _a : str = self.scheduler.step( _UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ,generator=_UpperCAmelCase ,)[0] # post-processing _a : str = self.movq.decode(_UpperCAmelCase ,force_not_quantize=_UpperCAmelCase )['sample'] if output_type not in ["pt", "np", "pil"]: raise ValueError(F"""Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}""" ) if output_type in ["np", "pil"]: _a : str = image * 0.5 + 0.5 _a : str = image.clamp(0 ,1 ) _a : int = image.cpu().permute(0 ,2 ,3 ,1 ).float().numpy() if output_type == "pil": _a : Optional[Any] = self.numpy_to_pil(_UpperCAmelCase ) if not return_dict: return (image,) return ImagePipelineOutput(images=_UpperCAmelCase )

89

"""simple docstring""" import inspect import unittest import numpy as np from tests.test_modeling_common import floats_tensor from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel if is_vision_available(): from transformers import MaskFormerImageProcessor if is_vision_available(): from PIL import Image class __snake_case : def __init__( self : Tuple , __lowerCAmelCase : Tuple , __lowerCAmelCase : Any=2 , __lowerCAmelCase : Any=True , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Optional[Any]=1_0 , __lowerCAmelCase : List[str]=3 , __lowerCAmelCase : int=3_2 * 4 , __lowerCAmelCase : Dict=3_2 * 6 , __lowerCAmelCase : Any=4 , __lowerCAmelCase : List[str]=3_2 , ): """simple docstring""" _lowerCamelCase : List[str] = parent _lowerCamelCase : str = batch_size _lowerCamelCase : Dict = is_training _lowerCamelCase : str = use_auxiliary_loss _lowerCamelCase : Any = num_queries _lowerCamelCase : List[Any] = num_channels _lowerCamelCase : int = min_size _lowerCamelCase : Any = max_size _lowerCamelCase : int = num_labels _lowerCamelCase : List[str] = mask_feature_size def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size] ).to( __lowerCAmelCase ) _lowerCamelCase : List[Any] = torch.ones([self.batch_size, self.min_size, self.max_size] , device=__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = ( torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=__lowerCAmelCase ) > 0.5 ).float() _lowerCamelCase : Optional[int] = (torch.rand((self.batch_size, self.num_labels) , device=__lowerCAmelCase ) > 0.5).long() _lowerCamelCase : Dict = self.get_config() return config, pixel_values, pixel_mask, mask_labels, class_labels def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" return MaskFormerConfig.from_backbone_and_decoder_configs( backbone_config=SwinConfig( depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig( decoder_ffn_dim=1_2_8 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : Dict = self.prepare_config_and_inputs() _lowerCamelCase : List[str] = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask} return config, inputs_dict def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[int] ): """simple docstring""" _lowerCamelCase : List[str] = output.encoder_hidden_states _lowerCamelCase : Tuple = output.pixel_decoder_hidden_states _lowerCamelCase : Dict = output.transformer_decoder_hidden_states self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , len(config.backbone_config.depths ) ) self.parent.assertTrue(len(__lowerCAmelCase ) , config.decoder_config.decoder_layers ) def SCREAMING_SNAKE_CASE ( self : Tuple , __lowerCAmelCase : Dict , __lowerCAmelCase : str , __lowerCAmelCase : Tuple , __lowerCAmelCase : List[Any]=False ): """simple docstring""" with torch.no_grad(): _lowerCamelCase : Optional[int] = MaskFormerModel(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() _lowerCamelCase : Tuple = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : List[str] = model(__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) # the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the # encoder and pixel decoder self.parent.assertEqual( output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , ) # let's ensure the other two hidden state exists self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(output.encoder_last_hidden_state is not None ) if output_hidden_states: self.check_output_hidden_state(__lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Dict , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] , __lowerCAmelCase : Optional[Any] , __lowerCAmelCase : Any , __lowerCAmelCase : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = MaskFormerForInstanceSegmentation(config=__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.eval() def comm_check_on_output(__lowerCAmelCase : Dict ): # let's still check that all the required stuff is there self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None ) self.parent.assertTrue(result.encoder_last_hidden_state is not None ) # okay, now we need to check the logits shape # due to the encoder compression, masks have a //4 spatial size self.parent.assertEqual( result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , ) # + 1 for null class self.parent.assertEqual( result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1) ) with torch.no_grad(): _lowerCamelCase : str = model(pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase ) _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) _lowerCamelCase : List[str] = model( pixel_values=__lowerCAmelCase , pixel_mask=__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) comm_check_on_output(__lowerCAmelCase ) self.parent.assertTrue(result.loss is not None ) self.parent.assertEqual(result.loss.shape , torch.Size([1] ) ) @require_torch class __snake_case ( _lowercase , _lowercase , unittest.TestCase): snake_case__ : Dict = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else () snake_case__ : Any = ( {"feature-extraction": MaskFormerModel, "image-segmentation": MaskFormerForInstanceSegmentation} if is_torch_available() else {} ) snake_case__ : List[str] = False snake_case__ : List[str] = False snake_case__ : Optional[int] = False snake_case__ : Dict = False def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" _lowerCamelCase : Optional[int] = MaskFormerModelTester(self ) _lowerCamelCase : Optional[Any] = ConfigTester(self , config_class=__lowerCAmelCase , has_text_modality=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Dict = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , **__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(*__lowerCAmelCase ) @unittest.skip(reason='''MaskFormer does not use inputs_embeds''' ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''' ) def SCREAMING_SNAKE_CASE ( self : Dict ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer is not a generative model''' ) def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" pass @unittest.skip(reason='''MaskFormer does not use token embeddings''' ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" pass @require_torch_multi_gpu @unittest.skip( reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''' ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" pass @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def SCREAMING_SNAKE_CASE ( self : List[Any] ): """simple docstring""" pass def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : str = model_class(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCamelCase : Dict = [*signature.parameters.keys()] _lowerCamelCase : Optional[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __lowerCAmelCase ) @slow def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" for model_name in ["facebook/maskformer-swin-small-coco"]: _lowerCamelCase : Union[str, Any] = MaskFormerModel.from_pretrained(__lowerCAmelCase ) self.assertIsNotNone(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = (self.model_tester.min_size,) * 2 _lowerCamelCase : Union[str, Any] = { '''pixel_values''': torch.randn((2, 3, *size) , device=__lowerCAmelCase ), '''mask_labels''': torch.randn((2, 1_0, *size) , device=__lowerCAmelCase ), '''class_labels''': torch.zeros(2 , 1_0 , device=__lowerCAmelCase ).long(), } _lowerCamelCase : int = MaskFormerForInstanceSegmentation(MaskFormerConfig() ).to(__lowerCAmelCase ) _lowerCamelCase : Union[str, Any] = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None ) def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : List[str] = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.create_and_check_maskformer_model(__lowerCAmelCase , **__lowerCAmelCase , output_hidden_states=__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase , _lowerCamelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCamelCase : List[Any] = model_class(__lowerCAmelCase ).to(__lowerCAmelCase ) _lowerCamelCase : List[str] = model(**__lowerCAmelCase , output_attentions=__lowerCAmelCase ) self.assertTrue(outputs.attentions is not None ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" if not self.model_tester.is_training: return # only MaskFormerForInstanceSegmentation has the loss _lowerCamelCase : Union[str, Any] = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : int = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : Any = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : List[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ).loss loss.backward() def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : int = self.all_model_classes[1] _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase : str = self.model_tester.prepare_config_and_inputs() _lowerCamelCase : List[str] = True _lowerCamelCase : Optional[int] = True _lowerCamelCase : Optional[Any] = model_class(__lowerCAmelCase ) model.to(__lowerCAmelCase ) model.train() _lowerCamelCase : Optional[Any] = model(__lowerCAmelCase , mask_labels=__lowerCAmelCase , class_labels=__lowerCAmelCase ) _lowerCamelCase : List[Any] = outputs.encoder_hidden_states[0] encoder_hidden_states.retain_grad() _lowerCamelCase : Tuple = outputs.pixel_decoder_hidden_states[0] pixel_decoder_hidden_states.retain_grad() # we requires_grad=True in inputs_embeds (line 2152), the original implementation don't _lowerCamelCase : List[str] = outputs.transformer_decoder_hidden_states[0] transformer_decoder_hidden_states.retain_grad() _lowerCamelCase : Optional[int] = outputs.attentions[0] attentions.retain_grad() outputs.loss.backward(retain_graph=__lowerCAmelCase ) self.assertIsNotNone(encoder_hidden_states.grad ) self.assertIsNotNone(pixel_decoder_hidden_states.grad ) self.assertIsNotNone(transformer_decoder_hidden_states.grad ) self.assertIsNotNone(attentions.grad ) lowerCAmelCase__ = 1E-4 def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_vision @slow class __snake_case ( unittest.TestCase): @cached_property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return ( MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''' ) if is_vision_available() else None ) def SCREAMING_SNAKE_CASE ( self : Tuple ): """simple docstring""" _lowerCamelCase : str = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = self.default_image_processor _lowerCamelCase : List[Any] = prepare_img() _lowerCamelCase : Any = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : Any = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : int = model(**__lowerCAmelCase ) _lowerCamelCase : str = torch.tensor( [[-0.04_82, 0.92_28, 0.49_51], [-0.25_47, 0.80_17, 0.85_27], [-0.00_69, 0.33_85, -0.00_89]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.encoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Union[str, Any] = torch.tensor( [[-0.84_22, -0.84_34, -0.97_18], [-1.01_44, -0.55_65, -0.41_95], [-1.00_38, -0.44_84, -0.19_61]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) _lowerCamelCase : Optional[int] = torch.tensor( [[0.28_52, -0.01_59, 0.97_35], [0.62_54, 0.18_58, 0.85_29], [-0.06_80, -0.41_16, 1.84_13]] ).to(__lowerCAmelCase ) self.assertTrue( torch.allclose( outputs.transformer_decoder_last_hidden_state[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : str ): """simple docstring""" _lowerCamelCase : Optional[int] = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : str = prepare_img() _lowerCamelCase : int = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : str = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[int] = model(**__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : Optional[int] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : List[str] = [ [-1.3_73_71_24, -1.7_72_49_37, -1.9_36_42_33], [-1.5_97_72_81, -1.9_86_79_39, -2.1_52_36_95], [-1.5_79_53_98, -1.9_26_98_32, -2.09_39_42], ] _lowerCamelCase : Any = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : List[Any] = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : str = torch.tensor( [ [1.6512E00, -5.2572E00, -3.3519E00], [3.6169E-02, -5.9025E00, -2.9313E00], [1.0766E-04, -7.7630E00, -5.1263E00], ] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" _lowerCamelCase : Any = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : Tuple = self.default_image_processor _lowerCamelCase : Tuple = prepare_img() _lowerCamelCase : Optional[Any] = image_processor(__lowerCAmelCase , return_tensors='''pt''' ).to(__lowerCAmelCase ) _lowerCamelCase : List[Any] = inputs['''pixel_values'''].shape # check size is divisible by 32 self.assertTrue((inputs_shape[-1] % 3_2) == 0 and (inputs_shape[-2] % 3_2) == 0 ) # check size self.assertEqual(__lowerCAmelCase , (1, 3, 8_0_0, 1_0_8_8) ) with torch.no_grad(): _lowerCamelCase : Optional[Any] = model(**__lowerCAmelCase ) # masks_queries_logits _lowerCamelCase : List[Any] = outputs.masks_queries_logits self.assertEqual( masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , ) _lowerCamelCase : int = [[-0.90_46, -2.63_66, -4.60_62], [-3.41_79, -5.78_90, -8.80_57], [-4.91_79, -7.65_60, -10.77_11]] _lowerCamelCase : List[Any] = torch.tensor(__lowerCAmelCase ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) # class_queries_logits _lowerCamelCase : Dict = outputs.class_queries_logits self.assertEqual( class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1) ) _lowerCamelCase : Any = torch.tensor( [[4.71_88, -3.25_85, -2.88_57], [6.68_71, -2.91_81, -1.24_87], [7.24_49, -2.27_64, -2.18_74]] ).to(__lowerCAmelCase ) self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , __lowerCAmelCase , atol=__lowerCAmelCase ) ) def SCREAMING_SNAKE_CASE ( self : Union[str, Any] ): """simple docstring""" _lowerCamelCase : str = ( MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''' ) .to(__lowerCAmelCase ) .eval() ) _lowerCamelCase : int = self.default_image_processor _lowerCamelCase : List[str] = image_processor( [np.zeros((3, 8_0_0, 1_3_3_3) ), np.zeros((3, 8_0_0, 1_3_3_3) )] , segmentation_maps=[np.zeros((3_8_4, 3_8_4) ).astype(np.floataa ), np.zeros((3_8_4, 3_8_4) ).astype(np.floataa )] , return_tensors='''pt''' , ) _lowerCamelCase : Union[str, Any] = inputs['''pixel_values'''].to(__lowerCAmelCase ) _lowerCamelCase : Dict = [el.to(__lowerCAmelCase ) for el in inputs['''mask_labels''']] _lowerCamelCase : Optional[Any] = [el.to(__lowerCAmelCase ) for el in inputs['''class_labels''']] with torch.no_grad(): _lowerCamelCase : Tuple = model(**__lowerCAmelCase ) self.assertTrue(outputs.loss is not None )

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import unittest from transformers import SPIECE_UNDERLINE, XLNetTokenizer, XLNetTokenizerFast from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow from ...test_tokenization_common import TokenizerTesterMixin __A = get_tests_dir("fixtures/test_sentencepiece.model") @require_sentencepiece @require_tokenizers class __lowerCAmelCase ( __magic_name__ , unittest.TestCase ): """simple docstring""" snake_case_ = XLNetTokenizer snake_case_ = XLNetTokenizerFast snake_case_ = True snake_case_ = True def lowercase_ ( self ) -> Union[str, Any]: '''simple docstring''' super().setUp() # We have a SentencePiece fixture for testing __lowerCamelCase = XLNetTokenizer(lowerCamelCase__ , keep_accents=lowerCamelCase__ ) tokenizer.sanitize_special_tokens() tokenizer.save_pretrained(self.tmpdirname ) def lowercase_ ( self ) -> Union[str, Any]: '''simple docstring''' __lowerCamelCase = '<s>' __lowerCamelCase = 1 self.assertEqual(self.get_tokenizer()._convert_token_to_id(lowerCamelCase__ ) , lowerCamelCase__ ) self.assertEqual(self.get_tokenizer()._convert_id_to_token(lowerCamelCase__ ) , lowerCamelCase__ ) def lowercase_ ( self ) -> str: '''simple docstring''' __lowerCamelCase = list(self.get_tokenizer().get_vocab().keys() ) self.assertEqual(vocab_keys[0] , '<unk>' ) self.assertEqual(vocab_keys[1] , '<s>' ) self.assertEqual(vocab_keys[-1] , '<eod>' ) self.assertEqual(len(lowerCamelCase__ ) , 1_006 ) def lowercase_ ( self ) -> Tuple: '''simple docstring''' self.assertEqual(self.get_tokenizer().vocab_size , 1_000 ) def lowercase_ ( self ) -> List[str]: '''simple docstring''' __lowerCamelCase = XLNetTokenizer(lowerCamelCase__ , keep_accents=lowerCamelCase__ ) __lowerCamelCase = tokenizer.tokenize('This is a test' ) self.assertListEqual(lowerCamelCase__ , ['▁This', '▁is', '▁a', '▁t', 'est'] ) self.assertListEqual(tokenizer.convert_tokens_to_ids(lowerCamelCase__ ) , [285, 46, 10, 170, 382] ) __lowerCamelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' ) self.assertListEqual( lowerCamelCase__ , [ SPIECE_UNDERLINE + 'I', SPIECE_UNDERLINE + 'was', SPIECE_UNDERLINE + 'b', 'or', 'n', SPIECE_UNDERLINE + 'in', SPIECE_UNDERLINE + '', '9', '2', '0', '0', '0', ',', SPIECE_UNDERLINE + 'and', SPIECE_UNDERLINE + 'this', SPIECE_UNDERLINE + 'is', SPIECE_UNDERLINE + 'f', 'al', 's', 'é', '.', ] , ) __lowerCamelCase = tokenizer.convert_tokens_to_ids(lowerCamelCase__ ) self.assertListEqual(lowerCamelCase__ , [8, 21, 84, 55, 24, 19, 7, 0, 602, 347, 347, 347, 3, 12, 66, 46, 72, 80, 6, 0, 4] ) __lowerCamelCase = tokenizer.convert_ids_to_tokens(lowerCamelCase__ ) self.assertListEqual( lowerCamelCase__ , [ SPIECE_UNDERLINE + 'I', SPIECE_UNDERLINE + 'was', SPIECE_UNDERLINE + 'b', 'or', 'n', SPIECE_UNDERLINE + 'in', SPIECE_UNDERLINE + '', '<unk>', '2', '0', '0', '0', ',', SPIECE_UNDERLINE + 'and', SPIECE_UNDERLINE + 'this', SPIECE_UNDERLINE + 'is', SPIECE_UNDERLINE + 'f', 'al', 's', '<unk>', '.', ] , ) def lowercase_ ( self ) -> Tuple: '''simple docstring''' __lowerCamelCase = XLNetTokenizer(lowerCamelCase__ , do_lower_case=lowerCamelCase__ ) __lowerCamelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' ) self.assertListEqual( lowerCamelCase__ , [ SPIECE_UNDERLINE + '', 'i', SPIECE_UNDERLINE + 'was', SPIECE_UNDERLINE + 'b', 'or', 'n', SPIECE_UNDERLINE + 'in', SPIECE_UNDERLINE + '', '9', '2', '0', '0', '0', ',', SPIECE_UNDERLINE + 'and', SPIECE_UNDERLINE + 'this', SPIECE_UNDERLINE + 'is', SPIECE_UNDERLINE + 'f', 'al', 'se', '.', ] , ) self.assertListEqual(tokenizer.tokenize('H\u00E9llo' ) , ['▁he', 'll', 'o'] ) def lowercase_ ( self ) -> Optional[Any]: '''simple docstring''' __lowerCamelCase = XLNetTokenizer(lowerCamelCase__ , do_lower_case=lowerCamelCase__ ) __lowerCamelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' ) self.assertListEqual( lowerCamelCase__ , [ SPIECE_UNDERLINE + 'I', SPIECE_UNDERLINE + 'was', SPIECE_UNDERLINE + 'b', 'or', 'n', SPIECE_UNDERLINE + 'in', SPIECE_UNDERLINE + '', '9', '2', '0', '0', '0', ',', SPIECE_UNDERLINE + 'and', SPIECE_UNDERLINE + 'this', SPIECE_UNDERLINE + 'is', SPIECE_UNDERLINE + 'f', 'al', 'se', '.', ] , ) @slow def lowercase_ ( self ) -> List[Any]: '''simple docstring''' __lowerCamelCase = XLNetTokenizer.from_pretrained('xlnet-base-cased' ) __lowerCamelCase = tokenizer.encode('sequence builders' , add_special_tokens=lowerCamelCase__ ) __lowerCamelCase = tokenizer.encode('multi-sequence build' , add_special_tokens=lowerCamelCase__ ) __lowerCamelCase = tokenizer.build_inputs_with_special_tokens(lowerCamelCase__ ) __lowerCamelCase = tokenizer.build_inputs_with_special_tokens(lowerCamelCase__ , lowerCamelCase__ ) assert encoded_sentence == text + [4, 3] assert encoded_pair == text + [4] + text_a + [4, 3] @slow def lowercase_ ( self ) -> str: '''simple docstring''' # fmt: off __lowerCamelCase = {'input_ids': [[17, 21_442, 270, 17, 10, 14_645, 318, 34, 17, 4_546, 3_145, 787, 13, 7_752, 22_018, 23, 21, 17, 4_546, 3_145, 787, 13, 3_352, 14_431, 13, 5_500, 11, 1_176, 580, 13, 16_819, 4_797, 23, 17, 10, 17_135, 658, 19, 457, 7_932, 13, 184, 19, 3_154, 17_135, 6_468, 19, 1_404, 12_269, 19, 4_229, 5_356, 16_264, 46, 19, 17, 20_545, 10_395, 9, 9, 9, 11, 28, 6_421, 9_531, 20_729, 17, 10, 353, 17_022, 11, 21, 6_421, 9_531, 16_949, 17, 10, 11_509, 753, 11, 33, 95, 2_421, 7_385, 956, 14_431, 2_626, 25, 842, 7_385, 4_836, 21, 1_429, 2_272, 9_855, 3_120, 161, 24_738, 19, 13_203, 658, 218, 787, 21, 430, 18_482, 847, 2_637, 9, 4, 3], [5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 322, 22_178, 27, 1_064, 22, 956, 13, 11_101, 1_429, 5_854, 24_313, 18_953, 40, 422, 24_366, 68, 1_758, 37, 10_483, 14_257, 31, 207, 263, 21, 203, 3_773, 25, 71, 9_735, 9, 4, 3], [5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 32, 2_049, 3_442, 17, 13_894, 3_380, 23, 95, 18, 17_634, 2_288, 9, 4, 3]], 'token_type_ids': [[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2], [3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2], [3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2]], 'attention_mask': [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]]} # noqa: E501 # fmt: on self.tokenizer_integration_test_util( expected_encoding=lowerCamelCase__ , model_name='xlnet-base-cased' , revision='c841166438c31ec7ca9a106dee7bb312b73ae511' , )

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"""simple docstring""" lowerCAmelCase__ = { '''A''': ['''B''', '''C''', '''E'''], '''B''': ['''A''', '''D''', '''E'''], '''C''': ['''A''', '''F''', '''G'''], '''D''': ['''B'''], '''E''': ['''A''', '''B''', '''D'''], '''F''': ['''C'''], '''G''': ['''C'''], } def snake_case_ ( A_ : dict, A_ : int, A_ : int ): '''simple docstring''' _lowerCamelCase : List[str] = set() # keep track of all the paths to be checked _lowerCamelCase : str = [[start]] # return path if start is goal if start == goal: return [start] # keeps looping until all possible paths have been checked while queue: # pop the first path from the queue _lowerCamelCase : str = queue.pop(0 ) # get the last node from the path _lowerCamelCase : List[Any] = path[-1] if node not in explored: _lowerCamelCase : Union[str, Any] = graph[node] # go through all neighbour nodes, construct a new path and # push it into the queue for neighbour in neighbours: _lowerCamelCase : Union[str, Any] = list(A_ ) new_path.append(A_ ) queue.append(A_ ) # return path if neighbour is goal if neighbour == goal: return new_path # mark node as explored explored.add(A_ ) # in case there's no path between the 2 nodes return [] def snake_case_ ( A_ : dict, A_ : int, A_ : Dict ): '''simple docstring''' if not graph or start not in graph or target not in graph: return -1 if start == target: return 0 _lowerCamelCase : Optional[int] = [start] _lowerCamelCase : int = set(A_ ) # Keep tab on distances from `start` node. _lowerCamelCase : int = {start: 0, target: -1} while queue: _lowerCamelCase : Optional[Any] = queue.pop(0 ) if node == target: _lowerCamelCase : Any = ( dist[node] if dist[target] == -1 else min(dist[target], dist[node] ) ) for adjacent in graph[node]: if adjacent not in visited: visited.add(A_ ) queue.append(A_ ) _lowerCamelCase : Any = dist[node] + 1 return dist[target] if __name__ == "__main__": print(bfs_shortest_path(demo_graph, '''G''', '''D''')) # returns ['G', 'C', 'A', 'B', 'D'] print(bfs_shortest_path_distance(demo_graph, '''G''', '''D''')) # returns 4

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"""simple docstring""" def _A (__a ) -> list: """simple docstring""" if len(__a ) < 2: return collection def circle_sort_util(__a , __a , __a ) -> bool: SCREAMING_SNAKE_CASE_ : Tuple = False if low == high: return swapped SCREAMING_SNAKE_CASE_ : Any = low SCREAMING_SNAKE_CASE_ : List[Any] = high while left < right: if collection[left] > collection[right]: SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ : List[Any] = ( collection[right], collection[left], ) SCREAMING_SNAKE_CASE_ : str = True left += 1 right -= 1 if left == right and collection[left] > collection[right + 1]: SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ : Optional[int] = ( collection[right + 1], collection[left], ) SCREAMING_SNAKE_CASE_ : List[Any] = True SCREAMING_SNAKE_CASE_ : Optional[Any] = low + int((high - low) / 2 ) SCREAMING_SNAKE_CASE_ : Optional[int] = circle_sort_util(__a , __a , __a ) SCREAMING_SNAKE_CASE_ : Optional[int] = circle_sort_util(__a , mid + 1 , __a ) return swapped or left_swap or right_swap SCREAMING_SNAKE_CASE_ : str = True while is_not_sorted is True: SCREAMING_SNAKE_CASE_ : Union[str, Any] = circle_sort_util(__a , 0 , len(__a ) - 1 ) return collection if __name__ == "__main__": UpperCAmelCase_ : int = input("""Enter numbers separated by a comma:\n""").strip() UpperCAmelCase_ : Tuple = [int(item) for item in user_input.split(""",""")] print(circle_sort(unsorted))

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"""simple docstring""" import argparse import torch from transformers import LxmertConfig, LxmertForPreTraining, load_tf_weights_in_lxmert from transformers.utils import logging logging.set_verbosity_info() def snake_case_ ( A_ : Tuple, A_ : int, A_ : Dict ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = LxmertConfig.from_json_file(A_ ) print(F'''Building PyTorch model from configuration: {config}''' ) _lowerCamelCase : List[str] = LxmertForPreTraining(A_ ) # Load weights from tf checkpoint load_tf_weights_in_lxmert(A_, A_, A_ ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) torch.save(model.state_dict(), A_ ) if __name__ == "__main__": lowerCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained model. \nThis specifies the model architecture.''', ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) lowerCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)

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import importlib import sys from argparse import REMAINDER, ArgumentParser from pathlib import Path import torch_xla.distributed.xla_multiprocessing as xmp def _a ( ): __lowerCAmelCase = ArgumentParser( description=( "PyTorch TPU distributed training launch " "helper utility that will spawn up " "multiple distributed processes" ) ) # Optional arguments for the launch helper parser.add_argument("--num_cores" , type=SCREAMING_SNAKE_CASE_ , default=1 , help="Number of TPU cores to use (1 or 8)." ) # positional parser.add_argument( "training_script" , type=SCREAMING_SNAKE_CASE_ , help=( "The full path to the single TPU training " "program/script to be launched in parallel, " "followed by all the arguments for the " "training script" ) , ) # rest from the training program parser.add_argument("training_script_args" , nargs=SCREAMING_SNAKE_CASE_ ) return parser.parse_args() def _a ( ): __lowerCAmelCase = parse_args() # Import training_script as a module. __lowerCAmelCase = Path(args.training_script ) sys.path.append(str(script_fpath.parent.resolve() ) ) __lowerCAmelCase = script_fpath.stem __lowerCAmelCase = importlib.import_module(SCREAMING_SNAKE_CASE_ ) # Patch sys.argv __lowerCAmelCase = [args.training_script] + args.training_script_args + ["--tpu_num_cores", str(args.num_cores )] xmp.spawn(mod._mp_fn , args=() , nprocs=args.num_cores ) if __name__ == "__main__": main()

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"""simple docstring""" from collections import defaultdict from graphs.minimum_spanning_tree_prims import prisms_algorithm as mst def snake_case_ ( ): '''simple docstring''' _lowerCamelCase , _lowerCamelCase : int = 9, 14 # noqa: F841 _lowerCamelCase : List[Any] = [ [0, 1, 4], [0, 7, 8], [1, 2, 8], [7, 8, 7], [7, 6, 1], [2, 8, 2], [8, 6, 6], [2, 3, 7], [2, 5, 4], [6, 5, 2], [3, 5, 14], [3, 4, 9], [5, 4, 10], [1, 7, 11], ] _lowerCamelCase : Any = defaultdict(A_ ) for nodea, nodea, cost in edges: adjancency[nodea].append([nodea, cost] ) adjancency[nodea].append([nodea, cost] ) _lowerCamelCase : List[str] = mst(A_ ) _lowerCamelCase : Optional[int] = [ [7, 6, 1], [2, 8, 2], [6, 5, 2], [0, 1, 4], [2, 5, 4], [2, 3, 7], [0, 7, 8], [3, 4, 9], ] for answer in expected: _lowerCamelCase : int = tuple(answer[:2] ) _lowerCamelCase : int = tuple(edge[::-1] ) assert edge in result or reverse in result

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'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_roberta import RobertaTokenizer _lowercase : Tuple = logging.get_logger(__name__) _lowercase : Dict = {"vocab_file": "vocab.json", "merges_file": "merges.txt", "tokenizer_file": "tokenizer.json"} _lowercase : Union[str, Any] = { "vocab_file": { "roberta-base": "https://huggingface.co/roberta-base/resolve/main/vocab.json", "roberta-large": "https://huggingface.co/roberta-large/resolve/main/vocab.json", "roberta-large-mnli": "https://huggingface.co/roberta-large-mnli/resolve/main/vocab.json", "distilroberta-base": "https://huggingface.co/distilroberta-base/resolve/main/vocab.json", "roberta-base-openai-detector": "https://huggingface.co/roberta-base-openai-detector/resolve/main/vocab.json", "roberta-large-openai-detector": ( "https://huggingface.co/roberta-large-openai-detector/resolve/main/vocab.json" ), }, "merges_file": { "roberta-base": "https://huggingface.co/roberta-base/resolve/main/merges.txt", "roberta-large": "https://huggingface.co/roberta-large/resolve/main/merges.txt", "roberta-large-mnli": "https://huggingface.co/roberta-large-mnli/resolve/main/merges.txt", "distilroberta-base": "https://huggingface.co/distilroberta-base/resolve/main/merges.txt", "roberta-base-openai-detector": "https://huggingface.co/roberta-base-openai-detector/resolve/main/merges.txt", "roberta-large-openai-detector": ( "https://huggingface.co/roberta-large-openai-detector/resolve/main/merges.txt" ), }, "tokenizer_file": { "roberta-base": "https://huggingface.co/roberta-base/resolve/main/tokenizer.json", "roberta-large": "https://huggingface.co/roberta-large/resolve/main/tokenizer.json", "roberta-large-mnli": "https://huggingface.co/roberta-large-mnli/resolve/main/tokenizer.json", "distilroberta-base": "https://huggingface.co/distilroberta-base/resolve/main/tokenizer.json", "roberta-base-openai-detector": ( "https://huggingface.co/roberta-base-openai-detector/resolve/main/tokenizer.json" ), "roberta-large-openai-detector": ( "https://huggingface.co/roberta-large-openai-detector/resolve/main/tokenizer.json" ), }, } _lowercase : Union[str, Any] = { "roberta-base": 5_1_2, "roberta-large": 5_1_2, "roberta-large-mnli": 5_1_2, "distilroberta-base": 5_1_2, "roberta-base-openai-detector": 5_1_2, "roberta-large-openai-detector": 5_1_2, } class lowerCAmelCase__ ( lowerCamelCase_ ): lowerCAmelCase_ = VOCAB_FILES_NAMES lowerCAmelCase_ = PRETRAINED_VOCAB_FILES_MAP lowerCAmelCase_ = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES lowerCAmelCase_ = ['''input_ids''', '''attention_mask'''] lowerCAmelCase_ = RobertaTokenizer def __init__( self , __SCREAMING_SNAKE_CASE=None , __SCREAMING_SNAKE_CASE=None , __SCREAMING_SNAKE_CASE=None , __SCREAMING_SNAKE_CASE="replace" , __SCREAMING_SNAKE_CASE="<s>" , __SCREAMING_SNAKE_CASE="</s>" , __SCREAMING_SNAKE_CASE="</s>" , __SCREAMING_SNAKE_CASE="<s>" , __SCREAMING_SNAKE_CASE="<unk>" , __SCREAMING_SNAKE_CASE="<pad>" , __SCREAMING_SNAKE_CASE="<mask>" , __SCREAMING_SNAKE_CASE=False , __SCREAMING_SNAKE_CASE=True , **__SCREAMING_SNAKE_CASE , ): """simple docstring""" super().__init__( __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , tokenizer_file=__SCREAMING_SNAKE_CASE , errors=__SCREAMING_SNAKE_CASE , bos_token=__SCREAMING_SNAKE_CASE , eos_token=__SCREAMING_SNAKE_CASE , sep_token=__SCREAMING_SNAKE_CASE , cls_token=__SCREAMING_SNAKE_CASE , unk_token=__SCREAMING_SNAKE_CASE , pad_token=__SCREAMING_SNAKE_CASE , mask_token=__SCREAMING_SNAKE_CASE , add_prefix_space=__SCREAMING_SNAKE_CASE , trim_offsets=__SCREAMING_SNAKE_CASE , **__SCREAMING_SNAKE_CASE , ) lowercase_ : List[str] = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __SCREAMING_SNAKE_CASE ) != add_prefix_space: lowercase_ : Optional[int] = getattr(__SCREAMING_SNAKE_CASE , pre_tok_state.pop('''type''' ) ) lowercase_ : Dict = add_prefix_space lowercase_ : Optional[int] = pre_tok_class(**__SCREAMING_SNAKE_CASE ) lowercase_ : List[Any] = add_prefix_space lowercase_ : Tuple = '''post_processor''' lowercase_ : Any = getattr(self.backend_tokenizer , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) if tokenizer_component_instance: lowercase_ : str = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: lowercase_ : List[str] = tuple(state['''sep'''] ) if "cls" in state: lowercase_ : List[str] = tuple(state['''cls'''] ) lowercase_ : List[Any] = False if state.get('''add_prefix_space''' , __SCREAMING_SNAKE_CASE ) != add_prefix_space: lowercase_ : int = add_prefix_space lowercase_ : Optional[int] = True if state.get('''trim_offsets''' , __SCREAMING_SNAKE_CASE ) != trim_offsets: lowercase_ : Tuple = trim_offsets lowercase_ : int = True if changes_to_apply: lowercase_ : Tuple = getattr(__SCREAMING_SNAKE_CASE , state.pop('''type''' ) ) lowercase_ : Optional[Any] = component_class(**__SCREAMING_SNAKE_CASE ) setattr(self.backend_tokenizer , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) @property def _snake_case ( self ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def _snake_case ( self , __SCREAMING_SNAKE_CASE ): """simple docstring""" lowercase_ : List[Any] = AddedToken(__SCREAMING_SNAKE_CASE , lstrip=__SCREAMING_SNAKE_CASE , rstrip=__SCREAMING_SNAKE_CASE ) if isinstance(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) else value lowercase_ : Union[str, Any] = value def _snake_case ( self , *__SCREAMING_SNAKE_CASE , **__SCREAMING_SNAKE_CASE ): """simple docstring""" lowercase_ : Optional[Any] = kwargs.get('''is_split_into_words''' , __SCREAMING_SNAKE_CASE ) assert self.add_prefix_space or not is_split_into_words, ( F'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' "to use it with pretokenized inputs." ) return super()._batch_encode_plus(*__SCREAMING_SNAKE_CASE , **__SCREAMING_SNAKE_CASE ) def _snake_case ( self , *__SCREAMING_SNAKE_CASE , **__SCREAMING_SNAKE_CASE ): """simple docstring""" lowercase_ : Tuple = kwargs.get('''is_split_into_words''' , __SCREAMING_SNAKE_CASE ) assert self.add_prefix_space or not is_split_into_words, ( F'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' "to use it with pretokenized inputs." ) return super()._encode_plus(*__SCREAMING_SNAKE_CASE , **__SCREAMING_SNAKE_CASE ) def _snake_case ( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE = None ): """simple docstring""" lowercase_ : Optional[Any] = self._tokenizer.model.save(__SCREAMING_SNAKE_CASE , name=__SCREAMING_SNAKE_CASE ) return tuple(__SCREAMING_SNAKE_CASE ) def _snake_case ( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE=None ): """simple docstring""" lowercase_ : List[str] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def _snake_case ( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE = None ): """simple docstring""" lowercase_ : Optional[int] = [self.sep_token_id] lowercase_ : int = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]

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"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt''', '''tokenizer_file''': '''tokenizer.json'''} # See all BART models at https://huggingface.co/models?filter=bart lowerCAmelCase__ = { '''vocab_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/vocab.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/vocab.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json''', }, '''merges_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/merges.txt''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/merges.txt''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt''', }, '''tokenizer_file''': { '''facebook/bart-base''': '''https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json''', '''facebook/bart-large''': '''https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json''', '''facebook/bart-large-mnli''': '''https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json''', '''facebook/bart-large-cnn''': '''https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json''', '''facebook/bart-large-xsum''': '''https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json''', '''yjernite/bart_eli5''': '''https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1024, '''facebook/bart-large''': 1024, '''facebook/bart-large-mnli''': 1024, '''facebook/bart-large-cnn''': 1024, '''facebook/bart-large-xsum''': 1024, '''yjernite/bart_eli5''': 1024, } class __snake_case ( _lowercase): snake_case__ : Any = VOCAB_FILES_NAMES snake_case__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP snake_case__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES snake_case__ : Optional[int] = ["input_ids", "attention_mask"] snake_case__ : Any = BartTokenizer def __init__( self : int , __lowerCAmelCase : Dict=None , __lowerCAmelCase : int=None , __lowerCAmelCase : Dict=None , __lowerCAmelCase : List[Any]="replace" , __lowerCAmelCase : Any="<s>" , __lowerCAmelCase : Optional[int]="</s>" , __lowerCAmelCase : str="</s>" , __lowerCAmelCase : Dict="<s>" , __lowerCAmelCase : Union[str, Any]="<unk>" , __lowerCAmelCase : Any="<pad>" , __lowerCAmelCase : Optional[Any]="<mask>" , __lowerCAmelCase : Optional[Any]=False , __lowerCAmelCase : Dict=True , **__lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__( __lowerCAmelCase , __lowerCAmelCase , tokenizer_file=__lowerCAmelCase , errors=__lowerCAmelCase , bos_token=__lowerCAmelCase , eos_token=__lowerCAmelCase , sep_token=__lowerCAmelCase , cls_token=__lowerCAmelCase , unk_token=__lowerCAmelCase , pad_token=__lowerCAmelCase , mask_token=__lowerCAmelCase , add_prefix_space=__lowerCAmelCase , trim_offsets=__lowerCAmelCase , **__lowerCAmelCase , ) _lowerCamelCase : Tuple = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = getattr(__lowerCAmelCase , pre_tok_state.pop('''type''' ) ) _lowerCamelCase : Any = add_prefix_space _lowerCamelCase : int = pre_tok_class(**__lowerCAmelCase ) _lowerCamelCase : Optional[int] = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _lowerCamelCase : List[str] = '''post_processor''' _lowerCamelCase : List[str] = getattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) if tokenizer_component_instance: _lowerCamelCase : int = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _lowerCamelCase : Tuple = tuple(state['''sep'''] ) if "cls" in state: _lowerCamelCase : int = tuple(state['''cls'''] ) _lowerCamelCase : Union[str, Any] = False if state.get('''add_prefix_space''' , __lowerCAmelCase ) != add_prefix_space: _lowerCamelCase : Dict = add_prefix_space _lowerCamelCase : Optional[Any] = True if state.get('''trim_offsets''' , __lowerCAmelCase ) != trim_offsets: _lowerCamelCase : Any = trim_offsets _lowerCamelCase : str = True if changes_to_apply: _lowerCamelCase : List[str] = getattr(__lowerCAmelCase , state.pop('''type''' ) ) _lowerCamelCase : str = component_class(**__lowerCAmelCase ) setattr(self.backend_tokenizer , __lowerCAmelCase , __lowerCAmelCase ) @property def SCREAMING_SNAKE_CASE ( self : Optional[int] ): """simple docstring""" if self._mask_token is None: if self.verbose: logger.error('''Using mask_token, but it is not set yet.''' ) return None return str(self._mask_token ) @mask_token.setter def SCREAMING_SNAKE_CASE ( self : Any , __lowerCAmelCase : int ): """simple docstring""" _lowerCamelCase : Tuple = AddedToken(__lowerCAmelCase , lstrip=__lowerCAmelCase , rstrip=__lowerCAmelCase ) if isinstance(__lowerCAmelCase , __lowerCAmelCase ) else value _lowerCamelCase : str = value def SCREAMING_SNAKE_CASE ( self : int , *__lowerCAmelCase : Optional[Any] , **__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Dict = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._batch_encode_plus(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Any , *__lowerCAmelCase : Tuple , **__lowerCAmelCase : List[Any] ): """simple docstring""" _lowerCamelCase : Any = kwargs.get('''is_split_into_words''' , __lowerCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'''You need to instantiate {self.__class__.__name__} with add_prefix_space=True ''' '''to use it with pretokenized inputs.''' ) return super()._encode_plus(*__lowerCAmelCase , **__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[Any] , __lowerCAmelCase : str , __lowerCAmelCase : Optional[str] = None ): """simple docstring""" _lowerCamelCase : Tuple = self._tokenizer.model.save(__lowerCAmelCase , name=__lowerCAmelCase ) return tuple(__lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] , __lowerCAmelCase : Dict , __lowerCAmelCase : List[str]=None ): """simple docstring""" _lowerCamelCase : Union[str, Any] = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def SCREAMING_SNAKE_CASE ( self : int , __lowerCAmelCase : List[int] , __lowerCAmelCase : Optional[List[int]] = None ): """simple docstring""" _lowerCamelCase : List[str] = [self.sep_token_id] _lowerCamelCase : Tuple = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]

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from copy import deepcopy from typing import Optional, Union import numpy as np from ...processing_utils import ProcessorMixin from ...tokenization_utils_base import BatchEncoding from ...utils import TensorType, is_tf_available, is_torch_available if is_torch_available(): import torch if is_tf_available(): import tensorflow as tf class _snake_case ( _snake_case ): SCREAMING_SNAKE_CASE__ = ['image_processor'] SCREAMING_SNAKE_CASE__ = 'SamImageProcessor' def __init__( self , _lowerCamelCase ): super().__init__(_lowerCamelCase ) a :Dict = self.image_processor a :str = -10 a :List[str] = self.image_processor.size['''longest_edge'''] def __call__( self , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase = None , **_lowerCamelCase , ): a :List[Any] = self.image_processor( _lowerCamelCase , return_tensors=_lowerCamelCase , **_lowerCamelCase , ) # pop arguments that are not used in the foward but used nevertheless a :Any = encoding_image_processor['''original_sizes'''] if hasattr(_lowerCamelCase , '''numpy''' ): # Checks if Torch or TF tensor a :Union[str, Any] = original_sizes.numpy() a , a , a :Optional[Any] = self._check_and_preprocess_points( input_points=_lowerCamelCase , input_labels=_lowerCamelCase , input_boxes=_lowerCamelCase , ) a :Optional[Any] = self._normalize_and_convert( _lowerCamelCase , _lowerCamelCase , input_points=_lowerCamelCase , input_labels=_lowerCamelCase , input_boxes=_lowerCamelCase , return_tensors=_lowerCamelCase , ) return encoding_image_processor def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase="pt" , ): if input_points is not None: if len(_lowerCamelCase ) != len(_lowerCamelCase ): a :Tuple = [ self._normalize_coordinates(self.target_size , _lowerCamelCase , original_sizes[0] ) for point in input_points ] else: a :str = [ self._normalize_coordinates(self.target_size , _lowerCamelCase , _lowerCamelCase ) for point, original_size in zip(_lowerCamelCase , _lowerCamelCase ) ] # check that all arrays have the same shape if not all(point.shape == input_points[0].shape for point in input_points ): if input_labels is not None: a , a :Tuple = self._pad_points_and_labels(_lowerCamelCase , _lowerCamelCase ) a :List[str] = np.array(_lowerCamelCase ) if input_labels is not None: a :Tuple = np.array(_lowerCamelCase ) if input_boxes is not None: if len(_lowerCamelCase ) != len(_lowerCamelCase ): a :Dict = [ self._normalize_coordinates(self.target_size , _lowerCamelCase , original_sizes[0] , is_bounding_box=_lowerCamelCase ) for box in input_boxes ] else: a :str = [ self._normalize_coordinates(self.target_size , _lowerCamelCase , _lowerCamelCase , is_bounding_box=_lowerCamelCase ) for box, original_size in zip(_lowerCamelCase , _lowerCamelCase ) ] a :Union[str, Any] = np.array(_lowerCamelCase ) if input_boxes is not None: if return_tensors == "pt": a :Optional[Any] = torch.from_numpy(_lowerCamelCase ) # boxes batch size of 1 by default a :Optional[Any] = input_boxes.unsqueeze(1 ) if len(input_boxes.shape ) != 3 else input_boxes elif return_tensors == "tf": a :Dict = tf.convert_to_tensor(_lowerCamelCase ) # boxes batch size of 1 by default a :Tuple = tf.expand_dims(_lowerCamelCase , 1 ) if len(input_boxes.shape ) != 3 else input_boxes encoding_image_processor.update({'''input_boxes''': input_boxes} ) if input_points is not None: if return_tensors == "pt": a :List[Any] = torch.from_numpy(_lowerCamelCase ) # point batch size of 1 by default a :Any = input_points.unsqueeze(1 ) if len(input_points.shape ) != 4 else input_points elif return_tensors == "tf": a :Tuple = tf.convert_to_tensor(_lowerCamelCase ) # point batch size of 1 by default a :int = tf.expand_dims(_lowerCamelCase , 1 ) if len(input_points.shape ) != 4 else input_points encoding_image_processor.update({'''input_points''': input_points} ) if input_labels is not None: if return_tensors == "pt": a :Dict = torch.from_numpy(_lowerCamelCase ) # point batch size of 1 by default a :int = input_labels.unsqueeze(1 ) if len(input_labels.shape ) != 3 else input_labels elif return_tensors == "tf": a :Union[str, Any] = tf.convert_to_tensor(_lowerCamelCase ) # point batch size of 1 by default a :Dict = tf.expand_dims(_lowerCamelCase , 1 ) if len(input_labels.shape ) != 3 else input_labels encoding_image_processor.update({'''input_labels''': input_labels} ) return encoding_image_processor def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase , _lowerCamelCase ): a :List[Any] = max([point.shape[0] for point in input_points] ) a :Union[str, Any] = [] for i, point in enumerate(_lowerCamelCase ): if point.shape[0] != expected_nb_points: a :int = np.concatenate( [point, np.zeros((expected_nb_points - point.shape[0], 2) ) + self.point_pad_value] , axis=0 ) a :Union[str, Any] = np.append(input_labels[i] , [self.point_pad_value] ) processed_input_points.append(_lowerCamelCase ) a :Any = processed_input_points return input_points, input_labels def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase=False ): a , a :str = original_size a , a :Optional[Any] = self.image_processor._get_preprocess_shape(_lowerCamelCase , longest_edge=_lowerCamelCase ) a :List[Any] = deepcopy(_lowerCamelCase ).astype(_lowerCamelCase ) if is_bounding_box: a :Dict = coords.reshape(-1 , 2 , 2 ) a :Tuple = coords[..., 0] * (new_w / old_w) a :Dict = coords[..., 1] * (new_h / old_h) if is_bounding_box: a :Any = coords.reshape(-1 , 4 ) return coords def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase=None , ): if input_points is not None: if hasattr(_lowerCamelCase , '''numpy''' ): # Checks for TF or Torch tensor a :int = input_points.numpy().tolist() if not isinstance(_lowerCamelCase , _lowerCamelCase ) or not isinstance(input_points[0] , _lowerCamelCase ): raise ValueError('''Input points must be a list of list of floating points.''' ) a :Dict = [np.array(_lowerCamelCase ) for input_point in input_points] else: a :List[str] = None if input_labels is not None: if hasattr(_lowerCamelCase , '''numpy''' ): a :Optional[int] = input_labels.numpy().tolist() if not isinstance(_lowerCamelCase , _lowerCamelCase ) or not isinstance(input_labels[0] , _lowerCamelCase ): raise ValueError('''Input labels must be a list of list integers.''' ) a :List[Any] = [np.array(_lowerCamelCase ) for label in input_labels] else: a :Optional[Any] = None if input_boxes is not None: if hasattr(_lowerCamelCase , '''numpy''' ): a :int = input_boxes.numpy().tolist() if ( not isinstance(_lowerCamelCase , _lowerCamelCase ) or not isinstance(input_boxes[0] , _lowerCamelCase ) or not isinstance(input_boxes[0][0] , _lowerCamelCase ) ): raise ValueError('''Input boxes must be a list of list of list of floating points.''' ) a :Optional[int] = [np.array(_lowerCamelCase ).astype(np.floataa ) for box in input_boxes] else: a :Optional[int] = None return input_points, input_labels, input_boxes @property def SCREAMING_SNAKE_CASE__ ( self ): a :List[str] = self.image_processor.model_input_names return list(dict.fromkeys(_lowerCamelCase ) ) def SCREAMING_SNAKE_CASE__ ( self , *_lowerCamelCase , **_lowerCamelCase ): return self.image_processor.post_process_masks(*_lowerCamelCase , **_lowerCamelCase )

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"""simple docstring""" from __future__ import annotations def snake_case_ ( A_ : str ): '''simple docstring''' return [ord(A_ ) - 96 for elem in plain] def snake_case_ ( A_ : list[int] ): '''simple docstring''' return "".join(chr(elem + 96 ) for elem in encoded ) def snake_case_ ( ): '''simple docstring''' _lowerCamelCase : Dict = encode(input('''-> ''' ).strip().lower() ) print('''Encoded: ''', A_ ) print('''Decoded:''', decode(A_ ) ) if __name__ == "__main__": main()

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# Lint as: python3 import sys from collections.abc import Mapping from typing import TYPE_CHECKING import numpy as np import pyarrow as pa from .. import config from ..utils.py_utils import map_nested from .formatting import TensorFormatter if TYPE_CHECKING: import torch class __lowerCAmelCase ( TensorFormatter[Mapping, """torch.Tensor""", Mapping]): def __init__( self , lowerCAmelCase__=None , **lowerCAmelCase__ ) -> List[Any]: '''simple docstring''' super().__init__(features=lowerCAmelCase__ ) a__ : List[str] =torch_tensor_kwargs import torch # noqa import torch at initialization def _lowercase ( self , lowerCAmelCase__ ) -> Union[str, Any]: '''simple docstring''' import torch if isinstance(lowerCAmelCase__ , lowerCAmelCase__ ) and column: if all( isinstance(lowerCAmelCase__ , torch.Tensor ) and x.shape == column[0].shape and x.dtype == column[0].dtype for x in column ): return torch.stack(lowerCAmelCase__ ) return column def _lowercase ( self , lowerCAmelCase__ ) -> List[Any]: '''simple docstring''' import torch if isinstance(lowerCAmelCase__ , (str, bytes, type(lowerCAmelCase__ )) ): return value elif isinstance(lowerCAmelCase__ , (np.character, np.ndarray) ) and np.issubdtype(value.dtype , np.character ): return value.tolist() a__ : Optional[Any] ={} if isinstance(lowerCAmelCase__ , (np.number, np.ndarray) ) and np.issubdtype(value.dtype , np.integer ): a__ : Dict ={"dtype": torch.intaa} elif isinstance(lowerCAmelCase__ , (np.number, np.ndarray) ) and np.issubdtype(value.dtype , np.floating ): a__ : Dict ={"dtype": torch.floataa} elif config.PIL_AVAILABLE and "PIL" in sys.modules: import PIL.Image if isinstance(lowerCAmelCase__ , PIL.Image.Image ): a__ : Optional[int] =np.asarray(lowerCAmelCase__ ) return torch.tensor(lowerCAmelCase__ , **{**default_dtype, **self.torch_tensor_kwargs} ) def _lowercase ( self , lowerCAmelCase__ ) -> int: '''simple docstring''' import torch # support for torch, tf, jax etc. if hasattr(lowerCAmelCase__ , "__array__" ) and not isinstance(lowerCAmelCase__ , torch.Tensor ): a__ : Dict =data_struct.__array__() # support for nested types like struct of list of struct if isinstance(lowerCAmelCase__ , np.ndarray ): if data_struct.dtype == object: # torch tensors cannot be instantied from an array of objects return self._consolidate([self.recursive_tensorize(lowerCAmelCase__ ) for substruct in data_struct] ) elif isinstance(lowerCAmelCase__ , (list, tuple) ): return self._consolidate([self.recursive_tensorize(lowerCAmelCase__ ) for substruct in data_struct] ) return self._tensorize(lowerCAmelCase__ ) def _lowercase ( self , lowerCAmelCase__ ) -> int: '''simple docstring''' return map_nested(self._recursive_tensorize , lowerCAmelCase__ , map_list=lowerCAmelCase__ ) def _lowercase ( self , lowerCAmelCase__ ) -> Mapping: '''simple docstring''' a__ : List[Any] =self.numpy_arrow_extractor().extract_row(lowerCAmelCase__ ) a__ : Tuple =self.python_features_decoder.decode_row(lowerCAmelCase__ ) return self.recursive_tensorize(lowerCAmelCase__ ) def _lowercase ( self , lowerCAmelCase__ ) -> "torch.Tensor": '''simple docstring''' a__ : Tuple =self.numpy_arrow_extractor().extract_column(lowerCAmelCase__ ) a__ : Any =self.python_features_decoder.decode_column(lowerCAmelCase__ , pa_table.column_names[0] ) a__ : Optional[int] =self.recursive_tensorize(lowerCAmelCase__ ) a__ : int =self._consolidate(lowerCAmelCase__ ) return column def _lowercase ( self , lowerCAmelCase__ ) -> Mapping: '''simple docstring''' a__ : str =self.numpy_arrow_extractor().extract_batch(lowerCAmelCase__ ) a__ : List[str] =self.python_features_decoder.decode_batch(lowerCAmelCase__ ) a__ : Optional[Any] =self.recursive_tensorize(lowerCAmelCase__ ) for column_name in batch: a__ : List[Any] =self._consolidate(batch[column_name] ) return batch

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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase__ = { '''configuration_lxmert''': ['''LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LxmertConfig'''], '''tokenization_lxmert''': ['''LxmertTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = ['''LxmertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''LxmertEncoder''', '''LxmertForPreTraining''', '''LxmertForQuestionAnswering''', '''LxmertModel''', '''LxmertPreTrainedModel''', '''LxmertVisualFeatureEncoder''', '''LxmertXLayer''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ = [ '''TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFLxmertForPreTraining''', '''TFLxmertMainLayer''', '''TFLxmertModel''', '''TFLxmertPreTrainedModel''', '''TFLxmertVisualFeatureEncoder''', ] if TYPE_CHECKING: from .configuration_lxmert import LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, LxmertConfig from .tokenization_lxmert import LxmertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_lxmert_fast import LxmertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lxmert import ( LxmertEncoder, LxmertForPreTraining, LxmertForQuestionAnswering, LxmertModel, LxmertPreTrainedModel, LxmertVisualFeatureEncoder, LxmertXLayer, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_lxmert import ( TF_LXMERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFLxmertForPreTraining, TFLxmertMainLayer, TFLxmertModel, TFLxmertPreTrainedModel, TFLxmertVisualFeatureEncoder, ) else: import sys lowerCAmelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" import pytest from datasets.utils.sharding import _distribute_shards, _number_of_shards_in_gen_kwargs, _split_gen_kwargs @pytest.mark.parametrize( 'kwargs, expected' , [ ({'num_shards': 0, 'max_num_jobs': 1}, []), ({'num_shards': 10, 'max_num_jobs': 1}, [range(10 )]), ({'num_shards': 10, 'max_num_jobs': 10}, [range(lowercase__ , i + 1 ) for i in range(10 )]), ({'num_shards': 1, 'max_num_jobs': 10}, [range(1 )]), ({'num_shards': 10, 'max_num_jobs': 3}, [range(0 , 4 ), range(4 , 7 ), range(7 , 10 )]), ({'num_shards': 3, 'max_num_jobs': 10}, [range(0 , 1 ), range(1 , 2 ), range(2 , 3 )]), ] , ) def _snake_case ( lowercase__ , lowercase__ ): _lowerCamelCase : int = _distribute_shards(**lowercase__ ) assert out == expected @pytest.mark.parametrize( 'gen_kwargs, max_num_jobs, expected' , [ ({'foo': 0}, 10, [{'foo': 0}]), ({'shards': [0, 1, 2, 3]}, 1, [{'shards': [0, 1, 2, 3]}]), ({'shards': [0, 1, 2, 3]}, 4, [{'shards': [0]}, {'shards': [1]}, {'shards': [2]}, {'shards': [3]}]), ({'shards': [0, 1]}, 4, [{'shards': [0]}, {'shards': [1]}]), ({'shards': [0, 1, 2, 3]}, 2, [{'shards': [0, 1]}, {'shards': [2, 3]}]), ] , ) def _snake_case ( lowercase__ , lowercase__ , lowercase__ ): _lowerCamelCase : int = _split_gen_kwargs(lowercase__ , lowercase__ ) assert out == expected @pytest.mark.parametrize( 'gen_kwargs, expected' , [ ({'foo': 0}, 1), ({'shards': [0]}, 1), ({'shards': [0, 1, 2, 3]}, 4), ({'shards': [0, 1, 2, 3], 'foo': 0}, 4), ({'shards': [0, 1, 2, 3], 'other': (0, 1)}, 4), ({'shards': [0, 1, 2, 3], 'shards2': [0, 1]}, RuntimeError), ] , ) def _snake_case ( lowercase__ , lowercase__ ): if expected is RuntimeError: with pytest.raises(lowercase__ ): _number_of_shards_in_gen_kwargs(lowercase__ ) else: _lowerCamelCase : Tuple = _number_of_shards_in_gen_kwargs(lowercase__ ) assert out == expected

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"""simple docstring""" def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for data in source_data: for i, el in enumerate(A_ ): if len(A_ ) < i + 1: data_lists.append([] ) data_lists[i].append(float(A_ ) ) return data_lists def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : list[list[float]] = [] for dlist, weight in zip(A_, A_ ): _lowerCamelCase : Any = min(A_ ) _lowerCamelCase : Optional[Any] = max(A_ ) _lowerCamelCase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowerCamelCase : str = F'''Invalid weight of {weight:f} provided''' raise ValueError(A_ ) score_lists.append(A_ ) return score_lists def snake_case_ ( A_ : list[list[float]] ): '''simple docstring''' _lowerCamelCase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(A_ ): _lowerCamelCase : List[str] = final_scores[j] + ele return final_scores def snake_case_ ( A_ : list[list[float]], A_ : list[int] ): '''simple docstring''' _lowerCamelCase : Tuple = get_data(A_ ) _lowerCamelCase : Optional[Any] = calculate_each_score(A_, A_ ) _lowerCamelCase : str = generate_final_scores(A_ ) # append scores to source data for i, ele in enumerate(A_ ): source_data[i].append(A_ ) return source_data

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'''simple docstring''' from .imports import is_rich_available if is_rich_available(): from rich.traceback import install install(show_locals=False) else: raise ModuleNotFoundError('''To use the rich extension, install rich with `pip install rich`''')

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"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = { '''microsoft/unispeech-large-1500h-cv''': ( '''https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json''' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class __snake_case ( _lowercase): snake_case__ : List[str] = "unispeech" def __init__( self : List[str] , __lowerCAmelCase : List[Any]=3_2 , __lowerCAmelCase : str=7_6_8 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=1_2 , __lowerCAmelCase : int=3_0_7_2 , __lowerCAmelCase : Tuple="gelu" , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : str=0.1 , __lowerCAmelCase : Tuple=0.0 , __lowerCAmelCase : Optional[int]=0.0 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Optional[int]=0.1 , __lowerCAmelCase : Tuple=0.02 , __lowerCAmelCase : Dict=1E-5 , __lowerCAmelCase : Optional[int]="group" , __lowerCAmelCase : Dict="gelu" , __lowerCAmelCase : int=(5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2, 5_1_2) , __lowerCAmelCase : Optional[int]=(5, 2, 2, 2, 2, 2, 2) , __lowerCAmelCase : Union[str, Any]=(1_0, 3, 3, 3, 3, 2, 2) , __lowerCAmelCase : List[Any]=False , __lowerCAmelCase : List[str]=1_2_8 , __lowerCAmelCase : Any=1_6 , __lowerCAmelCase : Optional[int]=False , __lowerCAmelCase : Optional[Any]=True , __lowerCAmelCase : Union[str, Any]=0.05 , __lowerCAmelCase : Union[str, Any]=1_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.0 , __lowerCAmelCase : Optional[int]=1_0 , __lowerCAmelCase : Dict=0 , __lowerCAmelCase : List[str]=3_2_0 , __lowerCAmelCase : List[Any]=2 , __lowerCAmelCase : Dict=0.1 , __lowerCAmelCase : Tuple=1_0_0 , __lowerCAmelCase : Dict=2_5_6 , __lowerCAmelCase : str=2_5_6 , __lowerCAmelCase : List[Any]=0.1 , __lowerCAmelCase : Dict="mean" , __lowerCAmelCase : Union[str, Any]=False , __lowerCAmelCase : Dict=False , __lowerCAmelCase : Optional[Any]=2_5_6 , __lowerCAmelCase : Dict=8_0 , __lowerCAmelCase : int=0 , __lowerCAmelCase : Optional[int]=1 , __lowerCAmelCase : Dict=2 , __lowerCAmelCase : Any=0.5 , **__lowerCAmelCase : Optional[Any] , ): """simple docstring""" super().__init__(**__lowerCAmelCase , pad_token_id=__lowerCAmelCase , bos_token_id=__lowerCAmelCase , eos_token_id=__lowerCAmelCase ) _lowerCamelCase : Dict = hidden_size _lowerCamelCase : Any = feat_extract_norm _lowerCamelCase : List[Any] = feat_extract_activation _lowerCamelCase : Any = list(__lowerCAmelCase ) _lowerCamelCase : Tuple = list(__lowerCAmelCase ) _lowerCamelCase : int = list(__lowerCAmelCase ) _lowerCamelCase : List[str] = conv_bias _lowerCamelCase : List[str] = num_conv_pos_embeddings _lowerCamelCase : Tuple = num_conv_pos_embedding_groups _lowerCamelCase : List[str] = len(self.conv_dim ) _lowerCamelCase : Tuple = num_hidden_layers _lowerCamelCase : List[Any] = intermediate_size _lowerCamelCase : Dict = hidden_act _lowerCamelCase : Union[str, Any] = num_attention_heads _lowerCamelCase : Tuple = hidden_dropout _lowerCamelCase : List[Any] = attention_dropout _lowerCamelCase : Optional[int] = activation_dropout _lowerCamelCase : Optional[Any] = feat_proj_dropout _lowerCamelCase : Optional[int] = final_dropout _lowerCamelCase : Any = layerdrop _lowerCamelCase : Any = layer_norm_eps _lowerCamelCase : List[Any] = initializer_range _lowerCamelCase : List[str] = num_ctc_classes _lowerCamelCase : List[Any] = vocab_size _lowerCamelCase : Optional[Any] = do_stable_layer_norm _lowerCamelCase : Tuple = use_weighted_layer_sum _lowerCamelCase : List[Any] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' f''' {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,''' f''' `len(config.conv_kernel) = {len(self.conv_kernel )}`.''' ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 _lowerCamelCase : Any = apply_spec_augment _lowerCamelCase : Dict = mask_time_prob _lowerCamelCase : List[str] = mask_time_length _lowerCamelCase : Optional[Any] = mask_time_min_masks _lowerCamelCase : List[str] = mask_feature_prob _lowerCamelCase : int = mask_feature_length _lowerCamelCase : Dict = mask_feature_min_masks # parameters for pretraining with codevector quantized representations _lowerCamelCase : Optional[Any] = num_codevectors_per_group _lowerCamelCase : int = num_codevector_groups _lowerCamelCase : List[Any] = contrastive_logits_temperature _lowerCamelCase : List[str] = feat_quantizer_dropout _lowerCamelCase : Dict = num_negatives _lowerCamelCase : Optional[int] = codevector_dim _lowerCamelCase : List[Any] = proj_codevector_dim _lowerCamelCase : List[Any] = diversity_loss_weight # ctc loss _lowerCamelCase : Union[str, Any] = ctc_loss_reduction _lowerCamelCase : Any = ctc_zero_infinity # pretraining loss _lowerCamelCase : str = replace_prob @property def SCREAMING_SNAKE_CASE ( self : int ): """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )

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"""simple docstring""" import copy import os from typing import Union from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCAmelCase__ : Optional[int] = logging.get_logger(__name__) lowerCAmelCase__ : List[str] = { 'Salesforce/blip-vqa-base': 'https://huggingface.co/Salesforce/blip-vqa-base/resolve/main/config.json', 'Salesforce/blip-vqa-capfit-large': ( 'https://huggingface.co/Salesforce/blip-vqa-base-capfit/resolve/main/config.json' ), 'Salesforce/blip-image-captioning-base': ( 'https://huggingface.co/Salesforce/blip-image-captioning-base/resolve/main/config.json' ), 'Salesforce/blip-image-captioning-large': ( 'https://huggingface.co/Salesforce/blip-image-captioning-large/resolve/main/config.json' ), 'Salesforce/blip-itm-base-coco': 'https://huggingface.co/Salesforce/blip-itm-base-coco/resolve/main/config.json', 'Salesforce/blip-itm-large-coco': 'https://huggingface.co/Salesforce/blip-itm-large-coco/resolve/main/config.json', 'Salesforce/blip-itm-base-flikr': 'https://huggingface.co/Salesforce/blip-itm-base-flikr/resolve/main/config.json', 'Salesforce/blip-itm-large-flikr': ( 'https://huggingface.co/Salesforce/blip-itm-large-flikr/resolve/main/config.json' ), } class snake_case ( __UpperCAmelCase ): """simple docstring""" snake_case__ = "blip_text_model" def __init__( self : Tuple ,lowerCamelCase__ : str=30_524 ,lowerCamelCase__ : Tuple=768 ,lowerCamelCase__ : Union[str, Any]=768 ,lowerCamelCase__ : Union[str, Any]=3_072 ,lowerCamelCase__ : str=768 ,lowerCamelCase__ : Optional[int]=12 ,lowerCamelCase__ : Any=8 ,lowerCamelCase__ : List[Any]=512 ,lowerCamelCase__ : Tuple="gelu" ,lowerCamelCase__ : Dict=1e-12 ,lowerCamelCase__ : Dict=0.0 ,lowerCamelCase__ : Union[str, Any]=0.0 ,lowerCamelCase__ : int=0.0_2 ,lowerCamelCase__ : List[str]=30_522 ,lowerCamelCase__ : Tuple=2 ,lowerCamelCase__ : Tuple=0 ,lowerCamelCase__ : str=102 ,lowerCamelCase__ : Tuple=True ,lowerCamelCase__ : str=True ,**lowerCamelCase__ : Optional[Any] ,): super().__init__( pad_token_id=lowerCamelCase__ ,bos_token_id=lowerCamelCase__ ,eos_token_id=lowerCamelCase__ ,sep_token_id=lowerCamelCase__ ,**lowerCamelCase__ ,) UpperCAmelCase__ = vocab_size UpperCAmelCase__ = hidden_size UpperCAmelCase__ = encoder_hidden_size UpperCAmelCase__ = intermediate_size UpperCAmelCase__ = projection_dim UpperCAmelCase__ = hidden_dropout_prob UpperCAmelCase__ = num_hidden_layers UpperCAmelCase__ = num_attention_heads UpperCAmelCase__ = max_position_embeddings UpperCAmelCase__ = layer_norm_eps UpperCAmelCase__ = hidden_act UpperCAmelCase__ = initializer_range UpperCAmelCase__ = attention_probs_dropout_prob UpperCAmelCase__ = is_decoder UpperCAmelCase__ = use_cache @classmethod def __lowerCAmelCase ( cls : Union[str, Any] ,lowerCamelCase__ : Union[str, os.PathLike] ,**lowerCamelCase__ : List[Any] ): cls._set_token_in_kwargs(lowerCamelCase__ ) UpperCAmelCase__ , UpperCAmelCase__ = cls.get_config_dict(lowerCamelCase__ ,**lowerCamelCase__ ) # get the text config dict if we are loading from BlipConfig if config_dict.get('model_type' ) == "blip": UpperCAmelCase__ = config_dict['text_config'] if "model_type" in config_dict and hasattr(cls ,'model_type' ) and config_dict["model_type"] != cls.model_type: logger.warning( f'''You are using a model of type {config_dict["model_type"]} to instantiate a model of type ''' f'''{cls.model_type}. This is not supported for all configurations of models and can yield errors.''' ) return cls.from_dict(lowerCamelCase__ ,**lowerCamelCase__ ) class snake_case ( __UpperCAmelCase ): """simple docstring""" snake_case__ = "blip_vision_model" def __init__( self : Tuple ,lowerCamelCase__ : List[str]=768 ,lowerCamelCase__ : Any=3_072 ,lowerCamelCase__ : List[Any]=512 ,lowerCamelCase__ : Optional[Any]=12 ,lowerCamelCase__ : Any=12 ,lowerCamelCase__ : List[str]=384 ,lowerCamelCase__ : Any=16 ,lowerCamelCase__ : Any="gelu" ,lowerCamelCase__ : Any=1e-5 ,lowerCamelCase__ : Any=0.0 ,lowerCamelCase__ : Optional[int]=1e-10 ,**lowerCamelCase__ : Union[str, Any] ,): super().__init__(**lowerCamelCase__ ) UpperCAmelCase__ = hidden_size UpperCAmelCase__ = intermediate_size UpperCAmelCase__ = projection_dim UpperCAmelCase__ = num_hidden_layers UpperCAmelCase__ = num_attention_heads UpperCAmelCase__ = patch_size UpperCAmelCase__ = image_size UpperCAmelCase__ = initializer_range UpperCAmelCase__ = attention_dropout UpperCAmelCase__ = layer_norm_eps UpperCAmelCase__ = hidden_act @classmethod def __lowerCAmelCase ( cls : int ,lowerCamelCase__ : Union[str, os.PathLike] ,**lowerCamelCase__ : List[str] ): cls._set_token_in_kwargs(lowerCamelCase__ ) UpperCAmelCase__ , UpperCAmelCase__ = cls.get_config_dict(lowerCamelCase__ ,**lowerCamelCase__ ) # get the vision config dict if we are loading from BlipConfig if config_dict.get('model_type' ) == "blip": UpperCAmelCase__ = config_dict['vision_config'] if "model_type" in config_dict and hasattr(cls ,'model_type' ) and config_dict["model_type"] != cls.model_type: logger.warning( f'''You are using a model of type {config_dict["model_type"]} to instantiate a model of type ''' f'''{cls.model_type}. This is not supported for all configurations of models and can yield errors.''' ) return cls.from_dict(lowerCamelCase__ ,**lowerCamelCase__ ) class snake_case ( __UpperCAmelCase ): """simple docstring""" snake_case__ = "blip" snake_case__ = True def __init__( self : Any ,lowerCamelCase__ : List[Any]=None ,lowerCamelCase__ : List[Any]=None ,lowerCamelCase__ : Dict=512 ,lowerCamelCase__ : List[str]=2.6_5_9_2 ,lowerCamelCase__ : List[Any]=256 ,**lowerCamelCase__ : int ,): super().__init__(**lowerCamelCase__ ) if text_config is None: UpperCAmelCase__ = {} logger.info('`text_config` is `None`. Initializing the `BlipTextConfig` with default values.' ) if vision_config is None: UpperCAmelCase__ = {} logger.info('`vision_config` is `None`. Initializing the `BlipVisionConfig` with default values.' ) UpperCAmelCase__ = BlipTextConfig(**lowerCamelCase__ ) UpperCAmelCase__ = BlipVisionConfig(**lowerCamelCase__ ) UpperCAmelCase__ = self.vision_config.hidden_size UpperCAmelCase__ = projection_dim UpperCAmelCase__ = logit_scale_init_value UpperCAmelCase__ = 1.0 UpperCAmelCase__ = 0.0_2 UpperCAmelCase__ = image_text_hidden_size @classmethod def __lowerCAmelCase ( cls : List[Any] ,lowerCamelCase__ : BlipTextConfig ,lowerCamelCase__ : BlipVisionConfig ,**lowerCamelCase__ : int ): return cls(text_config=text_config.to_dict() ,vision_config=vision_config.to_dict() ,**lowerCamelCase__ ) def __lowerCAmelCase ( self : List[Any] ): UpperCAmelCase__ = copy.deepcopy(self.__dict__ ) UpperCAmelCase__ = self.text_config.to_dict() UpperCAmelCase__ = self.vision_config.to_dict() UpperCAmelCase__ = self.__class__.model_type return output

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"""simple docstring""" from typing import Optional from urllib.parse import quote import huggingface_hub as hfh from packaging import version def snake_case_ ( A_ : str, A_ : str, A_ : Optional[str] = None ): '''simple docstring''' if version.parse(hfh.__version__ ).release < version.parse('''0.11.0''' ).release: # old versions of hfh don't url-encode the file path _lowerCamelCase : Optional[Any] = quote(A_ ) return hfh.hf_hub_url(A_, A_, repo_type='''dataset''', revision=A_ )

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def A_ ( A__ , A__ ) -> str: return "\n".join( F'{number} * {i} = {number * i}' for i in range(1 , number_of_terms + 1 ) ) if __name__ == "__main__": print(multiplication_table(number=5, number_of_terms=1_0))

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"""simple docstring""" import unittest import numpy as np def snake_case_ ( A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray, A_ : np.ndarray | None = None, ): '''simple docstring''' _lowerCamelCase : Union[str, Any] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) _lowerCamelCase : List[str] = np.shape(A_ ) if shape_a[0] != shape_b[0]: _lowerCamelCase : Tuple = ( '''Expected the same number of rows for A and B. ''' F'''Instead found A of size {shape_a} and B of size {shape_b}''' ) raise ValueError(A_ ) if shape_b[1] != shape_c[1]: _lowerCamelCase : Tuple = ( '''Expected the same number of columns for B and C. ''' F'''Instead found B of size {shape_b} and C of size {shape_c}''' ) raise ValueError(A_ ) _lowerCamelCase : List[str] = pseudo_inv if a_inv is None: try: _lowerCamelCase : Any = np.linalg.inv(A_ ) except np.linalg.LinAlgError: raise ValueError( '''Input matrix A is not invertible. Cannot compute Schur complement.''' ) return mat_c - mat_b.T @ a_inv @ mat_b class __snake_case ( unittest.TestCase): def SCREAMING_SNAKE_CASE ( self : Any ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : List[str] = np.array([[2, 1], [6, 3]] ) _lowerCamelCase : List[Any] = schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) _lowerCamelCase : Dict = np.block([[a, b], [b.T, c]] ) _lowerCamelCase : Tuple = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : List[str] = np.linalg.det(__lowerCAmelCase ) _lowerCamelCase : Any = np.linalg.det(__lowerCAmelCase ) self.assertAlmostEqual(__lowerCAmelCase , det_a * det_s ) def SCREAMING_SNAKE_CASE ( self : Optional[Any] ): """simple docstring""" _lowerCamelCase : List[Any] = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : Optional[int] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : int = np.array([[2, 1], [6, 3]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) def SCREAMING_SNAKE_CASE ( self : List[str] ): """simple docstring""" _lowerCamelCase : str = np.array([[1, 2, 1], [2, 1, 2], [3, 2, 4]] ) _lowerCamelCase : List[str] = np.array([[0, 3], [3, 0], [2, 3]] ) _lowerCamelCase : Union[str, Any] = np.array([[2, 1, 3], [6, 3, 5]] ) with self.assertRaises(__lowerCAmelCase ): schur_complement(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) if __name__ == "__main__": import doctest doctest.testmod() unittest.main()

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"""simple docstring""" import unittest from transformers import ( MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING, TF_MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING, TextaTextGenerationPipeline, pipeline, ) from transformers.testing_utils import is_pipeline_test, require_tf, require_torch from transformers.utils import is_torch_available from .test_pipelines_common import ANY if is_torch_available(): import torch @is_pipeline_test class SCREAMING_SNAKE_CASE_ ( unittest.TestCase ): """simple docstring""" __lowercase : Optional[Any] = MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING __lowercase : Any = TF_MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING def snake_case_ ( self , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__): __SCREAMING_SNAKE_CASE = TextaTextGenerationPipeline(model=lowerCAmelCase__ , tokenizer=lowerCAmelCase__) return generator, ["Something to write", "Something else"] def snake_case_ ( self , lowerCAmelCase__ , lowerCAmelCase__): __SCREAMING_SNAKE_CASE = generator("""Something there""") self.assertEqual(lowerCAmelCase__ , [{"""generated_text""": ANY(lowerCAmelCase__)}]) # These are encoder decoder, they don't just append to incoming string self.assertFalse(outputs[0]["""generated_text"""].startswith("""Something there""")) __SCREAMING_SNAKE_CASE = generator(["""This is great !""", """Something else"""] , num_return_sequences=2 , do_sample=lowerCAmelCase__) self.assertEqual( lowerCAmelCase__ , [ [{"""generated_text""": ANY(lowerCAmelCase__)}, {"""generated_text""": ANY(lowerCAmelCase__)}], [{"""generated_text""": ANY(lowerCAmelCase__)}, {"""generated_text""": ANY(lowerCAmelCase__)}], ] , ) __SCREAMING_SNAKE_CASE = generator( ["""This is great !""", """Something else"""] , num_return_sequences=2 , batch_size=2 , do_sample=lowerCAmelCase__) self.assertEqual( lowerCAmelCase__ , [ [{"""generated_text""": ANY(lowerCAmelCase__)}, {"""generated_text""": ANY(lowerCAmelCase__)}], [{"""generated_text""": ANY(lowerCAmelCase__)}, {"""generated_text""": ANY(lowerCAmelCase__)}], ] , ) with self.assertRaises(lowerCAmelCase__): generator(4) @require_torch def snake_case_ ( self): __SCREAMING_SNAKE_CASE = pipeline("""text2text-generation""" , model="""patrickvonplaten/t5-tiny-random""" , framework="""pt""") # do_sample=False necessary for reproducibility __SCREAMING_SNAKE_CASE = generator("""Something there""" , do_sample=lowerCAmelCase__) self.assertEqual(lowerCAmelCase__ , [{"""generated_text""": """"""}]) __SCREAMING_SNAKE_CASE = 3 __SCREAMING_SNAKE_CASE = generator( """Something there""" , num_return_sequences=lowerCAmelCase__ , num_beams=lowerCAmelCase__ , ) __SCREAMING_SNAKE_CASE = [ {"""generated_text""": """Beide Beide Beide Beide Beide Beide Beide Beide Beide"""}, {"""generated_text""": """Beide Beide Beide Beide Beide Beide Beide Beide"""}, {"""generated_text""": """"""}, ] self.assertEqual(lowerCAmelCase__ , lowerCAmelCase__) __SCREAMING_SNAKE_CASE = generator("""This is a test""" , do_sample=lowerCAmelCase__ , num_return_sequences=2 , return_tensors=lowerCAmelCase__) self.assertEqual( lowerCAmelCase__ , [ {"""generated_token_ids""": ANY(torch.Tensor)}, {"""generated_token_ids""": ANY(torch.Tensor)}, ] , ) __SCREAMING_SNAKE_CASE = generator.model.config.eos_token_id __SCREAMING_SNAKE_CASE = """<pad>""" __SCREAMING_SNAKE_CASE = generator( ["""This is a test""", """This is a second test"""] , do_sample=lowerCAmelCase__ , num_return_sequences=2 , batch_size=2 , return_tensors=lowerCAmelCase__ , ) self.assertEqual( lowerCAmelCase__ , [ [ {"""generated_token_ids""": ANY(torch.Tensor)}, {"""generated_token_ids""": ANY(torch.Tensor)}, ], [ {"""generated_token_ids""": ANY(torch.Tensor)}, {"""generated_token_ids""": ANY(torch.Tensor)}, ], ] , ) @require_tf def snake_case_ ( self): __SCREAMING_SNAKE_CASE = pipeline("""text2text-generation""" , model="""patrickvonplaten/t5-tiny-random""" , framework="""tf""") # do_sample=False necessary for reproducibility __SCREAMING_SNAKE_CASE = generator("""Something there""" , do_sample=lowerCAmelCase__) self.assertEqual(lowerCAmelCase__ , [{"""generated_text""": """"""}])

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"""simple docstring""" def snake_case_ ( A_ : list[int], A_ : str ): '''simple docstring''' _lowerCamelCase : Tuple = int(A_ ) # Initialize Result _lowerCamelCase : Dict = [] # Traverse through all denomination for denomination in reversed(A_ ): # Find denominations while int(A_ ) >= int(A_ ): total_value -= int(A_ ) answer.append(A_ ) # Append the "answers" array return answer # Driver Code if __name__ == "__main__": lowerCAmelCase__ = [] lowerCAmelCase__ = '''0''' if ( input('''Do you want to enter your denominations ? (yY/n): ''').strip().lower() == "y" ): lowerCAmelCase__ = int(input('''Enter the number of denominations you want to add: ''').strip()) for i in range(0, n): denominations.append(int(input(F"""Denomination {i}: """).strip())) lowerCAmelCase__ = input('''Enter the change you want to make in Indian Currency: ''').strip() else: # All denominations of Indian Currency if user does not enter lowerCAmelCase__ = [1, 2, 5, 10, 20, 50, 100, 500, 2000] lowerCAmelCase__ = input('''Enter the change you want to make: ''').strip() if int(value) == 0 or int(value) < 0: print('''The total value cannot be zero or negative.''') else: print(F"""Following is minimal change for {value}: """) lowerCAmelCase__ = find_minimum_change(denominations, value) # Print result for i in range(len(answer)): print(answer[i], end=''' ''')

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