Datasets:
infinityofspace
/
python_codestyles-random-500

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xet
Community
code
stringlengths
87
55.2k
code_codestyle
int64
0
349
style_context
stringlengths
135
49.1k
style_context_codestyle
int64
0
349
label
int64
0
1
"""simple docstring""" lowerCamelCase_ : int = range(2, 2_0 + 1) lowerCamelCase_ : Tuple = [1_0**k for k in range(ks[-1] + 1)] lowerCamelCase_ : dict[int, dict[int, list[list[int]]]] = {} def _A ( lowercase , lowercase , lowercase , lowercase ): """simple docstring""" a =sum(a_i[j] for j in range(lowercase , len(lowercase ) ) ) a =sum(a_i[j] * base[j] for j in range(min(len(lowercase ) , lowercase ) ) ) a , a =0, 0 a =n - i a =memo.get(lowercase ) if sub_memo is not None: a =sub_memo.get(lowercase ) if jumps is not None and len(lowercase ) > 0: # find and make the largest jump without going over a =-1 for _k in range(len(lowercase ) - 1 , -1 , -1 ): if jumps[_k][2] <= k and jumps[_k][1] <= max_dn: a =_k break if max_jump >= 0: a , a , a =jumps[max_jump] # since the difference between jumps is cached, add c a =diff + c for j in range(min(lowercase , len(lowercase ) ) ): a , a =divmod(lowercase , 10 ) if new_c > 0: add(lowercase , lowercase , lowercase ) else: a =[] else: a ={c: []} a =sub_memo if dn >= max_dn or c + diff >= base[k]: return diff, dn if k > ks[0]: while True: # keep doing smaller jumps a , a =next_term(lowercase , k - 1 , i + dn , lowercase ) diff += _diff dn += terms_jumped if dn >= max_dn or c + diff >= base[k]: break else: # would be too small a jump, just compute sequential terms instead a , a =compute(lowercase , lowercase , i + dn , lowercase ) diff += _diff dn += terms_jumped a =sub_memo[c] # keep jumps sorted by # of terms skipped a =0 while j < len(lowercase ): if jumps[j][1] > dn: break j += 1 # cache the jump for this value digitsum(b) and c sub_memo[c].insert(lowercase , (diff, dn, k) ) return (diff, dn) def _A ( lowercase , lowercase , lowercase , lowercase ): """simple docstring""" if i >= n: return 0, i if k > len(lowercase ): a_i.extend([0 for _ in range(k - len(lowercase ) )] ) # note: a_i -> b * 10^k + c # ds_b -> digitsum(b) # ds_c -> digitsum(c) a =i a , a , a =0, 0, 0 for j in range(len(lowercase ) ): if j >= k: ds_b += a_i[j] else: ds_c += a_i[j] while i < n: i += 1 a =ds_c + ds_b diff += addend a =0 for j in range(lowercase ): a =a_i[j] + addend a , a =divmod(lowercase , 10 ) ds_c += a_i[j] if addend > 0: break if addend > 0: add(lowercase , lowercase , lowercase ) return diff, i - start_i def _A ( lowercase , lowercase , lowercase ): """simple docstring""" for j in range(lowercase , len(lowercase ) ): a =digits[j] + addend if s >= 10: a , a =divmod(lowercase , 10 ) a =addend // 10 + quotient else: a =s a =addend // 10 if addend == 0: break while addend > 0: a , a =divmod(lowercase , 10 ) digits.append(lowercase ) def _A ( lowercase = 10**15 ): """simple docstring""" a =[1] a =1 a =0 while True: a , a =next_term(lowercase , 20 , i + dn , lowercase ) dn += terms_jumped if dn == n - i: break a =0 for j in range(len(lowercase ) ): a_n += digits[j] * 10**j return a_n if __name__ == "__main__": print(F'{solution() = }')
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'''simple docstring''' import inspect import unittest from transformers import SegformerConfig, is_torch_available, is_vision_available from transformers.models.auto import get_values from transformers.testing_utils import require_torch, slow, torch_device from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( MODEL_MAPPING, SegformerForImageClassification, SegformerForSemanticSegmentation, SegformerModel, ) from transformers.models.segformer.modeling_segformer import SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import SegformerImageProcessor class UpperCAmelCase ( snake_case_ ): def lowercase__ ( self : List[Any] ) -> Union[str, Any]: _lowerCAmelCase = self.config_class(**self.inputs_dict ) self.parent.assertTrue(hasattr(__snake_case , """hidden_sizes""" ) ) self.parent.assertTrue(hasattr(__snake_case , """num_attention_heads""" ) ) self.parent.assertTrue(hasattr(__snake_case , """num_encoder_blocks""" ) ) class UpperCAmelCase : def __init__( self : Optional[int] , __snake_case : str , __snake_case : Dict=13 , __snake_case : str=64 , __snake_case : Dict=3 , __snake_case : Dict=4 , __snake_case : Tuple=[2, 2, 2, 2] , __snake_case : int=[8, 4, 2, 1] , __snake_case : List[str]=[16, 32, 64, 1_28] , __snake_case : Optional[Any]=[1, 4, 8, 16] , __snake_case : Dict=[1, 2, 4, 8] , __snake_case : Optional[Any]=True , __snake_case : List[str]=True , __snake_case : int="gelu" , __snake_case : Optional[Any]=0.1 , __snake_case : Any=0.1 , __snake_case : Tuple=0.02 , __snake_case : Union[str, Any]=3 , __snake_case : Tuple=None , ) -> List[str]: _lowerCAmelCase = parent _lowerCAmelCase = batch_size _lowerCAmelCase = image_size _lowerCAmelCase = num_channels _lowerCAmelCase = num_encoder_blocks _lowerCAmelCase = sr_ratios _lowerCAmelCase = depths _lowerCAmelCase = hidden_sizes _lowerCAmelCase = downsampling_rates _lowerCAmelCase = num_attention_heads _lowerCAmelCase = is_training _lowerCAmelCase = use_labels _lowerCAmelCase = hidden_act _lowerCAmelCase = hidden_dropout_prob _lowerCAmelCase = attention_probs_dropout_prob _lowerCAmelCase = initializer_range _lowerCAmelCase = num_labels _lowerCAmelCase = scope def lowercase__ ( self : int ) -> Union[str, Any]: _lowerCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) _lowerCAmelCase = None if self.use_labels: _lowerCAmelCase = ids_tensor([self.batch_size, self.image_size, self.image_size] , self.num_labels ) _lowerCAmelCase = self.get_config() return config, pixel_values, labels def lowercase__ ( self : List[Any] ) -> List[str]: return SegformerConfig( image_size=self.image_size , num_channels=self.num_channels , num_encoder_blocks=self.num_encoder_blocks , depths=self.depths , hidden_sizes=self.hidden_sizes , num_attention_heads=self.num_attention_heads , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , initializer_range=self.initializer_range , ) def lowercase__ ( self : Tuple , __snake_case : Optional[Any] , __snake_case : Union[str, Any] , __snake_case : Optional[int] ) -> Tuple: _lowerCAmelCase = SegformerModel(config=__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = _lowerCAmelCase = self.image_size // (self.downsampling_rates[-1] * 2) self.parent.assertEqual( result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], expected_height, expected_width) ) def lowercase__ ( self : List[str] , __snake_case : List[Any] , __snake_case : Optional[Any] , __snake_case : Optional[int] ) -> List[str]: _lowerCAmelCase = self.num_labels _lowerCAmelCase = SegformerForSemanticSegmentation(__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = model(__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) _lowerCAmelCase = model(__snake_case , labels=__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) self.parent.assertGreater(result.loss , 0.0 ) def lowercase__ ( self : str , __snake_case : Union[str, Any] , __snake_case : Optional[int] , __snake_case : Dict ) -> List[str]: _lowerCAmelCase = 1 _lowerCAmelCase = SegformerForSemanticSegmentation(config=__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = torch.randint(0 , 1 , (self.batch_size, self.image_size, self.image_size) ).to(__snake_case ) _lowerCAmelCase = model(__snake_case , labels=__snake_case ) self.parent.assertGreater(result.loss , 0.0 ) def lowercase__ ( self : Optional[int] ) -> int: _lowerCAmelCase = self.prepare_config_and_inputs() _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = config_and_inputs _lowerCAmelCase = {"""pixel_values""": pixel_values} return config, inputs_dict @require_torch class UpperCAmelCase ( snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Any = ( ( SegformerModel, SegformerForSemanticSegmentation, SegformerForImageClassification, ) if is_torch_available() else () ) _lowercase: Tuple = ( { '''feature-extraction''': SegformerModel, '''image-classification''': SegformerForImageClassification, '''image-segmentation''': SegformerForSemanticSegmentation, } if is_torch_available() else {} ) _lowercase: Tuple = True _lowercase: Union[str, Any] = False _lowercase: Dict = False _lowercase: Optional[Any] = False def lowercase__ ( self : Tuple ) -> Any: _lowerCAmelCase = SegformerModelTester(self ) _lowerCAmelCase = SegformerConfigTester(self , config_class=__snake_case ) def lowercase__ ( self : Optional[Any] ) -> Dict: self.config_tester.run_common_tests() def lowercase__ ( self : int ) -> Union[str, Any]: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__snake_case ) def lowercase__ ( self : Dict ) -> int: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_binary_image_segmentation(*__snake_case ) def lowercase__ ( self : Dict ) -> Dict: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_segmentation(*__snake_case ) @unittest.skip("""SegFormer does not use inputs_embeds""" ) def lowercase__ ( self : int ) -> Union[str, Any]: pass @unittest.skip("""SegFormer does not have get_input_embeddings method and get_output_embeddings methods""" ) def lowercase__ ( self : Optional[int] ) -> int: pass def lowercase__ ( self : Union[str, Any] ) -> Optional[Any]: _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCAmelCase = model_class(__snake_case ) _lowerCAmelCase = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCAmelCase = [*signature.parameters.keys()] _lowerCAmelCase = ["""pixel_values"""] self.assertListEqual(arg_names[:1] , __snake_case ) def lowercase__ ( self : Tuple ) -> Tuple: _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() _lowerCAmelCase = True for model_class in self.all_model_classes: _lowerCAmelCase = True _lowerCAmelCase = False _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.attentions _lowerCAmelCase = sum(self.model_tester.depths ) self.assertEqual(len(__snake_case ) , __snake_case ) # check that output_attentions also work using config del inputs_dict["output_attentions"] _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) _lowerCAmelCase = (self.model_tester.image_size // 4) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) # verify the last attentions (last block, last layer) _lowerCAmelCase = (self.model_tester.image_size // 32) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (32 * self.model_tester.sr_ratios[-1])) ** 2 self.assertListEqual( list(attentions[-1].shape[-3:] ) , [self.model_tester.num_attention_heads[-1], expected_seq_len, expected_reduced_seq_len] , ) _lowerCAmelCase = len(__snake_case ) # Check attention is always last and order is fine _lowerCAmelCase = True _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) self.assertEqual(out_len + 1 , len(__snake_case ) ) _lowerCAmelCase = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) _lowerCAmelCase = (self.model_tester.image_size // 4) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(self_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) def lowercase__ ( self : int ) -> List[str]: def check_hidden_states_output(__snake_case : str , __snake_case : Tuple , __snake_case : Optional[int] ): _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.hidden_states _lowerCAmelCase = self.model_tester.num_encoder_blocks self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first hidden states (first block) self.assertListEqual( list(hidden_states[0].shape[-3:] ) , [ self.model_tester.hidden_sizes[0], self.model_tester.image_size // 4, self.model_tester.image_size // 4, ] , ) _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCAmelCase = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] _lowerCAmelCase = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) def lowercase__ ( self : Optional[Any] ) -> Any: if not self.model_tester.is_training: return _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() _lowerCAmelCase = True for model_class in self.all_model_classes: if model_class in get_values(__snake_case ): continue _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.train() _lowerCAmelCase = self._prepare_for_class(__snake_case , __snake_case , return_labels=__snake_case ) _lowerCAmelCase = model(**__snake_case ).loss loss.backward() @unittest.skip("""Will be fixed soon by reducing the size of the model used for common tests.""" ) def lowercase__ ( self : Tuple ) -> Dict: pass @slow def lowercase__ ( self : str ) -> Optional[int]: for model_name in SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowerCAmelCase = SegformerModel.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_torch class UpperCAmelCase ( unittest.TestCase ): @slow def lowercase__ ( self : Union[str, Any] ) -> Any: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained("""nvidia/segformer-b0-finetuned-ade-512-512""" ).to( __snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = torch.Size((1, model.config.num_labels, 1_28, 1_28) ) self.assertEqual(outputs.logits.shape , __snake_case ) _lowerCAmelCase = torch.tensor( [ [[-4.63_10, -5.52_32, -6.23_56], [-5.19_21, -6.14_44, -6.59_96], [-5.44_24, -6.27_90, -6.75_74]], [[-12.13_91, -13.31_22, -13.95_54], [-12.87_32, -13.93_52, -14.35_63], [-12.94_38, -13.82_26, -14.25_13]], [[-12.51_34, -13.46_86, -14.49_15], [-12.86_69, -14.43_43, -14.77_58], [-13.25_23, -14.58_19, -15.06_94]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1E-4 ) ) @slow def lowercase__ ( self : Optional[Any] ) -> Any: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained( """nvidia/segformer-b1-finetuned-cityscapes-1024-1024""" ).to(__snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = torch.Size((1, model.config.num_labels, 1_28, 1_28) ) self.assertEqual(outputs.logits.shape , __snake_case ) _lowerCAmelCase = torch.tensor( [ [[-13.57_48, -13.91_11, -12.65_00], [-14.35_00, -15.36_83, -14.23_28], [-14.75_32, -16.04_24, -15.60_87]], [[-17.16_51, -15.87_25, -12.96_53], [-17.25_80, -17.37_18, -14.82_23], [-16.60_58, -16.87_83, -16.74_52]], [[-3.64_56, -3.02_09, -1.42_03], [-3.07_97, -3.19_59, -2.00_00], [-1.87_57, -1.92_17, -1.69_97]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1E-1 ) ) @slow def lowercase__ ( self : Any ) -> str: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained("""nvidia/segformer-b0-finetuned-ade-512-512""" ).to( __snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = outputs.logits.detach().cpu() _lowerCAmelCase = image_processor.post_process_semantic_segmentation(outputs=__snake_case , target_sizes=[(5_00, 3_00)] ) _lowerCAmelCase = torch.Size((5_00, 3_00) ) self.assertEqual(segmentation[0].shape , __snake_case ) _lowerCAmelCase = image_processor.post_process_semantic_segmentation(outputs=__snake_case ) _lowerCAmelCase = torch.Size((1_28, 1_28) ) self.assertEqual(segmentation[0].shape , __snake_case )
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0
class __lowerCAmelCase : def __init__( self ): """simple docstring""" _lowerCAmelCase = 0 _lowerCAmelCase = 0 _lowerCAmelCase = {} def snake_case ( self , _snake_case ): """simple docstring""" if vertex not in self.adjacency: _lowerCAmelCase = {} self.num_vertices += 1 def snake_case ( self , _snake_case , _snake_case , _snake_case ): """simple docstring""" self.add_vertex(_snake_case ) self.add_vertex(_snake_case ) if head == tail: return _lowerCAmelCase = weight _lowerCAmelCase = weight def snake_case ( self ): """simple docstring""" _lowerCAmelCase = self.get_edges() for edge in edges: _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = edge edges.remove((tail, head, weight) ) for i in range(len(_snake_case ) ): _lowerCAmelCase = list(edges[i] ) edges.sort(key=lambda _snake_case : e[2] ) for i in range(len(_snake_case ) - 1 ): if edges[i][2] >= edges[i + 1][2]: _lowerCAmelCase = edges[i][2] + 1 for edge in edges: _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = edge _lowerCAmelCase = weight _lowerCAmelCase = weight def __str__( self ): """simple docstring""" _lowerCAmelCase = """""" for tail in self.adjacency: for head in self.adjacency[tail]: _lowerCAmelCase = self.adjacency[head][tail] string += F'{head} -> {tail} == {weight}\n' return string.rstrip("""\n""" ) def snake_case ( self ): """simple docstring""" _lowerCAmelCase = [] for tail in self.adjacency: for head in self.adjacency[tail]: output.append((tail, head, self.adjacency[head][tail]) ) return output def snake_case ( self ): """simple docstring""" return self.adjacency.keys() @staticmethod def snake_case ( _snake_case=None , _snake_case=None ): """simple docstring""" _lowerCAmelCase = Graph() if vertices is None: _lowerCAmelCase = [] if edges is None: _lowerCAmelCase = [] for vertex in vertices: g.add_vertex(_snake_case ) for edge in edges: g.add_edge(*_snake_case ) return g class __lowerCAmelCase : def __init__( self ): """simple docstring""" _lowerCAmelCase = {} _lowerCAmelCase = {} def __len__( self ): """simple docstring""" return len(self.parent ) def snake_case ( self , _snake_case ): """simple docstring""" if item in self.parent: return self.find(_snake_case ) _lowerCAmelCase = item _lowerCAmelCase = 0 return item def snake_case ( self , _snake_case ): """simple docstring""" if item not in self.parent: return self.make_set(_snake_case ) if item != self.parent[item]: _lowerCAmelCase = self.find(self.parent[item] ) return self.parent[item] def snake_case ( self , _snake_case , _snake_case ): """simple docstring""" _lowerCAmelCase = self.find(_snake_case ) _lowerCAmelCase = self.find(_snake_case ) if roota == roota: return roota if self.rank[roota] > self.rank[roota]: _lowerCAmelCase = roota return roota if self.rank[roota] < self.rank[roota]: _lowerCAmelCase = roota return roota if self.rank[roota] == self.rank[roota]: self.rank[roota] += 1 _lowerCAmelCase = roota return roota return None @staticmethod def snake_case ( _snake_case ): """simple docstring""" _lowerCAmelCase = graph.num_vertices _lowerCAmelCase = Graph.UnionFind() _lowerCAmelCase = [] while num_components > 1: _lowerCAmelCase = {} for vertex in graph.get_vertices(): _lowerCAmelCase = -1 _lowerCAmelCase = graph.get_edges() for edge in edges: _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = edge edges.remove((tail, head, weight) ) for edge in edges: _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = edge _lowerCAmelCase = union_find.find(_snake_case ) _lowerCAmelCase = union_find.find(_snake_case ) if seta != seta: if cheap_edge[seta] == -1 or cheap_edge[seta][2] > weight: _lowerCAmelCase = [head, tail, weight] if cheap_edge[seta] == -1 or cheap_edge[seta][2] > weight: _lowerCAmelCase = [head, tail, weight] for vertex in cheap_edge: if cheap_edge[vertex] != -1: _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = cheap_edge[vertex] if union_find.find(_snake_case ) != union_find.find(_snake_case ): union_find.union(_snake_case , _snake_case ) mst_edges.append(cheap_edge[vertex] ) _lowerCAmelCase = num_components - 1 _lowerCAmelCase = Graph.build(edges=_snake_case ) return mst
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'''simple docstring''' from dataclasses import dataclass, field from typing import TYPE_CHECKING, Any, ClassVar, Dict, List, Optional, Union import pyarrow as pa if TYPE_CHECKING: from .features import FeatureType @dataclass class UpperCAmelCase : _lowercase: List[str] _lowercase: Optional[str] = None # Automatically constructed _lowercase: ClassVar[str] = "dict" _lowercase: ClassVar[Any] = None _lowercase: str = field(default='''Translation''' , init=snake_case_ , repr=snake_case_ ) def __call__( self : Optional[int] ) -> Optional[int]: return pa.struct({lang: pa.string() for lang in sorted(self.languages )} ) def lowercase__ ( self : Union[str, Any] ) -> Union["FeatureType", Dict[str, "FeatureType"]]: from .features import Value return {k: Value("""string""" ) for k in sorted(self.languages )} @dataclass class UpperCAmelCase : _lowercase: Optional[List] = None _lowercase: Optional[int] = None _lowercase: Optional[str] = None # Automatically constructed _lowercase: ClassVar[str] = "dict" _lowercase: ClassVar[Any] = None _lowercase: str = field(default='''TranslationVariableLanguages''' , init=snake_case_ , repr=snake_case_ ) def lowercase__ ( self : Any ) -> Optional[Any]: _lowerCAmelCase = sorted(set(self.languages ) ) if self.languages else None _lowerCAmelCase = len(self.languages ) if self.languages else None def __call__( self : List[str] ) -> Optional[Any]: return pa.struct({"""language""": pa.list_(pa.string() ), """translation""": pa.list_(pa.string() )} ) def lowercase__ ( self : Optional[Any] , __snake_case : Tuple ) -> Any: _lowerCAmelCase = set(self.languages ) if self.languages and set(__snake_case ) - lang_set: raise ValueError( f"Some languages in example ({', '.join(sorted(set(__snake_case ) - lang_set ) )}) are not in valid set ({', '.join(__snake_case )})." ) # Convert dictionary into tuples, splitting out cases where there are # multiple translations for a single language. _lowerCAmelCase = [] for lang, text in translation_dict.items(): if isinstance(__snake_case , __snake_case ): translation_tuples.append((lang, text) ) else: translation_tuples.extend([(lang, el) for el in text] ) # Ensure translations are in ascending order by language code. _lowerCAmelCase , _lowerCAmelCase = zip(*sorted(__snake_case ) ) return {"language": languages, "translation": translations} def lowercase__ ( self : str ) -> Union["FeatureType", Dict[str, "FeatureType"]]: from .features import Sequence, Value return { "language": Sequence(Value("""string""" ) ), "translation": Sequence(Value("""string""" ) ), }
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'''simple docstring''' def A__ ( UpperCAmelCase_ = 5_0 ): _UpperCamelCase : Union[str, Any] = [1] * (length + 1) for row_length in range(length + 1 ): for tile_length in range(2 , 5 ): for tile_start in range(row_length - tile_length + 1 ): ways_number[row_length] += ways_number[ row_length - tile_start - tile_length ] return ways_number[length] if __name__ == "__main__": print(F"""{solution() = }""")
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'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import normalizers from tokenizers.pre_tokenizers import BertPreTokenizer, PreTokenizer from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_roformer import RoFormerTokenizer from .tokenization_utils import JiebaPreTokenizer A__ : List[str] =logging.get_logger(__name__) A__ : Any ={'''vocab_file''': '''vocab.txt''', '''tokenizer_file''': '''tokenizer.json'''} A__ : Any ={ '''vocab_file''': { '''junnyu/roformer_chinese_small''': '''https://huggingface.co/junnyu/roformer_chinese_small/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_base''': '''https://huggingface.co/junnyu/roformer_chinese_base/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_char_small''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_small/resolve/main/vocab.txt''' ), '''junnyu/roformer_chinese_char_base''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_base/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_discriminator''': ( '''https://huggingface.co/junnyu/roformer_small_discriminator/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_generator''': ( '''https://huggingface.co/junnyu/roformer_small_generator/resolve/main/vocab.txt''' ), } } A__ : Optional[int] ={ '''junnyu/roformer_chinese_small''': 15_36, '''junnyu/roformer_chinese_base''': 15_36, '''junnyu/roformer_chinese_char_small''': 5_12, '''junnyu/roformer_chinese_char_base''': 5_12, '''junnyu/roformer_small_discriminator''': 1_28, '''junnyu/roformer_small_generator''': 1_28, } A__ : Optional[int] ={ '''junnyu/roformer_chinese_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_base''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_base''': {'''do_lower_case''': True}, '''junnyu/roformer_small_discriminator''': {'''do_lower_case''': True}, '''junnyu/roformer_small_generator''': {'''do_lower_case''': True}, } class UpperCAmelCase ( snake_case_ ): _lowercase: Optional[Any] = VOCAB_FILES_NAMES _lowercase: Tuple = PRETRAINED_VOCAB_FILES_MAP _lowercase: Dict = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowercase: str = PRETRAINED_INIT_CONFIGURATION _lowercase: List[Any] = RoFormerTokenizer def __init__( self : Dict , __snake_case : str=None , __snake_case : Tuple=None , __snake_case : List[Any]=True , __snake_case : str="[UNK]" , __snake_case : Tuple="[SEP]" , __snake_case : str="[PAD]" , __snake_case : str="[CLS]" , __snake_case : Any="[MASK]" , __snake_case : Dict=True , __snake_case : str=None , **__snake_case : Optional[Any] , ) -> Union[str, Any]: super().__init__( __snake_case , tokenizer_file=__snake_case , do_lower_case=__snake_case , unk_token=__snake_case , sep_token=__snake_case , pad_token=__snake_case , cls_token=__snake_case , mask_token=__snake_case , tokenize_chinese_chars=__snake_case , strip_accents=__snake_case , **__snake_case , ) _lowerCAmelCase = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( pre_tok_state.get("""lowercase""" , __snake_case ) != do_lower_case or pre_tok_state.get("""strip_accents""" , __snake_case ) != strip_accents ): _lowerCAmelCase = getattr(__snake_case , pre_tok_state.pop("""type""" ) ) _lowerCAmelCase = do_lower_case _lowerCAmelCase = strip_accents _lowerCAmelCase = pre_tok_class(**__snake_case ) _lowerCAmelCase = do_lower_case def __getstate__( self : int ) -> Optional[int]: _lowerCAmelCase = self.__dict__.copy() _lowerCAmelCase = BertPreTokenizer() return state def __setstate__( self : Tuple , __snake_case : Tuple ) -> List[str]: _lowerCAmelCase = d _lowerCAmelCase = self.__dict__["""_tokenizer"""].get_vocab() _lowerCAmelCase = PreTokenizer.custom(JiebaPreTokenizer(__snake_case ) ) def lowercase__ ( self : Union[str, Any] , __snake_case : Optional[int] , __snake_case : Optional[int]=None ) -> Optional[Any]: _lowerCAmelCase = [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 lowercase__ ( self : List[str] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: _lowerCAmelCase = [self.sep_token_id] _lowerCAmelCase = [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 lowercase__ ( self : int , __snake_case : str , __snake_case : Optional[str] = None ) -> Tuple[str]: _lowerCAmelCase = self._tokenizer.model.save(__snake_case , name=__snake_case ) return tuple(__snake_case ) def lowercase__ ( self : Dict , __snake_case : Dict , __snake_case : int=None , __snake_case : List[Any]=None , __snake_case : List[Any]=False , **__snake_case : Dict , ) -> str: _lowerCAmelCase = BertPreTokenizer() return super().save_pretrained(__snake_case , __snake_case , __snake_case , __snake_case , **__snake_case )
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"""simple docstring""" import unittest from transformers import PegasusTokenizer, PegasusTokenizerFast from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, require_torch, slow from transformers.utils import cached_property from ...test_tokenization_common import TokenizerTesterMixin __UpperCAmelCase = get_tests_dir('fixtures/test_sentencepiece_no_bos.model') @require_sentencepiece @require_tokenizers class _SCREAMING_SNAKE_CASE ( A__ , unittest.TestCase ): UpperCAmelCase_ :Tuple = PegasusTokenizer UpperCAmelCase_ :List[Any] = PegasusTokenizerFast UpperCAmelCase_ :Optional[int] = True UpperCAmelCase_ :Union[str, Any] = True def __lowerCAmelCase ( self ) -> Tuple: super().setUp() # We have a SentencePiece fixture for testing lowerCAmelCase_ :Optional[int] = PegasusTokenizer(__A ) tokenizer.save_pretrained(self.tmpdirname ) @cached_property def __lowerCAmelCase ( self ) -> int: return PegasusTokenizer.from_pretrained("""google/pegasus-large""" ) def __lowerCAmelCase ( self , **__A ) -> PegasusTokenizer: return PegasusTokenizer.from_pretrained(self.tmpdirname , **__A ) def __lowerCAmelCase ( self , __A ) -> List[Any]: return ("This is a test", "This is a test") def __lowerCAmelCase ( self ) -> int: lowerCAmelCase_ :Any = """</s>""" lowerCAmelCase_ :Optional[int] = 1 self.assertEqual(self.get_tokenizer()._convert_token_to_id(__A ) , __A ) self.assertEqual(self.get_tokenizer()._convert_id_to_token(__A ) , __A ) def __lowerCAmelCase ( self ) -> int: lowerCAmelCase_ :Any = list(self.get_tokenizer().get_vocab().keys() ) self.assertEqual(vocab_keys[0] , """<pad>""" ) self.assertEqual(vocab_keys[1] , """</s>""" ) self.assertEqual(vocab_keys[-1] , """v""" ) self.assertEqual(len(__A ) , 1103 ) def __lowerCAmelCase ( self ) -> Optional[Any]: self.assertEqual(self.get_tokenizer().vocab_size , 1103 ) def __lowerCAmelCase ( self ) -> Optional[Any]: lowerCAmelCase_ :Dict = self.rust_tokenizer_class.from_pretrained(self.tmpdirname ) lowerCAmelCase_ :Optional[Any] = self.tokenizer_class.from_pretrained(self.tmpdirname ) lowerCAmelCase_ :Optional[Any] = ( """Let's see which <unk> is the better <unk_token_11> one <mask_1> It seems like this <mask_2> was important""" """ </s> <pad> <pad> <pad>""" ) lowerCAmelCase_ :List[str] = rust_tokenizer([raw_input_str] , return_tensors=__A , add_special_tokens=__A ).input_ids[0] lowerCAmelCase_ :List[Any] = py_tokenizer([raw_input_str] , return_tensors=__A , add_special_tokens=__A ).input_ids[0] self.assertListEqual(__A , __A ) def __lowerCAmelCase ( self ) -> Optional[int]: lowerCAmelCase_ :Dict = self._large_tokenizer # <mask_1> masks whole sentence while <mask_2> masks single word lowerCAmelCase_ :int = """<mask_1> To ensure a <mask_2> flow of bank resolutions.""" lowerCAmelCase_ :Any = [2, 413, 615, 114, 3, 1971, 113, 1679, 1_0710, 107, 1] lowerCAmelCase_ :Dict = tokenizer([raw_input_str] , return_tensors=__A ).input_ids[0] self.assertListEqual(__A , __A ) def __lowerCAmelCase ( self ) -> str: lowerCAmelCase_ :int = self._large_tokenizer # The tracebacks for the following asserts are **better** without messages or self.assertEqual assert tokenizer.vocab_size == 9_6103 assert tokenizer.pad_token_id == 0 assert tokenizer.eos_token_id == 1 assert tokenizer.offset == 103 assert tokenizer.unk_token_id == tokenizer.offset + 2 == 105 assert tokenizer.unk_token == "<unk>" assert tokenizer.model_max_length == 1024 lowerCAmelCase_ :Dict = """To ensure a smooth flow of bank resolutions.""" lowerCAmelCase_ :List[str] = [413, 615, 114, 2291, 1971, 113, 1679, 1_0710, 107, 1] lowerCAmelCase_ :Union[str, Any] = tokenizer([raw_input_str] , return_tensors=__A ).input_ids[0] self.assertListEqual(__A , __A ) assert tokenizer.convert_ids_to_tokens([0, 1, 2, 3] ) == ["<pad>", "</s>", "<mask_1>", "<mask_2>"] @require_torch def __lowerCAmelCase ( self ) -> Tuple: lowerCAmelCase_ :Dict = ["""This is going to be way too long.""" * 150, """short example"""] lowerCAmelCase_ :int = ["""not super long but more than 5 tokens""", """tiny"""] lowerCAmelCase_ :str = self._large_tokenizer(__A , padding=__A , truncation=__A , return_tensors="""pt""" ) lowerCAmelCase_ :Dict = self._large_tokenizer( text_target=__A , max_length=5 , padding=__A , truncation=__A , return_tensors="""pt""" ) assert batch.input_ids.shape == (2, 1024) assert batch.attention_mask.shape == (2, 1024) assert targets["input_ids"].shape == (2, 5) assert len(__A ) == 2 # input_ids, attention_mask. @slow def __lowerCAmelCase ( self ) -> List[Any]: # fmt: off lowerCAmelCase_ :Dict = {"""input_ids""": [[3_8979, 143, 1_8485, 606, 130, 2_6669, 8_7686, 121, 5_4189, 1129, 111, 2_6669, 8_7686, 121, 9114, 1_4787, 121, 1_3249, 158, 592, 956, 121, 1_4621, 3_1576, 143, 6_2613, 108, 9688, 930, 4_3430, 1_1562, 6_2613, 304, 108, 1_1443, 897, 108, 9314, 1_7415, 6_3399, 108, 1_1443, 7614, 1_8316, 118, 4284, 7148, 1_2430, 143, 1400, 2_5703, 158, 111, 4284, 7148, 1_1772, 143, 2_1297, 1064, 158, 122, 204, 3506, 1754, 1133, 1_4787, 1581, 115, 3_3224, 4482, 111, 1355, 110, 2_9173, 317, 5_0833, 108, 2_0147, 9_4665, 111, 7_7198, 107, 1], [110, 6_2613, 117, 638, 112, 1133, 121, 2_0098, 1355, 7_9050, 1_3872, 135, 1596, 5_3541, 1352, 141, 1_3039, 5542, 124, 302, 518, 111, 268, 2956, 115, 149, 4427, 107, 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], [139, 1235, 2799, 1_8289, 1_7780, 204, 109, 9474, 1296, 107, 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]], """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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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=__A , model_name="""google/bigbird-pegasus-large-arxiv""" , revision="""ba85d0851d708441f91440d509690f1ab6353415""" , ) @require_sentencepiece @require_tokenizers class _SCREAMING_SNAKE_CASE ( A__ , unittest.TestCase ): UpperCAmelCase_ :Optional[Any] = PegasusTokenizer UpperCAmelCase_ :Any = PegasusTokenizerFast UpperCAmelCase_ :Optional[Any] = True UpperCAmelCase_ :List[Any] = True def __lowerCAmelCase ( self ) -> List[str]: super().setUp() # We have a SentencePiece fixture for testing lowerCAmelCase_ :Any = PegasusTokenizer(__A , offset=0 , mask_token_sent=__A , mask_token="""[MASK]""" ) tokenizer.save_pretrained(self.tmpdirname ) @cached_property def __lowerCAmelCase ( self ) -> int: return PegasusTokenizer.from_pretrained("""google/bigbird-pegasus-large-arxiv""" ) def __lowerCAmelCase ( self , **__A ) -> PegasusTokenizer: return PegasusTokenizer.from_pretrained(self.tmpdirname , **__A ) def __lowerCAmelCase ( self , __A ) -> Tuple: return ("This is a test", "This is a test") def __lowerCAmelCase ( self ) -> Union[str, Any]: lowerCAmelCase_ :Any = self.rust_tokenizer_class.from_pretrained(self.tmpdirname ) lowerCAmelCase_ :Optional[Any] = self.tokenizer_class.from_pretrained(self.tmpdirname ) lowerCAmelCase_ :int = ( """Let's see which <unk> is the better <unk_token> one [MASK] It seems like this [MASK] was important </s>""" """ <pad> <pad> <pad>""" ) lowerCAmelCase_ :int = rust_tokenizer([raw_input_str] , return_tensors=__A , add_special_tokens=__A ).input_ids[0] lowerCAmelCase_ :List[Any] = py_tokenizer([raw_input_str] , return_tensors=__A , add_special_tokens=__A ).input_ids[0] self.assertListEqual(__A , __A ) @require_torch def __lowerCAmelCase ( self ) -> Optional[Any]: lowerCAmelCase_ :Optional[Any] = ["""This is going to be way too long.""" * 1000, """short example"""] lowerCAmelCase_ :List[str] = ["""not super long but more than 5 tokens""", """tiny"""] lowerCAmelCase_ :Any = self._large_tokenizer(__A , padding=__A , truncation=__A , return_tensors="""pt""" ) lowerCAmelCase_ :Any = self._large_tokenizer( text_target=__A , max_length=5 , padding=__A , truncation=__A , return_tensors="""pt""" ) assert batch.input_ids.shape == (2, 4096) assert batch.attention_mask.shape == (2, 4096) assert targets["input_ids"].shape == (2, 5) assert len(__A ) == 2 # input_ids, attention_mask. def __lowerCAmelCase ( self ) -> List[str]: lowerCAmelCase_ :Dict = ( """This is an example string that is used to test the original TF implementation against the HF""" """ implementation""" ) lowerCAmelCase_ :Any = self._large_tokenizer(__A ).input_ids self.assertListEqual( __A , [182, 117, 142, 587, 4211, 120, 117, 263, 112, 804, 109, 856, 2_5016, 3137, 464, 109, 2_6955, 3137, 1] , )
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'''simple docstring''' # This model implementation is heavily inspired by https://github.com/haofanwang/ControlNet-for-Diffusers/ import gc import random import tempfile import unittest import numpy as np import torch from PIL import Image from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer from diffusers import ( AutoencoderKL, ControlNetModel, DDIMScheduler, StableDiffusionControlNetImgaImgPipeline, UNetaDConditionModel, ) from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel from diffusers.utils import floats_tensor, load_image, load_numpy, randn_tensor, slow, torch_device from diffusers.utils.import_utils import is_xformers_available from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..pipeline_params import ( IMAGE_TO_IMAGE_IMAGE_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_PARAMS, ) from ..test_pipelines_common import ( PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin, ) enable_full_determinism() class UpperCAmelCase ( snake_case_ , snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Optional[int] = StableDiffusionControlNetImgaImgPipeline _lowercase: Tuple = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''} _lowercase: str = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS _lowercase: Tuple = IMAGE_TO_IMAGE_IMAGE_PARAMS.union({'''control_image'''} ) _lowercase: Union[str, Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS def lowercase__ ( self : List[str] ) -> List[str]: torch.manual_seed(0 ) _lowerCAmelCase = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , ) torch.manual_seed(0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) torch.manual_seed(0 ) _lowerCAmelCase = DDIMScheduler( beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule="""scaled_linear""" , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) _lowerCAmelCase = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , ) torch.manual_seed(0 ) _lowerCAmelCase = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) _lowerCAmelCase = CLIPTextModel(__snake_case ) _lowerCAmelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) _lowerCAmelCase = { """unet""": unet, """controlnet""": controlnet, """scheduler""": scheduler, """vae""": vae, """text_encoder""": text_encoder, """tokenizer""": tokenizer, """safety_checker""": None, """feature_extractor""": None, } return components def lowercase__ ( self : Any , __snake_case : str , __snake_case : Any=0 ) -> str: if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = 2 _lowerCAmelCase = randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ) _lowerCAmelCase = floats_tensor(control_image.shape , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((64, 64) ) _lowerCAmelCase = { """prompt""": """A painting of a squirrel eating a burger""", """generator""": generator, """num_inference_steps""": 2, """guidance_scale""": 6.0, """output_type""": """numpy""", """image""": image, """control_image""": control_image, } return inputs def lowercase__ ( self : Optional[int] ) -> List[Any]: return self._test_attention_slicing_forward_pass(expected_max_diff=2E-3 ) @unittest.skipIf( torch_device != """cuda""" or not is_xformers_available() , reason="""XFormers attention is only available with CUDA and `xformers` installed""" , ) def lowercase__ ( self : Tuple ) -> Optional[int]: self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2E-3 ) def lowercase__ ( self : Tuple ) -> Optional[int]: self._test_inference_batch_single_identical(expected_max_diff=2E-3 ) class UpperCAmelCase ( snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Any = StableDiffusionControlNetImgaImgPipeline _lowercase: Dict = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''} _lowercase: List[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS _lowercase: Any = frozenset([] ) # TO_DO: add image_params once refactored VaeImageProcessor.preprocess def lowercase__ ( self : Optional[Any] ) -> Union[str, Any]: torch.manual_seed(0 ) _lowerCAmelCase = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , ) torch.manual_seed(0 ) def init_weights(__snake_case : Optional[Any] ): if isinstance(__snake_case , torch.nn.Convad ): torch.nn.init.normal(m.weight ) m.bias.data.fill_(1.0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) controlneta.controlnet_down_blocks.apply(__snake_case ) torch.manual_seed(0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) controlneta.controlnet_down_blocks.apply(__snake_case ) torch.manual_seed(0 ) _lowerCAmelCase = DDIMScheduler( beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule="""scaled_linear""" , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) _lowerCAmelCase = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , ) torch.manual_seed(0 ) _lowerCAmelCase = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) _lowerCAmelCase = CLIPTextModel(__snake_case ) _lowerCAmelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) _lowerCAmelCase = MultiControlNetModel([controlneta, controlneta] ) _lowerCAmelCase = { """unet""": unet, """controlnet""": controlnet, """scheduler""": scheduler, """vae""": vae, """text_encoder""": text_encoder, """tokenizer""": tokenizer, """safety_checker""": None, """feature_extractor""": None, } return components def lowercase__ ( self : Tuple , __snake_case : int , __snake_case : List[str]=0 ) -> Union[str, Any]: if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = 2 _lowerCAmelCase = [ randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ), randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ), ] _lowerCAmelCase = floats_tensor(control_image[0].shape , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((64, 64) ) _lowerCAmelCase = { """prompt""": """A painting of a squirrel eating a burger""", """generator""": generator, """num_inference_steps""": 2, """guidance_scale""": 6.0, """output_type""": """numpy""", """image""": image, """control_image""": control_image, } return inputs def lowercase__ ( self : List[str] ) -> Dict: _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) pipe.to(__snake_case ) _lowerCAmelCase = 10.0 _lowerCAmelCase = 4 _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=0.1 , control_guidance_end=0.2 )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=[0.1, 0.3] , control_guidance_end=[0.2, 0.7] )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=0.4 , control_guidance_end=[0.5, 0.8] )[0] # make sure that all outputs are different assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 def lowercase__ ( self : int ) -> str: return self._test_attention_slicing_forward_pass(expected_max_diff=2E-3 ) @unittest.skipIf( torch_device != """cuda""" or not is_xformers_available() , reason="""XFormers attention is only available with CUDA and `xformers` installed""" , ) def lowercase__ ( self : Optional[Any] ) -> Dict: self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2E-3 ) def lowercase__ ( self : int ) -> str: self._test_inference_batch_single_identical(expected_max_diff=2E-3 ) def lowercase__ ( self : Union[str, Any] ) -> Optional[Any]: _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) with tempfile.TemporaryDirectory() as tmpdir: try: # save_pretrained is not implemented for Multi-ControlNet pipe.save_pretrained(__snake_case ) except NotImplementedError: pass @slow @require_torch_gpu class UpperCAmelCase ( unittest.TestCase ): def lowercase__ ( self : Union[str, Any] ) -> int: super().tearDown() gc.collect() torch.cuda.empty_cache() def lowercase__ ( self : List[str] ) -> Any: _lowerCAmelCase = ControlNetModel.from_pretrained("""lllyasviel/sd-controlnet-canny""" ) _lowerCAmelCase = StableDiffusionControlNetImgaImgPipeline.from_pretrained( """runwayml/stable-diffusion-v1-5""" , safety_checker=__snake_case , controlnet=__snake_case ) pipe.enable_model_cpu_offload() pipe.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = torch.Generator(device="""cpu""" ).manual_seed(0 ) _lowerCAmelCase = """evil space-punk bird""" _lowerCAmelCase = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png""" ).resize((5_12, 5_12) ) _lowerCAmelCase = load_image( """https://huggingface.co/lllyasviel/sd-controlnet-canny/resolve/main/images/bird.png""" ).resize((5_12, 5_12) ) _lowerCAmelCase = pipe( __snake_case , __snake_case , control_image=__snake_case , generator=__snake_case , output_type="""np""" , num_inference_steps=50 , strength=0.6 , ) _lowerCAmelCase = output.images[0] assert image.shape == (5_12, 5_12, 3) _lowerCAmelCase = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/img2img.npy""" ) assert np.abs(expected_image - image ).max() < 9E-2
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'''simple docstring''' import argparse import math import traceback import dateutil.parser as date_parser import requests def UpperCamelCase_( snake_case : int ): '''simple docstring''' snake_case_ = {} snake_case_ = job["started_at"] snake_case_ = job["completed_at"] snake_case_ = date_parser.parse(snake_case ) snake_case_ = date_parser.parse(snake_case ) snake_case_ = round((end_datetime - start_datetime).total_seconds() / 60.0 ) snake_case_ = start snake_case_ = end snake_case_ = duration_in_min return job_info def UpperCamelCase_( snake_case : Union[str, Any] , snake_case : Union[str, Any]=None ): '''simple docstring''' snake_case_ = None if token is not None: snake_case_ = {"Accept": "application/vnd.github+json", "Authorization": f'Bearer {token}'} snake_case_ = f'https://api.github.com/repos/huggingface/transformers/actions/runs/{workflow_run_id}/jobs?per_page=100' snake_case_ = requests.get(snake_case , headers=snake_case ).json() snake_case_ = {} try: job_time.update({job["name"]: extract_time_from_single_job(snake_case ) for job in result["jobs"]} ) snake_case_ = math.ceil((result["total_count"] - 1_0_0) / 1_0_0 ) for i in range(snake_case ): snake_case_ = requests.get(url + f'&page={i + 2}' , headers=snake_case ).json() job_time.update({job["name"]: extract_time_from_single_job(snake_case ) for job in result["jobs"]} ) return job_time except Exception: print(f'Unknown error, could not fetch links:\n{traceback.format_exc()}' ) return {} if __name__ == "__main__": _SCREAMING_SNAKE_CASE : Union[str, Any] = argparse.ArgumentParser() # Required parameters parser.add_argument("--workflow_run_id", type=str, required=True, help="A GitHub Actions workflow run id.") _SCREAMING_SNAKE_CASE : int = parser.parse_args() _SCREAMING_SNAKE_CASE : List[str] = get_job_time(args.workflow_run_id) _SCREAMING_SNAKE_CASE : Optional[int] = dict(sorted(job_time.items(), key=lambda item: item[1]["duration"], reverse=True)) for k, v in job_time.items(): print(F"{k}: {v['duration']}")
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'''simple docstring''' import argparse import json from pathlib import Path import requests import torch from huggingface_hub import hf_hub_download from PIL import Image from transformers import ( SwiftFormerConfig, SwiftFormerForImageClassification, ViTImageProcessor, ) from transformers.utils import logging logging.set_verbosity_info() A__ : List[Any] =logging.get_logger(__name__) A__ : Any =torch.device('''cpu''') def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = """http://images.cocodataset.org/val2017/000000039769.jpg""" _lowerCAmelCase = Image.open(requests.get(lowerCAmelCase , stream=lowerCAmelCase ).raw ) return im def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if swiftformer_name == "swiftformer_xs": return torch.tensor([-2.17_03e00, 2.11_07e00, -2.08_11e00, 8.86_85e-01, 2.43_60e-01] ) elif swiftformer_name == "swiftformer_s": return torch.tensor([3.96_36e-01, 2.34_78e-01, -1.69_63e00, -1.73_81e00, -8.63_37e-01] ) elif swiftformer_name == "swiftformer_l1": return torch.tensor([-4.27_68e-01, -4.74_29e-01, -1.08_97e00, -1.02_48e00, 3.55_23e-02] ) elif swiftformer_name == "swiftformer_l3": return torch.tensor([-2.53_30e-01, 2.42_11e-01, -6.01_85e-01, -8.27_89e-01, -6.04_46e-02] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = dct.pop(lowerCAmelCase ) _lowerCAmelCase = val def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [] for k in state_dict.keys(): _lowerCAmelCase = k if ".pwconv" in k: _lowerCAmelCase = k_new.replace(""".pwconv""" , """.point_wise_conv""" ) if ".dwconv" in k: _lowerCAmelCase = k_new.replace(""".dwconv""" , """.depth_wise_conv""" ) if ".Proj." in k: _lowerCAmelCase = k_new.replace(""".Proj.""" , """.proj.""" ) if "patch_embed" in k_new: _lowerCAmelCase = k_new.replace("""patch_embed""" , """swiftformer.patch_embed.patch_embedding""" ) if "network" in k_new: _lowerCAmelCase = k_new.split(""".""" ) if ls[2].isdigit(): _lowerCAmelCase = """swiftformer.encoder.network.""" + ls[1] + """.blocks.""" + ls[2] + """.""" + """.""".join(ls[3:] ) else: _lowerCAmelCase = k_new.replace("""network""" , """swiftformer.encoder.network""" ) rename_keys.append((k, k_new) ) return rename_keys @torch.no_grad() def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = SwiftFormerConfig() # dataset (ImageNet-21k only or also fine-tuned on ImageNet 2012), patch_size and image_size _lowerCAmelCase = 10_00 _lowerCAmelCase = """huggingface/label-files""" _lowerCAmelCase = """imagenet-1k-id2label.json""" _lowerCAmelCase = json.load(open(hf_hub_download(lowerCAmelCase , lowerCAmelCase , repo_type="""dataset""" ) , """r""" ) ) _lowerCAmelCase = {int(lowerCAmelCase ): v for k, v in idalabel.items()} _lowerCAmelCase = idalabel _lowerCAmelCase = {v: k for k, v in idalabel.items()} # size of the architecture if swiftformer_name == "swiftformer_xs": _lowerCAmelCase = [3, 3, 6, 4] _lowerCAmelCase = [48, 56, 1_12, 2_20] elif swiftformer_name == "swiftformer_s": _lowerCAmelCase = [3, 3, 9, 6] _lowerCAmelCase = [48, 64, 1_68, 2_24] elif swiftformer_name == "swiftformer_l1": _lowerCAmelCase = [4, 3, 10, 5] _lowerCAmelCase = [48, 96, 1_92, 3_84] elif swiftformer_name == "swiftformer_l3": _lowerCAmelCase = [4, 4, 12, 6] _lowerCAmelCase = [64, 1_28, 3_20, 5_12] # load state_dict of original model, remove and rename some keys if original_ckpt: if original_ckpt.startswith("""https""" ): _lowerCAmelCase = torch.hub.load_state_dict_from_url(lowerCAmelCase , map_location="""cpu""" , check_hash=lowerCAmelCase ) else: _lowerCAmelCase = torch.load(lowerCAmelCase , map_location="""cpu""" ) _lowerCAmelCase = checkpoint _lowerCAmelCase = create_rename_keys(lowerCAmelCase ) for rename_key_src, rename_key_dest in rename_keys: rename_key(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ) # load HuggingFace model _lowerCAmelCase = SwiftFormerForImageClassification(lowerCAmelCase ).eval() hf_model.load_state_dict(lowerCAmelCase ) # prepare test inputs _lowerCAmelCase = prepare_img() _lowerCAmelCase = ViTImageProcessor.from_pretrained("""preprocessor_config""" ) _lowerCAmelCase = processor(images=lowerCAmelCase , return_tensors="""pt""" ) # compare outputs from both models _lowerCAmelCase = get_expected_output(lowerCAmelCase ) _lowerCAmelCase = hf_model(inputs["""pixel_values"""] ).logits assert hf_logits.shape == torch.Size([1, 10_00] ) assert torch.allclose(hf_logits[0, 0:5] , lowerCAmelCase , atol=1e-3 ) Path(lowerCAmelCase ).mkdir(exist_ok=lowerCAmelCase ) print(f"Saving model {swiftformer_name} to {pytorch_dump_folder_path}" ) hf_model.save_pretrained(lowerCAmelCase ) if __name__ == "__main__": A__ : str =argparse.ArgumentParser() # Required parameters parser.add_argument( '''--swiftformer_name''', default='''swiftformer_xs''', choices=['''swiftformer_xs''', '''swiftformer_s''', '''swiftformer_l1''', '''swiftformer_l3'''], type=str, help='''Name of the SwiftFormer model you\'d like to convert.''', ) parser.add_argument( '''--pytorch_dump_folder_path''', default='''./converted_outputs/''', type=str, help='''Path to the output PyTorch model directory.''', ) parser.add_argument('''--original_ckpt''', default=None, type=str, help='''Path to the original model checkpoint.''') A__ : Tuple =parser.parse_args() convert_swiftformer_checkpoint(args.swiftformer_name, args.pytorch_dump_folder_path, args.original_ckpt)
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"""simple docstring""" import torch from torch import nn from ...configuration_utils import ConfigMixin, register_to_config from ...models import ModelMixin class A__ ( _lowerCamelCase , _lowerCamelCase): @register_to_config def __init__( self , *, _SCREAMING_SNAKE_CASE = 4 , _SCREAMING_SNAKE_CASE = 7_68 , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , ): super().__init__() __lowerCAmelCase : Dict = nn.Parameter(torch.zeros(_SCREAMING_SNAKE_CASE ) ) # parameters for additional clip time embeddings __lowerCAmelCase : Dict = nn.Linear(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Dict = nn.Linear(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) # parameters for encoder hidden states __lowerCAmelCase : List[Any] = clip_extra_context_tokens __lowerCAmelCase : Optional[Any] = nn.Linear( _SCREAMING_SNAKE_CASE , self.clip_extra_context_tokens * cross_attention_dim ) __lowerCAmelCase : List[Any] = nn.Linear(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Optional[int] = nn.LayerNorm(_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self , *, _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): if do_classifier_free_guidance: # Add the classifier free guidance embeddings to the image embeddings __lowerCAmelCase : Tuple = image_embeddings.shape[0] __lowerCAmelCase : int = self.learned_classifier_free_guidance_embeddings.unsqueeze(0 ) __lowerCAmelCase : int = classifier_free_guidance_embeddings.expand( _SCREAMING_SNAKE_CASE , -1 ) __lowerCAmelCase : Optional[Any] = torch.cat([classifier_free_guidance_embeddings, image_embeddings] , dim=0 ) # The image embeddings batch size and the text embeddings batch size are equal assert image_embeddings.shape[0] == prompt_embeds.shape[0] __lowerCAmelCase : int = prompt_embeds.shape[0] # "Specifically, we modify the architecture described in Nichol et al. (2021) by projecting and # adding CLIP embeddings to the existing timestep embedding, ... __lowerCAmelCase : Any = self.embedding_proj(_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : int = self.clip_image_embeddings_project_to_time_embeddings(_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Any = time_projected_image_embeddings + time_projected_prompt_embeds # ... and by projecting CLIP embeddings into four # extra tokens of context that are concatenated to the sequence of outputs from the GLIDE text encoder" __lowerCAmelCase : Optional[Any] = self.clip_extra_context_tokens_proj(_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Optional[int] = clip_extra_context_tokens.reshape(_SCREAMING_SNAKE_CASE , -1 , self.clip_extra_context_tokens ) __lowerCAmelCase : Any = clip_extra_context_tokens.permute(0 , 2 , 1 ) __lowerCAmelCase : List[Any] = self.encoder_hidden_states_proj(_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Tuple = self.text_encoder_hidden_states_norm(_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Tuple = torch.cat([clip_extra_context_tokens, text_encoder_hidden_states] , dim=1 ) return text_encoder_hidden_states, additive_clip_time_embeddings
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'''simple docstring''' import os import pytest from datasets import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, ) A__ : List[Any] =pytest.mark.integration @pytest.mark.parametrize("""path""" , ["""paws""", """csv"""] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" inspect_dataset(lowerCAmelCase , lowerCAmelCase ) _lowerCAmelCase = path + """.py""" assert script_name in os.listdir(lowerCAmelCase ) assert "__pycache__" not in os.listdir(lowerCAmelCase ) @pytest.mark.filterwarnings("""ignore:inspect_metric is deprecated:FutureWarning""" ) @pytest.mark.filterwarnings("""ignore:metric_module_factory is deprecated:FutureWarning""" ) @pytest.mark.parametrize("""path""" , ["""accuracy"""] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" inspect_metric(lowerCAmelCase , lowerCAmelCase ) _lowerCAmelCase = path + """.py""" assert script_name in os.listdir(lowerCAmelCase ) assert "__pycache__" not in os.listdir(lowerCAmelCase ) @pytest.mark.parametrize( """path, config_name, expected_splits""" , [ ("""squad""", """plain_text""", ["""train""", """validation"""]), ("""dalle-mini/wit""", """dalle-mini--wit""", ["""train"""]), ("""paws""", """labeled_final""", ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_config_info(lowerCAmelCase , config_name=lowerCAmelCase ) assert info.config_name == config_name assert list(info.splits.keys() ) == expected_splits @pytest.mark.parametrize( """path, config_name, expected_exception""" , [ ("""paws""", None, ValueError), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" with pytest.raises(lowerCAmelCase ): get_dataset_config_info(lowerCAmelCase , config_name=lowerCAmelCase ) @pytest.mark.parametrize( """path, expected""" , [ ("""squad""", """plain_text"""), ("""acronym_identification""", """default"""), ("""lhoestq/squad""", """plain_text"""), ("""lhoestq/test""", """default"""), ("""lhoestq/demo1""", """lhoestq--demo1"""), ("""dalle-mini/wit""", """dalle-mini--wit"""), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_config_names(lowerCAmelCase ) assert expected in config_names @pytest.mark.parametrize( """path, expected_configs, expected_splits_in_first_config""" , [ ("""squad""", ["""plain_text"""], ["""train""", """validation"""]), ("""dalle-mini/wit""", ["""dalle-mini--wit"""], ["""train"""]), ("""paws""", ["""labeled_final""", """labeled_swap""", """unlabeled_final"""], ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_infos(lowerCAmelCase ) assert list(infos.keys() ) == expected_configs _lowerCAmelCase = expected_configs[0] assert expected_config in infos _lowerCAmelCase = infos[expected_config] assert info.config_name == expected_config assert list(info.splits.keys() ) == expected_splits_in_first_config @pytest.mark.parametrize( """path, expected_config, expected_splits""" , [ ("""squad""", """plain_text""", ["""train""", """validation"""]), ("""dalle-mini/wit""", """dalle-mini--wit""", ["""train"""]), ("""paws""", """labeled_final""", ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_infos(lowerCAmelCase ) assert expected_config in infos _lowerCAmelCase = infos[expected_config] assert info.config_name == expected_config assert list(info.splits.keys() ) == expected_splits @pytest.mark.parametrize( """path, config_name, expected_exception""" , [ ("""paws""", None, ValueError), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" with pytest.raises(lowerCAmelCase ): get_dataset_split_names(lowerCAmelCase , config_name=lowerCAmelCase )
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# flake8: noqa # Lint as: python3 UpperCamelCase = [ '''VerificationMode''', '''Version''', '''disable_progress_bar''', '''enable_progress_bar''', '''is_progress_bar_enabled''', '''experimental''', ] from .info_utils import VerificationMode from .logging import disable_progress_bar, enable_progress_bar, is_progress_bar_enabled from .version import Version from .experimental import experimental
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'''simple docstring''' from torch import nn def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if act_fn in ["swish", "silu"]: return nn.SiLU() elif act_fn == "mish": return nn.Mish() elif act_fn == "gelu": return nn.GELU() else: raise ValueError(f"Unsupported activation function: {act_fn}" )
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from __future__ import annotations import collections import pprint from pathlib import Path def a__ ( A_ ): '''simple docstring''' return "".join(sorted(A_ ) ) def a__ ( A_ ): '''simple docstring''' return word_by_signature[signature(A_ )] __lowerCAmelCase : str = Path(__file__).parent.joinpath('words.txt').read_text(encoding='utf-8') __lowerCAmelCase : Union[str, Any] = sorted({word.strip().lower() for word in data.splitlines()}) __lowerCAmelCase : str = collections.defaultdict(list) for word in word_list: word_by_signature[signature(word)].append(word) if __name__ == "__main__": __lowerCAmelCase : str = {word: anagram(word) for word in word_list if len(anagram(word)) > 1} with open('anagrams.txt', 'w') as file: file.write('all_anagrams = \n ') file.write(pprint.pformat(all_anagrams))
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'''simple docstring''' # Lint as: python3 # pylint: enable=line-too-long # pylint: disable=g-import-not-at-top,g-bad-import-order,wrong-import-position A__ : Dict ='''2.13.1''' import platform import pyarrow from packaging import version if version.parse(platform.python_version()) < version.parse('''3.7'''): raise ImportWarning( '''To use `datasets`, Python>=3.7 is required, and the current version of Python doesn\'t match this condition.''' ) if version.parse(pyarrow.__version__).major < 8: raise ImportWarning( '''To use `datasets`, the module `pyarrow>=8.0.0` is required, and the current version of `pyarrow` doesn\'t match this condition.\n''' '''If you are running this in a Google Colab, you should probably just restart the runtime to use the right version of `pyarrow`.''' ) del platform del pyarrow del version from .arrow_dataset import Dataset from .arrow_reader import ReadInstruction from .builder import ArrowBasedBuilder, BeamBasedBuilder, BuilderConfig, DatasetBuilder, GeneratorBasedBuilder from .combine import concatenate_datasets, interleave_datasets from .dataset_dict import DatasetDict, IterableDatasetDict from .download import * from .features import * from .fingerprint import disable_caching, enable_caching, is_caching_enabled, set_caching_enabled from .info import DatasetInfo, MetricInfo from .inspect import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, list_datasets, list_metrics, ) from .iterable_dataset import IterableDataset from .load import load_dataset, load_dataset_builder, load_from_disk, load_metric from .metric import Metric from .splits import ( NamedSplit, NamedSplitAll, Split, SplitBase, SplitDict, SplitGenerator, SplitInfo, SubSplitInfo, percent, ) from .tasks import * from .utils import * from .utils import logging # deprecated modules from datasets import arrow_dataset as _arrow_dataset # isort:skip from datasets import utils as _utils # isort:skip from datasets.utils import download_manager as _deprecated_download_manager # isort:skip A__ : Tuple =concatenate_datasets A__ : Dict =DownloadConfig A__ : int =DownloadManager A__ : Union[str, Any] =DownloadMode A__ : Tuple =DownloadConfig A__ : Optional[Any] =DownloadMode A__ : str =DownloadManager del _arrow_dataset, _utils, _deprecated_download_manager
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'''simple docstring''' import re from typing import Callable, List, Optional, Union import tensorflow as tf try: from tensorflow.keras.optimizers.legacy import Adam except ImportError: from tensorflow.keras.optimizers import Adam class __magic_name__ ( tf.keras.optimizers.schedules.LearningRateSchedule ): def __init__( self : Tuple ,_UpperCAmelCase : float ,_UpperCAmelCase : Callable ,_UpperCAmelCase : int ,_UpperCAmelCase : float = 1.0 ,_UpperCAmelCase : str = None ,): super().__init__() _a : List[Any] = initial_learning_rate _a : Optional[int] = warmup_steps _a : List[str] = power _a : Dict = decay_schedule_fn _a : List[Any] = name def __call__( self : Optional[int] ,_UpperCAmelCase : Dict ): with tf.name_scope(self.name or 'WarmUp' ) as name: # Implements polynomial warmup. i.e., if global_step < warmup_steps, the # learning rate will be `global_step/num_warmup_steps * init_lr`. _a : str = tf.cast(_UpperCAmelCase ,tf.floataa ) _a : List[str] = tf.cast(self.warmup_steps ,tf.floataa ) _a : Tuple = global_step_float / warmup_steps_float _a : Optional[int] = self.initial_learning_rate * tf.math.pow(_UpperCAmelCase ,self.power ) return tf.cond( global_step_float < warmup_steps_float ,lambda: warmup_learning_rate ,lambda: self.decay_schedule_fn(step - self.warmup_steps ) ,name=_UpperCAmelCase ,) def __lowercase ( self : Any ): return { "initial_learning_rate": self.initial_learning_rate, "decay_schedule_fn": self.decay_schedule_fn, "warmup_steps": self.warmup_steps, "power": self.power, "name": self.name, } def __lowerCamelCase ( lowerCAmelCase_ , lowerCAmelCase_ , lowerCAmelCase_ , lowerCAmelCase_ = 0.0 , lowerCAmelCase_ = 0.9 , lowerCAmelCase_ = 0.999 , lowerCAmelCase_ = 1E-8 , lowerCAmelCase_ = None , lowerCAmelCase_ = None , lowerCAmelCase_ = 0.0 , lowerCAmelCase_ = 1.0 , lowerCAmelCase_ = None , ) -> List[Any]: _a : int = tf.keras.optimizers.schedules.PolynomialDecay( initial_learning_rate=lowerCAmelCase_ , decay_steps=num_train_steps - num_warmup_steps , end_learning_rate=init_lr * min_lr_ratio , power=lowerCAmelCase_ , ) if num_warmup_steps: _a : Optional[int] = WarmUp( initial_learning_rate=lowerCAmelCase_ , decay_schedule_fn=lowerCAmelCase_ , warmup_steps=lowerCAmelCase_ , ) if weight_decay_rate > 0.0: _a : Union[str, Any] = AdamWeightDecay( learning_rate=lowerCAmelCase_ , weight_decay_rate=lowerCAmelCase_ , beta_a=lowerCAmelCase_ , beta_a=lowerCAmelCase_ , epsilon=lowerCAmelCase_ , clipnorm=lowerCAmelCase_ , global_clipnorm=lowerCAmelCase_ , exclude_from_weight_decay=['LayerNorm', 'layer_norm', 'bias'] , include_in_weight_decay=lowerCAmelCase_ , ) else: _a : List[str] = tf.keras.optimizers.Adam( learning_rate=lowerCAmelCase_ , beta_a=lowerCAmelCase_ , beta_a=lowerCAmelCase_ , epsilon=lowerCAmelCase_ , clipnorm=lowerCAmelCase_ , global_clipnorm=lowerCAmelCase_ , ) # We return the optimizer and the LR scheduler in order to better track the # evolution of the LR independently of the optimizer. return optimizer, lr_schedule class __magic_name__ ( _UpperCamelCase ): def __init__( self : str ,_UpperCAmelCase : Union[float, tf.keras.optimizers.schedules.LearningRateSchedule] = 0.0_01 ,_UpperCAmelCase : float = 0.9 ,_UpperCAmelCase : float = 0.9_99 ,_UpperCAmelCase : float = 1E-7 ,_UpperCAmelCase : bool = False ,_UpperCAmelCase : float = 0.0 ,_UpperCAmelCase : Optional[List[str]] = None ,_UpperCAmelCase : Optional[List[str]] = None ,_UpperCAmelCase : str = "AdamWeightDecay" ,**_UpperCAmelCase : int ,): super().__init__(_UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ,**_UpperCAmelCase ) _a : List[Any] = weight_decay_rate _a : int = include_in_weight_decay _a : str = exclude_from_weight_decay @classmethod def __lowercase ( cls : Any ,_UpperCAmelCase : int ): _a : int = {'WarmUp': WarmUp} return super(_UpperCAmelCase ,cls ).from_config(_UpperCAmelCase ,custom_objects=_UpperCAmelCase ) def __lowercase ( self : Optional[int] ,_UpperCAmelCase : List[str] ,_UpperCAmelCase : Tuple ,_UpperCAmelCase : Union[str, Any] ): super(_UpperCAmelCase ,self )._prepare_local(_UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ) _a : str = tf.constant( self.weight_decay_rate ,name='adam_weight_decay_rate' ) def __lowercase ( self : Union[str, Any] ,_UpperCAmelCase : List[Any] ,_UpperCAmelCase : List[Any] ,_UpperCAmelCase : List[str] ): _a : Dict = self._do_use_weight_decay(var.name ) if do_decay: return var.assign_sub( learning_rate * var * apply_state[(var.device, var.dtype.base_dtype)]['weight_decay_rate'] ,use_locking=self._use_locking ,) return tf.no_op() def __lowercase ( self : Optional[Any] ,_UpperCAmelCase : str ,_UpperCAmelCase : List[str]=None ,**_UpperCAmelCase : Optional[int] ): _a , _a : int = list(zip(*_UpperCAmelCase ) ) return super(_UpperCAmelCase ,self ).apply_gradients(zip(_UpperCAmelCase ,_UpperCAmelCase ) ,name=_UpperCAmelCase ,**_UpperCAmelCase ) def __lowercase ( self : List[Any] ,_UpperCAmelCase : int ,_UpperCAmelCase : List[Any] ,_UpperCAmelCase : Union[str, Any] ): if apply_state is None: return self._decayed_lr_t[var_dtype], {} _a : Union[str, Any] = apply_state or {} _a : Union[str, Any] = apply_state.get((var_device, var_dtype) ) if coefficients is None: _a : Any = self._fallback_apply_state(_UpperCAmelCase ,_UpperCAmelCase ) _a : Any = coefficients return coefficients["lr_t"], {"apply_state": apply_state} def __lowercase ( self : Any ,_UpperCAmelCase : Optional[int] ,_UpperCAmelCase : Dict ,_UpperCAmelCase : int=None ): _a , _a : str = self._get_lr(var.device ,var.dtype.base_dtype ,_UpperCAmelCase ) _a : Any = self._decay_weights_op(_UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ) with tf.control_dependencies([decay] ): return super(_UpperCAmelCase ,self )._resource_apply_dense(_UpperCAmelCase ,_UpperCAmelCase ,**_UpperCAmelCase ) def __lowercase ( self : Tuple ,_UpperCAmelCase : int ,_UpperCAmelCase : str ,_UpperCAmelCase : Dict ,_UpperCAmelCase : List[Any]=None ): _a , _a : Tuple = self._get_lr(var.device ,var.dtype.base_dtype ,_UpperCAmelCase ) _a : Tuple = self._decay_weights_op(_UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ) with tf.control_dependencies([decay] ): return super(_UpperCAmelCase ,self )._resource_apply_sparse(_UpperCAmelCase ,_UpperCAmelCase ,_UpperCAmelCase ,**_UpperCAmelCase ) def __lowercase ( self : Dict ): _a : List[Any] = super().get_config() config.update({'weight_decay_rate': self.weight_decay_rate} ) return config def __lowercase ( self : List[Any] ,_UpperCAmelCase : Dict ): if self.weight_decay_rate == 0: return False if self._include_in_weight_decay: for r in self._include_in_weight_decay: if re.search(_UpperCAmelCase ,_UpperCAmelCase ) is not None: return True if self._exclude_from_weight_decay: for r in self._exclude_from_weight_decay: if re.search(_UpperCAmelCase ,_UpperCAmelCase ) is not None: return False return True class __magic_name__ ( _UpperCamelCase ): def __init__( self : List[str] ): _a : Optional[Any] = [] _a : Any = None @property def __lowercase ( self : int ): if self._accum_steps is None: _a : List[str] = tf.Variable( tf.constant(0 ,dtype=tf.intaa ) ,trainable=_UpperCAmelCase ,synchronization=tf.VariableSynchronization.ON_READ ,aggregation=tf.VariableAggregation.ONLY_FIRST_REPLICA ,) return self._accum_steps.value() @property def __lowercase ( self : str ): if not self._gradients: raise ValueError('The accumulator should be called first to initialize the gradients' ) return [gradient.value() if gradient is not None else gradient for gradient in self._gradients] def __call__( self : int ,_UpperCAmelCase : Union[str, Any] ): if not self._gradients: _a : Dict = self.step # Create the step variable. self._gradients.extend( [ tf.Variable( tf.zeros_like(_UpperCAmelCase ) ,trainable=_UpperCAmelCase ,synchronization=tf.VariableSynchronization.ON_READ ,aggregation=tf.VariableAggregation.ONLY_FIRST_REPLICA ,) if gradient is not None else gradient for gradient in gradients ] ) if len(_UpperCAmelCase ) != len(self._gradients ): raise ValueError(F"""Expected {len(self._gradients )} gradients, but got {len(_UpperCAmelCase )}""" ) for accum_gradient, gradient in zip(self._gradients ,_UpperCAmelCase ): if accum_gradient is not None and gradient is not None: accum_gradient.assign_add(_UpperCAmelCase ) self._accum_steps.assign_add(1 ) def __lowercase ( self : List[str] ): if not self._gradients: return self._accum_steps.assign(0 ) for gradient in self._gradients: if gradient is not None: gradient.assign(tf.zeros_like(_UpperCAmelCase ) )
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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tokenizers_available, is_torch_available A__ : Tuple ={ '''configuration_mvp''': ['''MVP_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''MvpConfig''', '''MvpOnnxConfig'''], '''tokenization_mvp''': ['''MvpTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : int =['''MvpTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : Any =[ '''MVP_PRETRAINED_MODEL_ARCHIVE_LIST''', '''MvpForCausalLM''', '''MvpForConditionalGeneration''', '''MvpForQuestionAnswering''', '''MvpForSequenceClassification''', '''MvpModel''', '''MvpPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_mvp import MVP_PRETRAINED_CONFIG_ARCHIVE_MAP, MvpConfig, MvpOnnxConfig from .tokenization_mvp import MvpTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_mvp_fast import MvpTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mvp import ( MVP_PRETRAINED_MODEL_ARCHIVE_LIST, MvpForCausalLM, MvpForConditionalGeneration, MvpForQuestionAnswering, MvpForSequenceClassification, MvpModel, MvpPreTrainedModel, ) else: import sys A__ : Any =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
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import unittest import numpy as np from transformers import is_flax_available from transformers.testing_utils import require_flax from ..test_modeling_flax_common import ids_tensor if is_flax_available(): import jax import jax.numpy as jnp from transformers.generation import ( FlaxForcedBOSTokenLogitsProcessor, FlaxForcedEOSTokenLogitsProcessor, FlaxLogitsProcessorList, FlaxMinLengthLogitsProcessor, FlaxTemperatureLogitsWarper, FlaxTopKLogitsWarper, FlaxTopPLogitsWarper, ) @require_flax class __lowerCAmelCase ( unittest.TestCase ): """simple docstring""" def lowercase_ ( self , lowerCamelCase__ , lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' __lowerCamelCase = jnp.ones((batch_size, length) ) / length return scores def lowercase_ ( self ) -> List[str]: '''simple docstring''' __lowerCamelCase = None __lowerCamelCase = 20 __lowerCamelCase = self._get_uniform_logits(batch_size=2 , length=lowerCamelCase__ ) # tweak scores to not be uniform anymore __lowerCamelCase = scores.at[1, 5].set((1 / length) + 0.1 ) # peak, 1st batch __lowerCamelCase = scores.at[1, 10].set((1 / length) - 0.4 ) # valley, 1st batch # compute softmax __lowerCamelCase = jax.nn.softmax(lowerCamelCase__ , axis=-1 ) __lowerCamelCase = FlaxTemperatureLogitsWarper(temperature=0.5 ) __lowerCamelCase = FlaxTemperatureLogitsWarper(temperature=1.3 ) __lowerCamelCase = jax.nn.softmax(temp_dist_warper_sharper(lowerCamelCase__ , scores.copy() , cur_len=lowerCamelCase__ ) , axis=-1 ) __lowerCamelCase = jax.nn.softmax(temp_dist_warper_smoother(lowerCamelCase__ , scores.copy() , cur_len=lowerCamelCase__ ) , axis=-1 ) # uniform distribution stays uniform self.assertTrue(jnp.allclose(probs[0, :] , warped_prob_sharp[0, :] , atol=1e-3 ) ) self.assertTrue(jnp.allclose(probs[0, :] , warped_prob_smooth[0, :] , atol=1e-3 ) ) # sharp peaks get higher, valleys get lower self.assertLess(probs[1, :].max() , warped_prob_sharp[1, :].max() ) self.assertGreater(probs[1, :].min() , warped_prob_sharp[1, :].min() ) # smooth peaks get lower, valleys get higher self.assertGreater(probs[1, :].max() , warped_prob_smooth[1, :].max() ) self.assertLess(probs[1, :].min() , warped_prob_smooth[1, :].min() ) def lowercase_ ( self ) -> Any: '''simple docstring''' __lowerCamelCase = None __lowerCamelCase = 10 __lowerCamelCase = 2 # create ramp distribution __lowerCamelCase = np.broadcast_to(np.arange(lowerCamelCase__ )[None, :] , (batch_size, vocab_size) ).copy() __lowerCamelCase = ramp_logits[1:, : vocab_size // 2] + vocab_size __lowerCamelCase = FlaxTopKLogitsWarper(3 ) __lowerCamelCase = top_k_warp(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) # check that correct tokens are filtered self.assertListEqual(jnp.isinf(scores[0] ).tolist() , 7 * [True] + 3 * [False] ) self.assertListEqual(jnp.isinf(scores[1] ).tolist() , 2 * [True] + 3 * [False] + 5 * [True] ) # check special case __lowerCamelCase = 5 __lowerCamelCase = FlaxTopKLogitsWarper(top_k=1 , filter_value=0.0 , min_tokens_to_keep=3 ) __lowerCamelCase = np.broadcast_to(np.arange(lowerCamelCase__ )[None, :] , (batch_size, length) ).copy() __lowerCamelCase = top_k_warp_safety_check(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) # min_tokens overwrites k: 3 tokens are kept => 2 tokens are nullified self.assertListEqual((scores == 0.0).sum(axis=-1 ).tolist() , [2, 2] ) def lowercase_ ( self ) -> Optional[int]: '''simple docstring''' __lowerCamelCase = None __lowerCamelCase = 10 __lowerCamelCase = 2 # create distribution and take log (inverse to Softmax as taken in TopPLogitsWarper) __lowerCamelCase = np.log(np.array([[0.3, 0.1, 0.1, 0.5], [0.15, 0.3, 0.3, 0.25]] ) ) __lowerCamelCase = FlaxTopPLogitsWarper(0.8 ) __lowerCamelCase = np.exp(top_p_warp(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) ) # dist should be filtered to keep min num values so that sum is >= top_p # exp (-inf) => 0 __lowerCamelCase = np.array([[0.3, 0.0, 0.0, 0.5], [0.0, 0.3, 0.3, 0.25]] ) self.assertTrue(np.allclose(lowerCamelCase__ , lowerCamelCase__ , atol=1e-3 ) ) # check edge cases with negative and extreme logits __lowerCamelCase = np.broadcast_to(np.arange(lowerCamelCase__ )[None, :] , (batch_size, vocab_size) ).copy() - ( vocab_size // 2 ) # make ramp_logits more extreme __lowerCamelCase = ramp_logits[1] * 1_00.0 # make sure at least 2 tokens are kept __lowerCamelCase = FlaxTopPLogitsWarper(0.9 , min_tokens_to_keep=2 , filter_value=0.0 ) __lowerCamelCase = top_p_warp(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) # first batch should keep three tokens, second batch would keep only 1, but due to `min_tokens_to_keep=2` keeps 2. self.assertListEqual((filtered_dist != 0.0).sum(axis=-1 ).tolist() , [3, 2] ) def lowercase_ ( self ) -> str: '''simple docstring''' __lowerCamelCase = 20 __lowerCamelCase = 4 __lowerCamelCase = 0 __lowerCamelCase = FlaxMinLengthLogitsProcessor(min_length=10 , eos_token_id=lowerCamelCase__ ) # check that min length is applied at length 5 __lowerCamelCase = ids_tensor((batch_size, 20) , vocab_size=20 ) __lowerCamelCase = 5 __lowerCamelCase = self._get_uniform_logits(lowerCamelCase__ , lowerCamelCase__ ) __lowerCamelCase = min_dist_processor(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) self.assertListEqual(scores_before_min_length[:, eos_token_id].tolist() , 4 * [-float('inf' )] ) # check that min length is not applied anymore at length 15 __lowerCamelCase = self._get_uniform_logits(lowerCamelCase__ , lowerCamelCase__ ) __lowerCamelCase = 15 __lowerCamelCase = min_dist_processor(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) self.assertFalse(jnp.isinf(lowerCamelCase__ ).any() ) def lowercase_ ( self ) -> str: '''simple docstring''' __lowerCamelCase = 20 __lowerCamelCase = 4 __lowerCamelCase = 0 __lowerCamelCase = FlaxForcedBOSTokenLogitsProcessor(bos_token_id=lowerCamelCase__ ) # check that all scores are -inf except the bos_token_id score __lowerCamelCase = ids_tensor((batch_size, 1) , vocab_size=20 ) __lowerCamelCase = 1 __lowerCamelCase = self._get_uniform_logits(lowerCamelCase__ , lowerCamelCase__ ) __lowerCamelCase = logits_processor(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) self.assertTrue(jnp.isneginf(scores[:, bos_token_id + 1 :] ).all() ) self.assertListEqual(scores[:, bos_token_id].tolist() , 4 * [0] ) # score for bos_token_id shold be zero # check that bos_token_id is not forced if current length is greater than 1 __lowerCamelCase = 3 __lowerCamelCase = self._get_uniform_logits(lowerCamelCase__ , lowerCamelCase__ ) __lowerCamelCase = logits_processor(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) self.assertFalse(jnp.isinf(lowerCamelCase__ ).any() ) def lowercase_ ( self ) -> List[str]: '''simple docstring''' __lowerCamelCase = 20 __lowerCamelCase = 4 __lowerCamelCase = 0 __lowerCamelCase = 5 __lowerCamelCase = FlaxForcedEOSTokenLogitsProcessor(max_length=lowerCamelCase__ , eos_token_id=lowerCamelCase__ ) # check that all scores are -inf except the eos_token_id when max_length is reached __lowerCamelCase = ids_tensor((batch_size, 4) , vocab_size=20 ) __lowerCamelCase = 4 __lowerCamelCase = self._get_uniform_logits(lowerCamelCase__ , lowerCamelCase__ ) __lowerCamelCase = logits_processor(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) self.assertTrue(jnp.isneginf(scores[:, eos_token_id + 1 :] ).all() ) self.assertListEqual(scores[:, eos_token_id].tolist() , 4 * [0] ) # score for eos_token_id should be zero # check that eos_token_id is not forced if max_length is not reached __lowerCamelCase = 3 __lowerCamelCase = self._get_uniform_logits(lowerCamelCase__ , lowerCamelCase__ ) __lowerCamelCase = logits_processor(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) self.assertFalse(jnp.isinf(lowerCamelCase__ ).any() ) def lowercase_ ( self ) -> Dict: '''simple docstring''' __lowerCamelCase = 4 __lowerCamelCase = 10 __lowerCamelCase = 15 __lowerCamelCase = 2 __lowerCamelCase = 1 __lowerCamelCase = 15 # dummy input_ids and scores __lowerCamelCase = ids_tensor((batch_size, sequence_length) , lowerCamelCase__ ) __lowerCamelCase = input_ids.copy() __lowerCamelCase = self._get_uniform_logits(lowerCamelCase__ , lowerCamelCase__ ) __lowerCamelCase = scores.copy() # instantiate all dist processors __lowerCamelCase = FlaxTemperatureLogitsWarper(temperature=0.5 ) __lowerCamelCase = FlaxTopKLogitsWarper(3 ) __lowerCamelCase = FlaxTopPLogitsWarper(0.8 ) # instantiate all logits processors __lowerCamelCase = FlaxMinLengthLogitsProcessor(min_length=10 , eos_token_id=lowerCamelCase__ ) __lowerCamelCase = FlaxForcedBOSTokenLogitsProcessor(bos_token_id=lowerCamelCase__ ) __lowerCamelCase = FlaxForcedEOSTokenLogitsProcessor(max_length=lowerCamelCase__ , eos_token_id=lowerCamelCase__ ) __lowerCamelCase = 10 # no processor list __lowerCamelCase = temp_dist_warp(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) __lowerCamelCase = top_k_warp(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) __lowerCamelCase = top_p_warp(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) __lowerCamelCase = min_dist_proc(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) __lowerCamelCase = bos_dist_proc(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) __lowerCamelCase = eos_dist_proc(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) # with processor list __lowerCamelCase = FlaxLogitsProcessorList( [temp_dist_warp, top_k_warp, top_p_warp, min_dist_proc, bos_dist_proc, eos_dist_proc] ) __lowerCamelCase = processor(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) # scores should be equal self.assertTrue(jnp.allclose(lowerCamelCase__ , lowerCamelCase__ , atol=1e-3 ) ) # input_ids should never be changed self.assertListEqual(input_ids.tolist() , input_ids_comp.tolist() ) def lowercase_ ( self ) -> Dict: '''simple docstring''' __lowerCamelCase = 4 __lowerCamelCase = 10 __lowerCamelCase = 15 __lowerCamelCase = 2 __lowerCamelCase = 1 __lowerCamelCase = 15 # dummy input_ids and scores __lowerCamelCase = ids_tensor((batch_size, sequence_length) , lowerCamelCase__ ) __lowerCamelCase = input_ids.copy() __lowerCamelCase = self._get_uniform_logits(lowerCamelCase__ , lowerCamelCase__ ) __lowerCamelCase = scores.copy() # instantiate all dist processors __lowerCamelCase = FlaxTemperatureLogitsWarper(temperature=0.5 ) __lowerCamelCase = FlaxTopKLogitsWarper(3 ) __lowerCamelCase = FlaxTopPLogitsWarper(0.8 ) # instantiate all logits processors __lowerCamelCase = FlaxMinLengthLogitsProcessor(min_length=10 , eos_token_id=lowerCamelCase__ ) __lowerCamelCase = FlaxForcedBOSTokenLogitsProcessor(bos_token_id=lowerCamelCase__ ) __lowerCamelCase = FlaxForcedEOSTokenLogitsProcessor(max_length=lowerCamelCase__ , eos_token_id=lowerCamelCase__ ) __lowerCamelCase = 10 # no processor list def run_no_processor_list(lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ ): __lowerCamelCase = temp_dist_warp(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) __lowerCamelCase = top_k_warp(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) __lowerCamelCase = top_p_warp(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) __lowerCamelCase = min_dist_proc(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) __lowerCamelCase = bos_dist_proc(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) __lowerCamelCase = eos_dist_proc(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) return scores # with processor list def run_processor_list(lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ ): __lowerCamelCase = FlaxLogitsProcessorList( [temp_dist_warp, top_k_warp, top_p_warp, min_dist_proc, bos_dist_proc, eos_dist_proc] ) __lowerCamelCase = processor(lowerCamelCase__ , lowerCamelCase__ , cur_len=lowerCamelCase__ ) return scores __lowerCamelCase = jax.jit(lowerCamelCase__ ) __lowerCamelCase = jax.jit(lowerCamelCase__ ) __lowerCamelCase = jitted_run_no_processor_list(lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ ) __lowerCamelCase = jitted_run_processor_list(lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ ) # scores should be equal self.assertTrue(jnp.allclose(lowerCamelCase__ , lowerCamelCase__ , atol=1e-3 ) ) # input_ids should never be changed self.assertListEqual(input_ids.tolist() , input_ids_comp.tolist() )
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'''simple docstring''' def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [0 for i in range(r + 1 )] # nc0 = 1 _lowerCAmelCase = 1 for i in range(1 , n + 1 ): # to compute current row from previous row. _lowerCAmelCase = min(lowerCAmelCase , lowerCAmelCase ) while j > 0: c[j] += c[j - 1] j -= 1 return c[r] print(binomial_coefficient(n=10, r=5))
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"""simple docstring""" from typing import Dict, List, Optional, Union import numpy as np from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import ( center_crop, get_resize_output_image_size, normalize, rescale, resize, to_channel_dimension_format, ) from ...image_utils import ( IMAGENET_STANDARD_MEAN, IMAGENET_STANDARD_STD, ChannelDimension, ImageInput, PILImageResampling, make_list_of_images, to_numpy_array, valid_images, ) from ...utils import TensorType, logging UpperCAmelCase_ : List[str] = logging.get_logger(__name__) class lowerCAmelCase__ ( UpperCAmelCase__ ): '''simple docstring''' __UpperCamelCase = ["pixel_values"] def __init__( self : Tuple , lowercase_ : bool = True , lowercase_ : Optional[Dict[str, int]] = None , lowercase_ : PILImageResampling = PILImageResampling.BILINEAR , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : bool = True , lowercase_ : Union[int, float] = 1 / 255 , lowercase_ : bool = True , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , **lowercase_ : str , ): '''simple docstring''' super().__init__(**lowercase_) SCREAMING_SNAKE_CASE_ : Dict = size if size is not None else {'''shortest_edge''': 256} SCREAMING_SNAKE_CASE_ : str = get_size_dict(lowercase_ , default_to_square=lowercase_) SCREAMING_SNAKE_CASE_ : Dict = crop_size if crop_size is not None else {'''height''': 224, '''width''': 224} SCREAMING_SNAKE_CASE_ : int = get_size_dict(lowercase_) SCREAMING_SNAKE_CASE_ : List[Any] = do_resize SCREAMING_SNAKE_CASE_ : int = size SCREAMING_SNAKE_CASE_ : List[Any] = resample SCREAMING_SNAKE_CASE_ : int = do_center_crop SCREAMING_SNAKE_CASE_ : List[Any] = crop_size SCREAMING_SNAKE_CASE_ : List[Any] = do_rescale SCREAMING_SNAKE_CASE_ : Optional[int] = rescale_factor SCREAMING_SNAKE_CASE_ : str = do_normalize SCREAMING_SNAKE_CASE_ : int = image_mean if image_mean is not None else IMAGENET_STANDARD_MEAN SCREAMING_SNAKE_CASE_ : List[Any] = image_std if image_std is not None else IMAGENET_STANDARD_STD def _SCREAMING_SNAKE_CASE ( self : str , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Optional[int] , ): '''simple docstring''' SCREAMING_SNAKE_CASE_ : List[Any] = get_size_dict(lowercase_ , default_to_square=lowercase_) if "shortest_edge" not in size: raise ValueError(F'The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}') SCREAMING_SNAKE_CASE_ : int = get_resize_output_image_size(lowercase_ , size=size['''shortest_edge'''] , default_to_square=lowercase_) return resize(lowercase_ , size=lowercase_ , resample=lowercase_ , data_format=lowercase_ , **lowercase_) def _SCREAMING_SNAKE_CASE ( self : Optional[int] , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : int , ): '''simple docstring''' SCREAMING_SNAKE_CASE_ : List[str] = get_size_dict(lowercase_) return center_crop(lowercase_ , size=(size['''height'''], size['''width''']) , data_format=lowercase_ , **lowercase_) def _SCREAMING_SNAKE_CASE ( self : Union[str, Any] , lowercase_ : np.ndarray , lowercase_ : float , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : List[str]): '''simple docstring''' return rescale(lowercase_ , scale=lowercase_ , data_format=lowercase_ , **lowercase_) def _SCREAMING_SNAKE_CASE ( self : int , lowercase_ : np.ndarray , lowercase_ : Union[float, List[float]] , lowercase_ : Union[float, List[float]] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : str , ): '''simple docstring''' return normalize(lowercase_ , mean=lowercase_ , std=lowercase_ , data_format=lowercase_ , **lowercase_) def _SCREAMING_SNAKE_CASE ( self : int , lowercase_ : ImageInput , lowercase_ : Optional[bool] = None , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = None , lowercase_ : bool = None , lowercase_ : Dict[str, int] = None , lowercase_ : Optional[bool] = None , lowercase_ : Optional[float] = None , lowercase_ : Optional[bool] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[str, TensorType]] = None , lowercase_ : Union[str, ChannelDimension] = ChannelDimension.FIRST , **lowercase_ : Dict , ): '''simple docstring''' SCREAMING_SNAKE_CASE_ : Tuple = do_resize if do_resize is not None else self.do_resize SCREAMING_SNAKE_CASE_ : Union[str, Any] = size if size is not None else self.size SCREAMING_SNAKE_CASE_ : int = get_size_dict(lowercase_ , default_to_square=lowercase_) SCREAMING_SNAKE_CASE_ : Dict = resample if resample is not None else self.resample SCREAMING_SNAKE_CASE_ : Dict = do_center_crop if do_center_crop is not None else self.do_center_crop SCREAMING_SNAKE_CASE_ : List[str] = crop_size if crop_size is not None else self.crop_size SCREAMING_SNAKE_CASE_ : Any = get_size_dict(lowercase_) SCREAMING_SNAKE_CASE_ : Dict = do_rescale if do_rescale is not None else self.do_rescale SCREAMING_SNAKE_CASE_ : Dict = rescale_factor if rescale_factor is not None else self.rescale_factor SCREAMING_SNAKE_CASE_ : str = do_normalize if do_normalize is not None else self.do_normalize SCREAMING_SNAKE_CASE_ : List[Any] = image_mean if image_mean is not None else self.image_mean SCREAMING_SNAKE_CASE_ : Optional[int] = image_std if image_std is not None else self.image_std SCREAMING_SNAKE_CASE_ : List[Any] = make_list_of_images(lowercase_) if not valid_images(lowercase_): raise ValueError( '''Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, ''' '''torch.Tensor, tf.Tensor or jax.ndarray.''') if do_resize and size is None: raise ValueError('''Size must be specified if do_resize is True.''') if do_center_crop and crop_size is None: raise ValueError('''Crop size must be specified if do_center_crop is True.''') if do_rescale and rescale_factor is None: raise ValueError('''Rescale factor must be specified if do_rescale is True.''') if do_normalize and (image_mean is None or image_std is None): raise ValueError('''Image mean and std must be specified if do_normalize is True.''') # All transformations expect numpy arrays. SCREAMING_SNAKE_CASE_ : Union[str, Any] = [to_numpy_array(lowercase_) for image in images] if do_resize: SCREAMING_SNAKE_CASE_ : Union[str, Any] = [self.resize(image=lowercase_ , size=lowercase_ , resample=lowercase_) for image in images] if do_center_crop: SCREAMING_SNAKE_CASE_ : Tuple = [self.center_crop(image=lowercase_ , size=lowercase_) for image in images] if do_rescale: SCREAMING_SNAKE_CASE_ : int = [self.rescale(image=lowercase_ , scale=lowercase_) for image in images] if do_normalize: SCREAMING_SNAKE_CASE_ : Optional[int] = [self.normalize(image=lowercase_ , mean=lowercase_ , std=lowercase_) for image in images] SCREAMING_SNAKE_CASE_ : Any = [to_channel_dimension_format(lowercase_ , lowercase_) for image in images] SCREAMING_SNAKE_CASE_ : Dict = {'''pixel_values''': images} return BatchFeature(data=lowercase_ , tensor_type=lowercase_)
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'''simple docstring''' import itertools from dataclasses import dataclass from typing import Optional import pandas as pd import pyarrow as pa import datasets from datasets.table import table_cast @dataclass class UpperCAmelCase ( datasets.BuilderConfig ): _lowercase: Optional[datasets.Features] = None class UpperCAmelCase ( datasets.ArrowBasedBuilder ): _lowercase: Tuple = PandasConfig def lowercase__ ( self : Optional[Any] ) -> str: return datasets.DatasetInfo(features=self.config.features ) def lowercase__ ( self : List[str] , __snake_case : Dict ) -> int: if not self.config.data_files: raise ValueError(f"At least one data file must be specified, but got data_files={self.config.data_files}" ) _lowerCAmelCase = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__snake_case , (str, list, tuple) ): _lowerCAmelCase = data_files if isinstance(__snake_case , __snake_case ): _lowerCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive _lowerCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"""files""": files} )] _lowerCAmelCase = [] for split_name, files in data_files.items(): if isinstance(__snake_case , __snake_case ): _lowerCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive _lowerCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] splits.append(datasets.SplitGenerator(name=__snake_case , gen_kwargs={"""files""": files} ) ) return splits def lowercase__ ( self : List[Any] , __snake_case : pa.Table ) -> pa.Table: if self.config.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example _lowerCAmelCase = table_cast(__snake_case , self.config.features.arrow_schema ) return pa_table def lowercase__ ( self : Dict , __snake_case : Optional[Any] ) -> Any: for i, file in enumerate(itertools.chain.from_iterable(__snake_case ) ): with open(__snake_case , """rb""" ) as f: _lowerCAmelCase = pa.Table.from_pandas(pd.read_pickle(__snake_case ) ) yield i, self._cast_table(__snake_case )
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def _a ( SCREAMING_SNAKE_CASE_ : int = 1_00 ): __lowerCAmelCase = (n * (n + 1) // 2) ** 2 __lowerCAmelCase = n * (n + 1) * (2 * n + 1) // 6 return sum_cubes - sum_squares if __name__ == "__main__": print(f'''{solution() = }''')
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'''simple docstring''' import heapq as hq import math from collections.abc import Iterator class UpperCAmelCase : def __init__( self : str , __snake_case : Any ) -> str: _lowerCAmelCase = str(id_ ) _lowerCAmelCase = None _lowerCAmelCase = None _lowerCAmelCase = [] _lowerCAmelCase = {} # {vertex:distance} def __lt__( self : List[str] , __snake_case : Union[str, Any] ) -> Any: return self.key < other.key def __repr__( self : Optional[Any] ) -> Optional[Any]: return self.id def lowercase__ ( self : Union[str, Any] , __snake_case : Tuple ) -> Optional[Any]: self.neighbors.append(__snake_case ) def lowercase__ ( self : Tuple , __snake_case : List[str] , __snake_case : Tuple ) -> Any: _lowerCAmelCase = weight def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" graph[a - 1].add_neighbor(graph[b - 1] ) graph[b - 1].add_neighbor(graph[a - 1] ) # add the edges: graph[a - 1].add_edge(graph[b - 1] , lowerCAmelCase ) graph[b - 1].add_edge(graph[a - 1] , lowerCAmelCase ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [] for u in graph: _lowerCAmelCase = math.inf _lowerCAmelCase = None _lowerCAmelCase = 0 _lowerCAmelCase = graph[:] while q: _lowerCAmelCase = min(lowerCAmelCase ) q.remove(lowerCAmelCase ) for v in u.neighbors: if (v in q) and (u.edges[v.id] < v.key): _lowerCAmelCase = u _lowerCAmelCase = u.edges[v.id] for i in range(1 , len(lowerCAmelCase ) ): a.append((int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) ) return a def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" for u in graph: _lowerCAmelCase = math.inf _lowerCAmelCase = None _lowerCAmelCase = 0 _lowerCAmelCase = list(lowerCAmelCase ) hq.heapify(lowerCAmelCase ) while h: _lowerCAmelCase = hq.heappop(lowerCAmelCase ) for v in u.neighbors: if (v in h) and (u.edges[v.id] < v.key): _lowerCAmelCase = u _lowerCAmelCase = u.edges[v.id] hq.heapify(lowerCAmelCase ) for i in range(1 , len(lowerCAmelCase ) ): yield (int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) def UpperCamelCase__ ( ): """simple docstring""" if __name__ == "__main__": import doctest doctest.testmod()
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'''simple docstring''' import os import random import sys from . import cryptomath_module as cryptomath from . import rabin_miller _lowercase : str = 3 def snake_case_ ( __SCREAMING_SNAKE_CASE : int ): """simple docstring""" print('''Generating primitive root of p''' ) while True: lowercase_ : Tuple = random.randrange(3 , __SCREAMING_SNAKE_CASE ) if pow(__SCREAMING_SNAKE_CASE , 2 , __SCREAMING_SNAKE_CASE ) == 1: continue if pow(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) == 1: continue return g def snake_case_ ( __SCREAMING_SNAKE_CASE : int ): """simple docstring""" print('''Generating prime p...''' ) lowercase_ : Union[str, Any] = rabin_miller.generate_large_prime(__SCREAMING_SNAKE_CASE ) # select large prime number. lowercase_ : Any = primitive_root(__SCREAMING_SNAKE_CASE ) # one primitive root on modulo p. lowercase_ : Any = random.randrange(3 , __SCREAMING_SNAKE_CASE ) # private_key -> have to be greater than 2 for safety. lowercase_ : List[Any] = cryptomath.find_mod_inverse(pow(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) , __SCREAMING_SNAKE_CASE ) lowercase_ : List[Any] = (key_size, e_a, e_a, p) lowercase_ : Optional[Any] = (key_size, d) return public_key, private_key def snake_case_ ( __SCREAMING_SNAKE_CASE : str , __SCREAMING_SNAKE_CASE : int ): """simple docstring""" if os.path.exists(F'''{name}_pubkey.txt''' ) or os.path.exists(F'''{name}_privkey.txt''' ): print('''\nWARNING:''' ) print( F'''"{name}_pubkey.txt" or "{name}_privkey.txt" already exists. \n''' '''Use a different name or delete these files and re-run this program.''' ) sys.exit() lowercase_ , lowercase_ : Optional[Any] = generate_key(__SCREAMING_SNAKE_CASE ) print(F'''\nWriting public key to file {name}_pubkey.txt...''' ) with open(F'''{name}_pubkey.txt''' , '''w''' ) as fo: fo.write(F'''{public_key[0]},{public_key[1]},{public_key[2]},{public_key[3]}''' ) print(F'''Writing private key to file {name}_privkey.txt...''' ) with open(F'''{name}_privkey.txt''' , '''w''' ) as fo: fo.write(F'''{private_key[0]},{private_key[1]}''' ) def snake_case_ ( ): """simple docstring""" print('''Making key files...''' ) make_key_files('''elgamal''' , 2048 ) print('''Key files generation successful''' ) if __name__ == "__main__": main()
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'''simple docstring''' import unittest from transformers import is_torch_available from transformers.testing_utils import require_sentencepiece, require_tokenizers, require_torch, slow, torch_device if is_torch_available(): from transformers import AutoModelForSeqaSeqLM, AutoTokenizer @require_torch @require_sentencepiece @require_tokenizers class UpperCAmelCase ( unittest.TestCase ): @slow def lowercase__ ( self : List[Any] ) -> str: _lowerCAmelCase = AutoModelForSeqaSeqLM.from_pretrained("""google/mt5-small""" , return_dict=__snake_case ).to(__snake_case ) _lowerCAmelCase = AutoTokenizer.from_pretrained("""google/mt5-small""" ) _lowerCAmelCase = tokenizer("""Hello there""" , return_tensors="""pt""" ).input_ids _lowerCAmelCase = tokenizer("""Hi I am""" , return_tensors="""pt""" ).input_ids _lowerCAmelCase = model(input_ids.to(__snake_case ) , labels=labels.to(__snake_case ) ).loss _lowerCAmelCase = -(labels.shape[-1] * loss.item()) _lowerCAmelCase = -84.91_27 self.assertTrue(abs(mtf_score - EXPECTED_SCORE ) < 1E-4 )
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snake_case : str = ''' # Transformers installation ! pip install transformers datasets # To install from source instead of the last release, comment the command above and uncomment the following one. # ! pip install git+https://github.com/huggingface/transformers.git ''' snake_case : List[Any] = [{'''type''': '''code''', '''content''': INSTALL_CONTENT}] snake_case : int = { '''{processor_class}''': '''FakeProcessorClass''', '''{model_class}''': '''FakeModelClass''', '''{object_class}''': '''FakeObjectClass''', }
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'''simple docstring''' import os from shutil import copyfile from typing import Any, Dict, List, Optional, Tuple import sentencepiece as spm from ...tokenization_utils import AddedToken, BatchEncoding, PreTrainedTokenizer from ...utils import logging A__ : Any =logging.get_logger(__name__) A__ : List[Any] ='''▁''' A__ : Optional[int] ={'''vocab_file''': '''sentencepiece.bpe.model'''} A__ : Union[str, Any] ={ '''vocab_file''': { '''facebook/nllb-200-distilled-600M''': ( '''https://huggingface.co/facebook/nllb-200-distilled-600M/blob/main/sentencepiece.bpe.model''' ), } } A__ : Dict ={ '''facebook/nllb-200-distilled-600M''': 10_24, } # fmt: off A__ : Union[str, Any] =['''ace_Arab''', '''ace_Latn''', '''acm_Arab''', '''acq_Arab''', '''aeb_Arab''', '''afr_Latn''', '''ajp_Arab''', '''aka_Latn''', '''amh_Ethi''', '''apc_Arab''', '''arb_Arab''', '''ars_Arab''', '''ary_Arab''', '''arz_Arab''', '''asm_Beng''', '''ast_Latn''', '''awa_Deva''', '''ayr_Latn''', '''azb_Arab''', '''azj_Latn''', '''bak_Cyrl''', '''bam_Latn''', '''ban_Latn''', '''bel_Cyrl''', '''bem_Latn''', '''ben_Beng''', '''bho_Deva''', '''bjn_Arab''', '''bjn_Latn''', '''bod_Tibt''', '''bos_Latn''', '''bug_Latn''', '''bul_Cyrl''', '''cat_Latn''', '''ceb_Latn''', '''ces_Latn''', '''cjk_Latn''', '''ckb_Arab''', '''crh_Latn''', '''cym_Latn''', '''dan_Latn''', '''deu_Latn''', '''dik_Latn''', '''dyu_Latn''', '''dzo_Tibt''', '''ell_Grek''', '''eng_Latn''', '''epo_Latn''', '''est_Latn''', '''eus_Latn''', '''ewe_Latn''', '''fao_Latn''', '''pes_Arab''', '''fij_Latn''', '''fin_Latn''', '''fon_Latn''', '''fra_Latn''', '''fur_Latn''', '''fuv_Latn''', '''gla_Latn''', '''gle_Latn''', '''glg_Latn''', '''grn_Latn''', '''guj_Gujr''', '''hat_Latn''', '''hau_Latn''', '''heb_Hebr''', '''hin_Deva''', '''hne_Deva''', '''hrv_Latn''', '''hun_Latn''', '''hye_Armn''', '''ibo_Latn''', '''ilo_Latn''', '''ind_Latn''', '''isl_Latn''', '''ita_Latn''', '''jav_Latn''', '''jpn_Jpan''', '''kab_Latn''', '''kac_Latn''', '''kam_Latn''', '''kan_Knda''', '''kas_Arab''', '''kas_Deva''', '''kat_Geor''', '''knc_Arab''', '''knc_Latn''', '''kaz_Cyrl''', '''kbp_Latn''', '''kea_Latn''', '''khm_Khmr''', '''kik_Latn''', '''kin_Latn''', '''kir_Cyrl''', '''kmb_Latn''', '''kon_Latn''', '''kor_Hang''', '''kmr_Latn''', '''lao_Laoo''', '''lvs_Latn''', '''lij_Latn''', '''lim_Latn''', '''lin_Latn''', '''lit_Latn''', '''lmo_Latn''', '''ltg_Latn''', '''ltz_Latn''', '''lua_Latn''', '''lug_Latn''', '''luo_Latn''', '''lus_Latn''', '''mag_Deva''', '''mai_Deva''', '''mal_Mlym''', '''mar_Deva''', '''min_Latn''', '''mkd_Cyrl''', '''plt_Latn''', '''mlt_Latn''', '''mni_Beng''', '''khk_Cyrl''', '''mos_Latn''', '''mri_Latn''', '''zsm_Latn''', '''mya_Mymr''', '''nld_Latn''', '''nno_Latn''', '''nob_Latn''', '''npi_Deva''', '''nso_Latn''', '''nus_Latn''', '''nya_Latn''', '''oci_Latn''', '''gaz_Latn''', '''ory_Orya''', '''pag_Latn''', '''pan_Guru''', '''pap_Latn''', '''pol_Latn''', '''por_Latn''', '''prs_Arab''', '''pbt_Arab''', '''quy_Latn''', '''ron_Latn''', '''run_Latn''', '''rus_Cyrl''', '''sag_Latn''', '''san_Deva''', '''sat_Beng''', '''scn_Latn''', '''shn_Mymr''', '''sin_Sinh''', '''slk_Latn''', '''slv_Latn''', '''smo_Latn''', '''sna_Latn''', '''snd_Arab''', '''som_Latn''', '''sot_Latn''', '''spa_Latn''', '''als_Latn''', '''srd_Latn''', '''srp_Cyrl''', '''ssw_Latn''', '''sun_Latn''', '''swe_Latn''', '''swh_Latn''', '''szl_Latn''', '''tam_Taml''', '''tat_Cyrl''', '''tel_Telu''', '''tgk_Cyrl''', '''tgl_Latn''', '''tha_Thai''', '''tir_Ethi''', '''taq_Latn''', '''taq_Tfng''', '''tpi_Latn''', '''tsn_Latn''', '''tso_Latn''', '''tuk_Latn''', '''tum_Latn''', '''tur_Latn''', '''twi_Latn''', '''tzm_Tfng''', '''uig_Arab''', '''ukr_Cyrl''', '''umb_Latn''', '''urd_Arab''', '''uzn_Latn''', '''vec_Latn''', '''vie_Latn''', '''war_Latn''', '''wol_Latn''', '''xho_Latn''', '''ydd_Hebr''', '''yor_Latn''', '''yue_Hant''', '''zho_Hans''', '''zho_Hant''', '''zul_Latn'''] class UpperCAmelCase ( snake_case_ ): _lowercase: int = VOCAB_FILES_NAMES _lowercase: str = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowercase: Dict = PRETRAINED_VOCAB_FILES_MAP _lowercase: str = ['''input_ids''', '''attention_mask'''] _lowercase: List[int] = [] _lowercase: List[int] = [] def __init__( self : int , __snake_case : Optional[Any] , __snake_case : Dict="<s>" , __snake_case : Optional[int]="</s>" , __snake_case : Dict="</s>" , __snake_case : str="<s>" , __snake_case : Optional[int]="<unk>" , __snake_case : Union[str, Any]="<pad>" , __snake_case : Union[str, Any]="<mask>" , __snake_case : List[Any]=None , __snake_case : Union[str, Any]=None , __snake_case : int=None , __snake_case : Optional[Dict[str, Any]] = None , __snake_case : str=None , __snake_case : str=False , **__snake_case : List[Any] , ) -> List[str]: # Mask token behave like a normal word, i.e. include the space before it _lowerCAmelCase = AddedToken(__snake_case , lstrip=__snake_case , rstrip=__snake_case ) if isinstance(__snake_case , __snake_case ) else mask_token _lowerCAmelCase = {} if sp_model_kwargs is None else sp_model_kwargs _lowerCAmelCase = legacy_behaviour super().__init__( bos_token=__snake_case , eos_token=__snake_case , unk_token=__snake_case , sep_token=__snake_case , cls_token=__snake_case , pad_token=__snake_case , mask_token=__snake_case , tokenizer_file=__snake_case , src_lang=__snake_case , tgt_lang=__snake_case , additional_special_tokens=__snake_case , sp_model_kwargs=self.sp_model_kwargs , legacy_behaviour=__snake_case , **__snake_case , ) _lowerCAmelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.Load(str(__snake_case ) ) _lowerCAmelCase = vocab_file # Original fairseq vocab and spm vocab must be "aligned": # Vocab | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 # -------- | ------- | ------- | ------ | ------- | ---- | ---- | ---- | ---- | ---- | ---- # fairseq | '<s>' | '<pad>' | '</s>' | '<unk>' | 'an' | '▁n' | '▁m' | '▁t' | '▁k' | '▁a' # spm | '<unk>' | '<s>' | '</s>' | 'an' | '▁n' | '▁m' | '▁t' | '▁k' | '▁a' | '▁s' # Mimic fairseq token-to-id alignment for the first 4 token _lowerCAmelCase = {"""<s>""": 0, """<pad>""": 1, """</s>""": 2, """<unk>""": 3} # The first "real" token "," has position 4 in the original fairseq vocab and position 3 in the spm vocab _lowerCAmelCase = 1 _lowerCAmelCase = len(self.sp_model ) _lowerCAmelCase = { code: self.sp_model_size + i + self.fairseq_offset for i, code in enumerate(__snake_case ) } _lowerCAmelCase = {v: k for k, v in self.lang_code_to_id.items()} _lowerCAmelCase = len(self.sp_model ) + len(self.lang_code_to_id ) + self.fairseq_offset self.fairseq_tokens_to_ids.update(self.lang_code_to_id ) _lowerCAmelCase = {v: k for k, v in self.fairseq_tokens_to_ids.items()} _lowerCAmelCase = list(self.lang_code_to_id.keys() ) if additional_special_tokens is not None: # Only add those special tokens if they are not already there. self._additional_special_tokens.extend( [t for t in additional_special_tokens if t not in self._additional_special_tokens] ) _lowerCAmelCase = src_lang if src_lang is not None else """eng_Latn""" _lowerCAmelCase = self.lang_code_to_id[self._src_lang] _lowerCAmelCase = tgt_lang self.set_src_lang_special_tokens(self._src_lang ) def __getstate__( self : List[str] ) -> List[str]: _lowerCAmelCase = self.__dict__.copy() _lowerCAmelCase = None _lowerCAmelCase = self.sp_model.serialized_model_proto() return state def __setstate__( self : Dict , __snake_case : Optional[Any] ) -> Dict: _lowerCAmelCase = d # for backward compatibility if not hasattr(self , """sp_model_kwargs""" ): _lowerCAmelCase = {} _lowerCAmelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.LoadFromSerializedProto(self.sp_model_proto ) @property def lowercase__ ( self : List[Any] ) -> Any: return len(self.sp_model ) + len(self.lang_code_to_id ) + self.fairseq_offset + 1 # Plus 1 for the mask token @property def lowercase__ ( self : int ) -> str: return self._src_lang @src_lang.setter def lowercase__ ( self : Dict , __snake_case : str ) -> None: _lowerCAmelCase = new_src_lang self.set_src_lang_special_tokens(self._src_lang ) def lowercase__ ( self : List[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None , __snake_case : bool = False ) -> List[int]: if already_has_special_tokens: return super().get_special_tokens_mask( token_ids_a=__snake_case , token_ids_a=__snake_case , already_has_special_tokens=__snake_case ) _lowerCAmelCase = [1] * len(self.prefix_tokens ) _lowerCAmelCase = [1] * len(self.suffix_tokens ) if token_ids_a is None: return prefix_ones + ([0] * len(__snake_case )) + suffix_ones return prefix_ones + ([0] * len(__snake_case )) + ([0] * len(__snake_case )) + suffix_ones def lowercase__ ( self : Optional[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: if token_ids_a is None: return self.prefix_tokens + token_ids_a + self.suffix_tokens # We don't expect to process pairs, but leave the pair logic for API consistency return self.prefix_tokens + token_ids_a + token_ids_a + self.suffix_tokens def lowercase__ ( self : Optional[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: _lowerCAmelCase = [self.sep_token_id] _lowerCAmelCase = [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] def lowercase__ ( self : List[str] , __snake_case : Union[str, Any] , __snake_case : str , __snake_case : Optional[str] , __snake_case : Optional[str] , **__snake_case : Optional[int] ) -> Dict: if src_lang is None or tgt_lang is None: raise ValueError("""Translation requires a `src_lang` and a `tgt_lang` for this model""" ) _lowerCAmelCase = src_lang _lowerCAmelCase = self(__snake_case , add_special_tokens=__snake_case , return_tensors=__snake_case , **__snake_case ) _lowerCAmelCase = self.convert_tokens_to_ids(__snake_case ) _lowerCAmelCase = tgt_lang_id return inputs def lowercase__ ( self : List[Any] ) -> Optional[int]: _lowerCAmelCase = {self.convert_ids_to_tokens(__snake_case ): i for i in range(self.vocab_size )} vocab.update(self.added_tokens_encoder ) return vocab def lowercase__ ( self : Optional[int] , __snake_case : str ) -> List[str]: return self.sp_model.encode(__snake_case , out_type=__snake_case ) def lowercase__ ( self : Optional[Any] , __snake_case : Union[str, Any] ) -> Tuple: if token in self.fairseq_tokens_to_ids: return self.fairseq_tokens_to_ids[token] _lowerCAmelCase = self.sp_model.PieceToId(__snake_case ) # Need to return unknown token if the SP model returned 0 return spm_id + self.fairseq_offset if spm_id else self.unk_token_id def lowercase__ ( self : List[Any] , __snake_case : Union[str, Any] ) -> Optional[int]: if index in self.fairseq_ids_to_tokens: return self.fairseq_ids_to_tokens[index] return self.sp_model.IdToPiece(index - self.fairseq_offset ) def lowercase__ ( self : Optional[int] , __snake_case : Union[str, Any] ) -> str: _lowerCAmelCase = """""".join(__snake_case ).replace(__snake_case , """ """ ).strip() return out_string def lowercase__ ( self : str , __snake_case : str , __snake_case : Optional[str] = None ) -> Tuple[str]: if not os.path.isdir(__snake_case ): logger.error(f"Vocabulary path ({save_directory}) should be a directory" ) return _lowerCAmelCase = os.path.join( __snake_case , (filename_prefix + """-""" if filename_prefix else """""") + VOCAB_FILES_NAMES["""vocab_file"""] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(__snake_case ) and os.path.isfile(self.vocab_file ): copyfile(self.vocab_file , __snake_case ) elif not os.path.isfile(self.vocab_file ): with open(__snake_case , """wb""" ) as fi: _lowerCAmelCase = self.sp_model.serialized_model_proto() fi.write(__snake_case ) return (out_vocab_file,) def lowercase__ ( self : Optional[Any] , __snake_case : List[str] , __snake_case : str = "eng_Latn" , __snake_case : Optional[List[str]] = None , __snake_case : str = "fra_Latn" , **__snake_case : Optional[int] , ) -> BatchEncoding: _lowerCAmelCase = src_lang _lowerCAmelCase = tgt_lang return super().prepare_seqaseq_batch(__snake_case , __snake_case , **__snake_case ) def lowercase__ ( self : str ) -> Tuple: return self.set_src_lang_special_tokens(self.src_lang ) def lowercase__ ( self : Dict ) -> Optional[Any]: return self.set_tgt_lang_special_tokens(self.tgt_lang ) def lowercase__ ( self : str , __snake_case : int ) -> None: _lowerCAmelCase = self.lang_code_to_id[src_lang] if self.legacy_behaviour: _lowerCAmelCase = [] _lowerCAmelCase = [self.eos_token_id, self.cur_lang_code] else: _lowerCAmelCase = [self.cur_lang_code] _lowerCAmelCase = [self.eos_token_id] def lowercase__ ( self : Any , __snake_case : str ) -> None: _lowerCAmelCase = self.lang_code_to_id[lang] if self.legacy_behaviour: _lowerCAmelCase = [] _lowerCAmelCase = [self.eos_token_id, self.cur_lang_code] else: _lowerCAmelCase = [self.cur_lang_code] _lowerCAmelCase = [self.eos_token_id]
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# Copyright 2021 The HuggingFace Team. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from argparse import ArgumentParser from accelerate.commands.config import get_config_parser from accelerate.commands.env import env_command_parser from accelerate.commands.launch import launch_command_parser from accelerate.commands.test import test_command_parser from accelerate.commands.tpu import tpu_command_parser def _A ( ): """simple docstring""" a__ : Dict =ArgumentParser("Accelerate CLI tool" , usage="accelerate <command> [<args>]" , allow_abbrev=SCREAMING_SNAKE_CASE ) a__ : Optional[Any] =parser.add_subparsers(help="accelerate command helpers" ) # Register commands get_config_parser(subparsers=SCREAMING_SNAKE_CASE ) env_command_parser(subparsers=SCREAMING_SNAKE_CASE ) launch_command_parser(subparsers=SCREAMING_SNAKE_CASE ) tpu_command_parser(subparsers=SCREAMING_SNAKE_CASE ) test_command_parser(subparsers=SCREAMING_SNAKE_CASE ) # Let's go a__ : List[str] =parser.parse_args() if not hasattr(SCREAMING_SNAKE_CASE , "func" ): parser.print_help() exit(1 ) # Run args.func(SCREAMING_SNAKE_CASE ) if __name__ == "__main__": main()
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'''simple docstring''' def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = len(lowerCAmelCase ) for i in range(length - 1 ): _lowerCAmelCase = i for k in range(i + 1 , lowerCAmelCase ): if collection[k] < collection[least]: _lowerCAmelCase = k if least != i: _lowerCAmelCase , _lowerCAmelCase = (collection[i], collection[least]) return collection if __name__ == "__main__": A__ : str =input('''Enter numbers separated by a comma:\n''').strip() A__ : Optional[int] =[int(item) for item in user_input.split(''',''')] print(selection_sort(unsorted))
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"""simple docstring""" import random import unittest from torch.utils.data import BatchSampler, DataLoader, IterableDataset from accelerate import Accelerator from accelerate.data_loader import ( BatchSamplerShard, DataLoaderDispatcher, DataLoaderShard, IterableDatasetShard, SkipBatchSampler, SkipDataLoader, skip_first_batches, ) class lowerCAmelCase__ ( lowercase ): '''simple docstring''' def __init__( self , lowercase=0.01 , lowercase=1000 ): _lowerCamelCase : List[str] = p_stop _lowerCamelCase : str = max_length def __iter__( self ): _lowerCamelCase : int = 0 _lowerCamelCase : List[Any] = False while not stop and count < self.max_length: yield count count += 1 _lowerCamelCase : Dict = random.random() < self.p_stop class lowerCAmelCase__ ( unittest.TestCase ): '''simple docstring''' def A_ ( self , lowercase , lowercase , lowercase=False , lowercase=True ): _lowerCamelCase : List[Any] = [ BatchSamplerShard(lowercase , 2 , lowercase , split_batches=lowercase , even_batches=lowercase ) for i in range(2 ) ] _lowerCamelCase : List[Any] = [list(lowercase ) for batch_sampler_shard in batch_sampler_shards] if not split_batches: self.assertListEqual([len(lowercase ) for shard in batch_sampler_shards] , [len(lowercase ) for e in expected] ) self.assertListEqual(lowercase , lowercase ) def A_ ( self ): # Check the shards when the dataset is a round multiple of total batch size. _lowerCamelCase : List[str] = BatchSampler(range(24 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : int = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14], [18, 19, 20]], [[3, 4, 5], [9, 10, 11], [15, 16, 17], [21, 22, 23]], ] self.check_batch_sampler_shards(lowercase , lowercase ) _lowerCamelCase : Union[str, Any] = BatchSampler(range(24 ) , batch_size=3 , drop_last=lowercase ) # Expected shouldn't change self.check_batch_sampler_shards(lowercase , lowercase ) # Check the shards when the dataset is a round multiple of batch size but not total batch size. _lowerCamelCase : List[Any] = BatchSampler(range(21 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : List[Any] = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14], [18, 19, 20]], [[3, 4, 5], [9, 10, 11], [15, 16, 17], [0, 1, 2]], ] self.check_batch_sampler_shards(lowercase , lowercase ) _lowerCamelCase : Optional[int] = BatchSampler(range(21 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : List[Any] = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14]], [[3, 4, 5], [9, 10, 11], [15, 16, 17]], ] self.check_batch_sampler_shards(lowercase , lowercase ) # Check the shards when the dataset is not a round multiple of batch size but has a multiple of # num_processes batch. _lowerCamelCase : int = BatchSampler(range(22 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Any = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14], [18, 19, 20]], [[3, 4, 5], [9, 10, 11], [15, 16, 17], [21, 0, 1]], ] self.check_batch_sampler_shards(lowercase , lowercase ) _lowerCamelCase : List[str] = BatchSampler(range(22 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Tuple = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14]], [[3, 4, 5], [9, 10, 11], [15, 16, 17]], ] self.check_batch_sampler_shards(lowercase , lowercase ) # Check the shards when the dataset is not a round multiple of batch size but and has not a multiple of # num_processes batch. _lowerCamelCase : Union[str, Any] = BatchSampler(range(20 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Optional[int] = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14], [18, 19, 0]], [[3, 4, 5], [9, 10, 11], [15, 16, 17], [1, 2, 3]], ] self.check_batch_sampler_shards(lowercase , lowercase ) _lowerCamelCase : Optional[int] = BatchSampler(range(20 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Dict = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14]], [[3, 4, 5], [9, 10, 11], [15, 16, 17]], ] self.check_batch_sampler_shards(lowercase , lowercase ) # Check the shards when the dataset is very small. _lowerCamelCase : Union[str, Any] = BatchSampler(range(2 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Optional[int] = [[[0, 1, 0]], [[1, 0, 1]]] self.check_batch_sampler_shards(lowercase , lowercase ) _lowerCamelCase : Optional[int] = BatchSampler(range(2 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Optional[int] = [[], []] self.check_batch_sampler_shards(lowercase , lowercase ) def A_ ( self ): # Check the shards when the dataset is a round multiple of batch size. _lowerCamelCase : int = BatchSampler(range(24 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : Union[str, Any] = [ [[0, 1], [4, 5], [8, 9], [12, 13], [16, 17], [20, 21]], [[2, 3], [6, 7], [10, 11], [14, 15], [18, 19], [22, 23]], ] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase ) _lowerCamelCase : int = BatchSampler(range(24 ) , batch_size=4 , drop_last=lowercase ) # Expected shouldn't change self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase ) # Check the shards when the dataset is not a round multiple of batch size. _lowerCamelCase : Tuple = BatchSampler(range(22 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : Tuple = [ [[0, 1], [4, 5], [8, 9], [12, 13], [16, 17], [20, 21]], [[2, 3], [6, 7], [10, 11], [14, 15], [18, 19], [0, 1]], ] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase ) _lowerCamelCase : int = BatchSampler(range(22 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : List[str] = [ [[0, 1], [4, 5], [8, 9], [12, 13], [16, 17]], [[2, 3], [6, 7], [10, 11], [14, 15], [18, 19]], ] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase ) # Check the shards when the dataset is not a round multiple of batch size or num_processes. _lowerCamelCase : Optional[Any] = BatchSampler(range(21 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : Any = [ [[0, 1], [4, 5], [8, 9], [12, 13], [16, 17], [20, 0]], [[2, 3], [6, 7], [10, 11], [14, 15], [18, 19], [1, 2]], ] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase ) _lowerCamelCase : Tuple = BatchSampler(range(21 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : Any = [ [[0, 1], [4, 5], [8, 9], [12, 13], [16, 17]], [[2, 3], [6, 7], [10, 11], [14, 15], [18, 19]], ] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase ) # Check the shards when the dataset is very small. _lowerCamelCase : str = BatchSampler(range(2 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : Any = [[[0, 1]], [[0, 1]]] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase ) _lowerCamelCase : str = BatchSampler(range(2 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : List[str] = [[], []] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase ) def A_ ( self ): # Check the shards when the dataset is a round multiple of total batch size. _lowerCamelCase : Dict = BatchSampler(range(24 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : str = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14], [18, 19, 20]], [[3, 4, 5], [9, 10, 11], [15, 16, 17], [21, 22, 23]], ] self.check_batch_sampler_shards(lowercase , lowercase , even_batches=lowercase ) _lowerCamelCase : Union[str, Any] = BatchSampler(range(24 ) , batch_size=3 , drop_last=lowercase ) # Expected shouldn't change self.check_batch_sampler_shards(lowercase , lowercase , even_batches=lowercase ) # Check the shards when the dataset is a round multiple of batch size but not total batch size. _lowerCamelCase : str = BatchSampler(range(21 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Union[str, Any] = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14], [18, 19, 20]], [[3, 4, 5], [9, 10, 11], [15, 16, 17]], ] self.check_batch_sampler_shards(lowercase , lowercase , even_batches=lowercase ) _lowerCamelCase : Any = BatchSampler(range(21 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Optional[Any] = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14]], [[3, 4, 5], [9, 10, 11], [15, 16, 17]], ] self.check_batch_sampler_shards(lowercase , lowercase , even_batches=lowercase ) # Check the shards when the dataset is not a round multiple of batch size but has a multiple of # num_processes batch. _lowerCamelCase : List[str] = BatchSampler(range(22 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Optional[int] = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14], [18, 19, 20]], [[3, 4, 5], [9, 10, 11], [15, 16, 17], [21]], ] self.check_batch_sampler_shards(lowercase , lowercase , even_batches=lowercase ) _lowerCamelCase : Tuple = BatchSampler(range(22 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : int = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14]], [[3, 4, 5], [9, 10, 11], [15, 16, 17]], ] self.check_batch_sampler_shards(lowercase , lowercase , even_batches=lowercase ) # Check the shards when the dataset is not a round multiple of batch size but and has not a multiple of # num_processes batch. _lowerCamelCase : Any = BatchSampler(range(20 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : int = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14], [18, 19]], [[3, 4, 5], [9, 10, 11], [15, 16, 17]], ] self.check_batch_sampler_shards(lowercase , lowercase , even_batches=lowercase ) _lowerCamelCase : str = BatchSampler(range(20 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Optional[int] = [ [[0, 1, 2], [6, 7, 8], [12, 13, 14]], [[3, 4, 5], [9, 10, 11], [15, 16, 17]], ] self.check_batch_sampler_shards(lowercase , lowercase , even_batches=lowercase ) # Check the shards when the dataset is very small. _lowerCamelCase : Union[str, Any] = BatchSampler(range(2 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : Optional[int] = [[[0, 1]], []] self.check_batch_sampler_shards(lowercase , lowercase , even_batches=lowercase ) _lowerCamelCase : int = BatchSampler(range(2 ) , batch_size=3 , drop_last=lowercase ) _lowerCamelCase : List[Any] = [[], []] self.check_batch_sampler_shards(lowercase , lowercase , even_batches=lowercase ) def A_ ( self ): # Check the shards when the dataset is a round multiple of batch size. _lowerCamelCase : List[Any] = BatchSampler(range(24 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : int = [ [[0, 1], [4, 5], [8, 9], [12, 13], [16, 17], [20, 21]], [[2, 3], [6, 7], [10, 11], [14, 15], [18, 19], [22, 23]], ] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase , even_batches=lowercase ) _lowerCamelCase : List[Any] = BatchSampler(range(24 ) , batch_size=4 , drop_last=lowercase ) # Expected shouldn't change self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase , even_batches=lowercase ) # Check the shards when the dataset is not a round multiple of batch size. _lowerCamelCase : int = BatchSampler(range(22 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : Any = [ [[0, 1], [4, 5], [8, 9], [12, 13], [16, 17], [20, 21]], [[2, 3], [6, 7], [10, 11], [14, 15], [18, 19]], ] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase , even_batches=lowercase ) _lowerCamelCase : List[Any] = BatchSampler(range(22 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : int = [ [[0, 1], [4, 5], [8, 9], [12, 13], [16, 17]], [[2, 3], [6, 7], [10, 11], [14, 15], [18, 19]], ] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase , even_batches=lowercase ) # Check the shards when the dataset is not a round multiple of batch size or num_processes. _lowerCamelCase : Any = BatchSampler(range(21 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : Tuple = [ [[0, 1], [4, 5], [8, 9], [12, 13], [16, 17], [20]], [[2, 3], [6, 7], [10, 11], [14, 15], [18, 19]], ] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase , even_batches=lowercase ) _lowerCamelCase : List[Any] = BatchSampler(range(21 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : Optional[int] = [ [[0, 1], [4, 5], [8, 9], [12, 13], [16, 17]], [[2, 3], [6, 7], [10, 11], [14, 15], [18, 19]], ] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase , even_batches=lowercase ) # Check the shards when the dataset is very small. _lowerCamelCase : int = BatchSampler(range(2 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : Any = [[[0, 1]], []] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase , even_batches=lowercase ) _lowerCamelCase : List[str] = BatchSampler(range(2 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : List[Any] = [[], []] self.check_batch_sampler_shards(lowercase , lowercase , split_batches=lowercase , even_batches=lowercase ) def A_ ( self ): _lowerCamelCase : List[Any] = [[0, 1, 2], [3, 4], [5, 6, 7, 8], [9, 10, 11], [12, 13]] _lowerCamelCase : List[str] = [BatchSamplerShard(lowercase , 2 , lowercase , even_batches=lowercase ) for i in range(2 )] self.assertEqual(len(batch_sampler_shards[0] ) , 3 ) self.assertEqual(len(batch_sampler_shards[1] ) , 2 ) self.assertListEqual(list(batch_sampler_shards[0] ) , [[0, 1, 2], [5, 6, 7, 8], [12, 13]] ) self.assertListEqual(list(batch_sampler_shards[1] ) , [[3, 4], [9, 10, 11]] ) def A_ ( self , lowercase , lowercase , lowercase , lowercase=False , lowercase=2 , lowercase=False ): random.seed(lowercase ) _lowerCamelCase : Tuple = list(lowercase ) _lowerCamelCase : Dict = [ IterableDatasetShard( lowercase , batch_size=lowercase , drop_last=lowercase , num_processes=lowercase , process_index=lowercase , split_batches=lowercase , ) for i in range(lowercase ) ] _lowerCamelCase : Optional[int] = [] for iterable_dataset_shard in iterable_dataset_shards: # Since our random iterable dataset will be... random... we need to use a seed to get reproducible results. random.seed(lowercase ) iterable_dataset_lists.append(list(lowercase ) ) _lowerCamelCase : int = batch_size // num_processes if split_batches else batch_size # All iterable dataset shard should have the same length, a round multiple of shard_batch_size _lowerCamelCase : Any = iterable_dataset_lists[0] for l in iterable_dataset_lists[1:]: self.assertEqual(len(lowercase ) , len(lowercase ) ) self.assertTrue(len(lowercase ) % shard_batch_size == 0 ) _lowerCamelCase : List[Any] = [] for idx in range(0 , len(lowercase ) , lowercase ): for l in iterable_dataset_lists: observed += l[idx : idx + shard_batch_size] if not drop_last: while len(lowercase ) < len(lowercase ): reference += reference self.assertListEqual(lowercase , reference[: len(lowercase )] ) def A_ ( self ): _lowerCamelCase : List[Any] = 42 _lowerCamelCase : Tuple = RandomIterableDataset() self.check_iterable_dataset_shards(lowercase , lowercase , batch_size=4 , drop_last=lowercase , split_batches=lowercase ) self.check_iterable_dataset_shards(lowercase , lowercase , batch_size=4 , drop_last=lowercase , split_batches=lowercase ) self.check_iterable_dataset_shards(lowercase , lowercase , batch_size=4 , drop_last=lowercase , split_batches=lowercase ) self.check_iterable_dataset_shards(lowercase , lowercase , batch_size=4 , drop_last=lowercase , split_batches=lowercase ) # Edge case with a very small dataset _lowerCamelCase : Optional[Any] = RandomIterableDataset(max_length=2 ) self.check_iterable_dataset_shards(lowercase , lowercase , batch_size=4 , drop_last=lowercase , split_batches=lowercase ) self.check_iterable_dataset_shards(lowercase , lowercase , batch_size=4 , drop_last=lowercase , split_batches=lowercase ) self.check_iterable_dataset_shards(lowercase , lowercase , batch_size=4 , drop_last=lowercase , split_batches=lowercase ) self.check_iterable_dataset_shards(lowercase , lowercase , batch_size=4 , drop_last=lowercase , split_batches=lowercase ) def A_ ( self ): _lowerCamelCase : List[str] = BatchSampler(range(16 ) , batch_size=4 , drop_last=lowercase ) _lowerCamelCase : List[Any] = SkipBatchSampler(lowercase , 2 ) self.assertListEqual(list(lowercase ) , [[8, 9, 10, 11], [12, 13, 14, 15]] ) def A_ ( self ): _lowerCamelCase : Optional[Any] = SkipDataLoader(list(range(16 ) ) , batch_size=4 , skip_batches=2 ) self.assertListEqual([t.tolist() for t in dataloader] , [[8, 9, 10, 11], [12, 13, 14, 15]] ) def A_ ( self ): _lowerCamelCase : Optional[Any] = DataLoader(list(range(16 ) ) , batch_size=4 ) _lowerCamelCase : Union[str, Any] = skip_first_batches(lowercase , num_batches=2 ) self.assertListEqual([t.tolist() for t in new_dataloader] , [[8, 9, 10, 11], [12, 13, 14, 15]] ) def A_ ( self ): _lowerCamelCase : List[Any] = DataLoaderShard(list(range(16 ) ) , batch_size=4 ) for idx, _ in enumerate(lowercase ): self.assertEqual(dataloader.end_of_dataloader , idx == 3 ) # Test it also works on the second iteration for idx, _ in enumerate(lowercase ): self.assertEqual(dataloader.end_of_dataloader , idx == 3 ) def A_ ( self ): Accelerator() _lowerCamelCase : List[str] = DataLoaderDispatcher(range(16 ) , batch_size=4 ) for idx, _ in enumerate(lowercase ): self.assertEqual(dataloader.end_of_dataloader , idx == 3 ) # Test it also works on the second iteration for idx, _ in enumerate(lowercase ): self.assertEqual(dataloader.end_of_dataloader , idx == 3 )
96
'''simple docstring''' from typing import Dict, List, Optional, Union import numpy as np from transformers.utils import is_vision_available from transformers.utils.generic import TensorType from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import ( center_crop, get_resize_output_image_size, normalize, rescale, resize, to_channel_dimension_format, ) from ...image_utils import ( IMAGENET_STANDARD_MEAN, IMAGENET_STANDARD_STD, ChannelDimension, ImageInput, PILImageResampling, is_valid_image, to_numpy_array, valid_images, ) from ...utils import logging if is_vision_available(): import PIL A__ : List[str] =logging.get_logger(__name__) def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if isinstance(lowerCAmelCase , (list, tuple) ) and isinstance(videos[0] , (list, tuple) ) and is_valid_image(videos[0][0] ): return videos elif isinstance(lowerCAmelCase , (list, tuple) ) and is_valid_image(videos[0] ): return [videos] elif is_valid_image(lowerCAmelCase ): return [[videos]] raise ValueError(f"Could not make batched video from {videos}" ) class UpperCAmelCase ( snake_case_ ): _lowercase: Any = ['''pixel_values'''] def __init__( self : Tuple , __snake_case : bool = True , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = PILImageResampling.BILINEAR , __snake_case : bool = True , __snake_case : Dict[str, int] = None , __snake_case : bool = True , __snake_case : Union[int, float] = 1 / 2_55 , __snake_case : bool = True , __snake_case : bool = True , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , **__snake_case : str , ) -> None: super().__init__(**__snake_case ) _lowerCAmelCase = size if size is not None else {"""shortest_edge""": 2_56} _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) _lowerCAmelCase = crop_size if crop_size is not None else {"""height""": 2_24, """width""": 2_24} _lowerCAmelCase = get_size_dict(__snake_case , param_name="""crop_size""" ) _lowerCAmelCase = do_resize _lowerCAmelCase = size _lowerCAmelCase = do_center_crop _lowerCAmelCase = crop_size _lowerCAmelCase = resample _lowerCAmelCase = do_rescale _lowerCAmelCase = rescale_factor _lowerCAmelCase = offset _lowerCAmelCase = do_normalize _lowerCAmelCase = image_mean if image_mean is not None else IMAGENET_STANDARD_MEAN _lowerCAmelCase = image_std if image_std is not None else IMAGENET_STANDARD_STD def lowercase__ ( self : int , __snake_case : np.ndarray , __snake_case : Dict[str, int] , __snake_case : PILImageResampling = PILImageResampling.BILINEAR , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Optional[Any] , ) -> np.ndarray: _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) if "shortest_edge" in size: _lowerCAmelCase = get_resize_output_image_size(__snake_case , size["""shortest_edge"""] , default_to_square=__snake_case ) elif "height" in size and "width" in size: _lowerCAmelCase = (size["""height"""], size["""width"""]) else: raise ValueError(f"Size must have 'height' and 'width' or 'shortest_edge' as keys. Got {size.keys()}" ) return resize(__snake_case , size=__snake_case , resample=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Union[str, Any] , __snake_case : np.ndarray , __snake_case : Dict[str, int] , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : List[Any] , ) -> np.ndarray: _lowerCAmelCase = get_size_dict(__snake_case ) if "height" not in size or "width" not in size: raise ValueError(f"Size must have 'height' and 'width' as keys. Got {size.keys()}" ) return center_crop(__snake_case , size=(size["""height"""], size["""width"""]) , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Union[str, Any] , __snake_case : np.ndarray , __snake_case : Union[int, float] , __snake_case : bool = True , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Optional[Any] , ) -> Dict: _lowerCAmelCase = image.astype(np.floataa ) if offset: _lowerCAmelCase = image - (scale / 2) return rescale(__snake_case , scale=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Optional[int] , __snake_case : np.ndarray , __snake_case : Union[float, List[float]] , __snake_case : Union[float, List[float]] , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Tuple , ) -> np.ndarray: return normalize(__snake_case , mean=__snake_case , std=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : List[Any] , __snake_case : ImageInput , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = None , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : bool = None , __snake_case : float = None , __snake_case : bool = None , __snake_case : bool = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[ChannelDimension] = ChannelDimension.FIRST , ) -> np.ndarray: if do_resize and size is None or resample is None: raise ValueError("""Size and resample must be specified if do_resize is True.""" ) if do_center_crop and crop_size is None: raise ValueError("""Crop size must be specified if do_center_crop is True.""" ) if do_rescale and rescale_factor is None: raise ValueError("""Rescale factor must be specified if do_rescale is True.""" ) if do_normalize and (image_mean is None or image_std is None): raise ValueError("""Image mean and std must be specified if do_normalize is True.""" ) if offset and not do_rescale: raise ValueError("""For offset, do_rescale must also be set to True.""" ) # All transformations expect numpy arrays. _lowerCAmelCase = to_numpy_array(__snake_case ) if do_resize: _lowerCAmelCase = self.resize(image=__snake_case , size=__snake_case , resample=__snake_case ) if do_center_crop: _lowerCAmelCase = self.center_crop(__snake_case , size=__snake_case ) if do_rescale: _lowerCAmelCase = self.rescale(image=__snake_case , scale=__snake_case , offset=__snake_case ) if do_normalize: _lowerCAmelCase = self.normalize(image=__snake_case , mean=__snake_case , std=__snake_case ) _lowerCAmelCase = to_channel_dimension_format(__snake_case , __snake_case ) return image def lowercase__ ( self : List[Any] , __snake_case : ImageInput , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = None , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : bool = None , __snake_case : float = None , __snake_case : bool = None , __snake_case : bool = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[str, TensorType]] = None , __snake_case : ChannelDimension = ChannelDimension.FIRST , **__snake_case : List[str] , ) -> PIL.Image.Image: _lowerCAmelCase = do_resize if do_resize is not None else self.do_resize _lowerCAmelCase = resample if resample is not None else self.resample _lowerCAmelCase = do_center_crop if do_center_crop is not None else self.do_center_crop _lowerCAmelCase = do_rescale if do_rescale is not None else self.do_rescale _lowerCAmelCase = rescale_factor if rescale_factor is not None else self.rescale_factor _lowerCAmelCase = offset if offset is not None else self.offset _lowerCAmelCase = do_normalize if do_normalize is not None else self.do_normalize _lowerCAmelCase = image_mean if image_mean is not None else self.image_mean _lowerCAmelCase = image_std if image_std is not None else self.image_std _lowerCAmelCase = size if size is not None else self.size _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) _lowerCAmelCase = crop_size if crop_size is not None else self.crop_size _lowerCAmelCase = get_size_dict(__snake_case , param_name="""crop_size""" ) if not valid_images(__snake_case ): raise ValueError( """Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, """ """torch.Tensor, tf.Tensor or jax.ndarray.""" ) _lowerCAmelCase = make_batched(__snake_case ) _lowerCAmelCase = [ [ self._preprocess_image( image=__snake_case , do_resize=__snake_case , size=__snake_case , resample=__snake_case , do_center_crop=__snake_case , crop_size=__snake_case , do_rescale=__snake_case , rescale_factor=__snake_case , offset=__snake_case , do_normalize=__snake_case , image_mean=__snake_case , image_std=__snake_case , data_format=__snake_case , ) for img in video ] for video in videos ] _lowerCAmelCase = {"""pixel_values""": videos} return BatchFeature(data=__snake_case , tensor_type=__snake_case )
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'''simple docstring''' def a ( __a , __a , __a=False ) -> str: '''simple docstring''' if isinstance(__a , __a ) and isinstance(__a , __a ): UpperCamelCase__ :List[str] = len(set_a.intersection(__a ) ) if alternative_union: UpperCamelCase__ :Optional[Any] = len(__a ) + len(__a ) else: UpperCamelCase__ :Union[str, Any] = len(set_a.union(__a ) ) return intersection / union if isinstance(__a , (list, tuple) ) and isinstance(__a , (list, tuple) ): UpperCamelCase__ :Tuple = [element for element in set_a if element in set_b] if alternative_union: UpperCamelCase__ :Dict = len(__a ) + len(__a ) return len(__a ) / union else: UpperCamelCase__ :List[Any] = set_a + [element for element in set_b if element not in set_a] return len(__a ) / len(__a ) return len(__a ) / len(__a ) return None if __name__ == "__main__": __snake_case = {'''a''', '''b''', '''c''', '''d''', '''e'''} __snake_case = {'''c''', '''d''', '''e''', '''f''', '''h''', '''i'''} print(jaccard_similarity(set_a, set_b))
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'''simple docstring''' import re import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class UpperCAmelCase ( snake_case_ ): _lowercase: Union[str, Any] = ['''image_processor''', '''tokenizer'''] _lowercase: int = '''AutoImageProcessor''' _lowercase: Optional[int] = '''AutoTokenizer''' def __init__( self : int , __snake_case : Tuple=None , __snake_case : Optional[int]=None , **__snake_case : Tuple ) -> List[Any]: _lowerCAmelCase = None if "feature_extractor" in kwargs: warnings.warn( """The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`""" """ instead.""" , __snake_case , ) _lowerCAmelCase = kwargs.pop("""feature_extractor""" ) _lowerCAmelCase = 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__(__snake_case , __snake_case ) _lowerCAmelCase = self.image_processor _lowerCAmelCase = False def __call__( self : Dict , *__snake_case : Optional[int] , **__snake_case : Union[str, Any] ) -> Tuple: # For backward compatibility if self._in_target_context_manager: return self.current_processor(*__snake_case , **__snake_case ) _lowerCAmelCase = kwargs.pop("""images""" , __snake_case ) _lowerCAmelCase = kwargs.pop("""text""" , __snake_case ) if len(__snake_case ) > 0: _lowerCAmelCase = args[0] _lowerCAmelCase = args[1:] if images is None and text is None: raise ValueError("""You need to specify either an `images` or `text` input to process.""" ) if images is not None: _lowerCAmelCase = self.image_processor(__snake_case , *__snake_case , **__snake_case ) if text is not None: _lowerCAmelCase = self.tokenizer(__snake_case , **__snake_case ) if text is None: return inputs elif images is None: return encodings else: _lowerCAmelCase = encodings["""input_ids"""] return inputs def lowercase__ ( self : List[Any] , *__snake_case : Dict , **__snake_case : List[str] ) -> int: return self.tokenizer.batch_decode(*__snake_case , **__snake_case ) def lowercase__ ( self : int , *__snake_case : Tuple , **__snake_case : Optional[Any] ) -> Any: return self.tokenizer.decode(*__snake_case , **__snake_case ) @contextmanager def lowercase__ ( self : int ) -> Optional[Any]: 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 images inputs, or in a separate call.""" ) _lowerCAmelCase = True _lowerCAmelCase = self.tokenizer yield _lowerCAmelCase = self.image_processor _lowerCAmelCase = False def lowercase__ ( self : Optional[int] , __snake_case : Union[str, Any] , __snake_case : List[Any]=False , __snake_case : Dict=None ) -> Tuple: if added_vocab is None: _lowerCAmelCase = self.tokenizer.get_added_vocab() _lowerCAmelCase = {} while tokens: _lowerCAmelCase = re.search(R"""<s_(.*?)>""" , __snake_case , re.IGNORECASE ) if start_token is None: break _lowerCAmelCase = start_token.group(1 ) _lowerCAmelCase = re.search(Rf"</s_{key}>" , __snake_case , re.IGNORECASE ) _lowerCAmelCase = start_token.group() if end_token is None: _lowerCAmelCase = tokens.replace(__snake_case , """""" ) else: _lowerCAmelCase = end_token.group() _lowerCAmelCase = re.escape(__snake_case ) _lowerCAmelCase = re.escape(__snake_case ) _lowerCAmelCase = re.search(f"{start_token_escaped}(.*?){end_token_escaped}" , __snake_case , re.IGNORECASE ) if content is not None: _lowerCAmelCase = content.group(1 ).strip() if r"<s_" in content and r"</s_" in content: # non-leaf node _lowerCAmelCase = self.tokenajson(__snake_case , is_inner_value=__snake_case , added_vocab=__snake_case ) if value: if len(__snake_case ) == 1: _lowerCAmelCase = value[0] _lowerCAmelCase = value else: # leaf nodes _lowerCAmelCase = [] for leaf in content.split(R"""<sep/>""" ): _lowerCAmelCase = leaf.strip() if leaf in added_vocab and leaf[0] == "<" and leaf[-2:] == "/>": _lowerCAmelCase = leaf[1:-2] # for categorical special tokens output[key].append(__snake_case ) if len(output[key] ) == 1: _lowerCAmelCase = output[key][0] _lowerCAmelCase = tokens[tokens.find(__snake_case ) + len(__snake_case ) :].strip() if tokens[:6] == r"<sep/>": # non-leaf nodes return [output] + self.tokenajson(tokens[6:] , is_inner_value=__snake_case , added_vocab=__snake_case ) if len(__snake_case ): return [output] if is_inner_value else output else: return [] if is_inner_value else {"text_sequence": tokens} @property def lowercase__ ( self : Optional[int] ) -> Union[str, Any]: warnings.warn( """`feature_extractor_class` is deprecated and will be removed in v5. Use `image_processor_class` instead.""" , __snake_case , ) return self.image_processor_class @property def lowercase__ ( self : List[Any] ) -> Any: warnings.warn( """`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.""" , __snake_case , ) return self.image_processor
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"""simple docstring""" import hashlib import unittest from typing import Dict import numpy as np from transformers import ( MODEL_FOR_MASK_GENERATION_MAPPING, TF_MODEL_FOR_MASK_GENERATION_MAPPING, is_vision_available, pipeline, ) from transformers.pipelines import MaskGenerationPipeline from transformers.testing_utils import ( is_pipeline_test, nested_simplify, require_tf, require_torch, require_vision, slow, ) if is_vision_available(): from PIL import Image else: class snake_case : """simple docstring""" @staticmethod def __lowerCAmelCase ( *lowerCamelCase__ : List[Any] ,**lowerCamelCase__ : Union[str, Any] ): pass def a_ ( lowerCamelCase ): UpperCAmelCase__ = hashlib.mda(image.tobytes() ) return m.hexdigest()[:1_0] def a_ ( lowerCamelCase ): UpperCAmelCase__ = np.array(lowerCamelCase ) UpperCAmelCase__ = npimg.shape return {"hash": hashimage(lowerCamelCase ), "shape": shape} @is_pipeline_test @require_vision @require_torch class snake_case ( unittest.TestCase ): """simple docstring""" snake_case__ = dict( (list(MODEL_FOR_MASK_GENERATION_MAPPING.items() ) if MODEL_FOR_MASK_GENERATION_MAPPING else []) ) snake_case__ = dict( (list(TF_MODEL_FOR_MASK_GENERATION_MAPPING.items() ) if TF_MODEL_FOR_MASK_GENERATION_MAPPING else []) ) def __lowerCAmelCase ( self : List[Any] ,lowerCamelCase__ : Dict ,lowerCamelCase__ : Optional[int] ,lowerCamelCase__ : str ): UpperCAmelCase__ = MaskGenerationPipeline(model=lowerCamelCase__ ,image_processor=lowerCamelCase__ ) return image_segmenter, [ "./tests/fixtures/tests_samples/COCO/000000039769.png", "./tests/fixtures/tests_samples/COCO/000000039769.png", ] def __lowerCAmelCase ( self : Union[str, Any] ,lowerCamelCase__ : Tuple ,lowerCamelCase__ : str ): pass @require_tf @unittest.skip('Image segmentation not implemented in TF' ) def __lowerCAmelCase ( self : Optional[Any] ): pass @slow @require_torch def __lowerCAmelCase ( self : List[str] ): UpperCAmelCase__ = pipeline('mask-generation' ,model='facebook/sam-vit-huge' ) UpperCAmelCase__ = image_segmenter('http://images.cocodataset.org/val2017/000000039769.jpg' ,points_per_batch=256 ) # Shortening by hashing UpperCAmelCase__ = [] for i, o in enumerate(outputs['masks'] ): new_outupt += [{"mask": mask_to_test_readable(lowerCamelCase__ ), "scores": outputs["scores"][i]}] # fmt: off self.assertEqual( nested_simplify(lowerCamelCase__ ,decimals=4 ) ,[ {'mask': {'hash': '115ad19f5f', 'shape': (480, 640)}, 'scores': 1.0_4_4_4}, {'mask': {'hash': '6affa964c6', 'shape': (480, 640)}, 'scores': 1.0_2_1}, {'mask': {'hash': 'dfe28a0388', 'shape': (480, 640)}, 'scores': 1.0_1_6_7}, {'mask': {'hash': 'c0a5f4a318', 'shape': (480, 640)}, 'scores': 1.0_1_3_2}, {'mask': {'hash': 'fe8065c197', 'shape': (480, 640)}, 'scores': 1.0_0_5_3}, {'mask': {'hash': 'e2d0b7a0b7', 'shape': (480, 640)}, 'scores': 0.9_9_6_7}, {'mask': {'hash': '453c7844bd', 'shape': (480, 640)}, 'scores': 0.9_9_3}, {'mask': {'hash': '3d44f2926d', 'shape': (480, 640)}, 'scores': 0.9_9_0_9}, {'mask': {'hash': '64033ddc3f', 'shape': (480, 640)}, 'scores': 0.9_8_7_9}, {'mask': {'hash': '801064ff79', 'shape': (480, 640)}, 'scores': 0.9_8_3_4}, {'mask': {'hash': '6172f276ef', 'shape': (480, 640)}, 'scores': 0.9_7_1_6}, {'mask': {'hash': 'b49e60e084', 'shape': (480, 640)}, 'scores': 0.9_6_1_2}, {'mask': {'hash': 'a811e775fd', 'shape': (480, 640)}, 'scores': 0.9_5_9_9}, {'mask': {'hash': 'a6a8ebcf4b', 'shape': (480, 640)}, 'scores': 0.9_5_5_2}, {'mask': {'hash': '9d8257e080', 'shape': (480, 640)}, 'scores': 0.9_5_3_2}, {'mask': {'hash': '32de6454a8', 'shape': (480, 640)}, 'scores': 0.9_5_1_6}, {'mask': {'hash': 'af3d4af2c8', 'shape': (480, 640)}, 'scores': 0.9_4_9_9}, {'mask': {'hash': '3c6db475fb', 'shape': (480, 640)}, 'scores': 0.9_4_8_3}, {'mask': {'hash': 'c290813fb9', 'shape': (480, 640)}, 'scores': 0.9_4_6_4}, {'mask': {'hash': 'b6f0b8f606', 'shape': (480, 640)}, 'scores': 0.9_4_3}, {'mask': {'hash': '92ce16bfdf', 'shape': (480, 640)}, 'scores': 0.9_4_3}, {'mask': {'hash': 'c749b25868', 'shape': (480, 640)}, 'scores': 0.9_4_0_8}, {'mask': {'hash': 'efb6cab859', 'shape': (480, 640)}, 'scores': 0.9_3_3_5}, {'mask': {'hash': '1ff2eafb30', 'shape': (480, 640)}, 'scores': 0.9_3_2_6}, {'mask': {'hash': '788b798e24', 'shape': (480, 640)}, 'scores': 0.9_2_6_2}, {'mask': {'hash': 'abea804f0e', 'shape': (480, 640)}, 'scores': 0.8_9_9_9}, {'mask': {'hash': '7b9e8ddb73', 'shape': (480, 640)}, 'scores': 0.8_9_8_6}, {'mask': {'hash': 'cd24047c8a', 'shape': (480, 640)}, 'scores': 0.8_9_8_4}, {'mask': {'hash': '6943e6bcbd', 'shape': (480, 640)}, 'scores': 0.8_8_7_3}, {'mask': {'hash': 'b5f47c9191', 'shape': (480, 640)}, 'scores': 0.8_8_7_1} ] ,) # fmt: on @require_torch @slow def __lowerCAmelCase ( self : Optional[Any] ): UpperCAmelCase__ = 'facebook/sam-vit-huge' UpperCAmelCase__ = pipeline('mask-generation' ,model=lowerCamelCase__ ) UpperCAmelCase__ = image_segmenter( 'http://images.cocodataset.org/val2017/000000039769.jpg' ,pred_iou_thresh=1 ,points_per_batch=256 ) # Shortening by hashing UpperCAmelCase__ = [] for i, o in enumerate(outputs['masks'] ): new_outupt += [{"mask": mask_to_test_readable(lowerCamelCase__ ), "scores": outputs["scores"][i]}] self.assertEqual( nested_simplify(lowerCamelCase__ ,decimals=4 ) ,[ {'mask': {'hash': '115ad19f5f', 'shape': (480, 640)}, 'scores': 1.0_4_4_4}, {'mask': {'hash': '6affa964c6', 'shape': (480, 640)}, 'scores': 1.0_2_1_0}, {'mask': {'hash': 'dfe28a0388', 'shape': (480, 640)}, 'scores': 1.0_1_6_7}, {'mask': {'hash': 'c0a5f4a318', 'shape': (480, 640)}, 'scores': 1.0_1_3_2}, {'mask': {'hash': 'fe8065c197', 'shape': (480, 640)}, 'scores': 1.0_0_5_3}, ] ,)
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'''simple docstring''' from __future__ import annotations import math def UpperCamelCase__ ( lowerCAmelCase ): """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(lowerCAmelCase ) + 1 ) , 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True A__ : Optional[Any] =[num for num in range(3, 10_00_01, 2) if not is_prime(num)] def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if not isinstance(lowerCAmelCase , lowerCAmelCase ): raise ValueError("""n must be an integer""" ) if n <= 0: raise ValueError("""n must be >= 0""" ) _lowerCAmelCase = [] for num in range(len(lowerCAmelCase ) ): _lowerCAmelCase = 0 while 2 * i * i <= odd_composites[num]: _lowerCAmelCase = odd_composites[num] - 2 * i * i if is_prime(lowerCAmelCase ): break i += 1 else: list_nums.append(odd_composites[num] ) if len(lowerCAmelCase ) == n: return list_nums return [] def UpperCamelCase__ ( ): """simple docstring""" return compute_nums(1 )[0] if __name__ == "__main__": print(F"""{solution() = }""")
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from pickle import UnpicklingError import jax import jax.numpy as jnp import numpy as np from flax.serialization import from_bytes from flax.traverse_util import flatten_dict from ..utils import logging lowercase : str = logging.get_logger(__name__) def A_ ( A__ , A__ ) -> List[str]: try: with open(A__ , 'rb' ) as flax_state_f: a__ : Union[str, Any] = from_bytes(A__ , flax_state_f.read() ) except UnpicklingError as e: try: with open(A__ ) as f: if f.read().startswith('version' ): raise OSError( 'You seem to have cloned a repository without having git-lfs installed. Please' ' install git-lfs and run `git lfs install` followed by `git lfs pull` in the' ' folder you cloned.' ) else: raise ValueError from e except (UnicodeDecodeError, ValueError): raise EnvironmentError(F'Unable to convert {model_file} to Flax deserializable object. ' ) return load_flax_weights_in_pytorch_model(A__ , A__ ) def A_ ( A__ , A__ ) -> str: try: import torch # noqa: F401 except ImportError: logger.error( 'Loading Flax weights in PyTorch requires both PyTorch and Flax to be installed. Please see' ' https://pytorch.org/ and https://flax.readthedocs.io/en/latest/installation.html for installation' ' instructions.' ) raise # check if we have bf16 weights a__ : int = flatten_dict(jax.tree_util.tree_map(lambda A__ : x.dtype == jnp.bfloataa , A__ ) ).values() if any(A__ ): # convert all weights to fp32 if they are bf16 since torch.from_numpy can-not handle bf16 # and bf16 is not fully supported in PT yet. logger.warning( 'Found ``bfloat16`` weights in Flax model. Casting all ``bfloat16`` weights to ``float32`` ' 'before loading those in PyTorch model.' ) a__ : Optional[Any] = jax.tree_util.tree_map( lambda A__ : params.astype(np.floataa ) if params.dtype == jnp.bfloataa else params , A__ ) a__ : Dict = '' a__ : Optional[int] = flatten_dict(A__ , sep='.' ) a__ : Dict = pt_model.state_dict() # keep track of unexpected & missing keys a__ : Union[str, Any] = [] a__ : Optional[Any] = set(pt_model_dict.keys() ) for flax_key_tuple, flax_tensor in flax_state_dict.items(): a__ : Union[str, Any] = flax_key_tuple.split('.' ) if flax_key_tuple_array[-1] == "kernel" and flax_tensor.ndim == 4: a__ : Any = flax_key_tuple_array[:-1] + ['weight'] a__ : Union[str, Any] = jnp.transpose(A__ , (3, 2, 0, 1) ) elif flax_key_tuple_array[-1] == "kernel": a__ : List[str] = flax_key_tuple_array[:-1] + ['weight'] a__ : int = flax_tensor.T elif flax_key_tuple_array[-1] == "scale": a__ : Dict = flax_key_tuple_array[:-1] + ['weight'] if "time_embedding" not in flax_key_tuple_array: for i, flax_key_tuple_string in enumerate(A__ ): a__ : Union[str, Any] = ( flax_key_tuple_string.replace('_0' , '.0' ) .replace('_1' , '.1' ) .replace('_2' , '.2' ) .replace('_3' , '.3' ) .replace('_4' , '.4' ) .replace('_5' , '.5' ) .replace('_6' , '.6' ) .replace('_7' , '.7' ) .replace('_8' , '.8' ) .replace('_9' , '.9' ) ) a__ : Optional[int] = '.'.join(A__ ) if flax_key in pt_model_dict: if flax_tensor.shape != pt_model_dict[flax_key].shape: raise ValueError( F'Flax checkpoint seems to be incorrect. Weight {flax_key_tuple} was expected ' F'to be of shape {pt_model_dict[flax_key].shape}, but is {flax_tensor.shape}.' ) else: # add weight to pytorch dict a__ : Optional[int] = np.asarray(A__ ) if not isinstance(A__ , np.ndarray ) else flax_tensor a__ : Dict = torch.from_numpy(A__ ) # remove from missing keys missing_keys.remove(A__ ) else: # weight is not expected by PyTorch model unexpected_keys.append(A__ ) pt_model.load_state_dict(A__ ) # re-transform missing_keys to list a__ : Optional[Any] = list(A__ ) if len(A__ ) > 0: logger.warning( 'Some weights of the Flax model were not used when initializing the PyTorch model' F' {pt_model.__class__.__name__}: {unexpected_keys}\n- This IS expected if you are initializing' F' {pt_model.__class__.__name__} from a Flax model trained on another task or with another architecture' ' (e.g. initializing a BertForSequenceClassification model from a FlaxBertForPreTraining model).\n- This' F' IS NOT expected if you are initializing {pt_model.__class__.__name__} from a Flax model that you expect' ' to be exactly identical (e.g. initializing a BertForSequenceClassification model from a' ' FlaxBertForSequenceClassification model).' ) if len(A__ ) > 0: logger.warning( F'Some weights of {pt_model.__class__.__name__} were not initialized from the Flax model and are newly' F' initialized: {missing_keys}\nYou should probably TRAIN this model on a down-stream task to be able to' ' use it for predictions and inference.' ) return pt_model
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'''simple docstring''' import argparse import json from tqdm import tqdm def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = argparse.ArgumentParser() # Required parameters parser.add_argument( """--src_path""" , type=lowerCAmelCase , default="""biencoder-nq-dev.json""" , help="""Path to raw DPR training data""" , ) parser.add_argument( """--evaluation_set""" , type=lowerCAmelCase , help="""where to store parsed evaluation_set file""" , ) parser.add_argument( """--gold_data_path""" , type=lowerCAmelCase , help="""where to store parsed gold_data_path file""" , ) _lowerCAmelCase = parser.parse_args() with open(args.src_path , """r""" ) as src_file, open(args.evaluation_set , """w""" ) as eval_file, open( args.gold_data_path , """w""" ) as gold_file: _lowerCAmelCase = json.load(lowerCAmelCase ) for dpr_record in tqdm(lowerCAmelCase ): _lowerCAmelCase = dpr_record["""question"""] _lowerCAmelCase = [context["""title"""] for context in dpr_record["""positive_ctxs"""]] eval_file.write(question + """\n""" ) gold_file.write("""\t""".join(lowerCAmelCase ) + """\n""" ) if __name__ == "__main__": main()
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"""simple docstring""" import sacrebleu as scb from packaging import version from sacrebleu import CHRF import datasets __magic_name__ = "\\n@inproceedings{popovic-2015-chrf,\n title = \"chr{F}: character n-gram {F}-score for automatic {MT} evaluation\",\n author = \"Popovi{\'c}, Maja\",\n booktitle = \"Proceedings of the Tenth Workshop on Statistical Machine Translation\",\n month = sep,\n year = \"2015\",\n address = \"Lisbon, Portugal\",\n publisher = \"Association for Computational Linguistics\",\n url = \"https://aclanthology.org/W15-3049\",\n doi = \"10.18653/v1/W15-3049\",\n pages = \"392--395\",\n}\n@inproceedings{popovic-2017-chrf,\n title = \"chr{F}++: words helping character n-grams\",\n author = \"Popovi{\'c}, Maja\",\n booktitle = \"Proceedings of the Second Conference on Machine Translation\",\n month = sep,\n year = \"2017\",\n address = \"Copenhagen, Denmark\",\n publisher = \"Association for Computational Linguistics\",\n url = \"https://aclanthology.org/W17-4770\",\n doi = \"10.18653/v1/W17-4770\",\n pages = \"612--618\",\n}\n@inproceedings{post-2018-call,\n title = \"A Call for Clarity in Reporting {BLEU} Scores\",\n author = \"Post, Matt\",\n booktitle = \"Proceedings of the Third Conference on Machine Translation: Research Papers\",\n month = oct,\n year = \"2018\",\n address = \"Belgium, Brussels\",\n publisher = \"Association for Computational Linguistics\",\n url = \"https://www.aclweb.org/anthology/W18-6319\",\n pages = \"186--191\",\n}\n" __magic_name__ = "\\nChrF and ChrF++ are two MT evaluation metrics. They both use the F-score statistic for character n-gram matches,\nand ChrF++ adds word n-grams as well which correlates more strongly with direct assessment. We use the implementation\nthat is already present in sacrebleu.\n\nThe implementation here is slightly different from sacrebleu in terms of the required input format. The length of\nthe references and hypotheses lists need to be the same, so you may need to transpose your references compared to\nsacrebleu's required input format. See https://github.com/huggingface/datasets/issues/3154#issuecomment-950746534\n\nSee the README.md file at https://github.com/mjpost/sacreBLEU#chrf--chrf for more information.\n" __magic_name__ = "\nProduces ChrF(++) scores for hypotheses given reference translations.\n\nArgs:\n predictions (list of str): The predicted sentences.\n references (list of list of str): The references. There should be one reference sub-list for each prediction sentence.\n char_order (int): Character n-gram order. Defaults to `6`.\n word_order (int): Word n-gram order. If equals to `2`, the metric is referred to as chrF++. Defaults to `0`.\n beta (int): Determine the importance of recall w.r.t precision. Defaults to `2`.\n lowercase (bool): if `True`, enables case-insensitivity. Defaults to `False`.\n whitespace (bool): If `True`, include whitespaces when extracting character n-grams.\n eps_smoothing (bool): If `True`, applies epsilon smoothing similar\n to reference chrF++.py, NLTK and Moses implementations. If `False`,\n it takes into account effective match order similar to sacreBLEU < 2.0.0. Defaults to `False`.\n\nReturns:\n 'score' (float): The chrF (chrF++) score,\n 'char_order' (int): The character n-gram order,\n 'word_order' (int): The word n-gram order. If equals to 2, the metric is referred to as chrF++,\n 'beta' (int): Determine the importance of recall w.r.t precision\n\nExamples:\n Example 1--a simple example of calculating chrF:\n >>> prediction = [\"The relationship between cats and dogs is not exactly friendly.\", \"a good bookshop is just a genteel black hole that knows how to read.\"]\n >>> reference = [[\"The relationship between dogs and cats is not exactly friendly.\"], [\"A good bookshop is just a genteel Black Hole that knows how to read.\"]]\n >>> chrf = datasets.load_metric(\"chrf\")\n >>> results = chrf.compute(predictions=prediction, references=reference)\n >>> print(results)\n {'score': 84.64214891738334, 'char_order': 6, 'word_order': 0, 'beta': 2}\n\n Example 2--the same example, but with the argument word_order=2, to calculate chrF++ instead of chrF:\n >>> prediction = [\"The relationship between cats and dogs is not exactly friendly.\", \"a good bookshop is just a genteel black hole that knows how to read.\"]\n >>> reference = [[\"The relationship between dogs and cats is not exactly friendly.\"], [\"A good bookshop is just a genteel Black Hole that knows how to read.\"]]\n >>> chrf = datasets.load_metric(\"chrf\")\n >>> results = chrf.compute(predictions=prediction,\n ... references=reference,\n ... word_order=2)\n >>> print(results)\n {'score': 82.87263732906315, 'char_order': 6, 'word_order': 2, 'beta': 2}\n\n Example 3--the same chrF++ example as above, but with `lowercase=True` to normalize all case:\n >>> prediction = [\"The relationship between cats and dogs is not exactly friendly.\", \"a good bookshop is just a genteel black hole that knows how to read.\"]\n >>> reference = [[\"The relationship between dogs and cats is not exactly friendly.\"], [\"A good bookshop is just a genteel Black Hole that knows how to read.\"]]\n >>> chrf = datasets.load_metric(\"chrf\")\n >>> results = chrf.compute(predictions=prediction,\n ... references=reference,\n ... word_order=2,\n ... lowercase=True)\n >>> print(results)\n {'score': 92.12853119829202, 'char_order': 6, 'word_order': 2, 'beta': 2}\n" @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION ) class SCREAMING_SNAKE_CASE_ ( datasets.Metric ): """simple docstring""" def snake_case_ ( self): if version.parse(scb.__version__) < version.parse("""1.4.12"""): raise ImportWarning( """To use `sacrebleu`, the module `sacrebleu>=1.4.12` is required, and the current version of `sacrebleu` doesn't match this condition.\n""" """You can install it with `pip install \"sacrebleu>=1.4.12\"`.""") return datasets.MetricInfo( description=_DESCRIPTION , citation=_CITATION , homepage="""https://github.com/mjpost/sacreBLEU#chrf--chrf""" , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features( { """predictions""": datasets.Value("""string""" , id="""sequence"""), """references""": datasets.Sequence(datasets.Value("""string""" , id="""sequence""") , id="""references"""), }) , codebase_urls=["""https://github.com/mjpost/sacreBLEU#chrf--chrf"""] , reference_urls=[ """https://github.com/m-popovic/chrF""", ] , ) def snake_case_ ( self , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ = CHRF.CHAR_ORDER , lowerCAmelCase__ = CHRF.WORD_ORDER , lowerCAmelCase__ = CHRF.BETA , lowerCAmelCase__ = False , lowerCAmelCase__ = False , lowerCAmelCase__ = False , ): __SCREAMING_SNAKE_CASE = len(references[0]) if any(len(lowerCAmelCase__) != references_per_prediction for refs in references): raise ValueError("""Sacrebleu requires the same number of references for each prediction""") __SCREAMING_SNAKE_CASE = [[refs[i] for refs in references] for i in range(lowerCAmelCase__)] __SCREAMING_SNAKE_CASE = CHRF(lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__) __SCREAMING_SNAKE_CASE = sb_chrf.corpus_score(lowerCAmelCase__ , lowerCAmelCase__) return { "score": output.score, "char_order": output.char_order, "word_order": output.word_order, "beta": output.beta, }
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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available A__ : Optional[Any] ={ '''configuration_bigbird_pegasus''': [ '''BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''BigBirdPegasusConfig''', '''BigBirdPegasusOnnxConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : Union[str, Any] =[ '''BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST''', '''BigBirdPegasusForCausalLM''', '''BigBirdPegasusForConditionalGeneration''', '''BigBirdPegasusForQuestionAnswering''', '''BigBirdPegasusForSequenceClassification''', '''BigBirdPegasusModel''', '''BigBirdPegasusPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP, BigBirdPegasusConfig, BigBirdPegasusOnnxConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST, BigBirdPegasusForCausalLM, BigBirdPegasusForConditionalGeneration, BigBirdPegasusForQuestionAnswering, BigBirdPegasusForSequenceClassification, BigBirdPegasusModel, BigBirdPegasusPreTrainedModel, ) else: import sys A__ : Optional[Any] =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
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import copy from ...configuration_utils import PretrainedConfig from ...utils import logging from ..auto.configuration_auto import CONFIG_MAPPING lowercase__ :str = logging.get_logger(__name__) class lowercase ( SCREAMING_SNAKE_CASE__ ): lowercase_ : Union[str, Any] ='''upernet''' def __init__( self ,A__=None ,A__=5_1_2 ,A__=0.02 ,A__=[1, 2, 3, 6] ,A__=True ,A__=0.4 ,A__=3_8_4 ,A__=2_5_6 ,A__=1 ,A__=False ,A__=2_5_5 ,**A__ ,): super().__init__(**A__) if backbone_config is None: logger.info('''`backbone_config` is `None`. Initializing the config with the default `ResNet` backbone.''') lowercase = CONFIG_MAPPING['''resnet'''](out_features=['''stage1''', '''stage2''', '''stage3''', '''stage4''']) elif isinstance(A__ ,A__): lowercase = backbone_config.get('''model_type''') lowercase = CONFIG_MAPPING[backbone_model_type] lowercase = config_class.from_dict(A__) lowercase = backbone_config lowercase = hidden_size lowercase = initializer_range lowercase = pool_scales lowercase = use_auxiliary_head lowercase = auxiliary_loss_weight lowercase = auxiliary_in_channels lowercase = auxiliary_channels lowercase = auxiliary_num_convs lowercase = auxiliary_concat_input lowercase = loss_ignore_index def A__ ( self): lowercase = copy.deepcopy(self.__dict__) lowercase = self.backbone_config.to_dict() lowercase = self.__class__.model_type return output
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'''simple docstring''' import math from typing import Callable, List, Optional, Union import numpy as np import PIL import torch from PIL import Image from transformers import CLIPTextModel, CLIPTokenizer from diffusers.models import AutoencoderKL, UNetaDConditionModel from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_upscale import StableDiffusionUpscalePipeline from diffusers.schedulers import DDIMScheduler, DDPMScheduler, LMSDiscreteScheduler, PNDMScheduler def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase=[] ): """simple docstring""" _lowerCAmelCase = size[0] - overlap_pixels * 2 _lowerCAmelCase = size[1] - overlap_pixels * 2 for letter in ["l", "r"]: if letter in remove_borders: size_x += overlap_pixels for letter in ["t", "b"]: if letter in remove_borders: size_y += overlap_pixels _lowerCAmelCase = np.ones((size_y, size_x) , dtype=np.uinta ) * 2_55 _lowerCAmelCase = np.pad(lowerCAmelCase , mode="""linear_ramp""" , pad_width=lowerCAmelCase , end_values=0 ) if "l" in remove_borders: _lowerCAmelCase = mask[:, overlap_pixels : mask.shape[1]] if "r" in remove_borders: _lowerCAmelCase = mask[:, 0 : mask.shape[1] - overlap_pixels] if "t" in remove_borders: _lowerCAmelCase = mask[overlap_pixels : mask.shape[0], :] if "b" in remove_borders: _lowerCAmelCase = mask[0 : mask.shape[0] - overlap_pixels, :] return mask def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" return max(lowerCAmelCase , min(lowerCAmelCase , lowerCAmelCase ) ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" return ( clamp(rect[0] , min[0] , max[0] ), clamp(rect[1] , min[1] , max[1] ), clamp(rect[2] , min[0] , max[0] ), clamp(rect[3] , min[1] , max[1] ), ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = list(lowerCAmelCase ) rect[0] -= overlap rect[1] -= overlap rect[2] += overlap rect[3] += overlap _lowerCAmelCase = clamp_rect(lowerCAmelCase , [0, 0] , [image_size[0], image_size[1]] ) return rect def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = Image.new("""RGB""" , (tile.size[0] + original_slice, tile.size[1]) ) result.paste( original_image.resize((tile.size[0], tile.size[1]) , Image.BICUBIC ).crop( (slice_x, 0, slice_x + original_slice, tile.size[1]) ) , (0, 0) , ) result.paste(lowerCAmelCase , (original_slice, 0) ) return result def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = (original_image_slice * 4, 0, tile.size[0], tile.size[1]) _lowerCAmelCase = tile.crop(lowerCAmelCase ) return tile def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = n % d return n - divisor class UpperCAmelCase ( snake_case_ ): def __init__( self : List[Any] , __snake_case : AutoencoderKL , __snake_case : CLIPTextModel , __snake_case : CLIPTokenizer , __snake_case : UNetaDConditionModel , __snake_case : DDPMScheduler , __snake_case : Union[DDIMScheduler, PNDMScheduler, LMSDiscreteScheduler] , __snake_case : int = 3_50 , ) -> int: super().__init__( vae=__snake_case , text_encoder=__snake_case , tokenizer=__snake_case , unet=__snake_case , low_res_scheduler=__snake_case , scheduler=__snake_case , max_noise_level=__snake_case , ) def lowercase__ ( self : List[Any] , __snake_case : List[Any] , __snake_case : List[Any] , __snake_case : Dict , __snake_case : List[Any] , __snake_case : int , __snake_case : Optional[Any] , __snake_case : Any , **__snake_case : str ) -> int: torch.manual_seed(0 ) _lowerCAmelCase = ( min(image.size[0] - (tile_size + original_image_slice) , x * tile_size ), min(image.size[1] - (tile_size + original_image_slice) , y * tile_size ), min(image.size[0] , (x + 1) * tile_size ), min(image.size[1] , (y + 1) * tile_size ), ) _lowerCAmelCase = add_overlap_rect(__snake_case , __snake_case , image.size ) _lowerCAmelCase = image.crop(__snake_case ) _lowerCAmelCase = ((crop_rect[0] + ((crop_rect[2] - crop_rect[0]) / 2)) / image.size[0]) * tile.size[0] _lowerCAmelCase = translated_slice_x - (original_image_slice / 2) _lowerCAmelCase = max(0 , __snake_case ) _lowerCAmelCase = squeeze_tile(__snake_case , __snake_case , __snake_case , __snake_case ) _lowerCAmelCase = to_input.size _lowerCAmelCase = to_input.resize((tile_size, tile_size) , Image.BICUBIC ) _lowerCAmelCase = super(__snake_case , self ).__call__(image=__snake_case , **__snake_case ).images[0] _lowerCAmelCase = upscaled_tile.resize((orig_input_size[0] * 4, orig_input_size[1] * 4) , Image.BICUBIC ) _lowerCAmelCase = unsqueeze_tile(__snake_case , __snake_case ) _lowerCAmelCase = upscaled_tile.resize((tile.size[0] * 4, tile.size[1] * 4) , Image.BICUBIC ) _lowerCAmelCase = [] if x == 0: remove_borders.append("""l""" ) elif crop_rect[2] == image.size[0]: remove_borders.append("""r""" ) if y == 0: remove_borders.append("""t""" ) elif crop_rect[3] == image.size[1]: remove_borders.append("""b""" ) _lowerCAmelCase = Image.fromarray( make_transparency_mask( (upscaled_tile.size[0], upscaled_tile.size[1]) , tile_border * 4 , remove_borders=__snake_case ) , mode="""L""" , ) final_image.paste( __snake_case , (crop_rect_with_overlap[0] * 4, crop_rect_with_overlap[1] * 4) , __snake_case ) @torch.no_grad() def __call__( self : Union[str, Any] , __snake_case : Union[str, List[str]] , __snake_case : Union[PIL.Image.Image, List[PIL.Image.Image]] , __snake_case : int = 75 , __snake_case : float = 9.0 , __snake_case : int = 50 , __snake_case : Optional[Union[str, List[str]]] = None , __snake_case : Optional[int] = 1 , __snake_case : float = 0.0 , __snake_case : Optional[torch.Generator] = None , __snake_case : Optional[torch.FloatTensor] = None , __snake_case : Optional[Callable[[int, int, torch.FloatTensor], None]] = None , __snake_case : int = 1 , __snake_case : int = 1_28 , __snake_case : int = 32 , __snake_case : int = 32 , ) -> str: _lowerCAmelCase = Image.new("""RGB""" , (image.size[0] * 4, image.size[1] * 4) ) _lowerCAmelCase = math.ceil(image.size[0] / tile_size ) _lowerCAmelCase = math.ceil(image.size[1] / tile_size ) _lowerCAmelCase = tcx * tcy _lowerCAmelCase = 0 for y in range(__snake_case ): for x in range(__snake_case ): self._process_tile( __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , prompt=__snake_case , num_inference_steps=__snake_case , guidance_scale=__snake_case , noise_level=__snake_case , negative_prompt=__snake_case , num_images_per_prompt=__snake_case , eta=__snake_case , generator=__snake_case , latents=__snake_case , ) current_count += 1 if callback is not None: callback({"""progress""": current_count / total_tile_count, """image""": final_image} ) return final_image def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = """stabilityai/stable-diffusion-x4-upscaler""" _lowerCAmelCase = StableDiffusionTiledUpscalePipeline.from_pretrained(lowerCAmelCase , revision="""fp16""" , torch_dtype=torch.floataa ) _lowerCAmelCase = pipe.to("""cuda""" ) _lowerCAmelCase = Image.open("""../../docs/source/imgs/diffusers_library.jpg""" ) def callback(lowerCAmelCase ): print(f"progress: {obj['progress']:.4f}" ) obj["image"].save("""diffusers_library_progress.jpg""" ) _lowerCAmelCase = pipe(image=lowerCAmelCase , prompt="""Black font, white background, vector""" , noise_level=40 , callback=lowerCAmelCase ) final_image.save("""diffusers_library.jpg""" ) if __name__ == "__main__": main()
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"""simple docstring""" from ...configuration_utils import PretrainedConfig from ...utils import logging SCREAMING_SNAKE_CASE : str = logging.get_logger(__name__) SCREAMING_SNAKE_CASE : Tuple = { """alibaba-damo/mgp-str-base""": """https://huggingface.co/alibaba-damo/mgp-str-base/resolve/main/config.json""", } class _UpperCAmelCase ( __snake_case ): '''simple docstring''' lowerCamelCase__ ='mgp-str' def __init__(self , a_=[32, 1_28] , a_=4 , a_=3 , a_=27 , a_=38 , a_=5_02_57 , a_=3_05_22 , a_=7_68 , a_=12 , a_=12 , a_=4.0 , a_=True , a_=False , a_=1E-5 , a_=0.0 , a_=0.0 , a_=0.0 , a_=False , a_=0.02 , **a_ , ): '''simple docstring''' super().__init__(**a_ ) __snake_case : Union[str, Any] = image_size __snake_case : Union[str, Any] = patch_size __snake_case : List[Any] = num_channels __snake_case : Any = max_token_length __snake_case : int = num_character_labels __snake_case : int = num_bpe_labels __snake_case : Any = num_wordpiece_labels __snake_case : List[Any] = hidden_size __snake_case : Optional[Any] = num_hidden_layers __snake_case : List[str] = num_attention_heads __snake_case : List[Any] = mlp_ratio __snake_case : Any = distilled __snake_case : Optional[int] = layer_norm_eps __snake_case : Union[str, Any] = drop_rate __snake_case : Any = qkv_bias __snake_case : Optional[int] = attn_drop_rate __snake_case : Any = drop_path_rate __snake_case : Any = output_aa_attentions __snake_case : Tuple = initializer_range
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'''simple docstring''' import gc import random import unittest import numpy as np import torch from PIL import Image from diffusers import ( DDIMScheduler, KandinskyVaaImgaImgPipeline, KandinskyVaaPriorPipeline, UNetaDConditionModel, VQModel, ) from diffusers.utils import floats_tensor, load_image, load_numpy, slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference enable_full_determinism() class UpperCAmelCase ( snake_case_ , unittest.TestCase ): _lowercase: int = KandinskyVaaImgaImgPipeline _lowercase: List[str] = ['''image_embeds''', '''negative_image_embeds''', '''image'''] _lowercase: Optional[int] = [ '''image_embeds''', '''negative_image_embeds''', '''image''', ] _lowercase: Tuple = [ '''generator''', '''height''', '''width''', '''strength''', '''guidance_scale''', '''num_inference_steps''', '''return_dict''', '''guidance_scale''', '''num_images_per_prompt''', '''output_type''', '''return_dict''', ] _lowercase: List[str] = False @property def lowercase__ ( self : str ) -> List[str]: return 32 @property def lowercase__ ( self : Optional[int] ) -> List[Any]: return 32 @property def lowercase__ ( self : Tuple ) -> str: return self.time_input_dim @property def lowercase__ ( self : Any ) -> Optional[int]: return self.time_input_dim * 4 @property def lowercase__ ( self : int ) -> Optional[Any]: return 1_00 @property def lowercase__ ( self : int ) -> Dict: torch.manual_seed(0 ) _lowerCAmelCase = { """in_channels""": 4, # Out channels is double in channels because predicts mean and variance """out_channels""": 8, """addition_embed_type""": """image""", """down_block_types""": ("""ResnetDownsampleBlock2D""", """SimpleCrossAttnDownBlock2D"""), """up_block_types""": ("""SimpleCrossAttnUpBlock2D""", """ResnetUpsampleBlock2D"""), """mid_block_type""": """UNetMidBlock2DSimpleCrossAttn""", """block_out_channels""": (self.block_out_channels_a, self.block_out_channels_a * 2), """layers_per_block""": 1, """encoder_hid_dim""": self.text_embedder_hidden_size, """encoder_hid_dim_type""": """image_proj""", """cross_attention_dim""": self.cross_attention_dim, """attention_head_dim""": 4, """resnet_time_scale_shift""": """scale_shift""", """class_embed_type""": None, } _lowerCAmelCase = UNetaDConditionModel(**__snake_case ) return model @property def lowercase__ ( self : Union[str, Any] ) -> Tuple: return { "block_out_channels": [32, 64], "down_block_types": ["DownEncoderBlock2D", "AttnDownEncoderBlock2D"], "in_channels": 3, "latent_channels": 4, "layers_per_block": 1, "norm_num_groups": 8, "norm_type": "spatial", "num_vq_embeddings": 12, "out_channels": 3, "up_block_types": [ "AttnUpDecoderBlock2D", "UpDecoderBlock2D", ], "vq_embed_dim": 4, } @property def lowercase__ ( self : Dict ) -> str: torch.manual_seed(0 ) _lowerCAmelCase = VQModel(**self.dummy_movq_kwargs ) return model def lowercase__ ( self : Optional[int] ) -> Optional[int]: _lowerCAmelCase = self.dummy_unet _lowerCAmelCase = self.dummy_movq _lowerCAmelCase = { """num_train_timesteps""": 10_00, """beta_schedule""": """linear""", """beta_start""": 0.0_00_85, """beta_end""": 0.0_12, """clip_sample""": False, """set_alpha_to_one""": False, """steps_offset""": 0, """prediction_type""": """epsilon""", """thresholding""": False, } _lowerCAmelCase = DDIMScheduler(**__snake_case ) _lowerCAmelCase = { """unet""": unet, """scheduler""": scheduler, """movq""": movq, } return components def lowercase__ ( self : int , __snake_case : List[str] , __snake_case : List[Any]=0 ) -> Union[str, Any]: _lowerCAmelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(seed + 1 ) ).to( __snake_case ) # create init_image _lowerCAmelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((2_56, 2_56) ) if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = { """image""": init_image, """image_embeds""": image_embeds, """negative_image_embeds""": negative_image_embeds, """generator""": generator, """height""": 64, """width""": 64, """num_inference_steps""": 10, """guidance_scale""": 7.0, """strength""": 0.2, """output_type""": """np""", } return inputs def lowercase__ ( self : str ) -> Tuple: _lowerCAmelCase = """cpu""" _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) _lowerCAmelCase = pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = pipe(**self.get_dummy_inputs(__snake_case ) ) _lowerCAmelCase = output.images _lowerCAmelCase = pipe( **self.get_dummy_inputs(__snake_case ) , return_dict=__snake_case , )[0] _lowerCAmelCase = image[0, -3:, -3:, -1] _lowerCAmelCase = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) _lowerCAmelCase = np.array( [0.6_19_97_78, 0.63_98_44_06, 0.46_14_57_85, 0.62_94_49_84, 0.5_62_22_15, 0.47_30_61_32, 0.47_44_14_56, 0.4_60_76_06, 0.48_71_92_63] ) assert ( np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 ), f" expected_slice {expected_slice}, but got {image_slice.flatten()}" assert ( np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 ), f" expected_slice {expected_slice}, but got {image_from_tuple_slice.flatten()}" @slow @require_torch_gpu class UpperCAmelCase ( unittest.TestCase ): def lowercase__ ( self : Any ) -> List[Any]: # clean up the VRAM after each test super().tearDown() gc.collect() torch.cuda.empty_cache() def lowercase__ ( self : int ) -> Dict: _lowerCAmelCase = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/kandinskyv22/kandinskyv22_img2img_frog.npy""" ) _lowerCAmelCase = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/kandinsky/cat.png""" ) _lowerCAmelCase = """A red cartoon frog, 4k""" _lowerCAmelCase = KandinskyVaaPriorPipeline.from_pretrained( """kandinsky-community/kandinsky-2-2-prior""" , torch_dtype=torch.floataa ) pipe_prior.to(__snake_case ) _lowerCAmelCase = KandinskyVaaImgaImgPipeline.from_pretrained( """kandinsky-community/kandinsky-2-2-decoder""" , torch_dtype=torch.floataa ) _lowerCAmelCase = pipeline.to(__snake_case ) pipeline.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = torch.Generator(device="""cpu""" ).manual_seed(0 ) _lowerCAmelCase , _lowerCAmelCase = pipe_prior( __snake_case , generator=__snake_case , num_inference_steps=5 , negative_prompt="""""" , ).to_tuple() _lowerCAmelCase = pipeline( image=__snake_case , image_embeds=__snake_case , negative_image_embeds=__snake_case , generator=__snake_case , num_inference_steps=1_00 , height=7_68 , width=7_68 , strength=0.2 , output_type="""np""" , ) _lowerCAmelCase = output.images[0] assert image.shape == (7_68, 7_68, 3) assert_mean_pixel_difference(__snake_case , __snake_case )
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import unittest import numpy as np import torch from diffusers import VersatileDiffusionImageVariationPipeline from diffusers.utils.testing_utils import load_image, require_torch_gpu, slow, torch_device A__ : Union[str, Any] = False class __snake_case ( unittest.TestCase ): pass @slow @require_torch_gpu class __snake_case ( unittest.TestCase ): def UpperCAmelCase__ ( self : Union[str, Any]): lowerCAmelCase_ : List[Any] = VersatileDiffusionImageVariationPipeline.from_pretrained('''shi-labs/versatile-diffusion''') pipe.to(A_) pipe.set_progress_bar_config(disable=A_) lowerCAmelCase_ : Optional[Any] = load_image( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/versatile_diffusion/benz.jpg''') lowerCAmelCase_ : Union[str, Any] = torch.manual_seed(0) lowerCAmelCase_ : Optional[int] = pipe( image=A_ , generator=A_ , guidance_scale=7.5 , num_inference_steps=5_0 , output_type='''numpy''' , ).images lowerCAmelCase_ : Union[str, Any] = image[0, 2_5_3:2_5_6, 2_5_3:2_5_6, -1] assert image.shape == (1, 5_1_2, 5_1_2, 3) lowerCAmelCase_ : str = np.array([0.0441, 0.0469, 0.0507, 0.0575, 0.0632, 0.0650, 0.0865, 0.0909, 0.0945]) assert np.abs(image_slice.flatten() - expected_slice).max() < 1e-2
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'''simple docstring''' import inspect import unittest from transformers import SegformerConfig, is_torch_available, is_vision_available from transformers.models.auto import get_values from transformers.testing_utils import require_torch, slow, torch_device from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( MODEL_MAPPING, SegformerForImageClassification, SegformerForSemanticSegmentation, SegformerModel, ) from transformers.models.segformer.modeling_segformer import SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import SegformerImageProcessor class UpperCAmelCase ( snake_case_ ): def lowercase__ ( self : List[Any] ) -> Union[str, Any]: _lowerCAmelCase = self.config_class(**self.inputs_dict ) self.parent.assertTrue(hasattr(__snake_case , """hidden_sizes""" ) ) self.parent.assertTrue(hasattr(__snake_case , """num_attention_heads""" ) ) self.parent.assertTrue(hasattr(__snake_case , """num_encoder_blocks""" ) ) class UpperCAmelCase : def __init__( self : Optional[int] , __snake_case : str , __snake_case : Dict=13 , __snake_case : str=64 , __snake_case : Dict=3 , __snake_case : Dict=4 , __snake_case : Tuple=[2, 2, 2, 2] , __snake_case : int=[8, 4, 2, 1] , __snake_case : List[str]=[16, 32, 64, 1_28] , __snake_case : Optional[Any]=[1, 4, 8, 16] , __snake_case : Dict=[1, 2, 4, 8] , __snake_case : Optional[Any]=True , __snake_case : List[str]=True , __snake_case : int="gelu" , __snake_case : Optional[Any]=0.1 , __snake_case : Any=0.1 , __snake_case : Tuple=0.02 , __snake_case : Union[str, Any]=3 , __snake_case : Tuple=None , ) -> List[str]: _lowerCAmelCase = parent _lowerCAmelCase = batch_size _lowerCAmelCase = image_size _lowerCAmelCase = num_channels _lowerCAmelCase = num_encoder_blocks _lowerCAmelCase = sr_ratios _lowerCAmelCase = depths _lowerCAmelCase = hidden_sizes _lowerCAmelCase = downsampling_rates _lowerCAmelCase = num_attention_heads _lowerCAmelCase = is_training _lowerCAmelCase = use_labels _lowerCAmelCase = hidden_act _lowerCAmelCase = hidden_dropout_prob _lowerCAmelCase = attention_probs_dropout_prob _lowerCAmelCase = initializer_range _lowerCAmelCase = num_labels _lowerCAmelCase = scope def lowercase__ ( self : int ) -> Union[str, Any]: _lowerCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) _lowerCAmelCase = None if self.use_labels: _lowerCAmelCase = ids_tensor([self.batch_size, self.image_size, self.image_size] , self.num_labels ) _lowerCAmelCase = self.get_config() return config, pixel_values, labels def lowercase__ ( self : List[Any] ) -> List[str]: return SegformerConfig( image_size=self.image_size , num_channels=self.num_channels , num_encoder_blocks=self.num_encoder_blocks , depths=self.depths , hidden_sizes=self.hidden_sizes , num_attention_heads=self.num_attention_heads , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , initializer_range=self.initializer_range , ) def lowercase__ ( self : Tuple , __snake_case : Optional[Any] , __snake_case : Union[str, Any] , __snake_case : Optional[int] ) -> Tuple: _lowerCAmelCase = SegformerModel(config=__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = _lowerCAmelCase = self.image_size // (self.downsampling_rates[-1] * 2) self.parent.assertEqual( result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], expected_height, expected_width) ) def lowercase__ ( self : List[str] , __snake_case : List[Any] , __snake_case : Optional[Any] , __snake_case : Optional[int] ) -> List[str]: _lowerCAmelCase = self.num_labels _lowerCAmelCase = SegformerForSemanticSegmentation(__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = model(__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) _lowerCAmelCase = model(__snake_case , labels=__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) self.parent.assertGreater(result.loss , 0.0 ) def lowercase__ ( self : str , __snake_case : Union[str, Any] , __snake_case : Optional[int] , __snake_case : Dict ) -> List[str]: _lowerCAmelCase = 1 _lowerCAmelCase = SegformerForSemanticSegmentation(config=__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = torch.randint(0 , 1 , (self.batch_size, self.image_size, self.image_size) ).to(__snake_case ) _lowerCAmelCase = model(__snake_case , labels=__snake_case ) self.parent.assertGreater(result.loss , 0.0 ) def lowercase__ ( self : Optional[int] ) -> int: _lowerCAmelCase = self.prepare_config_and_inputs() _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = config_and_inputs _lowerCAmelCase = {"""pixel_values""": pixel_values} return config, inputs_dict @require_torch class UpperCAmelCase ( snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Any = ( ( SegformerModel, SegformerForSemanticSegmentation, SegformerForImageClassification, ) if is_torch_available() else () ) _lowercase: Tuple = ( { '''feature-extraction''': SegformerModel, '''image-classification''': SegformerForImageClassification, '''image-segmentation''': SegformerForSemanticSegmentation, } if is_torch_available() else {} ) _lowercase: Tuple = True _lowercase: Union[str, Any] = False _lowercase: Dict = False _lowercase: Optional[Any] = False def lowercase__ ( self : Tuple ) -> Any: _lowerCAmelCase = SegformerModelTester(self ) _lowerCAmelCase = SegformerConfigTester(self , config_class=__snake_case ) def lowercase__ ( self : Optional[Any] ) -> Dict: self.config_tester.run_common_tests() def lowercase__ ( self : int ) -> Union[str, Any]: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__snake_case ) def lowercase__ ( self : Dict ) -> int: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_binary_image_segmentation(*__snake_case ) def lowercase__ ( self : Dict ) -> Dict: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_segmentation(*__snake_case ) @unittest.skip("""SegFormer does not use inputs_embeds""" ) def lowercase__ ( self : int ) -> Union[str, Any]: pass @unittest.skip("""SegFormer does not have get_input_embeddings method and get_output_embeddings methods""" ) def lowercase__ ( self : Optional[int] ) -> int: pass def lowercase__ ( self : Union[str, Any] ) -> Optional[Any]: _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCAmelCase = model_class(__snake_case ) _lowerCAmelCase = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCAmelCase = [*signature.parameters.keys()] _lowerCAmelCase = ["""pixel_values"""] self.assertListEqual(arg_names[:1] , __snake_case ) def lowercase__ ( self : Tuple ) -> Tuple: _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() _lowerCAmelCase = True for model_class in self.all_model_classes: _lowerCAmelCase = True _lowerCAmelCase = False _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.attentions _lowerCAmelCase = sum(self.model_tester.depths ) self.assertEqual(len(__snake_case ) , __snake_case ) # check that output_attentions also work using config del inputs_dict["output_attentions"] _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) _lowerCAmelCase = (self.model_tester.image_size // 4) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) # verify the last attentions (last block, last layer) _lowerCAmelCase = (self.model_tester.image_size // 32) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (32 * self.model_tester.sr_ratios[-1])) ** 2 self.assertListEqual( list(attentions[-1].shape[-3:] ) , [self.model_tester.num_attention_heads[-1], expected_seq_len, expected_reduced_seq_len] , ) _lowerCAmelCase = len(__snake_case ) # Check attention is always last and order is fine _lowerCAmelCase = True _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) self.assertEqual(out_len + 1 , len(__snake_case ) ) _lowerCAmelCase = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) _lowerCAmelCase = (self.model_tester.image_size // 4) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(self_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) def lowercase__ ( self : int ) -> List[str]: def check_hidden_states_output(__snake_case : str , __snake_case : Tuple , __snake_case : Optional[int] ): _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.hidden_states _lowerCAmelCase = self.model_tester.num_encoder_blocks self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first hidden states (first block) self.assertListEqual( list(hidden_states[0].shape[-3:] ) , [ self.model_tester.hidden_sizes[0], self.model_tester.image_size // 4, self.model_tester.image_size // 4, ] , ) _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCAmelCase = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] _lowerCAmelCase = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) def lowercase__ ( self : Optional[Any] ) -> Any: if not self.model_tester.is_training: return _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() _lowerCAmelCase = True for model_class in self.all_model_classes: if model_class in get_values(__snake_case ): continue _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.train() _lowerCAmelCase = self._prepare_for_class(__snake_case , __snake_case , return_labels=__snake_case ) _lowerCAmelCase = model(**__snake_case ).loss loss.backward() @unittest.skip("""Will be fixed soon by reducing the size of the model used for common tests.""" ) def lowercase__ ( self : Tuple ) -> Dict: pass @slow def lowercase__ ( self : str ) -> Optional[int]: for model_name in SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowerCAmelCase = SegformerModel.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_torch class UpperCAmelCase ( unittest.TestCase ): @slow def lowercase__ ( self : Union[str, Any] ) -> Any: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained("""nvidia/segformer-b0-finetuned-ade-512-512""" ).to( __snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = torch.Size((1, model.config.num_labels, 1_28, 1_28) ) self.assertEqual(outputs.logits.shape , __snake_case ) _lowerCAmelCase = torch.tensor( [ [[-4.63_10, -5.52_32, -6.23_56], [-5.19_21, -6.14_44, -6.59_96], [-5.44_24, -6.27_90, -6.75_74]], [[-12.13_91, -13.31_22, -13.95_54], [-12.87_32, -13.93_52, -14.35_63], [-12.94_38, -13.82_26, -14.25_13]], [[-12.51_34, -13.46_86, -14.49_15], [-12.86_69, -14.43_43, -14.77_58], [-13.25_23, -14.58_19, -15.06_94]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1E-4 ) ) @slow def lowercase__ ( self : Optional[Any] ) -> Any: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained( """nvidia/segformer-b1-finetuned-cityscapes-1024-1024""" ).to(__snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = torch.Size((1, model.config.num_labels, 1_28, 1_28) ) self.assertEqual(outputs.logits.shape , __snake_case ) _lowerCAmelCase = torch.tensor( [ [[-13.57_48, -13.91_11, -12.65_00], [-14.35_00, -15.36_83, -14.23_28], [-14.75_32, -16.04_24, -15.60_87]], [[-17.16_51, -15.87_25, -12.96_53], [-17.25_80, -17.37_18, -14.82_23], [-16.60_58, -16.87_83, -16.74_52]], [[-3.64_56, -3.02_09, -1.42_03], [-3.07_97, -3.19_59, -2.00_00], [-1.87_57, -1.92_17, -1.69_97]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1E-1 ) ) @slow def lowercase__ ( self : Any ) -> str: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained("""nvidia/segformer-b0-finetuned-ade-512-512""" ).to( __snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = outputs.logits.detach().cpu() _lowerCAmelCase = image_processor.post_process_semantic_segmentation(outputs=__snake_case , target_sizes=[(5_00, 3_00)] ) _lowerCAmelCase = torch.Size((5_00, 3_00) ) self.assertEqual(segmentation[0].shape , __snake_case ) _lowerCAmelCase = image_processor.post_process_semantic_segmentation(outputs=__snake_case ) _lowerCAmelCase = torch.Size((1_28, 1_28) ) self.assertEqual(segmentation[0].shape , __snake_case )
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'''simple docstring''' import io import json import unittest from parameterized import parameterized from transformers import FSMTForConditionalGeneration, FSMTTokenizer from transformers.testing_utils import get_tests_dir, require_torch, slow, torch_device from utils import calculate_bleu lowerCAmelCase__ = get_tests_dir() + '''/test_data/fsmt/fsmt_val_data.json''' with io.open(filename, '''r''', encoding='''utf-8''') as f: lowerCAmelCase__ = json.load(f) @require_torch class lowercase_ (unittest.TestCase ): """simple docstring""" def SCREAMING_SNAKE_CASE ( self : Optional[int] ,lowercase__ : Tuple ): return FSMTTokenizer.from_pretrained(lowercase__ ) def SCREAMING_SNAKE_CASE ( self : Tuple ,lowercase__ : Optional[int] ): __lowercase = FSMTForConditionalGeneration.from_pretrained(lowercase__ ).to(lowercase__ ) if torch_device == "cuda": model.half() return model @parameterized.expand( [ ['''en-ru''', 2_6.0], ['''ru-en''', 2_2.0], ['''en-de''', 2_2.0], ['''de-en''', 2_9.0], ] ) @slow def SCREAMING_SNAKE_CASE ( self : Optional[int] ,lowercase__ : str ,lowercase__ : List[str] ): # note: this test is not testing the best performance since it only evals a small batch # but it should be enough to detect a regression in the output quality __lowercase = F"facebook/wmt19-{pair}" __lowercase = self.get_tokenizer(lowercase__ ) __lowercase = self.get_model(lowercase__ ) __lowercase = bleu_data[pair]['''src'''] __lowercase = bleu_data[pair]['''tgt'''] __lowercase = tokenizer(lowercase__ ,return_tensors='''pt''' ,truncation=lowercase__ ,padding='''longest''' ).to(lowercase__ ) __lowercase = model.generate( input_ids=batch.input_ids ,num_beams=8 ,) __lowercase = tokenizer.batch_decode( lowercase__ ,skip_special_tokens=lowercase__ ,clean_up_tokenization_spaces=lowercase__ ) __lowercase = calculate_bleu(lowercase__ ,lowercase__ ) print(lowercase__ ) self.assertGreaterEqual(scores['''bleu'''] ,lowercase__ )
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'''simple docstring''' from dataclasses import dataclass, field from typing import TYPE_CHECKING, Any, ClassVar, Dict, List, Optional, Union import pyarrow as pa if TYPE_CHECKING: from .features import FeatureType @dataclass class UpperCAmelCase : _lowercase: List[str] _lowercase: Optional[str] = None # Automatically constructed _lowercase: ClassVar[str] = "dict" _lowercase: ClassVar[Any] = None _lowercase: str = field(default='''Translation''' , init=snake_case_ , repr=snake_case_ ) def __call__( self : Optional[int] ) -> Optional[int]: return pa.struct({lang: pa.string() for lang in sorted(self.languages )} ) def lowercase__ ( self : Union[str, Any] ) -> Union["FeatureType", Dict[str, "FeatureType"]]: from .features import Value return {k: Value("""string""" ) for k in sorted(self.languages )} @dataclass class UpperCAmelCase : _lowercase: Optional[List] = None _lowercase: Optional[int] = None _lowercase: Optional[str] = None # Automatically constructed _lowercase: ClassVar[str] = "dict" _lowercase: ClassVar[Any] = None _lowercase: str = field(default='''TranslationVariableLanguages''' , init=snake_case_ , repr=snake_case_ ) def lowercase__ ( self : Any ) -> Optional[Any]: _lowerCAmelCase = sorted(set(self.languages ) ) if self.languages else None _lowerCAmelCase = len(self.languages ) if self.languages else None def __call__( self : List[str] ) -> Optional[Any]: return pa.struct({"""language""": pa.list_(pa.string() ), """translation""": pa.list_(pa.string() )} ) def lowercase__ ( self : Optional[Any] , __snake_case : Tuple ) -> Any: _lowerCAmelCase = set(self.languages ) if self.languages and set(__snake_case ) - lang_set: raise ValueError( f"Some languages in example ({', '.join(sorted(set(__snake_case ) - lang_set ) )}) are not in valid set ({', '.join(__snake_case )})." ) # Convert dictionary into tuples, splitting out cases where there are # multiple translations for a single language. _lowerCAmelCase = [] for lang, text in translation_dict.items(): if isinstance(__snake_case , __snake_case ): translation_tuples.append((lang, text) ) else: translation_tuples.extend([(lang, el) for el in text] ) # Ensure translations are in ascending order by language code. _lowerCAmelCase , _lowerCAmelCase = zip(*sorted(__snake_case ) ) return {"language": languages, "translation": translations} def lowercase__ ( self : str ) -> Union["FeatureType", Dict[str, "FeatureType"]]: from .features import Sequence, Value return { "language": Sequence(Value("""string""" ) ), "translation": Sequence(Value("""string""" ) ), }
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"""simple docstring""" from torch import nn class __UpperCamelCase ( nn.Module ): def __init__( self , lowerCAmelCase__ , lowerCAmelCase__ ) -> Optional[int]: super().__init__() a : Optional[Any] = class_size a : Any = embed_size # self.mlp1 = nn.Linear(embed_size, embed_size) # self.mlp2 = (nn.Linear(embed_size, class_size)) a : Optional[Any] = nn.Linear(lowerCAmelCase__ , lowerCAmelCase__ ) def __a ( self , lowerCAmelCase__ ) -> str: # hidden_state = nn.functional.relu(self.mlp1(hidden_state)) # hidden_state = self.mlp2(hidden_state) a : List[Any] = self.mlp(lowerCAmelCase__ ) return logits
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'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import normalizers from tokenizers.pre_tokenizers import BertPreTokenizer, PreTokenizer from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_roformer import RoFormerTokenizer from .tokenization_utils import JiebaPreTokenizer A__ : List[str] =logging.get_logger(__name__) A__ : Any ={'''vocab_file''': '''vocab.txt''', '''tokenizer_file''': '''tokenizer.json'''} A__ : Any ={ '''vocab_file''': { '''junnyu/roformer_chinese_small''': '''https://huggingface.co/junnyu/roformer_chinese_small/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_base''': '''https://huggingface.co/junnyu/roformer_chinese_base/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_char_small''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_small/resolve/main/vocab.txt''' ), '''junnyu/roformer_chinese_char_base''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_base/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_discriminator''': ( '''https://huggingface.co/junnyu/roformer_small_discriminator/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_generator''': ( '''https://huggingface.co/junnyu/roformer_small_generator/resolve/main/vocab.txt''' ), } } A__ : Optional[int] ={ '''junnyu/roformer_chinese_small''': 15_36, '''junnyu/roformer_chinese_base''': 15_36, '''junnyu/roformer_chinese_char_small''': 5_12, '''junnyu/roformer_chinese_char_base''': 5_12, '''junnyu/roformer_small_discriminator''': 1_28, '''junnyu/roformer_small_generator''': 1_28, } A__ : Optional[int] ={ '''junnyu/roformer_chinese_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_base''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_base''': {'''do_lower_case''': True}, '''junnyu/roformer_small_discriminator''': {'''do_lower_case''': True}, '''junnyu/roformer_small_generator''': {'''do_lower_case''': True}, } class UpperCAmelCase ( snake_case_ ): _lowercase: Optional[Any] = VOCAB_FILES_NAMES _lowercase: Tuple = PRETRAINED_VOCAB_FILES_MAP _lowercase: Dict = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowercase: str = PRETRAINED_INIT_CONFIGURATION _lowercase: List[Any] = RoFormerTokenizer def __init__( self : Dict , __snake_case : str=None , __snake_case : Tuple=None , __snake_case : List[Any]=True , __snake_case : str="[UNK]" , __snake_case : Tuple="[SEP]" , __snake_case : str="[PAD]" , __snake_case : str="[CLS]" , __snake_case : Any="[MASK]" , __snake_case : Dict=True , __snake_case : str=None , **__snake_case : Optional[Any] , ) -> Union[str, Any]: super().__init__( __snake_case , tokenizer_file=__snake_case , do_lower_case=__snake_case , unk_token=__snake_case , sep_token=__snake_case , pad_token=__snake_case , cls_token=__snake_case , mask_token=__snake_case , tokenize_chinese_chars=__snake_case , strip_accents=__snake_case , **__snake_case , ) _lowerCAmelCase = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( pre_tok_state.get("""lowercase""" , __snake_case ) != do_lower_case or pre_tok_state.get("""strip_accents""" , __snake_case ) != strip_accents ): _lowerCAmelCase = getattr(__snake_case , pre_tok_state.pop("""type""" ) ) _lowerCAmelCase = do_lower_case _lowerCAmelCase = strip_accents _lowerCAmelCase = pre_tok_class(**__snake_case ) _lowerCAmelCase = do_lower_case def __getstate__( self : int ) -> Optional[int]: _lowerCAmelCase = self.__dict__.copy() _lowerCAmelCase = BertPreTokenizer() return state def __setstate__( self : Tuple , __snake_case : Tuple ) -> List[str]: _lowerCAmelCase = d _lowerCAmelCase = self.__dict__["""_tokenizer"""].get_vocab() _lowerCAmelCase = PreTokenizer.custom(JiebaPreTokenizer(__snake_case ) ) def lowercase__ ( self : Union[str, Any] , __snake_case : Optional[int] , __snake_case : Optional[int]=None ) -> Optional[Any]: _lowerCAmelCase = [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 lowercase__ ( self : List[str] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: _lowerCAmelCase = [self.sep_token_id] _lowerCAmelCase = [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 lowercase__ ( self : int , __snake_case : str , __snake_case : Optional[str] = None ) -> Tuple[str]: _lowerCAmelCase = self._tokenizer.model.save(__snake_case , name=__snake_case ) return tuple(__snake_case ) def lowercase__ ( self : Dict , __snake_case : Dict , __snake_case : int=None , __snake_case : List[Any]=None , __snake_case : List[Any]=False , **__snake_case : Dict , ) -> str: _lowerCAmelCase = BertPreTokenizer() return super().save_pretrained(__snake_case , __snake_case , __snake_case , __snake_case , **__snake_case )
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"""simple docstring""" from collections import OrderedDict from typing import Mapping from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...utils import logging __UpperCamelCase : str = logging.get_logger(__name__) __UpperCamelCase : Dict = { '''camembert-base''': '''https://huggingface.co/camembert-base/resolve/main/config.json''', '''umberto-commoncrawl-cased-v1''': ( '''https://huggingface.co/Musixmatch/umberto-commoncrawl-cased-v1/resolve/main/config.json''' ), '''umberto-wikipedia-uncased-v1''': ( '''https://huggingface.co/Musixmatch/umberto-wikipedia-uncased-v1/resolve/main/config.json''' ), } class SCREAMING_SNAKE_CASE ( a_ ): """simple docstring""" lowercase__ = "camembert" def __init__( self : Optional[int] ,lowercase_ : List[str]=3_0_5_2_2 ,lowercase_ : Dict=7_6_8 ,lowercase_ : str=1_2 ,lowercase_ : int=1_2 ,lowercase_ : Any=3_0_7_2 ,lowercase_ : str="gelu" ,lowercase_ : List[str]=0.1 ,lowercase_ : Optional[Any]=0.1 ,lowercase_ : Tuple=5_1_2 ,lowercase_ : Optional[Any]=2 ,lowercase_ : Any=0.02 ,lowercase_ : Union[str, Any]=1E-12 ,lowercase_ : str=1 ,lowercase_ : Tuple=0 ,lowercase_ : Any=2 ,lowercase_ : Optional[int]="absolute" ,lowercase_ : List[Any]=True ,lowercase_ : Optional[Any]=None ,**lowercase_ : Optional[Any] ,): super().__init__(pad_token_id=lowercase_ ,bos_token_id=lowercase_ ,eos_token_id=lowercase_ ,**lowercase_ ) lowerCAmelCase__ : Union[str, Any] = vocab_size lowerCAmelCase__ : int = hidden_size lowerCAmelCase__ : Any = num_hidden_layers lowerCAmelCase__ : int = num_attention_heads lowerCAmelCase__ : Any = hidden_act lowerCAmelCase__ : int = intermediate_size lowerCAmelCase__ : Dict = hidden_dropout_prob lowerCAmelCase__ : Any = attention_probs_dropout_prob lowerCAmelCase__ : Optional[int] = max_position_embeddings lowerCAmelCase__ : Optional[int] = type_vocab_size lowerCAmelCase__ : List[Any] = initializer_range lowerCAmelCase__ : Any = layer_norm_eps lowerCAmelCase__ : Tuple = position_embedding_type lowerCAmelCase__ : Any = use_cache lowerCAmelCase__ : List[str] = classifier_dropout class SCREAMING_SNAKE_CASE ( a_ ): """simple docstring""" @property def __lowerCAmelCase ( self : List[Any] ): if self.task == "multiple-choice": lowerCAmelCase__ : Dict = {0: '''batch''', 1: '''choice''', 2: '''sequence'''} else: lowerCAmelCase__ : Tuple = {0: '''batch''', 1: '''sequence'''} return OrderedDict( [ ('''input_ids''', dynamic_axis), ('''attention_mask''', dynamic_axis), ] )
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'''simple docstring''' # This model implementation is heavily inspired by https://github.com/haofanwang/ControlNet-for-Diffusers/ import gc import random import tempfile import unittest import numpy as np import torch from PIL import Image from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer from diffusers import ( AutoencoderKL, ControlNetModel, DDIMScheduler, StableDiffusionControlNetImgaImgPipeline, UNetaDConditionModel, ) from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel from diffusers.utils import floats_tensor, load_image, load_numpy, randn_tensor, slow, torch_device from diffusers.utils.import_utils import is_xformers_available from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..pipeline_params import ( IMAGE_TO_IMAGE_IMAGE_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_PARAMS, ) from ..test_pipelines_common import ( PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin, ) enable_full_determinism() class UpperCAmelCase ( snake_case_ , snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Optional[int] = StableDiffusionControlNetImgaImgPipeline _lowercase: Tuple = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''} _lowercase: str = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS _lowercase: Tuple = IMAGE_TO_IMAGE_IMAGE_PARAMS.union({'''control_image'''} ) _lowercase: Union[str, Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS def lowercase__ ( self : List[str] ) -> List[str]: torch.manual_seed(0 ) _lowerCAmelCase = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , ) torch.manual_seed(0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) torch.manual_seed(0 ) _lowerCAmelCase = DDIMScheduler( beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule="""scaled_linear""" , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) _lowerCAmelCase = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , ) torch.manual_seed(0 ) _lowerCAmelCase = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) _lowerCAmelCase = CLIPTextModel(__snake_case ) _lowerCAmelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) _lowerCAmelCase = { """unet""": unet, """controlnet""": controlnet, """scheduler""": scheduler, """vae""": vae, """text_encoder""": text_encoder, """tokenizer""": tokenizer, """safety_checker""": None, """feature_extractor""": None, } return components def lowercase__ ( self : Any , __snake_case : str , __snake_case : Any=0 ) -> str: if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = 2 _lowerCAmelCase = randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ) _lowerCAmelCase = floats_tensor(control_image.shape , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((64, 64) ) _lowerCAmelCase = { """prompt""": """A painting of a squirrel eating a burger""", """generator""": generator, """num_inference_steps""": 2, """guidance_scale""": 6.0, """output_type""": """numpy""", """image""": image, """control_image""": control_image, } return inputs def lowercase__ ( self : Optional[int] ) -> List[Any]: return self._test_attention_slicing_forward_pass(expected_max_diff=2E-3 ) @unittest.skipIf( torch_device != """cuda""" or not is_xformers_available() , reason="""XFormers attention is only available with CUDA and `xformers` installed""" , ) def lowercase__ ( self : Tuple ) -> Optional[int]: self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2E-3 ) def lowercase__ ( self : Tuple ) -> Optional[int]: self._test_inference_batch_single_identical(expected_max_diff=2E-3 ) class UpperCAmelCase ( snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Any = StableDiffusionControlNetImgaImgPipeline _lowercase: Dict = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''} _lowercase: List[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS _lowercase: Any = frozenset([] ) # TO_DO: add image_params once refactored VaeImageProcessor.preprocess def lowercase__ ( self : Optional[Any] ) -> Union[str, Any]: torch.manual_seed(0 ) _lowerCAmelCase = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , ) torch.manual_seed(0 ) def init_weights(__snake_case : Optional[Any] ): if isinstance(__snake_case , torch.nn.Convad ): torch.nn.init.normal(m.weight ) m.bias.data.fill_(1.0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) controlneta.controlnet_down_blocks.apply(__snake_case ) torch.manual_seed(0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) controlneta.controlnet_down_blocks.apply(__snake_case ) torch.manual_seed(0 ) _lowerCAmelCase = DDIMScheduler( beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule="""scaled_linear""" , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) _lowerCAmelCase = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , ) torch.manual_seed(0 ) _lowerCAmelCase = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) _lowerCAmelCase = CLIPTextModel(__snake_case ) _lowerCAmelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) _lowerCAmelCase = MultiControlNetModel([controlneta, controlneta] ) _lowerCAmelCase = { """unet""": unet, """controlnet""": controlnet, """scheduler""": scheduler, """vae""": vae, """text_encoder""": text_encoder, """tokenizer""": tokenizer, """safety_checker""": None, """feature_extractor""": None, } return components def lowercase__ ( self : Tuple , __snake_case : int , __snake_case : List[str]=0 ) -> Union[str, Any]: if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = 2 _lowerCAmelCase = [ randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ), randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ), ] _lowerCAmelCase = floats_tensor(control_image[0].shape , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((64, 64) ) _lowerCAmelCase = { """prompt""": """A painting of a squirrel eating a burger""", """generator""": generator, """num_inference_steps""": 2, """guidance_scale""": 6.0, """output_type""": """numpy""", """image""": image, """control_image""": control_image, } return inputs def lowercase__ ( self : List[str] ) -> Dict: _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) pipe.to(__snake_case ) _lowerCAmelCase = 10.0 _lowerCAmelCase = 4 _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=0.1 , control_guidance_end=0.2 )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=[0.1, 0.3] , control_guidance_end=[0.2, 0.7] )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=0.4 , control_guidance_end=[0.5, 0.8] )[0] # make sure that all outputs are different assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 def lowercase__ ( self : int ) -> str: return self._test_attention_slicing_forward_pass(expected_max_diff=2E-3 ) @unittest.skipIf( torch_device != """cuda""" or not is_xformers_available() , reason="""XFormers attention is only available with CUDA and `xformers` installed""" , ) def lowercase__ ( self : Optional[Any] ) -> Dict: self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2E-3 ) def lowercase__ ( self : int ) -> str: self._test_inference_batch_single_identical(expected_max_diff=2E-3 ) def lowercase__ ( self : Union[str, Any] ) -> Optional[Any]: _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) with tempfile.TemporaryDirectory() as tmpdir: try: # save_pretrained is not implemented for Multi-ControlNet pipe.save_pretrained(__snake_case ) except NotImplementedError: pass @slow @require_torch_gpu class UpperCAmelCase ( unittest.TestCase ): def lowercase__ ( self : Union[str, Any] ) -> int: super().tearDown() gc.collect() torch.cuda.empty_cache() def lowercase__ ( self : List[str] ) -> Any: _lowerCAmelCase = ControlNetModel.from_pretrained("""lllyasviel/sd-controlnet-canny""" ) _lowerCAmelCase = StableDiffusionControlNetImgaImgPipeline.from_pretrained( """runwayml/stable-diffusion-v1-5""" , safety_checker=__snake_case , controlnet=__snake_case ) pipe.enable_model_cpu_offload() pipe.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = torch.Generator(device="""cpu""" ).manual_seed(0 ) _lowerCAmelCase = """evil space-punk bird""" _lowerCAmelCase = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png""" ).resize((5_12, 5_12) ) _lowerCAmelCase = load_image( """https://huggingface.co/lllyasviel/sd-controlnet-canny/resolve/main/images/bird.png""" ).resize((5_12, 5_12) ) _lowerCAmelCase = pipe( __snake_case , __snake_case , control_image=__snake_case , generator=__snake_case , output_type="""np""" , num_inference_steps=50 , strength=0.6 , ) _lowerCAmelCase = output.images[0] assert image.shape == (5_12, 5_12, 3) _lowerCAmelCase = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/img2img.npy""" ) assert np.abs(expected_image - image ).max() < 9E-2
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import argparse from transformers import CLIPImageProcessor, CLIPVisionModelWithProjection from diffusers import UnCLIPImageVariationPipeline, UnCLIPPipeline if __name__ == "__main__": __lowerCAmelCase : List[str] = argparse.ArgumentParser() parser.add_argument('--dump_path', default=None, type=str, required=True, help='Path to the output model.') parser.add_argument( '--txt2img_unclip', default='kakaobrain/karlo-v1-alpha', type=str, required=False, help='The pretrained txt2img unclip.', ) __lowerCAmelCase : Optional[int] = parser.parse_args() __lowerCAmelCase : Union[str, Any] = UnCLIPPipeline.from_pretrained(args.txtaimg_unclip) __lowerCAmelCase : List[Any] = CLIPImageProcessor() __lowerCAmelCase : Tuple = CLIPVisionModelWithProjection.from_pretrained('openai/clip-vit-large-patch14') __lowerCAmelCase : Union[str, Any] = UnCLIPImageVariationPipeline( decoder=txtaimg.decoder, text_encoder=txtaimg.text_encoder, tokenizer=txtaimg.tokenizer, text_proj=txtaimg.text_proj, feature_extractor=feature_extractor, image_encoder=image_encoder, super_res_first=txtaimg.super_res_first, super_res_last=txtaimg.super_res_last, decoder_scheduler=txtaimg.decoder_scheduler, super_res_scheduler=txtaimg.super_res_scheduler, ) imgaimg.save_pretrained(args.dump_path)
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'''simple docstring''' import argparse import json from pathlib import Path import requests import torch from huggingface_hub import hf_hub_download from PIL import Image from transformers import ( SwiftFormerConfig, SwiftFormerForImageClassification, ViTImageProcessor, ) from transformers.utils import logging logging.set_verbosity_info() A__ : List[Any] =logging.get_logger(__name__) A__ : Any =torch.device('''cpu''') def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = """http://images.cocodataset.org/val2017/000000039769.jpg""" _lowerCAmelCase = Image.open(requests.get(lowerCAmelCase , stream=lowerCAmelCase ).raw ) return im def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if swiftformer_name == "swiftformer_xs": return torch.tensor([-2.17_03e00, 2.11_07e00, -2.08_11e00, 8.86_85e-01, 2.43_60e-01] ) elif swiftformer_name == "swiftformer_s": return torch.tensor([3.96_36e-01, 2.34_78e-01, -1.69_63e00, -1.73_81e00, -8.63_37e-01] ) elif swiftformer_name == "swiftformer_l1": return torch.tensor([-4.27_68e-01, -4.74_29e-01, -1.08_97e00, -1.02_48e00, 3.55_23e-02] ) elif swiftformer_name == "swiftformer_l3": return torch.tensor([-2.53_30e-01, 2.42_11e-01, -6.01_85e-01, -8.27_89e-01, -6.04_46e-02] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = dct.pop(lowerCAmelCase ) _lowerCAmelCase = val def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [] for k in state_dict.keys(): _lowerCAmelCase = k if ".pwconv" in k: _lowerCAmelCase = k_new.replace(""".pwconv""" , """.point_wise_conv""" ) if ".dwconv" in k: _lowerCAmelCase = k_new.replace(""".dwconv""" , """.depth_wise_conv""" ) if ".Proj." in k: _lowerCAmelCase = k_new.replace(""".Proj.""" , """.proj.""" ) if "patch_embed" in k_new: _lowerCAmelCase = k_new.replace("""patch_embed""" , """swiftformer.patch_embed.patch_embedding""" ) if "network" in k_new: _lowerCAmelCase = k_new.split(""".""" ) if ls[2].isdigit(): _lowerCAmelCase = """swiftformer.encoder.network.""" + ls[1] + """.blocks.""" + ls[2] + """.""" + """.""".join(ls[3:] ) else: _lowerCAmelCase = k_new.replace("""network""" , """swiftformer.encoder.network""" ) rename_keys.append((k, k_new) ) return rename_keys @torch.no_grad() def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = SwiftFormerConfig() # dataset (ImageNet-21k only or also fine-tuned on ImageNet 2012), patch_size and image_size _lowerCAmelCase = 10_00 _lowerCAmelCase = """huggingface/label-files""" _lowerCAmelCase = """imagenet-1k-id2label.json""" _lowerCAmelCase = json.load(open(hf_hub_download(lowerCAmelCase , lowerCAmelCase , repo_type="""dataset""" ) , """r""" ) ) _lowerCAmelCase = {int(lowerCAmelCase ): v for k, v in idalabel.items()} _lowerCAmelCase = idalabel _lowerCAmelCase = {v: k for k, v in idalabel.items()} # size of the architecture if swiftformer_name == "swiftformer_xs": _lowerCAmelCase = [3, 3, 6, 4] _lowerCAmelCase = [48, 56, 1_12, 2_20] elif swiftformer_name == "swiftformer_s": _lowerCAmelCase = [3, 3, 9, 6] _lowerCAmelCase = [48, 64, 1_68, 2_24] elif swiftformer_name == "swiftformer_l1": _lowerCAmelCase = [4, 3, 10, 5] _lowerCAmelCase = [48, 96, 1_92, 3_84] elif swiftformer_name == "swiftformer_l3": _lowerCAmelCase = [4, 4, 12, 6] _lowerCAmelCase = [64, 1_28, 3_20, 5_12] # load state_dict of original model, remove and rename some keys if original_ckpt: if original_ckpt.startswith("""https""" ): _lowerCAmelCase = torch.hub.load_state_dict_from_url(lowerCAmelCase , map_location="""cpu""" , check_hash=lowerCAmelCase ) else: _lowerCAmelCase = torch.load(lowerCAmelCase , map_location="""cpu""" ) _lowerCAmelCase = checkpoint _lowerCAmelCase = create_rename_keys(lowerCAmelCase ) for rename_key_src, rename_key_dest in rename_keys: rename_key(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ) # load HuggingFace model _lowerCAmelCase = SwiftFormerForImageClassification(lowerCAmelCase ).eval() hf_model.load_state_dict(lowerCAmelCase ) # prepare test inputs _lowerCAmelCase = prepare_img() _lowerCAmelCase = ViTImageProcessor.from_pretrained("""preprocessor_config""" ) _lowerCAmelCase = processor(images=lowerCAmelCase , return_tensors="""pt""" ) # compare outputs from both models _lowerCAmelCase = get_expected_output(lowerCAmelCase ) _lowerCAmelCase = hf_model(inputs["""pixel_values"""] ).logits assert hf_logits.shape == torch.Size([1, 10_00] ) assert torch.allclose(hf_logits[0, 0:5] , lowerCAmelCase , atol=1e-3 ) Path(lowerCAmelCase ).mkdir(exist_ok=lowerCAmelCase ) print(f"Saving model {swiftformer_name} to {pytorch_dump_folder_path}" ) hf_model.save_pretrained(lowerCAmelCase ) if __name__ == "__main__": A__ : str =argparse.ArgumentParser() # Required parameters parser.add_argument( '''--swiftformer_name''', default='''swiftformer_xs''', choices=['''swiftformer_xs''', '''swiftformer_s''', '''swiftformer_l1''', '''swiftformer_l3'''], type=str, help='''Name of the SwiftFormer model you\'d like to convert.''', ) parser.add_argument( '''--pytorch_dump_folder_path''', default='''./converted_outputs/''', type=str, help='''Path to the output PyTorch model directory.''', ) parser.add_argument('''--original_ckpt''', default=None, type=str, help='''Path to the original model checkpoint.''') A__ : Tuple =parser.parse_args() convert_swiftformer_checkpoint(args.swiftformer_name, args.pytorch_dump_folder_path, args.original_ckpt)
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"""simple docstring""" import json import os from functools import lru_cache from typing import List, Optional, Tuple import regex as re from ...tokenization_utils import AddedToken, PreTrainedTokenizer from ...utils import logging lowerCAmelCase__ = logging.get_logger(__name__) lowerCAmelCase__ = {'''vocab_file''': '''vocab.json''', '''merges_file''': '''merges.txt'''} # 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''', }, } lowerCAmelCase__ = { '''facebook/bart-base''': 1_024, '''facebook/bart-large''': 1_024, '''facebook/bart-large-mnli''': 1_024, '''facebook/bart-large-cnn''': 1_024, '''facebook/bart-large-xsum''': 1_024, '''yjernite/bart_eli5''': 1_024, } @lru_cache() def a__ ( ): '''simple docstring''' lowerCAmelCase : Optional[Any] = ( list(range(ord("!" ) , ord("~" ) + 1 ) ) + list(range(ord("¡" ) , ord("¬" ) + 1 ) ) + list(range(ord("®" ) , ord("ÿ" ) + 1 ) ) ) lowerCAmelCase : int = bs[:] lowerCAmelCase : List[str] = 0 for b in range(2**8 ): if b not in bs: bs.append(SCREAMING_SNAKE_CASE ) cs.append(2**8 + n ) n += 1 lowerCAmelCase : Optional[int] = [chr(SCREAMING_SNAKE_CASE ) for n in cs] return dict(zip(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) ) def a__ ( SCREAMING_SNAKE_CASE : Optional[int] ): '''simple docstring''' lowerCAmelCase : Any = set() lowerCAmelCase : Union[str, Any] = word[0] for char in word[1:]: pairs.add((prev_char, char) ) lowerCAmelCase : str = char return pairs class SCREAMING_SNAKE_CASE__ ( lowercase ): """simple docstring""" a : Any =VOCAB_FILES_NAMES a : List[Any] =PRETRAINED_VOCAB_FILES_MAP a : Optional[Any] =PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES a : Dict =["input_ids", "attention_mask"] def __init__( self , snake_case__ , snake_case__ , snake_case__="replace" , snake_case__="<s>" , snake_case__="</s>" , snake_case__="</s>" , snake_case__="<s>" , snake_case__="<unk>" , snake_case__="<pad>" , snake_case__="<mask>" , snake_case__=False , **snake_case__ , ): """simple docstring""" lowerCAmelCase : List[str] = AddedToken(snake_case__ , lstrip=snake_case__ , rstrip=snake_case__ ) if isinstance(snake_case__ , snake_case__ ) else bos_token lowerCAmelCase : Optional[int] = AddedToken(snake_case__ , lstrip=snake_case__ , rstrip=snake_case__ ) if isinstance(snake_case__ , snake_case__ ) else eos_token lowerCAmelCase : Tuple = AddedToken(snake_case__ , lstrip=snake_case__ , rstrip=snake_case__ ) if isinstance(snake_case__ , snake_case__ ) else sep_token lowerCAmelCase : List[Any] = AddedToken(snake_case__ , lstrip=snake_case__ , rstrip=snake_case__ ) if isinstance(snake_case__ , snake_case__ ) else cls_token lowerCAmelCase : Any = AddedToken(snake_case__ , lstrip=snake_case__ , rstrip=snake_case__ ) if isinstance(snake_case__ , snake_case__ ) else unk_token lowerCAmelCase : Any = AddedToken(snake_case__ , lstrip=snake_case__ , rstrip=snake_case__ ) if isinstance(snake_case__ , snake_case__ ) else pad_token # Mask token behave like a normal word, i.e. include the space before it lowerCAmelCase : List[str] = AddedToken(snake_case__ , lstrip=snake_case__ , rstrip=snake_case__ ) if isinstance(snake_case__ , snake_case__ ) else mask_token super().__init__( errors=snake_case__ , bos_token=snake_case__ , eos_token=snake_case__ , unk_token=snake_case__ , sep_token=snake_case__ , cls_token=snake_case__ , pad_token=snake_case__ , mask_token=snake_case__ , add_prefix_space=snake_case__ , **snake_case__ , ) with open(snake_case__ , encoding="utf-8" ) as vocab_handle: lowerCAmelCase : Union[str, Any] = json.load(snake_case__ ) lowerCAmelCase : Union[str, Any] = {v: k for k, v in self.encoder.items()} lowerCAmelCase : Union[str, Any] = errors # how to handle errors in decoding lowerCAmelCase : int = bytes_to_unicode() lowerCAmelCase : List[Any] = {v: k for k, v in self.byte_encoder.items()} with open(snake_case__ , encoding="utf-8" ) as merges_handle: lowerCAmelCase : Dict = merges_handle.read().split("\n" )[1:-1] lowerCAmelCase : Tuple = [tuple(merge.split() ) for merge in bpe_merges] lowerCAmelCase : Union[str, Any] = dict(zip(snake_case__ , range(len(snake_case__ ) ) ) ) lowerCAmelCase : str = {} lowerCAmelCase : Union[str, Any] = add_prefix_space # Should have added re.IGNORECASE so BPE merges can happen for capitalized versions of contractions lowerCAmelCase : List[str] = re.compile(r"'s|'t|'re|'ve|'m|'ll|'d| ?\p{L}+| ?\p{N}+| ?[^\s\p{L}\p{N}]+|\s+(?!\S)|\s+" ) @property def lowercase__ ( self ): """simple docstring""" return len(self.encoder ) def lowercase__ ( self ): """simple docstring""" return dict(self.encoder , **self.added_tokens_encoder ) def lowercase__ ( self , snake_case__ ): """simple docstring""" if token in self.cache: return self.cache[token] lowerCAmelCase : Tuple = tuple(snake_case__ ) lowerCAmelCase : Tuple = get_pairs(snake_case__ ) if not pairs: return token while True: lowerCAmelCase : Optional[Any] = min(snake_case__ , key=lambda snake_case__ : self.bpe_ranks.get(snake_case__ , float("inf" ) ) ) if bigram not in self.bpe_ranks: break lowerCAmelCase , lowerCAmelCase : Tuple = bigram lowerCAmelCase : Optional[int] = [] lowerCAmelCase : str = 0 while i < len(snake_case__ ): try: lowerCAmelCase : Dict = word.index(snake_case__ , snake_case__ ) except ValueError: new_word.extend(word[i:] ) break else: new_word.extend(word[i:j] ) lowerCAmelCase : List[str] = j if word[i] == first and i < len(snake_case__ ) - 1 and word[i + 1] == second: new_word.append(first + second ) i += 2 else: new_word.append(word[i] ) i += 1 lowerCAmelCase : Optional[Any] = tuple(snake_case__ ) lowerCAmelCase : Any = new_word if len(snake_case__ ) == 1: break else: lowerCAmelCase : List[str] = get_pairs(snake_case__ ) lowerCAmelCase : List[str] = " ".join(snake_case__ ) lowerCAmelCase : Tuple = word return word def lowercase__ ( self , snake_case__ ): """simple docstring""" lowerCAmelCase : List[str] = [] for token in re.findall(self.pat , snake_case__ ): lowerCAmelCase : Optional[Any] = "".join( self.byte_encoder[b] for b in token.encode("utf-8" ) ) # Maps all our bytes to unicode strings, avoiding control tokens of the BPE (spaces in our case) bpe_tokens.extend(bpe_token for bpe_token in self.bpe(snake_case__ ).split(" " ) ) return bpe_tokens def lowercase__ ( self , snake_case__ ): """simple docstring""" return self.encoder.get(snake_case__ , self.encoder.get(self.unk_token ) ) def lowercase__ ( self , snake_case__ ): """simple docstring""" return self.decoder.get(snake_case__ ) def lowercase__ ( self , snake_case__ ): """simple docstring""" lowerCAmelCase : List[str] = "".join(snake_case__ ) lowerCAmelCase : Tuple = bytearray([self.byte_decoder[c] for c in text] ).decode("utf-8" , errors=self.errors ) return text def lowercase__ ( self , snake_case__ , snake_case__ = None ): """simple docstring""" if not os.path.isdir(snake_case__ ): logger.error(f"""Vocabulary path ({save_directory}) should be a directory""" ) return lowerCAmelCase : Optional[int] = os.path.join( snake_case__ , (filename_prefix + "-" if filename_prefix else "") + VOCAB_FILES_NAMES["vocab_file"] ) lowerCAmelCase : Tuple = os.path.join( snake_case__ , (filename_prefix + "-" if filename_prefix else "") + VOCAB_FILES_NAMES["merges_file"] ) with open(snake_case__ , "w" , encoding="utf-8" ) as f: f.write(json.dumps(self.encoder , indent=2 , sort_keys=snake_case__ , ensure_ascii=snake_case__ ) + "\n" ) lowerCAmelCase : int = 0 with open(snake_case__ , "w" , encoding="utf-8" ) as writer: writer.write("#version: 0.2\n" ) for bpe_tokens, token_index in sorted(self.bpe_ranks.items() , key=lambda snake_case__ : kv[1] ): if index != token_index: logger.warning( f"""Saving vocabulary to {merge_file}: BPE merge indices are not consecutive.""" " Please check that the tokenizer is not corrupted!" ) lowerCAmelCase : int = token_index writer.write(" ".join(snake_case__ ) + "\n" ) index += 1 return vocab_file, merge_file def lowercase__ ( self , snake_case__ , snake_case__ = None ): """simple docstring""" if token_ids_a is None: return [self.cls_token_id] + token_ids_a + [self.sep_token_id] lowerCAmelCase : Union[str, Any] = [self.cls_token_id] lowerCAmelCase : Optional[int] = [self.sep_token_id] return cls + token_ids_a + sep + sep + token_ids_a + sep def lowercase__ ( self , snake_case__ , snake_case__ = None , snake_case__ = False ): """simple docstring""" if already_has_special_tokens: return super().get_special_tokens_mask( token_ids_a=snake_case__ , token_ids_a=snake_case__ , already_has_special_tokens=snake_case__ ) if token_ids_a is None: return [1] + ([0] * len(snake_case__ )) + [1] return [1] + ([0] * len(snake_case__ )) + [1, 1] + ([0] * len(snake_case__ )) + [1] def lowercase__ ( self , snake_case__ , snake_case__ = None ): """simple docstring""" lowerCAmelCase : Union[str, Any] = [self.sep_token_id] lowerCAmelCase : 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 + sep + token_ids_a + sep ) * [0] def lowercase__ ( self , snake_case__ , snake_case__=False , **snake_case__ ): """simple docstring""" lowerCAmelCase : Union[str, Any] = kwargs.pop("add_prefix_space" , self.add_prefix_space ) if (is_split_into_words or add_prefix_space) and (len(snake_case__ ) > 0 and not text[0].isspace()): lowerCAmelCase : List[Any] = " " + text return (text, kwargs)
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'''simple docstring''' import os import pytest from datasets import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, ) A__ : List[Any] =pytest.mark.integration @pytest.mark.parametrize("""path""" , ["""paws""", """csv"""] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" inspect_dataset(lowerCAmelCase , lowerCAmelCase ) _lowerCAmelCase = path + """.py""" assert script_name in os.listdir(lowerCAmelCase ) assert "__pycache__" not in os.listdir(lowerCAmelCase ) @pytest.mark.filterwarnings("""ignore:inspect_metric is deprecated:FutureWarning""" ) @pytest.mark.filterwarnings("""ignore:metric_module_factory is deprecated:FutureWarning""" ) @pytest.mark.parametrize("""path""" , ["""accuracy"""] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" inspect_metric(lowerCAmelCase , lowerCAmelCase ) _lowerCAmelCase = path + """.py""" assert script_name in os.listdir(lowerCAmelCase ) assert "__pycache__" not in os.listdir(lowerCAmelCase ) @pytest.mark.parametrize( """path, config_name, expected_splits""" , [ ("""squad""", """plain_text""", ["""train""", """validation"""]), ("""dalle-mini/wit""", """dalle-mini--wit""", ["""train"""]), ("""paws""", """labeled_final""", ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_config_info(lowerCAmelCase , config_name=lowerCAmelCase ) assert info.config_name == config_name assert list(info.splits.keys() ) == expected_splits @pytest.mark.parametrize( """path, config_name, expected_exception""" , [ ("""paws""", None, ValueError), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" with pytest.raises(lowerCAmelCase ): get_dataset_config_info(lowerCAmelCase , config_name=lowerCAmelCase ) @pytest.mark.parametrize( """path, expected""" , [ ("""squad""", """plain_text"""), ("""acronym_identification""", """default"""), ("""lhoestq/squad""", """plain_text"""), ("""lhoestq/test""", """default"""), ("""lhoestq/demo1""", """lhoestq--demo1"""), ("""dalle-mini/wit""", """dalle-mini--wit"""), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_config_names(lowerCAmelCase ) assert expected in config_names @pytest.mark.parametrize( """path, expected_configs, expected_splits_in_first_config""" , [ ("""squad""", ["""plain_text"""], ["""train""", """validation"""]), ("""dalle-mini/wit""", ["""dalle-mini--wit"""], ["""train"""]), ("""paws""", ["""labeled_final""", """labeled_swap""", """unlabeled_final"""], ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_infos(lowerCAmelCase ) assert list(infos.keys() ) == expected_configs _lowerCAmelCase = expected_configs[0] assert expected_config in infos _lowerCAmelCase = infos[expected_config] assert info.config_name == expected_config assert list(info.splits.keys() ) == expected_splits_in_first_config @pytest.mark.parametrize( """path, expected_config, expected_splits""" , [ ("""squad""", """plain_text""", ["""train""", """validation"""]), ("""dalle-mini/wit""", """dalle-mini--wit""", ["""train"""]), ("""paws""", """labeled_final""", ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_infos(lowerCAmelCase ) assert expected_config in infos _lowerCAmelCase = infos[expected_config] assert info.config_name == expected_config assert list(info.splits.keys() ) == expected_splits @pytest.mark.parametrize( """path, config_name, expected_exception""" , [ ("""paws""", None, ValueError), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" with pytest.raises(lowerCAmelCase ): get_dataset_split_names(lowerCAmelCase , config_name=lowerCAmelCase )
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"""simple docstring""" import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging A: List[Any] = logging.get_logger(__name__) A: Any = { "asapp/sew-tiny-100k": "https://huggingface.co/asapp/sew-tiny-100k/resolve/main/config.json", # See all SEW models at https://huggingface.co/models?filter=sew } class SCREAMING_SNAKE_CASE__ ( UpperCAmelCase__ ): __lowerCAmelCase : Tuple = 'sew' def __init__( self , _SCREAMING_SNAKE_CASE=32 , _SCREAMING_SNAKE_CASE=768 , _SCREAMING_SNAKE_CASE=12 , _SCREAMING_SNAKE_CASE=12 , _SCREAMING_SNAKE_CASE=3072 , _SCREAMING_SNAKE_CASE=2 , _SCREAMING_SNAKE_CASE="gelu" , _SCREAMING_SNAKE_CASE=0.1 , _SCREAMING_SNAKE_CASE=0.1 , _SCREAMING_SNAKE_CASE=0.1 , _SCREAMING_SNAKE_CASE=0.0 , _SCREAMING_SNAKE_CASE=0.1 , _SCREAMING_SNAKE_CASE=0.1 , _SCREAMING_SNAKE_CASE=0.02 , _SCREAMING_SNAKE_CASE=1E-5 , _SCREAMING_SNAKE_CASE="group" , _SCREAMING_SNAKE_CASE="gelu" , _SCREAMING_SNAKE_CASE=(64, 128, 128, 128, 128, 256, 256, 256, 256, 512, 512, 512, 512) , _SCREAMING_SNAKE_CASE=(5, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1) , _SCREAMING_SNAKE_CASE=(10, 3, 1, 3, 1, 3, 1, 3, 1, 2, 1, 2, 1) , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=128 , _SCREAMING_SNAKE_CASE=16 , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=0.05 , _SCREAMING_SNAKE_CASE=10 , _SCREAMING_SNAKE_CASE=2 , _SCREAMING_SNAKE_CASE=0.0 , _SCREAMING_SNAKE_CASE=10 , _SCREAMING_SNAKE_CASE=0 , _SCREAMING_SNAKE_CASE="mean" , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=256 , _SCREAMING_SNAKE_CASE=0 , _SCREAMING_SNAKE_CASE=1 , _SCREAMING_SNAKE_CASE=2 , **_SCREAMING_SNAKE_CASE , ) -> int: '''simple docstring''' super().__init__(**_SCREAMING_SNAKE_CASE , pad_token_id=_SCREAMING_SNAKE_CASE , bos_token_id=_SCREAMING_SNAKE_CASE , eos_token_id=_SCREAMING_SNAKE_CASE ) UpperCAmelCase : Union[str, Any] = hidden_size UpperCAmelCase : int = feat_extract_norm UpperCAmelCase : Optional[Any] = feat_extract_activation UpperCAmelCase : Any = list(_SCREAMING_SNAKE_CASE ) UpperCAmelCase : Any = list(_SCREAMING_SNAKE_CASE ) UpperCAmelCase : List[str] = list(_SCREAMING_SNAKE_CASE ) UpperCAmelCase : Optional[int] = conv_bias UpperCAmelCase : int = num_conv_pos_embeddings UpperCAmelCase : Tuple = num_conv_pos_embedding_groups UpperCAmelCase : List[str] = len(self.conv_dim ) UpperCAmelCase : int = num_hidden_layers UpperCAmelCase : str = intermediate_size UpperCAmelCase : Dict = squeeze_factor UpperCAmelCase : Optional[int] = hidden_act UpperCAmelCase : int = num_attention_heads UpperCAmelCase : int = hidden_dropout UpperCAmelCase : Tuple = attention_dropout UpperCAmelCase : Dict = activation_dropout UpperCAmelCase : int = feat_proj_dropout UpperCAmelCase : List[Any] = final_dropout UpperCAmelCase : str = layerdrop UpperCAmelCase : List[Any] = layer_norm_eps UpperCAmelCase : Any = initializer_range UpperCAmelCase : List[Any] = vocab_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)`,""" F"but is `len(config.conv_dim) = {len(self.conv_dim )}`, `len(config.conv_stride)" F"= {len(self.conv_stride )}`, `len(config.conv_kernel) = {len(self.conv_kernel )}`." ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 UpperCAmelCase : str = apply_spec_augment UpperCAmelCase : Union[str, Any] = mask_time_prob UpperCAmelCase : Optional[Any] = mask_time_length UpperCAmelCase : Optional[int] = mask_time_min_masks UpperCAmelCase : int = mask_feature_prob UpperCAmelCase : Dict = mask_feature_length UpperCAmelCase : Tuple = mask_feature_min_masks # ctc loss UpperCAmelCase : Optional[int] = ctc_loss_reduction UpperCAmelCase : int = ctc_zero_infinity # sequence classification UpperCAmelCase : Optional[int] = use_weighted_layer_sum UpperCAmelCase : Tuple = classifier_proj_size @property def SCREAMING_SNAKE_CASE ( self ) -> str: '''simple docstring''' return functools.reduce(operator.mul , self.conv_stride , 1 )
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'''simple docstring''' from torch import nn def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if act_fn in ["swish", "silu"]: return nn.SiLU() elif act_fn == "mish": return nn.Mish() elif act_fn == "gelu": return nn.GELU() else: raise ValueError(f"Unsupported activation function: {act_fn}" )
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def _a ( SCREAMING_SNAKE_CASE ): """simple docstring""" if len(SCREAMING_SNAKE_CASE ) < 2: return collection def circle_sort_util(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) -> bool: lowercase__ = False if low == high: return swapped lowercase__ = low lowercase__ = high while left < right: if collection[left] > collection[right]: lowercase__ , lowercase__ = ( collection[right], collection[left], ) lowercase__ = True left += 1 right -= 1 if left == right and collection[left] > collection[right + 1]: lowercase__ , lowercase__ = ( collection[right + 1], collection[left], ) lowercase__ = True lowercase__ = low + int((high - low) / 2 ) lowercase__ = circle_sort_util(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) lowercase__ = circle_sort_util(SCREAMING_SNAKE_CASE , mid + 1 , SCREAMING_SNAKE_CASE ) return swapped or left_swap or right_swap lowercase__ = True while is_not_sorted is True: lowercase__ = circle_sort_util(SCREAMING_SNAKE_CASE , 0 , len(SCREAMING_SNAKE_CASE ) - 1 ) return collection if __name__ == "__main__": lowerCAmelCase = input('Enter numbers separated by a comma:\n').strip() lowerCAmelCase = [int(item) for item in user_input.split(',')] print(circle_sort(unsorted))
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'''simple docstring''' # Lint as: python3 # pylint: enable=line-too-long # pylint: disable=g-import-not-at-top,g-bad-import-order,wrong-import-position A__ : Dict ='''2.13.1''' import platform import pyarrow from packaging import version if version.parse(platform.python_version()) < version.parse('''3.7'''): raise ImportWarning( '''To use `datasets`, Python>=3.7 is required, and the current version of Python doesn\'t match this condition.''' ) if version.parse(pyarrow.__version__).major < 8: raise ImportWarning( '''To use `datasets`, the module `pyarrow>=8.0.0` is required, and the current version of `pyarrow` doesn\'t match this condition.\n''' '''If you are running this in a Google Colab, you should probably just restart the runtime to use the right version of `pyarrow`.''' ) del platform del pyarrow del version from .arrow_dataset import Dataset from .arrow_reader import ReadInstruction from .builder import ArrowBasedBuilder, BeamBasedBuilder, BuilderConfig, DatasetBuilder, GeneratorBasedBuilder from .combine import concatenate_datasets, interleave_datasets from .dataset_dict import DatasetDict, IterableDatasetDict from .download import * from .features import * from .fingerprint import disable_caching, enable_caching, is_caching_enabled, set_caching_enabled from .info import DatasetInfo, MetricInfo from .inspect import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, list_datasets, list_metrics, ) from .iterable_dataset import IterableDataset from .load import load_dataset, load_dataset_builder, load_from_disk, load_metric from .metric import Metric from .splits import ( NamedSplit, NamedSplitAll, Split, SplitBase, SplitDict, SplitGenerator, SplitInfo, SubSplitInfo, percent, ) from .tasks import * from .utils import * from .utils import logging # deprecated modules from datasets import arrow_dataset as _arrow_dataset # isort:skip from datasets import utils as _utils # isort:skip from datasets.utils import download_manager as _deprecated_download_manager # isort:skip A__ : Tuple =concatenate_datasets A__ : Dict =DownloadConfig A__ : int =DownloadManager A__ : Union[str, Any] =DownloadMode A__ : Tuple =DownloadConfig A__ : Optional[Any] =DownloadMode A__ : str =DownloadManager del _arrow_dataset, _utils, _deprecated_download_manager
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"""simple docstring""" from __future__ import annotations from pprint import pformat from typing import Generic, TypeVar __SCREAMING_SNAKE_CASE =TypeVar("T") class UpperCamelCase ( Generic[T] ): def __init__( self ,__UpperCamelCase = True ) -> None: '''simple docstring''' lowercase_ : Tuple = {} # dictionary of lists lowercase_ : List[str] = directed def _UpperCAmelCase ( self ,__UpperCamelCase ,__UpperCamelCase ) -> GraphAdjacencyList[T]: '''simple docstring''' if not self.directed: # For undirected graphs # if both source vertex and destination vertex are both present in the # adjacency list, add destination vertex to source vertex list of adjacent # vertices and add source vertex to destination vertex list of adjacent # vertices. if source_vertex in self.adj_list and destination_vertex in self.adj_list: self.adj_list[source_vertex].append(__snake_case ) self.adj_list[destination_vertex].append(__snake_case ) # if only source vertex is present in adjacency list, add destination vertex # to source vertex list of adjacent vertices, then create a new vertex with # destination vertex as key and assign a list containing the source vertex # as it's first adjacent vertex. elif source_vertex in self.adj_list: self.adj_list[source_vertex].append(__snake_case ) lowercase_ : int = [source_vertex] # if only destination vertex is present in adjacency list, add source vertex # to destination vertex list of adjacent vertices, then create a new vertex # with source vertex as key and assign a list containing the source vertex # as it's first adjacent vertex. elif destination_vertex in self.adj_list: self.adj_list[destination_vertex].append(__snake_case ) lowercase_ : List[str] = [destination_vertex] # if both source vertex and destination vertex are not present in adjacency # list, create a new vertex with source vertex as key and assign a list # containing the destination vertex as it's first adjacent vertex also # create a new vertex with destination vertex as key and assign a list # containing the source vertex as it's first adjacent vertex. else: lowercase_ : int = [destination_vertex] lowercase_ : int = [source_vertex] else: # For directed graphs # if both source vertex and destination vertex are present in adjacency # list, add destination vertex to source vertex list of adjacent vertices. if source_vertex in self.adj_list and destination_vertex in self.adj_list: self.adj_list[source_vertex].append(__snake_case ) # if only source vertex is present in adjacency list, add destination # vertex to source vertex list of adjacent vertices and create a new vertex # with destination vertex as key, which has no adjacent vertex elif source_vertex in self.adj_list: self.adj_list[source_vertex].append(__snake_case ) lowercase_ : Union[str, Any] = [] # if only destination vertex is present in adjacency list, create a new # vertex with source vertex as key and assign a list containing destination # vertex as first adjacent vertex elif destination_vertex in self.adj_list: lowercase_ : Any = [destination_vertex] # if both source vertex and destination vertex are not present in adjacency # list, create a new vertex with source vertex as key and a list containing # destination vertex as it's first adjacent vertex. Then create a new vertex # with destination vertex as key, which has no adjacent vertex else: lowercase_ : Union[str, Any] = [destination_vertex] lowercase_ : int = [] return self def __repr__( self ) -> str: '''simple docstring''' return pformat(self.adj_list )
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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tokenizers_available, is_torch_available A__ : Tuple ={ '''configuration_mvp''': ['''MVP_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''MvpConfig''', '''MvpOnnxConfig'''], '''tokenization_mvp''': ['''MvpTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : int =['''MvpTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : Any =[ '''MVP_PRETRAINED_MODEL_ARCHIVE_LIST''', '''MvpForCausalLM''', '''MvpForConditionalGeneration''', '''MvpForQuestionAnswering''', '''MvpForSequenceClassification''', '''MvpModel''', '''MvpPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_mvp import MVP_PRETRAINED_CONFIG_ARCHIVE_MAP, MvpConfig, MvpOnnxConfig from .tokenization_mvp import MvpTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_mvp_fast import MvpTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mvp import ( MVP_PRETRAINED_MODEL_ARCHIVE_LIST, MvpForCausalLM, MvpForConditionalGeneration, MvpForQuestionAnswering, MvpForSequenceClassification, MvpModel, MvpPreTrainedModel, ) else: import sys A__ : Any =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
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import warnings from transformers import AutoTokenizer from transformers.utils import is_torch_available from transformers.utils.generic import ExplicitEnum from ...processing_utils import ProcessorMixin if is_torch_available(): import torch class UpperCamelCase__ ( snake_case_ ): '''simple docstring''' __snake_case : str = '''char''' __snake_case : Tuple = '''bpe''' __snake_case : List[Any] = '''wp''' SCREAMING_SNAKE_CASE_ = (DecodeType.CHARACTER, DecodeType.BPE, DecodeType.WORDPIECE) class UpperCamelCase__ ( snake_case_ ): '''simple docstring''' __snake_case : Tuple = ['''image_processor''', '''char_tokenizer'''] __snake_case : Union[str, Any] = '''ViTImageProcessor''' __snake_case : Any = '''MgpstrTokenizer''' def __init__( self : List[Any] ,lowerCamelCase__ : Dict=None ,lowerCamelCase__ : Tuple=None ,**lowerCamelCase__ : Tuple ) -> int: '''simple docstring''' SCREAMING_SNAKE_CASE = None if "feature_extractor" in kwargs: warnings.warn( """The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`""" """ instead.""" ,__snake_case ,) SCREAMING_SNAKE_CASE = kwargs.pop("""feature_extractor""" ) SCREAMING_SNAKE_CASE = 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`.""" ) SCREAMING_SNAKE_CASE = tokenizer SCREAMING_SNAKE_CASE = AutoTokenizer.from_pretrained("""gpt2""" ) SCREAMING_SNAKE_CASE = AutoTokenizer.from_pretrained("""bert-base-uncased""" ) super().__init__(__snake_case ,__snake_case ) def __call__( self : str ,lowerCamelCase__ : Any=None ,lowerCamelCase__ : str=None ,lowerCamelCase__ : str=None ,**lowerCamelCase__ : List[Any] ) -> List[Any]: '''simple docstring''' if images is None and text is None: raise ValueError("""You need to specify either an `images` or `text` input to process.""" ) if images is not None: SCREAMING_SNAKE_CASE = self.image_processor(__snake_case ,return_tensors=__snake_case ,**__snake_case ) if text is not None: SCREAMING_SNAKE_CASE = self.char_tokenizer(__snake_case ,return_tensors=__snake_case ,**__snake_case ) if text is None: return inputs elif images is None: return encodings else: SCREAMING_SNAKE_CASE = encodings["""input_ids"""] return inputs def SCREAMING_SNAKE_CASE__ ( self : Optional[Any] ,lowerCamelCase__ : str ) -> List[Any]: '''simple docstring''' SCREAMING_SNAKE_CASE, SCREAMING_SNAKE_CASE, SCREAMING_SNAKE_CASE = sequences SCREAMING_SNAKE_CASE = char_preds.size(0 ) SCREAMING_SNAKE_CASE, SCREAMING_SNAKE_CASE = self._decode_helper(__snake_case ,"""char""" ) SCREAMING_SNAKE_CASE, SCREAMING_SNAKE_CASE = self._decode_helper(__snake_case ,"""bpe""" ) SCREAMING_SNAKE_CASE, SCREAMING_SNAKE_CASE = self._decode_helper(__snake_case ,"""wp""" ) SCREAMING_SNAKE_CASE = [] SCREAMING_SNAKE_CASE = [] for i in range(__snake_case ): SCREAMING_SNAKE_CASE = [char_scores[i], bpe_scores[i], wp_scores[i]] SCREAMING_SNAKE_CASE = [char_strs[i], bpe_strs[i], wp_strs[i]] SCREAMING_SNAKE_CASE = scores.index(max(__snake_case ) ) final_strs.append(strs[max_score_index] ) final_scores.append(scores[max_score_index] ) SCREAMING_SNAKE_CASE = {} SCREAMING_SNAKE_CASE = final_strs SCREAMING_SNAKE_CASE = final_scores SCREAMING_SNAKE_CASE = char_strs SCREAMING_SNAKE_CASE = bpe_strs SCREAMING_SNAKE_CASE = wp_strs return out def SCREAMING_SNAKE_CASE__ ( self : str ,lowerCamelCase__ : Optional[int] ,lowerCamelCase__ : Union[str, Any] ) -> List[str]: '''simple docstring''' if format == DecodeType.CHARACTER: SCREAMING_SNAKE_CASE = self.char_decode SCREAMING_SNAKE_CASE = 1 SCREAMING_SNAKE_CASE = """[s]""" elif format == DecodeType.BPE: SCREAMING_SNAKE_CASE = self.bpe_decode SCREAMING_SNAKE_CASE = 2 SCREAMING_SNAKE_CASE = """#""" elif format == DecodeType.WORDPIECE: SCREAMING_SNAKE_CASE = self.wp_decode SCREAMING_SNAKE_CASE = 102 SCREAMING_SNAKE_CASE = """[SEP]""" else: raise ValueError(F"""Format {format} is not supported.""" ) SCREAMING_SNAKE_CASE, SCREAMING_SNAKE_CASE = [], [] SCREAMING_SNAKE_CASE = pred_logits.size(0 ) SCREAMING_SNAKE_CASE = pred_logits.size(1 ) SCREAMING_SNAKE_CASE, SCREAMING_SNAKE_CASE = pred_logits.topk(1 ,dim=-1 ,largest=__snake_case ,sorted=__snake_case ) SCREAMING_SNAKE_CASE = preds_index.view(-1 ,__snake_case )[:, 1:] SCREAMING_SNAKE_CASE = decoder(__snake_case ) SCREAMING_SNAKE_CASE, SCREAMING_SNAKE_CASE = torch.nn.functional.softmax(__snake_case ,dim=2 ).max(dim=2 ) SCREAMING_SNAKE_CASE = preds_max_prob[:, 1:] for index in range(__snake_case ): SCREAMING_SNAKE_CASE = preds_str[index].find(__snake_case ) SCREAMING_SNAKE_CASE = preds_str[index][:pred_eos] SCREAMING_SNAKE_CASE = preds_index[index].cpu().tolist() SCREAMING_SNAKE_CASE = pred_index.index(__snake_case ) if eos_token in pred_index else -1 SCREAMING_SNAKE_CASE = preds_max_prob[index][: pred_eos_index + 1] SCREAMING_SNAKE_CASE = pred_max_prob.cumprod(dim=0 )[-1] if pred_max_prob.nelement() != 0 else 0.0 dec_strs.append(__snake_case ) conf_scores.append(__snake_case ) return dec_strs, conf_scores def SCREAMING_SNAKE_CASE__ ( self : List[Any] ,lowerCamelCase__ : List[str] ) -> Optional[int]: '''simple docstring''' SCREAMING_SNAKE_CASE = [seq.replace(""" """ ,"""""" ) for seq in self.char_tokenizer.batch_decode(__snake_case )] return decode_strs def SCREAMING_SNAKE_CASE__ ( self : List[str] ,lowerCamelCase__ : Optional[int] ) -> str: '''simple docstring''' return self.bpe_tokenizer.batch_decode(__snake_case ) def SCREAMING_SNAKE_CASE__ ( self : Union[str, Any] ,lowerCamelCase__ : List[str] ) -> Optional[int]: '''simple docstring''' SCREAMING_SNAKE_CASE = [seq.replace(""" """ ,"""""" ) for seq in self.wp_tokenizer.batch_decode(__snake_case )] return decode_strs
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'''simple docstring''' def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [0 for i in range(r + 1 )] # nc0 = 1 _lowerCAmelCase = 1 for i in range(1 , n + 1 ): # to compute current row from previous row. _lowerCAmelCase = min(lowerCAmelCase , lowerCAmelCase ) while j > 0: c[j] += c[j - 1] j -= 1 return c[r] print(binomial_coefficient(n=10, r=5))
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"""simple docstring""" from ...configuration_utils import PretrainedConfig from ...utils import logging _A = logging.get_logger(__name__) _A = { '''tiiuae/falcon-40b''': '''https://huggingface.co/tiiuae/falcon-40b/resolve/main/config.json''', '''tiiuae/falcon-7b''': '''https://huggingface.co/tiiuae/falcon-7b/resolve/main/config.json''', } class lowerCamelCase ( snake_case_ ): '''simple docstring''' SCREAMING_SNAKE_CASE = '''falcon''' SCREAMING_SNAKE_CASE = ['''past_key_values'''] def __init__(self , _lowerCamelCase=65024 , _lowerCamelCase=4544 , _lowerCamelCase=32 , _lowerCamelCase=71 , _lowerCamelCase=1e-5 , _lowerCamelCase=0.02 , _lowerCamelCase=True , _lowerCamelCase=0.0 , _lowerCamelCase=0.0 , _lowerCamelCase=None , _lowerCamelCase=False , _lowerCamelCase=False , _lowerCamelCase=True , _lowerCamelCase=True , _lowerCamelCase=False , _lowerCamelCase=11 , _lowerCamelCase=11 , **_lowerCamelCase , ): """simple docstring""" UpperCAmelCase__ : List[str] = vocab_size # Backward compatibility with n_embed kwarg UpperCAmelCase__ : List[str] = kwargs.pop("""n_embed""" , __snake_case ) UpperCAmelCase__ : Optional[int] = hidden_size if n_embed is None else n_embed UpperCAmelCase__ : List[Any] = num_hidden_layers UpperCAmelCase__ : int = num_attention_heads UpperCAmelCase__ : Optional[int] = layer_norm_epsilon UpperCAmelCase__ : Union[str, Any] = initializer_range UpperCAmelCase__ : List[Any] = use_cache UpperCAmelCase__ : Tuple = hidden_dropout UpperCAmelCase__ : int = attention_dropout UpperCAmelCase__ : Dict = bos_token_id UpperCAmelCase__ : Optional[int] = eos_token_id UpperCAmelCase__ : List[Any] = num_attention_heads if num_kv_heads is None else num_kv_heads UpperCAmelCase__ : List[Any] = alibi UpperCAmelCase__ : Any = new_decoder_architecture UpperCAmelCase__ : Any = multi_query # Ignored when new_decoder_architecture is True UpperCAmelCase__ : Optional[int] = parallel_attn UpperCAmelCase__ : Tuple = bias super().__init__(bos_token_id=__snake_case , eos_token_id=__snake_case , **__snake_case ) @property def _a (self ): """simple docstring""" return self.hidden_size // self.num_attention_heads @property def _a (self ): """simple docstring""" return not self.alibi
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'''simple docstring''' import itertools from dataclasses import dataclass from typing import Optional import pandas as pd import pyarrow as pa import datasets from datasets.table import table_cast @dataclass class UpperCAmelCase ( datasets.BuilderConfig ): _lowercase: Optional[datasets.Features] = None class UpperCAmelCase ( datasets.ArrowBasedBuilder ): _lowercase: Tuple = PandasConfig def lowercase__ ( self : Optional[Any] ) -> str: return datasets.DatasetInfo(features=self.config.features ) def lowercase__ ( self : List[str] , __snake_case : Dict ) -> int: if not self.config.data_files: raise ValueError(f"At least one data file must be specified, but got data_files={self.config.data_files}" ) _lowerCAmelCase = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__snake_case , (str, list, tuple) ): _lowerCAmelCase = data_files if isinstance(__snake_case , __snake_case ): _lowerCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive _lowerCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"""files""": files} )] _lowerCAmelCase = [] for split_name, files in data_files.items(): if isinstance(__snake_case , __snake_case ): _lowerCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive _lowerCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] splits.append(datasets.SplitGenerator(name=__snake_case , gen_kwargs={"""files""": files} ) ) return splits def lowercase__ ( self : List[Any] , __snake_case : pa.Table ) -> pa.Table: if self.config.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example _lowerCAmelCase = table_cast(__snake_case , self.config.features.arrow_schema ) return pa_table def lowercase__ ( self : Dict , __snake_case : Optional[Any] ) -> Any: for i, file in enumerate(itertools.chain.from_iterable(__snake_case ) ): with open(__snake_case , """rb""" ) as f: _lowerCAmelCase = pa.Table.from_pandas(pd.read_pickle(__snake_case ) ) yield i, self._cast_table(__snake_case )
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from google.protobuf import descriptor as _descriptor from google.protobuf import descriptor_pool as _descriptor_pool from google.protobuf import symbol_database as _symbol_database from google.protobuf.internal import builder as _builder # @@protoc_insertion_point(imports) _UpperCamelCase = _symbol_database.Default() _UpperCamelCase = _descriptor_pool.Default().AddSerializedFile( B"\n\x19sentencepiece_model.proto\x12\rsentencepiece\"\x80\x0c\n\x0bTrainerSpec\x12\r\n\x05input\x18\x01 \x03(\t\x12\x14\n\x0cinput_format\x18\x07 \x01(\t\x12\x14\n\x0cmodel_prefix\x18\x02 \x01(\t\x12\x41\n\nmodel_type\x18\x03 \x01(\x0e\x32$.sentencepiece.TrainerSpec.ModelType:\x07UNIGRAM\x12\x18\n\nvocab_size\x18\x04 \x01(\x05:\x04\x38\x30\x30\x30\x12\x17\n\x0f\x61\x63\x63\x65pt_language\x18\x05 \x03(\t\x12 \n\x15self_test_sample_size\x18\x06 \x01(\x05:\x01\x30\x12*\n\x1b\x65nable_differential_privacy\x18\x32 \x01(\x08:\x05\x66\x61lse\x12+\n differential_privacy_noise_level\x18\x33 \x01(\x02:\x01\x30\x12\x32\n\'differential_privacy_clipping_threshold\x18\x34 \x01(\x04:\x01\x30\x12\"\n\x12\x63haracter_coverage\x18\n \x01(\x02:\x06\x30.9995\x12\x1e\n\x13input_sentence_size\x18\x0b \x01(\x04:\x01\x30\x12$\n\x16shuffle_input_sentence\x18\x13 \x01(\x08:\x04true\x12 \n\x14mining_sentence_size\x18\x0c \x01(\x05\x42\x02\x18\x01\x12\"\n\x16training_sentence_size\x18\r \x01(\x05\x42\x02\x18\x01\x12(\n\x17seed_sentencepiece_size\x18\x0e \x01(\x05:\x07\x31\x30\x30\x30\x30\x30\x30\x12\x1e\n\x10shrinking_factor\x18\x0f \x01(\x02:\x04\x30.75\x12!\n\x13max_sentence_length\x18\x12 \x01(\x05:\x04\x34\x31\x39\x32\x12\x17\n\x0bnum_threads\x18\x10 \x01(\x05:\x02\x31\x36\x12\x1d\n\x12num_sub_iterations\x18\x11 \x01(\x05:\x01\x32\x12$\n\x18max_sentencepiece_length\x18\x14 \x01(\x05:\x02\x31\x36\x12%\n\x17split_by_unicode_script\x18\x15 \x01(\x08:\x04true\x12\x1d\n\x0fsplit_by_number\x18\x17 \x01(\x08:\x04true\x12!\n\x13split_by_whitespace\x18\x16 \x01(\x08:\x04true\x12)\n\x1atreat_whitespace_as_suffix\x18\x18 \x01(\x08:\x05\x66\x61lse\x12+\n\x1c\x61llow_whitespace_only_pieces\x18\x1a \x01(\x08:\x05\x66\x61lse\x12\x1b\n\x0csplit_digits\x18\x19 \x01(\x08:\x05\x66\x61lse\x12#\n\x19pretokenization_delimiter\x18\x35 \x01(\t:\x00\x12\x17\n\x0f\x63ontrol_symbols\x18\x1e \x03(\t\x12\x1c\n\x14user_defined_symbols\x18\x1f \x03(\t\x12\x16\n\x0erequired_chars\x18$ \x01(\t\x12\x1c\n\rbyte_fallback\x18# \x01(\x08:\x05\x66\x61lse\x12+\n\x1dvocabulary_output_piece_score\x18 \x01(\x08:\x04true\x12\x1e\n\x10hard_vocab_limit\x18! \x01(\x08:\x04true\x12\x1c\n\ruse_all_vocab\x18\" \x01(\x08:\x05\x66\x61lse\x12\x11\n\x06unk_id\x18( \x01(\x05:\x01\x30\x12\x11\n\x06\x62os_id\x18) \x01(\x05:\x01\x31\x12\x11\n\x06\x65os_id\x18* \x01(\x05:\x01\x32\x12\x12\n\x06pad_id\x18+ \x01(\x05:\x02-1\x12\x18\n\tunk_piece\x18- \x01(\t:\x05<unk>\x12\x16\n\tbos_piece\x18. \x01(\t:\x03<s>\x12\x17\n\teos_piece\x18/ \x01(\t:\x04</s>\x12\x18\n\tpad_piece\x18\x30 \x01(\t:\x05<pad>\x12\x1a\n\x0bunk_surface\x18, \x01(\t:\x05 \xe2\x81\x87 \x12+\n\x1ctrain_extremely_large_corpus\x18\x31 \x01(\x08:\x05\x66\x61lse\"5\n\tModelType\x12\x0b\n\x07UNIGRAM\x10\x01\x12\x07\n\x03\x42PE\x10\x02\x12\x08\n\x04WORD\x10\x03\x12\x08\n\x04\x43HAR\x10\x04*\t\x08\xc8\x01\x10\x80\x80\x80\x80\x02\"\xd1\x01\n\x0eNormalizerSpec\x12\x0c\n\x04name\x18\x01 \x01(\t\x12\x1c\n\x14precompiled_charsmap\x18\x02 \x01(\x0c\x12\x1e\n\x10\x61\x64\x64_dummy_prefix\x18\x03 \x01(\x08:\x04true\x12&\n\x18remove_extra_whitespaces\x18\x04 \x01(\x08:\x04true\x12 \n\x12\x65scape_whitespaces\x18\x05 \x01(\x08:\x04true\x12\x1e\n\x16normalization_rule_tsv\x18\x06 \x01(\t*\t\x08\xc8\x01\x10\x80\x80\x80\x80\x02\"y\n\x0cSelfTestData\x12\x33\n\x07samples\x18\x01 \x03(\x0b\x32\".sentencepiece.SelfTestData.Sample\x1a)\n\x06Sample\x12\r\n\x05input\x18\x01 \x01(\t\x12\x10\n\x08\x65xpected\x18\x02 \x01(\t*\t\x08\xc8\x01\x10\x80\x80\x80\x80\x02\"\xfe\x03\n\nModelProto\x12\x37\n\x06pieces\x18\x01 \x03(\x0b\x32\'.sentencepiece.ModelProto.SentencePiece\x12\x30\n\x0ctrainer_spec\x18\x02 \x01(\x0b\x32\x1a.sentencepiece.TrainerSpec\x12\x36\n\x0fnormalizer_spec\x18\x03 \x01(\x0b\x32\x1d.sentencepiece.NormalizerSpec\x12\x33\n\x0eself_test_data\x18\x04 \x01(\x0b\x32\x1b.sentencepiece.SelfTestData\x12\x38\n\x11\x64\x65normalizer_spec\x18\x05 \x01(\x0b\x32\x1d.sentencepiece.NormalizerSpec\x1a\xd2\x01\n\rSentencePiece\x12\r\n\x05piece\x18\x01 \x01(\t\x12\r\n\x05score\x18\x02 \x01(\x02\x12\x42\n\x04type\x18\x03 \x01(\x0e\x32,.sentencepiece.ModelProto.SentencePiece.Type:\x06NORMAL\"T\n\x04Type\x12\n\n\x06NORMAL\x10\x01\x12\x0b\n\x07UNKNOWN\x10\x02\x12\x0b\n\x07\x43ONTROL\x10\x03\x12\x10\n\x0cUSER_DEFINED\x10\x04\x12\x08\n\x04\x42YTE\x10\x06\x12\n\n\x06UNUSED\x10\x05*\t\x08\xc8\x01\x10\x80\x80\x80\x80\x02*\t\x08\xc8\x01\x10\x80\x80\x80\x80\x02\x42\x02H\x03" ) _UpperCamelCase = globals() _builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, _globals) _builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, "sentencepiece_model_pb2", _globals) if _descriptor._USE_C_DESCRIPTORS is False: _UpperCamelCase = None _UpperCamelCase = b'''H\003''' # (generated by protobuf compiler, but `_TRAINERSPEC` is not defined) # _TRAINERSPEC.fields_by_name["mining_sentence_size"]._options = None # _TRAINERSPEC.fields_by_name["mining_sentence_size"]._serialized_options = b"\030\001" # _TRAINERSPEC.fields_by_name["training_sentence_size"]._options = None # _TRAINERSPEC.fields_by_name["training_sentence_size"]._serialized_options = b"\030\001" _UpperCamelCase = 45 _UpperCamelCase = 1581 _UpperCamelCase = 1517 _UpperCamelCase = 1570 _UpperCamelCase = 1584 _UpperCamelCase = 1793 _UpperCamelCase = 1795 _UpperCamelCase = 1916 _UpperCamelCase = 1864 _UpperCamelCase = 1905 _UpperCamelCase = 1919 _UpperCamelCase = 2429 _UpperCamelCase = 2208 _UpperCamelCase = 2418 _UpperCamelCase = 2323 _UpperCamelCase = 2407 # @@protoc_insertion_point(module_scope)
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'''simple docstring''' import heapq as hq import math from collections.abc import Iterator class UpperCAmelCase : def __init__( self : str , __snake_case : Any ) -> str: _lowerCAmelCase = str(id_ ) _lowerCAmelCase = None _lowerCAmelCase = None _lowerCAmelCase = [] _lowerCAmelCase = {} # {vertex:distance} def __lt__( self : List[str] , __snake_case : Union[str, Any] ) -> Any: return self.key < other.key def __repr__( self : Optional[Any] ) -> Optional[Any]: return self.id def lowercase__ ( self : Union[str, Any] , __snake_case : Tuple ) -> Optional[Any]: self.neighbors.append(__snake_case ) def lowercase__ ( self : Tuple , __snake_case : List[str] , __snake_case : Tuple ) -> Any: _lowerCAmelCase = weight def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" graph[a - 1].add_neighbor(graph[b - 1] ) graph[b - 1].add_neighbor(graph[a - 1] ) # add the edges: graph[a - 1].add_edge(graph[b - 1] , lowerCAmelCase ) graph[b - 1].add_edge(graph[a - 1] , lowerCAmelCase ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [] for u in graph: _lowerCAmelCase = math.inf _lowerCAmelCase = None _lowerCAmelCase = 0 _lowerCAmelCase = graph[:] while q: _lowerCAmelCase = min(lowerCAmelCase ) q.remove(lowerCAmelCase ) for v in u.neighbors: if (v in q) and (u.edges[v.id] < v.key): _lowerCAmelCase = u _lowerCAmelCase = u.edges[v.id] for i in range(1 , len(lowerCAmelCase ) ): a.append((int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) ) return a def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" for u in graph: _lowerCAmelCase = math.inf _lowerCAmelCase = None _lowerCAmelCase = 0 _lowerCAmelCase = list(lowerCAmelCase ) hq.heapify(lowerCAmelCase ) while h: _lowerCAmelCase = hq.heappop(lowerCAmelCase ) for v in u.neighbors: if (v in h) and (u.edges[v.id] < v.key): _lowerCAmelCase = u _lowerCAmelCase = u.edges[v.id] hq.heapify(lowerCAmelCase ) for i in range(1 , len(lowerCAmelCase ) ): yield (int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) def UpperCamelCase__ ( ): """simple docstring""" if __name__ == "__main__": import doctest doctest.testmod()
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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_sentencepiece_available, is_tf_available, is_tokenizers_available, is_torch_available, ) if is_sentencepiece_available(): from ..ta.tokenization_ta import TaTokenizer else: from ...utils.dummy_sentencepiece_objects import TaTokenizer lowerCamelCase_ = TaTokenizer if is_tokenizers_available(): from ..ta.tokenization_ta_fast import TaTokenizerFast else: from ...utils.dummy_tokenizers_objects import TaTokenizerFast lowerCamelCase_ = TaTokenizerFast lowerCamelCase_ = {'''configuration_mt5''': ['''MT5Config''', '''MT5OnnxConfig''']} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ = [ '''MT5EncoderModel''', '''MT5ForConditionalGeneration''', '''MT5ForQuestionAnswering''', '''MT5Model''', '''MT5PreTrainedModel''', '''MT5Stack''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ = ['''TFMT5EncoderModel''', '''TFMT5ForConditionalGeneration''', '''TFMT5Model'''] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ = ['''FlaxMT5EncoderModel''', '''FlaxMT5ForConditionalGeneration''', '''FlaxMT5Model'''] if TYPE_CHECKING: from .configuration_mta import MTaConfig, MTaOnnxConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mta import ( MTaEncoderModel, MTaForConditionalGeneration, MTaForQuestionAnswering, MTaModel, MTaPreTrainedModel, MTaStack, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_mta import TFMTaEncoderModel, TFMTaForConditionalGeneration, TFMTaModel try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_mta import FlaxMTaEncoderModel, FlaxMTaForConditionalGeneration, FlaxMTaModel else: import sys lowerCamelCase_ = _LazyModule( __name__, globals()['''__file__'''], _import_structure, extra_objects={'''MT5Tokenizer''': MTaTokenizer, '''MT5TokenizerFast''': MTaTokenizerFast}, module_spec=__spec__, )
79
'''simple docstring''' import unittest from transformers import is_torch_available from transformers.testing_utils import require_sentencepiece, require_tokenizers, require_torch, slow, torch_device if is_torch_available(): from transformers import AutoModelForSeqaSeqLM, AutoTokenizer @require_torch @require_sentencepiece @require_tokenizers class UpperCAmelCase ( unittest.TestCase ): @slow def lowercase__ ( self : List[Any] ) -> str: _lowerCAmelCase = AutoModelForSeqaSeqLM.from_pretrained("""google/mt5-small""" , return_dict=__snake_case ).to(__snake_case ) _lowerCAmelCase = AutoTokenizer.from_pretrained("""google/mt5-small""" ) _lowerCAmelCase = tokenizer("""Hello there""" , return_tensors="""pt""" ).input_ids _lowerCAmelCase = tokenizer("""Hi I am""" , return_tensors="""pt""" ).input_ids _lowerCAmelCase = model(input_ids.to(__snake_case ) , labels=labels.to(__snake_case ) ).loss _lowerCAmelCase = -(labels.shape[-1] * loss.item()) _lowerCAmelCase = -84.91_27 self.assertTrue(abs(mtf_score - EXPECTED_SCORE ) < 1E-4 )
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0
def __a ( SCREAMING_SNAKE_CASE ) -> List[Any]: '''simple docstring''' return "".join([hex(SCREAMING_SNAKE_CASE )[2:].zfill(2 ).upper() for byte in list(SCREAMING_SNAKE_CASE )] ) def __a ( SCREAMING_SNAKE_CASE ) -> str: '''simple docstring''' if (len(SCREAMING_SNAKE_CASE ) % 2) != 0: raise ValueError( '''Base16 encoded data is invalid: Data does not have an even number of hex digits.''' ) # Check the character set - the standard base16 alphabet # is uppercase according to RFC3548 section 6 if not set(SCREAMING_SNAKE_CASE ) <= set('''0123456789ABCDEF''' ): raise ValueError( '''Base16 encoded data is invalid: Data is not uppercase hex or it contains invalid characters.''' ) # For every two hexadecimal digits (= a byte), turn it into an integer. # Then, string the result together into bytes, and return it. return bytes(int(data[i] + data[i + 1] , 1_6 ) for i in range(0 , len(SCREAMING_SNAKE_CASE ) , 2 ) ) if __name__ == "__main__": import doctest doctest.testmod()
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'''simple docstring''' import os from shutil import copyfile from typing import Any, Dict, List, Optional, Tuple import sentencepiece as spm from ...tokenization_utils import AddedToken, BatchEncoding, PreTrainedTokenizer from ...utils import logging A__ : Any =logging.get_logger(__name__) A__ : List[Any] ='''▁''' A__ : Optional[int] ={'''vocab_file''': '''sentencepiece.bpe.model'''} A__ : Union[str, Any] ={ '''vocab_file''': { '''facebook/nllb-200-distilled-600M''': ( '''https://huggingface.co/facebook/nllb-200-distilled-600M/blob/main/sentencepiece.bpe.model''' ), } } A__ : Dict ={ '''facebook/nllb-200-distilled-600M''': 10_24, } # fmt: off A__ : Union[str, Any] =['''ace_Arab''', '''ace_Latn''', '''acm_Arab''', '''acq_Arab''', '''aeb_Arab''', '''afr_Latn''', '''ajp_Arab''', '''aka_Latn''', '''amh_Ethi''', '''apc_Arab''', '''arb_Arab''', '''ars_Arab''', '''ary_Arab''', '''arz_Arab''', '''asm_Beng''', '''ast_Latn''', '''awa_Deva''', '''ayr_Latn''', '''azb_Arab''', '''azj_Latn''', '''bak_Cyrl''', '''bam_Latn''', '''ban_Latn''', '''bel_Cyrl''', '''bem_Latn''', '''ben_Beng''', '''bho_Deva''', '''bjn_Arab''', '''bjn_Latn''', '''bod_Tibt''', '''bos_Latn''', '''bug_Latn''', '''bul_Cyrl''', '''cat_Latn''', '''ceb_Latn''', '''ces_Latn''', '''cjk_Latn''', '''ckb_Arab''', '''crh_Latn''', '''cym_Latn''', '''dan_Latn''', '''deu_Latn''', '''dik_Latn''', '''dyu_Latn''', '''dzo_Tibt''', '''ell_Grek''', '''eng_Latn''', '''epo_Latn''', '''est_Latn''', '''eus_Latn''', '''ewe_Latn''', '''fao_Latn''', '''pes_Arab''', '''fij_Latn''', '''fin_Latn''', '''fon_Latn''', '''fra_Latn''', '''fur_Latn''', '''fuv_Latn''', '''gla_Latn''', '''gle_Latn''', '''glg_Latn''', '''grn_Latn''', '''guj_Gujr''', '''hat_Latn''', '''hau_Latn''', '''heb_Hebr''', '''hin_Deva''', '''hne_Deva''', '''hrv_Latn''', '''hun_Latn''', '''hye_Armn''', '''ibo_Latn''', '''ilo_Latn''', '''ind_Latn''', '''isl_Latn''', '''ita_Latn''', '''jav_Latn''', '''jpn_Jpan''', '''kab_Latn''', '''kac_Latn''', '''kam_Latn''', '''kan_Knda''', '''kas_Arab''', '''kas_Deva''', '''kat_Geor''', '''knc_Arab''', '''knc_Latn''', '''kaz_Cyrl''', '''kbp_Latn''', '''kea_Latn''', '''khm_Khmr''', '''kik_Latn''', '''kin_Latn''', '''kir_Cyrl''', '''kmb_Latn''', '''kon_Latn''', '''kor_Hang''', '''kmr_Latn''', '''lao_Laoo''', '''lvs_Latn''', '''lij_Latn''', '''lim_Latn''', '''lin_Latn''', '''lit_Latn''', '''lmo_Latn''', '''ltg_Latn''', '''ltz_Latn''', '''lua_Latn''', '''lug_Latn''', '''luo_Latn''', '''lus_Latn''', '''mag_Deva''', '''mai_Deva''', '''mal_Mlym''', '''mar_Deva''', '''min_Latn''', '''mkd_Cyrl''', '''plt_Latn''', '''mlt_Latn''', '''mni_Beng''', '''khk_Cyrl''', '''mos_Latn''', '''mri_Latn''', '''zsm_Latn''', '''mya_Mymr''', '''nld_Latn''', '''nno_Latn''', '''nob_Latn''', '''npi_Deva''', '''nso_Latn''', '''nus_Latn''', '''nya_Latn''', '''oci_Latn''', '''gaz_Latn''', '''ory_Orya''', '''pag_Latn''', '''pan_Guru''', '''pap_Latn''', '''pol_Latn''', '''por_Latn''', '''prs_Arab''', '''pbt_Arab''', '''quy_Latn''', '''ron_Latn''', '''run_Latn''', '''rus_Cyrl''', '''sag_Latn''', '''san_Deva''', '''sat_Beng''', '''scn_Latn''', '''shn_Mymr''', '''sin_Sinh''', '''slk_Latn''', '''slv_Latn''', '''smo_Latn''', '''sna_Latn''', '''snd_Arab''', '''som_Latn''', '''sot_Latn''', '''spa_Latn''', '''als_Latn''', '''srd_Latn''', '''srp_Cyrl''', '''ssw_Latn''', '''sun_Latn''', '''swe_Latn''', '''swh_Latn''', '''szl_Latn''', '''tam_Taml''', '''tat_Cyrl''', '''tel_Telu''', '''tgk_Cyrl''', '''tgl_Latn''', '''tha_Thai''', '''tir_Ethi''', '''taq_Latn''', '''taq_Tfng''', '''tpi_Latn''', '''tsn_Latn''', '''tso_Latn''', '''tuk_Latn''', '''tum_Latn''', '''tur_Latn''', '''twi_Latn''', '''tzm_Tfng''', '''uig_Arab''', '''ukr_Cyrl''', '''umb_Latn''', '''urd_Arab''', '''uzn_Latn''', '''vec_Latn''', '''vie_Latn''', '''war_Latn''', '''wol_Latn''', '''xho_Latn''', '''ydd_Hebr''', '''yor_Latn''', '''yue_Hant''', '''zho_Hans''', '''zho_Hant''', '''zul_Latn'''] class UpperCAmelCase ( snake_case_ ): _lowercase: int = VOCAB_FILES_NAMES _lowercase: str = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowercase: Dict = PRETRAINED_VOCAB_FILES_MAP _lowercase: str = ['''input_ids''', '''attention_mask'''] _lowercase: List[int] = [] _lowercase: List[int] = [] def __init__( self : int , __snake_case : Optional[Any] , __snake_case : Dict="<s>" , __snake_case : Optional[int]="</s>" , __snake_case : Dict="</s>" , __snake_case : str="<s>" , __snake_case : Optional[int]="<unk>" , __snake_case : Union[str, Any]="<pad>" , __snake_case : Union[str, Any]="<mask>" , __snake_case : List[Any]=None , __snake_case : Union[str, Any]=None , __snake_case : int=None , __snake_case : Optional[Dict[str, Any]] = None , __snake_case : str=None , __snake_case : str=False , **__snake_case : List[Any] , ) -> List[str]: # Mask token behave like a normal word, i.e. include the space before it _lowerCAmelCase = AddedToken(__snake_case , lstrip=__snake_case , rstrip=__snake_case ) if isinstance(__snake_case , __snake_case ) else mask_token _lowerCAmelCase = {} if sp_model_kwargs is None else sp_model_kwargs _lowerCAmelCase = legacy_behaviour super().__init__( bos_token=__snake_case , eos_token=__snake_case , unk_token=__snake_case , sep_token=__snake_case , cls_token=__snake_case , pad_token=__snake_case , mask_token=__snake_case , tokenizer_file=__snake_case , src_lang=__snake_case , tgt_lang=__snake_case , additional_special_tokens=__snake_case , sp_model_kwargs=self.sp_model_kwargs , legacy_behaviour=__snake_case , **__snake_case , ) _lowerCAmelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.Load(str(__snake_case ) ) _lowerCAmelCase = vocab_file # Original fairseq vocab and spm vocab must be "aligned": # Vocab | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 # -------- | ------- | ------- | ------ | ------- | ---- | ---- | ---- | ---- | ---- | ---- # fairseq | '<s>' | '<pad>' | '</s>' | '<unk>' | 'an' | '▁n' | '▁m' | '▁t' | '▁k' | '▁a' # spm | '<unk>' | '<s>' | '</s>' | 'an' | '▁n' | '▁m' | '▁t' | '▁k' | '▁a' | '▁s' # Mimic fairseq token-to-id alignment for the first 4 token _lowerCAmelCase = {"""<s>""": 0, """<pad>""": 1, """</s>""": 2, """<unk>""": 3} # The first "real" token "," has position 4 in the original fairseq vocab and position 3 in the spm vocab _lowerCAmelCase = 1 _lowerCAmelCase = len(self.sp_model ) _lowerCAmelCase = { code: self.sp_model_size + i + self.fairseq_offset for i, code in enumerate(__snake_case ) } _lowerCAmelCase = {v: k for k, v in self.lang_code_to_id.items()} _lowerCAmelCase = len(self.sp_model ) + len(self.lang_code_to_id ) + self.fairseq_offset self.fairseq_tokens_to_ids.update(self.lang_code_to_id ) _lowerCAmelCase = {v: k for k, v in self.fairseq_tokens_to_ids.items()} _lowerCAmelCase = list(self.lang_code_to_id.keys() ) if additional_special_tokens is not None: # Only add those special tokens if they are not already there. self._additional_special_tokens.extend( [t for t in additional_special_tokens if t not in self._additional_special_tokens] ) _lowerCAmelCase = src_lang if src_lang is not None else """eng_Latn""" _lowerCAmelCase = self.lang_code_to_id[self._src_lang] _lowerCAmelCase = tgt_lang self.set_src_lang_special_tokens(self._src_lang ) def __getstate__( self : List[str] ) -> List[str]: _lowerCAmelCase = self.__dict__.copy() _lowerCAmelCase = None _lowerCAmelCase = self.sp_model.serialized_model_proto() return state def __setstate__( self : Dict , __snake_case : Optional[Any] ) -> Dict: _lowerCAmelCase = d # for backward compatibility if not hasattr(self , """sp_model_kwargs""" ): _lowerCAmelCase = {} _lowerCAmelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.LoadFromSerializedProto(self.sp_model_proto ) @property def lowercase__ ( self : List[Any] ) -> Any: return len(self.sp_model ) + len(self.lang_code_to_id ) + self.fairseq_offset + 1 # Plus 1 for the mask token @property def lowercase__ ( self : int ) -> str: return self._src_lang @src_lang.setter def lowercase__ ( self : Dict , __snake_case : str ) -> None: _lowerCAmelCase = new_src_lang self.set_src_lang_special_tokens(self._src_lang ) def lowercase__ ( self : List[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None , __snake_case : bool = False ) -> List[int]: if already_has_special_tokens: return super().get_special_tokens_mask( token_ids_a=__snake_case , token_ids_a=__snake_case , already_has_special_tokens=__snake_case ) _lowerCAmelCase = [1] * len(self.prefix_tokens ) _lowerCAmelCase = [1] * len(self.suffix_tokens ) if token_ids_a is None: return prefix_ones + ([0] * len(__snake_case )) + suffix_ones return prefix_ones + ([0] * len(__snake_case )) + ([0] * len(__snake_case )) + suffix_ones def lowercase__ ( self : Optional[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: if token_ids_a is None: return self.prefix_tokens + token_ids_a + self.suffix_tokens # We don't expect to process pairs, but leave the pair logic for API consistency return self.prefix_tokens + token_ids_a + token_ids_a + self.suffix_tokens def lowercase__ ( self : Optional[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: _lowerCAmelCase = [self.sep_token_id] _lowerCAmelCase = [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] def lowercase__ ( self : List[str] , __snake_case : Union[str, Any] , __snake_case : str , __snake_case : Optional[str] , __snake_case : Optional[str] , **__snake_case : Optional[int] ) -> Dict: if src_lang is None or tgt_lang is None: raise ValueError("""Translation requires a `src_lang` and a `tgt_lang` for this model""" ) _lowerCAmelCase = src_lang _lowerCAmelCase = self(__snake_case , add_special_tokens=__snake_case , return_tensors=__snake_case , **__snake_case ) _lowerCAmelCase = self.convert_tokens_to_ids(__snake_case ) _lowerCAmelCase = tgt_lang_id return inputs def lowercase__ ( self : List[Any] ) -> Optional[int]: _lowerCAmelCase = {self.convert_ids_to_tokens(__snake_case ): i for i in range(self.vocab_size )} vocab.update(self.added_tokens_encoder ) return vocab def lowercase__ ( self : Optional[int] , __snake_case : str ) -> List[str]: return self.sp_model.encode(__snake_case , out_type=__snake_case ) def lowercase__ ( self : Optional[Any] , __snake_case : Union[str, Any] ) -> Tuple: if token in self.fairseq_tokens_to_ids: return self.fairseq_tokens_to_ids[token] _lowerCAmelCase = self.sp_model.PieceToId(__snake_case ) # Need to return unknown token if the SP model returned 0 return spm_id + self.fairseq_offset if spm_id else self.unk_token_id def lowercase__ ( self : List[Any] , __snake_case : Union[str, Any] ) -> Optional[int]: if index in self.fairseq_ids_to_tokens: return self.fairseq_ids_to_tokens[index] return self.sp_model.IdToPiece(index - self.fairseq_offset ) def lowercase__ ( self : Optional[int] , __snake_case : Union[str, Any] ) -> str: _lowerCAmelCase = """""".join(__snake_case ).replace(__snake_case , """ """ ).strip() return out_string def lowercase__ ( self : str , __snake_case : str , __snake_case : Optional[str] = None ) -> Tuple[str]: if not os.path.isdir(__snake_case ): logger.error(f"Vocabulary path ({save_directory}) should be a directory" ) return _lowerCAmelCase = os.path.join( __snake_case , (filename_prefix + """-""" if filename_prefix else """""") + VOCAB_FILES_NAMES["""vocab_file"""] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(__snake_case ) and os.path.isfile(self.vocab_file ): copyfile(self.vocab_file , __snake_case ) elif not os.path.isfile(self.vocab_file ): with open(__snake_case , """wb""" ) as fi: _lowerCAmelCase = self.sp_model.serialized_model_proto() fi.write(__snake_case ) return (out_vocab_file,) def lowercase__ ( self : Optional[Any] , __snake_case : List[str] , __snake_case : str = "eng_Latn" , __snake_case : Optional[List[str]] = None , __snake_case : str = "fra_Latn" , **__snake_case : Optional[int] , ) -> BatchEncoding: _lowerCAmelCase = src_lang _lowerCAmelCase = tgt_lang return super().prepare_seqaseq_batch(__snake_case , __snake_case , **__snake_case ) def lowercase__ ( self : str ) -> Tuple: return self.set_src_lang_special_tokens(self.src_lang ) def lowercase__ ( self : Dict ) -> Optional[Any]: return self.set_tgt_lang_special_tokens(self.tgt_lang ) def lowercase__ ( self : str , __snake_case : int ) -> None: _lowerCAmelCase = self.lang_code_to_id[src_lang] if self.legacy_behaviour: _lowerCAmelCase = [] _lowerCAmelCase = [self.eos_token_id, self.cur_lang_code] else: _lowerCAmelCase = [self.cur_lang_code] _lowerCAmelCase = [self.eos_token_id] def lowercase__ ( self : Any , __snake_case : str ) -> None: _lowerCAmelCase = self.lang_code_to_id[lang] if self.legacy_behaviour: _lowerCAmelCase = [] _lowerCAmelCase = [self.eos_token_id, self.cur_lang_code] else: _lowerCAmelCase = [self.cur_lang_code] _lowerCAmelCase = [self.eos_token_id]
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def __SCREAMING_SNAKE_CASE ( UpperCamelCase__ ) -> Union[str, Any]: '''simple docstring''' if not all(char in '''01''' for char in bin_string ): raise ValueError('''Non-binary value was passed to the function''' ) if not bin_string: raise ValueError('''Empty string was passed to the function''' ) UpperCAmelCase = '''''' while len(UpperCamelCase__ ) % 3 != 0: UpperCAmelCase = '''0''' + bin_string UpperCAmelCase = [ bin_string[index : index + 3] for index in range(len(UpperCamelCase__ ) ) if index % 3 == 0 ] for bin_group in bin_string_in_3_list: UpperCAmelCase = 0 for index, val in enumerate(UpperCamelCase__ ): oct_val += int(2 ** (2 - index) * int(UpperCamelCase__ ) ) oct_string += str(UpperCamelCase__ ) return oct_string if __name__ == "__main__": from doctest import testmod testmod()
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'''simple docstring''' def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = len(lowerCAmelCase ) for i in range(length - 1 ): _lowerCAmelCase = i for k in range(i + 1 , lowerCAmelCase ): if collection[k] < collection[least]: _lowerCAmelCase = k if least != i: _lowerCAmelCase , _lowerCAmelCase = (collection[i], collection[least]) return collection if __name__ == "__main__": A__ : str =input('''Enter numbers separated by a comma:\n''').strip() A__ : Optional[int] =[int(item) for item in user_input.split(''',''')] print(selection_sort(unsorted))
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'''simple docstring''' from __future__ import annotations import math def a_ ( _lowerCAmelCase ) -> Optional[int]: 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(_lowerCAmelCase ) + 1 ) ,6 ): if number % i == 0 or number % (i + 2) == 0: return False return True _UpperCamelCase = [num for num in range(3, 100001, 2) if not is_prime(num)] def a_ ( _lowerCAmelCase ) -> Any: if not isinstance(_lowerCAmelCase ,_lowerCAmelCase ): raise ValueError('n must be an integer' ) if n <= 0: raise ValueError('n must be >= 0' ) __lowerCamelCase : str = [] for num in range(len(_lowerCAmelCase ) ): __lowerCamelCase : Dict = 0 while 2 * i * i <= odd_composites[num]: __lowerCamelCase : Any = odd_composites[num] - 2 * i * i if is_prime(_lowerCAmelCase ): break i += 1 else: list_nums.append(odd_composites[num] ) if len(_lowerCAmelCase ) == n: return list_nums return [] def a_ ( ) -> List[Any]: return compute_nums(1 )[0] if __name__ == "__main__": print(f'''{solution() = }''')
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'''simple docstring''' from typing import Dict, List, Optional, Union import numpy as np from transformers.utils import is_vision_available from transformers.utils.generic import TensorType from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import ( center_crop, get_resize_output_image_size, normalize, rescale, resize, to_channel_dimension_format, ) from ...image_utils import ( IMAGENET_STANDARD_MEAN, IMAGENET_STANDARD_STD, ChannelDimension, ImageInput, PILImageResampling, is_valid_image, to_numpy_array, valid_images, ) from ...utils import logging if is_vision_available(): import PIL A__ : List[str] =logging.get_logger(__name__) def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if isinstance(lowerCAmelCase , (list, tuple) ) and isinstance(videos[0] , (list, tuple) ) and is_valid_image(videos[0][0] ): return videos elif isinstance(lowerCAmelCase , (list, tuple) ) and is_valid_image(videos[0] ): return [videos] elif is_valid_image(lowerCAmelCase ): return [[videos]] raise ValueError(f"Could not make batched video from {videos}" ) class UpperCAmelCase ( snake_case_ ): _lowercase: Any = ['''pixel_values'''] def __init__( self : Tuple , __snake_case : bool = True , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = PILImageResampling.BILINEAR , __snake_case : bool = True , __snake_case : Dict[str, int] = None , __snake_case : bool = True , __snake_case : Union[int, float] = 1 / 2_55 , __snake_case : bool = True , __snake_case : bool = True , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , **__snake_case : str , ) -> None: super().__init__(**__snake_case ) _lowerCAmelCase = size if size is not None else {"""shortest_edge""": 2_56} _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) _lowerCAmelCase = crop_size if crop_size is not None else {"""height""": 2_24, """width""": 2_24} _lowerCAmelCase = get_size_dict(__snake_case , param_name="""crop_size""" ) _lowerCAmelCase = do_resize _lowerCAmelCase = size _lowerCAmelCase = do_center_crop _lowerCAmelCase = crop_size _lowerCAmelCase = resample _lowerCAmelCase = do_rescale _lowerCAmelCase = rescale_factor _lowerCAmelCase = offset _lowerCAmelCase = do_normalize _lowerCAmelCase = image_mean if image_mean is not None else IMAGENET_STANDARD_MEAN _lowerCAmelCase = image_std if image_std is not None else IMAGENET_STANDARD_STD def lowercase__ ( self : int , __snake_case : np.ndarray , __snake_case : Dict[str, int] , __snake_case : PILImageResampling = PILImageResampling.BILINEAR , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Optional[Any] , ) -> np.ndarray: _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) if "shortest_edge" in size: _lowerCAmelCase = get_resize_output_image_size(__snake_case , size["""shortest_edge"""] , default_to_square=__snake_case ) elif "height" in size and "width" in size: _lowerCAmelCase = (size["""height"""], size["""width"""]) else: raise ValueError(f"Size must have 'height' and 'width' or 'shortest_edge' as keys. Got {size.keys()}" ) return resize(__snake_case , size=__snake_case , resample=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Union[str, Any] , __snake_case : np.ndarray , __snake_case : Dict[str, int] , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : List[Any] , ) -> np.ndarray: _lowerCAmelCase = get_size_dict(__snake_case ) if "height" not in size or "width" not in size: raise ValueError(f"Size must have 'height' and 'width' as keys. Got {size.keys()}" ) return center_crop(__snake_case , size=(size["""height"""], size["""width"""]) , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Union[str, Any] , __snake_case : np.ndarray , __snake_case : Union[int, float] , __snake_case : bool = True , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Optional[Any] , ) -> Dict: _lowerCAmelCase = image.astype(np.floataa ) if offset: _lowerCAmelCase = image - (scale / 2) return rescale(__snake_case , scale=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Optional[int] , __snake_case : np.ndarray , __snake_case : Union[float, List[float]] , __snake_case : Union[float, List[float]] , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Tuple , ) -> np.ndarray: return normalize(__snake_case , mean=__snake_case , std=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : List[Any] , __snake_case : ImageInput , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = None , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : bool = None , __snake_case : float = None , __snake_case : bool = None , __snake_case : bool = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[ChannelDimension] = ChannelDimension.FIRST , ) -> np.ndarray: if do_resize and size is None or resample is None: raise ValueError("""Size and resample must be specified if do_resize is True.""" ) if do_center_crop and crop_size is None: raise ValueError("""Crop size must be specified if do_center_crop is True.""" ) if do_rescale and rescale_factor is None: raise ValueError("""Rescale factor must be specified if do_rescale is True.""" ) if do_normalize and (image_mean is None or image_std is None): raise ValueError("""Image mean and std must be specified if do_normalize is True.""" ) if offset and not do_rescale: raise ValueError("""For offset, do_rescale must also be set to True.""" ) # All transformations expect numpy arrays. _lowerCAmelCase = to_numpy_array(__snake_case ) if do_resize: _lowerCAmelCase = self.resize(image=__snake_case , size=__snake_case , resample=__snake_case ) if do_center_crop: _lowerCAmelCase = self.center_crop(__snake_case , size=__snake_case ) if do_rescale: _lowerCAmelCase = self.rescale(image=__snake_case , scale=__snake_case , offset=__snake_case ) if do_normalize: _lowerCAmelCase = self.normalize(image=__snake_case , mean=__snake_case , std=__snake_case ) _lowerCAmelCase = to_channel_dimension_format(__snake_case , __snake_case ) return image def lowercase__ ( self : List[Any] , __snake_case : ImageInput , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = None , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : bool = None , __snake_case : float = None , __snake_case : bool = None , __snake_case : bool = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[str, TensorType]] = None , __snake_case : ChannelDimension = ChannelDimension.FIRST , **__snake_case : List[str] , ) -> PIL.Image.Image: _lowerCAmelCase = do_resize if do_resize is not None else self.do_resize _lowerCAmelCase = resample if resample is not None else self.resample _lowerCAmelCase = do_center_crop if do_center_crop is not None else self.do_center_crop _lowerCAmelCase = do_rescale if do_rescale is not None else self.do_rescale _lowerCAmelCase = rescale_factor if rescale_factor is not None else self.rescale_factor _lowerCAmelCase = offset if offset is not None else self.offset _lowerCAmelCase = do_normalize if do_normalize is not None else self.do_normalize _lowerCAmelCase = image_mean if image_mean is not None else self.image_mean _lowerCAmelCase = image_std if image_std is not None else self.image_std _lowerCAmelCase = size if size is not None else self.size _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) _lowerCAmelCase = crop_size if crop_size is not None else self.crop_size _lowerCAmelCase = get_size_dict(__snake_case , param_name="""crop_size""" ) if not valid_images(__snake_case ): raise ValueError( """Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, """ """torch.Tensor, tf.Tensor or jax.ndarray.""" ) _lowerCAmelCase = make_batched(__snake_case ) _lowerCAmelCase = [ [ self._preprocess_image( image=__snake_case , do_resize=__snake_case , size=__snake_case , resample=__snake_case , do_center_crop=__snake_case , crop_size=__snake_case , do_rescale=__snake_case , rescale_factor=__snake_case , offset=__snake_case , do_normalize=__snake_case , image_mean=__snake_case , image_std=__snake_case , data_format=__snake_case , ) for img in video ] for video in videos ] _lowerCAmelCase = {"""pixel_values""": videos} return BatchFeature(data=__snake_case , tensor_type=__snake_case )
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'''simple docstring''' import sys __snake_case = ( '''73167176531330624919225119674426574742355349194934''' '''96983520312774506326239578318016984801869478851843''' '''85861560789112949495459501737958331952853208805511''' '''12540698747158523863050715693290963295227443043557''' '''66896648950445244523161731856403098711121722383113''' '''62229893423380308135336276614282806444486645238749''' '''30358907296290491560440772390713810515859307960866''' '''70172427121883998797908792274921901699720888093776''' '''65727333001053367881220235421809751254540594752243''' '''52584907711670556013604839586446706324415722155397''' '''53697817977846174064955149290862569321978468622482''' '''83972241375657056057490261407972968652414535100474''' '''82166370484403199890008895243450658541227588666881''' '''16427171479924442928230863465674813919123162824586''' '''17866458359124566529476545682848912883142607690042''' '''24219022671055626321111109370544217506941658960408''' '''07198403850962455444362981230987879927244284909188''' '''84580156166097919133875499200524063689912560717606''' '''05886116467109405077541002256983155200055935729725''' '''71636269561882670428252483600823257530420752963450''' ) def a ( __a = N ) -> Tuple: '''simple docstring''' UpperCamelCase__ :Dict = -sys.maxsize - 1 for i in range(len(__a ) - 12 ): UpperCamelCase__ :int = 1 for j in range(13 ): product *= int(n[i + j] ) if product > largest_product: UpperCamelCase__ :Optional[Any] = product return largest_product if __name__ == "__main__": print(F"""{solution() = }""")
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'''simple docstring''' import re import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class UpperCAmelCase ( snake_case_ ): _lowercase: Union[str, Any] = ['''image_processor''', '''tokenizer'''] _lowercase: int = '''AutoImageProcessor''' _lowercase: Optional[int] = '''AutoTokenizer''' def __init__( self : int , __snake_case : Tuple=None , __snake_case : Optional[int]=None , **__snake_case : Tuple ) -> List[Any]: _lowerCAmelCase = None if "feature_extractor" in kwargs: warnings.warn( """The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`""" """ instead.""" , __snake_case , ) _lowerCAmelCase = kwargs.pop("""feature_extractor""" ) _lowerCAmelCase = 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__(__snake_case , __snake_case ) _lowerCAmelCase = self.image_processor _lowerCAmelCase = False def __call__( self : Dict , *__snake_case : Optional[int] , **__snake_case : Union[str, Any] ) -> Tuple: # For backward compatibility if self._in_target_context_manager: return self.current_processor(*__snake_case , **__snake_case ) _lowerCAmelCase = kwargs.pop("""images""" , __snake_case ) _lowerCAmelCase = kwargs.pop("""text""" , __snake_case ) if len(__snake_case ) > 0: _lowerCAmelCase = args[0] _lowerCAmelCase = args[1:] if images is None and text is None: raise ValueError("""You need to specify either an `images` or `text` input to process.""" ) if images is not None: _lowerCAmelCase = self.image_processor(__snake_case , *__snake_case , **__snake_case ) if text is not None: _lowerCAmelCase = self.tokenizer(__snake_case , **__snake_case ) if text is None: return inputs elif images is None: return encodings else: _lowerCAmelCase = encodings["""input_ids"""] return inputs def lowercase__ ( self : List[Any] , *__snake_case : Dict , **__snake_case : List[str] ) -> int: return self.tokenizer.batch_decode(*__snake_case , **__snake_case ) def lowercase__ ( self : int , *__snake_case : Tuple , **__snake_case : Optional[Any] ) -> Any: return self.tokenizer.decode(*__snake_case , **__snake_case ) @contextmanager def lowercase__ ( self : int ) -> Optional[Any]: 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 images inputs, or in a separate call.""" ) _lowerCAmelCase = True _lowerCAmelCase = self.tokenizer yield _lowerCAmelCase = self.image_processor _lowerCAmelCase = False def lowercase__ ( self : Optional[int] , __snake_case : Union[str, Any] , __snake_case : List[Any]=False , __snake_case : Dict=None ) -> Tuple: if added_vocab is None: _lowerCAmelCase = self.tokenizer.get_added_vocab() _lowerCAmelCase = {} while tokens: _lowerCAmelCase = re.search(R"""<s_(.*?)>""" , __snake_case , re.IGNORECASE ) if start_token is None: break _lowerCAmelCase = start_token.group(1 ) _lowerCAmelCase = re.search(Rf"</s_{key}>" , __snake_case , re.IGNORECASE ) _lowerCAmelCase = start_token.group() if end_token is None: _lowerCAmelCase = tokens.replace(__snake_case , """""" ) else: _lowerCAmelCase = end_token.group() _lowerCAmelCase = re.escape(__snake_case ) _lowerCAmelCase = re.escape(__snake_case ) _lowerCAmelCase = re.search(f"{start_token_escaped}(.*?){end_token_escaped}" , __snake_case , re.IGNORECASE ) if content is not None: _lowerCAmelCase = content.group(1 ).strip() if r"<s_" in content and r"</s_" in content: # non-leaf node _lowerCAmelCase = self.tokenajson(__snake_case , is_inner_value=__snake_case , added_vocab=__snake_case ) if value: if len(__snake_case ) == 1: _lowerCAmelCase = value[0] _lowerCAmelCase = value else: # leaf nodes _lowerCAmelCase = [] for leaf in content.split(R"""<sep/>""" ): _lowerCAmelCase = leaf.strip() if leaf in added_vocab and leaf[0] == "<" and leaf[-2:] == "/>": _lowerCAmelCase = leaf[1:-2] # for categorical special tokens output[key].append(__snake_case ) if len(output[key] ) == 1: _lowerCAmelCase = output[key][0] _lowerCAmelCase = tokens[tokens.find(__snake_case ) + len(__snake_case ) :].strip() if tokens[:6] == r"<sep/>": # non-leaf nodes return [output] + self.tokenajson(tokens[6:] , is_inner_value=__snake_case , added_vocab=__snake_case ) if len(__snake_case ): return [output] if is_inner_value else output else: return [] if is_inner_value else {"text_sequence": tokens} @property def lowercase__ ( self : Optional[int] ) -> Union[str, Any]: warnings.warn( """`feature_extractor_class` is deprecated and will be removed in v5. Use `image_processor_class` instead.""" , __snake_case , ) return self.image_processor_class @property def lowercase__ ( self : List[Any] ) -> Any: warnings.warn( """`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.""" , __snake_case , ) return self.image_processor
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"""simple docstring""" from collections import OrderedDict from typing import Mapping from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...utils import logging lowerCamelCase_ : int = logging.get_logger(__name__) lowerCamelCase_ : List[Any] = { '''facebook/data2vec-text-base''': '''https://huggingface.co/data2vec/resolve/main/config.json''', } class __A ( snake_case_ ): """simple docstring""" __lowerCAmelCase = '''data2vec-text''' def __init__( self , __A=3_0522 , __A=768 , __A=12 , __A=12 , __A=3072 , __A="gelu" , __A=0.1 , __A=0.1 , __A=512 , __A=2 , __A=0.02 , __A=1E-1_2 , __A=1 , __A=0 , __A=2 , __A="absolute" , __A=True , __A=None , **__A , ) -> int: super().__init__(pad_token_id=__snake_case , bos_token_id=__snake_case , eos_token_id=__snake_case , **__snake_case ) a =vocab_size a =hidden_size a =num_hidden_layers a =num_attention_heads a =hidden_act a =intermediate_size a =hidden_dropout_prob a =attention_probs_dropout_prob a =max_position_embeddings a =type_vocab_size a =initializer_range a =layer_norm_eps a =position_embedding_type a =use_cache a =classifier_dropout class __A ( snake_case_ ): """simple docstring""" @property def SCREAMING_SNAKE_CASE ( self ) -> Mapping[str, Mapping[int, str]]: if self.task == "multiple-choice": a ={0: '''batch''', 1: '''choice''', 2: '''sequence'''} else: a ={0: '''batch''', 1: '''sequence'''} return OrderedDict( [ ('''input_ids''', dynamic_axis), ('''attention_mask''', dynamic_axis), ] )
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'''simple docstring''' from __future__ import annotations import math def UpperCamelCase__ ( lowerCAmelCase ): """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(lowerCAmelCase ) + 1 ) , 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True A__ : Optional[Any] =[num for num in range(3, 10_00_01, 2) if not is_prime(num)] def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if not isinstance(lowerCAmelCase , lowerCAmelCase ): raise ValueError("""n must be an integer""" ) if n <= 0: raise ValueError("""n must be >= 0""" ) _lowerCAmelCase = [] for num in range(len(lowerCAmelCase ) ): _lowerCAmelCase = 0 while 2 * i * i <= odd_composites[num]: _lowerCAmelCase = odd_composites[num] - 2 * i * i if is_prime(lowerCAmelCase ): break i += 1 else: list_nums.append(odd_composites[num] ) if len(lowerCAmelCase ) == n: return list_nums return [] def UpperCamelCase__ ( ): """simple docstring""" return compute_nums(1 )[0] if __name__ == "__main__": print(F"""{solution() = }""")
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"""simple docstring""" from __future__ import annotations import unittest import numpy as np from transformers import BlipTextConfig from transformers.testing_utils import require_tf, slow from transformers.utils import is_tf_available from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, ids_tensor, random_attention_mask if is_tf_available(): import tensorflow as tf from transformers import TFBlipTextModel from transformers.models.blip.modeling_tf_blip import TF_BLIP_PRETRAINED_MODEL_ARCHIVE_LIST class A_ : """simple docstring""" def __init__( self :List[str] , lowercase_ :str , lowercase_ :Dict=12 , lowercase_ :Dict=7 , lowercase_ :str=True , lowercase_ :List[Any]=True , lowercase_ :Dict=True , lowercase_ :Optional[int]=99 , lowercase_ :Dict=32 , lowercase_ :Optional[Any]=32 , lowercase_ :Union[str, Any]=2 , lowercase_ :List[str]=4 , lowercase_ :Optional[int]=37 , lowercase_ :Union[str, Any]=0.1 , lowercase_ :Optional[int]=0.1 , lowercase_ :int=5_12 , lowercase_ :List[Any]=0.02 , lowercase_ :Any=0 , lowercase_ :List[Any]=None , ) -> int: UpperCAmelCase = parent UpperCAmelCase = batch_size UpperCAmelCase = seq_length UpperCAmelCase = is_training UpperCAmelCase = use_input_mask UpperCAmelCase = use_labels UpperCAmelCase = vocab_size UpperCAmelCase = hidden_size UpperCAmelCase = projection_dim UpperCAmelCase = num_hidden_layers UpperCAmelCase = num_attention_heads UpperCAmelCase = intermediate_size UpperCAmelCase = dropout UpperCAmelCase = attention_dropout UpperCAmelCase = max_position_embeddings UpperCAmelCase = initializer_range UpperCAmelCase = scope UpperCAmelCase = bos_token_id def UpperCAmelCase__ ( self :List[Any] ) -> List[str]: UpperCAmelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) UpperCAmelCase = None if self.use_input_mask: UpperCAmelCase = random_attention_mask([self.batch_size, self.seq_length] ) if input_mask is not None: UpperCAmelCase = input_mask.numpy() UpperCAmelCase , UpperCAmelCase = input_mask.shape UpperCAmelCase = np.random.randint(1 , seq_length - 1 , size=(batch_size,) ) for batch_idx, start_index in enumerate(__snake_case ): UpperCAmelCase = 1 UpperCAmelCase = 0 UpperCAmelCase = self.get_config() return config, input_ids, tf.convert_to_tensor(__snake_case ) def UpperCAmelCase__ ( self :List[str] ) -> Optional[int]: return BlipTextConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , projection_dim=self.projection_dim , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , dropout=self.dropout , attention_dropout=self.attention_dropout , max_position_embeddings=self.max_position_embeddings , initializer_range=self.initializer_range , bos_token_id=self.bos_token_id , ) def UpperCAmelCase__ ( self :int , lowercase_ :Any , lowercase_ :List[str] , lowercase_ :List[Any] ) -> Optional[int]: UpperCAmelCase = TFBlipTextModel(config=__snake_case ) UpperCAmelCase = model(__snake_case , attention_mask=__snake_case , training=__snake_case ) UpperCAmelCase = model(__snake_case , training=__snake_case ) 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 UpperCAmelCase__ ( self :Optional[int] ) -> Any: UpperCAmelCase = self.prepare_config_and_inputs() UpperCAmelCase , UpperCAmelCase , UpperCAmelCase = config_and_inputs UpperCAmelCase = {'input_ids': input_ids, 'attention_mask': input_mask} return config, inputs_dict @require_tf class A_ ( snake_case_ , unittest.TestCase ): """simple docstring""" __UpperCamelCase = (TFBlipTextModel,) if is_tf_available() else () __UpperCamelCase = False __UpperCamelCase = False __UpperCamelCase = False def UpperCAmelCase__ ( self :List[Any] ) -> Optional[int]: UpperCAmelCase = BlipTextModelTester(self ) UpperCAmelCase = ConfigTester(self , config_class=__snake_case , hidden_size=37 ) def UpperCAmelCase__ ( self :Optional[Any] ) -> Optional[Any]: self.config_tester.run_common_tests() def UpperCAmelCase__ ( self :int ) -> List[str]: UpperCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__snake_case ) def UpperCAmelCase__ ( self :str ) -> Union[str, Any]: pass def UpperCAmelCase__ ( self :Optional[Any] ) -> Tuple: pass @unittest.skip(reason='Blip does not use inputs_embeds' ) def UpperCAmelCase__ ( self :List[Any] ) -> List[Any]: pass @unittest.skip(reason='BlipTextModel has no base class and is not available in MODEL_MAPPING' ) def UpperCAmelCase__ ( self :List[Any] ) -> List[str]: pass @unittest.skip(reason='BlipTextModel has no base class and is not available in MODEL_MAPPING' ) def UpperCAmelCase__ ( self :List[str] ) -> int: pass @slow def UpperCAmelCase__ ( self :List[str] ) -> List[str]: for model_name in TF_BLIP_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: UpperCAmelCase = TFBlipTextModel.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) def UpperCAmelCase__ ( self :List[str] , lowercase_ :List[str]=True ) -> Any: super().test_pt_tf_model_equivalence(allow_missing_keys=__snake_case )
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'''simple docstring''' import argparse import json from tqdm import tqdm def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = argparse.ArgumentParser() # Required parameters parser.add_argument( """--src_path""" , type=lowerCAmelCase , default="""biencoder-nq-dev.json""" , help="""Path to raw DPR training data""" , ) parser.add_argument( """--evaluation_set""" , type=lowerCAmelCase , help="""where to store parsed evaluation_set file""" , ) parser.add_argument( """--gold_data_path""" , type=lowerCAmelCase , help="""where to store parsed gold_data_path file""" , ) _lowerCAmelCase = parser.parse_args() with open(args.src_path , """r""" ) as src_file, open(args.evaluation_set , """w""" ) as eval_file, open( args.gold_data_path , """w""" ) as gold_file: _lowerCAmelCase = json.load(lowerCAmelCase ) for dpr_record in tqdm(lowerCAmelCase ): _lowerCAmelCase = dpr_record["""question"""] _lowerCAmelCase = [context["""title"""] for context in dpr_record["""positive_ctxs"""]] eval_file.write(question + """\n""" ) gold_file.write("""\t""".join(lowerCAmelCase ) + """\n""" ) if __name__ == "__main__": main()
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"""simple docstring""" from __future__ import annotations from collections import namedtuple from dataclasses import dataclass @dataclass class UpperCamelCase : lowercase = 42 lowercase = None lowercase = None __SCREAMING_SNAKE_CASE =namedtuple("CoinsDistribResult", "moves excess") def lowercase__( __SCREAMING_SNAKE_CASE : Optional[int] ): if root is None: return 0 # Validation def count_nodes(__SCREAMING_SNAKE_CASE : List[str] ) -> int: if node is None: return 0 return count_nodes(node.left ) + count_nodes(node.right ) + 1 def count_coins(__SCREAMING_SNAKE_CASE : int ) -> int: if node is None: return 0 return count_coins(node.left ) + count_coins(node.right ) + node.data if count_nodes(__SCREAMING_SNAKE_CASE ) != count_coins(__SCREAMING_SNAKE_CASE ): raise ValueError('The nodes number should be same as the number of coins' ) # Main calculation def get_distrib(__SCREAMING_SNAKE_CASE : List[str] ) -> CoinsDistribResult: if node is None: return CoinsDistribResult(0 , 1 ) lowercase_ , lowercase_ : Optional[int] = get_distrib(node.left ) lowercase_ , lowercase_ : Optional[Any] = get_distrib(node.right ) lowercase_ : int = 1 - left_distrib_excess lowercase_ : List[Any] = 1 - right_distrib_excess lowercase_ : List[Any] = ( left_distrib_moves + right_distrib_moves + abs(__SCREAMING_SNAKE_CASE ) + abs(__SCREAMING_SNAKE_CASE ) ) lowercase_ : List[Any] = node.data - coins_to_left - coins_to_right return CoinsDistribResult(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) return get_distrib(__SCREAMING_SNAKE_CASE )[0] if __name__ == "__main__": import doctest doctest.testmod()
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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available A__ : Optional[Any] ={ '''configuration_bigbird_pegasus''': [ '''BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''BigBirdPegasusConfig''', '''BigBirdPegasusOnnxConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : Union[str, Any] =[ '''BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST''', '''BigBirdPegasusForCausalLM''', '''BigBirdPegasusForConditionalGeneration''', '''BigBirdPegasusForQuestionAnswering''', '''BigBirdPegasusForSequenceClassification''', '''BigBirdPegasusModel''', '''BigBirdPegasusPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP, BigBirdPegasusConfig, BigBirdPegasusOnnxConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST, BigBirdPegasusForCausalLM, BigBirdPegasusForConditionalGeneration, BigBirdPegasusForQuestionAnswering, BigBirdPegasusForSequenceClassification, BigBirdPegasusModel, BigBirdPegasusPreTrainedModel, ) else: import sys A__ : Optional[Any] =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
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SCREAMING_SNAKE_CASE_ = ''' # Transformers 설치 방법 ! pip install transformers datasets # 마지막 릴리스 대신 소스에서 설치하려면, 위 명령을 주석으로 바꾸고 아래 명령을 해제하세요. # ! pip install git+https://github.com/huggingface/transformers.git ''' SCREAMING_SNAKE_CASE_ = [{'''type''': '''code''', '''content''': INSTALL_CONTENT}] SCREAMING_SNAKE_CASE_ = { '''{processor_class}''': '''FakeProcessorClass''', '''{model_class}''': '''FakeModelClass''', '''{object_class}''': '''FakeObjectClass''', }
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'''simple docstring''' import math from typing import Callable, List, Optional, Union import numpy as np import PIL import torch from PIL import Image from transformers import CLIPTextModel, CLIPTokenizer from diffusers.models import AutoencoderKL, UNetaDConditionModel from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_upscale import StableDiffusionUpscalePipeline from diffusers.schedulers import DDIMScheduler, DDPMScheduler, LMSDiscreteScheduler, PNDMScheduler def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase=[] ): """simple docstring""" _lowerCAmelCase = size[0] - overlap_pixels * 2 _lowerCAmelCase = size[1] - overlap_pixels * 2 for letter in ["l", "r"]: if letter in remove_borders: size_x += overlap_pixels for letter in ["t", "b"]: if letter in remove_borders: size_y += overlap_pixels _lowerCAmelCase = np.ones((size_y, size_x) , dtype=np.uinta ) * 2_55 _lowerCAmelCase = np.pad(lowerCAmelCase , mode="""linear_ramp""" , pad_width=lowerCAmelCase , end_values=0 ) if "l" in remove_borders: _lowerCAmelCase = mask[:, overlap_pixels : mask.shape[1]] if "r" in remove_borders: _lowerCAmelCase = mask[:, 0 : mask.shape[1] - overlap_pixels] if "t" in remove_borders: _lowerCAmelCase = mask[overlap_pixels : mask.shape[0], :] if "b" in remove_borders: _lowerCAmelCase = mask[0 : mask.shape[0] - overlap_pixels, :] return mask def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" return max(lowerCAmelCase , min(lowerCAmelCase , lowerCAmelCase ) ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" return ( clamp(rect[0] , min[0] , max[0] ), clamp(rect[1] , min[1] , max[1] ), clamp(rect[2] , min[0] , max[0] ), clamp(rect[3] , min[1] , max[1] ), ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = list(lowerCAmelCase ) rect[0] -= overlap rect[1] -= overlap rect[2] += overlap rect[3] += overlap _lowerCAmelCase = clamp_rect(lowerCAmelCase , [0, 0] , [image_size[0], image_size[1]] ) return rect def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = Image.new("""RGB""" , (tile.size[0] + original_slice, tile.size[1]) ) result.paste( original_image.resize((tile.size[0], tile.size[1]) , Image.BICUBIC ).crop( (slice_x, 0, slice_x + original_slice, tile.size[1]) ) , (0, 0) , ) result.paste(lowerCAmelCase , (original_slice, 0) ) return result def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = (original_image_slice * 4, 0, tile.size[0], tile.size[1]) _lowerCAmelCase = tile.crop(lowerCAmelCase ) return tile def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = n % d return n - divisor class UpperCAmelCase ( snake_case_ ): def __init__( self : List[Any] , __snake_case : AutoencoderKL , __snake_case : CLIPTextModel , __snake_case : CLIPTokenizer , __snake_case : UNetaDConditionModel , __snake_case : DDPMScheduler , __snake_case : Union[DDIMScheduler, PNDMScheduler, LMSDiscreteScheduler] , __snake_case : int = 3_50 , ) -> int: super().__init__( vae=__snake_case , text_encoder=__snake_case , tokenizer=__snake_case , unet=__snake_case , low_res_scheduler=__snake_case , scheduler=__snake_case , max_noise_level=__snake_case , ) def lowercase__ ( self : List[Any] , __snake_case : List[Any] , __snake_case : List[Any] , __snake_case : Dict , __snake_case : List[Any] , __snake_case : int , __snake_case : Optional[Any] , __snake_case : Any , **__snake_case : str ) -> int: torch.manual_seed(0 ) _lowerCAmelCase = ( min(image.size[0] - (tile_size + original_image_slice) , x * tile_size ), min(image.size[1] - (tile_size + original_image_slice) , y * tile_size ), min(image.size[0] , (x + 1) * tile_size ), min(image.size[1] , (y + 1) * tile_size ), ) _lowerCAmelCase = add_overlap_rect(__snake_case , __snake_case , image.size ) _lowerCAmelCase = image.crop(__snake_case ) _lowerCAmelCase = ((crop_rect[0] + ((crop_rect[2] - crop_rect[0]) / 2)) / image.size[0]) * tile.size[0] _lowerCAmelCase = translated_slice_x - (original_image_slice / 2) _lowerCAmelCase = max(0 , __snake_case ) _lowerCAmelCase = squeeze_tile(__snake_case , __snake_case , __snake_case , __snake_case ) _lowerCAmelCase = to_input.size _lowerCAmelCase = to_input.resize((tile_size, tile_size) , Image.BICUBIC ) _lowerCAmelCase = super(__snake_case , self ).__call__(image=__snake_case , **__snake_case ).images[0] _lowerCAmelCase = upscaled_tile.resize((orig_input_size[0] * 4, orig_input_size[1] * 4) , Image.BICUBIC ) _lowerCAmelCase = unsqueeze_tile(__snake_case , __snake_case ) _lowerCAmelCase = upscaled_tile.resize((tile.size[0] * 4, tile.size[1] * 4) , Image.BICUBIC ) _lowerCAmelCase = [] if x == 0: remove_borders.append("""l""" ) elif crop_rect[2] == image.size[0]: remove_borders.append("""r""" ) if y == 0: remove_borders.append("""t""" ) elif crop_rect[3] == image.size[1]: remove_borders.append("""b""" ) _lowerCAmelCase = Image.fromarray( make_transparency_mask( (upscaled_tile.size[0], upscaled_tile.size[1]) , tile_border * 4 , remove_borders=__snake_case ) , mode="""L""" , ) final_image.paste( __snake_case , (crop_rect_with_overlap[0] * 4, crop_rect_with_overlap[1] * 4) , __snake_case ) @torch.no_grad() def __call__( self : Union[str, Any] , __snake_case : Union[str, List[str]] , __snake_case : Union[PIL.Image.Image, List[PIL.Image.Image]] , __snake_case : int = 75 , __snake_case : float = 9.0 , __snake_case : int = 50 , __snake_case : Optional[Union[str, List[str]]] = None , __snake_case : Optional[int] = 1 , __snake_case : float = 0.0 , __snake_case : Optional[torch.Generator] = None , __snake_case : Optional[torch.FloatTensor] = None , __snake_case : Optional[Callable[[int, int, torch.FloatTensor], None]] = None , __snake_case : int = 1 , __snake_case : int = 1_28 , __snake_case : int = 32 , __snake_case : int = 32 , ) -> str: _lowerCAmelCase = Image.new("""RGB""" , (image.size[0] * 4, image.size[1] * 4) ) _lowerCAmelCase = math.ceil(image.size[0] / tile_size ) _lowerCAmelCase = math.ceil(image.size[1] / tile_size ) _lowerCAmelCase = tcx * tcy _lowerCAmelCase = 0 for y in range(__snake_case ): for x in range(__snake_case ): self._process_tile( __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , prompt=__snake_case , num_inference_steps=__snake_case , guidance_scale=__snake_case , noise_level=__snake_case , negative_prompt=__snake_case , num_images_per_prompt=__snake_case , eta=__snake_case , generator=__snake_case , latents=__snake_case , ) current_count += 1 if callback is not None: callback({"""progress""": current_count / total_tile_count, """image""": final_image} ) return final_image def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = """stabilityai/stable-diffusion-x4-upscaler""" _lowerCAmelCase = StableDiffusionTiledUpscalePipeline.from_pretrained(lowerCAmelCase , revision="""fp16""" , torch_dtype=torch.floataa ) _lowerCAmelCase = pipe.to("""cuda""" ) _lowerCAmelCase = Image.open("""../../docs/source/imgs/diffusers_library.jpg""" ) def callback(lowerCAmelCase ): print(f"progress: {obj['progress']:.4f}" ) obj["image"].save("""diffusers_library_progress.jpg""" ) _lowerCAmelCase = pipe(image=lowerCAmelCase , prompt="""Black font, white background, vector""" , noise_level=40 , callback=lowerCAmelCase ) final_image.save("""diffusers_library.jpg""" ) if __name__ == "__main__": main()
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"""simple docstring""" import sys from collections import defaultdict class lowerCamelCase : '''simple docstring''' def __init__(self ): """simple docstring""" UpperCAmelCase__ : List[str] = [] def _a (self , _lowerCamelCase ): """simple docstring""" return self.node_position[vertex] def _a (self , _lowerCamelCase , _lowerCamelCase ): """simple docstring""" UpperCAmelCase__ : Union[str, Any] = pos def _a (self , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase ): """simple docstring""" if start > size // 2 - 1: return else: if 2 * start + 2 >= size: UpperCAmelCase__ : Tuple = 2 * start + 1 else: if heap[2 * start + 1] < heap[2 * start + 2]: UpperCAmelCase__ : Dict = 2 * start + 1 else: UpperCAmelCase__ : Dict = 2 * start + 2 if heap[smallest_child] < heap[start]: UpperCAmelCase__ , UpperCAmelCase__ : int = heap[smallest_child], positions[smallest_child] UpperCAmelCase__ , UpperCAmelCase__ : Optional[int] = ( heap[start], positions[start], ) UpperCAmelCase__ , UpperCAmelCase__ : Optional[Any] = temp, tempa UpperCAmelCase__ : List[str] = self.get_position(positions[smallest_child] ) self.set_position( positions[smallest_child] , self.get_position(positions[start] ) ) self.set_position(positions[start] , __snake_case ) self.top_to_bottom(__snake_case , __snake_case , __snake_case , __snake_case ) def _a (self , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase ): """simple docstring""" UpperCAmelCase__ : Optional[int] = position[index] while index != 0: UpperCAmelCase__ : Optional[Any] = int((index - 2) / 2 ) if index % 2 == 0 else int((index - 1) / 2 ) if val < heap[parent]: UpperCAmelCase__ : List[str] = heap[parent] UpperCAmelCase__ : int = position[parent] self.set_position(position[parent] , __snake_case ) else: UpperCAmelCase__ : Optional[Any] = val UpperCAmelCase__ : Any = temp self.set_position(__snake_case , __snake_case ) break UpperCAmelCase__ : List[Any] = parent else: UpperCAmelCase__ : Any = val UpperCAmelCase__ : int = temp self.set_position(__snake_case , 0 ) def _a (self , _lowerCamelCase , _lowerCamelCase ): """simple docstring""" UpperCAmelCase__ : Optional[Any] = len(__snake_case ) // 2 - 1 for i in range(__snake_case , -1 , -1 ): self.top_to_bottom(__snake_case , __snake_case , len(__snake_case ) , __snake_case ) def _a (self , _lowerCamelCase , _lowerCamelCase ): """simple docstring""" UpperCAmelCase__ : int = positions[0] UpperCAmelCase__ : List[str] = sys.maxsize self.top_to_bottom(__snake_case , 0 , len(__snake_case ) , __snake_case ) return temp def a__ ( lowerCAmelCase ) -> Any: UpperCAmelCase__ : int = Heap() UpperCAmelCase__ : Optional[int] = [0] * len(lowerCAmelCase ) UpperCAmelCase__ : Any = [-1] * len(lowerCAmelCase ) # Neighboring Tree Vertex of selected vertex # Minimum Distance of explored vertex with neighboring vertex of partial tree # formed in graph UpperCAmelCase__ : Tuple = [] # Heap of Distance of vertices from their neighboring vertex UpperCAmelCase__ : Optional[Any] = [] for vertex in range(len(lowerCAmelCase ) ): distance_tv.append(sys.maxsize ) positions.append(lowerCAmelCase ) heap.node_position.append(lowerCAmelCase ) UpperCAmelCase__ : int = [] UpperCAmelCase__ : Optional[Any] = 1 UpperCAmelCase__ : str = sys.maxsize for neighbor, distance in adjacency_list[0]: UpperCAmelCase__ : List[str] = 0 UpperCAmelCase__ : Optional[Any] = distance heap.heapify(lowerCAmelCase , lowerCAmelCase ) for _ in range(1 , len(lowerCAmelCase ) ): UpperCAmelCase__ : Optional[Any] = heap.delete_minimum(lowerCAmelCase , lowerCAmelCase ) if visited[vertex] == 0: tree_edges.append((nbr_tv[vertex], vertex) ) UpperCAmelCase__ : Optional[int] = 1 for neighbor, distance in adjacency_list[vertex]: if ( visited[neighbor] == 0 and distance < distance_tv[heap.get_position(lowerCAmelCase )] ): UpperCAmelCase__ : List[Any] = distance heap.bottom_to_top( lowerCAmelCase , heap.get_position(lowerCAmelCase ) , lowerCAmelCase , lowerCAmelCase ) UpperCAmelCase__ : Optional[Any] = vertex return tree_edges if __name__ == "__main__": # pragma: no cover # < --------- Prims Algorithm --------- > _A = int(input("""Enter number of edges: """).strip()) _A = defaultdict(list) for _ in range(edges_number): _A = [int(x) for x in input().strip().split()] adjacency_list[edge[0]].append([edge[1], edge[2]]) adjacency_list[edge[1]].append([edge[0], edge[2]]) print(prisms_algorithm(adjacency_list))
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'''simple docstring''' import gc import random import unittest import numpy as np import torch from PIL import Image from diffusers import ( DDIMScheduler, KandinskyVaaImgaImgPipeline, KandinskyVaaPriorPipeline, UNetaDConditionModel, VQModel, ) from diffusers.utils import floats_tensor, load_image, load_numpy, slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference enable_full_determinism() class UpperCAmelCase ( snake_case_ , unittest.TestCase ): _lowercase: int = KandinskyVaaImgaImgPipeline _lowercase: List[str] = ['''image_embeds''', '''negative_image_embeds''', '''image'''] _lowercase: Optional[int] = [ '''image_embeds''', '''negative_image_embeds''', '''image''', ] _lowercase: Tuple = [ '''generator''', '''height''', '''width''', '''strength''', '''guidance_scale''', '''num_inference_steps''', '''return_dict''', '''guidance_scale''', '''num_images_per_prompt''', '''output_type''', '''return_dict''', ] _lowercase: List[str] = False @property def lowercase__ ( self : str ) -> List[str]: return 32 @property def lowercase__ ( self : Optional[int] ) -> List[Any]: return 32 @property def lowercase__ ( self : Tuple ) -> str: return self.time_input_dim @property def lowercase__ ( self : Any ) -> Optional[int]: return self.time_input_dim * 4 @property def lowercase__ ( self : int ) -> Optional[Any]: return 1_00 @property def lowercase__ ( self : int ) -> Dict: torch.manual_seed(0 ) _lowerCAmelCase = { """in_channels""": 4, # Out channels is double in channels because predicts mean and variance """out_channels""": 8, """addition_embed_type""": """image""", """down_block_types""": ("""ResnetDownsampleBlock2D""", """SimpleCrossAttnDownBlock2D"""), """up_block_types""": ("""SimpleCrossAttnUpBlock2D""", """ResnetUpsampleBlock2D"""), """mid_block_type""": """UNetMidBlock2DSimpleCrossAttn""", """block_out_channels""": (self.block_out_channels_a, self.block_out_channels_a * 2), """layers_per_block""": 1, """encoder_hid_dim""": self.text_embedder_hidden_size, """encoder_hid_dim_type""": """image_proj""", """cross_attention_dim""": self.cross_attention_dim, """attention_head_dim""": 4, """resnet_time_scale_shift""": """scale_shift""", """class_embed_type""": None, } _lowerCAmelCase = UNetaDConditionModel(**__snake_case ) return model @property def lowercase__ ( self : Union[str, Any] ) -> Tuple: return { "block_out_channels": [32, 64], "down_block_types": ["DownEncoderBlock2D", "AttnDownEncoderBlock2D"], "in_channels": 3, "latent_channels": 4, "layers_per_block": 1, "norm_num_groups": 8, "norm_type": "spatial", "num_vq_embeddings": 12, "out_channels": 3, "up_block_types": [ "AttnUpDecoderBlock2D", "UpDecoderBlock2D", ], "vq_embed_dim": 4, } @property def lowercase__ ( self : Dict ) -> str: torch.manual_seed(0 ) _lowerCAmelCase = VQModel(**self.dummy_movq_kwargs ) return model def lowercase__ ( self : Optional[int] ) -> Optional[int]: _lowerCAmelCase = self.dummy_unet _lowerCAmelCase = self.dummy_movq _lowerCAmelCase = { """num_train_timesteps""": 10_00, """beta_schedule""": """linear""", """beta_start""": 0.0_00_85, """beta_end""": 0.0_12, """clip_sample""": False, """set_alpha_to_one""": False, """steps_offset""": 0, """prediction_type""": """epsilon""", """thresholding""": False, } _lowerCAmelCase = DDIMScheduler(**__snake_case ) _lowerCAmelCase = { """unet""": unet, """scheduler""": scheduler, """movq""": movq, } return components def lowercase__ ( self : int , __snake_case : List[str] , __snake_case : List[Any]=0 ) -> Union[str, Any]: _lowerCAmelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(seed + 1 ) ).to( __snake_case ) # create init_image _lowerCAmelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((2_56, 2_56) ) if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = { """image""": init_image, """image_embeds""": image_embeds, """negative_image_embeds""": negative_image_embeds, """generator""": generator, """height""": 64, """width""": 64, """num_inference_steps""": 10, """guidance_scale""": 7.0, """strength""": 0.2, """output_type""": """np""", } return inputs def lowercase__ ( self : str ) -> Tuple: _lowerCAmelCase = """cpu""" _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) _lowerCAmelCase = pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = pipe(**self.get_dummy_inputs(__snake_case ) ) _lowerCAmelCase = output.images _lowerCAmelCase = pipe( **self.get_dummy_inputs(__snake_case ) , return_dict=__snake_case , )[0] _lowerCAmelCase = image[0, -3:, -3:, -1] _lowerCAmelCase = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) _lowerCAmelCase = np.array( [0.6_19_97_78, 0.63_98_44_06, 0.46_14_57_85, 0.62_94_49_84, 0.5_62_22_15, 0.47_30_61_32, 0.47_44_14_56, 0.4_60_76_06, 0.48_71_92_63] ) assert ( np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 ), f" expected_slice {expected_slice}, but got {image_slice.flatten()}" assert ( np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 ), f" expected_slice {expected_slice}, but got {image_from_tuple_slice.flatten()}" @slow @require_torch_gpu class UpperCAmelCase ( unittest.TestCase ): def lowercase__ ( self : Any ) -> List[Any]: # clean up the VRAM after each test super().tearDown() gc.collect() torch.cuda.empty_cache() def lowercase__ ( self : int ) -> Dict: _lowerCAmelCase = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/kandinskyv22/kandinskyv22_img2img_frog.npy""" ) _lowerCAmelCase = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/kandinsky/cat.png""" ) _lowerCAmelCase = """A red cartoon frog, 4k""" _lowerCAmelCase = KandinskyVaaPriorPipeline.from_pretrained( """kandinsky-community/kandinsky-2-2-prior""" , torch_dtype=torch.floataa ) pipe_prior.to(__snake_case ) _lowerCAmelCase = KandinskyVaaImgaImgPipeline.from_pretrained( """kandinsky-community/kandinsky-2-2-decoder""" , torch_dtype=torch.floataa ) _lowerCAmelCase = pipeline.to(__snake_case ) pipeline.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = torch.Generator(device="""cpu""" ).manual_seed(0 ) _lowerCAmelCase , _lowerCAmelCase = pipe_prior( __snake_case , generator=__snake_case , num_inference_steps=5 , negative_prompt="""""" , ).to_tuple() _lowerCAmelCase = pipeline( image=__snake_case , image_embeds=__snake_case , negative_image_embeds=__snake_case , generator=__snake_case , num_inference_steps=1_00 , height=7_68 , width=7_68 , strength=0.2 , output_type="""np""" , ) _lowerCAmelCase = output.images[0] assert image.shape == (7_68, 7_68, 3) assert_mean_pixel_difference(__snake_case , __snake_case )
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import io import itertools import json from dataclasses import dataclass from typing import Optional import pyarrow as pa import pyarrow.json as paj import datasets from datasets.table import table_cast from datasets.utils.file_utils import readline _UpperCamelCase = datasets.utils.logging.get_logger(__name__) @dataclass class __lowercase (datasets.BuilderConfig ): _UpperCamelCase = None _UpperCamelCase = "utf-8" _UpperCamelCase = None _UpperCamelCase = None _UpperCamelCase = True # deprecated _UpperCamelCase = None # deprecated _UpperCamelCase = 10 << 20 # 10MB _UpperCamelCase = None class __lowercase (datasets.ArrowBasedBuilder ): _UpperCamelCase = JsonConfig def UpperCamelCase__ ( self ) ->int: '''simple docstring''' if self.config.block_size is not None: logger.warning('''The JSON loader parameter `block_size` is deprecated. Please use `chunksize` instead''' ) __lowerCAmelCase : Dict = self.config.block_size if self.config.use_threads is not True: logger.warning( '''The JSON loader parameter `use_threads` is deprecated and doesn\'t have any effect anymore.''' ) if self.config.newlines_in_values is not None: raise ValueError('''The JSON loader parameter `newlines_in_values` is no longer supported''' ) return datasets.DatasetInfo(features=self.config.features ) def UpperCamelCase__ ( self , A_ ) ->Optional[Any]: '''simple docstring''' if not self.config.data_files: raise ValueError(f"""At least one data file must be specified, but got data_files={self.config.data_files}""" ) __lowerCAmelCase : Optional[int] = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__snake_case , (str, list, tuple) ): __lowerCAmelCase : Tuple = data_files if isinstance(__snake_case , __snake_case ): __lowerCAmelCase : List[str] = [files] __lowerCAmelCase : Any = [dl_manager.iter_files(__snake_case ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={'''files''': files} )] __lowerCAmelCase : Optional[int] = [] for split_name, files in data_files.items(): if isinstance(__snake_case , __snake_case ): __lowerCAmelCase : Tuple = [files] __lowerCAmelCase : Optional[int] = [dl_manager.iter_files(__snake_case ) for file in files] splits.append(datasets.SplitGenerator(name=__snake_case , gen_kwargs={'''files''': files} ) ) return splits def UpperCamelCase__ ( self , A_ ) ->pa.Table: '''simple docstring''' if self.config.features is not None: # adding missing columns for column_name in set(self.config.features ) - set(pa_table.column_names ): __lowerCAmelCase : Tuple = self.config.features.arrow_schema.field(__snake_case ).type __lowerCAmelCase : List[Any] = pa_table.append_column(__snake_case , pa.array([None] * len(__snake_case ) , type=__snake_case ) ) # more expensive cast to support nested structures with keys in a different order # allows str <-> int/float or str to Audio for example __lowerCAmelCase : List[str] = table_cast(__snake_case , self.config.features.arrow_schema ) return pa_table def UpperCamelCase__ ( self , A_ ) ->List[str]: '''simple docstring''' for file_idx, file in enumerate(itertools.chain.from_iterable(__snake_case ) ): # If the file is one json object and if we need to look at the list of items in one specific field if self.config.field is not None: with open(__snake_case , encoding=self.config.encoding , errors=self.config.encoding_errors ) as f: __lowerCAmelCase : Dict = json.load(__snake_case ) # We keep only the field we are interested in __lowerCAmelCase : Tuple = dataset[self.config.field] # We accept two format: a list of dicts or a dict of lists if isinstance(__snake_case , (list, tuple) ): __lowerCAmelCase : Tuple = set().union(*[row.keys() for row in dataset] ) __lowerCAmelCase : Tuple = {col: [row.get(__snake_case ) for row in dataset] for col in keys} else: __lowerCAmelCase : Dict = dataset __lowerCAmelCase : Dict = pa.Table.from_pydict(__snake_case ) yield file_idx, self._cast_table(__snake_case ) # If the file has one json object per line else: with open(__snake_case , '''rb''' ) as f: __lowerCAmelCase : Optional[Any] = 0 # Use block_size equal to the chunk size divided by 32 to leverage multithreading # Set a default minimum value of 16kB if the chunk size is really small __lowerCAmelCase : Tuple = max(self.config.chunksize // 32 , 16 << 10 ) __lowerCAmelCase : Tuple = ( self.config.encoding_errors if self.config.encoding_errors is not None else '''strict''' ) while True: __lowerCAmelCase : Any = f.read(self.config.chunksize ) if not batch: break # Finish current line try: batch += f.readline() except (AttributeError, io.UnsupportedOperation): batch += readline(__snake_case ) # PyArrow only accepts utf-8 encoded bytes if self.config.encoding != "utf-8": __lowerCAmelCase : str = batch.decode(self.config.encoding , errors=__snake_case ).encode('''utf-8''' ) try: while True: try: __lowerCAmelCase : List[str] = paj.read_json( io.BytesIO(__snake_case ) , read_options=paj.ReadOptions(block_size=__snake_case ) ) break except (pa.ArrowInvalid, pa.ArrowNotImplementedError) as e: if ( isinstance(__snake_case , pa.ArrowInvalid ) and "straddling" not in str(__snake_case ) or block_size > len(__snake_case ) ): raise else: # Increase the block size in case it was too small. # The block size will be reset for the next file. logger.debug( f"""Batch of {len(__snake_case )} bytes couldn't be parsed with block_size={block_size}. Retrying with block_size={block_size * 2}.""" ) block_size *= 2 except pa.ArrowInvalid as e: try: with open( __snake_case , encoding=self.config.encoding , errors=self.config.encoding_errors ) as f: __lowerCAmelCase : Any = json.load(__snake_case ) except json.JSONDecodeError: logger.error(f"""Failed to read file '{file}' with error {type(__snake_case )}: {e}""" ) raise e # If possible, parse the file as a list of json objects and exit the loop if isinstance(__snake_case , __snake_case ): # list is the only sequence type supported in JSON try: __lowerCAmelCase : List[Any] = set().union(*[row.keys() for row in dataset] ) __lowerCAmelCase : Dict = {col: [row.get(__snake_case ) for row in dataset] for col in keys} __lowerCAmelCase : str = pa.Table.from_pydict(__snake_case ) except (pa.ArrowInvalid, AttributeError) as e: logger.error(f"""Failed to read file '{file}' with error {type(__snake_case )}: {e}""" ) raise ValueError(f"""Not able to read records in the JSON file at {file}.""" ) from None yield file_idx, self._cast_table(__snake_case ) break else: logger.error(f"""Failed to read file '{file}' with error {type(__snake_case )}: {e}""" ) raise ValueError( f"""Not able to read records in the JSON file at {file}. """ f"""You should probably indicate the field of the JSON file containing your records. """ f"""This JSON file contain the following fields: {str(list(dataset.keys() ) )}. """ f"""Select the correct one and provide it as `field='XXX'` to the dataset loading method. """ ) from None # Uncomment for debugging (will print the Arrow table size and elements) # logger.warning(f"pa_table: {pa_table} num rows: {pa_table.num_rows}") # logger.warning('\n'.join(str(pa_table.slice(i, 1).to_pydict()) for i in range(pa_table.num_rows))) yield (file_idx, batch_idx), self._cast_table(__snake_case ) batch_idx += 1
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'''simple docstring''' import inspect import unittest from transformers import SegformerConfig, is_torch_available, is_vision_available from transformers.models.auto import get_values from transformers.testing_utils import require_torch, slow, torch_device from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( MODEL_MAPPING, SegformerForImageClassification, SegformerForSemanticSegmentation, SegformerModel, ) from transformers.models.segformer.modeling_segformer import SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import SegformerImageProcessor class UpperCAmelCase ( snake_case_ ): def lowercase__ ( self : List[Any] ) -> Union[str, Any]: _lowerCAmelCase = self.config_class(**self.inputs_dict ) self.parent.assertTrue(hasattr(__snake_case , """hidden_sizes""" ) ) self.parent.assertTrue(hasattr(__snake_case , """num_attention_heads""" ) ) self.parent.assertTrue(hasattr(__snake_case , """num_encoder_blocks""" ) ) class UpperCAmelCase : def __init__( self : Optional[int] , __snake_case : str , __snake_case : Dict=13 , __snake_case : str=64 , __snake_case : Dict=3 , __snake_case : Dict=4 , __snake_case : Tuple=[2, 2, 2, 2] , __snake_case : int=[8, 4, 2, 1] , __snake_case : List[str]=[16, 32, 64, 1_28] , __snake_case : Optional[Any]=[1, 4, 8, 16] , __snake_case : Dict=[1, 2, 4, 8] , __snake_case : Optional[Any]=True , __snake_case : List[str]=True , __snake_case : int="gelu" , __snake_case : Optional[Any]=0.1 , __snake_case : Any=0.1 , __snake_case : Tuple=0.02 , __snake_case : Union[str, Any]=3 , __snake_case : Tuple=None , ) -> List[str]: _lowerCAmelCase = parent _lowerCAmelCase = batch_size _lowerCAmelCase = image_size _lowerCAmelCase = num_channels _lowerCAmelCase = num_encoder_blocks _lowerCAmelCase = sr_ratios _lowerCAmelCase = depths _lowerCAmelCase = hidden_sizes _lowerCAmelCase = downsampling_rates _lowerCAmelCase = num_attention_heads _lowerCAmelCase = is_training _lowerCAmelCase = use_labels _lowerCAmelCase = hidden_act _lowerCAmelCase = hidden_dropout_prob _lowerCAmelCase = attention_probs_dropout_prob _lowerCAmelCase = initializer_range _lowerCAmelCase = num_labels _lowerCAmelCase = scope def lowercase__ ( self : int ) -> Union[str, Any]: _lowerCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) _lowerCAmelCase = None if self.use_labels: _lowerCAmelCase = ids_tensor([self.batch_size, self.image_size, self.image_size] , self.num_labels ) _lowerCAmelCase = self.get_config() return config, pixel_values, labels def lowercase__ ( self : List[Any] ) -> List[str]: return SegformerConfig( image_size=self.image_size , num_channels=self.num_channels , num_encoder_blocks=self.num_encoder_blocks , depths=self.depths , hidden_sizes=self.hidden_sizes , num_attention_heads=self.num_attention_heads , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , initializer_range=self.initializer_range , ) def lowercase__ ( self : Tuple , __snake_case : Optional[Any] , __snake_case : Union[str, Any] , __snake_case : Optional[int] ) -> Tuple: _lowerCAmelCase = SegformerModel(config=__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = _lowerCAmelCase = self.image_size // (self.downsampling_rates[-1] * 2) self.parent.assertEqual( result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], expected_height, expected_width) ) def lowercase__ ( self : List[str] , __snake_case : List[Any] , __snake_case : Optional[Any] , __snake_case : Optional[int] ) -> List[str]: _lowerCAmelCase = self.num_labels _lowerCAmelCase = SegformerForSemanticSegmentation(__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = model(__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) _lowerCAmelCase = model(__snake_case , labels=__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) self.parent.assertGreater(result.loss , 0.0 ) def lowercase__ ( self : str , __snake_case : Union[str, Any] , __snake_case : Optional[int] , __snake_case : Dict ) -> List[str]: _lowerCAmelCase = 1 _lowerCAmelCase = SegformerForSemanticSegmentation(config=__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = torch.randint(0 , 1 , (self.batch_size, self.image_size, self.image_size) ).to(__snake_case ) _lowerCAmelCase = model(__snake_case , labels=__snake_case ) self.parent.assertGreater(result.loss , 0.0 ) def lowercase__ ( self : Optional[int] ) -> int: _lowerCAmelCase = self.prepare_config_and_inputs() _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = config_and_inputs _lowerCAmelCase = {"""pixel_values""": pixel_values} return config, inputs_dict @require_torch class UpperCAmelCase ( snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Any = ( ( SegformerModel, SegformerForSemanticSegmentation, SegformerForImageClassification, ) if is_torch_available() else () ) _lowercase: Tuple = ( { '''feature-extraction''': SegformerModel, '''image-classification''': SegformerForImageClassification, '''image-segmentation''': SegformerForSemanticSegmentation, } if is_torch_available() else {} ) _lowercase: Tuple = True _lowercase: Union[str, Any] = False _lowercase: Dict = False _lowercase: Optional[Any] = False def lowercase__ ( self : Tuple ) -> Any: _lowerCAmelCase = SegformerModelTester(self ) _lowerCAmelCase = SegformerConfigTester(self , config_class=__snake_case ) def lowercase__ ( self : Optional[Any] ) -> Dict: self.config_tester.run_common_tests() def lowercase__ ( self : int ) -> Union[str, Any]: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__snake_case ) def lowercase__ ( self : Dict ) -> int: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_binary_image_segmentation(*__snake_case ) def lowercase__ ( self : Dict ) -> Dict: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_segmentation(*__snake_case ) @unittest.skip("""SegFormer does not use inputs_embeds""" ) def lowercase__ ( self : int ) -> Union[str, Any]: pass @unittest.skip("""SegFormer does not have get_input_embeddings method and get_output_embeddings methods""" ) def lowercase__ ( self : Optional[int] ) -> int: pass def lowercase__ ( self : Union[str, Any] ) -> Optional[Any]: _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCAmelCase = model_class(__snake_case ) _lowerCAmelCase = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCAmelCase = [*signature.parameters.keys()] _lowerCAmelCase = ["""pixel_values"""] self.assertListEqual(arg_names[:1] , __snake_case ) def lowercase__ ( self : Tuple ) -> Tuple: _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() _lowerCAmelCase = True for model_class in self.all_model_classes: _lowerCAmelCase = True _lowerCAmelCase = False _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.attentions _lowerCAmelCase = sum(self.model_tester.depths ) self.assertEqual(len(__snake_case ) , __snake_case ) # check that output_attentions also work using config del inputs_dict["output_attentions"] _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) _lowerCAmelCase = (self.model_tester.image_size // 4) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) # verify the last attentions (last block, last layer) _lowerCAmelCase = (self.model_tester.image_size // 32) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (32 * self.model_tester.sr_ratios[-1])) ** 2 self.assertListEqual( list(attentions[-1].shape[-3:] ) , [self.model_tester.num_attention_heads[-1], expected_seq_len, expected_reduced_seq_len] , ) _lowerCAmelCase = len(__snake_case ) # Check attention is always last and order is fine _lowerCAmelCase = True _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) self.assertEqual(out_len + 1 , len(__snake_case ) ) _lowerCAmelCase = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) _lowerCAmelCase = (self.model_tester.image_size // 4) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(self_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) def lowercase__ ( self : int ) -> List[str]: def check_hidden_states_output(__snake_case : str , __snake_case : Tuple , __snake_case : Optional[int] ): _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.hidden_states _lowerCAmelCase = self.model_tester.num_encoder_blocks self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first hidden states (first block) self.assertListEqual( list(hidden_states[0].shape[-3:] ) , [ self.model_tester.hidden_sizes[0], self.model_tester.image_size // 4, self.model_tester.image_size // 4, ] , ) _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCAmelCase = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] _lowerCAmelCase = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) def lowercase__ ( self : Optional[Any] ) -> Any: if not self.model_tester.is_training: return _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() _lowerCAmelCase = True for model_class in self.all_model_classes: if model_class in get_values(__snake_case ): continue _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.train() _lowerCAmelCase = self._prepare_for_class(__snake_case , __snake_case , return_labels=__snake_case ) _lowerCAmelCase = model(**__snake_case ).loss loss.backward() @unittest.skip("""Will be fixed soon by reducing the size of the model used for common tests.""" ) def lowercase__ ( self : Tuple ) -> Dict: pass @slow def lowercase__ ( self : str ) -> Optional[int]: for model_name in SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowerCAmelCase = SegformerModel.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_torch class UpperCAmelCase ( unittest.TestCase ): @slow def lowercase__ ( self : Union[str, Any] ) -> Any: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained("""nvidia/segformer-b0-finetuned-ade-512-512""" ).to( __snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = torch.Size((1, model.config.num_labels, 1_28, 1_28) ) self.assertEqual(outputs.logits.shape , __snake_case ) _lowerCAmelCase = torch.tensor( [ [[-4.63_10, -5.52_32, -6.23_56], [-5.19_21, -6.14_44, -6.59_96], [-5.44_24, -6.27_90, -6.75_74]], [[-12.13_91, -13.31_22, -13.95_54], [-12.87_32, -13.93_52, -14.35_63], [-12.94_38, -13.82_26, -14.25_13]], [[-12.51_34, -13.46_86, -14.49_15], [-12.86_69, -14.43_43, -14.77_58], [-13.25_23, -14.58_19, -15.06_94]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1E-4 ) ) @slow def lowercase__ ( self : Optional[Any] ) -> Any: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained( """nvidia/segformer-b1-finetuned-cityscapes-1024-1024""" ).to(__snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = torch.Size((1, model.config.num_labels, 1_28, 1_28) ) self.assertEqual(outputs.logits.shape , __snake_case ) _lowerCAmelCase = torch.tensor( [ [[-13.57_48, -13.91_11, -12.65_00], [-14.35_00, -15.36_83, -14.23_28], [-14.75_32, -16.04_24, -15.60_87]], [[-17.16_51, -15.87_25, -12.96_53], [-17.25_80, -17.37_18, -14.82_23], [-16.60_58, -16.87_83, -16.74_52]], [[-3.64_56, -3.02_09, -1.42_03], [-3.07_97, -3.19_59, -2.00_00], [-1.87_57, -1.92_17, -1.69_97]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1E-1 ) ) @slow def lowercase__ ( self : Any ) -> str: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained("""nvidia/segformer-b0-finetuned-ade-512-512""" ).to( __snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = outputs.logits.detach().cpu() _lowerCAmelCase = image_processor.post_process_semantic_segmentation(outputs=__snake_case , target_sizes=[(5_00, 3_00)] ) _lowerCAmelCase = torch.Size((5_00, 3_00) ) self.assertEqual(segmentation[0].shape , __snake_case ) _lowerCAmelCase = image_processor.post_process_semantic_segmentation(outputs=__snake_case ) _lowerCAmelCase = torch.Size((1_28, 1_28) ) self.assertEqual(segmentation[0].shape , __snake_case )
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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_sentencepiece_available, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCamelCase_ = {'''configuration_xglm''': ['''XGLM_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''XGLMConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ = ['''XGLMTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ = ['''XGLMTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ = [ '''XGLM_PRETRAINED_MODEL_ARCHIVE_LIST''', '''XGLMForCausalLM''', '''XGLMModel''', '''XGLMPreTrainedModel''', ] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ = [ '''FlaxXGLMForCausalLM''', '''FlaxXGLMModel''', '''FlaxXGLMPreTrainedModel''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ = [ '''TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFXGLMForCausalLM''', '''TFXGLMModel''', '''TFXGLMPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_xglm import XGLM_PRETRAINED_CONFIG_ARCHIVE_MAP, XGLMConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_xglm import XGLMTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_xglm_fast import XGLMTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_xglm import XGLM_PRETRAINED_MODEL_ARCHIVE_LIST, XGLMForCausalLM, XGLMModel, XGLMPreTrainedModel try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_xglm import FlaxXGLMForCausalLM, FlaxXGLMModel, FlaxXGLMPreTrainedModel try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_xglm import ( TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST, TFXGLMForCausalLM, TFXGLMModel, TFXGLMPreTrainedModel, ) else: import sys lowerCamelCase_ = _LazyModule(__name__, globals()['''__file__'''], _import_structure)
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'''simple docstring''' from dataclasses import dataclass, field from typing import TYPE_CHECKING, Any, ClassVar, Dict, List, Optional, Union import pyarrow as pa if TYPE_CHECKING: from .features import FeatureType @dataclass class UpperCAmelCase : _lowercase: List[str] _lowercase: Optional[str] = None # Automatically constructed _lowercase: ClassVar[str] = "dict" _lowercase: ClassVar[Any] = None _lowercase: str = field(default='''Translation''' , init=snake_case_ , repr=snake_case_ ) def __call__( self : Optional[int] ) -> Optional[int]: return pa.struct({lang: pa.string() for lang in sorted(self.languages )} ) def lowercase__ ( self : Union[str, Any] ) -> Union["FeatureType", Dict[str, "FeatureType"]]: from .features import Value return {k: Value("""string""" ) for k in sorted(self.languages )} @dataclass class UpperCAmelCase : _lowercase: Optional[List] = None _lowercase: Optional[int] = None _lowercase: Optional[str] = None # Automatically constructed _lowercase: ClassVar[str] = "dict" _lowercase: ClassVar[Any] = None _lowercase: str = field(default='''TranslationVariableLanguages''' , init=snake_case_ , repr=snake_case_ ) def lowercase__ ( self : Any ) -> Optional[Any]: _lowerCAmelCase = sorted(set(self.languages ) ) if self.languages else None _lowerCAmelCase = len(self.languages ) if self.languages else None def __call__( self : List[str] ) -> Optional[Any]: return pa.struct({"""language""": pa.list_(pa.string() ), """translation""": pa.list_(pa.string() )} ) def lowercase__ ( self : Optional[Any] , __snake_case : Tuple ) -> Any: _lowerCAmelCase = set(self.languages ) if self.languages and set(__snake_case ) - lang_set: raise ValueError( f"Some languages in example ({', '.join(sorted(set(__snake_case ) - lang_set ) )}) are not in valid set ({', '.join(__snake_case )})." ) # Convert dictionary into tuples, splitting out cases where there are # multiple translations for a single language. _lowerCAmelCase = [] for lang, text in translation_dict.items(): if isinstance(__snake_case , __snake_case ): translation_tuples.append((lang, text) ) else: translation_tuples.extend([(lang, el) for el in text] ) # Ensure translations are in ascending order by language code. _lowerCAmelCase , _lowerCAmelCase = zip(*sorted(__snake_case ) ) return {"language": languages, "translation": translations} def lowercase__ ( self : str ) -> Union["FeatureType", Dict[str, "FeatureType"]]: from .features import Sequence, Value return { "language": Sequence(Value("""string""" ) ), "translation": Sequence(Value("""string""" ) ), }
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from random import randint from tempfile import TemporaryFile import numpy as np def __a ( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) -> List[str]: '''simple docstring''' __UpperCAmelCase = 0 if start < end: __UpperCAmelCase = randint(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) __UpperCAmelCase = a[end] __UpperCAmelCase = a[pivot] __UpperCAmelCase = temp __UpperCAmelCase , __UpperCAmelCase = _in_place_partition(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) count += _in_place_quick_sort(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , p - 1 ) count += _in_place_quick_sort(SCREAMING_SNAKE_CASE , p + 1 , SCREAMING_SNAKE_CASE ) return count def __a ( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) -> List[str]: '''simple docstring''' __UpperCAmelCase = 0 __UpperCAmelCase = randint(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) __UpperCAmelCase = a[end] __UpperCAmelCase = a[pivot] __UpperCAmelCase = temp __UpperCAmelCase = start - 1 for index in range(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ): count += 1 if a[index] < a[end]: # check if current val is less than pivot value __UpperCAmelCase = new_pivot_index + 1 __UpperCAmelCase = a[new_pivot_index] __UpperCAmelCase = a[index] __UpperCAmelCase = temp __UpperCAmelCase = a[new_pivot_index + 1] __UpperCAmelCase = a[end] __UpperCAmelCase = temp return new_pivot_index + 1, count A_ : str = TemporaryFile() A_ : Any = 100 # 1000 elements are to be sorted A_ : Tuple = 0, 1 # mean and standard deviation A_ : Union[str, Any] = np.random.normal(mu, sigma, p) np.save(outfile, X) print('The array is') print(X) outfile.seek(0) # using the same array A_ : Optional[Any] = np.load(outfile) A_ : Any = len(M) - 1 A_ : str = _in_place_quick_sort(M, 0, r) print( 'No of Comparisons for 100 elements selected from a standard normal distribution' 'is :' ) print(z)
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'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import normalizers from tokenizers.pre_tokenizers import BertPreTokenizer, PreTokenizer from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_roformer import RoFormerTokenizer from .tokenization_utils import JiebaPreTokenizer A__ : List[str] =logging.get_logger(__name__) A__ : Any ={'''vocab_file''': '''vocab.txt''', '''tokenizer_file''': '''tokenizer.json'''} A__ : Any ={ '''vocab_file''': { '''junnyu/roformer_chinese_small''': '''https://huggingface.co/junnyu/roformer_chinese_small/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_base''': '''https://huggingface.co/junnyu/roformer_chinese_base/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_char_small''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_small/resolve/main/vocab.txt''' ), '''junnyu/roformer_chinese_char_base''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_base/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_discriminator''': ( '''https://huggingface.co/junnyu/roformer_small_discriminator/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_generator''': ( '''https://huggingface.co/junnyu/roformer_small_generator/resolve/main/vocab.txt''' ), } } A__ : Optional[int] ={ '''junnyu/roformer_chinese_small''': 15_36, '''junnyu/roformer_chinese_base''': 15_36, '''junnyu/roformer_chinese_char_small''': 5_12, '''junnyu/roformer_chinese_char_base''': 5_12, '''junnyu/roformer_small_discriminator''': 1_28, '''junnyu/roformer_small_generator''': 1_28, } A__ : Optional[int] ={ '''junnyu/roformer_chinese_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_base''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_base''': {'''do_lower_case''': True}, '''junnyu/roformer_small_discriminator''': {'''do_lower_case''': True}, '''junnyu/roformer_small_generator''': {'''do_lower_case''': True}, } class UpperCAmelCase ( snake_case_ ): _lowercase: Optional[Any] = VOCAB_FILES_NAMES _lowercase: Tuple = PRETRAINED_VOCAB_FILES_MAP _lowercase: Dict = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowercase: str = PRETRAINED_INIT_CONFIGURATION _lowercase: List[Any] = RoFormerTokenizer def __init__( self : Dict , __snake_case : str=None , __snake_case : Tuple=None , __snake_case : List[Any]=True , __snake_case : str="[UNK]" , __snake_case : Tuple="[SEP]" , __snake_case : str="[PAD]" , __snake_case : str="[CLS]" , __snake_case : Any="[MASK]" , __snake_case : Dict=True , __snake_case : str=None , **__snake_case : Optional[Any] , ) -> Union[str, Any]: super().__init__( __snake_case , tokenizer_file=__snake_case , do_lower_case=__snake_case , unk_token=__snake_case , sep_token=__snake_case , pad_token=__snake_case , cls_token=__snake_case , mask_token=__snake_case , tokenize_chinese_chars=__snake_case , strip_accents=__snake_case , **__snake_case , ) _lowerCAmelCase = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( pre_tok_state.get("""lowercase""" , __snake_case ) != do_lower_case or pre_tok_state.get("""strip_accents""" , __snake_case ) != strip_accents ): _lowerCAmelCase = getattr(__snake_case , pre_tok_state.pop("""type""" ) ) _lowerCAmelCase = do_lower_case _lowerCAmelCase = strip_accents _lowerCAmelCase = pre_tok_class(**__snake_case ) _lowerCAmelCase = do_lower_case def __getstate__( self : int ) -> Optional[int]: _lowerCAmelCase = self.__dict__.copy() _lowerCAmelCase = BertPreTokenizer() return state def __setstate__( self : Tuple , __snake_case : Tuple ) -> List[str]: _lowerCAmelCase = d _lowerCAmelCase = self.__dict__["""_tokenizer"""].get_vocab() _lowerCAmelCase = PreTokenizer.custom(JiebaPreTokenizer(__snake_case ) ) def lowercase__ ( self : Union[str, Any] , __snake_case : Optional[int] , __snake_case : Optional[int]=None ) -> Optional[Any]: _lowerCAmelCase = [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 lowercase__ ( self : List[str] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: _lowerCAmelCase = [self.sep_token_id] _lowerCAmelCase = [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 lowercase__ ( self : int , __snake_case : str , __snake_case : Optional[str] = None ) -> Tuple[str]: _lowerCAmelCase = self._tokenizer.model.save(__snake_case , name=__snake_case ) return tuple(__snake_case ) def lowercase__ ( self : Dict , __snake_case : Dict , __snake_case : int=None , __snake_case : List[Any]=None , __snake_case : List[Any]=False , **__snake_case : Dict , ) -> str: _lowerCAmelCase = BertPreTokenizer() return super().save_pretrained(__snake_case , __snake_case , __snake_case , __snake_case , **__snake_case )
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import math def __SCREAMING_SNAKE_CASE ( UpperCamelCase__ ) -> Dict: '''simple docstring''' assert isinstance(UpperCamelCase__ , UpperCamelCase__ ) and ( number >= 0 ), "'number' must been an int and positive" if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or not number % 2: # Negatives, 0, 1 and all even numbers are not primes return False UpperCAmelCase = range(3 , int(math.sqrt(UpperCamelCase__ ) + 1 ) , 2 ) return not any(not number % i for i in odd_numbers ) def __SCREAMING_SNAKE_CASE ( UpperCamelCase__ , UpperCamelCase__=1 , **UpperCamelCase__ ) -> Tuple: '''simple docstring''' UpperCAmelCase = factor * value UpperCAmelCase = value while not is_prime(UpperCamelCase__ ): value += 1 if not ("desc" in kwargs and kwargs["desc"] is True) else -1 if value == first_value_val: return next_prime(value + 1 , **UpperCamelCase__ ) return value
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'''simple docstring''' # This model implementation is heavily inspired by https://github.com/haofanwang/ControlNet-for-Diffusers/ import gc import random import tempfile import unittest import numpy as np import torch from PIL import Image from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer from diffusers import ( AutoencoderKL, ControlNetModel, DDIMScheduler, StableDiffusionControlNetImgaImgPipeline, UNetaDConditionModel, ) from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel from diffusers.utils import floats_tensor, load_image, load_numpy, randn_tensor, slow, torch_device from diffusers.utils.import_utils import is_xformers_available from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..pipeline_params import ( IMAGE_TO_IMAGE_IMAGE_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_PARAMS, ) from ..test_pipelines_common import ( PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin, ) enable_full_determinism() class UpperCAmelCase ( snake_case_ , snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Optional[int] = StableDiffusionControlNetImgaImgPipeline _lowercase: Tuple = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''} _lowercase: str = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS _lowercase: Tuple = IMAGE_TO_IMAGE_IMAGE_PARAMS.union({'''control_image'''} ) _lowercase: Union[str, Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS def lowercase__ ( self : List[str] ) -> List[str]: torch.manual_seed(0 ) _lowerCAmelCase = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , ) torch.manual_seed(0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) torch.manual_seed(0 ) _lowerCAmelCase = DDIMScheduler( beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule="""scaled_linear""" , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) _lowerCAmelCase = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , ) torch.manual_seed(0 ) _lowerCAmelCase = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) _lowerCAmelCase = CLIPTextModel(__snake_case ) _lowerCAmelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) _lowerCAmelCase = { """unet""": unet, """controlnet""": controlnet, """scheduler""": scheduler, """vae""": vae, """text_encoder""": text_encoder, """tokenizer""": tokenizer, """safety_checker""": None, """feature_extractor""": None, } return components def lowercase__ ( self : Any , __snake_case : str , __snake_case : Any=0 ) -> str: if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = 2 _lowerCAmelCase = randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ) _lowerCAmelCase = floats_tensor(control_image.shape , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((64, 64) ) _lowerCAmelCase = { """prompt""": """A painting of a squirrel eating a burger""", """generator""": generator, """num_inference_steps""": 2, """guidance_scale""": 6.0, """output_type""": """numpy""", """image""": image, """control_image""": control_image, } return inputs def lowercase__ ( self : Optional[int] ) -> List[Any]: return self._test_attention_slicing_forward_pass(expected_max_diff=2E-3 ) @unittest.skipIf( torch_device != """cuda""" or not is_xformers_available() , reason="""XFormers attention is only available with CUDA and `xformers` installed""" , ) def lowercase__ ( self : Tuple ) -> Optional[int]: self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2E-3 ) def lowercase__ ( self : Tuple ) -> Optional[int]: self._test_inference_batch_single_identical(expected_max_diff=2E-3 ) class UpperCAmelCase ( snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Any = StableDiffusionControlNetImgaImgPipeline _lowercase: Dict = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''} _lowercase: List[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS _lowercase: Any = frozenset([] ) # TO_DO: add image_params once refactored VaeImageProcessor.preprocess def lowercase__ ( self : Optional[Any] ) -> Union[str, Any]: torch.manual_seed(0 ) _lowerCAmelCase = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , ) torch.manual_seed(0 ) def init_weights(__snake_case : Optional[Any] ): if isinstance(__snake_case , torch.nn.Convad ): torch.nn.init.normal(m.weight ) m.bias.data.fill_(1.0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) controlneta.controlnet_down_blocks.apply(__snake_case ) torch.manual_seed(0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) controlneta.controlnet_down_blocks.apply(__snake_case ) torch.manual_seed(0 ) _lowerCAmelCase = DDIMScheduler( beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule="""scaled_linear""" , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) _lowerCAmelCase = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , ) torch.manual_seed(0 ) _lowerCAmelCase = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) _lowerCAmelCase = CLIPTextModel(__snake_case ) _lowerCAmelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) _lowerCAmelCase = MultiControlNetModel([controlneta, controlneta] ) _lowerCAmelCase = { """unet""": unet, """controlnet""": controlnet, """scheduler""": scheduler, """vae""": vae, """text_encoder""": text_encoder, """tokenizer""": tokenizer, """safety_checker""": None, """feature_extractor""": None, } return components def lowercase__ ( self : Tuple , __snake_case : int , __snake_case : List[str]=0 ) -> Union[str, Any]: if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = 2 _lowerCAmelCase = [ randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ), randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ), ] _lowerCAmelCase = floats_tensor(control_image[0].shape , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((64, 64) ) _lowerCAmelCase = { """prompt""": """A painting of a squirrel eating a burger""", """generator""": generator, """num_inference_steps""": 2, """guidance_scale""": 6.0, """output_type""": """numpy""", """image""": image, """control_image""": control_image, } return inputs def lowercase__ ( self : List[str] ) -> Dict: _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) pipe.to(__snake_case ) _lowerCAmelCase = 10.0 _lowerCAmelCase = 4 _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=0.1 , control_guidance_end=0.2 )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=[0.1, 0.3] , control_guidance_end=[0.2, 0.7] )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=0.4 , control_guidance_end=[0.5, 0.8] )[0] # make sure that all outputs are different assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 def lowercase__ ( self : int ) -> str: return self._test_attention_slicing_forward_pass(expected_max_diff=2E-3 ) @unittest.skipIf( torch_device != """cuda""" or not is_xformers_available() , reason="""XFormers attention is only available with CUDA and `xformers` installed""" , ) def lowercase__ ( self : Optional[Any] ) -> Dict: self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2E-3 ) def lowercase__ ( self : int ) -> str: self._test_inference_batch_single_identical(expected_max_diff=2E-3 ) def lowercase__ ( self : Union[str, Any] ) -> Optional[Any]: _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) with tempfile.TemporaryDirectory() as tmpdir: try: # save_pretrained is not implemented for Multi-ControlNet pipe.save_pretrained(__snake_case ) except NotImplementedError: pass @slow @require_torch_gpu class UpperCAmelCase ( unittest.TestCase ): def lowercase__ ( self : Union[str, Any] ) -> int: super().tearDown() gc.collect() torch.cuda.empty_cache() def lowercase__ ( self : List[str] ) -> Any: _lowerCAmelCase = ControlNetModel.from_pretrained("""lllyasviel/sd-controlnet-canny""" ) _lowerCAmelCase = StableDiffusionControlNetImgaImgPipeline.from_pretrained( """runwayml/stable-diffusion-v1-5""" , safety_checker=__snake_case , controlnet=__snake_case ) pipe.enable_model_cpu_offload() pipe.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = torch.Generator(device="""cpu""" ).manual_seed(0 ) _lowerCAmelCase = """evil space-punk bird""" _lowerCAmelCase = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png""" ).resize((5_12, 5_12) ) _lowerCAmelCase = load_image( """https://huggingface.co/lllyasviel/sd-controlnet-canny/resolve/main/images/bird.png""" ).resize((5_12, 5_12) ) _lowerCAmelCase = pipe( __snake_case , __snake_case , control_image=__snake_case , generator=__snake_case , output_type="""np""" , num_inference_steps=50 , strength=0.6 , ) _lowerCAmelCase = output.images[0] assert image.shape == (5_12, 5_12, 3) _lowerCAmelCase = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/img2img.npy""" ) assert np.abs(expected_image - image ).max() < 9E-2
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'''simple docstring''' import os import string import sys _UpperCamelCase = 1 << 8 _UpperCamelCase = { '''tab''': ord('\t'), '''newline''': ord('\r'), '''esc''': 27, '''up''': 65 + ARROW_KEY_FLAG, '''down''': 66 + ARROW_KEY_FLAG, '''right''': 67 + ARROW_KEY_FLAG, '''left''': 68 + ARROW_KEY_FLAG, '''mod_int''': 91, '''undefined''': sys.maxsize, '''interrupt''': 3, '''insert''': 50, '''delete''': 51, '''pg_up''': 53, '''pg_down''': 54, } _UpperCamelCase = KEYMAP['''up'''] _UpperCamelCase = KEYMAP['''left'''] if sys.platform == "win32": _UpperCamelCase = [] _UpperCamelCase = { b'''\xe0H''': KEYMAP['''up'''] - ARROW_KEY_FLAG, b'''\x00H''': KEYMAP['''up'''] - ARROW_KEY_FLAG, b'''\xe0P''': KEYMAP['''down'''] - ARROW_KEY_FLAG, b'''\x00P''': KEYMAP['''down'''] - ARROW_KEY_FLAG, b'''\xe0M''': KEYMAP['''right'''] - ARROW_KEY_FLAG, b'''\x00M''': KEYMAP['''right'''] - ARROW_KEY_FLAG, b'''\xe0K''': KEYMAP['''left'''] - ARROW_KEY_FLAG, b'''\x00K''': KEYMAP['''left'''] - ARROW_KEY_FLAG, } for i in range(10): _UpperCamelCase = ord(str(i)) def a_ ( ) -> int: if os.name == "nt": import msvcrt __lowerCamelCase : List[Any] = 'mbcs' # Flush the keyboard buffer while msvcrt.kbhit(): msvcrt.getch() if len(_lowerCAmelCase ) == 0: # Read the keystroke __lowerCamelCase : str = msvcrt.getch() # If it is a prefix char, get second part if ch in (b"\x00", b"\xe0"): __lowerCamelCase : Dict = ch + msvcrt.getch() # Translate actual Win chars to bullet char types try: __lowerCamelCase : List[Any] = chr(WIN_KEYMAP[cha] ) WIN_CH_BUFFER.append(chr(KEYMAP['mod_int'] ) ) WIN_CH_BUFFER.append(_lowerCAmelCase ) if ord(_lowerCAmelCase ) in ( KEYMAP["insert"] - 1 << 9, KEYMAP["delete"] - 1 << 9, KEYMAP["pg_up"] - 1 << 9, KEYMAP["pg_down"] - 1 << 9, ): WIN_CH_BUFFER.append(chr(126 ) ) __lowerCamelCase : str = chr(KEYMAP['esc'] ) except KeyError: __lowerCamelCase : List[str] = cha[1] else: __lowerCamelCase : Any = ch.decode(_lowerCAmelCase ) else: __lowerCamelCase : Optional[int] = WIN_CH_BUFFER.pop(0 ) elif os.name == "posix": import termios import tty __lowerCamelCase : Optional[Any] = sys.stdin.fileno() __lowerCamelCase : int = termios.tcgetattr(_lowerCAmelCase ) try: tty.setraw(_lowerCAmelCase ) __lowerCamelCase : Any = sys.stdin.read(1 ) finally: termios.tcsetattr(_lowerCAmelCase ,termios.TCSADRAIN ,_lowerCAmelCase ) return ch def a_ ( ) -> Optional[int]: __lowerCamelCase : List[str] = get_raw_chars() if ord(_lowerCAmelCase ) in [KEYMAP["interrupt"], KEYMAP["newline"]]: return char elif ord(_lowerCAmelCase ) == KEYMAP["esc"]: __lowerCamelCase : List[str] = get_raw_chars() if ord(_lowerCAmelCase ) == KEYMAP["mod_int"]: __lowerCamelCase : Dict = get_raw_chars() if ord(_lowerCAmelCase ) >= KEYMAP["arrow_begin"] - ARROW_KEY_FLAG and ord(_lowerCAmelCase ) <= KEYMAP["arrow_end"] - ARROW_KEY_FLAG: return chr(ord(_lowerCAmelCase ) + ARROW_KEY_FLAG ) else: return KEYMAP["undefined"] else: return get_raw_chars() else: if char in string.printable: return char else: return KEYMAP["undefined"]
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'''simple docstring''' import argparse import json from pathlib import Path import requests import torch from huggingface_hub import hf_hub_download from PIL import Image from transformers import ( SwiftFormerConfig, SwiftFormerForImageClassification, ViTImageProcessor, ) from transformers.utils import logging logging.set_verbosity_info() A__ : List[Any] =logging.get_logger(__name__) A__ : Any =torch.device('''cpu''') def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = """http://images.cocodataset.org/val2017/000000039769.jpg""" _lowerCAmelCase = Image.open(requests.get(lowerCAmelCase , stream=lowerCAmelCase ).raw ) return im def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if swiftformer_name == "swiftformer_xs": return torch.tensor([-2.17_03e00, 2.11_07e00, -2.08_11e00, 8.86_85e-01, 2.43_60e-01] ) elif swiftformer_name == "swiftformer_s": return torch.tensor([3.96_36e-01, 2.34_78e-01, -1.69_63e00, -1.73_81e00, -8.63_37e-01] ) elif swiftformer_name == "swiftformer_l1": return torch.tensor([-4.27_68e-01, -4.74_29e-01, -1.08_97e00, -1.02_48e00, 3.55_23e-02] ) elif swiftformer_name == "swiftformer_l3": return torch.tensor([-2.53_30e-01, 2.42_11e-01, -6.01_85e-01, -8.27_89e-01, -6.04_46e-02] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = dct.pop(lowerCAmelCase ) _lowerCAmelCase = val def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [] for k in state_dict.keys(): _lowerCAmelCase = k if ".pwconv" in k: _lowerCAmelCase = k_new.replace(""".pwconv""" , """.point_wise_conv""" ) if ".dwconv" in k: _lowerCAmelCase = k_new.replace(""".dwconv""" , """.depth_wise_conv""" ) if ".Proj." in k: _lowerCAmelCase = k_new.replace(""".Proj.""" , """.proj.""" ) if "patch_embed" in k_new: _lowerCAmelCase = k_new.replace("""patch_embed""" , """swiftformer.patch_embed.patch_embedding""" ) if "network" in k_new: _lowerCAmelCase = k_new.split(""".""" ) if ls[2].isdigit(): _lowerCAmelCase = """swiftformer.encoder.network.""" + ls[1] + """.blocks.""" + ls[2] + """.""" + """.""".join(ls[3:] ) else: _lowerCAmelCase = k_new.replace("""network""" , """swiftformer.encoder.network""" ) rename_keys.append((k, k_new) ) return rename_keys @torch.no_grad() def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = SwiftFormerConfig() # dataset (ImageNet-21k only or also fine-tuned on ImageNet 2012), patch_size and image_size _lowerCAmelCase = 10_00 _lowerCAmelCase = """huggingface/label-files""" _lowerCAmelCase = """imagenet-1k-id2label.json""" _lowerCAmelCase = json.load(open(hf_hub_download(lowerCAmelCase , lowerCAmelCase , repo_type="""dataset""" ) , """r""" ) ) _lowerCAmelCase = {int(lowerCAmelCase ): v for k, v in idalabel.items()} _lowerCAmelCase = idalabel _lowerCAmelCase = {v: k for k, v in idalabel.items()} # size of the architecture if swiftformer_name == "swiftformer_xs": _lowerCAmelCase = [3, 3, 6, 4] _lowerCAmelCase = [48, 56, 1_12, 2_20] elif swiftformer_name == "swiftformer_s": _lowerCAmelCase = [3, 3, 9, 6] _lowerCAmelCase = [48, 64, 1_68, 2_24] elif swiftformer_name == "swiftformer_l1": _lowerCAmelCase = [4, 3, 10, 5] _lowerCAmelCase = [48, 96, 1_92, 3_84] elif swiftformer_name == "swiftformer_l3": _lowerCAmelCase = [4, 4, 12, 6] _lowerCAmelCase = [64, 1_28, 3_20, 5_12] # load state_dict of original model, remove and rename some keys if original_ckpt: if original_ckpt.startswith("""https""" ): _lowerCAmelCase = torch.hub.load_state_dict_from_url(lowerCAmelCase , map_location="""cpu""" , check_hash=lowerCAmelCase ) else: _lowerCAmelCase = torch.load(lowerCAmelCase , map_location="""cpu""" ) _lowerCAmelCase = checkpoint _lowerCAmelCase = create_rename_keys(lowerCAmelCase ) for rename_key_src, rename_key_dest in rename_keys: rename_key(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ) # load HuggingFace model _lowerCAmelCase = SwiftFormerForImageClassification(lowerCAmelCase ).eval() hf_model.load_state_dict(lowerCAmelCase ) # prepare test inputs _lowerCAmelCase = prepare_img() _lowerCAmelCase = ViTImageProcessor.from_pretrained("""preprocessor_config""" ) _lowerCAmelCase = processor(images=lowerCAmelCase , return_tensors="""pt""" ) # compare outputs from both models _lowerCAmelCase = get_expected_output(lowerCAmelCase ) _lowerCAmelCase = hf_model(inputs["""pixel_values"""] ).logits assert hf_logits.shape == torch.Size([1, 10_00] ) assert torch.allclose(hf_logits[0, 0:5] , lowerCAmelCase , atol=1e-3 ) Path(lowerCAmelCase ).mkdir(exist_ok=lowerCAmelCase ) print(f"Saving model {swiftformer_name} to {pytorch_dump_folder_path}" ) hf_model.save_pretrained(lowerCAmelCase ) if __name__ == "__main__": A__ : str =argparse.ArgumentParser() # Required parameters parser.add_argument( '''--swiftformer_name''', default='''swiftformer_xs''', choices=['''swiftformer_xs''', '''swiftformer_s''', '''swiftformer_l1''', '''swiftformer_l3'''], type=str, help='''Name of the SwiftFormer model you\'d like to convert.''', ) parser.add_argument( '''--pytorch_dump_folder_path''', default='''./converted_outputs/''', type=str, help='''Path to the output PyTorch model directory.''', ) parser.add_argument('''--original_ckpt''', default=None, type=str, help='''Path to the original model checkpoint.''') A__ : Tuple =parser.parse_args() convert_swiftformer_checkpoint(args.swiftformer_name, args.pytorch_dump_folder_path, args.original_ckpt)
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'''simple docstring''' import os import tempfile import unittest from transformers import DistilBertConfig, is_torch_available from transformers.testing_utils import require_torch, require_torch_gpu, 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 ( DISTILBERT_PRETRAINED_MODEL_ARCHIVE_LIST, DistilBertForMaskedLM, DistilBertForMultipleChoice, DistilBertForQuestionAnswering, DistilBertForSequenceClassification, DistilBertForTokenClassification, DistilBertModel, ) class lowercase ( snake_case_ ): """simple docstring""" def __init__( self , UpperCamelCase_ , UpperCamelCase_=13 , UpperCamelCase_=7 , UpperCamelCase_=True , UpperCamelCase_=True , UpperCamelCase_=False , UpperCamelCase_=True , UpperCamelCase_=99 , UpperCamelCase_=32 , UpperCamelCase_=5 , UpperCamelCase_=4 , UpperCamelCase_=37 , UpperCamelCase_="gelu" , UpperCamelCase_=0.1 , UpperCamelCase_=0.1 , UpperCamelCase_=512 , UpperCamelCase_=16 , UpperCamelCase_=2 , UpperCamelCase_=0.02 , UpperCamelCase_=3 , UpperCamelCase_=4 , UpperCamelCase_=None , ): '''simple docstring''' UpperCamelCase__ :Dict = parent UpperCamelCase__ :Union[str, Any] = batch_size UpperCamelCase__ :str = seq_length UpperCamelCase__ :int = is_training UpperCamelCase__ :List[str] = use_input_mask UpperCamelCase__ :Dict = use_token_type_ids UpperCamelCase__ :int = use_labels UpperCamelCase__ :List[Any] = vocab_size UpperCamelCase__ :Tuple = hidden_size UpperCamelCase__ :List[str] = num_hidden_layers UpperCamelCase__ :Union[str, Any] = num_attention_heads UpperCamelCase__ :List[Any] = intermediate_size UpperCamelCase__ :Dict = hidden_act UpperCamelCase__ :Tuple = hidden_dropout_prob UpperCamelCase__ :Tuple = attention_probs_dropout_prob UpperCamelCase__ :Union[str, Any] = max_position_embeddings UpperCamelCase__ :List[Any] = type_vocab_size UpperCamelCase__ :int = type_sequence_label_size UpperCamelCase__ :List[Any] = initializer_range UpperCamelCase__ :Union[str, Any] = num_labels UpperCamelCase__ :Optional[Any] = num_choices UpperCamelCase__ :Optional[int] = scope def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ :Any = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) UpperCamelCase__ :str = None if self.use_input_mask: UpperCamelCase__ :Optional[Any] = random_attention_mask([self.batch_size, self.seq_length] ) UpperCamelCase__ :Tuple = None UpperCamelCase__ :Tuple = None UpperCamelCase__ :Union[str, Any] = None if self.use_labels: UpperCamelCase__ :str = ids_tensor([self.batch_size] , self.type_sequence_label_size ) UpperCamelCase__ :Optional[int] = ids_tensor([self.batch_size, self.seq_length] , self.num_labels ) UpperCamelCase__ :Optional[int] = ids_tensor([self.batch_size] , self.num_choices ) UpperCamelCase__ :List[Any] = self.get_config() return config, input_ids, input_mask, sequence_labels, token_labels, choice_labels def lowerCAmelCase__ ( self ): '''simple docstring''' return DistilBertConfig( vocab_size=self.vocab_size , dim=self.hidden_size , n_layers=self.num_hidden_layers , n_heads=self.num_attention_heads , hidden_dim=self.intermediate_size , hidden_act=self.hidden_act , dropout=self.hidden_dropout_prob , attention_dropout=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , initializer_range=self.initializer_range , ) def lowerCAmelCase__ ( self , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ ): '''simple docstring''' UpperCamelCase__ :Optional[Any] = DistilBertModel(config=__snake_case ) model.to(__snake_case ) model.eval() UpperCamelCase__ :List[Any] = model(__snake_case , __snake_case ) UpperCamelCase__ :Any = model(__snake_case ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) def lowerCAmelCase__ ( self , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ ): '''simple docstring''' UpperCamelCase__ :Union[str, Any] = DistilBertForMaskedLM(config=__snake_case ) model.to(__snake_case ) model.eval() UpperCamelCase__ :Any = model(__snake_case , attention_mask=__snake_case , labels=__snake_case ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size) ) def lowerCAmelCase__ ( self , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ ): '''simple docstring''' UpperCamelCase__ :Tuple = DistilBertForQuestionAnswering(config=__snake_case ) model.to(__snake_case ) model.eval() UpperCamelCase__ :str = model( __snake_case , attention_mask=__snake_case , start_positions=__snake_case , end_positions=__snake_case ) 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 lowerCAmelCase__ ( self , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ ): '''simple docstring''' UpperCamelCase__ :Dict = self.num_labels UpperCamelCase__ :Dict = DistilBertForSequenceClassification(__snake_case ) model.to(__snake_case ) model.eval() UpperCamelCase__ :Any = model(__snake_case , attention_mask=__snake_case , labels=__snake_case ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) ) def lowerCAmelCase__ ( self , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ ): '''simple docstring''' UpperCamelCase__ :str = self.num_labels UpperCamelCase__ :List[str] = DistilBertForTokenClassification(config=__snake_case ) model.to(__snake_case ) model.eval() UpperCamelCase__ :str = model(__snake_case , attention_mask=__snake_case , labels=__snake_case ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels) ) def lowerCAmelCase__ ( self , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ ): '''simple docstring''' UpperCamelCase__ :Optional[Any] = self.num_choices UpperCamelCase__ :Optional[Any] = DistilBertForMultipleChoice(config=__snake_case ) model.to(__snake_case ) model.eval() UpperCamelCase__ :Dict = input_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() UpperCamelCase__ :Any = input_mask.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() UpperCamelCase__ :str = model( __snake_case , attention_mask=__snake_case , labels=__snake_case , ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_choices) ) def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ :str = self.prepare_config_and_inputs() ((UpperCamelCase__) , (UpperCamelCase__) , (UpperCamelCase__) , (UpperCamelCase__) , (UpperCamelCase__) , (UpperCamelCase__)) :Any = config_and_inputs UpperCamelCase__ :Optional[Any] = {'''input_ids''': input_ids, '''attention_mask''': input_mask} return config, inputs_dict @require_torch class lowercase ( snake_case_ , snake_case_ , unittest.TestCase ): """simple docstring""" _a = ( ( DistilBertModel, DistilBertForMaskedLM, DistilBertForMultipleChoice, DistilBertForQuestionAnswering, DistilBertForSequenceClassification, DistilBertForTokenClassification, ) if is_torch_available() else None ) _a = ( { '''feature-extraction''': DistilBertModel, '''fill-mask''': DistilBertForMaskedLM, '''question-answering''': DistilBertForQuestionAnswering, '''text-classification''': DistilBertForSequenceClassification, '''token-classification''': DistilBertForTokenClassification, '''zero-shot''': DistilBertForSequenceClassification, } if is_torch_available() else {} ) _a = True _a = True _a = True _a = True def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ :Dict = DistilBertModelTester(self ) UpperCamelCase__ :Optional[Any] = ConfigTester(self , config_class=__snake_case , dim=37 ) def lowerCAmelCase__ ( self ): '''simple docstring''' self.config_tester.run_common_tests() def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ :List[str] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_distilbert_model(*__snake_case ) def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ :Optional[Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_distilbert_for_masked_lm(*__snake_case ) def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ :Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_distilbert_for_question_answering(*__snake_case ) def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ :Optional[int] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_distilbert_for_sequence_classification(*__snake_case ) def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ :Optional[Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_distilbert_for_token_classification(*__snake_case ) def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ :str = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_distilbert_for_multiple_choice(*__snake_case ) @slow def lowerCAmelCase__ ( self ): '''simple docstring''' for model_name in DISTILBERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: UpperCamelCase__ :List[str] = DistilBertModel.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) @slow @require_torch_gpu def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ , UpperCamelCase__ :str = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: # BertForMultipleChoice behaves incorrectly in JIT environments. if model_class == DistilBertForMultipleChoice: return UpperCamelCase__ :List[Any] = True UpperCamelCase__ :str = model_class(config=__snake_case ) UpperCamelCase__ :Dict = self._prepare_for_class(__snake_case , __snake_case ) UpperCamelCase__ :Optional[Any] = torch.jit.trace( __snake_case , (inputs_dict['''input_ids'''].to('''cpu''' ), inputs_dict['''attention_mask'''].to('''cpu''' )) ) with tempfile.TemporaryDirectory() as tmp: torch.jit.save(__snake_case , os.path.join(__snake_case , '''traced_model.pt''' ) ) UpperCamelCase__ :Union[str, Any] = torch.jit.load(os.path.join(__snake_case , '''traced_model.pt''' ) , map_location=__snake_case ) loaded(inputs_dict['''input_ids'''].to(__snake_case ) , inputs_dict['''attention_mask'''].to(__snake_case ) ) @require_torch class lowercase ( unittest.TestCase ): """simple docstring""" @slow def lowerCAmelCase__ ( self ): '''simple docstring''' UpperCamelCase__ :Tuple = DistilBertModel.from_pretrained('''distilbert-base-uncased''' ) UpperCamelCase__ :int = torch.tensor([[0, 345, 232, 328, 740, 140, 1695, 69, 6078, 1588, 2]] ) UpperCamelCase__ :Union[str, Any] = torch.tensor([[0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]] ) with torch.no_grad(): UpperCamelCase__ :List[Any] = model(__snake_case , attention_mask=__snake_case )[0] UpperCamelCase__ :str = torch.Size((1, 11, 768) ) self.assertEqual(output.shape , __snake_case ) UpperCamelCase__ :Union[str, Any] = torch.tensor( [[[-0.1639, 0.3299, 0.1648], [-0.1746, 0.3289, 0.1710], [-0.1884, 0.3357, 0.1810]]] ) self.assertTrue(torch.allclose(output[:, 1:4, 1:4] , __snake_case , atol=1e-4 ) )
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'''simple docstring''' import os import pytest from datasets import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, ) A__ : List[Any] =pytest.mark.integration @pytest.mark.parametrize("""path""" , ["""paws""", """csv"""] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" inspect_dataset(lowerCAmelCase , lowerCAmelCase ) _lowerCAmelCase = path + """.py""" assert script_name in os.listdir(lowerCAmelCase ) assert "__pycache__" not in os.listdir(lowerCAmelCase ) @pytest.mark.filterwarnings("""ignore:inspect_metric is deprecated:FutureWarning""" ) @pytest.mark.filterwarnings("""ignore:metric_module_factory is deprecated:FutureWarning""" ) @pytest.mark.parametrize("""path""" , ["""accuracy"""] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" inspect_metric(lowerCAmelCase , lowerCAmelCase ) _lowerCAmelCase = path + """.py""" assert script_name in os.listdir(lowerCAmelCase ) assert "__pycache__" not in os.listdir(lowerCAmelCase ) @pytest.mark.parametrize( """path, config_name, expected_splits""" , [ ("""squad""", """plain_text""", ["""train""", """validation"""]), ("""dalle-mini/wit""", """dalle-mini--wit""", ["""train"""]), ("""paws""", """labeled_final""", ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_config_info(lowerCAmelCase , config_name=lowerCAmelCase ) assert info.config_name == config_name assert list(info.splits.keys() ) == expected_splits @pytest.mark.parametrize( """path, config_name, expected_exception""" , [ ("""paws""", None, ValueError), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" with pytest.raises(lowerCAmelCase ): get_dataset_config_info(lowerCAmelCase , config_name=lowerCAmelCase ) @pytest.mark.parametrize( """path, expected""" , [ ("""squad""", """plain_text"""), ("""acronym_identification""", """default"""), ("""lhoestq/squad""", """plain_text"""), ("""lhoestq/test""", """default"""), ("""lhoestq/demo1""", """lhoestq--demo1"""), ("""dalle-mini/wit""", """dalle-mini--wit"""), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_config_names(lowerCAmelCase ) assert expected in config_names @pytest.mark.parametrize( """path, expected_configs, expected_splits_in_first_config""" , [ ("""squad""", ["""plain_text"""], ["""train""", """validation"""]), ("""dalle-mini/wit""", ["""dalle-mini--wit"""], ["""train"""]), ("""paws""", ["""labeled_final""", """labeled_swap""", """unlabeled_final"""], ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_infos(lowerCAmelCase ) assert list(infos.keys() ) == expected_configs _lowerCAmelCase = expected_configs[0] assert expected_config in infos _lowerCAmelCase = infos[expected_config] assert info.config_name == expected_config assert list(info.splits.keys() ) == expected_splits_in_first_config @pytest.mark.parametrize( """path, expected_config, expected_splits""" , [ ("""squad""", """plain_text""", ["""train""", """validation"""]), ("""dalle-mini/wit""", """dalle-mini--wit""", ["""train"""]), ("""paws""", """labeled_final""", ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_infos(lowerCAmelCase ) assert expected_config in infos _lowerCAmelCase = infos[expected_config] assert info.config_name == expected_config assert list(info.splits.keys() ) == expected_splits @pytest.mark.parametrize( """path, config_name, expected_exception""" , [ ("""paws""", None, ValueError), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" with pytest.raises(lowerCAmelCase ): get_dataset_split_names(lowerCAmelCase , config_name=lowerCAmelCase )
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0
"""simple docstring""" import argparse import json import os import fairseq import torch from fairseq.data import Dictionary from transformers import ( WavaVecaConformerConfig, WavaVecaConformerForCTC, WavaVecaConformerForPreTraining, WavaVecaCTCTokenizer, WavaVecaFeatureExtractor, WavaVecaProcessor, logging, ) logging.set_verbosity_info() lowerCamelCase_ : Tuple = logging.get_logger(__name__) lowerCamelCase_ : List[Any] = { '''post_extract_proj''': '''feature_projection.projection''', '''encoder.pos_conv.0''': '''encoder.pos_conv_embed.conv''', '''self_attn.linear_k''': '''encoder.layers.*.self_attn.linear_k''', '''self_attn.linear_v''': '''encoder.layers.*.self_attn.linear_v''', '''self_attn.linear_q''': '''encoder.layers.*.self_attn.linear_q''', '''self_attn.pos_bias_u''': '''encoder.layers.*.self_attn.pos_bias_u''', '''self_attn.pos_bias_v''': '''encoder.layers.*.self_attn.pos_bias_v''', '''self_attn.linear_out''': '''encoder.layers.*.self_attn.linear_out''', '''self_attn.linear_pos''': '''encoder.layers.*.self_attn.linear_pos''', '''self_attn.rotary_emb''': '''encoder.embed_positions''', '''self_attn_layer_norm''': '''encoder.layers.*.self_attn_layer_norm''', '''conv_module.pointwise_conv1''': '''encoder.layers.*.conv_module.pointwise_conv1''', '''conv_module.pointwise_conv2''': '''encoder.layers.*.conv_module.pointwise_conv2''', '''conv_module.depthwise_conv''': '''encoder.layers.*.conv_module.depthwise_conv''', '''conv_module.batch_norm''': '''encoder.layers.*.conv_module.batch_norm''', '''conv_module.layer_norm''': '''encoder.layers.*.conv_module.layer_norm''', '''ffn1.w_1''': '''encoder.layers.*.ffn1.intermediate_dense''', '''ffn1.w_2''': '''encoder.layers.*.ffn1.output_dense''', '''ffn1.layer_norm''': '''encoder.layers.*.ffn1_layer_norm''', '''ffn2.w_1''': '''encoder.layers.*.ffn2.intermediate_dense''', '''ffn2.w_2''': '''encoder.layers.*.ffn2.output_dense''', '''ffn2.layer_norm''': '''encoder.layers.*.ffn2_layer_norm''', '''final_layer_norm''': '''encoder.layers.*.final_layer_norm''', '''encoder.layer_norm''': '''encoder.layer_norm''', '''w2v_model.layer_norm''': '''feature_projection.layer_norm''', '''quantizer.weight_proj''': '''quantizer.weight_proj''', '''quantizer.vars''': '''quantizer.codevectors''', '''project_q''': '''project_q''', '''final_proj''': '''project_hid''', '''w2v_encoder.proj''': '''lm_head''', '''mask_emb''': '''masked_spec_embed''', } lowerCamelCase_ : List[Any] = [ '''lm_head''', '''quantizer.weight_proj''', '''quantizer.codevectors''', '''project_q''', '''project_hid''', ] def _A ( lowercase , lowercase , lowercase , lowercase , lowercase ): """simple docstring""" for attribute in key.split('''.''' ): a =getattr(lowercase , lowercase ) if weight_type is not None: a =getattr(lowercase , lowercase ).shape else: a =hf_pointer.shape if hf_shape != value.shape: raise ValueError( f'''Shape of hf {key + "." + weight_type if weight_type is not None else ""} is {hf_shape}, but should be''' f''' {value.shape} for {full_name}''' ) if weight_type == "weight": a =value elif weight_type == "weight_g": a =value elif weight_type == "weight_v": a =value elif weight_type == "bias": a =value elif weight_type == "running_mean": a =value elif weight_type == "running_var": a =value elif weight_type == "num_batches_tracked": a =value elif weight_type == "inv_freq": a =value else: a =value logger.info(f'''{key + "." + weight_type if weight_type is not None else ""} was initialized from {full_name}.''' ) def _A ( lowercase , lowercase , lowercase ): """simple docstring""" a =[] a =fairseq_model.state_dict() a =hf_model.wavaveca_conformer.feature_extractor for name, value in fairseq_dict.items(): a =False if "conv_layers" in name: load_conv_layer( lowercase , lowercase , lowercase , lowercase , hf_model.config.feat_extract_norm == '''group''' , ) a =True else: for key, mapped_key in MAPPING.items(): a ='''wav2vec2_conformer.''' + mapped_key if mapped_key not in TOP_LEVEL_KEYS else mapped_key if key in name or key.split('''w2v_model.''' )[-1] == name.split('''.''' )[0]: a =True if "*" in mapped_key: a =name.split(lowercase )[0].split('''.''' )[-2] a =mapped_key.replace('''*''' , lowercase ) if "pos_bias_u" in name: a =None elif "pos_bias_v" in name: a =None elif "weight_g" in name: a ='''weight_g''' elif "weight_v" in name: a ='''weight_v''' elif "bias" in name: a ='''bias''' elif "weight" in name: # TODO: don't match quantizer.weight_proj a ='''weight''' elif "running_mean" in name: a ='''running_mean''' elif "inv_freq" in name: a ='''inv_freq''' elif "running_var" in name: a ='''running_var''' elif "num_batches_tracked" in name: a ='''num_batches_tracked''' else: a =None set_recursively(lowercase , lowercase , lowercase , lowercase , lowercase ) continue if not is_used: unused_weights.append(lowercase ) logger.warning(f'''Unused weights: {unused_weights}''' ) def _A ( lowercase , lowercase , lowercase , lowercase , lowercase ): """simple docstring""" a =full_name.split('''conv_layers.''' )[-1] a =name.split('''.''' ) a =int(items[0] ) a =int(items[1] ) if type_id == 0: if "bias" in name: if value.shape != feature_extractor.conv_layers[layer_id].conv.bias.data.shape: raise ValueError( f'''{full_name} has size {value.shape}, but''' f''' {feature_extractor.conv_layers[layer_id].conv.bias.data.shape} was found.''' ) a =value logger.info(f'''Feat extract conv layer {layer_id} was initialized from {full_name}.''' ) elif "weight" in name: if value.shape != feature_extractor.conv_layers[layer_id].conv.weight.data.shape: raise ValueError( f'''{full_name} has size {value.shape}, but''' f''' {feature_extractor.conv_layers[layer_id].conv.weight.data.shape} was found.''' ) a =value logger.info(f'''Feat extract conv layer {layer_id} was initialized from {full_name}.''' ) elif (type_id == 2 and not use_group_norm) or (type_id == 2 and layer_id == 0 and use_group_norm): if "bias" in name: if value.shape != feature_extractor.conv_layers[layer_id].layer_norm.bias.data.shape: raise ValueError( f'''{full_name} has size {value.shape}, but''' f''' {feature_extractor.conv_layers[layer_id].layer_norm.bias.data.shape} was found.''' ) a =value logger.info(f'''Feat extract layer norm weight of layer {layer_id} was initialized from {full_name}.''' ) elif "weight" in name: if value.shape != feature_extractor.conv_layers[layer_id].layer_norm.weight.data.shape: raise ValueError( f'''{full_name} has size {value.shape}, but''' f''' {feature_extractor.conv_layers[layer_id].layer_norm.weight.data.shape} was found.''' ) a =value logger.info(f'''Feat extract layer norm weight of layer {layer_id} was initialized from {full_name}.''' ) else: unused_weights.append(lowercase ) @torch.no_grad() def _A ( lowercase , lowercase , lowercase=None , lowercase=None , lowercase=True ): """simple docstring""" if config_path is not None: a =WavaVecaConformerConfig.from_pretrained(lowercase , hidden_act='''swish''' ) else: a =WavaVecaConformerConfig() if "rope" in checkpoint_path: a ='''rotary''' if is_finetuned: if dict_path: a =Dictionary.load(lowercase ) # important change bos & pad token id since CTC symbol is <pad> and # not <s> as in fairseq a =target_dict.pad_index a =target_dict.bos_index a =target_dict.eos_index a =len(target_dict.symbols ) a =os.path.join(lowercase , '''vocab.json''' ) if not os.path.isdir(lowercase ): logger.error('''--pytorch_dump_folder_path ({}) should be a directory'''.format(lowercase ) ) return os.makedirs(lowercase , exist_ok=lowercase ) a =target_dict.indices # fairseq has the <pad> and <s> switched a =0 a =1 with open(lowercase , '''w''' , encoding='''utf-8''' ) as vocab_handle: json.dump(lowercase , lowercase ) a =WavaVecaCTCTokenizer( lowercase , unk_token=target_dict.unk_word , pad_token=target_dict.pad_word , bos_token=target_dict.bos_word , eos_token=target_dict.eos_word , word_delimiter_token='''|''' , do_lower_case=lowercase , ) a =True if config.feat_extract_norm == '''layer''' else False a =WavaVecaFeatureExtractor( feature_size=1 , sampling_rate=1_60_00 , padding_value=0 , do_normalize=lowercase , return_attention_mask=lowercase , ) a =WavaVecaProcessor(feature_extractor=lowercase , tokenizer=lowercase ) processor.save_pretrained(lowercase ) a =WavaVecaConformerForCTC(lowercase ) else: a =WavaVecaConformerForPreTraining(lowercase ) if is_finetuned: a , a , a =fairseq.checkpoint_utils.load_model_ensemble_and_task( [checkpoint_path] , arg_overrides={'''data''': '''/'''.join(dict_path.split('''/''' )[:-1] )} ) else: a =argparse.Namespace(task='''audio_pretraining''' ) a =fairseq.tasks.setup_task(lowercase ) a , a , a =fairseq.checkpoint_utils.load_model_ensemble_and_task([checkpoint_path] , task=lowercase ) a =model[0].eval() recursively_load_weights(lowercase , lowercase , not is_finetuned ) hf_wavavec.save_pretrained(lowercase ) if __name__ == "__main__": lowerCamelCase_ : str = argparse.ArgumentParser() parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""") parser.add_argument("""--checkpoint_path""", default=None, type=str, help="""Path to fairseq checkpoint""") parser.add_argument("""--dict_path""", default=None, type=str, help="""Path to dict of fine-tuned model""") parser.add_argument("""--config_path""", default=None, type=str, help="""Path to hf config.json of model to convert""") parser.add_argument( """--not_finetuned""", action="""store_true""", help="""Whether the model to convert is a fine-tuned model or not""" ) lowerCamelCase_ : List[Any] = parser.parse_args() convert_wavaveca_conformer_checkpoint( args.checkpoint_path, args.pytorch_dump_folder_path, args.config_path, args.dict_path, not args.not_finetuned )
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'''simple docstring''' from torch import nn def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if act_fn in ["swish", "silu"]: return nn.SiLU() elif act_fn == "mish": return nn.Mish() elif act_fn == "gelu": return nn.GELU() else: raise ValueError(f"Unsupported activation function: {act_fn}" )
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"""simple docstring""" from __future__ import annotations import copy import tempfile import unittest from transformers import CONFIG_MAPPING, AutoConfig, BertConfig, GPTaConfig, TaConfig, TapasConfig, is_tf_available from transformers.testing_utils import ( DUMMY_UNKNOWN_IDENTIFIER, SMALL_MODEL_IDENTIFIER, RequestCounter, require_tensorflow_probability, require_tf, slow, ) from ..bert.test_modeling_bert import BertModelTester if is_tf_available(): from transformers import ( TFAutoModel, TFAutoModelForCausalLM, TFAutoModelForMaskedLM, TFAutoModelForPreTraining, TFAutoModelForQuestionAnswering, TFAutoModelForSeqaSeqLM, TFAutoModelForSequenceClassification, TFAutoModelForTableQuestionAnswering, TFAutoModelForTokenClassification, TFAutoModelWithLMHead, TFBertForMaskedLM, TFBertForPreTraining, TFBertForQuestionAnswering, TFBertForSequenceClassification, TFBertModel, TFFunnelBaseModel, TFFunnelModel, TFGPTaLMHeadModel, TFRobertaForMaskedLM, TFTaForConditionalGeneration, TFTapasForQuestionAnswering, ) from transformers.models.auto.modeling_tf_auto import ( TF_MODEL_FOR_CAUSAL_LM_MAPPING, TF_MODEL_FOR_MASKED_LM_MAPPING, TF_MODEL_FOR_PRETRAINING_MAPPING, TF_MODEL_FOR_QUESTION_ANSWERING_MAPPING, TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING, TF_MODEL_FOR_TOKEN_CLASSIFICATION_MAPPING, TF_MODEL_MAPPING, ) 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 from transformers.models.tapas.modeling_tf_tapas import TF_TAPAS_PRETRAINED_MODEL_ARCHIVE_LIST class A_ ( snake_case_ ): """simple docstring""" __UpperCamelCase = '''new-model''' if is_tf_available(): class A_ ( snake_case_ ): """simple docstring""" __UpperCamelCase = NewModelConfig @require_tf class A_ ( unittest.TestCase ): """simple docstring""" @slow def UpperCAmelCase__ ( self :Dict ) -> str: UpperCAmelCase = 'bert-base-cased' UpperCAmelCase = AutoConfig.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) UpperCAmelCase = TFAutoModel.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) @slow def UpperCAmelCase__ ( self :Optional[int] ) -> Tuple: UpperCAmelCase = 'bert-base-cased' UpperCAmelCase = AutoConfig.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) UpperCAmelCase = TFAutoModelForPreTraining.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) @slow def UpperCAmelCase__ ( self :int ) -> Optional[Any]: for model_name in TF_GPT2_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: UpperCAmelCase = AutoConfig.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) UpperCAmelCase = TFAutoModelForCausalLM.from_pretrained(__snake_case ) UpperCAmelCase , UpperCAmelCase = TFAutoModelForCausalLM.from_pretrained(__snake_case , output_loading_info=__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) @slow def UpperCAmelCase__ ( self :List[Any] ) -> Dict: for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: UpperCAmelCase = AutoConfig.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) UpperCAmelCase = TFAutoModelWithLMHead.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) @slow def UpperCAmelCase__ ( self :Optional[Any] ) -> int: for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: UpperCAmelCase = AutoConfig.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) UpperCAmelCase = TFAutoModelForMaskedLM.from_pretrained(__snake_case ) UpperCAmelCase , UpperCAmelCase = TFAutoModelForMaskedLM.from_pretrained(__snake_case , output_loading_info=__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) @slow def UpperCAmelCase__ ( self :Optional[Any] ) -> Any: for model_name in TF_T5_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: UpperCAmelCase = AutoConfig.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) UpperCAmelCase = TFAutoModelForSeqaSeqLM.from_pretrained(__snake_case ) UpperCAmelCase , UpperCAmelCase = TFAutoModelForSeqaSeqLM.from_pretrained(__snake_case , output_loading_info=__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) @slow def UpperCAmelCase__ ( self :Dict ) -> Dict: # for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: for model_name in ["bert-base-uncased"]: UpperCAmelCase = AutoConfig.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) UpperCAmelCase = TFAutoModelForSequenceClassification.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) @slow def UpperCAmelCase__ ( self :List[Any] ) -> Optional[Any]: # for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: for model_name in ["bert-base-uncased"]: UpperCAmelCase = AutoConfig.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) UpperCAmelCase = TFAutoModelForQuestionAnswering.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) @slow @require_tensorflow_probability def UpperCAmelCase__ ( self :Union[str, Any] ) -> str: for model_name in TF_TAPAS_PRETRAINED_MODEL_ARCHIVE_LIST[5:6]: UpperCAmelCase = AutoConfig.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) UpperCAmelCase = TFAutoModelForTableQuestionAnswering.from_pretrained(__snake_case ) UpperCAmelCase , UpperCAmelCase = TFAutoModelForTableQuestionAnswering.from_pretrained( __snake_case , output_loading_info=__snake_case ) self.assertIsNotNone(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) def UpperCAmelCase__ ( self :str ) -> int: UpperCAmelCase = TFAutoModelWithLMHead.from_pretrained(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) self.assertEqual(model.num_parameters() , 1_44_10 ) self.assertEqual(model.num_parameters(only_trainable=__snake_case ) , 1_44_10 ) def UpperCAmelCase__ ( self :List[Any] ) -> List[str]: UpperCAmelCase = TFAutoModelWithLMHead.from_pretrained(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) self.assertEqual(model.num_parameters() , 1_44_10 ) self.assertEqual(model.num_parameters(only_trainable=__snake_case ) , 1_44_10 ) def UpperCAmelCase__ ( self :Optional[Any] ) -> List[Any]: # For the auto model mapping, FunnelConfig has two models: FunnelModel and FunnelBaseModel UpperCAmelCase = TFAutoModel.from_pretrained('sgugger/funnel-random-tiny' ) self.assertIsInstance(__snake_case , __snake_case ) UpperCAmelCase = copy.deepcopy(model.config ) UpperCAmelCase = ['FunnelBaseModel'] UpperCAmelCase = TFAutoModel.from_config(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) with tempfile.TemporaryDirectory() as tmp_dir: model.save_pretrained(__snake_case ) UpperCAmelCase = TFAutoModel.from_pretrained(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) def UpperCAmelCase__ ( self :List[str] ) -> Dict: try: AutoConfig.register('new-model' , __snake_case ) UpperCAmelCase = [ TFAutoModel, TFAutoModelForCausalLM, TFAutoModelForMaskedLM, TFAutoModelForPreTraining, TFAutoModelForQuestionAnswering, TFAutoModelForSequenceClassification, TFAutoModelForTokenClassification, ] for auto_class in auto_classes: with self.subTest(auto_class.__name__ ): # Wrong config class will raise an error with self.assertRaises(__snake_case ): auto_class.register(__snake_case , __snake_case ) auto_class.register(__snake_case , __snake_case ) # Trying to register something existing in the Transformers library will raise an error with self.assertRaises(__snake_case ): auto_class.register(__snake_case , __snake_case ) # Now that the config is registered, it can be used as any other config with the auto-API UpperCAmelCase = BertModelTester(self ).get_config() UpperCAmelCase = NewModelConfig(**tiny_config.to_dict() ) UpperCAmelCase = auto_class.from_config(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) with tempfile.TemporaryDirectory() as tmp_dir: model.save_pretrained(__snake_case ) UpperCAmelCase = auto_class.from_pretrained(__snake_case ) self.assertIsInstance(__snake_case , __snake_case ) finally: if "new-model" in CONFIG_MAPPING._extra_content: del CONFIG_MAPPING._extra_content["new-model"] for mapping in ( TF_MODEL_MAPPING, TF_MODEL_FOR_PRETRAINING_MAPPING, TF_MODEL_FOR_QUESTION_ANSWERING_MAPPING, TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING, TF_MODEL_FOR_TOKEN_CLASSIFICATION_MAPPING, TF_MODEL_FOR_CAUSAL_LM_MAPPING, TF_MODEL_FOR_MASKED_LM_MAPPING, ): if NewModelConfig in mapping._extra_content: del mapping._extra_content[NewModelConfig] def UpperCAmelCase__ ( self :Tuple ) -> Optional[int]: with self.assertRaisesRegex( __snake_case , 'bert-base is not a local folder and is not a valid model identifier' ): UpperCAmelCase = TFAutoModel.from_pretrained('bert-base' ) def UpperCAmelCase__ ( self :int ) -> Union[str, Any]: with self.assertRaisesRegex( __snake_case , R'aaaaaa is not a valid git identifier \(branch name, tag name or commit id\)' ): UpperCAmelCase = TFAutoModel.from_pretrained(__snake_case , revision='aaaaaa' ) def UpperCAmelCase__ ( self :Tuple ) -> str: with self.assertRaisesRegex( __snake_case , 'hf-internal-testing/config-no-model does not appear to have a file named pytorch_model.bin' , ): UpperCAmelCase = TFAutoModel.from_pretrained('hf-internal-testing/config-no-model' ) def UpperCAmelCase__ ( self :Optional[Any] ) -> str: with self.assertRaisesRegex(__snake_case , 'Use `from_pt=True` to load this model' ): UpperCAmelCase = TFAutoModel.from_pretrained('hf-internal-testing/tiny-bert-pt-only' ) def UpperCAmelCase__ ( self :Optional[int] ) -> str: # Make sure we have cached the model. UpperCAmelCase = TFAutoModel.from_pretrained('hf-internal-testing/tiny-random-bert' ) with RequestCounter() as counter: UpperCAmelCase = TFAutoModel.from_pretrained('hf-internal-testing/tiny-random-bert' ) self.assertEqual(counter.get_request_count , 0 ) self.assertEqual(counter.head_request_count , 1 ) self.assertEqual(counter.other_request_count , 0 ) # With a sharded checkpoint UpperCAmelCase = TFAutoModel.from_pretrained('ArthurZ/tiny-random-bert-sharded' ) with RequestCounter() as counter: UpperCAmelCase = TFAutoModel.from_pretrained('ArthurZ/tiny-random-bert-sharded' ) self.assertEqual(counter.get_request_count , 0 ) self.assertEqual(counter.head_request_count , 1 ) self.assertEqual(counter.other_request_count , 0 )
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'''simple docstring''' # Lint as: python3 # pylint: enable=line-too-long # pylint: disable=g-import-not-at-top,g-bad-import-order,wrong-import-position A__ : Dict ='''2.13.1''' import platform import pyarrow from packaging import version if version.parse(platform.python_version()) < version.parse('''3.7'''): raise ImportWarning( '''To use `datasets`, Python>=3.7 is required, and the current version of Python doesn\'t match this condition.''' ) if version.parse(pyarrow.__version__).major < 8: raise ImportWarning( '''To use `datasets`, the module `pyarrow>=8.0.0` is required, and the current version of `pyarrow` doesn\'t match this condition.\n''' '''If you are running this in a Google Colab, you should probably just restart the runtime to use the right version of `pyarrow`.''' ) del platform del pyarrow del version from .arrow_dataset import Dataset from .arrow_reader import ReadInstruction from .builder import ArrowBasedBuilder, BeamBasedBuilder, BuilderConfig, DatasetBuilder, GeneratorBasedBuilder from .combine import concatenate_datasets, interleave_datasets from .dataset_dict import DatasetDict, IterableDatasetDict from .download import * from .features import * from .fingerprint import disable_caching, enable_caching, is_caching_enabled, set_caching_enabled from .info import DatasetInfo, MetricInfo from .inspect import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, list_datasets, list_metrics, ) from .iterable_dataset import IterableDataset from .load import load_dataset, load_dataset_builder, load_from_disk, load_metric from .metric import Metric from .splits import ( NamedSplit, NamedSplitAll, Split, SplitBase, SplitDict, SplitGenerator, SplitInfo, SubSplitInfo, percent, ) from .tasks import * from .utils import * from .utils import logging # deprecated modules from datasets import arrow_dataset as _arrow_dataset # isort:skip from datasets import utils as _utils # isort:skip from datasets.utils import download_manager as _deprecated_download_manager # isort:skip A__ : Tuple =concatenate_datasets A__ : Dict =DownloadConfig A__ : int =DownloadManager A__ : Union[str, Any] =DownloadMode A__ : Tuple =DownloadConfig A__ : Optional[Any] =DownloadMode A__ : str =DownloadManager del _arrow_dataset, _utils, _deprecated_download_manager
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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 from ...utils.backbone_utils import BackboneConfigMixin, get_aligned_output_features_output_indices __SCREAMING_SNAKE_CASE =logging.get_logger(__name__) __SCREAMING_SNAKE_CASE ={ '''microsoft/resnet-50''': '''https://huggingface.co/microsoft/resnet-50/blob/main/config.json''', } class UpperCamelCase ( snake_case_ , snake_case_ ): lowercase = '''resnet''' lowercase = ['''basic''', '''bottleneck'''] def __init__( self ,__UpperCamelCase=3 ,__UpperCamelCase=64 ,__UpperCamelCase=[256, 512, 1024, 2048] ,__UpperCamelCase=[3, 4, 6, 3] ,__UpperCamelCase="bottleneck" ,__UpperCamelCase="relu" ,__UpperCamelCase=False ,__UpperCamelCase=None ,__UpperCamelCase=None ,**__UpperCamelCase ,) -> int: '''simple docstring''' super().__init__(**__snake_case ) if layer_type not in self.layer_types: raise ValueError(f'''layer_type={layer_type} is not one of {",".join(self.layer_types )}''' ) lowercase_ : Optional[int] = num_channels lowercase_ : Dict = embedding_size lowercase_ : List[Any] = hidden_sizes lowercase_ : Union[str, Any] = depths lowercase_ : Optional[int] = layer_type lowercase_ : Tuple = hidden_act lowercase_ : Union[str, Any] = downsample_in_first_stage lowercase_ : Any = ['stem'] + [f'''stage{idx}''' for idx in range(1 ,len(__snake_case ) + 1 )] lowercase_ , lowercase_ : List[str] = get_aligned_output_features_output_indices( out_features=__snake_case ,out_indices=__snake_case ,stage_names=self.stage_names ) class UpperCamelCase ( snake_case_ ): lowercase = version.parse('1.11' ) @property def _UpperCAmelCase ( self ) -> Mapping[str, Mapping[int, str]]: '''simple docstring''' return OrderedDict( [ ('pixel_values', {0: 'batch', 1: 'num_channels', 2: 'height', 3: 'width'}), ] ) @property def _UpperCAmelCase ( self ) -> float: '''simple docstring''' return 1e-3
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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tokenizers_available, is_torch_available A__ : Tuple ={ '''configuration_mvp''': ['''MVP_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''MvpConfig''', '''MvpOnnxConfig'''], '''tokenization_mvp''': ['''MvpTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : int =['''MvpTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : Any =[ '''MVP_PRETRAINED_MODEL_ARCHIVE_LIST''', '''MvpForCausalLM''', '''MvpForConditionalGeneration''', '''MvpForQuestionAnswering''', '''MvpForSequenceClassification''', '''MvpModel''', '''MvpPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_mvp import MVP_PRETRAINED_CONFIG_ARCHIVE_MAP, MvpConfig, MvpOnnxConfig from .tokenization_mvp import MvpTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_mvp_fast import MvpTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mvp import ( MVP_PRETRAINED_MODEL_ARCHIVE_LIST, MvpForCausalLM, MvpForConditionalGeneration, MvpForQuestionAnswering, MvpForSequenceClassification, MvpModel, MvpPreTrainedModel, ) else: import sys A__ : Any =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
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import argparse import json from tqdm import tqdm def __lowercase ( ) -> List[Any]: '''simple docstring''' SCREAMING_SNAKE_CASE = argparse.ArgumentParser() # Required parameters parser.add_argument( """--src_path""" , type=_SCREAMING_SNAKE_CASE , default="""biencoder-nq-dev.json""" , help="""Path to raw DPR training data""" , ) parser.add_argument( """--evaluation_set""" , type=_SCREAMING_SNAKE_CASE , help="""where to store parsed evaluation_set file""" , ) parser.add_argument( """--gold_data_path""" , type=_SCREAMING_SNAKE_CASE , help="""where to store parsed gold_data_path file""" , ) SCREAMING_SNAKE_CASE = parser.parse_args() with open(args.src_path , """r""" ) as src_file, open(args.evaluation_set , """w""" ) as eval_file, open( args.gold_data_path , """w""" ) as gold_file: SCREAMING_SNAKE_CASE = json.load(_SCREAMING_SNAKE_CASE ) for dpr_record in tqdm(_SCREAMING_SNAKE_CASE ): SCREAMING_SNAKE_CASE = dpr_record["""question"""] SCREAMING_SNAKE_CASE = [context["""title"""] for context in dpr_record["""positive_ctxs"""]] eval_file.write(question + """\n""" ) gold_file.write("""\t""".join(_SCREAMING_SNAKE_CASE ) + """\n""" ) if __name__ == "__main__": main()
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'''simple docstring''' def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [0 for i in range(r + 1 )] # nc0 = 1 _lowerCAmelCase = 1 for i in range(1 , n + 1 ): # to compute current row from previous row. _lowerCAmelCase = min(lowerCAmelCase , lowerCAmelCase ) while j > 0: c[j] += c[j - 1] j -= 1 return c[r] print(binomial_coefficient(n=10, r=5))
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"""simple docstring""" import warnings from .generation import TFGenerationMixin class lowerCamelCase ( snake_case_ ): '''simple docstring''' warnings.warn( 'Importing `TFGenerationMixin` from `src/transformers/generation_tf_utils.py` is deprecated and will ' 'be removed in Transformers v5. Import as `from transformers import TFGenerationMixin` instead.' , snake_case_ , )
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'''simple docstring''' import itertools from dataclasses import dataclass from typing import Optional import pandas as pd import pyarrow as pa import datasets from datasets.table import table_cast @dataclass class UpperCAmelCase ( datasets.BuilderConfig ): _lowercase: Optional[datasets.Features] = None class UpperCAmelCase ( datasets.ArrowBasedBuilder ): _lowercase: Tuple = PandasConfig def lowercase__ ( self : Optional[Any] ) -> str: return datasets.DatasetInfo(features=self.config.features ) def lowercase__ ( self : List[str] , __snake_case : Dict ) -> int: if not self.config.data_files: raise ValueError(f"At least one data file must be specified, but got data_files={self.config.data_files}" ) _lowerCAmelCase = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__snake_case , (str, list, tuple) ): _lowerCAmelCase = data_files if isinstance(__snake_case , __snake_case ): _lowerCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive _lowerCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"""files""": files} )] _lowerCAmelCase = [] for split_name, files in data_files.items(): if isinstance(__snake_case , __snake_case ): _lowerCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive _lowerCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] splits.append(datasets.SplitGenerator(name=__snake_case , gen_kwargs={"""files""": files} ) ) return splits def lowercase__ ( self : List[Any] , __snake_case : pa.Table ) -> pa.Table: if self.config.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example _lowerCAmelCase = table_cast(__snake_case , self.config.features.arrow_schema ) return pa_table def lowercase__ ( self : Dict , __snake_case : Optional[Any] ) -> Any: for i, file in enumerate(itertools.chain.from_iterable(__snake_case ) ): with open(__snake_case , """rb""" ) as f: _lowerCAmelCase = pa.Table.from_pandas(pd.read_pickle(__snake_case ) ) yield i, self._cast_table(__snake_case )
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import inspect import unittest from transformers import SegformerConfig, is_torch_available, is_vision_available from transformers.models.auto import get_values from transformers.testing_utils import require_torch, slow, torch_device from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( MODEL_MAPPING, SegformerForImageClassification, SegformerForSemanticSegmentation, SegformerModel, ) from transformers.models.segformer.modeling_segformer import SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import SegformerImageProcessor class __lowercase (snake_case_ ): def UpperCamelCase__ ( self ) ->Union[str, Any]: '''simple docstring''' __lowerCAmelCase : Optional[Any] = self.config_class(**self.inputs_dict ) self.parent.assertTrue(hasattr(__snake_case , '''hidden_sizes''' ) ) self.parent.assertTrue(hasattr(__snake_case , '''num_attention_heads''' ) ) self.parent.assertTrue(hasattr(__snake_case , '''num_encoder_blocks''' ) ) class __lowercase : def __init__( self , A_ , A_=13 , A_=64 , A_=3 , A_=4 , A_=[2, 2, 2, 2] , A_=[8, 4, 2, 1] , A_=[16, 32, 64, 128] , A_=[1, 4, 8, 16] , A_=[1, 2, 4, 8] , A_=True , A_=True , A_="gelu" , A_=0.1 , A_=0.1 , A_=0.02 , A_=3 , A_=None , ) ->List[str]: '''simple docstring''' __lowerCAmelCase : Tuple = parent __lowerCAmelCase : List[str] = batch_size __lowerCAmelCase : Union[str, Any] = image_size __lowerCAmelCase : Dict = num_channels __lowerCAmelCase : List[str] = num_encoder_blocks __lowerCAmelCase : Optional[int] = sr_ratios __lowerCAmelCase : Tuple = depths __lowerCAmelCase : List[Any] = hidden_sizes __lowerCAmelCase : Any = downsampling_rates __lowerCAmelCase : List[str] = num_attention_heads __lowerCAmelCase : Any = is_training __lowerCAmelCase : Optional[Any] = use_labels __lowerCAmelCase : Any = hidden_act __lowerCAmelCase : int = hidden_dropout_prob __lowerCAmelCase : Union[str, Any] = attention_probs_dropout_prob __lowerCAmelCase : Dict = initializer_range __lowerCAmelCase : Union[str, Any] = num_labels __lowerCAmelCase : Optional[int] = scope def UpperCamelCase__ ( self ) ->Union[str, Any]: '''simple docstring''' __lowerCAmelCase : Dict = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) __lowerCAmelCase : Any = None if self.use_labels: __lowerCAmelCase : Tuple = ids_tensor([self.batch_size, self.image_size, self.image_size] , self.num_labels ) __lowerCAmelCase : List[str] = self.get_config() return config, pixel_values, labels def UpperCamelCase__ ( self ) ->List[str]: '''simple docstring''' return SegformerConfig( image_size=self.image_size , num_channels=self.num_channels , num_encoder_blocks=self.num_encoder_blocks , depths=self.depths , hidden_sizes=self.hidden_sizes , num_attention_heads=self.num_attention_heads , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , initializer_range=self.initializer_range , ) def UpperCamelCase__ ( self , A_ , A_ , A_ ) ->Tuple: '''simple docstring''' __lowerCAmelCase : Any = SegformerModel(config=__snake_case ) model.to(__snake_case ) model.eval() __lowerCAmelCase : Any = model(__snake_case ) __lowerCAmelCase : Tuple = self.image_size // (self.downsampling_rates[-1] * 2) self.parent.assertEqual( result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], expected_height, expected_width) ) def UpperCamelCase__ ( self , A_ , A_ , A_ ) ->List[str]: '''simple docstring''' __lowerCAmelCase : Optional[int] = self.num_labels __lowerCAmelCase : Union[str, Any] = SegformerForSemanticSegmentation(__snake_case ) model.to(__snake_case ) model.eval() __lowerCAmelCase : List[str] = model(__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) __lowerCAmelCase : List[str] = model(__snake_case , labels=__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) self.parent.assertGreater(result.loss , 0.0 ) def UpperCamelCase__ ( self , A_ , A_ , A_ ) ->List[str]: '''simple docstring''' __lowerCAmelCase : Dict = 1 __lowerCAmelCase : Optional[Any] = SegformerForSemanticSegmentation(config=__snake_case ) model.to(__snake_case ) model.eval() __lowerCAmelCase : Optional[int] = torch.randint(0 , 1 , (self.batch_size, self.image_size, self.image_size) ).to(__snake_case ) __lowerCAmelCase : Optional[Any] = model(__snake_case , labels=__snake_case ) self.parent.assertGreater(result.loss , 0.0 ) def UpperCamelCase__ ( self ) ->int: '''simple docstring''' __lowerCAmelCase : Union[str, Any] = self.prepare_config_and_inputs() __lowerCAmelCase, __lowerCAmelCase, __lowerCAmelCase : Optional[Any] = config_and_inputs __lowerCAmelCase : int = {'''pixel_values''': pixel_values} return config, inputs_dict @require_torch class __lowercase (snake_case_ , snake_case_ , unittest.TestCase ): _UpperCamelCase = ( ( SegformerModel, SegformerForSemanticSegmentation, SegformerForImageClassification, ) if is_torch_available() else () ) _UpperCamelCase = ( { '''feature-extraction''': SegformerModel, '''image-classification''': SegformerForImageClassification, '''image-segmentation''': SegformerForSemanticSegmentation, } if is_torch_available() else {} ) _UpperCamelCase = True _UpperCamelCase = False _UpperCamelCase = False _UpperCamelCase = False def UpperCamelCase__ ( self ) ->Any: '''simple docstring''' __lowerCAmelCase : int = SegformerModelTester(self ) __lowerCAmelCase : Tuple = SegformerConfigTester(self , config_class=__snake_case ) def UpperCamelCase__ ( self ) ->Dict: '''simple docstring''' self.config_tester.run_common_tests() def UpperCamelCase__ ( self ) ->Union[str, Any]: '''simple docstring''' __lowerCAmelCase : Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__snake_case ) def UpperCamelCase__ ( self ) ->int: '''simple docstring''' __lowerCAmelCase : str = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_binary_image_segmentation(*__snake_case ) def UpperCamelCase__ ( self ) ->Dict: '''simple docstring''' __lowerCAmelCase : Dict = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_segmentation(*__snake_case ) @unittest.skip('''SegFormer does not use inputs_embeds''' ) def UpperCamelCase__ ( self ) ->Union[str, Any]: '''simple docstring''' pass @unittest.skip('''SegFormer does not have get_input_embeddings method and get_output_embeddings methods''' ) def UpperCamelCase__ ( self ) ->int: '''simple docstring''' pass def UpperCamelCase__ ( self ) ->Optional[Any]: '''simple docstring''' __lowerCAmelCase, __lowerCAmelCase : Optional[Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __lowerCAmelCase : Union[str, Any] = model_class(__snake_case ) __lowerCAmelCase : str = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic __lowerCAmelCase : int = [*signature.parameters.keys()] __lowerCAmelCase : str = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __snake_case ) def UpperCamelCase__ ( self ) ->Tuple: '''simple docstring''' __lowerCAmelCase, __lowerCAmelCase : Any = self.model_tester.prepare_config_and_inputs_for_common() __lowerCAmelCase : int = True for model_class in self.all_model_classes: __lowerCAmelCase : Tuple = True __lowerCAmelCase : List[str] = False __lowerCAmelCase : Any = True __lowerCAmelCase : Dict = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): __lowerCAmelCase : Union[str, Any] = model(**self._prepare_for_class(__snake_case , __snake_case ) ) __lowerCAmelCase : Any = outputs.attentions __lowerCAmelCase : Optional[Any] = sum(self.model_tester.depths ) self.assertEqual(len(__snake_case ) , __snake_case ) # check that output_attentions also work using config del inputs_dict["output_attentions"] __lowerCAmelCase : Tuple = True __lowerCAmelCase : Dict = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): __lowerCAmelCase : Optional[Any] = model(**self._prepare_for_class(__snake_case , __snake_case ) ) __lowerCAmelCase : Tuple = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) __lowerCAmelCase : List[Any] = (self.model_tester.image_size // 4) ** 2 __lowerCAmelCase : Tuple = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) # verify the last attentions (last block, last layer) __lowerCAmelCase : Any = (self.model_tester.image_size // 32) ** 2 __lowerCAmelCase : List[str] = (self.model_tester.image_size // (32 * self.model_tester.sr_ratios[-1])) ** 2 self.assertListEqual( list(attentions[-1].shape[-3:] ) , [self.model_tester.num_attention_heads[-1], expected_seq_len, expected_reduced_seq_len] , ) __lowerCAmelCase : Tuple = len(__snake_case ) # Check attention is always last and order is fine __lowerCAmelCase : Union[str, Any] = True __lowerCAmelCase : Union[str, Any] = True __lowerCAmelCase : Tuple = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): __lowerCAmelCase : str = model(**self._prepare_for_class(__snake_case , __snake_case ) ) self.assertEqual(out_len + 1 , len(__snake_case ) ) __lowerCAmelCase : Tuple = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) __lowerCAmelCase : int = (self.model_tester.image_size // 4) ** 2 __lowerCAmelCase : Tuple = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(self_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) def UpperCamelCase__ ( self ) ->List[str]: '''simple docstring''' def check_hidden_states_output(A_ , A_ , A_ ): __lowerCAmelCase : Optional[int] = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): __lowerCAmelCase : List[str] = model(**self._prepare_for_class(__snake_case , __snake_case ) ) __lowerCAmelCase : Dict = outputs.hidden_states __lowerCAmelCase : Tuple = self.model_tester.num_encoder_blocks self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first hidden states (first block) self.assertListEqual( list(hidden_states[0].shape[-3:] ) , [ self.model_tester.hidden_sizes[0], self.model_tester.image_size // 4, self.model_tester.image_size // 4, ] , ) __lowerCAmelCase, __lowerCAmelCase : int = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __lowerCAmelCase : Union[str, Any] = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] __lowerCAmelCase : int = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) def UpperCamelCase__ ( self ) ->Any: '''simple docstring''' if not self.model_tester.is_training: return __lowerCAmelCase, __lowerCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() __lowerCAmelCase : Tuple = True for model_class in self.all_model_classes: if model_class in get_values(__snake_case ): continue __lowerCAmelCase : Union[str, Any] = model_class(__snake_case ) model.to(__snake_case ) model.train() __lowerCAmelCase : Any = self._prepare_for_class(__snake_case , __snake_case , return_labels=__snake_case ) __lowerCAmelCase : Dict = model(**__snake_case ).loss loss.backward() @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def UpperCamelCase__ ( self ) ->Dict: '''simple docstring''' pass @slow def UpperCamelCase__ ( self ) ->Optional[int]: '''simple docstring''' for model_name in SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Optional[Any] = SegformerModel.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) def _lowercase ( ): __lowerCAmelCase : Optional[int] = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_torch class __lowercase (unittest.TestCase ): @slow def UpperCamelCase__ ( self ) ->Any: '''simple docstring''' __lowerCAmelCase : Union[str, Any] = SegformerImageProcessor( image_scale=(512, 512) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) __lowerCAmelCase : Any = SegformerForSemanticSegmentation.from_pretrained('''nvidia/segformer-b0-finetuned-ade-512-512''' ).to( __snake_case ) __lowerCAmelCase : Dict = prepare_img() __lowerCAmelCase : int = image_processor(images=__snake_case , return_tensors='''pt''' ) __lowerCAmelCase : Union[str, Any] = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): __lowerCAmelCase : List[str] = model(__snake_case ) __lowerCAmelCase : Tuple = torch.Size((1, model.config.num_labels, 128, 128) ) self.assertEqual(outputs.logits.shape , __snake_case ) __lowerCAmelCase : int = torch.tensor( [ [[-4.6_310, -5.5_232, -6.2_356], [-5.1_921, -6.1_444, -6.5_996], [-5.4_424, -6.2_790, -6.7_574]], [[-12.1_391, -13.3_122, -13.9_554], [-12.8_732, -13.9_352, -14.3_563], [-12.9_438, -13.8_226, -14.2_513]], [[-12.5_134, -13.4_686, -14.4_915], [-12.8_669, -14.4_343, -14.7_758], [-13.2_523, -14.5_819, -15.0_694]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1e-4 ) ) @slow def UpperCamelCase__ ( self ) ->Any: '''simple docstring''' __lowerCAmelCase : str = SegformerImageProcessor( image_scale=(512, 512) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) __lowerCAmelCase : Any = SegformerForSemanticSegmentation.from_pretrained( '''nvidia/segformer-b1-finetuned-cityscapes-1024-1024''' ).to(__snake_case ) __lowerCAmelCase : Any = prepare_img() __lowerCAmelCase : str = image_processor(images=__snake_case , return_tensors='''pt''' ) __lowerCAmelCase : Optional[int] = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): __lowerCAmelCase : Tuple = model(__snake_case ) __lowerCAmelCase : str = torch.Size((1, model.config.num_labels, 128, 128) ) self.assertEqual(outputs.logits.shape , __snake_case ) __lowerCAmelCase : int = torch.tensor( [ [[-13.5_748, -13.9_111, -12.6_500], [-14.3_500, -15.3_683, -14.2_328], [-14.7_532, -16.0_424, -15.6_087]], [[-17.1_651, -15.8_725, -12.9_653], [-17.2_580, -17.3_718, -14.8_223], [-16.6_058, -16.8_783, -16.7_452]], [[-3.6_456, -3.0_209, -1.4_203], [-3.0_797, -3.1_959, -2.0_000], [-1.8_757, -1.9_217, -1.6_997]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1e-1 ) ) @slow def UpperCamelCase__ ( self ) ->str: '''simple docstring''' __lowerCAmelCase : Optional[int] = SegformerImageProcessor( image_scale=(512, 512) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) __lowerCAmelCase : Tuple = SegformerForSemanticSegmentation.from_pretrained('''nvidia/segformer-b0-finetuned-ade-512-512''' ).to( __snake_case ) __lowerCAmelCase : Optional[int] = prepare_img() __lowerCAmelCase : Optional[int] = image_processor(images=__snake_case , return_tensors='''pt''' ) __lowerCAmelCase : List[Any] = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): __lowerCAmelCase : List[Any] = model(__snake_case ) __lowerCAmelCase : Optional[Any] = outputs.logits.detach().cpu() __lowerCAmelCase : Tuple = image_processor.post_process_semantic_segmentation(outputs=__snake_case , target_sizes=[(500, 300)] ) __lowerCAmelCase : Any = torch.Size((500, 300) ) self.assertEqual(segmentation[0].shape , __snake_case ) __lowerCAmelCase : Tuple = image_processor.post_process_semantic_segmentation(outputs=__snake_case ) __lowerCAmelCase : Union[str, Any] = torch.Size((128, 128) ) self.assertEqual(segmentation[0].shape , __snake_case )
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'''simple docstring''' import heapq as hq import math from collections.abc import Iterator class UpperCAmelCase : def __init__( self : str , __snake_case : Any ) -> str: _lowerCAmelCase = str(id_ ) _lowerCAmelCase = None _lowerCAmelCase = None _lowerCAmelCase = [] _lowerCAmelCase = {} # {vertex:distance} def __lt__( self : List[str] , __snake_case : Union[str, Any] ) -> Any: return self.key < other.key def __repr__( self : Optional[Any] ) -> Optional[Any]: return self.id def lowercase__ ( self : Union[str, Any] , __snake_case : Tuple ) -> Optional[Any]: self.neighbors.append(__snake_case ) def lowercase__ ( self : Tuple , __snake_case : List[str] , __snake_case : Tuple ) -> Any: _lowerCAmelCase = weight def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" graph[a - 1].add_neighbor(graph[b - 1] ) graph[b - 1].add_neighbor(graph[a - 1] ) # add the edges: graph[a - 1].add_edge(graph[b - 1] , lowerCAmelCase ) graph[b - 1].add_edge(graph[a - 1] , lowerCAmelCase ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [] for u in graph: _lowerCAmelCase = math.inf _lowerCAmelCase = None _lowerCAmelCase = 0 _lowerCAmelCase = graph[:] while q: _lowerCAmelCase = min(lowerCAmelCase ) q.remove(lowerCAmelCase ) for v in u.neighbors: if (v in q) and (u.edges[v.id] < v.key): _lowerCAmelCase = u _lowerCAmelCase = u.edges[v.id] for i in range(1 , len(lowerCAmelCase ) ): a.append((int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) ) return a def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" for u in graph: _lowerCAmelCase = math.inf _lowerCAmelCase = None _lowerCAmelCase = 0 _lowerCAmelCase = list(lowerCAmelCase ) hq.heapify(lowerCAmelCase ) while h: _lowerCAmelCase = hq.heappop(lowerCAmelCase ) for v in u.neighbors: if (v in h) and (u.edges[v.id] < v.key): _lowerCAmelCase = u _lowerCAmelCase = u.edges[v.id] hq.heapify(lowerCAmelCase ) for i in range(1 , len(lowerCAmelCase ) ): yield (int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) def UpperCamelCase__ ( ): """simple docstring""" if __name__ == "__main__": import doctest doctest.testmod()
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0
'''simple docstring''' def __lowercase ( __lowercase ) -> Any: '''simple docstring''' _A = len(__lowercase ) for i in range(length - 1 ): _A = i for k in range(i + 1 , __lowercase ): if collection[k] < collection[least]: _A = k if least != i: _A , _A = (collection[i], collection[least]) return collection if __name__ == "__main__": lowerCamelCase_ = input('''Enter numbers separated by a comma:\n''').strip() lowerCamelCase_ = [int(item) for item in user_input.split(''',''')] print(selection_sort(unsorted))
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'''simple docstring''' import unittest from transformers import is_torch_available from transformers.testing_utils import require_sentencepiece, require_tokenizers, require_torch, slow, torch_device if is_torch_available(): from transformers import AutoModelForSeqaSeqLM, AutoTokenizer @require_torch @require_sentencepiece @require_tokenizers class UpperCAmelCase ( unittest.TestCase ): @slow def lowercase__ ( self : List[Any] ) -> str: _lowerCAmelCase = AutoModelForSeqaSeqLM.from_pretrained("""google/mt5-small""" , return_dict=__snake_case ).to(__snake_case ) _lowerCAmelCase = AutoTokenizer.from_pretrained("""google/mt5-small""" ) _lowerCAmelCase = tokenizer("""Hello there""" , return_tensors="""pt""" ).input_ids _lowerCAmelCase = tokenizer("""Hi I am""" , return_tensors="""pt""" ).input_ids _lowerCAmelCase = model(input_ids.to(__snake_case ) , labels=labels.to(__snake_case ) ).loss _lowerCAmelCase = -(labels.shape[-1] * loss.item()) _lowerCAmelCase = -84.91_27 self.assertTrue(abs(mtf_score - EXPECTED_SCORE ) < 1E-4 )
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0
import unittest import numpy as np import requests from transformers.testing_utils import require_torch, require_vision from transformers.utils import is_torch_available, is_vision_available from ...test_image_processing_common import ImageProcessingSavingTestMixin, prepare_image_inputs if is_torch_available(): import torch from transformers.pytorch_utils import is_torch_greater_or_equal_than_1_11 else: A_ : int = False if is_vision_available(): from PIL import Image from transformers import PixaStructImageProcessor class A_ ( unittest.TestCase ): '''simple docstring''' def __init__(self , lowercase__ , lowercase__=7 , lowercase__=3 , lowercase__=18 , lowercase__=30 , lowercase__=400 , lowercase__=None , lowercase__=True , lowercase__=True , lowercase__=None , ) -> Union[str, Any]: __UpperCAmelCase = size if size is not None else {'''height''': 20, '''width''': 20} __UpperCAmelCase = parent __UpperCAmelCase = batch_size __UpperCAmelCase = num_channels __UpperCAmelCase = image_size __UpperCAmelCase = min_resolution __UpperCAmelCase = max_resolution __UpperCAmelCase = size __UpperCAmelCase = do_normalize __UpperCAmelCase = do_convert_rgb __UpperCAmelCase = [512, 1_024, 2_048, 4_096] __UpperCAmelCase = patch_size if patch_size is not None else {'''height''': 16, '''width''': 16} def lowerCAmelCase_ (self ) -> str: return {"do_normalize": self.do_normalize, "do_convert_rgb": self.do_convert_rgb} def lowerCAmelCase_ (self ) -> Optional[int]: __UpperCAmelCase = '''https://huggingface.co/datasets/huggingface/documentation-images/resolve/main/transformers/tasks/australia.jpg''' __UpperCAmelCase = Image.open(requests.get(__snake_case , stream=__snake_case ).raw ).convert('''RGB''' ) return raw_image @unittest.skipIf( not is_torch_greater_or_equal_than_1_11 , reason="`Pix2StructImageProcessor` requires `torch>=1.11.0`." , ) @require_torch @require_vision class A_ ( snake_case_ , unittest.TestCase ): '''simple docstring''' a__ = PixaStructImageProcessor if is_vision_available() else None def lowerCAmelCase_ (self ) -> Optional[int]: __UpperCAmelCase = PixaStructImageProcessingTester(self ) @property def lowerCAmelCase_ (self ) -> Any: return self.image_processor_tester.prepare_image_processor_dict() def lowerCAmelCase_ (self ) -> Any: __UpperCAmelCase = self.image_processing_class(**self.image_processor_dict ) self.assertTrue(hasattr(__snake_case , '''do_normalize''' ) ) self.assertTrue(hasattr(__snake_case , '''do_convert_rgb''' ) ) def lowerCAmelCase_ (self ) -> List[str]: __UpperCAmelCase = self.image_processor_tester.prepare_dummy_image() __UpperCAmelCase = self.image_processing_class(**self.image_processor_dict ) __UpperCAmelCase = 2_048 __UpperCAmelCase = image_processor(__snake_case , return_tensors='''pt''' , max_patches=__snake_case ) self.assertTrue(torch.allclose(inputs.flattened_patches.mean() , torch.tensor(0.0606 ) , atol=1E-3 , rtol=1E-3 ) ) def lowerCAmelCase_ (self ) -> Tuple: # Initialize image_processor __UpperCAmelCase = self.image_processing_class(**self.image_processor_dict ) # create random PIL images __UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=__snake_case ) for image in image_inputs: self.assertIsInstance(__snake_case , Image.Image ) # Test not batched input __UpperCAmelCase = ( (self.image_processor_tester.patch_size['''height'''] * self.image_processor_tester.patch_size['''width''']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input __UpperCAmelCase = image_processor( image_inputs[0] , return_tensors='''pt''' , max_patches=__snake_case ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched __UpperCAmelCase = image_processor( __snake_case , return_tensors='''pt''' , max_patches=__snake_case ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def lowerCAmelCase_ (self ) -> Tuple: # Initialize image_processor __UpperCAmelCase = self.image_processing_class(**self.image_processor_dict ) # create random PIL images __UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=__snake_case ) for image in image_inputs: self.assertIsInstance(__snake_case , Image.Image ) # Test not batched input __UpperCAmelCase = ( (self.image_processor_tester.patch_size['''height'''] * self.image_processor_tester.patch_size['''width''']) * self.image_processor_tester.num_channels ) + 2 __UpperCAmelCase = True for max_patch in self.image_processor_tester.max_patches: # Test not batched input with self.assertRaises(__snake_case ): __UpperCAmelCase = image_processor( image_inputs[0] , return_tensors='''pt''' , max_patches=__snake_case ).flattened_patches __UpperCAmelCase = '''Hello''' __UpperCAmelCase = image_processor( image_inputs[0] , return_tensors='''pt''' , max_patches=__snake_case , header_text=__snake_case ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched __UpperCAmelCase = image_processor( __snake_case , return_tensors='''pt''' , max_patches=__snake_case , header_text=__snake_case ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def lowerCAmelCase_ (self ) -> Optional[int]: # Initialize image_processor __UpperCAmelCase = self.image_processing_class(**self.image_processor_dict ) # create random numpy tensors __UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=__snake_case , numpify=__snake_case ) for image in image_inputs: self.assertIsInstance(__snake_case , np.ndarray ) __UpperCAmelCase = ( (self.image_processor_tester.patch_size['''height'''] * self.image_processor_tester.patch_size['''width''']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input __UpperCAmelCase = image_processor( image_inputs[0] , return_tensors='''pt''' , max_patches=__snake_case ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched __UpperCAmelCase = image_processor( __snake_case , return_tensors='''pt''' , max_patches=__snake_case ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def lowerCAmelCase_ (self ) -> Optional[Any]: # Initialize image_processor __UpperCAmelCase = self.image_processing_class(**self.image_processor_dict ) # create random PyTorch tensors __UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=__snake_case , torchify=__snake_case ) for image in image_inputs: self.assertIsInstance(__snake_case , torch.Tensor ) # Test not batched input __UpperCAmelCase = ( (self.image_processor_tester.patch_size['''height'''] * self.image_processor_tester.patch_size['''width''']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input __UpperCAmelCase = image_processor( image_inputs[0] , return_tensors='''pt''' , max_patches=__snake_case ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched __UpperCAmelCase = image_processor( __snake_case , return_tensors='''pt''' , max_patches=__snake_case ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) @unittest.skipIf( not is_torch_greater_or_equal_than_1_11 , reason="`Pix2StructImageProcessor` requires `torch>=1.11.0`." , ) @require_torch @require_vision class A_ ( snake_case_ , unittest.TestCase ): '''simple docstring''' a__ = PixaStructImageProcessor if is_vision_available() else None def lowerCAmelCase_ (self ) -> int: __UpperCAmelCase = PixaStructImageProcessingTester(self , num_channels=4 ) __UpperCAmelCase = 3 @property def lowerCAmelCase_ (self ) -> Tuple: return self.image_processor_tester.prepare_image_processor_dict() def lowerCAmelCase_ (self ) -> List[str]: __UpperCAmelCase = self.image_processing_class(**self.image_processor_dict ) self.assertTrue(hasattr(__snake_case , '''do_normalize''' ) ) self.assertTrue(hasattr(__snake_case , '''do_convert_rgb''' ) ) def lowerCAmelCase_ (self ) -> Tuple: # Initialize image_processor __UpperCAmelCase = self.image_processing_class(**self.image_processor_dict ) # create random PIL images __UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=__snake_case ) for image in image_inputs: self.assertIsInstance(__snake_case , Image.Image ) # Test not batched input __UpperCAmelCase = ( (self.image_processor_tester.patch_size['''height'''] * self.image_processor_tester.patch_size['''width''']) * (self.image_processor_tester.num_channels - 1) ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input __UpperCAmelCase = image_processor( image_inputs[0] , return_tensors='''pt''' , max_patches=__snake_case ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched __UpperCAmelCase = image_processor( __snake_case , return_tensors='''pt''' , max_patches=__snake_case ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , )
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'''simple docstring''' import os from shutil import copyfile from typing import Any, Dict, List, Optional, Tuple import sentencepiece as spm from ...tokenization_utils import AddedToken, BatchEncoding, PreTrainedTokenizer from ...utils import logging A__ : Any =logging.get_logger(__name__) A__ : List[Any] ='''▁''' A__ : Optional[int] ={'''vocab_file''': '''sentencepiece.bpe.model'''} A__ : Union[str, Any] ={ '''vocab_file''': { '''facebook/nllb-200-distilled-600M''': ( '''https://huggingface.co/facebook/nllb-200-distilled-600M/blob/main/sentencepiece.bpe.model''' ), } } A__ : Dict ={ '''facebook/nllb-200-distilled-600M''': 10_24, } # fmt: off A__ : Union[str, Any] =['''ace_Arab''', '''ace_Latn''', '''acm_Arab''', '''acq_Arab''', '''aeb_Arab''', '''afr_Latn''', '''ajp_Arab''', '''aka_Latn''', '''amh_Ethi''', '''apc_Arab''', '''arb_Arab''', '''ars_Arab''', '''ary_Arab''', '''arz_Arab''', '''asm_Beng''', '''ast_Latn''', '''awa_Deva''', '''ayr_Latn''', '''azb_Arab''', '''azj_Latn''', '''bak_Cyrl''', '''bam_Latn''', '''ban_Latn''', '''bel_Cyrl''', '''bem_Latn''', '''ben_Beng''', '''bho_Deva''', '''bjn_Arab''', '''bjn_Latn''', '''bod_Tibt''', '''bos_Latn''', '''bug_Latn''', '''bul_Cyrl''', '''cat_Latn''', '''ceb_Latn''', '''ces_Latn''', '''cjk_Latn''', '''ckb_Arab''', '''crh_Latn''', '''cym_Latn''', '''dan_Latn''', '''deu_Latn''', '''dik_Latn''', '''dyu_Latn''', '''dzo_Tibt''', '''ell_Grek''', '''eng_Latn''', '''epo_Latn''', '''est_Latn''', '''eus_Latn''', '''ewe_Latn''', '''fao_Latn''', '''pes_Arab''', '''fij_Latn''', '''fin_Latn''', '''fon_Latn''', '''fra_Latn''', '''fur_Latn''', '''fuv_Latn''', '''gla_Latn''', '''gle_Latn''', '''glg_Latn''', '''grn_Latn''', '''guj_Gujr''', '''hat_Latn''', '''hau_Latn''', '''heb_Hebr''', '''hin_Deva''', '''hne_Deva''', '''hrv_Latn''', '''hun_Latn''', '''hye_Armn''', '''ibo_Latn''', '''ilo_Latn''', '''ind_Latn''', '''isl_Latn''', '''ita_Latn''', '''jav_Latn''', '''jpn_Jpan''', '''kab_Latn''', '''kac_Latn''', '''kam_Latn''', '''kan_Knda''', '''kas_Arab''', '''kas_Deva''', '''kat_Geor''', '''knc_Arab''', '''knc_Latn''', '''kaz_Cyrl''', '''kbp_Latn''', '''kea_Latn''', '''khm_Khmr''', '''kik_Latn''', '''kin_Latn''', '''kir_Cyrl''', '''kmb_Latn''', '''kon_Latn''', '''kor_Hang''', '''kmr_Latn''', '''lao_Laoo''', '''lvs_Latn''', '''lij_Latn''', '''lim_Latn''', '''lin_Latn''', '''lit_Latn''', '''lmo_Latn''', '''ltg_Latn''', '''ltz_Latn''', '''lua_Latn''', '''lug_Latn''', '''luo_Latn''', '''lus_Latn''', '''mag_Deva''', '''mai_Deva''', '''mal_Mlym''', '''mar_Deva''', '''min_Latn''', '''mkd_Cyrl''', '''plt_Latn''', '''mlt_Latn''', '''mni_Beng''', '''khk_Cyrl''', '''mos_Latn''', '''mri_Latn''', '''zsm_Latn''', '''mya_Mymr''', '''nld_Latn''', '''nno_Latn''', '''nob_Latn''', '''npi_Deva''', '''nso_Latn''', '''nus_Latn''', '''nya_Latn''', '''oci_Latn''', '''gaz_Latn''', '''ory_Orya''', '''pag_Latn''', '''pan_Guru''', '''pap_Latn''', '''pol_Latn''', '''por_Latn''', '''prs_Arab''', '''pbt_Arab''', '''quy_Latn''', '''ron_Latn''', '''run_Latn''', '''rus_Cyrl''', '''sag_Latn''', '''san_Deva''', '''sat_Beng''', '''scn_Latn''', '''shn_Mymr''', '''sin_Sinh''', '''slk_Latn''', '''slv_Latn''', '''smo_Latn''', '''sna_Latn''', '''snd_Arab''', '''som_Latn''', '''sot_Latn''', '''spa_Latn''', '''als_Latn''', '''srd_Latn''', '''srp_Cyrl''', '''ssw_Latn''', '''sun_Latn''', '''swe_Latn''', '''swh_Latn''', '''szl_Latn''', '''tam_Taml''', '''tat_Cyrl''', '''tel_Telu''', '''tgk_Cyrl''', '''tgl_Latn''', '''tha_Thai''', '''tir_Ethi''', '''taq_Latn''', '''taq_Tfng''', '''tpi_Latn''', '''tsn_Latn''', '''tso_Latn''', '''tuk_Latn''', '''tum_Latn''', '''tur_Latn''', '''twi_Latn''', '''tzm_Tfng''', '''uig_Arab''', '''ukr_Cyrl''', '''umb_Latn''', '''urd_Arab''', '''uzn_Latn''', '''vec_Latn''', '''vie_Latn''', '''war_Latn''', '''wol_Latn''', '''xho_Latn''', '''ydd_Hebr''', '''yor_Latn''', '''yue_Hant''', '''zho_Hans''', '''zho_Hant''', '''zul_Latn'''] class UpperCAmelCase ( snake_case_ ): _lowercase: int = VOCAB_FILES_NAMES _lowercase: str = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowercase: Dict = PRETRAINED_VOCAB_FILES_MAP _lowercase: str = ['''input_ids''', '''attention_mask'''] _lowercase: List[int] = [] _lowercase: List[int] = [] def __init__( self : int , __snake_case : Optional[Any] , __snake_case : Dict="<s>" , __snake_case : Optional[int]="</s>" , __snake_case : Dict="</s>" , __snake_case : str="<s>" , __snake_case : Optional[int]="<unk>" , __snake_case : Union[str, Any]="<pad>" , __snake_case : Union[str, Any]="<mask>" , __snake_case : List[Any]=None , __snake_case : Union[str, Any]=None , __snake_case : int=None , __snake_case : Optional[Dict[str, Any]] = None , __snake_case : str=None , __snake_case : str=False , **__snake_case : List[Any] , ) -> List[str]: # Mask token behave like a normal word, i.e. include the space before it _lowerCAmelCase = AddedToken(__snake_case , lstrip=__snake_case , rstrip=__snake_case ) if isinstance(__snake_case , __snake_case ) else mask_token _lowerCAmelCase = {} if sp_model_kwargs is None else sp_model_kwargs _lowerCAmelCase = legacy_behaviour super().__init__( bos_token=__snake_case , eos_token=__snake_case , unk_token=__snake_case , sep_token=__snake_case , cls_token=__snake_case , pad_token=__snake_case , mask_token=__snake_case , tokenizer_file=__snake_case , src_lang=__snake_case , tgt_lang=__snake_case , additional_special_tokens=__snake_case , sp_model_kwargs=self.sp_model_kwargs , legacy_behaviour=__snake_case , **__snake_case , ) _lowerCAmelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.Load(str(__snake_case ) ) _lowerCAmelCase = vocab_file # Original fairseq vocab and spm vocab must be "aligned": # Vocab | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 # -------- | ------- | ------- | ------ | ------- | ---- | ---- | ---- | ---- | ---- | ---- # fairseq | '<s>' | '<pad>' | '</s>' | '<unk>' | 'an' | '▁n' | '▁m' | '▁t' | '▁k' | '▁a' # spm | '<unk>' | '<s>' | '</s>' | 'an' | '▁n' | '▁m' | '▁t' | '▁k' | '▁a' | '▁s' # Mimic fairseq token-to-id alignment for the first 4 token _lowerCAmelCase = {"""<s>""": 0, """<pad>""": 1, """</s>""": 2, """<unk>""": 3} # The first "real" token "," has position 4 in the original fairseq vocab and position 3 in the spm vocab _lowerCAmelCase = 1 _lowerCAmelCase = len(self.sp_model ) _lowerCAmelCase = { code: self.sp_model_size + i + self.fairseq_offset for i, code in enumerate(__snake_case ) } _lowerCAmelCase = {v: k for k, v in self.lang_code_to_id.items()} _lowerCAmelCase = len(self.sp_model ) + len(self.lang_code_to_id ) + self.fairseq_offset self.fairseq_tokens_to_ids.update(self.lang_code_to_id ) _lowerCAmelCase = {v: k for k, v in self.fairseq_tokens_to_ids.items()} _lowerCAmelCase = list(self.lang_code_to_id.keys() ) if additional_special_tokens is not None: # Only add those special tokens if they are not already there. self._additional_special_tokens.extend( [t for t in additional_special_tokens if t not in self._additional_special_tokens] ) _lowerCAmelCase = src_lang if src_lang is not None else """eng_Latn""" _lowerCAmelCase = self.lang_code_to_id[self._src_lang] _lowerCAmelCase = tgt_lang self.set_src_lang_special_tokens(self._src_lang ) def __getstate__( self : List[str] ) -> List[str]: _lowerCAmelCase = self.__dict__.copy() _lowerCAmelCase = None _lowerCAmelCase = self.sp_model.serialized_model_proto() return state def __setstate__( self : Dict , __snake_case : Optional[Any] ) -> Dict: _lowerCAmelCase = d # for backward compatibility if not hasattr(self , """sp_model_kwargs""" ): _lowerCAmelCase = {} _lowerCAmelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.LoadFromSerializedProto(self.sp_model_proto ) @property def lowercase__ ( self : List[Any] ) -> Any: return len(self.sp_model ) + len(self.lang_code_to_id ) + self.fairseq_offset + 1 # Plus 1 for the mask token @property def lowercase__ ( self : int ) -> str: return self._src_lang @src_lang.setter def lowercase__ ( self : Dict , __snake_case : str ) -> None: _lowerCAmelCase = new_src_lang self.set_src_lang_special_tokens(self._src_lang ) def lowercase__ ( self : List[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None , __snake_case : bool = False ) -> List[int]: if already_has_special_tokens: return super().get_special_tokens_mask( token_ids_a=__snake_case , token_ids_a=__snake_case , already_has_special_tokens=__snake_case ) _lowerCAmelCase = [1] * len(self.prefix_tokens ) _lowerCAmelCase = [1] * len(self.suffix_tokens ) if token_ids_a is None: return prefix_ones + ([0] * len(__snake_case )) + suffix_ones return prefix_ones + ([0] * len(__snake_case )) + ([0] * len(__snake_case )) + suffix_ones def lowercase__ ( self : Optional[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: if token_ids_a is None: return self.prefix_tokens + token_ids_a + self.suffix_tokens # We don't expect to process pairs, but leave the pair logic for API consistency return self.prefix_tokens + token_ids_a + token_ids_a + self.suffix_tokens def lowercase__ ( self : Optional[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: _lowerCAmelCase = [self.sep_token_id] _lowerCAmelCase = [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] def lowercase__ ( self : List[str] , __snake_case : Union[str, Any] , __snake_case : str , __snake_case : Optional[str] , __snake_case : Optional[str] , **__snake_case : Optional[int] ) -> Dict: if src_lang is None or tgt_lang is None: raise ValueError("""Translation requires a `src_lang` and a `tgt_lang` for this model""" ) _lowerCAmelCase = src_lang _lowerCAmelCase = self(__snake_case , add_special_tokens=__snake_case , return_tensors=__snake_case , **__snake_case ) _lowerCAmelCase = self.convert_tokens_to_ids(__snake_case ) _lowerCAmelCase = tgt_lang_id return inputs def lowercase__ ( self : List[Any] ) -> Optional[int]: _lowerCAmelCase = {self.convert_ids_to_tokens(__snake_case ): i for i in range(self.vocab_size )} vocab.update(self.added_tokens_encoder ) return vocab def lowercase__ ( self : Optional[int] , __snake_case : str ) -> List[str]: return self.sp_model.encode(__snake_case , out_type=__snake_case ) def lowercase__ ( self : Optional[Any] , __snake_case : Union[str, Any] ) -> Tuple: if token in self.fairseq_tokens_to_ids: return self.fairseq_tokens_to_ids[token] _lowerCAmelCase = self.sp_model.PieceToId(__snake_case ) # Need to return unknown token if the SP model returned 0 return spm_id + self.fairseq_offset if spm_id else self.unk_token_id def lowercase__ ( self : List[Any] , __snake_case : Union[str, Any] ) -> Optional[int]: if index in self.fairseq_ids_to_tokens: return self.fairseq_ids_to_tokens[index] return self.sp_model.IdToPiece(index - self.fairseq_offset ) def lowercase__ ( self : Optional[int] , __snake_case : Union[str, Any] ) -> str: _lowerCAmelCase = """""".join(__snake_case ).replace(__snake_case , """ """ ).strip() return out_string def lowercase__ ( self : str , __snake_case : str , __snake_case : Optional[str] = None ) -> Tuple[str]: if not os.path.isdir(__snake_case ): logger.error(f"Vocabulary path ({save_directory}) should be a directory" ) return _lowerCAmelCase = os.path.join( __snake_case , (filename_prefix + """-""" if filename_prefix else """""") + VOCAB_FILES_NAMES["""vocab_file"""] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(__snake_case ) and os.path.isfile(self.vocab_file ): copyfile(self.vocab_file , __snake_case ) elif not os.path.isfile(self.vocab_file ): with open(__snake_case , """wb""" ) as fi: _lowerCAmelCase = self.sp_model.serialized_model_proto() fi.write(__snake_case ) return (out_vocab_file,) def lowercase__ ( self : Optional[Any] , __snake_case : List[str] , __snake_case : str = "eng_Latn" , __snake_case : Optional[List[str]] = None , __snake_case : str = "fra_Latn" , **__snake_case : Optional[int] , ) -> BatchEncoding: _lowerCAmelCase = src_lang _lowerCAmelCase = tgt_lang return super().prepare_seqaseq_batch(__snake_case , __snake_case , **__snake_case ) def lowercase__ ( self : str ) -> Tuple: return self.set_src_lang_special_tokens(self.src_lang ) def lowercase__ ( self : Dict ) -> Optional[Any]: return self.set_tgt_lang_special_tokens(self.tgt_lang ) def lowercase__ ( self : str , __snake_case : int ) -> None: _lowerCAmelCase = self.lang_code_to_id[src_lang] if self.legacy_behaviour: _lowerCAmelCase = [] _lowerCAmelCase = [self.eos_token_id, self.cur_lang_code] else: _lowerCAmelCase = [self.cur_lang_code] _lowerCAmelCase = [self.eos_token_id] def lowercase__ ( self : Any , __snake_case : str ) -> None: _lowerCAmelCase = self.lang_code_to_id[lang] if self.legacy_behaviour: _lowerCAmelCase = [] _lowerCAmelCase = [self.eos_token_id, self.cur_lang_code] else: _lowerCAmelCase = [self.cur_lang_code] _lowerCAmelCase = [self.eos_token_id]
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import itertools from dataclasses import dataclass from typing import List, Optional import pyarrow as pa import pyarrow.parquet as pq import datasets from datasets.table import table_cast __A : int = datasets.utils.logging.get_logger(__name__) @dataclass class A_ (datasets.BuilderConfig ): UpperCAmelCase__ = 1_0_0_0_0 UpperCAmelCase__ = None UpperCAmelCase__ = None class A_ (datasets.ArrowBasedBuilder ): UpperCAmelCase__ = ParquetConfig def _lowercase ( self ): '''simple docstring''' return datasets.DatasetInfo(features=self.config.features ) def _lowercase ( self , _A ): '''simple docstring''' if not self.config.data_files: raise ValueError(F"""At least one data file must be specified, but got data_files={self.config.data_files}""" ) UpperCAmelCase = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__snake_case , (str, list, tuple) ): UpperCAmelCase = data_files if isinstance(__snake_case , __snake_case ): UpperCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive UpperCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={'''files''': files} )] UpperCAmelCase = [] for split_name, files in data_files.items(): if isinstance(__snake_case , __snake_case ): UpperCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive UpperCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] # Infer features is they are stoed in the arrow schema if self.info.features is None: for file in itertools.chain.from_iterable(__snake_case ): with open(__snake_case , '''rb''' ) as f: UpperCAmelCase = datasets.Features.from_arrow_schema(pq.read_schema(__snake_case ) ) break splits.append(datasets.SplitGenerator(name=__snake_case , gen_kwargs={'''files''': files} ) ) return splits def _lowercase ( self , _A ): '''simple docstring''' if self.info.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example UpperCAmelCase = table_cast(__snake_case , self.info.features.arrow_schema ) return pa_table def _lowercase ( self , _A ): '''simple docstring''' UpperCAmelCase = self.info.features.arrow_schema if self.info.features is not None else None if self.info.features is not None and self.config.columns is not None: if sorted(field.name for field in schema ) != sorted(self.config.columns ): raise ValueError( F"""Tried to load parquet data with columns '{self.config.columns}' with mismatching features '{self.info.features}'""" ) for file_idx, file in enumerate(itertools.chain.from_iterable(__snake_case ) ): with open(__snake_case , '''rb''' ) as f: UpperCAmelCase = pq.ParquetFile(__snake_case ) try: for batch_idx, record_batch in enumerate( parquet_file.iter_batches(batch_size=self.config.batch_size , columns=self.config.columns ) ): UpperCAmelCase = pa.Table.from_batches([record_batch] ) # Uncomment for debugging (will print the Arrow table size and elements) # logger.warning(f"pa_table: {pa_table} num rows: {pa_table.num_rows}") # logger.warning('\n'.join(str(pa_table.slice(i, 1).to_pydict()) for i in range(pa_table.num_rows))) yield F"""{file_idx}_{batch_idx}""", self._cast_table(__snake_case ) except ValueError as e: logger.error(F"""Failed to read file '{file}' with error {type(__snake_case )}: {e}""" ) raise
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'''simple docstring''' def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = len(lowerCAmelCase ) for i in range(length - 1 ): _lowerCAmelCase = i for k in range(i + 1 , lowerCAmelCase ): if collection[k] < collection[least]: _lowerCAmelCase = k if least != i: _lowerCAmelCase , _lowerCAmelCase = (collection[i], collection[least]) return collection if __name__ == "__main__": A__ : str =input('''Enter numbers separated by a comma:\n''').strip() A__ : Optional[int] =[int(item) for item in user_input.split(''',''')] print(selection_sort(unsorted))
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'''simple docstring''' from __future__ import annotations import os from typing import Any import requests _UpperCamelCase = '''https://api.github.com''' # https://docs.github.com/en/free-pro-team@latest/rest/reference/users#get-the-authenticated-user _UpperCamelCase = BASE_URL + '''/user''' # https://github.com/settings/tokens _UpperCamelCase = os.environ.get('USER_TOKEN', '') def a_ ( _lowerCAmelCase ) -> Any: __lowerCamelCase : str = { 'Authorization': F'token {auth_token}', 'Accept': 'application/vnd.github.v3+json', } return requests.get(_lowerCAmelCase ,headers=_lowerCAmelCase ).json() if __name__ == "__main__": # pragma: no cover if USER_TOKEN: for key, value in fetch_github_info(USER_TOKEN).items(): print(f'''{key}: {value}''') else: raise ValueError('\'USER_TOKEN\' field cannot be empty.')
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'''simple docstring''' from typing import Dict, List, Optional, Union import numpy as np from transformers.utils import is_vision_available from transformers.utils.generic import TensorType from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import ( center_crop, get_resize_output_image_size, normalize, rescale, resize, to_channel_dimension_format, ) from ...image_utils import ( IMAGENET_STANDARD_MEAN, IMAGENET_STANDARD_STD, ChannelDimension, ImageInput, PILImageResampling, is_valid_image, to_numpy_array, valid_images, ) from ...utils import logging if is_vision_available(): import PIL A__ : List[str] =logging.get_logger(__name__) def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if isinstance(lowerCAmelCase , (list, tuple) ) and isinstance(videos[0] , (list, tuple) ) and is_valid_image(videos[0][0] ): return videos elif isinstance(lowerCAmelCase , (list, tuple) ) and is_valid_image(videos[0] ): return [videos] elif is_valid_image(lowerCAmelCase ): return [[videos]] raise ValueError(f"Could not make batched video from {videos}" ) class UpperCAmelCase ( snake_case_ ): _lowercase: Any = ['''pixel_values'''] def __init__( self : Tuple , __snake_case : bool = True , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = PILImageResampling.BILINEAR , __snake_case : bool = True , __snake_case : Dict[str, int] = None , __snake_case : bool = True , __snake_case : Union[int, float] = 1 / 2_55 , __snake_case : bool = True , __snake_case : bool = True , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , **__snake_case : str , ) -> None: super().__init__(**__snake_case ) _lowerCAmelCase = size if size is not None else {"""shortest_edge""": 2_56} _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) _lowerCAmelCase = crop_size if crop_size is not None else {"""height""": 2_24, """width""": 2_24} _lowerCAmelCase = get_size_dict(__snake_case , param_name="""crop_size""" ) _lowerCAmelCase = do_resize _lowerCAmelCase = size _lowerCAmelCase = do_center_crop _lowerCAmelCase = crop_size _lowerCAmelCase = resample _lowerCAmelCase = do_rescale _lowerCAmelCase = rescale_factor _lowerCAmelCase = offset _lowerCAmelCase = do_normalize _lowerCAmelCase = image_mean if image_mean is not None else IMAGENET_STANDARD_MEAN _lowerCAmelCase = image_std if image_std is not None else IMAGENET_STANDARD_STD def lowercase__ ( self : int , __snake_case : np.ndarray , __snake_case : Dict[str, int] , __snake_case : PILImageResampling = PILImageResampling.BILINEAR , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Optional[Any] , ) -> np.ndarray: _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) if "shortest_edge" in size: _lowerCAmelCase = get_resize_output_image_size(__snake_case , size["""shortest_edge"""] , default_to_square=__snake_case ) elif "height" in size and "width" in size: _lowerCAmelCase = (size["""height"""], size["""width"""]) else: raise ValueError(f"Size must have 'height' and 'width' or 'shortest_edge' as keys. Got {size.keys()}" ) return resize(__snake_case , size=__snake_case , resample=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Union[str, Any] , __snake_case : np.ndarray , __snake_case : Dict[str, int] , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : List[Any] , ) -> np.ndarray: _lowerCAmelCase = get_size_dict(__snake_case ) if "height" not in size or "width" not in size: raise ValueError(f"Size must have 'height' and 'width' as keys. Got {size.keys()}" ) return center_crop(__snake_case , size=(size["""height"""], size["""width"""]) , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Union[str, Any] , __snake_case : np.ndarray , __snake_case : Union[int, float] , __snake_case : bool = True , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Optional[Any] , ) -> Dict: _lowerCAmelCase = image.astype(np.floataa ) if offset: _lowerCAmelCase = image - (scale / 2) return rescale(__snake_case , scale=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Optional[int] , __snake_case : np.ndarray , __snake_case : Union[float, List[float]] , __snake_case : Union[float, List[float]] , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Tuple , ) -> np.ndarray: return normalize(__snake_case , mean=__snake_case , std=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : List[Any] , __snake_case : ImageInput , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = None , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : bool = None , __snake_case : float = None , __snake_case : bool = None , __snake_case : bool = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[ChannelDimension] = ChannelDimension.FIRST , ) -> np.ndarray: if do_resize and size is None or resample is None: raise ValueError("""Size and resample must be specified if do_resize is True.""" ) if do_center_crop and crop_size is None: raise ValueError("""Crop size must be specified if do_center_crop is True.""" ) if do_rescale and rescale_factor is None: raise ValueError("""Rescale factor must be specified if do_rescale is True.""" ) if do_normalize and (image_mean is None or image_std is None): raise ValueError("""Image mean and std must be specified if do_normalize is True.""" ) if offset and not do_rescale: raise ValueError("""For offset, do_rescale must also be set to True.""" ) # All transformations expect numpy arrays. _lowerCAmelCase = to_numpy_array(__snake_case ) if do_resize: _lowerCAmelCase = self.resize(image=__snake_case , size=__snake_case , resample=__snake_case ) if do_center_crop: _lowerCAmelCase = self.center_crop(__snake_case , size=__snake_case ) if do_rescale: _lowerCAmelCase = self.rescale(image=__snake_case , scale=__snake_case , offset=__snake_case ) if do_normalize: _lowerCAmelCase = self.normalize(image=__snake_case , mean=__snake_case , std=__snake_case ) _lowerCAmelCase = to_channel_dimension_format(__snake_case , __snake_case ) return image def lowercase__ ( self : List[Any] , __snake_case : ImageInput , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = None , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : bool = None , __snake_case : float = None , __snake_case : bool = None , __snake_case : bool = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[str, TensorType]] = None , __snake_case : ChannelDimension = ChannelDimension.FIRST , **__snake_case : List[str] , ) -> PIL.Image.Image: _lowerCAmelCase = do_resize if do_resize is not None else self.do_resize _lowerCAmelCase = resample if resample is not None else self.resample _lowerCAmelCase = do_center_crop if do_center_crop is not None else self.do_center_crop _lowerCAmelCase = do_rescale if do_rescale is not None else self.do_rescale _lowerCAmelCase = rescale_factor if rescale_factor is not None else self.rescale_factor _lowerCAmelCase = offset if offset is not None else self.offset _lowerCAmelCase = do_normalize if do_normalize is not None else self.do_normalize _lowerCAmelCase = image_mean if image_mean is not None else self.image_mean _lowerCAmelCase = image_std if image_std is not None else self.image_std _lowerCAmelCase = size if size is not None else self.size _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) _lowerCAmelCase = crop_size if crop_size is not None else self.crop_size _lowerCAmelCase = get_size_dict(__snake_case , param_name="""crop_size""" ) if not valid_images(__snake_case ): raise ValueError( """Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, """ """torch.Tensor, tf.Tensor or jax.ndarray.""" ) _lowerCAmelCase = make_batched(__snake_case ) _lowerCAmelCase = [ [ self._preprocess_image( image=__snake_case , do_resize=__snake_case , size=__snake_case , resample=__snake_case , do_center_crop=__snake_case , crop_size=__snake_case , do_rescale=__snake_case , rescale_factor=__snake_case , offset=__snake_case , do_normalize=__snake_case , image_mean=__snake_case , image_std=__snake_case , data_format=__snake_case , ) for img in video ] for video in videos ] _lowerCAmelCase = {"""pixel_values""": videos} return BatchFeature(data=__snake_case , tensor_type=__snake_case )
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'''simple docstring''' def a ( __a = 10 , __a = 22 ) -> Optional[int]: '''simple docstring''' UpperCamelCase__ :Union[str, Any] = range(1 , __a ) UpperCamelCase__ :List[str] = range(1 , __a ) return sum( 1 for power in powers for base in bases if len(str(base**power ) ) == power ) if __name__ == "__main__": print(F"""{solution(10, 22) = }""")
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'''simple docstring''' import re import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class UpperCAmelCase ( snake_case_ ): _lowercase: Union[str, Any] = ['''image_processor''', '''tokenizer'''] _lowercase: int = '''AutoImageProcessor''' _lowercase: Optional[int] = '''AutoTokenizer''' def __init__( self : int , __snake_case : Tuple=None , __snake_case : Optional[int]=None , **__snake_case : Tuple ) -> List[Any]: _lowerCAmelCase = None if "feature_extractor" in kwargs: warnings.warn( """The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`""" """ instead.""" , __snake_case , ) _lowerCAmelCase = kwargs.pop("""feature_extractor""" ) _lowerCAmelCase = 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__(__snake_case , __snake_case ) _lowerCAmelCase = self.image_processor _lowerCAmelCase = False def __call__( self : Dict , *__snake_case : Optional[int] , **__snake_case : Union[str, Any] ) -> Tuple: # For backward compatibility if self._in_target_context_manager: return self.current_processor(*__snake_case , **__snake_case ) _lowerCAmelCase = kwargs.pop("""images""" , __snake_case ) _lowerCAmelCase = kwargs.pop("""text""" , __snake_case ) if len(__snake_case ) > 0: _lowerCAmelCase = args[0] _lowerCAmelCase = args[1:] if images is None and text is None: raise ValueError("""You need to specify either an `images` or `text` input to process.""" ) if images is not None: _lowerCAmelCase = self.image_processor(__snake_case , *__snake_case , **__snake_case ) if text is not None: _lowerCAmelCase = self.tokenizer(__snake_case , **__snake_case ) if text is None: return inputs elif images is None: return encodings else: _lowerCAmelCase = encodings["""input_ids"""] return inputs def lowercase__ ( self : List[Any] , *__snake_case : Dict , **__snake_case : List[str] ) -> int: return self.tokenizer.batch_decode(*__snake_case , **__snake_case ) def lowercase__ ( self : int , *__snake_case : Tuple , **__snake_case : Optional[Any] ) -> Any: return self.tokenizer.decode(*__snake_case , **__snake_case ) @contextmanager def lowercase__ ( self : int ) -> Optional[Any]: 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 images inputs, or in a separate call.""" ) _lowerCAmelCase = True _lowerCAmelCase = self.tokenizer yield _lowerCAmelCase = self.image_processor _lowerCAmelCase = False def lowercase__ ( self : Optional[int] , __snake_case : Union[str, Any] , __snake_case : List[Any]=False , __snake_case : Dict=None ) -> Tuple: if added_vocab is None: _lowerCAmelCase = self.tokenizer.get_added_vocab() _lowerCAmelCase = {} while tokens: _lowerCAmelCase = re.search(R"""<s_(.*?)>""" , __snake_case , re.IGNORECASE ) if start_token is None: break _lowerCAmelCase = start_token.group(1 ) _lowerCAmelCase = re.search(Rf"</s_{key}>" , __snake_case , re.IGNORECASE ) _lowerCAmelCase = start_token.group() if end_token is None: _lowerCAmelCase = tokens.replace(__snake_case , """""" ) else: _lowerCAmelCase = end_token.group() _lowerCAmelCase = re.escape(__snake_case ) _lowerCAmelCase = re.escape(__snake_case ) _lowerCAmelCase = re.search(f"{start_token_escaped}(.*?){end_token_escaped}" , __snake_case , re.IGNORECASE ) if content is not None: _lowerCAmelCase = content.group(1 ).strip() if r"<s_" in content and r"</s_" in content: # non-leaf node _lowerCAmelCase = self.tokenajson(__snake_case , is_inner_value=__snake_case , added_vocab=__snake_case ) if value: if len(__snake_case ) == 1: _lowerCAmelCase = value[0] _lowerCAmelCase = value else: # leaf nodes _lowerCAmelCase = [] for leaf in content.split(R"""<sep/>""" ): _lowerCAmelCase = leaf.strip() if leaf in added_vocab and leaf[0] == "<" and leaf[-2:] == "/>": _lowerCAmelCase = leaf[1:-2] # for categorical special tokens output[key].append(__snake_case ) if len(output[key] ) == 1: _lowerCAmelCase = output[key][0] _lowerCAmelCase = tokens[tokens.find(__snake_case ) + len(__snake_case ) :].strip() if tokens[:6] == r"<sep/>": # non-leaf nodes return [output] + self.tokenajson(tokens[6:] , is_inner_value=__snake_case , added_vocab=__snake_case ) if len(__snake_case ): return [output] if is_inner_value else output else: return [] if is_inner_value else {"text_sequence": tokens} @property def lowercase__ ( self : Optional[int] ) -> Union[str, Any]: warnings.warn( """`feature_extractor_class` is deprecated and will be removed in v5. Use `image_processor_class` instead.""" , __snake_case , ) return self.image_processor_class @property def lowercase__ ( self : List[Any] ) -> Any: warnings.warn( """`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.""" , __snake_case , ) return self.image_processor
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"""simple docstring""" import unittest import numpy as np from transformers import AlbertConfig, is_flax_available from transformers.testing_utils import require_flax, slow from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask if is_flax_available(): import jax.numpy as jnp from transformers.models.albert.modeling_flax_albert import ( FlaxAlbertForMaskedLM, FlaxAlbertForMultipleChoice, FlaxAlbertForPreTraining, FlaxAlbertForQuestionAnswering, FlaxAlbertForSequenceClassification, FlaxAlbertForTokenClassification, FlaxAlbertModel, ) class __A ( unittest.TestCase ): """simple docstring""" def __init__( self , __A , __A=13 , __A=7 , __A=True , __A=True , __A=True , __A=True , __A=99 , __A=32 , __A=5 , __A=4 , __A=37 , __A="gelu" , __A=0.1 , __A=0.1 , __A=512 , __A=16 , __A=2 , __A=0.02 , __A=4 , ) -> int: a =parent a =batch_size a =seq_length a =is_training a =use_attention_mask a =use_token_type_ids a =use_labels a =vocab_size a =hidden_size a =num_hidden_layers a =num_attention_heads a =intermediate_size a =hidden_act a =hidden_dropout_prob a =attention_probs_dropout_prob a =max_position_embeddings a =type_vocab_size a =type_sequence_label_size a =initializer_range a =num_choices def SCREAMING_SNAKE_CASE ( self ) -> Tuple: a =ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) a =None if self.use_attention_mask: a =random_attention_mask([self.batch_size, self.seq_length] ) a =None if self.use_token_type_ids: a =ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size ) a =AlbertConfig( 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 , type_vocab_size=self.type_vocab_size , is_decoder=__snake_case , initializer_range=self.initializer_range , ) return config, input_ids, token_type_ids, attention_mask def SCREAMING_SNAKE_CASE ( self ) -> str: a =self.prepare_config_and_inputs() a , a , a , a =config_and_inputs a ={'''input_ids''': input_ids, '''token_type_ids''': token_type_ids, '''attention_mask''': attention_mask} return config, inputs_dict @require_flax class __A ( snake_case_, unittest.TestCase ): """simple docstring""" __lowerCAmelCase = ( ( FlaxAlbertModel, FlaxAlbertForPreTraining, FlaxAlbertForMaskedLM, FlaxAlbertForMultipleChoice, FlaxAlbertForQuestionAnswering, FlaxAlbertForSequenceClassification, FlaxAlbertForTokenClassification, FlaxAlbertForQuestionAnswering, ) if is_flax_available() else () ) def SCREAMING_SNAKE_CASE ( self ) -> Optional[int]: a =FlaxAlbertModelTester(self ) @slow def SCREAMING_SNAKE_CASE ( self ) -> Optional[Any]: for model_class_name in self.all_model_classes: a =model_class_name.from_pretrained('''albert-base-v2''' ) a =model(np.ones((1, 1) ) ) self.assertIsNotNone(__snake_case ) @require_flax class __A ( unittest.TestCase ): """simple docstring""" @slow def SCREAMING_SNAKE_CASE ( self ) -> Tuple: a =FlaxAlbertModel.from_pretrained('''albert-base-v2''' ) a =np.array([[0, 345, 232, 328, 740, 140, 1695, 69, 6078, 1588, 2]] ) a =np.array([[0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]] ) a =model(__snake_case , attention_mask=__snake_case )[0] a =(1, 11, 768) self.assertEqual(output.shape , __snake_case ) a =np.array( [[[-0.6_513, 1.5_035, -0.2_766], [-0.6_515, 1.5_046, -0.2_780], [-0.6_512, 1.5_049, -0.2_784]]] ) self.assertTrue(jnp.allclose(output[:, 1:4, 1:4] , __snake_case , atol=1E-4 ) )
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'''simple docstring''' from __future__ import annotations import math def UpperCamelCase__ ( lowerCAmelCase ): """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(lowerCAmelCase ) + 1 ) , 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True A__ : Optional[Any] =[num for num in range(3, 10_00_01, 2) if not is_prime(num)] def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if not isinstance(lowerCAmelCase , lowerCAmelCase ): raise ValueError("""n must be an integer""" ) if n <= 0: raise ValueError("""n must be >= 0""" ) _lowerCAmelCase = [] for num in range(len(lowerCAmelCase ) ): _lowerCAmelCase = 0 while 2 * i * i <= odd_composites[num]: _lowerCAmelCase = odd_composites[num] - 2 * i * i if is_prime(lowerCAmelCase ): break i += 1 else: list_nums.append(odd_composites[num] ) if len(lowerCAmelCase ) == n: return list_nums return [] def UpperCamelCase__ ( ): """simple docstring""" return compute_nums(1 )[0] if __name__ == "__main__": print(F"""{solution() = }""")
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"""simple docstring""" def _lowerCAmelCase ( lowercase_ ): UpperCAmelCase = current_set.copy() for row_index, row in enumerate(lowercase_ ): UpperCAmelCase = row[0] for column_index, column in enumerate(lowercase_ ): if magnitude == 0: UpperCAmelCase = column continue UpperCAmelCase = column / magnitude # Subtract to cancel term UpperCAmelCase = current_set[0] UpperCAmelCase = [first_row] UpperCAmelCase = current_set[1::] for row in current_set: UpperCAmelCase = [] # If first term is 0, it is already in form we want, so we preserve it if row[0] == 0: final_set.append(lowercase_ ) continue for column_index in range(len(lowercase_ ) ): temp_row.append(first_row[column_index] - row[column_index] ) final_set.append(lowercase_ ) # Create next recursion iteration set if len(final_set[0] ) != 3: UpperCAmelCase = final_set[0] UpperCAmelCase = [] UpperCAmelCase = [] for row in final_set[1::]: current_first_column.append(row[0] ) next_iteration.append(row[1::] ) UpperCAmelCase = simplify(lowercase_ ) for i in range(len(lowercase_ ) ): resultant[i].insert(0 , current_first_column[i] ) resultant.insert(0 , lowercase_ ) UpperCAmelCase = resultant return final_set def _lowerCAmelCase ( lowercase_ ): if len(lowercase_ ) == 0: raise IndexError('solve_simultaneous() requires n lists of length n+1' ) UpperCAmelCase = len(lowercase_ ) + 1 if any(len(lowercase_ ) != _length for item in equations ): raise IndexError('solve_simultaneous() requires n lists of length n+1' ) for row in equations: if any(not isinstance(lowercase_ , (int, float) ) for column in row ): raise ValueError('solve_simultaneous() requires lists of integers' ) if len(lowercase_ ) == 1: return [equations[0][-1] / equations[0][0]] UpperCAmelCase = equations.copy() if any(0 in row for row in data_set ): UpperCAmelCase = data_set.copy() UpperCAmelCase = [] for row_index, row in enumerate(lowercase_ ): if 0 not in row: UpperCAmelCase = data_set.pop(lowercase_ ) break if not full_row: raise ValueError('solve_simultaneous() requires at least 1 full equation' ) data_set.insert(0 , lowercase_ ) UpperCAmelCase = data_set.copy() UpperCAmelCase = simplify(lowercase_ ) UpperCAmelCase = simplified[::-1] UpperCAmelCase = [] for row in simplified: UpperCAmelCase = row[-1] if not solutions: if row[-2] == 0: solutions.append(0 ) continue solutions.append(current_solution / row[-2] ) continue UpperCAmelCase = row.copy()[: len(lowercase_ ) - 1 :] while temp_row[0] == 0: temp_row.pop(0 ) if len(lowercase_ ) == 0: solutions.append(0 ) continue UpperCAmelCase = temp_row[1::] UpperCAmelCase = temp_row[::-1] for column_index, column in enumerate(lowercase_ ): current_solution -= column * solutions[column_index] solutions.append(lowercase_ ) UpperCAmelCase = [] for item in solutions: final.append(float(round(lowercase_ , 5 ) ) ) return final[::-1] if __name__ == "__main__": import doctest doctest.testmod() snake_case_ = [ [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''' import argparse import json from tqdm import tqdm def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = argparse.ArgumentParser() # Required parameters parser.add_argument( """--src_path""" , type=lowerCAmelCase , default="""biencoder-nq-dev.json""" , help="""Path to raw DPR training data""" , ) parser.add_argument( """--evaluation_set""" , type=lowerCAmelCase , help="""where to store parsed evaluation_set file""" , ) parser.add_argument( """--gold_data_path""" , type=lowerCAmelCase , help="""where to store parsed gold_data_path file""" , ) _lowerCAmelCase = parser.parse_args() with open(args.src_path , """r""" ) as src_file, open(args.evaluation_set , """w""" ) as eval_file, open( args.gold_data_path , """w""" ) as gold_file: _lowerCAmelCase = json.load(lowerCAmelCase ) for dpr_record in tqdm(lowerCAmelCase ): _lowerCAmelCase = dpr_record["""question"""] _lowerCAmelCase = [context["""title"""] for context in dpr_record["""positive_ctxs"""]] eval_file.write(question + """\n""" ) gold_file.write("""\t""".join(lowerCAmelCase ) + """\n""" ) if __name__ == "__main__": main()
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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available __SCREAMING_SNAKE_CASE ={ '''configuration_lilt''': ['''LILT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LiltConfig'''], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __SCREAMING_SNAKE_CASE =[ '''LILT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''LiltForQuestionAnswering''', '''LiltForSequenceClassification''', '''LiltForTokenClassification''', '''LiltModel''', '''LiltPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_lilt import LILT_PRETRAINED_CONFIG_ARCHIVE_MAP, LiltConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lilt import ( LILT_PRETRAINED_MODEL_ARCHIVE_LIST, LiltForQuestionAnswering, LiltForSequenceClassification, LiltForTokenClassification, LiltModel, LiltPreTrainedModel, ) else: import sys __SCREAMING_SNAKE_CASE =_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_torch_available A__ : Optional[Any] ={ '''configuration_bigbird_pegasus''': [ '''BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''BigBirdPegasusConfig''', '''BigBirdPegasusOnnxConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : Union[str, Any] =[ '''BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST''', '''BigBirdPegasusForCausalLM''', '''BigBirdPegasusForConditionalGeneration''', '''BigBirdPegasusForQuestionAnswering''', '''BigBirdPegasusForSequenceClassification''', '''BigBirdPegasusModel''', '''BigBirdPegasusPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP, BigBirdPegasusConfig, BigBirdPegasusOnnxConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST, BigBirdPegasusForCausalLM, BigBirdPegasusForConditionalGeneration, BigBirdPegasusForQuestionAnswering, BigBirdPegasusForSequenceClassification, BigBirdPegasusModel, BigBirdPegasusPreTrainedModel, ) else: import sys A__ : Optional[Any] =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
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import unittest from transformers import is_torch_available from transformers.testing_utils import require_sentencepiece, require_tokenizers, require_torch, slow, torch_device if is_torch_available(): from transformers import AutoModelForSeqaSeqLM, AutoTokenizer @require_torch @require_sentencepiece @require_tokenizers class UpperCamelCase__ ( unittest.TestCase ): '''simple docstring''' @slow def SCREAMING_SNAKE_CASE__ ( self : List[Any] ) -> str: '''simple docstring''' SCREAMING_SNAKE_CASE = AutoModelForSeqaSeqLM.from_pretrained("""google/mt5-small""" ,return_dict=__snake_case ).to(__snake_case ) SCREAMING_SNAKE_CASE = AutoTokenizer.from_pretrained("""google/mt5-small""" ) SCREAMING_SNAKE_CASE = tokenizer("""Hello there""" ,return_tensors="""pt""" ).input_ids SCREAMING_SNAKE_CASE = tokenizer("""Hi I am""" ,return_tensors="""pt""" ).input_ids SCREAMING_SNAKE_CASE = model(input_ids.to(__snake_case ) ,labels=labels.to(__snake_case ) ).loss SCREAMING_SNAKE_CASE = -(labels.shape[-1] * loss.item()) SCREAMING_SNAKE_CASE = -84.9127 self.assertTrue(abs(mtf_score - EXPECTED_SCORE ) < 1e-4 )
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'''simple docstring''' import math from typing import Callable, List, Optional, Union import numpy as np import PIL import torch from PIL import Image from transformers import CLIPTextModel, CLIPTokenizer from diffusers.models import AutoencoderKL, UNetaDConditionModel from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_upscale import StableDiffusionUpscalePipeline from diffusers.schedulers import DDIMScheduler, DDPMScheduler, LMSDiscreteScheduler, PNDMScheduler def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase=[] ): """simple docstring""" _lowerCAmelCase = size[0] - overlap_pixels * 2 _lowerCAmelCase = size[1] - overlap_pixels * 2 for letter in ["l", "r"]: if letter in remove_borders: size_x += overlap_pixels for letter in ["t", "b"]: if letter in remove_borders: size_y += overlap_pixels _lowerCAmelCase = np.ones((size_y, size_x) , dtype=np.uinta ) * 2_55 _lowerCAmelCase = np.pad(lowerCAmelCase , mode="""linear_ramp""" , pad_width=lowerCAmelCase , end_values=0 ) if "l" in remove_borders: _lowerCAmelCase = mask[:, overlap_pixels : mask.shape[1]] if "r" in remove_borders: _lowerCAmelCase = mask[:, 0 : mask.shape[1] - overlap_pixels] if "t" in remove_borders: _lowerCAmelCase = mask[overlap_pixels : mask.shape[0], :] if "b" in remove_borders: _lowerCAmelCase = mask[0 : mask.shape[0] - overlap_pixels, :] return mask def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" return max(lowerCAmelCase , min(lowerCAmelCase , lowerCAmelCase ) ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" return ( clamp(rect[0] , min[0] , max[0] ), clamp(rect[1] , min[1] , max[1] ), clamp(rect[2] , min[0] , max[0] ), clamp(rect[3] , min[1] , max[1] ), ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = list(lowerCAmelCase ) rect[0] -= overlap rect[1] -= overlap rect[2] += overlap rect[3] += overlap _lowerCAmelCase = clamp_rect(lowerCAmelCase , [0, 0] , [image_size[0], image_size[1]] ) return rect def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = Image.new("""RGB""" , (tile.size[0] + original_slice, tile.size[1]) ) result.paste( original_image.resize((tile.size[0], tile.size[1]) , Image.BICUBIC ).crop( (slice_x, 0, slice_x + original_slice, tile.size[1]) ) , (0, 0) , ) result.paste(lowerCAmelCase , (original_slice, 0) ) return result def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = (original_image_slice * 4, 0, tile.size[0], tile.size[1]) _lowerCAmelCase = tile.crop(lowerCAmelCase ) return tile def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = n % d return n - divisor class UpperCAmelCase ( snake_case_ ): def __init__( self : List[Any] , __snake_case : AutoencoderKL , __snake_case : CLIPTextModel , __snake_case : CLIPTokenizer , __snake_case : UNetaDConditionModel , __snake_case : DDPMScheduler , __snake_case : Union[DDIMScheduler, PNDMScheduler, LMSDiscreteScheduler] , __snake_case : int = 3_50 , ) -> int: super().__init__( vae=__snake_case , text_encoder=__snake_case , tokenizer=__snake_case , unet=__snake_case , low_res_scheduler=__snake_case , scheduler=__snake_case , max_noise_level=__snake_case , ) def lowercase__ ( self : List[Any] , __snake_case : List[Any] , __snake_case : List[Any] , __snake_case : Dict , __snake_case : List[Any] , __snake_case : int , __snake_case : Optional[Any] , __snake_case : Any , **__snake_case : str ) -> int: torch.manual_seed(0 ) _lowerCAmelCase = ( min(image.size[0] - (tile_size + original_image_slice) , x * tile_size ), min(image.size[1] - (tile_size + original_image_slice) , y * tile_size ), min(image.size[0] , (x + 1) * tile_size ), min(image.size[1] , (y + 1) * tile_size ), ) _lowerCAmelCase = add_overlap_rect(__snake_case , __snake_case , image.size ) _lowerCAmelCase = image.crop(__snake_case ) _lowerCAmelCase = ((crop_rect[0] + ((crop_rect[2] - crop_rect[0]) / 2)) / image.size[0]) * tile.size[0] _lowerCAmelCase = translated_slice_x - (original_image_slice / 2) _lowerCAmelCase = max(0 , __snake_case ) _lowerCAmelCase = squeeze_tile(__snake_case , __snake_case , __snake_case , __snake_case ) _lowerCAmelCase = to_input.size _lowerCAmelCase = to_input.resize((tile_size, tile_size) , Image.BICUBIC ) _lowerCAmelCase = super(__snake_case , self ).__call__(image=__snake_case , **__snake_case ).images[0] _lowerCAmelCase = upscaled_tile.resize((orig_input_size[0] * 4, orig_input_size[1] * 4) , Image.BICUBIC ) _lowerCAmelCase = unsqueeze_tile(__snake_case , __snake_case ) _lowerCAmelCase = upscaled_tile.resize((tile.size[0] * 4, tile.size[1] * 4) , Image.BICUBIC ) _lowerCAmelCase = [] if x == 0: remove_borders.append("""l""" ) elif crop_rect[2] == image.size[0]: remove_borders.append("""r""" ) if y == 0: remove_borders.append("""t""" ) elif crop_rect[3] == image.size[1]: remove_borders.append("""b""" ) _lowerCAmelCase = Image.fromarray( make_transparency_mask( (upscaled_tile.size[0], upscaled_tile.size[1]) , tile_border * 4 , remove_borders=__snake_case ) , mode="""L""" , ) final_image.paste( __snake_case , (crop_rect_with_overlap[0] * 4, crop_rect_with_overlap[1] * 4) , __snake_case ) @torch.no_grad() def __call__( self : Union[str, Any] , __snake_case : Union[str, List[str]] , __snake_case : Union[PIL.Image.Image, List[PIL.Image.Image]] , __snake_case : int = 75 , __snake_case : float = 9.0 , __snake_case : int = 50 , __snake_case : Optional[Union[str, List[str]]] = None , __snake_case : Optional[int] = 1 , __snake_case : float = 0.0 , __snake_case : Optional[torch.Generator] = None , __snake_case : Optional[torch.FloatTensor] = None , __snake_case : Optional[Callable[[int, int, torch.FloatTensor], None]] = None , __snake_case : int = 1 , __snake_case : int = 1_28 , __snake_case : int = 32 , __snake_case : int = 32 , ) -> str: _lowerCAmelCase = Image.new("""RGB""" , (image.size[0] * 4, image.size[1] * 4) ) _lowerCAmelCase = math.ceil(image.size[0] / tile_size ) _lowerCAmelCase = math.ceil(image.size[1] / tile_size ) _lowerCAmelCase = tcx * tcy _lowerCAmelCase = 0 for y in range(__snake_case ): for x in range(__snake_case ): self._process_tile( __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , prompt=__snake_case , num_inference_steps=__snake_case , guidance_scale=__snake_case , noise_level=__snake_case , negative_prompt=__snake_case , num_images_per_prompt=__snake_case , eta=__snake_case , generator=__snake_case , latents=__snake_case , ) current_count += 1 if callback is not None: callback({"""progress""": current_count / total_tile_count, """image""": final_image} ) return final_image def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = """stabilityai/stable-diffusion-x4-upscaler""" _lowerCAmelCase = StableDiffusionTiledUpscalePipeline.from_pretrained(lowerCAmelCase , revision="""fp16""" , torch_dtype=torch.floataa ) _lowerCAmelCase = pipe.to("""cuda""" ) _lowerCAmelCase = Image.open("""../../docs/source/imgs/diffusers_library.jpg""" ) def callback(lowerCAmelCase ): print(f"progress: {obj['progress']:.4f}" ) obj["image"].save("""diffusers_library_progress.jpg""" ) _lowerCAmelCase = pipe(image=lowerCAmelCase , prompt="""Black font, white background, vector""" , noise_level=40 , callback=lowerCAmelCase ) final_image.save("""diffusers_library.jpg""" ) if __name__ == "__main__": main()
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"""simple docstring""" from .glue import GlueDataset, GlueDataTrainingArguments from .language_modeling import ( LineByLineTextDataset, LineByLineWithRefDataset, LineByLineWithSOPTextDataset, TextDataset, TextDatasetForNextSentencePrediction, ) from .squad import SquadDataset, SquadDataTrainingArguments
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'''simple docstring''' import gc import random import unittest import numpy as np import torch from PIL import Image from diffusers import ( DDIMScheduler, KandinskyVaaImgaImgPipeline, KandinskyVaaPriorPipeline, UNetaDConditionModel, VQModel, ) from diffusers.utils import floats_tensor, load_image, load_numpy, slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference enable_full_determinism() class UpperCAmelCase ( snake_case_ , unittest.TestCase ): _lowercase: int = KandinskyVaaImgaImgPipeline _lowercase: List[str] = ['''image_embeds''', '''negative_image_embeds''', '''image'''] _lowercase: Optional[int] = [ '''image_embeds''', '''negative_image_embeds''', '''image''', ] _lowercase: Tuple = [ '''generator''', '''height''', '''width''', '''strength''', '''guidance_scale''', '''num_inference_steps''', '''return_dict''', '''guidance_scale''', '''num_images_per_prompt''', '''output_type''', '''return_dict''', ] _lowercase: List[str] = False @property def lowercase__ ( self : str ) -> List[str]: return 32 @property def lowercase__ ( self : Optional[int] ) -> List[Any]: return 32 @property def lowercase__ ( self : Tuple ) -> str: return self.time_input_dim @property def lowercase__ ( self : Any ) -> Optional[int]: return self.time_input_dim * 4 @property def lowercase__ ( self : int ) -> Optional[Any]: return 1_00 @property def lowercase__ ( self : int ) -> Dict: torch.manual_seed(0 ) _lowerCAmelCase = { """in_channels""": 4, # Out channels is double in channels because predicts mean and variance """out_channels""": 8, """addition_embed_type""": """image""", """down_block_types""": ("""ResnetDownsampleBlock2D""", """SimpleCrossAttnDownBlock2D"""), """up_block_types""": ("""SimpleCrossAttnUpBlock2D""", """ResnetUpsampleBlock2D"""), """mid_block_type""": """UNetMidBlock2DSimpleCrossAttn""", """block_out_channels""": (self.block_out_channels_a, self.block_out_channels_a * 2), """layers_per_block""": 1, """encoder_hid_dim""": self.text_embedder_hidden_size, """encoder_hid_dim_type""": """image_proj""", """cross_attention_dim""": self.cross_attention_dim, """attention_head_dim""": 4, """resnet_time_scale_shift""": """scale_shift""", """class_embed_type""": None, } _lowerCAmelCase = UNetaDConditionModel(**__snake_case ) return model @property def lowercase__ ( self : Union[str, Any] ) -> Tuple: return { "block_out_channels": [32, 64], "down_block_types": ["DownEncoderBlock2D", "AttnDownEncoderBlock2D"], "in_channels": 3, "latent_channels": 4, "layers_per_block": 1, "norm_num_groups": 8, "norm_type": "spatial", "num_vq_embeddings": 12, "out_channels": 3, "up_block_types": [ "AttnUpDecoderBlock2D", "UpDecoderBlock2D", ], "vq_embed_dim": 4, } @property def lowercase__ ( self : Dict ) -> str: torch.manual_seed(0 ) _lowerCAmelCase = VQModel(**self.dummy_movq_kwargs ) return model def lowercase__ ( self : Optional[int] ) -> Optional[int]: _lowerCAmelCase = self.dummy_unet _lowerCAmelCase = self.dummy_movq _lowerCAmelCase = { """num_train_timesteps""": 10_00, """beta_schedule""": """linear""", """beta_start""": 0.0_00_85, """beta_end""": 0.0_12, """clip_sample""": False, """set_alpha_to_one""": False, """steps_offset""": 0, """prediction_type""": """epsilon""", """thresholding""": False, } _lowerCAmelCase = DDIMScheduler(**__snake_case ) _lowerCAmelCase = { """unet""": unet, """scheduler""": scheduler, """movq""": movq, } return components def lowercase__ ( self : int , __snake_case : List[str] , __snake_case : List[Any]=0 ) -> Union[str, Any]: _lowerCAmelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(seed + 1 ) ).to( __snake_case ) # create init_image _lowerCAmelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((2_56, 2_56) ) if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = { """image""": init_image, """image_embeds""": image_embeds, """negative_image_embeds""": negative_image_embeds, """generator""": generator, """height""": 64, """width""": 64, """num_inference_steps""": 10, """guidance_scale""": 7.0, """strength""": 0.2, """output_type""": """np""", } return inputs def lowercase__ ( self : str ) -> Tuple: _lowerCAmelCase = """cpu""" _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) _lowerCAmelCase = pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = pipe(**self.get_dummy_inputs(__snake_case ) ) _lowerCAmelCase = output.images _lowerCAmelCase = pipe( **self.get_dummy_inputs(__snake_case ) , return_dict=__snake_case , )[0] _lowerCAmelCase = image[0, -3:, -3:, -1] _lowerCAmelCase = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) _lowerCAmelCase = np.array( [0.6_19_97_78, 0.63_98_44_06, 0.46_14_57_85, 0.62_94_49_84, 0.5_62_22_15, 0.47_30_61_32, 0.47_44_14_56, 0.4_60_76_06, 0.48_71_92_63] ) assert ( np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 ), f" expected_slice {expected_slice}, but got {image_slice.flatten()}" assert ( np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 ), f" expected_slice {expected_slice}, but got {image_from_tuple_slice.flatten()}" @slow @require_torch_gpu class UpperCAmelCase ( unittest.TestCase ): def lowercase__ ( self : Any ) -> List[Any]: # clean up the VRAM after each test super().tearDown() gc.collect() torch.cuda.empty_cache() def lowercase__ ( self : int ) -> Dict: _lowerCAmelCase = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/kandinskyv22/kandinskyv22_img2img_frog.npy""" ) _lowerCAmelCase = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/kandinsky/cat.png""" ) _lowerCAmelCase = """A red cartoon frog, 4k""" _lowerCAmelCase = KandinskyVaaPriorPipeline.from_pretrained( """kandinsky-community/kandinsky-2-2-prior""" , torch_dtype=torch.floataa ) pipe_prior.to(__snake_case ) _lowerCAmelCase = KandinskyVaaImgaImgPipeline.from_pretrained( """kandinsky-community/kandinsky-2-2-decoder""" , torch_dtype=torch.floataa ) _lowerCAmelCase = pipeline.to(__snake_case ) pipeline.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = torch.Generator(device="""cpu""" ).manual_seed(0 ) _lowerCAmelCase , _lowerCAmelCase = pipe_prior( __snake_case , generator=__snake_case , num_inference_steps=5 , negative_prompt="""""" , ).to_tuple() _lowerCAmelCase = pipeline( image=__snake_case , image_embeds=__snake_case , negative_image_embeds=__snake_case , generator=__snake_case , num_inference_steps=1_00 , height=7_68 , width=7_68 , strength=0.2 , output_type="""np""" , ) _lowerCAmelCase = output.images[0] assert image.shape == (7_68, 7_68, 3) assert_mean_pixel_difference(__snake_case , __snake_case )
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from argparse import ArgumentParser from .add_new_model import AddNewModelCommand from .add_new_model_like import AddNewModelLikeCommand from .convert import ConvertCommand from .download import DownloadCommand from .env import EnvironmentCommand from .lfs import LfsCommands from .pt_to_tf import PTtoTFCommand from .run import RunCommand from .serving import ServeCommand from .user import UserCommands def _lowercase ( ): __lowerCAmelCase : Optional[Any] = ArgumentParser('''Transformers CLI tool''' , usage='''transformers-cli <command> [<args>]''' ) __lowerCAmelCase : List[Any] = parser.add_subparsers(help='''transformers-cli command helpers''' ) # Register commands ConvertCommand.register_subcommand(lowercase__ ) DownloadCommand.register_subcommand(lowercase__ ) EnvironmentCommand.register_subcommand(lowercase__ ) RunCommand.register_subcommand(lowercase__ ) ServeCommand.register_subcommand(lowercase__ ) UserCommands.register_subcommand(lowercase__ ) AddNewModelCommand.register_subcommand(lowercase__ ) AddNewModelLikeCommand.register_subcommand(lowercase__ ) LfsCommands.register_subcommand(lowercase__ ) PTtoTFCommand.register_subcommand(lowercase__ ) # Let's go __lowerCAmelCase : Any = parser.parse_args() if not hasattr(lowercase__ , '''func''' ): parser.print_help() exit(1 ) # Run __lowerCAmelCase : Optional[Any] = args.func(lowercase__ ) service.run() if __name__ == "__main__": main()
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'''simple docstring''' import inspect import unittest from transformers import SegformerConfig, is_torch_available, is_vision_available from transformers.models.auto import get_values from transformers.testing_utils import require_torch, slow, torch_device from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( MODEL_MAPPING, SegformerForImageClassification, SegformerForSemanticSegmentation, SegformerModel, ) from transformers.models.segformer.modeling_segformer import SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import SegformerImageProcessor class UpperCAmelCase ( snake_case_ ): def lowercase__ ( self : List[Any] ) -> Union[str, Any]: _lowerCAmelCase = self.config_class(**self.inputs_dict ) self.parent.assertTrue(hasattr(__snake_case , """hidden_sizes""" ) ) self.parent.assertTrue(hasattr(__snake_case , """num_attention_heads""" ) ) self.parent.assertTrue(hasattr(__snake_case , """num_encoder_blocks""" ) ) class UpperCAmelCase : def __init__( self : Optional[int] , __snake_case : str , __snake_case : Dict=13 , __snake_case : str=64 , __snake_case : Dict=3 , __snake_case : Dict=4 , __snake_case : Tuple=[2, 2, 2, 2] , __snake_case : int=[8, 4, 2, 1] , __snake_case : List[str]=[16, 32, 64, 1_28] , __snake_case : Optional[Any]=[1, 4, 8, 16] , __snake_case : Dict=[1, 2, 4, 8] , __snake_case : Optional[Any]=True , __snake_case : List[str]=True , __snake_case : int="gelu" , __snake_case : Optional[Any]=0.1 , __snake_case : Any=0.1 , __snake_case : Tuple=0.02 , __snake_case : Union[str, Any]=3 , __snake_case : Tuple=None , ) -> List[str]: _lowerCAmelCase = parent _lowerCAmelCase = batch_size _lowerCAmelCase = image_size _lowerCAmelCase = num_channels _lowerCAmelCase = num_encoder_blocks _lowerCAmelCase = sr_ratios _lowerCAmelCase = depths _lowerCAmelCase = hidden_sizes _lowerCAmelCase = downsampling_rates _lowerCAmelCase = num_attention_heads _lowerCAmelCase = is_training _lowerCAmelCase = use_labels _lowerCAmelCase = hidden_act _lowerCAmelCase = hidden_dropout_prob _lowerCAmelCase = attention_probs_dropout_prob _lowerCAmelCase = initializer_range _lowerCAmelCase = num_labels _lowerCAmelCase = scope def lowercase__ ( self : int ) -> Union[str, Any]: _lowerCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) _lowerCAmelCase = None if self.use_labels: _lowerCAmelCase = ids_tensor([self.batch_size, self.image_size, self.image_size] , self.num_labels ) _lowerCAmelCase = self.get_config() return config, pixel_values, labels def lowercase__ ( self : List[Any] ) -> List[str]: return SegformerConfig( image_size=self.image_size , num_channels=self.num_channels , num_encoder_blocks=self.num_encoder_blocks , depths=self.depths , hidden_sizes=self.hidden_sizes , num_attention_heads=self.num_attention_heads , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , initializer_range=self.initializer_range , ) def lowercase__ ( self : Tuple , __snake_case : Optional[Any] , __snake_case : Union[str, Any] , __snake_case : Optional[int] ) -> Tuple: _lowerCAmelCase = SegformerModel(config=__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = _lowerCAmelCase = self.image_size // (self.downsampling_rates[-1] * 2) self.parent.assertEqual( result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], expected_height, expected_width) ) def lowercase__ ( self : List[str] , __snake_case : List[Any] , __snake_case : Optional[Any] , __snake_case : Optional[int] ) -> List[str]: _lowerCAmelCase = self.num_labels _lowerCAmelCase = SegformerForSemanticSegmentation(__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = model(__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) _lowerCAmelCase = model(__snake_case , labels=__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) self.parent.assertGreater(result.loss , 0.0 ) def lowercase__ ( self : str , __snake_case : Union[str, Any] , __snake_case : Optional[int] , __snake_case : Dict ) -> List[str]: _lowerCAmelCase = 1 _lowerCAmelCase = SegformerForSemanticSegmentation(config=__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = torch.randint(0 , 1 , (self.batch_size, self.image_size, self.image_size) ).to(__snake_case ) _lowerCAmelCase = model(__snake_case , labels=__snake_case ) self.parent.assertGreater(result.loss , 0.0 ) def lowercase__ ( self : Optional[int] ) -> int: _lowerCAmelCase = self.prepare_config_and_inputs() _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = config_and_inputs _lowerCAmelCase = {"""pixel_values""": pixel_values} return config, inputs_dict @require_torch class UpperCAmelCase ( snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Any = ( ( SegformerModel, SegformerForSemanticSegmentation, SegformerForImageClassification, ) if is_torch_available() else () ) _lowercase: Tuple = ( { '''feature-extraction''': SegformerModel, '''image-classification''': SegformerForImageClassification, '''image-segmentation''': SegformerForSemanticSegmentation, } if is_torch_available() else {} ) _lowercase: Tuple = True _lowercase: Union[str, Any] = False _lowercase: Dict = False _lowercase: Optional[Any] = False def lowercase__ ( self : Tuple ) -> Any: _lowerCAmelCase = SegformerModelTester(self ) _lowerCAmelCase = SegformerConfigTester(self , config_class=__snake_case ) def lowercase__ ( self : Optional[Any] ) -> Dict: self.config_tester.run_common_tests() def lowercase__ ( self : int ) -> Union[str, Any]: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__snake_case ) def lowercase__ ( self : Dict ) -> int: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_binary_image_segmentation(*__snake_case ) def lowercase__ ( self : Dict ) -> Dict: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_segmentation(*__snake_case ) @unittest.skip("""SegFormer does not use inputs_embeds""" ) def lowercase__ ( self : int ) -> Union[str, Any]: pass @unittest.skip("""SegFormer does not have get_input_embeddings method and get_output_embeddings methods""" ) def lowercase__ ( self : Optional[int] ) -> int: pass def lowercase__ ( self : Union[str, Any] ) -> Optional[Any]: _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCAmelCase = model_class(__snake_case ) _lowerCAmelCase = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCAmelCase = [*signature.parameters.keys()] _lowerCAmelCase = ["""pixel_values"""] self.assertListEqual(arg_names[:1] , __snake_case ) def lowercase__ ( self : Tuple ) -> Tuple: _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() _lowerCAmelCase = True for model_class in self.all_model_classes: _lowerCAmelCase = True _lowerCAmelCase = False _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.attentions _lowerCAmelCase = sum(self.model_tester.depths ) self.assertEqual(len(__snake_case ) , __snake_case ) # check that output_attentions also work using config del inputs_dict["output_attentions"] _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) _lowerCAmelCase = (self.model_tester.image_size // 4) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) # verify the last attentions (last block, last layer) _lowerCAmelCase = (self.model_tester.image_size // 32) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (32 * self.model_tester.sr_ratios[-1])) ** 2 self.assertListEqual( list(attentions[-1].shape[-3:] ) , [self.model_tester.num_attention_heads[-1], expected_seq_len, expected_reduced_seq_len] , ) _lowerCAmelCase = len(__snake_case ) # Check attention is always last and order is fine _lowerCAmelCase = True _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) self.assertEqual(out_len + 1 , len(__snake_case ) ) _lowerCAmelCase = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) _lowerCAmelCase = (self.model_tester.image_size // 4) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(self_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) def lowercase__ ( self : int ) -> List[str]: def check_hidden_states_output(__snake_case : str , __snake_case : Tuple , __snake_case : Optional[int] ): _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.hidden_states _lowerCAmelCase = self.model_tester.num_encoder_blocks self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first hidden states (first block) self.assertListEqual( list(hidden_states[0].shape[-3:] ) , [ self.model_tester.hidden_sizes[0], self.model_tester.image_size // 4, self.model_tester.image_size // 4, ] , ) _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCAmelCase = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] _lowerCAmelCase = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) def lowercase__ ( self : Optional[Any] ) -> Any: if not self.model_tester.is_training: return _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() _lowerCAmelCase = True for model_class in self.all_model_classes: if model_class in get_values(__snake_case ): continue _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.train() _lowerCAmelCase = self._prepare_for_class(__snake_case , __snake_case , return_labels=__snake_case ) _lowerCAmelCase = model(**__snake_case ).loss loss.backward() @unittest.skip("""Will be fixed soon by reducing the size of the model used for common tests.""" ) def lowercase__ ( self : Tuple ) -> Dict: pass @slow def lowercase__ ( self : str ) -> Optional[int]: for model_name in SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowerCAmelCase = SegformerModel.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_torch class UpperCAmelCase ( unittest.TestCase ): @slow def lowercase__ ( self : Union[str, Any] ) -> Any: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained("""nvidia/segformer-b0-finetuned-ade-512-512""" ).to( __snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = torch.Size((1, model.config.num_labels, 1_28, 1_28) ) self.assertEqual(outputs.logits.shape , __snake_case ) _lowerCAmelCase = torch.tensor( [ [[-4.63_10, -5.52_32, -6.23_56], [-5.19_21, -6.14_44, -6.59_96], [-5.44_24, -6.27_90, -6.75_74]], [[-12.13_91, -13.31_22, -13.95_54], [-12.87_32, -13.93_52, -14.35_63], [-12.94_38, -13.82_26, -14.25_13]], [[-12.51_34, -13.46_86, -14.49_15], [-12.86_69, -14.43_43, -14.77_58], [-13.25_23, -14.58_19, -15.06_94]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1E-4 ) ) @slow def lowercase__ ( self : Optional[Any] ) -> Any: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained( """nvidia/segformer-b1-finetuned-cityscapes-1024-1024""" ).to(__snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = torch.Size((1, model.config.num_labels, 1_28, 1_28) ) self.assertEqual(outputs.logits.shape , __snake_case ) _lowerCAmelCase = torch.tensor( [ [[-13.57_48, -13.91_11, -12.65_00], [-14.35_00, -15.36_83, -14.23_28], [-14.75_32, -16.04_24, -15.60_87]], [[-17.16_51, -15.87_25, -12.96_53], [-17.25_80, -17.37_18, -14.82_23], [-16.60_58, -16.87_83, -16.74_52]], [[-3.64_56, -3.02_09, -1.42_03], [-3.07_97, -3.19_59, -2.00_00], [-1.87_57, -1.92_17, -1.69_97]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1E-1 ) ) @slow def lowercase__ ( self : Any ) -> str: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained("""nvidia/segformer-b0-finetuned-ade-512-512""" ).to( __snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = outputs.logits.detach().cpu() _lowerCAmelCase = image_processor.post_process_semantic_segmentation(outputs=__snake_case , target_sizes=[(5_00, 3_00)] ) _lowerCAmelCase = torch.Size((5_00, 3_00) ) self.assertEqual(segmentation[0].shape , __snake_case ) _lowerCAmelCase = image_processor.post_process_semantic_segmentation(outputs=__snake_case ) _lowerCAmelCase = torch.Size((1_28, 1_28) ) self.assertEqual(segmentation[0].shape , __snake_case )
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'''simple docstring''' from multiprocessing import Lock, Pipe, Process # lock used to ensure that two processes do not access a pipe at the same time lowerCamelCase_ = Lock() def __lowercase ( __lowercase , __lowercase , __lowercase , __lowercase , __lowercase , __lowercase , __lowercase ) -> List[str]: '''simple docstring''' global process_lock # we perform n swaps since after n swaps we know we are sorted # we *could* stop early if we are sorted already, but it takes as long to # find out we are sorted as it does to sort the list with this algorithm for i in range(0 , 10 ): if (i + position) % 2 == 0 and r_send is not None: # send your value to your right neighbor process_lock.acquire() r_send[1].send(__lowercase ) process_lock.release() # receive your right neighbor's value process_lock.acquire() _A = rr_cv[0].recv() process_lock.release() # take the lower value since you are on the left _A = min(__lowercase , __lowercase ) elif (i + position) % 2 != 0 and l_send is not None: # send your value to your left neighbor process_lock.acquire() l_send[1].send(__lowercase ) process_lock.release() # receive your left neighbor's value process_lock.acquire() _A = lr_cv[0].recv() process_lock.release() # take the higher value since you are on the right _A = max(__lowercase , __lowercase ) # after all swaps are performed, send the values back to main result_pipe[1].send(__lowercase ) def __lowercase ( __lowercase ) -> Any: '''simple docstring''' _A = [] _A = [] # initialize the list of pipes where the values will be retrieved for _ in arr: result_pipe.append(Pipe() ) # creates the processes # the first and last process only have one neighbor so they are made outside # of the loop _A = Pipe() _A = Pipe() process_array_.append( Process( target=__lowercase , args=(0, arr[0], None, temp_rs, None, temp_rr, result_pipe[0]) , ) ) _A = temp_rs _A = temp_rr for i in range(1 , len(__lowercase ) - 1 ): _A = Pipe() _A = Pipe() process_array_.append( Process( target=__lowercase , args=(i, arr[i], temp_ls, temp_rs, temp_lr, temp_rr, result_pipe[i]) , ) ) _A = temp_rs _A = temp_rr process_array_.append( Process( target=__lowercase , args=( len(__lowercase ) - 1, arr[len(__lowercase ) - 1], temp_ls, None, temp_lr, None, result_pipe[len(__lowercase ) - 1], ) , ) ) # start the processes for p in process_array_: p.start() # wait for the processes to end and write their values to the list for p in range(0 , len(__lowercase ) ): _A = result_pipe[p][0].recv() process_array_[p].join() return arr def __lowercase ( ) -> Any: '''simple docstring''' _A = list(range(10 , 0 , -1 ) ) print("Initial List" ) print(*__lowercase ) _A = odd_even_transposition(__lowercase ) print("Sorted List\n" ) print(*__lowercase ) if __name__ == "__main__": main()
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'''simple docstring''' from dataclasses import dataclass, field from typing import TYPE_CHECKING, Any, ClassVar, Dict, List, Optional, Union import pyarrow as pa if TYPE_CHECKING: from .features import FeatureType @dataclass class UpperCAmelCase : _lowercase: List[str] _lowercase: Optional[str] = None # Automatically constructed _lowercase: ClassVar[str] = "dict" _lowercase: ClassVar[Any] = None _lowercase: str = field(default='''Translation''' , init=snake_case_ , repr=snake_case_ ) def __call__( self : Optional[int] ) -> Optional[int]: return pa.struct({lang: pa.string() for lang in sorted(self.languages )} ) def lowercase__ ( self : Union[str, Any] ) -> Union["FeatureType", Dict[str, "FeatureType"]]: from .features import Value return {k: Value("""string""" ) for k in sorted(self.languages )} @dataclass class UpperCAmelCase : _lowercase: Optional[List] = None _lowercase: Optional[int] = None _lowercase: Optional[str] = None # Automatically constructed _lowercase: ClassVar[str] = "dict" _lowercase: ClassVar[Any] = None _lowercase: str = field(default='''TranslationVariableLanguages''' , init=snake_case_ , repr=snake_case_ ) def lowercase__ ( self : Any ) -> Optional[Any]: _lowerCAmelCase = sorted(set(self.languages ) ) if self.languages else None _lowerCAmelCase = len(self.languages ) if self.languages else None def __call__( self : List[str] ) -> Optional[Any]: return pa.struct({"""language""": pa.list_(pa.string() ), """translation""": pa.list_(pa.string() )} ) def lowercase__ ( self : Optional[Any] , __snake_case : Tuple ) -> Any: _lowerCAmelCase = set(self.languages ) if self.languages and set(__snake_case ) - lang_set: raise ValueError( f"Some languages in example ({', '.join(sorted(set(__snake_case ) - lang_set ) )}) are not in valid set ({', '.join(__snake_case )})." ) # Convert dictionary into tuples, splitting out cases where there are # multiple translations for a single language. _lowerCAmelCase = [] for lang, text in translation_dict.items(): if isinstance(__snake_case , __snake_case ): translation_tuples.append((lang, text) ) else: translation_tuples.extend([(lang, el) for el in text] ) # Ensure translations are in ascending order by language code. _lowerCAmelCase , _lowerCAmelCase = zip(*sorted(__snake_case ) ) return {"language": languages, "translation": translations} def lowercase__ ( self : str ) -> Union["FeatureType", Dict[str, "FeatureType"]]: from .features import Sequence, Value return { "language": Sequence(Value("""string""" ) ), "translation": Sequence(Value("""string""" ) ), }
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import unittest from transformers import MODEL_FOR_DOCUMENT_QUESTION_ANSWERING_MAPPING, AutoTokenizer, is_vision_available from transformers.pipelines import pipeline from transformers.pipelines.document_question_answering import apply_tesseract from transformers.testing_utils import ( is_pipeline_test, nested_simplify, require_detectrona, require_pytesseract, require_tf, require_torch, require_vision, slow, ) from .test_pipelines_common import ANY if is_vision_available(): from PIL import Image from transformers.image_utils import load_image else: class A_ : '''simple docstring''' @staticmethod def lowerCAmelCase_ (*lowercase__ , **lowercase__ ) -> Dict: pass def __a ( SCREAMING_SNAKE_CASE ) -> Union[str, Any]: '''simple docstring''' return None # This is a pinned image from a specific revision of a document question answering space, hosted by HuggingFace, # so we can expect it to be available. A_ : str = ( '''https://huggingface.co/spaces/impira/docquery/resolve/2f6c96314dc84dfda62d40de9da55f2f5165d403/invoice.png''' ) @is_pipeline_test @require_torch @require_vision class A_ ( unittest.TestCase ): '''simple docstring''' a__ = MODEL_FOR_DOCUMENT_QUESTION_ANSWERING_MAPPING @require_pytesseract @require_vision def lowerCAmelCase_ (self , lowercase__ , lowercase__ , lowercase__ ) -> List[Any]: __UpperCAmelCase = pipeline( '''document-question-answering''' , model=__snake_case , tokenizer=__snake_case , image_processor=__snake_case ) __UpperCAmelCase = INVOICE_URL __UpperCAmelCase = list(zip(*apply_tesseract(load_image(__snake_case ) , __snake_case , '''''' ) ) ) __UpperCAmelCase = '''What is the placebo?''' __UpperCAmelCase = [ { '''image''': load_image(__snake_case ), '''question''': question, }, { '''image''': image, '''question''': question, }, { '''image''': image, '''question''': question, '''word_boxes''': word_boxes, }, ] return dqa_pipeline, examples def lowerCAmelCase_ (self , lowercase__ , lowercase__ ) -> Dict: __UpperCAmelCase = dqa_pipeline(__snake_case , top_k=2 ) self.assertEqual( __snake_case , [ [ {'''score''': ANY(__snake_case ), '''answer''': ANY(__snake_case ), '''start''': ANY(__snake_case ), '''end''': ANY(__snake_case )}, {'''score''': ANY(__snake_case ), '''answer''': ANY(__snake_case ), '''start''': ANY(__snake_case ), '''end''': ANY(__snake_case )}, ] ] * 3 , ) @require_torch @require_detectrona @require_pytesseract def lowerCAmelCase_ (self ) -> Tuple: __UpperCAmelCase = pipeline('''document-question-answering''' , model='''hf-internal-testing/tiny-random-layoutlmv2''' ) __UpperCAmelCase = INVOICE_URL __UpperCAmelCase = '''How many cats are there?''' __UpperCAmelCase = [ {'''score''': 0.0001, '''answer''': '''oy 2312/2019''', '''start''': 38, '''end''': 39}, {'''score''': 0.0001, '''answer''': '''oy 2312/2019 DUE''', '''start''': 38, '''end''': 40}, ] __UpperCAmelCase = dqa_pipeline(image=__snake_case , question=__snake_case , top_k=2 ) self.assertEqual(nested_simplify(__snake_case , decimals=4 ) , __snake_case ) __UpperCAmelCase = dqa_pipeline({'''image''': image, '''question''': question} , top_k=2 ) self.assertEqual(nested_simplify(__snake_case , decimals=4 ) , __snake_case ) # This image does not detect ANY text in it, meaning layoutlmv2 should fail. # Empty answer probably __UpperCAmelCase = '''./tests/fixtures/tests_samples/COCO/000000039769.png''' __UpperCAmelCase = dqa_pipeline(image=__snake_case , question=__snake_case , top_k=2 ) self.assertEqual(__snake_case , [] ) # We can optionnally pass directly the words and bounding boxes __UpperCAmelCase = '''./tests/fixtures/tests_samples/COCO/000000039769.png''' __UpperCAmelCase = [] __UpperCAmelCase = [] __UpperCAmelCase = dqa_pipeline(image=__snake_case , question=__snake_case , words=__snake_case , boxes=__snake_case , top_k=2 ) self.assertEqual(__snake_case , [] ) @slow @require_torch @require_detectrona @require_pytesseract def lowerCAmelCase_ (self ) -> Union[str, Any]: __UpperCAmelCase = pipeline( '''document-question-answering''' , model='''tiennvcs/layoutlmv2-base-uncased-finetuned-docvqa''' , revision='''9977165''' , ) __UpperCAmelCase = INVOICE_URL __UpperCAmelCase = '''What is the invoice number?''' __UpperCAmelCase = dqa_pipeline(image=__snake_case , question=__snake_case , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ {'''score''': 0.9944, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, {'''score''': 0.0009, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, ] , ) __UpperCAmelCase = dqa_pipeline({'''image''': image, '''question''': question} , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ {'''score''': 0.9944, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, {'''score''': 0.0009, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, ] , ) __UpperCAmelCase = dqa_pipeline( [{'''image''': image, '''question''': question}, {'''image''': image, '''question''': question}] , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ [ {'''score''': 0.9944, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, {'''score''': 0.0009, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, ], ] * 2 , ) @slow @require_torch @require_detectrona @require_pytesseract def lowerCAmelCase_ (self ) -> List[Any]: __UpperCAmelCase = pipeline( '''document-question-answering''' , model='''tiennvcs/layoutlmv2-base-uncased-finetuned-docvqa''' , revision='''9977165''' , max_seq_len=50 , ) __UpperCAmelCase = INVOICE_URL __UpperCAmelCase = '''What is the invoice number?''' __UpperCAmelCase = dqa_pipeline(image=__snake_case , question=__snake_case , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ {'''score''': 0.9974, '''answer''': '''1110212019''', '''start''': 23, '''end''': 23}, {'''score''': 0.9948, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, ] , ) __UpperCAmelCase = dqa_pipeline({'''image''': image, '''question''': question} , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ {'''score''': 0.9974, '''answer''': '''1110212019''', '''start''': 23, '''end''': 23}, {'''score''': 0.9948, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, ] , ) __UpperCAmelCase = dqa_pipeline( [{'''image''': image, '''question''': question}, {'''image''': image, '''question''': question}] , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ [ {'''score''': 0.9974, '''answer''': '''1110212019''', '''start''': 23, '''end''': 23}, {'''score''': 0.9948, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, ] ] * 2 , ) @slow @require_torch @require_pytesseract @require_vision def lowerCAmelCase_ (self ) -> Union[str, Any]: __UpperCAmelCase = AutoTokenizer.from_pretrained( '''impira/layoutlm-document-qa''' , revision='''3dc6de3''' , add_prefix_space=__snake_case ) __UpperCAmelCase = pipeline( '''document-question-answering''' , model='''impira/layoutlm-document-qa''' , tokenizer=__snake_case , revision='''3dc6de3''' , ) __UpperCAmelCase = INVOICE_URL __UpperCAmelCase = '''What is the invoice number?''' __UpperCAmelCase = dqa_pipeline(image=__snake_case , question=__snake_case , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ {'''score''': 0.4251, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, {'''score''': 0.0819, '''answer''': '''1110212019''', '''start''': 23, '''end''': 23}, ] , ) __UpperCAmelCase = dqa_pipeline({'''image''': image, '''question''': question} , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ {'''score''': 0.4251, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, {'''score''': 0.0819, '''answer''': '''1110212019''', '''start''': 23, '''end''': 23}, ] , ) __UpperCAmelCase = dqa_pipeline( [{'''image''': image, '''question''': question}, {'''image''': image, '''question''': question}] , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ [ {'''score''': 0.4251, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, {'''score''': 0.0819, '''answer''': '''1110212019''', '''start''': 23, '''end''': 23}, ] ] * 2 , ) __UpperCAmelCase = list(zip(*apply_tesseract(load_image(__snake_case ) , __snake_case , '''''' ) ) ) # This model should also work if `image` is set to None __UpperCAmelCase = dqa_pipeline({'''image''': None, '''word_boxes''': word_boxes, '''question''': question} , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ {'''score''': 0.4251, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, {'''score''': 0.0819, '''answer''': '''1110212019''', '''start''': 23, '''end''': 23}, ] , ) @slow @require_torch @require_pytesseract @require_vision def lowerCAmelCase_ (self ) -> Optional[int]: __UpperCAmelCase = AutoTokenizer.from_pretrained( '''impira/layoutlm-document-qa''' , revision='''3dc6de3''' , add_prefix_space=__snake_case ) __UpperCAmelCase = pipeline( '''document-question-answering''' , model='''impira/layoutlm-document-qa''' , tokenizer=__snake_case , revision='''3dc6de3''' , max_seq_len=50 , ) __UpperCAmelCase = INVOICE_URL __UpperCAmelCase = '''What is the invoice number?''' __UpperCAmelCase = dqa_pipeline(image=__snake_case , question=__snake_case , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ {'''score''': 0.9999, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, {'''score''': 0.9998, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, ] , ) __UpperCAmelCase = dqa_pipeline( [{'''image''': image, '''question''': question}, {'''image''': image, '''question''': question}] , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ [ {'''score''': 0.9999, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, {'''score''': 0.9998, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, ] ] * 2 , ) __UpperCAmelCase = list(zip(*apply_tesseract(load_image(__snake_case ) , __snake_case , '''''' ) ) ) # This model should also work if `image` is set to None __UpperCAmelCase = dqa_pipeline({'''image''': None, '''word_boxes''': word_boxes, '''question''': question} , top_k=2 ) self.assertEqual( nested_simplify(__snake_case , decimals=4 ) , [ {'''score''': 0.9999, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, {'''score''': 0.9998, '''answer''': '''us-001''', '''start''': 16, '''end''': 16}, ] , ) @slow @require_torch def lowerCAmelCase_ (self ) -> Optional[int]: __UpperCAmelCase = pipeline( '''document-question-answering''' , model='''naver-clova-ix/donut-base-finetuned-docvqa''' , tokenizer=AutoTokenizer.from_pretrained('''naver-clova-ix/donut-base-finetuned-docvqa''' ) , feature_extractor='''naver-clova-ix/donut-base-finetuned-docvqa''' , ) __UpperCAmelCase = INVOICE_URL __UpperCAmelCase = '''What is the invoice number?''' __UpperCAmelCase = dqa_pipeline(image=__snake_case , question=__snake_case , top_k=2 ) self.assertEqual(nested_simplify(__snake_case , decimals=4 ) , [{'''answer''': '''us-001'''}] ) @require_tf @unittest.skip('''Document question answering not implemented in TF''' ) def lowerCAmelCase_ (self ) -> Optional[Any]: pass
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'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import normalizers from tokenizers.pre_tokenizers import BertPreTokenizer, PreTokenizer from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_roformer import RoFormerTokenizer from .tokenization_utils import JiebaPreTokenizer A__ : List[str] =logging.get_logger(__name__) A__ : Any ={'''vocab_file''': '''vocab.txt''', '''tokenizer_file''': '''tokenizer.json'''} A__ : Any ={ '''vocab_file''': { '''junnyu/roformer_chinese_small''': '''https://huggingface.co/junnyu/roformer_chinese_small/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_base''': '''https://huggingface.co/junnyu/roformer_chinese_base/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_char_small''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_small/resolve/main/vocab.txt''' ), '''junnyu/roformer_chinese_char_base''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_base/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_discriminator''': ( '''https://huggingface.co/junnyu/roformer_small_discriminator/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_generator''': ( '''https://huggingface.co/junnyu/roformer_small_generator/resolve/main/vocab.txt''' ), } } A__ : Optional[int] ={ '''junnyu/roformer_chinese_small''': 15_36, '''junnyu/roformer_chinese_base''': 15_36, '''junnyu/roformer_chinese_char_small''': 5_12, '''junnyu/roformer_chinese_char_base''': 5_12, '''junnyu/roformer_small_discriminator''': 1_28, '''junnyu/roformer_small_generator''': 1_28, } A__ : Optional[int] ={ '''junnyu/roformer_chinese_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_base''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_base''': {'''do_lower_case''': True}, '''junnyu/roformer_small_discriminator''': {'''do_lower_case''': True}, '''junnyu/roformer_small_generator''': {'''do_lower_case''': True}, } class UpperCAmelCase ( snake_case_ ): _lowercase: Optional[Any] = VOCAB_FILES_NAMES _lowercase: Tuple = PRETRAINED_VOCAB_FILES_MAP _lowercase: Dict = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowercase: str = PRETRAINED_INIT_CONFIGURATION _lowercase: List[Any] = RoFormerTokenizer def __init__( self : Dict , __snake_case : str=None , __snake_case : Tuple=None , __snake_case : List[Any]=True , __snake_case : str="[UNK]" , __snake_case : Tuple="[SEP]" , __snake_case : str="[PAD]" , __snake_case : str="[CLS]" , __snake_case : Any="[MASK]" , __snake_case : Dict=True , __snake_case : str=None , **__snake_case : Optional[Any] , ) -> Union[str, Any]: super().__init__( __snake_case , tokenizer_file=__snake_case , do_lower_case=__snake_case , unk_token=__snake_case , sep_token=__snake_case , pad_token=__snake_case , cls_token=__snake_case , mask_token=__snake_case , tokenize_chinese_chars=__snake_case , strip_accents=__snake_case , **__snake_case , ) _lowerCAmelCase = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( pre_tok_state.get("""lowercase""" , __snake_case ) != do_lower_case or pre_tok_state.get("""strip_accents""" , __snake_case ) != strip_accents ): _lowerCAmelCase = getattr(__snake_case , pre_tok_state.pop("""type""" ) ) _lowerCAmelCase = do_lower_case _lowerCAmelCase = strip_accents _lowerCAmelCase = pre_tok_class(**__snake_case ) _lowerCAmelCase = do_lower_case def __getstate__( self : int ) -> Optional[int]: _lowerCAmelCase = self.__dict__.copy() _lowerCAmelCase = BertPreTokenizer() return state def __setstate__( self : Tuple , __snake_case : Tuple ) -> List[str]: _lowerCAmelCase = d _lowerCAmelCase = self.__dict__["""_tokenizer"""].get_vocab() _lowerCAmelCase = PreTokenizer.custom(JiebaPreTokenizer(__snake_case ) ) def lowercase__ ( self : Union[str, Any] , __snake_case : Optional[int] , __snake_case : Optional[int]=None ) -> Optional[Any]: _lowerCAmelCase = [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 lowercase__ ( self : List[str] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: _lowerCAmelCase = [self.sep_token_id] _lowerCAmelCase = [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 lowercase__ ( self : int , __snake_case : str , __snake_case : Optional[str] = None ) -> Tuple[str]: _lowerCAmelCase = self._tokenizer.model.save(__snake_case , name=__snake_case ) return tuple(__snake_case ) def lowercase__ ( self : Dict , __snake_case : Dict , __snake_case : int=None , __snake_case : List[Any]=None , __snake_case : List[Any]=False , **__snake_case : Dict , ) -> str: _lowerCAmelCase = BertPreTokenizer() return super().save_pretrained(__snake_case , __snake_case , __snake_case , __snake_case , **__snake_case )
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def __SCREAMING_SNAKE_CASE ( UpperCamelCase__ , UpperCamelCase__ ) -> str: '''simple docstring''' UpperCAmelCase = [0 for i in range(r + 1 )] # nc0 = 1 UpperCAmelCase = 1 for i in range(1 , n + 1 ): # to compute current row from previous row. UpperCAmelCase = min(UpperCamelCase__ , UpperCamelCase__ ) while j > 0: c[j] += c[j - 1] j -= 1 return c[r] print(binomial_coefficient(n=10, r=5))
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'''simple docstring''' # This model implementation is heavily inspired by https://github.com/haofanwang/ControlNet-for-Diffusers/ import gc import random import tempfile import unittest import numpy as np import torch from PIL import Image from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer from diffusers import ( AutoencoderKL, ControlNetModel, DDIMScheduler, StableDiffusionControlNetImgaImgPipeline, UNetaDConditionModel, ) from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel from diffusers.utils import floats_tensor, load_image, load_numpy, randn_tensor, slow, torch_device from diffusers.utils.import_utils import is_xformers_available from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..pipeline_params import ( IMAGE_TO_IMAGE_IMAGE_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_PARAMS, ) from ..test_pipelines_common import ( PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin, ) enable_full_determinism() class UpperCAmelCase ( snake_case_ , snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Optional[int] = StableDiffusionControlNetImgaImgPipeline _lowercase: Tuple = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''} _lowercase: str = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS _lowercase: Tuple = IMAGE_TO_IMAGE_IMAGE_PARAMS.union({'''control_image'''} ) _lowercase: Union[str, Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS def lowercase__ ( self : List[str] ) -> List[str]: torch.manual_seed(0 ) _lowerCAmelCase = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , ) torch.manual_seed(0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) torch.manual_seed(0 ) _lowerCAmelCase = DDIMScheduler( beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule="""scaled_linear""" , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) _lowerCAmelCase = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , ) torch.manual_seed(0 ) _lowerCAmelCase = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) _lowerCAmelCase = CLIPTextModel(__snake_case ) _lowerCAmelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) _lowerCAmelCase = { """unet""": unet, """controlnet""": controlnet, """scheduler""": scheduler, """vae""": vae, """text_encoder""": text_encoder, """tokenizer""": tokenizer, """safety_checker""": None, """feature_extractor""": None, } return components def lowercase__ ( self : Any , __snake_case : str , __snake_case : Any=0 ) -> str: if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = 2 _lowerCAmelCase = randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ) _lowerCAmelCase = floats_tensor(control_image.shape , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((64, 64) ) _lowerCAmelCase = { """prompt""": """A painting of a squirrel eating a burger""", """generator""": generator, """num_inference_steps""": 2, """guidance_scale""": 6.0, """output_type""": """numpy""", """image""": image, """control_image""": control_image, } return inputs def lowercase__ ( self : Optional[int] ) -> List[Any]: return self._test_attention_slicing_forward_pass(expected_max_diff=2E-3 ) @unittest.skipIf( torch_device != """cuda""" or not is_xformers_available() , reason="""XFormers attention is only available with CUDA and `xformers` installed""" , ) def lowercase__ ( self : Tuple ) -> Optional[int]: self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2E-3 ) def lowercase__ ( self : Tuple ) -> Optional[int]: self._test_inference_batch_single_identical(expected_max_diff=2E-3 ) class UpperCAmelCase ( snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Any = StableDiffusionControlNetImgaImgPipeline _lowercase: Dict = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''} _lowercase: List[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS _lowercase: Any = frozenset([] ) # TO_DO: add image_params once refactored VaeImageProcessor.preprocess def lowercase__ ( self : Optional[Any] ) -> Union[str, Any]: torch.manual_seed(0 ) _lowerCAmelCase = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , ) torch.manual_seed(0 ) def init_weights(__snake_case : Optional[Any] ): if isinstance(__snake_case , torch.nn.Convad ): torch.nn.init.normal(m.weight ) m.bias.data.fill_(1.0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) controlneta.controlnet_down_blocks.apply(__snake_case ) torch.manual_seed(0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) controlneta.controlnet_down_blocks.apply(__snake_case ) torch.manual_seed(0 ) _lowerCAmelCase = DDIMScheduler( beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule="""scaled_linear""" , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) _lowerCAmelCase = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , ) torch.manual_seed(0 ) _lowerCAmelCase = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) _lowerCAmelCase = CLIPTextModel(__snake_case ) _lowerCAmelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) _lowerCAmelCase = MultiControlNetModel([controlneta, controlneta] ) _lowerCAmelCase = { """unet""": unet, """controlnet""": controlnet, """scheduler""": scheduler, """vae""": vae, """text_encoder""": text_encoder, """tokenizer""": tokenizer, """safety_checker""": None, """feature_extractor""": None, } return components def lowercase__ ( self : Tuple , __snake_case : int , __snake_case : List[str]=0 ) -> Union[str, Any]: if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = 2 _lowerCAmelCase = [ randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ), randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ), ] _lowerCAmelCase = floats_tensor(control_image[0].shape , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((64, 64) ) _lowerCAmelCase = { """prompt""": """A painting of a squirrel eating a burger""", """generator""": generator, """num_inference_steps""": 2, """guidance_scale""": 6.0, """output_type""": """numpy""", """image""": image, """control_image""": control_image, } return inputs def lowercase__ ( self : List[str] ) -> Dict: _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) pipe.to(__snake_case ) _lowerCAmelCase = 10.0 _lowerCAmelCase = 4 _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=0.1 , control_guidance_end=0.2 )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=[0.1, 0.3] , control_guidance_end=[0.2, 0.7] )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=0.4 , control_guidance_end=[0.5, 0.8] )[0] # make sure that all outputs are different assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 def lowercase__ ( self : int ) -> str: return self._test_attention_slicing_forward_pass(expected_max_diff=2E-3 ) @unittest.skipIf( torch_device != """cuda""" or not is_xformers_available() , reason="""XFormers attention is only available with CUDA and `xformers` installed""" , ) def lowercase__ ( self : Optional[Any] ) -> Dict: self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2E-3 ) def lowercase__ ( self : int ) -> str: self._test_inference_batch_single_identical(expected_max_diff=2E-3 ) def lowercase__ ( self : Union[str, Any] ) -> Optional[Any]: _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) with tempfile.TemporaryDirectory() as tmpdir: try: # save_pretrained is not implemented for Multi-ControlNet pipe.save_pretrained(__snake_case ) except NotImplementedError: pass @slow @require_torch_gpu class UpperCAmelCase ( unittest.TestCase ): def lowercase__ ( self : Union[str, Any] ) -> int: super().tearDown() gc.collect() torch.cuda.empty_cache() def lowercase__ ( self : List[str] ) -> Any: _lowerCAmelCase = ControlNetModel.from_pretrained("""lllyasviel/sd-controlnet-canny""" ) _lowerCAmelCase = StableDiffusionControlNetImgaImgPipeline.from_pretrained( """runwayml/stable-diffusion-v1-5""" , safety_checker=__snake_case , controlnet=__snake_case ) pipe.enable_model_cpu_offload() pipe.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = torch.Generator(device="""cpu""" ).manual_seed(0 ) _lowerCAmelCase = """evil space-punk bird""" _lowerCAmelCase = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png""" ).resize((5_12, 5_12) ) _lowerCAmelCase = load_image( """https://huggingface.co/lllyasviel/sd-controlnet-canny/resolve/main/images/bird.png""" ).resize((5_12, 5_12) ) _lowerCAmelCase = pipe( __snake_case , __snake_case , control_image=__snake_case , generator=__snake_case , output_type="""np""" , num_inference_steps=50 , strength=0.6 , ) _lowerCAmelCase = output.images[0] assert image.shape == (5_12, 5_12, 3) _lowerCAmelCase = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/img2img.npy""" ) assert np.abs(expected_image - image ).max() < 9E-2
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'''simple docstring''' from __future__ import annotations from random import random class lowerCamelCase_ : """simple docstring""" def __init__( self : Any , _a : int | None = None ) -> str: __lowerCamelCase : List[Any] = value __lowerCamelCase : List[Any] = random() __lowerCamelCase : int = None __lowerCamelCase : Optional[int] = None def __repr__( self : Dict ) -> str: from pprint import pformat if self.left is None and self.right is None: return f'\'{self.value}: {self.prior:.5}\'' else: return pformat( {f'{self.value}: {self.prior:.5}': (self.left, self.right)} , indent=1 ) def __str__( self : Dict ) -> str: __lowerCamelCase : Dict = str(self.value ) + ' ' __lowerCamelCase : Optional[int] = str(self.left or '' ) __lowerCamelCase : Union[str, Any] = str(self.right or '' ) return value + left + right def a_ ( _lowerCAmelCase ,_lowerCAmelCase ) -> Optional[Any]: if root is None: # None tree is split into 2 Nones return None, None elif root.value is None: return None, None else: if value < root.value: __lowerCamelCase ,__lowerCamelCase : Union[str, Any] = split(root.left ,_lowerCAmelCase ) return left, root else: __lowerCamelCase ,__lowerCamelCase : Tuple = split(root.right ,_lowerCAmelCase ) return root, right def a_ ( _lowerCAmelCase ,_lowerCAmelCase ) -> Union[str, Any]: if (not left) or (not right): # If one node is None, return the other return left or right elif left.prior < right.prior: __lowerCamelCase : int = merge(left.right ,_lowerCAmelCase ) return left else: __lowerCamelCase : str = merge(_lowerCAmelCase ,right.left ) return right def a_ ( _lowerCAmelCase ,_lowerCAmelCase ) -> List[str]: __lowerCamelCase : Optional[Any] = Node(_lowerCAmelCase ) __lowerCamelCase ,__lowerCamelCase : List[str] = split(_lowerCAmelCase ,_lowerCAmelCase ) return merge(merge(_lowerCAmelCase ,_lowerCAmelCase ) ,_lowerCAmelCase ) def a_ ( _lowerCAmelCase ,_lowerCAmelCase ) -> Dict: __lowerCamelCase ,__lowerCamelCase : Tuple = split(_lowerCAmelCase ,value - 1 ) __lowerCamelCase ,__lowerCamelCase : str = split(_lowerCAmelCase ,_lowerCAmelCase ) return merge(_lowerCAmelCase ,_lowerCAmelCase ) def a_ ( _lowerCAmelCase ) -> Optional[Any]: if not root: # None return else: inorder(root.left ) print(root.value ,end=',' ) inorder(root.right ) def a_ ( _lowerCAmelCase ,_lowerCAmelCase ) -> Any: for arg in args.split(): if arg[0] == "+": __lowerCamelCase : int = insert(_lowerCAmelCase ,int(arg[1:] ) ) elif arg[0] == "-": __lowerCamelCase : Optional[Any] = erase(_lowerCAmelCase ,int(arg[1:] ) ) else: print('Unknown command' ) return root def a_ ( ) -> Union[str, Any]: __lowerCamelCase : Dict = None print( 'enter numbers to create a tree, + value to add value into treap, ' '- value to erase all nodes with value. \'q\' to quit. ' ) __lowerCamelCase : Any = input() while args != "q": __lowerCamelCase : Any = interact_treap(_lowerCAmelCase ,_lowerCAmelCase ) print(_lowerCAmelCase ) __lowerCamelCase : Optional[Any] = input() print('good by!' ) if __name__ == "__main__": import doctest doctest.testmod() main()
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'''simple docstring''' import argparse import json from pathlib import Path import requests import torch from huggingface_hub import hf_hub_download from PIL import Image from transformers import ( SwiftFormerConfig, SwiftFormerForImageClassification, ViTImageProcessor, ) from transformers.utils import logging logging.set_verbosity_info() A__ : List[Any] =logging.get_logger(__name__) A__ : Any =torch.device('''cpu''') def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = """http://images.cocodataset.org/val2017/000000039769.jpg""" _lowerCAmelCase = Image.open(requests.get(lowerCAmelCase , stream=lowerCAmelCase ).raw ) return im def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if swiftformer_name == "swiftformer_xs": return torch.tensor([-2.17_03e00, 2.11_07e00, -2.08_11e00, 8.86_85e-01, 2.43_60e-01] ) elif swiftformer_name == "swiftformer_s": return torch.tensor([3.96_36e-01, 2.34_78e-01, -1.69_63e00, -1.73_81e00, -8.63_37e-01] ) elif swiftformer_name == "swiftformer_l1": return torch.tensor([-4.27_68e-01, -4.74_29e-01, -1.08_97e00, -1.02_48e00, 3.55_23e-02] ) elif swiftformer_name == "swiftformer_l3": return torch.tensor([-2.53_30e-01, 2.42_11e-01, -6.01_85e-01, -8.27_89e-01, -6.04_46e-02] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = dct.pop(lowerCAmelCase ) _lowerCAmelCase = val def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [] for k in state_dict.keys(): _lowerCAmelCase = k if ".pwconv" in k: _lowerCAmelCase = k_new.replace(""".pwconv""" , """.point_wise_conv""" ) if ".dwconv" in k: _lowerCAmelCase = k_new.replace(""".dwconv""" , """.depth_wise_conv""" ) if ".Proj." in k: _lowerCAmelCase = k_new.replace(""".Proj.""" , """.proj.""" ) if "patch_embed" in k_new: _lowerCAmelCase = k_new.replace("""patch_embed""" , """swiftformer.patch_embed.patch_embedding""" ) if "network" in k_new: _lowerCAmelCase = k_new.split(""".""" ) if ls[2].isdigit(): _lowerCAmelCase = """swiftformer.encoder.network.""" + ls[1] + """.blocks.""" + ls[2] + """.""" + """.""".join(ls[3:] ) else: _lowerCAmelCase = k_new.replace("""network""" , """swiftformer.encoder.network""" ) rename_keys.append((k, k_new) ) return rename_keys @torch.no_grad() def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = SwiftFormerConfig() # dataset (ImageNet-21k only or also fine-tuned on ImageNet 2012), patch_size and image_size _lowerCAmelCase = 10_00 _lowerCAmelCase = """huggingface/label-files""" _lowerCAmelCase = """imagenet-1k-id2label.json""" _lowerCAmelCase = json.load(open(hf_hub_download(lowerCAmelCase , lowerCAmelCase , repo_type="""dataset""" ) , """r""" ) ) _lowerCAmelCase = {int(lowerCAmelCase ): v for k, v in idalabel.items()} _lowerCAmelCase = idalabel _lowerCAmelCase = {v: k for k, v in idalabel.items()} # size of the architecture if swiftformer_name == "swiftformer_xs": _lowerCAmelCase = [3, 3, 6, 4] _lowerCAmelCase = [48, 56, 1_12, 2_20] elif swiftformer_name == "swiftformer_s": _lowerCAmelCase = [3, 3, 9, 6] _lowerCAmelCase = [48, 64, 1_68, 2_24] elif swiftformer_name == "swiftformer_l1": _lowerCAmelCase = [4, 3, 10, 5] _lowerCAmelCase = [48, 96, 1_92, 3_84] elif swiftformer_name == "swiftformer_l3": _lowerCAmelCase = [4, 4, 12, 6] _lowerCAmelCase = [64, 1_28, 3_20, 5_12] # load state_dict of original model, remove and rename some keys if original_ckpt: if original_ckpt.startswith("""https""" ): _lowerCAmelCase = torch.hub.load_state_dict_from_url(lowerCAmelCase , map_location="""cpu""" , check_hash=lowerCAmelCase ) else: _lowerCAmelCase = torch.load(lowerCAmelCase , map_location="""cpu""" ) _lowerCAmelCase = checkpoint _lowerCAmelCase = create_rename_keys(lowerCAmelCase ) for rename_key_src, rename_key_dest in rename_keys: rename_key(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ) # load HuggingFace model _lowerCAmelCase = SwiftFormerForImageClassification(lowerCAmelCase ).eval() hf_model.load_state_dict(lowerCAmelCase ) # prepare test inputs _lowerCAmelCase = prepare_img() _lowerCAmelCase = ViTImageProcessor.from_pretrained("""preprocessor_config""" ) _lowerCAmelCase = processor(images=lowerCAmelCase , return_tensors="""pt""" ) # compare outputs from both models _lowerCAmelCase = get_expected_output(lowerCAmelCase ) _lowerCAmelCase = hf_model(inputs["""pixel_values"""] ).logits assert hf_logits.shape == torch.Size([1, 10_00] ) assert torch.allclose(hf_logits[0, 0:5] , lowerCAmelCase , atol=1e-3 ) Path(lowerCAmelCase ).mkdir(exist_ok=lowerCAmelCase ) print(f"Saving model {swiftformer_name} to {pytorch_dump_folder_path}" ) hf_model.save_pretrained(lowerCAmelCase ) if __name__ == "__main__": A__ : str =argparse.ArgumentParser() # Required parameters parser.add_argument( '''--swiftformer_name''', default='''swiftformer_xs''', choices=['''swiftformer_xs''', '''swiftformer_s''', '''swiftformer_l1''', '''swiftformer_l3'''], type=str, help='''Name of the SwiftFormer model you\'d like to convert.''', ) parser.add_argument( '''--pytorch_dump_folder_path''', default='''./converted_outputs/''', type=str, help='''Path to the output PyTorch model directory.''', ) parser.add_argument('''--original_ckpt''', default=None, type=str, help='''Path to the original model checkpoint.''') A__ : Tuple =parser.parse_args() convert_swiftformer_checkpoint(args.swiftformer_name, args.pytorch_dump_folder_path, args.original_ckpt)
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'''simple docstring''' import argparse import collections import numpy as np import torch from flax import traverse_util from tax import checkpoints from transformers import MTaConfig, UMTaEncoderModel, UMTaForConditionalGeneration from transformers.utils import logging logging.set_verbosity_info() def a ( __a , __a , __a ) -> Optional[int]: '''simple docstring''' return params[f'''{prefix}/{prefix}/relpos_bias/rel_embedding'''][:, i, :] def a ( __a , __a , __a , __a="attention" ) -> int: '''simple docstring''' UpperCamelCase__ :List[Any] = np.ascontiguousarray(params[f'''{prefix}/{prefix}/{layer_name}/key/kernel'''][:, i, :, :] ) UpperCamelCase__ :Optional[Any] = k_tmp.reshape(k_tmp.shape[0] , k_tmp.shape[1] * k_tmp.shape[2] ) UpperCamelCase__ :Any = np.ascontiguousarray(params[f'''{prefix}/{prefix}/{layer_name}/out/kernel'''][:, i, :, :] ) UpperCamelCase__ :Dict = o_tmp.reshape(o_tmp.shape[0] * o_tmp.shape[1] , o_tmp.shape[2] ) UpperCamelCase__ :List[Any] = np.ascontiguousarray(params[f'''{prefix}/{prefix}/{layer_name}/query/kernel'''][:, i, :, :] ) UpperCamelCase__ :List[Any] = q_tmp.reshape(q_tmp.shape[0] , q_tmp.shape[1] * q_tmp.shape[2] ) UpperCamelCase__ :Optional[Any] = np.ascontiguousarray(params[f'''{prefix}/{prefix}/{layer_name}/value/kernel'''][:, i, :, :] ) UpperCamelCase__ :int = v_tmp.reshape(v_tmp.shape[0] , v_tmp.shape[1] * v_tmp.shape[2] ) return k, o, q, v def a ( __a , __a , __a , __a=False ) -> int: '''simple docstring''' if split_mlp_wi: UpperCamelCase__ :Union[str, Any] = params[f'''{prefix}/{prefix}/mlp/wi_0/kernel'''][:, i, :] UpperCamelCase__ :Optional[Any] = params[f'''{prefix}/{prefix}/mlp/wi_1/kernel'''][:, i, :] UpperCamelCase__ :str = (wi_a, wi_a) else: UpperCamelCase__ :Dict = params[f'''{prefix}/{prefix}/mlp/wi/kernel'''][:, i, :] UpperCamelCase__ :Dict = params[f'''{prefix}/{prefix}/mlp/wo/kernel'''][:, i, :] return wi, wo def a ( __a , __a , __a , __a ) -> int: '''simple docstring''' return params[f'''{prefix}/{prefix}/{layer_name}/scale'''][:, i] def a ( __a , *, __a , __a , __a = False ) -> int: '''simple docstring''' UpperCamelCase__ :Tuple = traverse_util.flatten_dict(variables['''target'''] ) UpperCamelCase__ :Dict = {'''/'''.join(__a ): v for k, v in old.items()} # v1.1 models have a gated GeLU with wi_0 and wi_1 instead of wi UpperCamelCase__ :Union[str, Any] = '''encoder/encoder/mlp/wi_0/kernel''' in old print('''Split MLP:''' , __a ) UpperCamelCase__ :List[Any] = collections.OrderedDict() # Shared embeddings. UpperCamelCase__ :Optional[Any] = old['''token_embedder/embedding'''] # Encoder. for i in range(__a ): # Block i, layer 0 (Self Attention). UpperCamelCase__ :int = tax_layer_norm_lookup(__a , __a , '''encoder''' , '''pre_attention_layer_norm''' ) UpperCamelCase__ , UpperCamelCase__ , UpperCamelCase__ , UpperCamelCase__ :Any = tax_attention_lookup(__a , __a , '''encoder''' , '''attention''' ) UpperCamelCase__ :List[str] = layer_norm UpperCamelCase__ :Tuple = k.T UpperCamelCase__ :List[Any] = o.T UpperCamelCase__ :List[str] = q.T UpperCamelCase__ :Any = v.T # Block i, layer 1 (MLP). UpperCamelCase__ :List[str] = tax_layer_norm_lookup(__a , __a , '''encoder''' , '''pre_mlp_layer_norm''' ) UpperCamelCase__ , UpperCamelCase__ :str = tax_mlp_lookup(__a , __a , '''encoder''' , __a ) UpperCamelCase__ :List[str] = layer_norm if split_mlp_wi: UpperCamelCase__ :int = wi[0].T UpperCamelCase__ :Union[str, Any] = wi[1].T else: UpperCamelCase__ :Tuple = wi.T UpperCamelCase__ :List[Any] = wo.T if scalable_attention: # convert the rel_embedding of each layer UpperCamelCase__ :List[Any] = tax_relpos_bias_lookup( __a , __a , '''encoder''' ).T UpperCamelCase__ :Tuple = old['''encoder/encoder_norm/scale'''] if not scalable_attention: UpperCamelCase__ :List[Any] = tax_relpos_bias_lookup( __a , 0 , '''encoder''' ).T UpperCamelCase__ :int = tax_relpos_bias_lookup( __a , 0 , '''decoder''' ).T if not is_encoder_only: # Decoder. for i in range(__a ): # Block i, layer 0 (Self Attention). UpperCamelCase__ :Tuple = tax_layer_norm_lookup(__a , __a , '''decoder''' , '''pre_self_attention_layer_norm''' ) UpperCamelCase__ , UpperCamelCase__ , UpperCamelCase__ , UpperCamelCase__ :Optional[int] = tax_attention_lookup(__a , __a , '''decoder''' , '''self_attention''' ) UpperCamelCase__ :List[Any] = layer_norm UpperCamelCase__ :Dict = k.T UpperCamelCase__ :int = o.T UpperCamelCase__ :List[Any] = q.T UpperCamelCase__ :List[str] = v.T # Block i, layer 1 (Cross Attention). UpperCamelCase__ :Tuple = tax_layer_norm_lookup(__a , __a , '''decoder''' , '''pre_cross_attention_layer_norm''' ) UpperCamelCase__ , UpperCamelCase__ , UpperCamelCase__ , UpperCamelCase__ :Optional[int] = tax_attention_lookup(__a , __a , '''decoder''' , '''encoder_decoder_attention''' ) UpperCamelCase__ :Dict = layer_norm UpperCamelCase__ :Optional[Any] = k.T UpperCamelCase__ :List[Any] = o.T UpperCamelCase__ :Optional[int] = q.T UpperCamelCase__ :List[str] = v.T # Block i, layer 2 (MLP). UpperCamelCase__ :Optional[int] = tax_layer_norm_lookup(__a , __a , '''decoder''' , '''pre_mlp_layer_norm''' ) UpperCamelCase__ , UpperCamelCase__ :Dict = tax_mlp_lookup(__a , __a , '''decoder''' , __a ) UpperCamelCase__ :Optional[int] = layer_norm if split_mlp_wi: UpperCamelCase__ :Optional[int] = wi[0].T UpperCamelCase__ :int = wi[1].T else: UpperCamelCase__ :Optional[int] = wi.T UpperCamelCase__ :Dict = wo.T if scalable_attention: # convert the rel_embedding of each layer UpperCamelCase__ :str = tax_relpos_bias_lookup(__a , __a , '''decoder''' ).T UpperCamelCase__ :int = old['''decoder/decoder_norm/scale'''] # LM Head (only in v1.1 checkpoints, in v1.0 embeddings are used instead) if "decoder/logits_dense/kernel" in old: UpperCamelCase__ :int = old['''decoder/logits_dense/kernel'''].T return new def a ( __a , __a ) -> Dict: '''simple docstring''' UpperCamelCase__ :Tuple = collections.OrderedDict([(k, torch.from_numpy(v.copy() )) for (k, v) in converted_params.items()] ) # Add what is missing. if "encoder.embed_tokens.weight" not in state_dict: UpperCamelCase__ :Any = state_dict['''shared.weight'''] if not is_encoder_only: if "decoder.embed_tokens.weight" not in state_dict: UpperCamelCase__ :List[str] = state_dict['''shared.weight'''] if "lm_head.weight" not in state_dict: # For old 1.0 models. print('''Using shared word embeddings as lm_head.''' ) UpperCamelCase__ :str = state_dict['''shared.weight'''] return state_dict def a ( __a , __a , __a , __a , __a ) -> List[str]: '''simple docstring''' UpperCamelCase__ :Union[str, Any] = checkpoints.load_tax_checkpoint(__a ) UpperCamelCase__ :Dict = convert_tax_to_pytorch( __a , num_layers=config.num_layers , is_encoder_only=__a , scalable_attention=__a ) UpperCamelCase__ :Tuple = make_state_dict(__a , __a ) model.load_state_dict(__a , strict=__a ) def a ( __a , __a , __a , __a = False , __a = False , ) -> Optional[Any]: '''simple docstring''' UpperCamelCase__ :Dict = MTaConfig.from_json_file(__a ) print(f'''Building PyTorch model from configuration: {config}''' ) # Non-v1.1 checkpoints could also use T5Model, but this works for all. # The v1.0 checkpoints will simply have an LM head that is the word embeddings. if is_encoder_only: UpperCamelCase__ :str = UMTaEncoderModel(__a ) else: UpperCamelCase__ :Any = UMTaForConditionalGeneration(__a ) # Load weights from tf checkpoint load_tax_weights_in_ta(__a , __a , __a , __a , __a ) # Save pytorch-model print(f'''Save PyTorch model to {pytorch_dump_path}''' ) model.save_pretrained(__a ) # Verify that we can load the checkpoint. model.from_pretrained(__a ) print('''Done''' ) if __name__ == "__main__": __snake_case = argparse.ArgumentParser(description='''Converts a native T5X checkpoint into a PyTorch checkpoint.''') # Required parameters parser.add_argument( '''--t5x_checkpoint_path''', default=None, type=str, required=True, help='''Path to the T5X checkpoint.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help='''The config json file corresponding to the pre-trained T5 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.''' ) parser.add_argument( '''--is_encoder_only''', action='''store_true''', help='''Check if the model is encoder-decoder model''', default=False ) parser.add_argument( '''--scalable_attention''', action='''store_true''', help='''Whether the model uses scaled attention (umt5 model)''', default=False, ) __snake_case = parser.parse_args() convert_tax_checkpoint_to_pytorch( args.tax_checkpoint_path, args.config_file, args.pytorch_dump_path, args.is_encoder_only, args.scalable_attention, )
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'''simple docstring''' import os import pytest from datasets import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, ) A__ : List[Any] =pytest.mark.integration @pytest.mark.parametrize("""path""" , ["""paws""", """csv"""] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" inspect_dataset(lowerCAmelCase , lowerCAmelCase ) _lowerCAmelCase = path + """.py""" assert script_name in os.listdir(lowerCAmelCase ) assert "__pycache__" not in os.listdir(lowerCAmelCase ) @pytest.mark.filterwarnings("""ignore:inspect_metric is deprecated:FutureWarning""" ) @pytest.mark.filterwarnings("""ignore:metric_module_factory is deprecated:FutureWarning""" ) @pytest.mark.parametrize("""path""" , ["""accuracy"""] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" inspect_metric(lowerCAmelCase , lowerCAmelCase ) _lowerCAmelCase = path + """.py""" assert script_name in os.listdir(lowerCAmelCase ) assert "__pycache__" not in os.listdir(lowerCAmelCase ) @pytest.mark.parametrize( """path, config_name, expected_splits""" , [ ("""squad""", """plain_text""", ["""train""", """validation"""]), ("""dalle-mini/wit""", """dalle-mini--wit""", ["""train"""]), ("""paws""", """labeled_final""", ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_config_info(lowerCAmelCase , config_name=lowerCAmelCase ) assert info.config_name == config_name assert list(info.splits.keys() ) == expected_splits @pytest.mark.parametrize( """path, config_name, expected_exception""" , [ ("""paws""", None, ValueError), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" with pytest.raises(lowerCAmelCase ): get_dataset_config_info(lowerCAmelCase , config_name=lowerCAmelCase ) @pytest.mark.parametrize( """path, expected""" , [ ("""squad""", """plain_text"""), ("""acronym_identification""", """default"""), ("""lhoestq/squad""", """plain_text"""), ("""lhoestq/test""", """default"""), ("""lhoestq/demo1""", """lhoestq--demo1"""), ("""dalle-mini/wit""", """dalle-mini--wit"""), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_config_names(lowerCAmelCase ) assert expected in config_names @pytest.mark.parametrize( """path, expected_configs, expected_splits_in_first_config""" , [ ("""squad""", ["""plain_text"""], ["""train""", """validation"""]), ("""dalle-mini/wit""", ["""dalle-mini--wit"""], ["""train"""]), ("""paws""", ["""labeled_final""", """labeled_swap""", """unlabeled_final"""], ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_infos(lowerCAmelCase ) assert list(infos.keys() ) == expected_configs _lowerCAmelCase = expected_configs[0] assert expected_config in infos _lowerCAmelCase = infos[expected_config] assert info.config_name == expected_config assert list(info.splits.keys() ) == expected_splits_in_first_config @pytest.mark.parametrize( """path, expected_config, expected_splits""" , [ ("""squad""", """plain_text""", ["""train""", """validation"""]), ("""dalle-mini/wit""", """dalle-mini--wit""", ["""train"""]), ("""paws""", """labeled_final""", ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_infos(lowerCAmelCase ) assert expected_config in infos _lowerCAmelCase = infos[expected_config] assert info.config_name == expected_config assert list(info.splits.keys() ) == expected_splits @pytest.mark.parametrize( """path, config_name, expected_exception""" , [ ("""paws""", None, ValueError), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" with pytest.raises(lowerCAmelCase ): get_dataset_split_names(lowerCAmelCase , config_name=lowerCAmelCase )
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"""simple docstring""" import unittest from transformers import BarthezTokenizer, BarthezTokenizerFast, BatchEncoding from transformers.testing_utils import require_sentencepiece, require_tokenizers, require_torch, slow from ...test_tokenization_common import TokenizerTesterMixin @require_tokenizers @require_sentencepiece @slow # see https://github.com/huggingface/transformers/issues/11457 class __A ( snake_case_, unittest.TestCase ): """simple docstring""" __lowerCAmelCase = BarthezTokenizer __lowerCAmelCase = BarthezTokenizerFast __lowerCAmelCase = True __lowerCAmelCase = True def SCREAMING_SNAKE_CASE ( self ) -> Any: super().setUp() a =BarthezTokenizerFast.from_pretrained('''moussaKam/mbarthez''' ) tokenizer.save_pretrained(self.tmpdirname ) tokenizer.save_pretrained(self.tmpdirname , legacy_format=__snake_case ) a =tokenizer def SCREAMING_SNAKE_CASE ( self ) -> int: a ='''<pad>''' a =1 self.assertEqual(self.get_tokenizer()._convert_token_to_id(__snake_case ) , __snake_case ) self.assertEqual(self.get_tokenizer()._convert_id_to_token(__snake_case ) , __snake_case ) def SCREAMING_SNAKE_CASE ( self ) -> Optional[int]: a =list(self.get_tokenizer().get_vocab().keys() ) self.assertEqual(vocab_keys[0] , '''<s>''' ) self.assertEqual(vocab_keys[1] , '''<pad>''' ) self.assertEqual(vocab_keys[-1] , '''<mask>''' ) self.assertEqual(len(__snake_case ) , 10_1122 ) def SCREAMING_SNAKE_CASE ( self ) -> Optional[Any]: self.assertEqual(self.get_tokenizer().vocab_size , 10_1122 ) @require_torch def SCREAMING_SNAKE_CASE ( self ) -> Union[str, Any]: a =['''A long paragraph for summarization.''', '''Another paragraph for summarization.'''] a =[0, 57, 3018, 7_0307, 91, 2] a =self.tokenizer( __snake_case , max_length=len(__snake_case ) , padding=__snake_case , truncation=__snake_case , return_tensors='''pt''' ) self.assertIsInstance(__snake_case , __snake_case ) self.assertEqual((2, 6) , batch.input_ids.shape ) self.assertEqual((2, 6) , batch.attention_mask.shape ) a =batch.input_ids.tolist()[0] self.assertListEqual(__snake_case , __snake_case ) def SCREAMING_SNAKE_CASE ( self ) -> Any: if not self.test_rust_tokenizer: return a =self.get_tokenizer() a =self.get_rust_tokenizer() a ='''I was born in 92000, and this is falsé.''' a =tokenizer.tokenize(__snake_case ) a =rust_tokenizer.tokenize(__snake_case ) self.assertListEqual(__snake_case , __snake_case ) a =tokenizer.encode(__snake_case , add_special_tokens=__snake_case ) a =rust_tokenizer.encode(__snake_case , add_special_tokens=__snake_case ) self.assertListEqual(__snake_case , __snake_case ) a =self.get_rust_tokenizer() a =tokenizer.encode(__snake_case ) a =rust_tokenizer.encode(__snake_case ) self.assertListEqual(__snake_case , __snake_case ) @slow def SCREAMING_SNAKE_CASE ( self ) -> List[str]: # fmt: off a ={'''input_ids''': [[0, 490, 1_4328, 4507, 354, 47, 4_3669, 95, 25, 7_8117, 2_0215, 1_9779, 190, 22, 400, 4, 3_5343, 8_0310, 603, 86, 2_4937, 105, 3_3438, 9_4762, 196, 3_9642, 7, 15, 1_5933, 173, 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], [0, 1_0534, 87, 25, 66, 3358, 196, 5_5289, 8, 8_2961, 81, 2204, 7_5203, 7, 15, 763, 1_2956, 216, 178, 1_4328, 9595, 1377, 6_9693, 7, 448, 7_1021, 196, 1_8106, 1437, 1_3974, 108, 9083, 4, 4_9315, 7, 39, 86, 1326, 2793, 4_6333, 4, 448, 196, 7_4588, 7, 4_9315, 7, 39, 21, 822, 3_8470, 74, 21, 6_6723, 6_2480, 8, 2_2050, 5, 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, 0, 0, 0, 0, 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, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]]} # noqa: E501 # fmt: on # moussaKam/mbarthez is a french model. So we also use french texts. a =[ '''Le transformeur est un modèle d\'apprentissage profond introduit en 2017, ''' '''utilisé principalement dans le domaine du traitement automatique des langues (TAL).''', '''À l\'instar des réseaux de neurones récurrents (RNN), les transformeurs sont conçus ''' '''pour gérer des données séquentielles, telles que le langage naturel, pour des tâches ''' '''telles que la traduction et la synthèse de texte.''', ] self.tokenizer_integration_test_util( expected_encoding=__snake_case , model_name='''moussaKam/mbarthez''' , revision='''c2e4ecbca5e3cd2c37fe1ac285ca4fbdf1366fb6''' , sequences=__snake_case , )
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'''simple docstring''' from torch import nn def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if act_fn in ["swish", "silu"]: return nn.SiLU() elif act_fn == "mish": return nn.Mish() elif act_fn == "gelu": return nn.GELU() else: raise ValueError(f"Unsupported activation function: {act_fn}" )
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"""simple docstring""" import importlib.util import os import platform from argparse import ArgumentParser import huggingface_hub from .. import __version__ as version from ..utils import ( is_accelerate_available, is_flax_available, is_safetensors_available, is_tf_available, is_torch_available, ) from . import BaseTransformersCLICommand def _lowerCAmelCase ( lowercase_ ): return EnvironmentCommand() def _lowerCAmelCase ( lowercase_ ): return EnvironmentCommand(args.accelerate_config_file ) class A_ ( snake_case_ ): """simple docstring""" @staticmethod def UpperCAmelCase__ ( lowercase_ :ArgumentParser ) -> Optional[Any]: UpperCAmelCase = parser.add_parser('env' ) download_parser.set_defaults(func=__snake_case ) download_parser.add_argument( '--accelerate-config_file' , default=__snake_case , help='The accelerate config file to use for the default values in the launching script.' , ) download_parser.set_defaults(func=__snake_case ) def __init__( self :Dict , lowercase_ :Optional[Any] , *lowercase_ :Dict ) -> None: UpperCAmelCase = accelerate_config_file def UpperCAmelCase__ ( self :Optional[int] ) -> Dict: UpperCAmelCase = 'not installed' if is_safetensors_available(): import safetensors UpperCAmelCase = safetensors.__version__ elif importlib.util.find_spec('safetensors' ) is not None: import safetensors UpperCAmelCase = f"""{safetensors.__version__} but is ignored because of PyTorch version too old.""" UpperCAmelCase = 'not installed' UpperCAmelCase = UpperCAmelCase = 'not found' if is_accelerate_available(): import accelerate from accelerate.commands.config import default_config_file, load_config_from_file UpperCAmelCase = accelerate.__version__ # Get the default from the config file. if self._accelerate_config_file is not None or os.path.isfile(__snake_case ): UpperCAmelCase = load_config_from_file(self._accelerate_config_file ).to_dict() UpperCAmelCase = ( '\n'.join([f"""\t- {prop}: {val}""" for prop, val in accelerate_config.items()] ) if isinstance(__snake_case , __snake_case ) else f"""\t{accelerate_config}""" ) UpperCAmelCase = 'not installed' UpperCAmelCase = 'NA' if is_torch_available(): import torch UpperCAmelCase = torch.__version__ UpperCAmelCase = torch.cuda.is_available() UpperCAmelCase = 'not installed' UpperCAmelCase = 'NA' if is_tf_available(): import tensorflow as tf UpperCAmelCase = tf.__version__ try: # deprecated in v2.1 UpperCAmelCase = tf.test.is_gpu_available() except AttributeError: # returns list of devices, convert to bool UpperCAmelCase = bool(tf.config.list_physical_devices('GPU' ) ) UpperCAmelCase = 'not installed' UpperCAmelCase = 'not installed' UpperCAmelCase = 'not installed' UpperCAmelCase = 'NA' if is_flax_available(): import flax import jax import jaxlib UpperCAmelCase = flax.__version__ UpperCAmelCase = jax.__version__ UpperCAmelCase = jaxlib.__version__ UpperCAmelCase = jax.lib.xla_bridge.get_backend().platform UpperCAmelCase = { '`transformers` version': version, 'Platform': platform.platform(), 'Python version': platform.python_version(), 'Huggingface_hub version': huggingface_hub.__version__, 'Safetensors version': f"""{safetensors_version}""", 'Accelerate version': f"""{accelerate_version}""", 'Accelerate config': f"""{accelerate_config_str}""", 'PyTorch version (GPU?)': f"""{pt_version} ({pt_cuda_available})""", 'Tensorflow version (GPU?)': f"""{tf_version} ({tf_cuda_available})""", 'Flax version (CPU?/GPU?/TPU?)': f"""{flax_version} ({jax_backend})""", 'Jax version': f"""{jax_version}""", 'JaxLib version': f"""{jaxlib_version}""", 'Using GPU in script?': '<fill in>', 'Using distributed or parallel set-up in script?': '<fill in>', } print('\nCopy-and-paste the text below in your GitHub issue and FILL OUT the two last points.\n' ) print(self.format_dict(__snake_case ) ) return info @staticmethod def UpperCAmelCase__ ( lowercase_ :str ) -> Dict: return "\n".join([f"""- {prop}: {val}""" for prop, val in d.items()] ) + "\n"
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'''simple docstring''' # Lint as: python3 # pylint: enable=line-too-long # pylint: disable=g-import-not-at-top,g-bad-import-order,wrong-import-position A__ : Dict ='''2.13.1''' import platform import pyarrow from packaging import version if version.parse(platform.python_version()) < version.parse('''3.7'''): raise ImportWarning( '''To use `datasets`, Python>=3.7 is required, and the current version of Python doesn\'t match this condition.''' ) if version.parse(pyarrow.__version__).major < 8: raise ImportWarning( '''To use `datasets`, the module `pyarrow>=8.0.0` is required, and the current version of `pyarrow` doesn\'t match this condition.\n''' '''If you are running this in a Google Colab, you should probably just restart the runtime to use the right version of `pyarrow`.''' ) del platform del pyarrow del version from .arrow_dataset import Dataset from .arrow_reader import ReadInstruction from .builder import ArrowBasedBuilder, BeamBasedBuilder, BuilderConfig, DatasetBuilder, GeneratorBasedBuilder from .combine import concatenate_datasets, interleave_datasets from .dataset_dict import DatasetDict, IterableDatasetDict from .download import * from .features import * from .fingerprint import disable_caching, enable_caching, is_caching_enabled, set_caching_enabled from .info import DatasetInfo, MetricInfo from .inspect import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, list_datasets, list_metrics, ) from .iterable_dataset import IterableDataset from .load import load_dataset, load_dataset_builder, load_from_disk, load_metric from .metric import Metric from .splits import ( NamedSplit, NamedSplitAll, Split, SplitBase, SplitDict, SplitGenerator, SplitInfo, SubSplitInfo, percent, ) from .tasks import * from .utils import * from .utils import logging # deprecated modules from datasets import arrow_dataset as _arrow_dataset # isort:skip from datasets import utils as _utils # isort:skip from datasets.utils import download_manager as _deprecated_download_manager # isort:skip A__ : Tuple =concatenate_datasets A__ : Dict =DownloadConfig A__ : int =DownloadManager A__ : Union[str, Any] =DownloadMode A__ : Tuple =DownloadConfig A__ : Optional[Any] =DownloadMode A__ : str =DownloadManager del _arrow_dataset, _utils, _deprecated_download_manager
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"""simple docstring""" import argparse import os import jax as jnp import numpy as onp import torch import torch.nn as nn from music_spectrogram_diffusion import inference from tax import checkpoints from diffusers import DDPMScheduler, OnnxRuntimeModel, SpectrogramDiffusionPipeline from diffusers.pipelines.spectrogram_diffusion import SpectrogramContEncoder, SpectrogramNotesEncoder, TaFilmDecoder __SCREAMING_SNAKE_CASE ='''base_with_context''' def lowercase__( __SCREAMING_SNAKE_CASE : Any , __SCREAMING_SNAKE_CASE : Optional[int] ): lowercase_ : Tuple = nn.Parameter(torch.FloatTensor(weights['token_embedder']['embedding'] ) ) lowercase_ : Optional[int] = nn.Parameter( torch.FloatTensor(weights['Embed_0']['embedding'] ) , requires_grad=__SCREAMING_SNAKE_CASE ) for lyr_num, lyr in enumerate(model.encoders ): lowercase_ : Union[str, Any] = weights[F'''layers_{lyr_num}'''] lowercase_ : Dict = nn.Parameter( torch.FloatTensor(ly_weight['pre_attention_layer_norm']['scale'] ) ) lowercase_ : int = ly_weight['attention'] lowercase_ : Any = nn.Parameter(torch.FloatTensor(attention_weights['query']['kernel'].T ) ) lowercase_ : Optional[Any] = nn.Parameter(torch.FloatTensor(attention_weights['key']['kernel'].T ) ) lowercase_ : List[str] = nn.Parameter(torch.FloatTensor(attention_weights['value']['kernel'].T ) ) lowercase_ : Optional[Any] = nn.Parameter(torch.FloatTensor(attention_weights['out']['kernel'].T ) ) lowercase_ : int = nn.Parameter(torch.FloatTensor(ly_weight['pre_mlp_layer_norm']['scale'] ) ) lowercase_ : Optional[int] = nn.Parameter(torch.FloatTensor(ly_weight['mlp']['wi_0']['kernel'].T ) ) lowercase_ : Tuple = nn.Parameter(torch.FloatTensor(ly_weight['mlp']['wi_1']['kernel'].T ) ) lowercase_ : Optional[Any] = nn.Parameter(torch.FloatTensor(ly_weight['mlp']['wo']['kernel'].T ) ) lowercase_ : int = nn.Parameter(torch.FloatTensor(weights['encoder_norm']['scale'] ) ) return model def lowercase__( __SCREAMING_SNAKE_CASE : Tuple , __SCREAMING_SNAKE_CASE : Any ): lowercase_ : Optional[int] = nn.Parameter(torch.FloatTensor(weights['input_proj']['kernel'].T ) ) lowercase_ : List[str] = nn.Parameter( torch.FloatTensor(weights['Embed_0']['embedding'] ) , requires_grad=__SCREAMING_SNAKE_CASE ) for lyr_num, lyr in enumerate(model.encoders ): lowercase_ : Union[str, Any] = weights[F'''layers_{lyr_num}'''] lowercase_ : Any = ly_weight['attention'] lowercase_ : Tuple = nn.Parameter(torch.FloatTensor(attention_weights['query']['kernel'].T ) ) lowercase_ : List[Any] = nn.Parameter(torch.FloatTensor(attention_weights['key']['kernel'].T ) ) lowercase_ : int = nn.Parameter(torch.FloatTensor(attention_weights['value']['kernel'].T ) ) lowercase_ : Optional[Any] = nn.Parameter(torch.FloatTensor(attention_weights['out']['kernel'].T ) ) lowercase_ : List[Any] = nn.Parameter( torch.FloatTensor(ly_weight['pre_attention_layer_norm']['scale'] ) ) lowercase_ : int = nn.Parameter(torch.FloatTensor(ly_weight['mlp']['wi_0']['kernel'].T ) ) lowercase_ : Optional[int] = nn.Parameter(torch.FloatTensor(ly_weight['mlp']['wi_1']['kernel'].T ) ) lowercase_ : int = nn.Parameter(torch.FloatTensor(ly_weight['mlp']['wo']['kernel'].T ) ) lowercase_ : Optional[Any] = nn.Parameter(torch.FloatTensor(ly_weight['pre_mlp_layer_norm']['scale'] ) ) lowercase_ : List[Any] = nn.Parameter(torch.FloatTensor(weights['encoder_norm']['scale'] ) ) return model def lowercase__( __SCREAMING_SNAKE_CASE : Dict , __SCREAMING_SNAKE_CASE : List[Any] ): lowercase_ : List[str] = nn.Parameter(torch.FloatTensor(weights['time_emb_dense0']['kernel'].T ) ) lowercase_ : Union[str, Any] = nn.Parameter(torch.FloatTensor(weights['time_emb_dense1']['kernel'].T ) ) lowercase_ : Union[str, Any] = nn.Parameter( torch.FloatTensor(weights['Embed_0']['embedding'] ) , requires_grad=__SCREAMING_SNAKE_CASE ) lowercase_ : List[Any] = nn.Parameter( torch.FloatTensor(weights['continuous_inputs_projection']['kernel'].T ) ) for lyr_num, lyr in enumerate(model.decoders ): lowercase_ : Any = weights[F'''layers_{lyr_num}'''] lowercase_ : List[str] = nn.Parameter( torch.FloatTensor(ly_weight['pre_self_attention_layer_norm']['scale'] ) ) lowercase_ : Any = nn.Parameter( torch.FloatTensor(ly_weight['FiLMLayer_0']['DenseGeneral_0']['kernel'].T ) ) lowercase_ : Optional[int] = ly_weight['self_attention'] lowercase_ : List[str] = nn.Parameter(torch.FloatTensor(attention_weights['query']['kernel'].T ) ) lowercase_ : Dict = nn.Parameter(torch.FloatTensor(attention_weights['key']['kernel'].T ) ) lowercase_ : int = nn.Parameter(torch.FloatTensor(attention_weights['value']['kernel'].T ) ) lowercase_ : Any = nn.Parameter(torch.FloatTensor(attention_weights['out']['kernel'].T ) ) lowercase_ : int = ly_weight['MultiHeadDotProductAttention_0'] lowercase_ : Optional[int] = nn.Parameter(torch.FloatTensor(attention_weights['query']['kernel'].T ) ) lowercase_ : Dict = nn.Parameter(torch.FloatTensor(attention_weights['key']['kernel'].T ) ) lowercase_ : Dict = nn.Parameter(torch.FloatTensor(attention_weights['value']['kernel'].T ) ) lowercase_ : int = nn.Parameter(torch.FloatTensor(attention_weights['out']['kernel'].T ) ) lowercase_ : str = nn.Parameter( torch.FloatTensor(ly_weight['pre_cross_attention_layer_norm']['scale'] ) ) lowercase_ : int = nn.Parameter(torch.FloatTensor(ly_weight['pre_mlp_layer_norm']['scale'] ) ) lowercase_ : str = nn.Parameter( torch.FloatTensor(ly_weight['FiLMLayer_1']['DenseGeneral_0']['kernel'].T ) ) lowercase_ : Dict = nn.Parameter(torch.FloatTensor(ly_weight['mlp']['wi_0']['kernel'].T ) ) lowercase_ : Optional[int] = nn.Parameter(torch.FloatTensor(ly_weight['mlp']['wi_1']['kernel'].T ) ) lowercase_ : Any = nn.Parameter(torch.FloatTensor(ly_weight['mlp']['wo']['kernel'].T ) ) lowercase_ : Dict = nn.Parameter(torch.FloatTensor(weights['decoder_norm']['scale'] ) ) lowercase_ : List[str] = nn.Parameter(torch.FloatTensor(weights['spec_out_dense']['kernel'].T ) ) return model def lowercase__( __SCREAMING_SNAKE_CASE : Union[str, Any] ): lowercase_ : Dict = checkpoints.load_tax_checkpoint(args.checkpoint_path ) lowercase_ : Dict = jnp.tree_util.tree_map(onp.array , __SCREAMING_SNAKE_CASE ) lowercase_ : List[Any] = [ 'from __gin__ import dynamic_registration', 'from music_spectrogram_diffusion.models.diffusion import diffusion_utils', 'diffusion_utils.ClassifierFreeGuidanceConfig.eval_condition_weight = 2.0', 'diffusion_utils.DiffusionConfig.classifier_free_guidance = @diffusion_utils.ClassifierFreeGuidanceConfig()', ] lowercase_ : int = os.path.join(args.checkpoint_path , '..' , 'config.gin' ) lowercase_ : int = inference.parse_training_gin_file(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) lowercase_ : Any = inference.InferenceModel(args.checkpoint_path , __SCREAMING_SNAKE_CASE ) lowercase_ : str = DDPMScheduler(beta_schedule='squaredcos_cap_v2' , variance_type='fixed_large' ) lowercase_ : Optional[int] = SpectrogramNotesEncoder( max_length=synth_model.sequence_length['inputs'] , vocab_size=synth_model.model.module.config.vocab_size , d_model=synth_model.model.module.config.emb_dim , dropout_rate=synth_model.model.module.config.dropout_rate , num_layers=synth_model.model.module.config.num_encoder_layers , num_heads=synth_model.model.module.config.num_heads , d_kv=synth_model.model.module.config.head_dim , d_ff=synth_model.model.module.config.mlp_dim , feed_forward_proj='gated-gelu' , ) lowercase_ : List[str] = SpectrogramContEncoder( input_dims=synth_model.audio_codec.n_dims , targets_context_length=synth_model.sequence_length['targets_context'] , d_model=synth_model.model.module.config.emb_dim , dropout_rate=synth_model.model.module.config.dropout_rate , num_layers=synth_model.model.module.config.num_encoder_layers , num_heads=synth_model.model.module.config.num_heads , d_kv=synth_model.model.module.config.head_dim , d_ff=synth_model.model.module.config.mlp_dim , feed_forward_proj='gated-gelu' , ) lowercase_ : Any = TaFilmDecoder( input_dims=synth_model.audio_codec.n_dims , targets_length=synth_model.sequence_length['targets_context'] , max_decoder_noise_time=synth_model.model.module.config.max_decoder_noise_time , d_model=synth_model.model.module.config.emb_dim , num_layers=synth_model.model.module.config.num_decoder_layers , num_heads=synth_model.model.module.config.num_heads , d_kv=synth_model.model.module.config.head_dim , d_ff=synth_model.model.module.config.mlp_dim , dropout_rate=synth_model.model.module.config.dropout_rate , ) lowercase_ : List[str] = load_notes_encoder(ta_checkpoint['target']['token_encoder'] , __SCREAMING_SNAKE_CASE ) lowercase_ : List[str] = load_continuous_encoder(ta_checkpoint['target']['continuous_encoder'] , __SCREAMING_SNAKE_CASE ) lowercase_ : int = load_decoder(ta_checkpoint['target']['decoder'] , __SCREAMING_SNAKE_CASE ) lowercase_ : Optional[Any] = OnnxRuntimeModel.from_pretrained('kashif/soundstream_mel_decoder' ) lowercase_ : Optional[Any] = SpectrogramDiffusionPipeline( notes_encoder=__SCREAMING_SNAKE_CASE , continuous_encoder=__SCREAMING_SNAKE_CASE , decoder=__SCREAMING_SNAKE_CASE , scheduler=__SCREAMING_SNAKE_CASE , melgan=__SCREAMING_SNAKE_CASE , ) if args.save: pipe.save_pretrained(args.output_path ) if __name__ == "__main__": __SCREAMING_SNAKE_CASE =argparse.ArgumentParser() parser.add_argument("--output_path", default=None, type=str, required=True, help="Path to the converted model.") parser.add_argument( "--save", default=True, type=bool, required=False, help="Whether to save the converted model or not." ) parser.add_argument( "--checkpoint_path", default=F"{MODEL}/checkpoint_500000", type=str, required=False, help="Path to the original jax model checkpoint.", ) __SCREAMING_SNAKE_CASE =parser.parse_args() main(args)
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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tokenizers_available, is_torch_available A__ : Tuple ={ '''configuration_mvp''': ['''MVP_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''MvpConfig''', '''MvpOnnxConfig'''], '''tokenization_mvp''': ['''MvpTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : int =['''MvpTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : Any =[ '''MVP_PRETRAINED_MODEL_ARCHIVE_LIST''', '''MvpForCausalLM''', '''MvpForConditionalGeneration''', '''MvpForQuestionAnswering''', '''MvpForSequenceClassification''', '''MvpModel''', '''MvpPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_mvp import MVP_PRETRAINED_CONFIG_ARCHIVE_MAP, MvpConfig, MvpOnnxConfig from .tokenization_mvp import MvpTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_mvp_fast import MvpTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mvp import ( MVP_PRETRAINED_MODEL_ARCHIVE_LIST, MvpForCausalLM, MvpForConditionalGeneration, MvpForQuestionAnswering, MvpForSequenceClassification, MvpModel, MvpPreTrainedModel, ) else: import sys A__ : Any =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
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from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available SCREAMING_SNAKE_CASE_ = {} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: SCREAMING_SNAKE_CASE_ = ['''GPTSw3Tokenizer'''] if TYPE_CHECKING: try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_gpt_swa import GPTSwaTokenizer else: import sys SCREAMING_SNAKE_CASE_ = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)
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'''simple docstring''' def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [0 for i in range(r + 1 )] # nc0 = 1 _lowerCAmelCase = 1 for i in range(1 , n + 1 ): # to compute current row from previous row. _lowerCAmelCase = min(lowerCAmelCase , lowerCAmelCase ) while j > 0: c[j] += c[j - 1] j -= 1 return c[r] print(binomial_coefficient(n=10, r=5))
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"""simple docstring""" import os from shutil import copyfile from typing import Any, Dict, List, Optional, Tuple import sentencepiece as spm from ...tokenization_utils import AddedToken, BatchEncoding, PreTrainedTokenizer from ...utils import logging _A = logging.get_logger(__name__) _A = '''▁''' _A = {'''vocab_file''': '''sentencepiece.bpe.model'''} _A = { '''vocab_file''': { '''facebook/nllb-200-distilled-600M''': ( '''https://huggingface.co/facebook/nllb-200-distilled-600M/blob/main/sentencepiece.bpe.model''' ), } } _A = { '''facebook/nllb-200-distilled-600M''': 10_24, } # fmt: off _A = ['''ace_Arab''', '''ace_Latn''', '''acm_Arab''', '''acq_Arab''', '''aeb_Arab''', '''afr_Latn''', '''ajp_Arab''', '''aka_Latn''', '''amh_Ethi''', '''apc_Arab''', '''arb_Arab''', '''ars_Arab''', '''ary_Arab''', '''arz_Arab''', '''asm_Beng''', '''ast_Latn''', '''awa_Deva''', '''ayr_Latn''', '''azb_Arab''', '''azj_Latn''', '''bak_Cyrl''', '''bam_Latn''', '''ban_Latn''', '''bel_Cyrl''', '''bem_Latn''', '''ben_Beng''', '''bho_Deva''', '''bjn_Arab''', '''bjn_Latn''', '''bod_Tibt''', '''bos_Latn''', '''bug_Latn''', '''bul_Cyrl''', '''cat_Latn''', '''ceb_Latn''', '''ces_Latn''', '''cjk_Latn''', '''ckb_Arab''', '''crh_Latn''', '''cym_Latn''', '''dan_Latn''', '''deu_Latn''', '''dik_Latn''', '''dyu_Latn''', '''dzo_Tibt''', '''ell_Grek''', '''eng_Latn''', '''epo_Latn''', '''est_Latn''', '''eus_Latn''', '''ewe_Latn''', '''fao_Latn''', '''pes_Arab''', '''fij_Latn''', '''fin_Latn''', '''fon_Latn''', '''fra_Latn''', '''fur_Latn''', '''fuv_Latn''', '''gla_Latn''', '''gle_Latn''', '''glg_Latn''', '''grn_Latn''', '''guj_Gujr''', '''hat_Latn''', '''hau_Latn''', '''heb_Hebr''', '''hin_Deva''', '''hne_Deva''', '''hrv_Latn''', '''hun_Latn''', '''hye_Armn''', '''ibo_Latn''', '''ilo_Latn''', '''ind_Latn''', '''isl_Latn''', '''ita_Latn''', '''jav_Latn''', '''jpn_Jpan''', '''kab_Latn''', '''kac_Latn''', '''kam_Latn''', '''kan_Knda''', '''kas_Arab''', '''kas_Deva''', '''kat_Geor''', '''knc_Arab''', '''knc_Latn''', '''kaz_Cyrl''', '''kbp_Latn''', '''kea_Latn''', '''khm_Khmr''', '''kik_Latn''', '''kin_Latn''', '''kir_Cyrl''', '''kmb_Latn''', '''kon_Latn''', '''kor_Hang''', '''kmr_Latn''', '''lao_Laoo''', '''lvs_Latn''', '''lij_Latn''', '''lim_Latn''', '''lin_Latn''', '''lit_Latn''', '''lmo_Latn''', '''ltg_Latn''', '''ltz_Latn''', '''lua_Latn''', '''lug_Latn''', '''luo_Latn''', '''lus_Latn''', '''mag_Deva''', '''mai_Deva''', '''mal_Mlym''', '''mar_Deva''', '''min_Latn''', '''mkd_Cyrl''', '''plt_Latn''', '''mlt_Latn''', '''mni_Beng''', '''khk_Cyrl''', '''mos_Latn''', '''mri_Latn''', '''zsm_Latn''', '''mya_Mymr''', '''nld_Latn''', '''nno_Latn''', '''nob_Latn''', '''npi_Deva''', '''nso_Latn''', '''nus_Latn''', '''nya_Latn''', '''oci_Latn''', '''gaz_Latn''', '''ory_Orya''', '''pag_Latn''', '''pan_Guru''', '''pap_Latn''', '''pol_Latn''', '''por_Latn''', '''prs_Arab''', '''pbt_Arab''', '''quy_Latn''', '''ron_Latn''', '''run_Latn''', '''rus_Cyrl''', '''sag_Latn''', '''san_Deva''', '''sat_Beng''', '''scn_Latn''', '''shn_Mymr''', '''sin_Sinh''', '''slk_Latn''', '''slv_Latn''', '''smo_Latn''', '''sna_Latn''', '''snd_Arab''', '''som_Latn''', '''sot_Latn''', '''spa_Latn''', '''als_Latn''', '''srd_Latn''', '''srp_Cyrl''', '''ssw_Latn''', '''sun_Latn''', '''swe_Latn''', '''swh_Latn''', '''szl_Latn''', '''tam_Taml''', '''tat_Cyrl''', '''tel_Telu''', '''tgk_Cyrl''', '''tgl_Latn''', '''tha_Thai''', '''tir_Ethi''', '''taq_Latn''', '''taq_Tfng''', '''tpi_Latn''', '''tsn_Latn''', '''tso_Latn''', '''tuk_Latn''', '''tum_Latn''', '''tur_Latn''', '''twi_Latn''', '''tzm_Tfng''', '''uig_Arab''', '''ukr_Cyrl''', '''umb_Latn''', '''urd_Arab''', '''uzn_Latn''', '''vec_Latn''', '''vie_Latn''', '''war_Latn''', '''wol_Latn''', '''xho_Latn''', '''ydd_Hebr''', '''yor_Latn''', '''yue_Hant''', '''zho_Hans''', '''zho_Hant''', '''zul_Latn'''] class lowerCamelCase ( snake_case_ ): '''simple docstring''' SCREAMING_SNAKE_CASE = VOCAB_FILES_NAMES SCREAMING_SNAKE_CASE = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES SCREAMING_SNAKE_CASE = PRETRAINED_VOCAB_FILES_MAP SCREAMING_SNAKE_CASE = ['''input_ids''', '''attention_mask'''] SCREAMING_SNAKE_CASE = [] SCREAMING_SNAKE_CASE = [] def __init__(self , _lowerCamelCase , _lowerCamelCase="<s>" , _lowerCamelCase="</s>" , _lowerCamelCase="</s>" , _lowerCamelCase="<s>" , _lowerCamelCase="<unk>" , _lowerCamelCase="<pad>" , _lowerCamelCase="<mask>" , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase=None , _lowerCamelCase = None , _lowerCamelCase=None , _lowerCamelCase=False , **_lowerCamelCase , ): """simple docstring""" UpperCAmelCase__ : Optional[Any] = AddedToken(__snake_case , lstrip=__snake_case , rstrip=__snake_case ) if isinstance(__snake_case , __snake_case ) else mask_token UpperCAmelCase__ : Tuple = {} if sp_model_kwargs is None else sp_model_kwargs UpperCAmelCase__ : Any = legacy_behaviour super().__init__( bos_token=__snake_case , eos_token=__snake_case , unk_token=__snake_case , sep_token=__snake_case , cls_token=__snake_case , pad_token=__snake_case , mask_token=__snake_case , tokenizer_file=__snake_case , src_lang=__snake_case , tgt_lang=__snake_case , additional_special_tokens=__snake_case , sp_model_kwargs=self.sp_model_kwargs , legacy_behaviour=__snake_case , **__snake_case , ) UpperCAmelCase__ : Optional[int] = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.Load(str(__snake_case ) ) UpperCAmelCase__ : Union[str, Any] = vocab_file # Original fairseq vocab and spm vocab must be "aligned": # Vocab | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 # -------- | ------- | ------- | ------ | ------- | ---- | ---- | ---- | ---- | ---- | ---- # fairseq | '<s>' | '<pad>' | '</s>' | '<unk>' | 'an' | '▁n' | '▁m' | '▁t' | '▁k' | '▁a' # spm | '<unk>' | '<s>' | '</s>' | 'an' | '▁n' | '▁m' | '▁t' | '▁k' | '▁a' | '▁s' # Mimic fairseq token-to-id alignment for the first 4 token UpperCAmelCase__ : List[Any] = {"""<s>""": 0, """<pad>""": 1, """</s>""": 2, """<unk>""": 3} # The first "real" token "," has position 4 in the original fairseq vocab and position 3 in the spm vocab UpperCAmelCase__ : str = 1 UpperCAmelCase__ : int = len(self.sp_model ) UpperCAmelCase__ : int = { code: self.sp_model_size + i + self.fairseq_offset for i, code in enumerate(__snake_case ) } UpperCAmelCase__ : Union[str, Any] = {v: k for k, v in self.lang_code_to_id.items()} UpperCAmelCase__ : List[str] = len(self.sp_model ) + len(self.lang_code_to_id ) + self.fairseq_offset self.fairseq_tokens_to_ids.update(self.lang_code_to_id ) UpperCAmelCase__ : str = {v: k for k, v in self.fairseq_tokens_to_ids.items()} UpperCAmelCase__ : Dict = list(self.lang_code_to_id.keys() ) if additional_special_tokens is not None: # Only add those special tokens if they are not already there. self._additional_special_tokens.extend( [t for t in additional_special_tokens if t not in self._additional_special_tokens] ) UpperCAmelCase__ : Any = src_lang if src_lang is not None else """eng_Latn""" UpperCAmelCase__ : Dict = self.lang_code_to_id[self._src_lang] UpperCAmelCase__ : str = tgt_lang self.set_src_lang_special_tokens(self._src_lang ) def __getstate__(self ): """simple docstring""" UpperCAmelCase__ : Optional[Any] = self.__dict__.copy() UpperCAmelCase__ : List[Any] = None UpperCAmelCase__ : Tuple = self.sp_model.serialized_model_proto() return state def __setstate__(self , _lowerCamelCase ): """simple docstring""" UpperCAmelCase__ : List[str] = d # for backward compatibility if not hasattr(self , """sp_model_kwargs""" ): UpperCAmelCase__ : Optional[int] = {} UpperCAmelCase__ : Optional[Any] = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.LoadFromSerializedProto(self.sp_model_proto ) @property def _a (self ): """simple docstring""" return len(self.sp_model ) + len(self.lang_code_to_id ) + self.fairseq_offset + 1 # Plus 1 for the mask token @property def _a (self ): """simple docstring""" return self._src_lang @src_lang.setter def _a (self , _lowerCamelCase ): """simple docstring""" UpperCAmelCase__ : int = new_src_lang self.set_src_lang_special_tokens(self._src_lang ) def _a (self , _lowerCamelCase , _lowerCamelCase = None , _lowerCamelCase = False ): """simple docstring""" if already_has_special_tokens: return super().get_special_tokens_mask( token_ids_a=__snake_case , token_ids_a=__snake_case , already_has_special_tokens=__snake_case ) UpperCAmelCase__ : Optional[int] = [1] * len(self.prefix_tokens ) UpperCAmelCase__ : Optional[Any] = [1] * len(self.suffix_tokens ) if token_ids_a is None: return prefix_ones + ([0] * len(__snake_case )) + suffix_ones return prefix_ones + ([0] * len(__snake_case )) + ([0] * len(__snake_case )) + suffix_ones def _a (self , _lowerCamelCase , _lowerCamelCase = None ): """simple docstring""" if token_ids_a is None: return self.prefix_tokens + token_ids_a + self.suffix_tokens # We don't expect to process pairs, but leave the pair logic for API consistency return self.prefix_tokens + token_ids_a + token_ids_a + self.suffix_tokens def _a (self , _lowerCamelCase , _lowerCamelCase = None ): """simple docstring""" UpperCAmelCase__ : str = [self.sep_token_id] UpperCAmelCase__ : str = [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] def _a (self , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , **_lowerCamelCase ): """simple docstring""" if src_lang is None or tgt_lang is None: raise ValueError("""Translation requires a `src_lang` and a `tgt_lang` for this model""" ) UpperCAmelCase__ : Optional[Any] = src_lang UpperCAmelCase__ : Tuple = self(__snake_case , add_special_tokens=__snake_case , return_tensors=__snake_case , **__snake_case ) UpperCAmelCase__ : Dict = self.convert_tokens_to_ids(__snake_case ) UpperCAmelCase__ : int = tgt_lang_id return inputs def _a (self ): """simple docstring""" UpperCAmelCase__ : Optional[int] = {self.convert_ids_to_tokens(__snake_case ): i for i in range(self.vocab_size )} vocab.update(self.added_tokens_encoder ) return vocab def _a (self , _lowerCamelCase ): """simple docstring""" return self.sp_model.encode(__snake_case , out_type=__snake_case ) def _a (self , _lowerCamelCase ): """simple docstring""" if token in self.fairseq_tokens_to_ids: return self.fairseq_tokens_to_ids[token] UpperCAmelCase__ : int = self.sp_model.PieceToId(__snake_case ) # Need to return unknown token if the SP model returned 0 return spm_id + self.fairseq_offset if spm_id else self.unk_token_id def _a (self , _lowerCamelCase ): """simple docstring""" if index in self.fairseq_ids_to_tokens: return self.fairseq_ids_to_tokens[index] return self.sp_model.IdToPiece(index - self.fairseq_offset ) def _a (self , _lowerCamelCase ): """simple docstring""" UpperCAmelCase__ : Union[str, Any] = """""".join(__snake_case ).replace(__snake_case , """ """ ).strip() return out_string def _a (self , _lowerCamelCase , _lowerCamelCase = None ): """simple docstring""" if not os.path.isdir(__snake_case ): logger.error(F"""Vocabulary path ({save_directory}) should be a directory""" ) return UpperCAmelCase__ : Tuple = os.path.join( __snake_case , (filename_prefix + """-""" if filename_prefix else """""") + VOCAB_FILES_NAMES["""vocab_file"""] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(__snake_case ) and os.path.isfile(self.vocab_file ): copyfile(self.vocab_file , __snake_case ) elif not os.path.isfile(self.vocab_file ): with open(__snake_case , """wb""" ) as fi: UpperCAmelCase__ : Any = self.sp_model.serialized_model_proto() fi.write(__snake_case ) return (out_vocab_file,) def _a (self , _lowerCamelCase , _lowerCamelCase = "eng_Latn" , _lowerCamelCase = None , _lowerCamelCase = "fra_Latn" , **_lowerCamelCase , ): """simple docstring""" UpperCAmelCase__ : int = src_lang UpperCAmelCase__ : Tuple = tgt_lang return super().prepare_seqaseq_batch(__snake_case , __snake_case , **__snake_case ) def _a (self ): """simple docstring""" return self.set_src_lang_special_tokens(self.src_lang ) def _a (self ): """simple docstring""" return self.set_tgt_lang_special_tokens(self.tgt_lang ) def _a (self , _lowerCamelCase ): """simple docstring""" UpperCAmelCase__ : Optional[int] = self.lang_code_to_id[src_lang] if self.legacy_behaviour: UpperCAmelCase__ : Any = [] UpperCAmelCase__ : List[Any] = [self.eos_token_id, self.cur_lang_code] else: UpperCAmelCase__ : List[str] = [self.cur_lang_code] UpperCAmelCase__ : Any = [self.eos_token_id] def _a (self , _lowerCamelCase ): """simple docstring""" UpperCAmelCase__ : List[str] = self.lang_code_to_id[lang] if self.legacy_behaviour: UpperCAmelCase__ : Union[str, Any] = [] UpperCAmelCase__ : str = [self.eos_token_id, self.cur_lang_code] else: UpperCAmelCase__ : Optional[Any] = [self.cur_lang_code] UpperCAmelCase__ : Union[str, Any] = [self.eos_token_id]
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'''simple docstring''' import itertools from dataclasses import dataclass from typing import Optional import pandas as pd import pyarrow as pa import datasets from datasets.table import table_cast @dataclass class UpperCAmelCase ( datasets.BuilderConfig ): _lowercase: Optional[datasets.Features] = None class UpperCAmelCase ( datasets.ArrowBasedBuilder ): _lowercase: Tuple = PandasConfig def lowercase__ ( self : Optional[Any] ) -> str: return datasets.DatasetInfo(features=self.config.features ) def lowercase__ ( self : List[str] , __snake_case : Dict ) -> int: if not self.config.data_files: raise ValueError(f"At least one data file must be specified, but got data_files={self.config.data_files}" ) _lowerCAmelCase = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__snake_case , (str, list, tuple) ): _lowerCAmelCase = data_files if isinstance(__snake_case , __snake_case ): _lowerCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive _lowerCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"""files""": files} )] _lowerCAmelCase = [] for split_name, files in data_files.items(): if isinstance(__snake_case , __snake_case ): _lowerCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive _lowerCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] splits.append(datasets.SplitGenerator(name=__snake_case , gen_kwargs={"""files""": files} ) ) return splits def lowercase__ ( self : List[Any] , __snake_case : pa.Table ) -> pa.Table: if self.config.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example _lowerCAmelCase = table_cast(__snake_case , self.config.features.arrow_schema ) return pa_table def lowercase__ ( self : Dict , __snake_case : Optional[Any] ) -> Any: for i, file in enumerate(itertools.chain.from_iterable(__snake_case ) ): with open(__snake_case , """rb""" ) as f: _lowerCAmelCase = pa.Table.from_pandas(pd.read_pickle(__snake_case ) ) yield i, self._cast_table(__snake_case )
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import gc import random import unittest import numpy as np import torch from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer from diffusers import AutoencoderKL, CycleDiffusionPipeline, DDIMScheduler, UNetaDConditionModel from diffusers.utils import floats_tensor, load_image, load_numpy, slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu, skip_mps from ..pipeline_params import ( IMAGE_TO_IMAGE_IMAGE_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_PARAMS, ) from ..test_pipelines_common import PipelineLatentTesterMixin, PipelineTesterMixin enable_full_determinism() class __lowercase (snake_case_ , snake_case_ , unittest.TestCase ): _UpperCamelCase = CycleDiffusionPipeline _UpperCamelCase = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - { '''negative_prompt''', '''height''', '''width''', '''negative_prompt_embeds''', } _UpperCamelCase = PipelineTesterMixin.required_optional_params - {'''latents'''} _UpperCamelCase = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS.union({"""source_prompt"""} ) _UpperCamelCase = IMAGE_TO_IMAGE_IMAGE_PARAMS _UpperCamelCase = IMAGE_TO_IMAGE_IMAGE_PARAMS def UpperCamelCase__ ( self ) ->str: '''simple docstring''' torch.manual_seed(0 ) __lowerCAmelCase : Optional[int] = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , ) __lowerCAmelCase : Any = DDIMScheduler( beta_start=0.00_085 , beta_end=0.012 , beta_schedule='''scaled_linear''' , num_train_timesteps=1000 , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) __lowerCAmelCase : Any = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , ) torch.manual_seed(0 ) __lowerCAmelCase : List[Any] = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , ) __lowerCAmelCase : int = CLIPTextModel(__snake_case ) __lowerCAmelCase : str = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) __lowerCAmelCase : Dict = { '''unet''': unet, '''scheduler''': scheduler, '''vae''': vae, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''safety_checker''': None, '''feature_extractor''': None, } return components def UpperCamelCase__ ( self , A_ , A_=0 ) ->int: '''simple docstring''' __lowerCAmelCase : Optional[Any] = floats_tensor((1, 3, 32, 32) , rng=random.Random(__snake_case ) ).to(__snake_case ) __lowerCAmelCase : Dict = image / 2 + 0.5 if str(__snake_case ).startswith('''mps''' ): __lowerCAmelCase : Optional[Any] = torch.manual_seed(__snake_case ) else: __lowerCAmelCase : Any = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) __lowerCAmelCase : Union[str, Any] = { '''prompt''': '''An astronaut riding an elephant''', '''source_prompt''': '''An astronaut riding a horse''', '''image''': image, '''generator''': generator, '''num_inference_steps''': 2, '''eta''': 0.1, '''strength''': 0.8, '''guidance_scale''': 3, '''source_guidance_scale''': 1, '''output_type''': '''numpy''', } return inputs def UpperCamelCase__ ( self ) ->List[str]: '''simple docstring''' __lowerCAmelCase : Union[str, Any] = '''cpu''' # ensure determinism for the device-dependent torch.Generator __lowerCAmelCase : List[Any] = self.get_dummy_components() __lowerCAmelCase : str = CycleDiffusionPipeline(**__snake_case ) __lowerCAmelCase : Union[str, Any] = pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) __lowerCAmelCase : str = self.get_dummy_inputs(__snake_case ) __lowerCAmelCase : int = pipe(**__snake_case ) __lowerCAmelCase : int = output.images __lowerCAmelCase : Optional[int] = images[0, -3:, -3:, -1] assert images.shape == (1, 32, 32, 3) __lowerCAmelCase : List[Any] = np.array([0.4_459, 0.4_943, 0.4_544, 0.6_643, 0.5_474, 0.4_327, 0.5_701, 0.5_959, 0.5_179] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 @unittest.skipIf(torch_device != '''cuda''' , '''This test requires a GPU''' ) def UpperCamelCase__ ( self ) ->str: '''simple docstring''' __lowerCAmelCase : Optional[Any] = self.get_dummy_components() for name, module in components.items(): if hasattr(__snake_case , '''half''' ): __lowerCAmelCase : Optional[int] = module.half() __lowerCAmelCase : Optional[Any] = CycleDiffusionPipeline(**__snake_case ) __lowerCAmelCase : Dict = pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) __lowerCAmelCase : int = self.get_dummy_inputs(__snake_case ) __lowerCAmelCase : List[str] = pipe(**__snake_case ) __lowerCAmelCase : Dict = output.images __lowerCAmelCase : Any = images[0, -3:, -3:, -1] assert images.shape == (1, 32, 32, 3) __lowerCAmelCase : Tuple = np.array([0.3_506, 0.4_543, 0.446, 0.4_575, 0.5_195, 0.4_155, 0.5_273, 0.518, 0.4_116] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 @skip_mps def UpperCamelCase__ ( self ) ->Dict: '''simple docstring''' return super().test_save_load_local() @unittest.skip('''non-deterministic pipeline''' ) def UpperCamelCase__ ( self ) ->Optional[int]: '''simple docstring''' return super().test_inference_batch_single_identical() @skip_mps def UpperCamelCase__ ( self ) ->Any: '''simple docstring''' return super().test_dict_tuple_outputs_equivalent() @skip_mps def UpperCamelCase__ ( self ) ->int: '''simple docstring''' return super().test_save_load_optional_components() @skip_mps def UpperCamelCase__ ( self ) ->str: '''simple docstring''' return super().test_attention_slicing_forward_pass() @slow @require_torch_gpu class __lowercase (unittest.TestCase ): def UpperCamelCase__ ( self ) ->Optional[Any]: '''simple docstring''' super().tearDown() gc.collect() torch.cuda.empty_cache() def UpperCamelCase__ ( self ) ->Any: '''simple docstring''' __lowerCAmelCase : Optional[Any] = load_image( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' '''/cycle-diffusion/black_colored_car.png''' ) __lowerCAmelCase : Optional[Any] = load_numpy( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/cycle-diffusion/blue_colored_car_fp16.npy''' ) __lowerCAmelCase : Union[str, Any] = init_image.resize((512, 512) ) __lowerCAmelCase : Tuple = '''CompVis/stable-diffusion-v1-4''' __lowerCAmelCase : Tuple = DDIMScheduler.from_pretrained(__snake_case , subfolder='''scheduler''' ) __lowerCAmelCase : str = CycleDiffusionPipeline.from_pretrained( __snake_case , scheduler=__snake_case , safety_checker=__snake_case , torch_dtype=torch.floataa , revision='''fp16''' ) pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) pipe.enable_attention_slicing() __lowerCAmelCase : Optional[Any] = '''A black colored car''' __lowerCAmelCase : Optional[Any] = '''A blue colored car''' __lowerCAmelCase : Any = torch.manual_seed(0 ) __lowerCAmelCase : Union[str, Any] = pipe( prompt=__snake_case , source_prompt=__snake_case , image=__snake_case , num_inference_steps=100 , eta=0.1 , strength=0.85 , guidance_scale=3 , source_guidance_scale=1 , generator=__snake_case , output_type='''np''' , ) __lowerCAmelCase : int = output.images # the values aren't exactly equal, but the images look the same visually assert np.abs(image - expected_image ).max() < 5e-1 def UpperCamelCase__ ( self ) ->str: '''simple docstring''' __lowerCAmelCase : Any = load_image( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' '''/cycle-diffusion/black_colored_car.png''' ) __lowerCAmelCase : Optional[int] = load_numpy( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/cycle-diffusion/blue_colored_car.npy''' ) __lowerCAmelCase : Optional[int] = init_image.resize((512, 512) ) __lowerCAmelCase : List[Any] = '''CompVis/stable-diffusion-v1-4''' __lowerCAmelCase : Dict = DDIMScheduler.from_pretrained(__snake_case , subfolder='''scheduler''' ) __lowerCAmelCase : Optional[int] = CycleDiffusionPipeline.from_pretrained(__snake_case , scheduler=__snake_case , safety_checker=__snake_case ) pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) pipe.enable_attention_slicing() __lowerCAmelCase : List[Any] = '''A black colored car''' __lowerCAmelCase : List[str] = '''A blue colored car''' __lowerCAmelCase : Union[str, Any] = torch.manual_seed(0 ) __lowerCAmelCase : Union[str, Any] = pipe( prompt=__snake_case , source_prompt=__snake_case , image=__snake_case , num_inference_steps=100 , eta=0.1 , strength=0.85 , guidance_scale=3 , source_guidance_scale=1 , generator=__snake_case , output_type='''np''' , ) __lowerCAmelCase : Union[str, Any] = output.images assert np.abs(image - expected_image ).max() < 2e-2
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'''simple docstring''' import heapq as hq import math from collections.abc import Iterator class UpperCAmelCase : def __init__( self : str , __snake_case : Any ) -> str: _lowerCAmelCase = str(id_ ) _lowerCAmelCase = None _lowerCAmelCase = None _lowerCAmelCase = [] _lowerCAmelCase = {} # {vertex:distance} def __lt__( self : List[str] , __snake_case : Union[str, Any] ) -> Any: return self.key < other.key def __repr__( self : Optional[Any] ) -> Optional[Any]: return self.id def lowercase__ ( self : Union[str, Any] , __snake_case : Tuple ) -> Optional[Any]: self.neighbors.append(__snake_case ) def lowercase__ ( self : Tuple , __snake_case : List[str] , __snake_case : Tuple ) -> Any: _lowerCAmelCase = weight def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" graph[a - 1].add_neighbor(graph[b - 1] ) graph[b - 1].add_neighbor(graph[a - 1] ) # add the edges: graph[a - 1].add_edge(graph[b - 1] , lowerCAmelCase ) graph[b - 1].add_edge(graph[a - 1] , lowerCAmelCase ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [] for u in graph: _lowerCAmelCase = math.inf _lowerCAmelCase = None _lowerCAmelCase = 0 _lowerCAmelCase = graph[:] while q: _lowerCAmelCase = min(lowerCAmelCase ) q.remove(lowerCAmelCase ) for v in u.neighbors: if (v in q) and (u.edges[v.id] < v.key): _lowerCAmelCase = u _lowerCAmelCase = u.edges[v.id] for i in range(1 , len(lowerCAmelCase ) ): a.append((int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) ) return a def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" for u in graph: _lowerCAmelCase = math.inf _lowerCAmelCase = None _lowerCAmelCase = 0 _lowerCAmelCase = list(lowerCAmelCase ) hq.heapify(lowerCAmelCase ) while h: _lowerCAmelCase = hq.heappop(lowerCAmelCase ) for v in u.neighbors: if (v in h) and (u.edges[v.id] < v.key): _lowerCAmelCase = u _lowerCAmelCase = u.edges[v.id] hq.heapify(lowerCAmelCase ) for i in range(1 , len(lowerCAmelCase ) ): yield (int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) def UpperCamelCase__ ( ): """simple docstring""" if __name__ == "__main__": import doctest doctest.testmod()
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'''simple docstring''' import copy import importlib.metadata import json import os from dataclasses import dataclass from typing import Any, Dict, Union from packaging import version from ..utils import is_torch_available, logging if is_torch_available(): import torch lowerCamelCase_ = logging.get_logger(__name__) @dataclass class _UpperCAmelCase : """simple docstring""" def __init__( self : str , __UpperCAmelCase : Optional[int]=False , __UpperCAmelCase : Any=False , __UpperCAmelCase : Union[str, Any]=6.0 , __UpperCAmelCase : Optional[Any]=None , __UpperCAmelCase : Any=False , __UpperCAmelCase : str=False , __UpperCAmelCase : Any=None , __UpperCAmelCase : List[str]="fp4" , __UpperCAmelCase : Tuple=False , **__UpperCAmelCase : int , ): '''simple docstring''' _A = load_in_abit _A = load_in_abit _A = llm_inta_threshold _A = llm_inta_skip_modules _A = llm_inta_enable_fpaa_cpu_offload _A = llm_inta_has_fpaa_weight _A = bnb_abit_quant_type _A = bnb_abit_use_double_quant if bnb_abit_compute_dtype is None: _A = torch.floataa elif isinstance(__snake_case , __snake_case ): _A = getattr(__snake_case , __snake_case ) elif isinstance(__snake_case , torch.dtype ): _A = bnb_abit_compute_dtype else: raise ValueError("bnb_4bit_compute_dtype must be a string or a torch.dtype" ) self.post_init() def lowerCAmelCase ( self : str ): '''simple docstring''' if not isinstance(self.llm_inta_threshold , __snake_case ): raise ValueError("llm_int8_threshold must be a float" ) if self.llm_inta_skip_modules is not None and not isinstance(self.llm_inta_skip_modules , __snake_case ): raise ValueError("llm_int8_skip_modules must be a list of strings" ) if not isinstance(self.llm_inta_enable_fpaa_cpu_offload , __snake_case ): raise ValueError("llm_int8_enable_fp32_cpu_offload must be a boolean" ) if not isinstance(self.llm_inta_has_fpaa_weight , __snake_case ): raise ValueError("llm_int8_has_fp16_weight must be a boolean" ) if self.bnb_abit_compute_dtype is not None and not isinstance(self.bnb_abit_compute_dtype , torch.dtype ): raise ValueError("bnb_4bit_compute_dtype must be torch.dtype" ) if not isinstance(self.bnb_abit_quant_type , __snake_case ): raise ValueError("bnb_4bit_quant_type must be a string" ) if not isinstance(self.bnb_abit_use_double_quant , __snake_case ): raise ValueError("bnb_4bit_use_double_quant must be a boolean" ) if self.load_in_abit and not version.parse(importlib.metadata.version("bitsandbytes" ) ) >= version.parse( "0.39.0" ): raise ValueError( "4 bit quantization requires bitsandbytes>=0.39.0 - please upgrade your bitsandbytes version" ) def lowerCAmelCase ( self : Optional[Any] ): '''simple docstring''' return self.load_in_abit or self.load_in_abit def lowerCAmelCase ( self : str ): '''simple docstring''' if self.load_in_abit: return "llm_int8" elif self.load_in_abit and self.bnb_abit_quant_type == "fp4": return "fp4" elif self.load_in_abit and self.bnb_abit_quant_type == "nf4": return "nf4" else: return None @classmethod def lowerCAmelCase ( cls : Tuple , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : List[str] , **__UpperCAmelCase : Any ): '''simple docstring''' _A = cls(**__snake_case ) _A = [] for key, value in kwargs.items(): if hasattr(__snake_case , __snake_case ): setattr(__snake_case , __snake_case , __snake_case ) to_remove.append(__snake_case ) for key in to_remove: kwargs.pop(__snake_case , __snake_case ) if return_unused_kwargs: return config, kwargs else: return config def lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Union[str, os.PathLike] ): '''simple docstring''' with open(__snake_case , "w" , encoding="utf-8" ) as writer: _A = self.to_dict() _A = json.dumps(__snake_case , indent=2 , sort_keys=__snake_case ) + "\n" writer.write(__snake_case ) def lowerCAmelCase ( self : Optional[int] ): '''simple docstring''' _A = copy.deepcopy(self.__dict__ ) _A = str(output["bnb_4bit_compute_dtype"] ).split("." )[1] return output def __repr__( self : Union[str, Any] ): '''simple docstring''' return f'''{self.__class__.__name__} {self.to_json_string()}''' def lowerCAmelCase ( self : Any , __UpperCAmelCase : bool = True ): '''simple docstring''' if use_diff is True: _A = self.to_diff_dict() else: _A = self.to_dict() return json.dumps(__snake_case , indent=2 , sort_keys=__snake_case ) + "\n" def lowerCAmelCase ( self : Optional[int] ): '''simple docstring''' _A = self.to_dict() # get the default config dict _A = BitsAndBytesConfig().to_dict() _A = {} # only serialize values that differ from the default config for key, value in config_dict.items(): if value != default_config_dict[key]: _A = value return serializable_config_dict
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'''simple docstring''' import unittest from transformers import is_torch_available from transformers.testing_utils import require_sentencepiece, require_tokenizers, require_torch, slow, torch_device if is_torch_available(): from transformers import AutoModelForSeqaSeqLM, AutoTokenizer @require_torch @require_sentencepiece @require_tokenizers class UpperCAmelCase ( unittest.TestCase ): @slow def lowercase__ ( self : List[Any] ) -> str: _lowerCAmelCase = AutoModelForSeqaSeqLM.from_pretrained("""google/mt5-small""" , return_dict=__snake_case ).to(__snake_case ) _lowerCAmelCase = AutoTokenizer.from_pretrained("""google/mt5-small""" ) _lowerCAmelCase = tokenizer("""Hello there""" , return_tensors="""pt""" ).input_ids _lowerCAmelCase = tokenizer("""Hi I am""" , return_tensors="""pt""" ).input_ids _lowerCAmelCase = model(input_ids.to(__snake_case ) , labels=labels.to(__snake_case ) ).loss _lowerCAmelCase = -(labels.shape[-1] * loss.item()) _lowerCAmelCase = -84.91_27 self.assertTrue(abs(mtf_score - EXPECTED_SCORE ) < 1E-4 )
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import shutil import tempfile import unittest from transformers import ClapFeatureExtractor, ClapProcessor, RobertaTokenizer, RobertaTokenizerFast from transformers.testing_utils import require_sentencepiece, require_torchaudio from .test_feature_extraction_clap import floats_list @require_torchaudio @require_sentencepiece class A_ ( unittest.TestCase ): '''simple docstring''' def lowerCAmelCase_ (self ) -> int: __UpperCAmelCase = '''laion/clap-htsat-unfused''' __UpperCAmelCase = tempfile.mkdtemp() def lowerCAmelCase_ (self , **lowercase__ ) -> List[Any]: return RobertaTokenizer.from_pretrained(self.checkpoint , **__snake_case ) def lowerCAmelCase_ (self , **lowercase__ ) -> Any: return ClapFeatureExtractor.from_pretrained(self.checkpoint , **__snake_case ) def lowerCAmelCase_ (self ) -> List[str]: shutil.rmtree(self.tmpdirname ) def lowerCAmelCase_ (self ) -> Dict: __UpperCAmelCase = self.get_tokenizer() __UpperCAmelCase = self.get_feature_extractor() __UpperCAmelCase = ClapProcessor(tokenizer=__snake_case , feature_extractor=__snake_case ) processor.save_pretrained(self.tmpdirname ) __UpperCAmelCase = ClapProcessor.from_pretrained(self.tmpdirname ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer.get_vocab() ) self.assertIsInstance(processor.tokenizer , __snake_case ) self.assertEqual(processor.feature_extractor.to_json_string() , feature_extractor.to_json_string() ) self.assertIsInstance(processor.feature_extractor , __snake_case ) def lowerCAmelCase_ (self ) -> List[str]: __UpperCAmelCase = ClapProcessor(tokenizer=self.get_tokenizer() , feature_extractor=self.get_feature_extractor() ) processor.save_pretrained(self.tmpdirname ) __UpperCAmelCase = self.get_tokenizer(bos_token='''(BOS)''' , eos_token='''(EOS)''' ) __UpperCAmelCase = self.get_feature_extractor(do_normalize=__snake_case , padding_value=1.0 ) __UpperCAmelCase = ClapProcessor.from_pretrained( self.tmpdirname , bos_token='''(BOS)''' , eos_token='''(EOS)''' , do_normalize=__snake_case , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , __snake_case ) self.assertEqual(processor.feature_extractor.to_json_string() , feature_extractor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.feature_extractor , __snake_case ) def lowerCAmelCase_ (self ) -> Union[str, Any]: __UpperCAmelCase = self.get_feature_extractor() __UpperCAmelCase = self.get_tokenizer() __UpperCAmelCase = ClapProcessor(tokenizer=__snake_case , feature_extractor=__snake_case ) __UpperCAmelCase = floats_list((3, 1_000) ) __UpperCAmelCase = feature_extractor(__snake_case , return_tensors='''np''' ) __UpperCAmelCase = processor(audios=__snake_case , 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 lowerCAmelCase_ (self ) -> Any: __UpperCAmelCase = self.get_feature_extractor() __UpperCAmelCase = self.get_tokenizer() __UpperCAmelCase = ClapProcessor(tokenizer=__snake_case , feature_extractor=__snake_case ) __UpperCAmelCase = '''This is a test string''' __UpperCAmelCase = processor(text=__snake_case ) __UpperCAmelCase = tokenizer(__snake_case ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def lowerCAmelCase_ (self ) -> int: __UpperCAmelCase = self.get_feature_extractor() __UpperCAmelCase = self.get_tokenizer() __UpperCAmelCase = ClapProcessor(tokenizer=__snake_case , feature_extractor=__snake_case ) __UpperCAmelCase = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] __UpperCAmelCase = processor.batch_decode(__snake_case ) __UpperCAmelCase = tokenizer.batch_decode(__snake_case ) self.assertListEqual(__snake_case , __snake_case ) def lowerCAmelCase_ (self ) -> Union[str, Any]: __UpperCAmelCase = self.get_feature_extractor() __UpperCAmelCase = self.get_tokenizer() __UpperCAmelCase = ClapProcessor(tokenizer=__snake_case , feature_extractor=__snake_case ) self.assertListEqual( processor.model_input_names[2:] , feature_extractor.model_input_names , msg='''`processor` and `feature_extractor` model input names do not match''' , )
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'''simple docstring''' import os from shutil import copyfile from typing import Any, Dict, List, Optional, Tuple import sentencepiece as spm from ...tokenization_utils import AddedToken, BatchEncoding, PreTrainedTokenizer from ...utils import logging A__ : Any =logging.get_logger(__name__) A__ : List[Any] ='''▁''' A__ : Optional[int] ={'''vocab_file''': '''sentencepiece.bpe.model'''} A__ : Union[str, Any] ={ '''vocab_file''': { '''facebook/nllb-200-distilled-600M''': ( '''https://huggingface.co/facebook/nllb-200-distilled-600M/blob/main/sentencepiece.bpe.model''' ), } } A__ : Dict ={ '''facebook/nllb-200-distilled-600M''': 10_24, } # fmt: off A__ : Union[str, Any] =['''ace_Arab''', '''ace_Latn''', '''acm_Arab''', '''acq_Arab''', '''aeb_Arab''', '''afr_Latn''', '''ajp_Arab''', '''aka_Latn''', '''amh_Ethi''', '''apc_Arab''', '''arb_Arab''', '''ars_Arab''', '''ary_Arab''', '''arz_Arab''', '''asm_Beng''', '''ast_Latn''', '''awa_Deva''', '''ayr_Latn''', '''azb_Arab''', '''azj_Latn''', '''bak_Cyrl''', '''bam_Latn''', '''ban_Latn''', '''bel_Cyrl''', '''bem_Latn''', '''ben_Beng''', '''bho_Deva''', '''bjn_Arab''', '''bjn_Latn''', '''bod_Tibt''', '''bos_Latn''', '''bug_Latn''', '''bul_Cyrl''', '''cat_Latn''', '''ceb_Latn''', '''ces_Latn''', '''cjk_Latn''', '''ckb_Arab''', '''crh_Latn''', '''cym_Latn''', '''dan_Latn''', '''deu_Latn''', '''dik_Latn''', '''dyu_Latn''', '''dzo_Tibt''', '''ell_Grek''', '''eng_Latn''', '''epo_Latn''', '''est_Latn''', '''eus_Latn''', '''ewe_Latn''', '''fao_Latn''', '''pes_Arab''', '''fij_Latn''', '''fin_Latn''', '''fon_Latn''', '''fra_Latn''', '''fur_Latn''', '''fuv_Latn''', '''gla_Latn''', '''gle_Latn''', '''glg_Latn''', '''grn_Latn''', '''guj_Gujr''', '''hat_Latn''', '''hau_Latn''', '''heb_Hebr''', '''hin_Deva''', '''hne_Deva''', '''hrv_Latn''', '''hun_Latn''', '''hye_Armn''', '''ibo_Latn''', '''ilo_Latn''', '''ind_Latn''', '''isl_Latn''', '''ita_Latn''', '''jav_Latn''', '''jpn_Jpan''', '''kab_Latn''', '''kac_Latn''', '''kam_Latn''', '''kan_Knda''', '''kas_Arab''', '''kas_Deva''', '''kat_Geor''', '''knc_Arab''', '''knc_Latn''', '''kaz_Cyrl''', '''kbp_Latn''', '''kea_Latn''', '''khm_Khmr''', '''kik_Latn''', '''kin_Latn''', '''kir_Cyrl''', '''kmb_Latn''', '''kon_Latn''', '''kor_Hang''', '''kmr_Latn''', '''lao_Laoo''', '''lvs_Latn''', '''lij_Latn''', '''lim_Latn''', '''lin_Latn''', '''lit_Latn''', '''lmo_Latn''', '''ltg_Latn''', '''ltz_Latn''', '''lua_Latn''', '''lug_Latn''', '''luo_Latn''', '''lus_Latn''', '''mag_Deva''', '''mai_Deva''', '''mal_Mlym''', '''mar_Deva''', '''min_Latn''', '''mkd_Cyrl''', '''plt_Latn''', '''mlt_Latn''', '''mni_Beng''', '''khk_Cyrl''', '''mos_Latn''', '''mri_Latn''', '''zsm_Latn''', '''mya_Mymr''', '''nld_Latn''', '''nno_Latn''', '''nob_Latn''', '''npi_Deva''', '''nso_Latn''', '''nus_Latn''', '''nya_Latn''', '''oci_Latn''', '''gaz_Latn''', '''ory_Orya''', '''pag_Latn''', '''pan_Guru''', '''pap_Latn''', '''pol_Latn''', '''por_Latn''', '''prs_Arab''', '''pbt_Arab''', '''quy_Latn''', '''ron_Latn''', '''run_Latn''', '''rus_Cyrl''', '''sag_Latn''', '''san_Deva''', '''sat_Beng''', '''scn_Latn''', '''shn_Mymr''', '''sin_Sinh''', '''slk_Latn''', '''slv_Latn''', '''smo_Latn''', '''sna_Latn''', '''snd_Arab''', '''som_Latn''', '''sot_Latn''', '''spa_Latn''', '''als_Latn''', '''srd_Latn''', '''srp_Cyrl''', '''ssw_Latn''', '''sun_Latn''', '''swe_Latn''', '''swh_Latn''', '''szl_Latn''', '''tam_Taml''', '''tat_Cyrl''', '''tel_Telu''', '''tgk_Cyrl''', '''tgl_Latn''', '''tha_Thai''', '''tir_Ethi''', '''taq_Latn''', '''taq_Tfng''', '''tpi_Latn''', '''tsn_Latn''', '''tso_Latn''', '''tuk_Latn''', '''tum_Latn''', '''tur_Latn''', '''twi_Latn''', '''tzm_Tfng''', '''uig_Arab''', '''ukr_Cyrl''', '''umb_Latn''', '''urd_Arab''', '''uzn_Latn''', '''vec_Latn''', '''vie_Latn''', '''war_Latn''', '''wol_Latn''', '''xho_Latn''', '''ydd_Hebr''', '''yor_Latn''', '''yue_Hant''', '''zho_Hans''', '''zho_Hant''', '''zul_Latn'''] class UpperCAmelCase ( snake_case_ ): _lowercase: int = VOCAB_FILES_NAMES _lowercase: str = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowercase: Dict = PRETRAINED_VOCAB_FILES_MAP _lowercase: str = ['''input_ids''', '''attention_mask'''] _lowercase: List[int] = [] _lowercase: List[int] = [] def __init__( self : int , __snake_case : Optional[Any] , __snake_case : Dict="<s>" , __snake_case : Optional[int]="</s>" , __snake_case : Dict="</s>" , __snake_case : str="<s>" , __snake_case : Optional[int]="<unk>" , __snake_case : Union[str, Any]="<pad>" , __snake_case : Union[str, Any]="<mask>" , __snake_case : List[Any]=None , __snake_case : Union[str, Any]=None , __snake_case : int=None , __snake_case : Optional[Dict[str, Any]] = None , __snake_case : str=None , __snake_case : str=False , **__snake_case : List[Any] , ) -> List[str]: # Mask token behave like a normal word, i.e. include the space before it _lowerCAmelCase = AddedToken(__snake_case , lstrip=__snake_case , rstrip=__snake_case ) if isinstance(__snake_case , __snake_case ) else mask_token _lowerCAmelCase = {} if sp_model_kwargs is None else sp_model_kwargs _lowerCAmelCase = legacy_behaviour super().__init__( bos_token=__snake_case , eos_token=__snake_case , unk_token=__snake_case , sep_token=__snake_case , cls_token=__snake_case , pad_token=__snake_case , mask_token=__snake_case , tokenizer_file=__snake_case , src_lang=__snake_case , tgt_lang=__snake_case , additional_special_tokens=__snake_case , sp_model_kwargs=self.sp_model_kwargs , legacy_behaviour=__snake_case , **__snake_case , ) _lowerCAmelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.Load(str(__snake_case ) ) _lowerCAmelCase = vocab_file # Original fairseq vocab and spm vocab must be "aligned": # Vocab | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 # -------- | ------- | ------- | ------ | ------- | ---- | ---- | ---- | ---- | ---- | ---- # fairseq | '<s>' | '<pad>' | '</s>' | '<unk>' | 'an' | '▁n' | '▁m' | '▁t' | '▁k' | '▁a' # spm | '<unk>' | '<s>' | '</s>' | 'an' | '▁n' | '▁m' | '▁t' | '▁k' | '▁a' | '▁s' # Mimic fairseq token-to-id alignment for the first 4 token _lowerCAmelCase = {"""<s>""": 0, """<pad>""": 1, """</s>""": 2, """<unk>""": 3} # The first "real" token "," has position 4 in the original fairseq vocab and position 3 in the spm vocab _lowerCAmelCase = 1 _lowerCAmelCase = len(self.sp_model ) _lowerCAmelCase = { code: self.sp_model_size + i + self.fairseq_offset for i, code in enumerate(__snake_case ) } _lowerCAmelCase = {v: k for k, v in self.lang_code_to_id.items()} _lowerCAmelCase = len(self.sp_model ) + len(self.lang_code_to_id ) + self.fairseq_offset self.fairseq_tokens_to_ids.update(self.lang_code_to_id ) _lowerCAmelCase = {v: k for k, v in self.fairseq_tokens_to_ids.items()} _lowerCAmelCase = list(self.lang_code_to_id.keys() ) if additional_special_tokens is not None: # Only add those special tokens if they are not already there. self._additional_special_tokens.extend( [t for t in additional_special_tokens if t not in self._additional_special_tokens] ) _lowerCAmelCase = src_lang if src_lang is not None else """eng_Latn""" _lowerCAmelCase = self.lang_code_to_id[self._src_lang] _lowerCAmelCase = tgt_lang self.set_src_lang_special_tokens(self._src_lang ) def __getstate__( self : List[str] ) -> List[str]: _lowerCAmelCase = self.__dict__.copy() _lowerCAmelCase = None _lowerCAmelCase = self.sp_model.serialized_model_proto() return state def __setstate__( self : Dict , __snake_case : Optional[Any] ) -> Dict: _lowerCAmelCase = d # for backward compatibility if not hasattr(self , """sp_model_kwargs""" ): _lowerCAmelCase = {} _lowerCAmelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.LoadFromSerializedProto(self.sp_model_proto ) @property def lowercase__ ( self : List[Any] ) -> Any: return len(self.sp_model ) + len(self.lang_code_to_id ) + self.fairseq_offset + 1 # Plus 1 for the mask token @property def lowercase__ ( self : int ) -> str: return self._src_lang @src_lang.setter def lowercase__ ( self : Dict , __snake_case : str ) -> None: _lowerCAmelCase = new_src_lang self.set_src_lang_special_tokens(self._src_lang ) def lowercase__ ( self : List[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None , __snake_case : bool = False ) -> List[int]: if already_has_special_tokens: return super().get_special_tokens_mask( token_ids_a=__snake_case , token_ids_a=__snake_case , already_has_special_tokens=__snake_case ) _lowerCAmelCase = [1] * len(self.prefix_tokens ) _lowerCAmelCase = [1] * len(self.suffix_tokens ) if token_ids_a is None: return prefix_ones + ([0] * len(__snake_case )) + suffix_ones return prefix_ones + ([0] * len(__snake_case )) + ([0] * len(__snake_case )) + suffix_ones def lowercase__ ( self : Optional[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: if token_ids_a is None: return self.prefix_tokens + token_ids_a + self.suffix_tokens # We don't expect to process pairs, but leave the pair logic for API consistency return self.prefix_tokens + token_ids_a + token_ids_a + self.suffix_tokens def lowercase__ ( self : Optional[Any] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: _lowerCAmelCase = [self.sep_token_id] _lowerCAmelCase = [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] def lowercase__ ( self : List[str] , __snake_case : Union[str, Any] , __snake_case : str , __snake_case : Optional[str] , __snake_case : Optional[str] , **__snake_case : Optional[int] ) -> Dict: if src_lang is None or tgt_lang is None: raise ValueError("""Translation requires a `src_lang` and a `tgt_lang` for this model""" ) _lowerCAmelCase = src_lang _lowerCAmelCase = self(__snake_case , add_special_tokens=__snake_case , return_tensors=__snake_case , **__snake_case ) _lowerCAmelCase = self.convert_tokens_to_ids(__snake_case ) _lowerCAmelCase = tgt_lang_id return inputs def lowercase__ ( self : List[Any] ) -> Optional[int]: _lowerCAmelCase = {self.convert_ids_to_tokens(__snake_case ): i for i in range(self.vocab_size )} vocab.update(self.added_tokens_encoder ) return vocab def lowercase__ ( self : Optional[int] , __snake_case : str ) -> List[str]: return self.sp_model.encode(__snake_case , out_type=__snake_case ) def lowercase__ ( self : Optional[Any] , __snake_case : Union[str, Any] ) -> Tuple: if token in self.fairseq_tokens_to_ids: return self.fairseq_tokens_to_ids[token] _lowerCAmelCase = self.sp_model.PieceToId(__snake_case ) # Need to return unknown token if the SP model returned 0 return spm_id + self.fairseq_offset if spm_id else self.unk_token_id def lowercase__ ( self : List[Any] , __snake_case : Union[str, Any] ) -> Optional[int]: if index in self.fairseq_ids_to_tokens: return self.fairseq_ids_to_tokens[index] return self.sp_model.IdToPiece(index - self.fairseq_offset ) def lowercase__ ( self : Optional[int] , __snake_case : Union[str, Any] ) -> str: _lowerCAmelCase = """""".join(__snake_case ).replace(__snake_case , """ """ ).strip() return out_string def lowercase__ ( self : str , __snake_case : str , __snake_case : Optional[str] = None ) -> Tuple[str]: if not os.path.isdir(__snake_case ): logger.error(f"Vocabulary path ({save_directory}) should be a directory" ) return _lowerCAmelCase = os.path.join( __snake_case , (filename_prefix + """-""" if filename_prefix else """""") + VOCAB_FILES_NAMES["""vocab_file"""] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(__snake_case ) and os.path.isfile(self.vocab_file ): copyfile(self.vocab_file , __snake_case ) elif not os.path.isfile(self.vocab_file ): with open(__snake_case , """wb""" ) as fi: _lowerCAmelCase = self.sp_model.serialized_model_proto() fi.write(__snake_case ) return (out_vocab_file,) def lowercase__ ( self : Optional[Any] , __snake_case : List[str] , __snake_case : str = "eng_Latn" , __snake_case : Optional[List[str]] = None , __snake_case : str = "fra_Latn" , **__snake_case : Optional[int] , ) -> BatchEncoding: _lowerCAmelCase = src_lang _lowerCAmelCase = tgt_lang return super().prepare_seqaseq_batch(__snake_case , __snake_case , **__snake_case ) def lowercase__ ( self : str ) -> Tuple: return self.set_src_lang_special_tokens(self.src_lang ) def lowercase__ ( self : Dict ) -> Optional[Any]: return self.set_tgt_lang_special_tokens(self.tgt_lang ) def lowercase__ ( self : str , __snake_case : int ) -> None: _lowerCAmelCase = self.lang_code_to_id[src_lang] if self.legacy_behaviour: _lowerCAmelCase = [] _lowerCAmelCase = [self.eos_token_id, self.cur_lang_code] else: _lowerCAmelCase = [self.cur_lang_code] _lowerCAmelCase = [self.eos_token_id] def lowercase__ ( self : Any , __snake_case : str ) -> None: _lowerCAmelCase = self.lang_code_to_id[lang] if self.legacy_behaviour: _lowerCAmelCase = [] _lowerCAmelCase = [self.eos_token_id, self.cur_lang_code] else: _lowerCAmelCase = [self.cur_lang_code] _lowerCAmelCase = [self.eos_token_id]
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import math def __SCREAMING_SNAKE_CASE ( UpperCamelCase__ , UpperCamelCase__ ) -> List[str]: '''simple docstring''' if ( not isinstance(UpperCamelCase__ , (int, float) ) or power_factor < -1 or power_factor > 1 ): raise ValueError('''power_factor must be a valid float value between -1 and 1.''' ) return apparent_power * power_factor def __SCREAMING_SNAKE_CASE ( UpperCamelCase__ , UpperCamelCase__ ) -> List[Any]: '''simple docstring''' if ( not isinstance(UpperCamelCase__ , (int, float) ) or power_factor < -1 or power_factor > 1 ): raise ValueError('''power_factor must be a valid float value between -1 and 1.''' ) return apparent_power * math.sqrt(1 - power_factor**2 ) if __name__ == "__main__": import doctest doctest.testmod()
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'''simple docstring''' def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = len(lowerCAmelCase ) for i in range(length - 1 ): _lowerCAmelCase = i for k in range(i + 1 , lowerCAmelCase ): if collection[k] < collection[least]: _lowerCAmelCase = k if least != i: _lowerCAmelCase , _lowerCAmelCase = (collection[i], collection[least]) return collection if __name__ == "__main__": A__ : str =input('''Enter numbers separated by a comma:\n''').strip() A__ : Optional[int] =[int(item) for item in user_input.split(''',''')] print(selection_sort(unsorted))
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'''simple docstring''' import operator as op def a_ ( _lowerCAmelCase ) -> Optional[Any]: __lowerCamelCase : Dict = [] __lowerCamelCase : Union[str, Any] = lambda _lowerCAmelCase ,_lowerCAmelCase : int(x / y ) # noqa: E731 integer division operation __lowerCamelCase : List[Any] = { '^': op.pow, '*': op.mul, '/': div, '+': op.add, '-': op.sub, } # operators & their respective operation # print table header print('Symbol'.center(8 ) ,'Action'.center(12 ) ,'Stack' ,sep=' | ' ) print('-' * (30 + len(_lowerCAmelCase )) ) for x in post_fix: if x.isdigit(): # if x in digit stack.append(_lowerCAmelCase ) # append x to stack # output in tabular format print(x.rjust(8 ) ,('push(' + x + ')').ljust(12 ) ,','.join(_lowerCAmelCase ) ,sep=' | ' ) else: __lowerCamelCase : int = stack.pop() # pop stack # output in tabular format print(''.rjust(8 ) ,('pop(' + b + ')').ljust(12 ) ,','.join(_lowerCAmelCase ) ,sep=' | ' ) __lowerCamelCase : int = stack.pop() # pop stack # output in tabular format print(''.rjust(8 ) ,('pop(' + a + ')').ljust(12 ) ,','.join(_lowerCAmelCase ) ,sep=' | ' ) stack.append( str(opr[x](int(_lowerCAmelCase ) ,int(_lowerCAmelCase ) ) ) ) # evaluate the 2 values popped from stack & push result to stack # output in tabular format print( x.rjust(8 ) ,('push(' + a + x + b + ')').ljust(12 ) ,','.join(_lowerCAmelCase ) ,sep=' | ' ,) return int(stack[0] ) if __name__ == "__main__": _UpperCamelCase = input('\n\nEnter a Postfix Equation (space separated) = ').split(' ') print('\n\tResult = ', solve(Postfix))
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'''simple docstring''' from typing import Dict, List, Optional, Union import numpy as np from transformers.utils import is_vision_available from transformers.utils.generic import TensorType from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import ( center_crop, get_resize_output_image_size, normalize, rescale, resize, to_channel_dimension_format, ) from ...image_utils import ( IMAGENET_STANDARD_MEAN, IMAGENET_STANDARD_STD, ChannelDimension, ImageInput, PILImageResampling, is_valid_image, to_numpy_array, valid_images, ) from ...utils import logging if is_vision_available(): import PIL A__ : List[str] =logging.get_logger(__name__) def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if isinstance(lowerCAmelCase , (list, tuple) ) and isinstance(videos[0] , (list, tuple) ) and is_valid_image(videos[0][0] ): return videos elif isinstance(lowerCAmelCase , (list, tuple) ) and is_valid_image(videos[0] ): return [videos] elif is_valid_image(lowerCAmelCase ): return [[videos]] raise ValueError(f"Could not make batched video from {videos}" ) class UpperCAmelCase ( snake_case_ ): _lowercase: Any = ['''pixel_values'''] def __init__( self : Tuple , __snake_case : bool = True , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = PILImageResampling.BILINEAR , __snake_case : bool = True , __snake_case : Dict[str, int] = None , __snake_case : bool = True , __snake_case : Union[int, float] = 1 / 2_55 , __snake_case : bool = True , __snake_case : bool = True , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , **__snake_case : str , ) -> None: super().__init__(**__snake_case ) _lowerCAmelCase = size if size is not None else {"""shortest_edge""": 2_56} _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) _lowerCAmelCase = crop_size if crop_size is not None else {"""height""": 2_24, """width""": 2_24} _lowerCAmelCase = get_size_dict(__snake_case , param_name="""crop_size""" ) _lowerCAmelCase = do_resize _lowerCAmelCase = size _lowerCAmelCase = do_center_crop _lowerCAmelCase = crop_size _lowerCAmelCase = resample _lowerCAmelCase = do_rescale _lowerCAmelCase = rescale_factor _lowerCAmelCase = offset _lowerCAmelCase = do_normalize _lowerCAmelCase = image_mean if image_mean is not None else IMAGENET_STANDARD_MEAN _lowerCAmelCase = image_std if image_std is not None else IMAGENET_STANDARD_STD def lowercase__ ( self : int , __snake_case : np.ndarray , __snake_case : Dict[str, int] , __snake_case : PILImageResampling = PILImageResampling.BILINEAR , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Optional[Any] , ) -> np.ndarray: _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) if "shortest_edge" in size: _lowerCAmelCase = get_resize_output_image_size(__snake_case , size["""shortest_edge"""] , default_to_square=__snake_case ) elif "height" in size and "width" in size: _lowerCAmelCase = (size["""height"""], size["""width"""]) else: raise ValueError(f"Size must have 'height' and 'width' or 'shortest_edge' as keys. Got {size.keys()}" ) return resize(__snake_case , size=__snake_case , resample=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Union[str, Any] , __snake_case : np.ndarray , __snake_case : Dict[str, int] , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : List[Any] , ) -> np.ndarray: _lowerCAmelCase = get_size_dict(__snake_case ) if "height" not in size or "width" not in size: raise ValueError(f"Size must have 'height' and 'width' as keys. Got {size.keys()}" ) return center_crop(__snake_case , size=(size["""height"""], size["""width"""]) , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Union[str, Any] , __snake_case : np.ndarray , __snake_case : Union[int, float] , __snake_case : bool = True , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Optional[Any] , ) -> Dict: _lowerCAmelCase = image.astype(np.floataa ) if offset: _lowerCAmelCase = image - (scale / 2) return rescale(__snake_case , scale=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : Optional[int] , __snake_case : np.ndarray , __snake_case : Union[float, List[float]] , __snake_case : Union[float, List[float]] , __snake_case : Optional[Union[str, ChannelDimension]] = None , **__snake_case : Tuple , ) -> np.ndarray: return normalize(__snake_case , mean=__snake_case , std=__snake_case , data_format=__snake_case , **__snake_case ) def lowercase__ ( self : List[Any] , __snake_case : ImageInput , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = None , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : bool = None , __snake_case : float = None , __snake_case : bool = None , __snake_case : bool = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[ChannelDimension] = ChannelDimension.FIRST , ) -> np.ndarray: if do_resize and size is None or resample is None: raise ValueError("""Size and resample must be specified if do_resize is True.""" ) if do_center_crop and crop_size is None: raise ValueError("""Crop size must be specified if do_center_crop is True.""" ) if do_rescale and rescale_factor is None: raise ValueError("""Rescale factor must be specified if do_rescale is True.""" ) if do_normalize and (image_mean is None or image_std is None): raise ValueError("""Image mean and std must be specified if do_normalize is True.""" ) if offset and not do_rescale: raise ValueError("""For offset, do_rescale must also be set to True.""" ) # All transformations expect numpy arrays. _lowerCAmelCase = to_numpy_array(__snake_case ) if do_resize: _lowerCAmelCase = self.resize(image=__snake_case , size=__snake_case , resample=__snake_case ) if do_center_crop: _lowerCAmelCase = self.center_crop(__snake_case , size=__snake_case ) if do_rescale: _lowerCAmelCase = self.rescale(image=__snake_case , scale=__snake_case , offset=__snake_case ) if do_normalize: _lowerCAmelCase = self.normalize(image=__snake_case , mean=__snake_case , std=__snake_case ) _lowerCAmelCase = to_channel_dimension_format(__snake_case , __snake_case ) return image def lowercase__ ( self : List[Any] , __snake_case : ImageInput , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : PILImageResampling = None , __snake_case : bool = None , __snake_case : Dict[str, int] = None , __snake_case : bool = None , __snake_case : float = None , __snake_case : bool = None , __snake_case : bool = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[float, List[float]]] = None , __snake_case : Optional[Union[str, TensorType]] = None , __snake_case : ChannelDimension = ChannelDimension.FIRST , **__snake_case : List[str] , ) -> PIL.Image.Image: _lowerCAmelCase = do_resize if do_resize is not None else self.do_resize _lowerCAmelCase = resample if resample is not None else self.resample _lowerCAmelCase = do_center_crop if do_center_crop is not None else self.do_center_crop _lowerCAmelCase = do_rescale if do_rescale is not None else self.do_rescale _lowerCAmelCase = rescale_factor if rescale_factor is not None else self.rescale_factor _lowerCAmelCase = offset if offset is not None else self.offset _lowerCAmelCase = do_normalize if do_normalize is not None else self.do_normalize _lowerCAmelCase = image_mean if image_mean is not None else self.image_mean _lowerCAmelCase = image_std if image_std is not None else self.image_std _lowerCAmelCase = size if size is not None else self.size _lowerCAmelCase = get_size_dict(__snake_case , default_to_square=__snake_case ) _lowerCAmelCase = crop_size if crop_size is not None else self.crop_size _lowerCAmelCase = get_size_dict(__snake_case , param_name="""crop_size""" ) if not valid_images(__snake_case ): raise ValueError( """Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, """ """torch.Tensor, tf.Tensor or jax.ndarray.""" ) _lowerCAmelCase = make_batched(__snake_case ) _lowerCAmelCase = [ [ self._preprocess_image( image=__snake_case , do_resize=__snake_case , size=__snake_case , resample=__snake_case , do_center_crop=__snake_case , crop_size=__snake_case , do_rescale=__snake_case , rescale_factor=__snake_case , offset=__snake_case , do_normalize=__snake_case , image_mean=__snake_case , image_std=__snake_case , data_format=__snake_case , ) for img in video ] for video in videos ] _lowerCAmelCase = {"""pixel_values""": videos} return BatchFeature(data=__snake_case , tensor_type=__snake_case )
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'''simple docstring''' def a ( __a ) -> Union[str, Any]: '''simple docstring''' if a < 0: raise ValueError('''Input value must be a positive integer''' ) elif isinstance(__a , __a ): raise TypeError('''Input value must be a \'int\' type''' ) return bin(__a ).count('''1''' ) if __name__ == "__main__": import doctest doctest.testmod()
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'''simple docstring''' import re import warnings from contextlib import contextmanager from ...processing_utils import ProcessorMixin class UpperCAmelCase ( snake_case_ ): _lowercase: Union[str, Any] = ['''image_processor''', '''tokenizer'''] _lowercase: int = '''AutoImageProcessor''' _lowercase: Optional[int] = '''AutoTokenizer''' def __init__( self : int , __snake_case : Tuple=None , __snake_case : Optional[int]=None , **__snake_case : Tuple ) -> List[Any]: _lowerCAmelCase = None if "feature_extractor" in kwargs: warnings.warn( """The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`""" """ instead.""" , __snake_case , ) _lowerCAmelCase = kwargs.pop("""feature_extractor""" ) _lowerCAmelCase = 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__(__snake_case , __snake_case ) _lowerCAmelCase = self.image_processor _lowerCAmelCase = False def __call__( self : Dict , *__snake_case : Optional[int] , **__snake_case : Union[str, Any] ) -> Tuple: # For backward compatibility if self._in_target_context_manager: return self.current_processor(*__snake_case , **__snake_case ) _lowerCAmelCase = kwargs.pop("""images""" , __snake_case ) _lowerCAmelCase = kwargs.pop("""text""" , __snake_case ) if len(__snake_case ) > 0: _lowerCAmelCase = args[0] _lowerCAmelCase = args[1:] if images is None and text is None: raise ValueError("""You need to specify either an `images` or `text` input to process.""" ) if images is not None: _lowerCAmelCase = self.image_processor(__snake_case , *__snake_case , **__snake_case ) if text is not None: _lowerCAmelCase = self.tokenizer(__snake_case , **__snake_case ) if text is None: return inputs elif images is None: return encodings else: _lowerCAmelCase = encodings["""input_ids"""] return inputs def lowercase__ ( self : List[Any] , *__snake_case : Dict , **__snake_case : List[str] ) -> int: return self.tokenizer.batch_decode(*__snake_case , **__snake_case ) def lowercase__ ( self : int , *__snake_case : Tuple , **__snake_case : Optional[Any] ) -> Any: return self.tokenizer.decode(*__snake_case , **__snake_case ) @contextmanager def lowercase__ ( self : int ) -> Optional[Any]: 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 images inputs, or in a separate call.""" ) _lowerCAmelCase = True _lowerCAmelCase = self.tokenizer yield _lowerCAmelCase = self.image_processor _lowerCAmelCase = False def lowercase__ ( self : Optional[int] , __snake_case : Union[str, Any] , __snake_case : List[Any]=False , __snake_case : Dict=None ) -> Tuple: if added_vocab is None: _lowerCAmelCase = self.tokenizer.get_added_vocab() _lowerCAmelCase = {} while tokens: _lowerCAmelCase = re.search(R"""<s_(.*?)>""" , __snake_case , re.IGNORECASE ) if start_token is None: break _lowerCAmelCase = start_token.group(1 ) _lowerCAmelCase = re.search(Rf"</s_{key}>" , __snake_case , re.IGNORECASE ) _lowerCAmelCase = start_token.group() if end_token is None: _lowerCAmelCase = tokens.replace(__snake_case , """""" ) else: _lowerCAmelCase = end_token.group() _lowerCAmelCase = re.escape(__snake_case ) _lowerCAmelCase = re.escape(__snake_case ) _lowerCAmelCase = re.search(f"{start_token_escaped}(.*?){end_token_escaped}" , __snake_case , re.IGNORECASE ) if content is not None: _lowerCAmelCase = content.group(1 ).strip() if r"<s_" in content and r"</s_" in content: # non-leaf node _lowerCAmelCase = self.tokenajson(__snake_case , is_inner_value=__snake_case , added_vocab=__snake_case ) if value: if len(__snake_case ) == 1: _lowerCAmelCase = value[0] _lowerCAmelCase = value else: # leaf nodes _lowerCAmelCase = [] for leaf in content.split(R"""<sep/>""" ): _lowerCAmelCase = leaf.strip() if leaf in added_vocab and leaf[0] == "<" and leaf[-2:] == "/>": _lowerCAmelCase = leaf[1:-2] # for categorical special tokens output[key].append(__snake_case ) if len(output[key] ) == 1: _lowerCAmelCase = output[key][0] _lowerCAmelCase = tokens[tokens.find(__snake_case ) + len(__snake_case ) :].strip() if tokens[:6] == r"<sep/>": # non-leaf nodes return [output] + self.tokenajson(tokens[6:] , is_inner_value=__snake_case , added_vocab=__snake_case ) if len(__snake_case ): return [output] if is_inner_value else output else: return [] if is_inner_value else {"text_sequence": tokens} @property def lowercase__ ( self : Optional[int] ) -> Union[str, Any]: warnings.warn( """`feature_extractor_class` is deprecated and will be removed in v5. Use `image_processor_class` instead.""" , __snake_case , ) return self.image_processor_class @property def lowercase__ ( self : List[Any] ) -> Any: warnings.warn( """`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.""" , __snake_case , ) return self.image_processor
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"""simple docstring""" import unittest import numpy as np import torch from diffusers import VersatileDiffusionImageVariationPipeline from diffusers.utils.testing_utils import load_image, require_torch_gpu, slow, torch_device lowerCamelCase_ : str = False class __A ( unittest.TestCase ): """simple docstring""" pass @slow @require_torch_gpu class __A ( unittest.TestCase ): """simple docstring""" def SCREAMING_SNAKE_CASE ( self ) -> Tuple: a =VersatileDiffusionImageVariationPipeline.from_pretrained('''shi-labs/versatile-diffusion''' ) pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) a =load_image( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/versatile_diffusion/benz.jpg''' ) a =torch.manual_seed(0 ) a =pipe( image=__snake_case , generator=__snake_case , guidance_scale=7.5 , num_inference_steps=50 , output_type='''numpy''' , ).images a =image[0, 253:256, 253:256, -1] assert image.shape == (1, 512, 512, 3) a =np.array([0.0_441, 0.0_469, 0.0_507, 0.0_575, 0.0_632, 0.0_650, 0.0_865, 0.0_909, 0.0_945] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
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'''simple docstring''' from __future__ import annotations import math def UpperCamelCase__ ( lowerCAmelCase ): """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(lowerCAmelCase ) + 1 ) , 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True A__ : Optional[Any] =[num for num in range(3, 10_00_01, 2) if not is_prime(num)] def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if not isinstance(lowerCAmelCase , lowerCAmelCase ): raise ValueError("""n must be an integer""" ) if n <= 0: raise ValueError("""n must be >= 0""" ) _lowerCAmelCase = [] for num in range(len(lowerCAmelCase ) ): _lowerCAmelCase = 0 while 2 * i * i <= odd_composites[num]: _lowerCAmelCase = odd_composites[num] - 2 * i * i if is_prime(lowerCAmelCase ): break i += 1 else: list_nums.append(odd_composites[num] ) if len(lowerCAmelCase ) == n: return list_nums return [] def UpperCamelCase__ ( ): """simple docstring""" return compute_nums(1 )[0] if __name__ == "__main__": print(F"""{solution() = }""")
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"""simple docstring""" 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 numpy as np import tensorflow as tf from transformers import TFCamembertModel @require_tf @require_sentencepiece @require_tokenizers class A_ ( unittest.TestCase ): """simple docstring""" @slow def UpperCAmelCase__ ( self :int ) -> Tuple: UpperCAmelCase = TFCamembertModel.from_pretrained('jplu/tf-camembert-base' ) UpperCAmelCase = tf.convert_to_tensor( [[5, 1_21, 11, 6_60, 16, 7_30, 2_55_43, 1_10, 83, 6]] , dtype=tf.intaa , ) # J'aime le camembert !" UpperCAmelCase = model(__snake_case )['last_hidden_state'] UpperCAmelCase = tf.TensorShape((1, 10, 7_68) ) self.assertEqual(output.shape , __snake_case ) # compare the actual values for a slice. UpperCAmelCase = tf.convert_to_tensor( [[[-0.0254, 0.0235, 0.1027], [0.0606, -0.1811, -0.0418], [-0.1561, -0.1127, 0.2687]]] , dtype=tf.floataa , ) # camembert = torch.hub.load('pytorch/fairseq', 'camembert.v0') # camembert.eval() # expected_slice = roberta.model.forward(input_ids)[0][:, :3, :3].detach() self.assertTrue(np.allclose(output[:, :3, :3].numpy() , expected_slice.numpy() , atol=1E-4 ) )
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'''simple docstring''' import argparse import json from tqdm import tqdm def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = argparse.ArgumentParser() # Required parameters parser.add_argument( """--src_path""" , type=lowerCAmelCase , default="""biencoder-nq-dev.json""" , help="""Path to raw DPR training data""" , ) parser.add_argument( """--evaluation_set""" , type=lowerCAmelCase , help="""where to store parsed evaluation_set file""" , ) parser.add_argument( """--gold_data_path""" , type=lowerCAmelCase , help="""where to store parsed gold_data_path file""" , ) _lowerCAmelCase = parser.parse_args() with open(args.src_path , """r""" ) as src_file, open(args.evaluation_set , """w""" ) as eval_file, open( args.gold_data_path , """w""" ) as gold_file: _lowerCAmelCase = json.load(lowerCAmelCase ) for dpr_record in tqdm(lowerCAmelCase ): _lowerCAmelCase = dpr_record["""question"""] _lowerCAmelCase = [context["""title"""] for context in dpr_record["""positive_ctxs"""]] eval_file.write(question + """\n""" ) gold_file.write("""\t""".join(lowerCAmelCase ) + """\n""" ) if __name__ == "__main__": main()
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"""simple docstring""" from sklearn.metrics import matthews_corrcoef import datasets __SCREAMING_SNAKE_CASE =''' Compute the Matthews correlation coefficient (MCC) The Matthews correlation coefficient is used in machine learning as a measure of the quality of binary and multiclass classifications. It takes into account true and false positives and negatives and is generally regarded as a balanced measure which can be used even if the classes are of very different sizes. The MCC is in essence a correlation coefficient value between -1 and +1. A coefficient of +1 represents a perfect prediction, 0 an average random prediction and -1 an inverse prediction. The statistic is also known as the phi coefficient. [source: Wikipedia] ''' __SCREAMING_SNAKE_CASE =''' Args: predictions (list of int): Predicted labels, as returned by a model. references (list of int): Ground truth labels. sample_weight (list of int, float, or bool): Sample weights. Defaults to `None`. Returns: matthews_correlation (dict containing float): Matthews correlation. Examples: Example 1, a basic example with only predictions and references as inputs: >>> matthews_metric = datasets.load_metric("matthews_correlation") >>> results = matthews_metric.compute(references=[1, 3, 2, 0, 3, 2], ... predictions=[1, 2, 2, 0, 3, 3]) >>> print(round(results[\'matthews_correlation\'], 2)) 0.54 Example 2, the same example as above, but also including sample weights: >>> matthews_metric = datasets.load_metric("matthews_correlation") >>> results = matthews_metric.compute(references=[1, 3, 2, 0, 3, 2], ... predictions=[1, 2, 2, 0, 3, 3], ... sample_weight=[0.5, 3, 1, 1, 1, 2]) >>> print(round(results[\'matthews_correlation\'], 2)) 0.1 Example 3, the same example as above, but with sample weights that cause a negative correlation: >>> matthews_metric = datasets.load_metric("matthews_correlation") >>> results = matthews_metric.compute(references=[1, 3, 2, 0, 3, 2], ... predictions=[1, 2, 2, 0, 3, 3], ... sample_weight=[0.5, 1, 0, 0, 0, 1]) >>> print(round(results[\'matthews_correlation\'], 2)) -0.25 ''' __SCREAMING_SNAKE_CASE ='''\ @article{scikit-learn, title={Scikit-learn: Machine Learning in {P}ython}, author={Pedregosa, F. and Varoquaux, G. and Gramfort, A. and Michel, V. and Thirion, B. and Grisel, O. and Blondel, M. and Prettenhofer, P. and Weiss, R. and Dubourg, V. and Vanderplas, J. and Passos, A. and Cournapeau, D. and Brucher, M. and Perrot, M. and Duchesnay, E.}, journal={Journal of Machine Learning Research}, volume={12}, pages={2825--2830}, year={2011} } ''' @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION ) class UpperCamelCase ( datasets.Metric ): def _UpperCAmelCase ( self ) -> str: '''simple docstring''' return datasets.MetricInfo( description=_DESCRIPTION ,citation=_CITATION ,inputs_description=_KWARGS_DESCRIPTION ,features=datasets.Features( { 'predictions': datasets.Value('int32' ), 'references': datasets.Value('int32' ), } ) ,reference_urls=[ 'https://scikit-learn.org/stable/modules/generated/sklearn.metrics.matthews_corrcoef.html' ] ,) def _UpperCAmelCase ( self ,__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase=None ) -> str: '''simple docstring''' return { "matthews_correlation": float(matthews_corrcoef(__snake_case ,__snake_case ,sample_weight=__snake_case ) ), }
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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available A__ : Optional[Any] ={ '''configuration_bigbird_pegasus''': [ '''BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''BigBirdPegasusConfig''', '''BigBirdPegasusOnnxConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : Union[str, Any] =[ '''BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST''', '''BigBirdPegasusForCausalLM''', '''BigBirdPegasusForConditionalGeneration''', '''BigBirdPegasusForQuestionAnswering''', '''BigBirdPegasusForSequenceClassification''', '''BigBirdPegasusModel''', '''BigBirdPegasusPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP, BigBirdPegasusConfig, BigBirdPegasusOnnxConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST, BigBirdPegasusForCausalLM, BigBirdPegasusForConditionalGeneration, BigBirdPegasusForQuestionAnswering, BigBirdPegasusForSequenceClassification, BigBirdPegasusModel, BigBirdPegasusPreTrainedModel, ) else: import sys A__ : Optional[Any] =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
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from __future__ import annotations import unittest from transformers import is_tf_available from transformers.testing_utils import require_tf, slow from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import numpy import tensorflow as tf from transformers import ( TF_DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, TF_DPR_QUESTION_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, TF_DPR_READER_PRETRAINED_MODEL_ARCHIVE_LIST, BertConfig, DPRConfig, TFDPRContextEncoder, TFDPRQuestionEncoder, TFDPRReader, ) class UpperCamelCase__ : '''simple docstring''' def __init__( self : int ,lowerCamelCase__ : List[Any] ,lowerCamelCase__ : Any=13 ,lowerCamelCase__ : List[str]=7 ,lowerCamelCase__ : str=True ,lowerCamelCase__ : Optional[int]=True ,lowerCamelCase__ : List[Any]=True ,lowerCamelCase__ : str=True ,lowerCamelCase__ : Union[str, Any]=99 ,lowerCamelCase__ : Tuple=32 ,lowerCamelCase__ : Tuple=2 ,lowerCamelCase__ : Tuple=4 ,lowerCamelCase__ : str=37 ,lowerCamelCase__ : List[str]="gelu" ,lowerCamelCase__ : Dict=0.1 ,lowerCamelCase__ : Optional[int]=0.1 ,lowerCamelCase__ : List[str]=512 ,lowerCamelCase__ : Dict=16 ,lowerCamelCase__ : str=2 ,lowerCamelCase__ : Dict=0.02 ,lowerCamelCase__ : Union[str, Any]=3 ,lowerCamelCase__ : List[str]=4 ,lowerCamelCase__ : Dict=None ,lowerCamelCase__ : str=0 ,) -> Tuple: '''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 SCREAMING_SNAKE_CASE = projection_dim def SCREAMING_SNAKE_CASE__ ( self : int ) -> Any: '''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: # follow test_modeling_tf_ctrl.py SCREAMING_SNAKE_CASE = random_attention_mask([self.batch_size, self.seq_length] ) SCREAMING_SNAKE_CASE = None if self.use_token_type_ids: SCREAMING_SNAKE_CASE = ids_tensor([self.batch_size, self.seq_length] ,self.type_vocab_size ) 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 = BertConfig( 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 ,type_vocab_size=self.type_vocab_size ,is_decoder=__snake_case ,initializer_range=self.initializer_range ,) SCREAMING_SNAKE_CASE = DPRConfig(projection_dim=self.projection_dim ,**config.to_dict() ) return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels def SCREAMING_SNAKE_CASE__ ( self : List[str] ,lowerCamelCase__ : Tuple ,lowerCamelCase__ : List[str] ,lowerCamelCase__ : Tuple ,lowerCamelCase__ : str ,lowerCamelCase__ : Optional[Any] ,lowerCamelCase__ : Tuple ,lowerCamelCase__ : List[str] ) -> Optional[Any]: '''simple docstring''' SCREAMING_SNAKE_CASE = TFDPRContextEncoder(config=__snake_case ) SCREAMING_SNAKE_CASE = model(__snake_case ,attention_mask=__snake_case ,token_type_ids=__snake_case ) SCREAMING_SNAKE_CASE = model(__snake_case ,token_type_ids=__snake_case ) SCREAMING_SNAKE_CASE = model(__snake_case ) self.parent.assertEqual(result.pooler_output.shape ,(self.batch_size, self.projection_dim or self.hidden_size) ) def SCREAMING_SNAKE_CASE__ ( self : Optional[int] ,lowerCamelCase__ : Dict ,lowerCamelCase__ : str ,lowerCamelCase__ : Tuple ,lowerCamelCase__ : int ,lowerCamelCase__ : List[str] ,lowerCamelCase__ : str ,lowerCamelCase__ : Any ) -> str: '''simple docstring''' SCREAMING_SNAKE_CASE = TFDPRQuestionEncoder(config=__snake_case ) SCREAMING_SNAKE_CASE = model(__snake_case ,attention_mask=__snake_case ,token_type_ids=__snake_case ) SCREAMING_SNAKE_CASE = model(__snake_case ,token_type_ids=__snake_case ) SCREAMING_SNAKE_CASE = model(__snake_case ) self.parent.assertEqual(result.pooler_output.shape ,(self.batch_size, self.projection_dim or self.hidden_size) ) def SCREAMING_SNAKE_CASE__ ( self : Optional[int] ,lowerCamelCase__ : int ,lowerCamelCase__ : Optional[Any] ,lowerCamelCase__ : List[Any] ,lowerCamelCase__ : str ,lowerCamelCase__ : Union[str, Any] ,lowerCamelCase__ : Optional[int] ,lowerCamelCase__ : Any ) -> Optional[int]: '''simple docstring''' SCREAMING_SNAKE_CASE = TFDPRReader(config=__snake_case ) SCREAMING_SNAKE_CASE = model(__snake_case ,attention_mask=__snake_case ) 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) ) self.parent.assertEqual(result.relevance_logits.shape ,(self.batch_size,) ) def SCREAMING_SNAKE_CASE__ ( self : List[str] ) -> List[str]: '''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 ), ( SCREAMING_SNAKE_CASE ), ) = config_and_inputs SCREAMING_SNAKE_CASE = {"""input_ids""": input_ids} return config, inputs_dict @require_tf class UpperCamelCase__ ( snake_case_ , snake_case_ , unittest.TestCase ): '''simple docstring''' __snake_case : List[str] = ( ( TFDPRContextEncoder, TFDPRQuestionEncoder, TFDPRReader, ) if is_tf_available() else () ) __snake_case : Optional[Any] = {'''feature-extraction''': TFDPRQuestionEncoder} if is_tf_available() else {} __snake_case : str = False __snake_case : List[str] = False __snake_case : Dict = False __snake_case : Union[str, Any] = False __snake_case : Dict = False def SCREAMING_SNAKE_CASE__ ( self : Optional[Any] ) -> Tuple: '''simple docstring''' SCREAMING_SNAKE_CASE = TFDPRModelTester(self ) SCREAMING_SNAKE_CASE = ConfigTester(self ,config_class=__snake_case ,hidden_size=37 ) def SCREAMING_SNAKE_CASE__ ( self : str ) -> List[Any]: '''simple docstring''' self.config_tester.run_common_tests() def SCREAMING_SNAKE_CASE__ ( self : Union[str, Any] ) -> Union[str, Any]: '''simple docstring''' SCREAMING_SNAKE_CASE = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_dpr_context_encoder(*__snake_case ) def SCREAMING_SNAKE_CASE__ ( self : Optional[Any] ) -> List[Any]: '''simple docstring''' SCREAMING_SNAKE_CASE = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_dpr_question_encoder(*__snake_case ) def SCREAMING_SNAKE_CASE__ ( self : int ) -> Union[str, Any]: '''simple docstring''' SCREAMING_SNAKE_CASE = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_dpr_reader(*__snake_case ) @slow def SCREAMING_SNAKE_CASE__ ( self : Any ) -> Tuple: '''simple docstring''' for model_name in TF_DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: SCREAMING_SNAKE_CASE = TFDPRContextEncoder.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) for model_name in TF_DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: SCREAMING_SNAKE_CASE = TFDPRContextEncoder.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) for model_name in TF_DPR_QUESTION_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: SCREAMING_SNAKE_CASE = TFDPRQuestionEncoder.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) for model_name in TF_DPR_READER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: SCREAMING_SNAKE_CASE = TFDPRReader.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) @require_tf class UpperCamelCase__ ( unittest.TestCase ): '''simple docstring''' @slow def SCREAMING_SNAKE_CASE__ ( self : Optional[Any] ) -> str: '''simple docstring''' SCREAMING_SNAKE_CASE = TFDPRQuestionEncoder.from_pretrained("""facebook/dpr-question_encoder-single-nq-base""" ) SCREAMING_SNAKE_CASE = tf.constant( [[101, 7592, 1010, 2003, 2026, 3899, 10140, 1029, 102]] ) # [CLS] hello, is my dog cute? [SEP] SCREAMING_SNAKE_CASE = model(__snake_case )[0] # embedding shape = (1, 768) # compare the actual values for a slice. SCREAMING_SNAKE_CASE = tf.constant( [ [ 0.03236253, 0.12753335, 0.16818509, 0.00279786, 0.3896933, 0.24264945, 0.2178971, -0.02335227, -0.08481959, -0.14324117, ] ] ) self.assertTrue(numpy.allclose(output[:, :10].numpy() ,expected_slice.numpy() ,atol=1e-4 ) )
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'''simple docstring''' import math from typing import Callable, List, Optional, Union import numpy as np import PIL import torch from PIL import Image from transformers import CLIPTextModel, CLIPTokenizer from diffusers.models import AutoencoderKL, UNetaDConditionModel from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_upscale import StableDiffusionUpscalePipeline from diffusers.schedulers import DDIMScheduler, DDPMScheduler, LMSDiscreteScheduler, PNDMScheduler def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase=[] ): """simple docstring""" _lowerCAmelCase = size[0] - overlap_pixels * 2 _lowerCAmelCase = size[1] - overlap_pixels * 2 for letter in ["l", "r"]: if letter in remove_borders: size_x += overlap_pixels for letter in ["t", "b"]: if letter in remove_borders: size_y += overlap_pixels _lowerCAmelCase = np.ones((size_y, size_x) , dtype=np.uinta ) * 2_55 _lowerCAmelCase = np.pad(lowerCAmelCase , mode="""linear_ramp""" , pad_width=lowerCAmelCase , end_values=0 ) if "l" in remove_borders: _lowerCAmelCase = mask[:, overlap_pixels : mask.shape[1]] if "r" in remove_borders: _lowerCAmelCase = mask[:, 0 : mask.shape[1] - overlap_pixels] if "t" in remove_borders: _lowerCAmelCase = mask[overlap_pixels : mask.shape[0], :] if "b" in remove_borders: _lowerCAmelCase = mask[0 : mask.shape[0] - overlap_pixels, :] return mask def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" return max(lowerCAmelCase , min(lowerCAmelCase , lowerCAmelCase ) ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" return ( clamp(rect[0] , min[0] , max[0] ), clamp(rect[1] , min[1] , max[1] ), clamp(rect[2] , min[0] , max[0] ), clamp(rect[3] , min[1] , max[1] ), ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = list(lowerCAmelCase ) rect[0] -= overlap rect[1] -= overlap rect[2] += overlap rect[3] += overlap _lowerCAmelCase = clamp_rect(lowerCAmelCase , [0, 0] , [image_size[0], image_size[1]] ) return rect def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = Image.new("""RGB""" , (tile.size[0] + original_slice, tile.size[1]) ) result.paste( original_image.resize((tile.size[0], tile.size[1]) , Image.BICUBIC ).crop( (slice_x, 0, slice_x + original_slice, tile.size[1]) ) , (0, 0) , ) result.paste(lowerCAmelCase , (original_slice, 0) ) return result def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = (original_image_slice * 4, 0, tile.size[0], tile.size[1]) _lowerCAmelCase = tile.crop(lowerCAmelCase ) return tile def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = n % d return n - divisor class UpperCAmelCase ( snake_case_ ): def __init__( self : List[Any] , __snake_case : AutoencoderKL , __snake_case : CLIPTextModel , __snake_case : CLIPTokenizer , __snake_case : UNetaDConditionModel , __snake_case : DDPMScheduler , __snake_case : Union[DDIMScheduler, PNDMScheduler, LMSDiscreteScheduler] , __snake_case : int = 3_50 , ) -> int: super().__init__( vae=__snake_case , text_encoder=__snake_case , tokenizer=__snake_case , unet=__snake_case , low_res_scheduler=__snake_case , scheduler=__snake_case , max_noise_level=__snake_case , ) def lowercase__ ( self : List[Any] , __snake_case : List[Any] , __snake_case : List[Any] , __snake_case : Dict , __snake_case : List[Any] , __snake_case : int , __snake_case : Optional[Any] , __snake_case : Any , **__snake_case : str ) -> int: torch.manual_seed(0 ) _lowerCAmelCase = ( min(image.size[0] - (tile_size + original_image_slice) , x * tile_size ), min(image.size[1] - (tile_size + original_image_slice) , y * tile_size ), min(image.size[0] , (x + 1) * tile_size ), min(image.size[1] , (y + 1) * tile_size ), ) _lowerCAmelCase = add_overlap_rect(__snake_case , __snake_case , image.size ) _lowerCAmelCase = image.crop(__snake_case ) _lowerCAmelCase = ((crop_rect[0] + ((crop_rect[2] - crop_rect[0]) / 2)) / image.size[0]) * tile.size[0] _lowerCAmelCase = translated_slice_x - (original_image_slice / 2) _lowerCAmelCase = max(0 , __snake_case ) _lowerCAmelCase = squeeze_tile(__snake_case , __snake_case , __snake_case , __snake_case ) _lowerCAmelCase = to_input.size _lowerCAmelCase = to_input.resize((tile_size, tile_size) , Image.BICUBIC ) _lowerCAmelCase = super(__snake_case , self ).__call__(image=__snake_case , **__snake_case ).images[0] _lowerCAmelCase = upscaled_tile.resize((orig_input_size[0] * 4, orig_input_size[1] * 4) , Image.BICUBIC ) _lowerCAmelCase = unsqueeze_tile(__snake_case , __snake_case ) _lowerCAmelCase = upscaled_tile.resize((tile.size[0] * 4, tile.size[1] * 4) , Image.BICUBIC ) _lowerCAmelCase = [] if x == 0: remove_borders.append("""l""" ) elif crop_rect[2] == image.size[0]: remove_borders.append("""r""" ) if y == 0: remove_borders.append("""t""" ) elif crop_rect[3] == image.size[1]: remove_borders.append("""b""" ) _lowerCAmelCase = Image.fromarray( make_transparency_mask( (upscaled_tile.size[0], upscaled_tile.size[1]) , tile_border * 4 , remove_borders=__snake_case ) , mode="""L""" , ) final_image.paste( __snake_case , (crop_rect_with_overlap[0] * 4, crop_rect_with_overlap[1] * 4) , __snake_case ) @torch.no_grad() def __call__( self : Union[str, Any] , __snake_case : Union[str, List[str]] , __snake_case : Union[PIL.Image.Image, List[PIL.Image.Image]] , __snake_case : int = 75 , __snake_case : float = 9.0 , __snake_case : int = 50 , __snake_case : Optional[Union[str, List[str]]] = None , __snake_case : Optional[int] = 1 , __snake_case : float = 0.0 , __snake_case : Optional[torch.Generator] = None , __snake_case : Optional[torch.FloatTensor] = None , __snake_case : Optional[Callable[[int, int, torch.FloatTensor], None]] = None , __snake_case : int = 1 , __snake_case : int = 1_28 , __snake_case : int = 32 , __snake_case : int = 32 , ) -> str: _lowerCAmelCase = Image.new("""RGB""" , (image.size[0] * 4, image.size[1] * 4) ) _lowerCAmelCase = math.ceil(image.size[0] / tile_size ) _lowerCAmelCase = math.ceil(image.size[1] / tile_size ) _lowerCAmelCase = tcx * tcy _lowerCAmelCase = 0 for y in range(__snake_case ): for x in range(__snake_case ): self._process_tile( __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , prompt=__snake_case , num_inference_steps=__snake_case , guidance_scale=__snake_case , noise_level=__snake_case , negative_prompt=__snake_case , num_images_per_prompt=__snake_case , eta=__snake_case , generator=__snake_case , latents=__snake_case , ) current_count += 1 if callback is not None: callback({"""progress""": current_count / total_tile_count, """image""": final_image} ) return final_image def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = """stabilityai/stable-diffusion-x4-upscaler""" _lowerCAmelCase = StableDiffusionTiledUpscalePipeline.from_pretrained(lowerCAmelCase , revision="""fp16""" , torch_dtype=torch.floataa ) _lowerCAmelCase = pipe.to("""cuda""" ) _lowerCAmelCase = Image.open("""../../docs/source/imgs/diffusers_library.jpg""" ) def callback(lowerCAmelCase ): print(f"progress: {obj['progress']:.4f}" ) obj["image"].save("""diffusers_library_progress.jpg""" ) _lowerCAmelCase = pipe(image=lowerCAmelCase , prompt="""Black font, white background, vector""" , noise_level=40 , callback=lowerCAmelCase ) final_image.save("""diffusers_library.jpg""" ) if __name__ == "__main__": main()
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"""simple docstring""" import itertools from dataclasses import dataclass from typing import Optional import pandas as pd import pyarrow as pa import datasets from datasets.table import table_cast @dataclass class lowerCamelCase ( datasets.BuilderConfig ): '''simple docstring''' SCREAMING_SNAKE_CASE = None class lowerCamelCase ( datasets.ArrowBasedBuilder ): '''simple docstring''' SCREAMING_SNAKE_CASE = PandasConfig def _a (self ): """simple docstring""" return datasets.DatasetInfo(features=self.config.features ) def _a (self , _lowerCamelCase ): """simple docstring""" if not self.config.data_files: raise ValueError(F"""At least one data file must be specified, but got data_files={self.config.data_files}""" ) UpperCAmelCase__ : Any = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__snake_case , (str, list, tuple) ): UpperCAmelCase__ : Any = data_files if isinstance(__snake_case , __snake_case ): UpperCAmelCase__ : int = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive UpperCAmelCase__ : Dict = [dl_manager.iter_files(__snake_case ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"""files""": files} )] UpperCAmelCase__ : Optional[Any] = [] for split_name, files in data_files.items(): if isinstance(__snake_case , __snake_case ): UpperCAmelCase__ : Tuple = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive UpperCAmelCase__ : Union[str, Any] = [dl_manager.iter_files(__snake_case ) for file in files] splits.append(datasets.SplitGenerator(name=__snake_case , gen_kwargs={"""files""": files} ) ) return splits def _a (self , _lowerCamelCase ): """simple docstring""" if self.config.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example UpperCAmelCase__ : int = table_cast(__snake_case , self.config.features.arrow_schema ) return pa_table def _a (self , _lowerCamelCase ): """simple docstring""" for i, file in enumerate(itertools.chain.from_iterable(__snake_case ) ): with open(__snake_case , """rb""" ) as f: UpperCAmelCase__ : Union[str, Any] = pa.Table.from_pandas(pd.read_pickle(__snake_case ) ) yield i, self._cast_table(__snake_case )
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'''simple docstring''' import gc import random import unittest import numpy as np import torch from PIL import Image from diffusers import ( DDIMScheduler, KandinskyVaaImgaImgPipeline, KandinskyVaaPriorPipeline, UNetaDConditionModel, VQModel, ) from diffusers.utils import floats_tensor, load_image, load_numpy, slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference enable_full_determinism() class UpperCAmelCase ( snake_case_ , unittest.TestCase ): _lowercase: int = KandinskyVaaImgaImgPipeline _lowercase: List[str] = ['''image_embeds''', '''negative_image_embeds''', '''image'''] _lowercase: Optional[int] = [ '''image_embeds''', '''negative_image_embeds''', '''image''', ] _lowercase: Tuple = [ '''generator''', '''height''', '''width''', '''strength''', '''guidance_scale''', '''num_inference_steps''', '''return_dict''', '''guidance_scale''', '''num_images_per_prompt''', '''output_type''', '''return_dict''', ] _lowercase: List[str] = False @property def lowercase__ ( self : str ) -> List[str]: return 32 @property def lowercase__ ( self : Optional[int] ) -> List[Any]: return 32 @property def lowercase__ ( self : Tuple ) -> str: return self.time_input_dim @property def lowercase__ ( self : Any ) -> Optional[int]: return self.time_input_dim * 4 @property def lowercase__ ( self : int ) -> Optional[Any]: return 1_00 @property def lowercase__ ( self : int ) -> Dict: torch.manual_seed(0 ) _lowerCAmelCase = { """in_channels""": 4, # Out channels is double in channels because predicts mean and variance """out_channels""": 8, """addition_embed_type""": """image""", """down_block_types""": ("""ResnetDownsampleBlock2D""", """SimpleCrossAttnDownBlock2D"""), """up_block_types""": ("""SimpleCrossAttnUpBlock2D""", """ResnetUpsampleBlock2D"""), """mid_block_type""": """UNetMidBlock2DSimpleCrossAttn""", """block_out_channels""": (self.block_out_channels_a, self.block_out_channels_a * 2), """layers_per_block""": 1, """encoder_hid_dim""": self.text_embedder_hidden_size, """encoder_hid_dim_type""": """image_proj""", """cross_attention_dim""": self.cross_attention_dim, """attention_head_dim""": 4, """resnet_time_scale_shift""": """scale_shift""", """class_embed_type""": None, } _lowerCAmelCase = UNetaDConditionModel(**__snake_case ) return model @property def lowercase__ ( self : Union[str, Any] ) -> Tuple: return { "block_out_channels": [32, 64], "down_block_types": ["DownEncoderBlock2D", "AttnDownEncoderBlock2D"], "in_channels": 3, "latent_channels": 4, "layers_per_block": 1, "norm_num_groups": 8, "norm_type": "spatial", "num_vq_embeddings": 12, "out_channels": 3, "up_block_types": [ "AttnUpDecoderBlock2D", "UpDecoderBlock2D", ], "vq_embed_dim": 4, } @property def lowercase__ ( self : Dict ) -> str: torch.manual_seed(0 ) _lowerCAmelCase = VQModel(**self.dummy_movq_kwargs ) return model def lowercase__ ( self : Optional[int] ) -> Optional[int]: _lowerCAmelCase = self.dummy_unet _lowerCAmelCase = self.dummy_movq _lowerCAmelCase = { """num_train_timesteps""": 10_00, """beta_schedule""": """linear""", """beta_start""": 0.0_00_85, """beta_end""": 0.0_12, """clip_sample""": False, """set_alpha_to_one""": False, """steps_offset""": 0, """prediction_type""": """epsilon""", """thresholding""": False, } _lowerCAmelCase = DDIMScheduler(**__snake_case ) _lowerCAmelCase = { """unet""": unet, """scheduler""": scheduler, """movq""": movq, } return components def lowercase__ ( self : int , __snake_case : List[str] , __snake_case : List[Any]=0 ) -> Union[str, Any]: _lowerCAmelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(seed + 1 ) ).to( __snake_case ) # create init_image _lowerCAmelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((2_56, 2_56) ) if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = { """image""": init_image, """image_embeds""": image_embeds, """negative_image_embeds""": negative_image_embeds, """generator""": generator, """height""": 64, """width""": 64, """num_inference_steps""": 10, """guidance_scale""": 7.0, """strength""": 0.2, """output_type""": """np""", } return inputs def lowercase__ ( self : str ) -> Tuple: _lowerCAmelCase = """cpu""" _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) _lowerCAmelCase = pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = pipe(**self.get_dummy_inputs(__snake_case ) ) _lowerCAmelCase = output.images _lowerCAmelCase = pipe( **self.get_dummy_inputs(__snake_case ) , return_dict=__snake_case , )[0] _lowerCAmelCase = image[0, -3:, -3:, -1] _lowerCAmelCase = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) _lowerCAmelCase = np.array( [0.6_19_97_78, 0.63_98_44_06, 0.46_14_57_85, 0.62_94_49_84, 0.5_62_22_15, 0.47_30_61_32, 0.47_44_14_56, 0.4_60_76_06, 0.48_71_92_63] ) assert ( np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 ), f" expected_slice {expected_slice}, but got {image_slice.flatten()}" assert ( np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 ), f" expected_slice {expected_slice}, but got {image_from_tuple_slice.flatten()}" @slow @require_torch_gpu class UpperCAmelCase ( unittest.TestCase ): def lowercase__ ( self : Any ) -> List[Any]: # clean up the VRAM after each test super().tearDown() gc.collect() torch.cuda.empty_cache() def lowercase__ ( self : int ) -> Dict: _lowerCAmelCase = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/kandinskyv22/kandinskyv22_img2img_frog.npy""" ) _lowerCAmelCase = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/kandinsky/cat.png""" ) _lowerCAmelCase = """A red cartoon frog, 4k""" _lowerCAmelCase = KandinskyVaaPriorPipeline.from_pretrained( """kandinsky-community/kandinsky-2-2-prior""" , torch_dtype=torch.floataa ) pipe_prior.to(__snake_case ) _lowerCAmelCase = KandinskyVaaImgaImgPipeline.from_pretrained( """kandinsky-community/kandinsky-2-2-decoder""" , torch_dtype=torch.floataa ) _lowerCAmelCase = pipeline.to(__snake_case ) pipeline.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = torch.Generator(device="""cpu""" ).manual_seed(0 ) _lowerCAmelCase , _lowerCAmelCase = pipe_prior( __snake_case , generator=__snake_case , num_inference_steps=5 , negative_prompt="""""" , ).to_tuple() _lowerCAmelCase = pipeline( image=__snake_case , image_embeds=__snake_case , negative_image_embeds=__snake_case , generator=__snake_case , num_inference_steps=1_00 , height=7_68 , width=7_68 , strength=0.2 , output_type="""np""" , ) _lowerCAmelCase = output.images[0] assert image.shape == (7_68, 7_68, 3) assert_mean_pixel_difference(__snake_case , __snake_case )
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from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available _UpperCamelCase = { '''configuration_nllb_moe''': [ '''NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''NllbMoeConfig''', ] } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _UpperCamelCase = [ '''NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST''', '''NllbMoeForConditionalGeneration''', '''NllbMoeModel''', '''NllbMoePreTrainedModel''', '''NllbMoeTop2Router''', '''NllbMoeSparseMLP''', ] if TYPE_CHECKING: from .configuration_nllb_moe import ( NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP, NllbMoeConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_nllb_moe import ( NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST, NllbMoeForConditionalGeneration, NllbMoeModel, NllbMoePreTrainedModel, NllbMoeSparseMLP, NllbMoeTopaRouter, ) else: import sys _UpperCamelCase = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
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'''simple docstring''' import inspect import unittest from transformers import SegformerConfig, is_torch_available, is_vision_available from transformers.models.auto import get_values from transformers.testing_utils import require_torch, slow, torch_device from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( MODEL_MAPPING, SegformerForImageClassification, SegformerForSemanticSegmentation, SegformerModel, ) from transformers.models.segformer.modeling_segformer import SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import SegformerImageProcessor class UpperCAmelCase ( snake_case_ ): def lowercase__ ( self : List[Any] ) -> Union[str, Any]: _lowerCAmelCase = self.config_class(**self.inputs_dict ) self.parent.assertTrue(hasattr(__snake_case , """hidden_sizes""" ) ) self.parent.assertTrue(hasattr(__snake_case , """num_attention_heads""" ) ) self.parent.assertTrue(hasattr(__snake_case , """num_encoder_blocks""" ) ) class UpperCAmelCase : def __init__( self : Optional[int] , __snake_case : str , __snake_case : Dict=13 , __snake_case : str=64 , __snake_case : Dict=3 , __snake_case : Dict=4 , __snake_case : Tuple=[2, 2, 2, 2] , __snake_case : int=[8, 4, 2, 1] , __snake_case : List[str]=[16, 32, 64, 1_28] , __snake_case : Optional[Any]=[1, 4, 8, 16] , __snake_case : Dict=[1, 2, 4, 8] , __snake_case : Optional[Any]=True , __snake_case : List[str]=True , __snake_case : int="gelu" , __snake_case : Optional[Any]=0.1 , __snake_case : Any=0.1 , __snake_case : Tuple=0.02 , __snake_case : Union[str, Any]=3 , __snake_case : Tuple=None , ) -> List[str]: _lowerCAmelCase = parent _lowerCAmelCase = batch_size _lowerCAmelCase = image_size _lowerCAmelCase = num_channels _lowerCAmelCase = num_encoder_blocks _lowerCAmelCase = sr_ratios _lowerCAmelCase = depths _lowerCAmelCase = hidden_sizes _lowerCAmelCase = downsampling_rates _lowerCAmelCase = num_attention_heads _lowerCAmelCase = is_training _lowerCAmelCase = use_labels _lowerCAmelCase = hidden_act _lowerCAmelCase = hidden_dropout_prob _lowerCAmelCase = attention_probs_dropout_prob _lowerCAmelCase = initializer_range _lowerCAmelCase = num_labels _lowerCAmelCase = scope def lowercase__ ( self : int ) -> Union[str, Any]: _lowerCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) _lowerCAmelCase = None if self.use_labels: _lowerCAmelCase = ids_tensor([self.batch_size, self.image_size, self.image_size] , self.num_labels ) _lowerCAmelCase = self.get_config() return config, pixel_values, labels def lowercase__ ( self : List[Any] ) -> List[str]: return SegformerConfig( image_size=self.image_size , num_channels=self.num_channels , num_encoder_blocks=self.num_encoder_blocks , depths=self.depths , hidden_sizes=self.hidden_sizes , num_attention_heads=self.num_attention_heads , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , initializer_range=self.initializer_range , ) def lowercase__ ( self : Tuple , __snake_case : Optional[Any] , __snake_case : Union[str, Any] , __snake_case : Optional[int] ) -> Tuple: _lowerCAmelCase = SegformerModel(config=__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = _lowerCAmelCase = self.image_size // (self.downsampling_rates[-1] * 2) self.parent.assertEqual( result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], expected_height, expected_width) ) def lowercase__ ( self : List[str] , __snake_case : List[Any] , __snake_case : Optional[Any] , __snake_case : Optional[int] ) -> List[str]: _lowerCAmelCase = self.num_labels _lowerCAmelCase = SegformerForSemanticSegmentation(__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = model(__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) _lowerCAmelCase = model(__snake_case , labels=__snake_case ) self.parent.assertEqual( result.logits.shape , (self.batch_size, self.num_labels, self.image_size // 4, self.image_size // 4) ) self.parent.assertGreater(result.loss , 0.0 ) def lowercase__ ( self : str , __snake_case : Union[str, Any] , __snake_case : Optional[int] , __snake_case : Dict ) -> List[str]: _lowerCAmelCase = 1 _lowerCAmelCase = SegformerForSemanticSegmentation(config=__snake_case ) model.to(__snake_case ) model.eval() _lowerCAmelCase = torch.randint(0 , 1 , (self.batch_size, self.image_size, self.image_size) ).to(__snake_case ) _lowerCAmelCase = model(__snake_case , labels=__snake_case ) self.parent.assertGreater(result.loss , 0.0 ) def lowercase__ ( self : Optional[int] ) -> int: _lowerCAmelCase = self.prepare_config_and_inputs() _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = config_and_inputs _lowerCAmelCase = {"""pixel_values""": pixel_values} return config, inputs_dict @require_torch class UpperCAmelCase ( snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Any = ( ( SegformerModel, SegformerForSemanticSegmentation, SegformerForImageClassification, ) if is_torch_available() else () ) _lowercase: Tuple = ( { '''feature-extraction''': SegformerModel, '''image-classification''': SegformerForImageClassification, '''image-segmentation''': SegformerForSemanticSegmentation, } if is_torch_available() else {} ) _lowercase: Tuple = True _lowercase: Union[str, Any] = False _lowercase: Dict = False _lowercase: Optional[Any] = False def lowercase__ ( self : Tuple ) -> Any: _lowerCAmelCase = SegformerModelTester(self ) _lowerCAmelCase = SegformerConfigTester(self , config_class=__snake_case ) def lowercase__ ( self : Optional[Any] ) -> Dict: self.config_tester.run_common_tests() def lowercase__ ( self : int ) -> Union[str, Any]: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__snake_case ) def lowercase__ ( self : Dict ) -> int: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_binary_image_segmentation(*__snake_case ) def lowercase__ ( self : Dict ) -> Dict: _lowerCAmelCase = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_segmentation(*__snake_case ) @unittest.skip("""SegFormer does not use inputs_embeds""" ) def lowercase__ ( self : int ) -> Union[str, Any]: pass @unittest.skip("""SegFormer does not have get_input_embeddings method and get_output_embeddings methods""" ) def lowercase__ ( self : Optional[int] ) -> int: pass def lowercase__ ( self : Union[str, Any] ) -> Optional[Any]: _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCAmelCase = model_class(__snake_case ) _lowerCAmelCase = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic _lowerCAmelCase = [*signature.parameters.keys()] _lowerCAmelCase = ["""pixel_values"""] self.assertListEqual(arg_names[:1] , __snake_case ) def lowercase__ ( self : Tuple ) -> Tuple: _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() _lowerCAmelCase = True for model_class in self.all_model_classes: _lowerCAmelCase = True _lowerCAmelCase = False _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.attentions _lowerCAmelCase = sum(self.model_tester.depths ) self.assertEqual(len(__snake_case ) , __snake_case ) # check that output_attentions also work using config del inputs_dict["output_attentions"] _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) _lowerCAmelCase = (self.model_tester.image_size // 4) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) # verify the last attentions (last block, last layer) _lowerCAmelCase = (self.model_tester.image_size // 32) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (32 * self.model_tester.sr_ratios[-1])) ** 2 self.assertListEqual( list(attentions[-1].shape[-3:] ) , [self.model_tester.num_attention_heads[-1], expected_seq_len, expected_reduced_seq_len] , ) _lowerCAmelCase = len(__snake_case ) # Check attention is always last and order is fine _lowerCAmelCase = True _lowerCAmelCase = True _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) self.assertEqual(out_len + 1 , len(__snake_case ) ) _lowerCAmelCase = outputs.attentions self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first attentions (first block, first layer) _lowerCAmelCase = (self.model_tester.image_size // 4) ** 2 _lowerCAmelCase = (self.model_tester.image_size // (4 * self.model_tester.sr_ratios[0])) ** 2 self.assertListEqual( list(self_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads[0], expected_seq_len, expected_reduced_seq_len] , ) def lowercase__ ( self : int ) -> List[str]: def check_hidden_states_output(__snake_case : str , __snake_case : Tuple , __snake_case : Optional[int] ): _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.eval() with torch.no_grad(): _lowerCAmelCase = model(**self._prepare_for_class(__snake_case , __snake_case ) ) _lowerCAmelCase = outputs.hidden_states _lowerCAmelCase = self.model_tester.num_encoder_blocks self.assertEqual(len(__snake_case ) , __snake_case ) # verify the first hidden states (first block) self.assertListEqual( list(hidden_states[0].shape[-3:] ) , [ self.model_tester.hidden_sizes[0], self.model_tester.image_size // 4, self.model_tester.image_size // 4, ] , ) _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: _lowerCAmelCase = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] _lowerCAmelCase = True check_hidden_states_output(__snake_case , __snake_case , __snake_case ) def lowercase__ ( self : Optional[Any] ) -> Any: if not self.model_tester.is_training: return _lowerCAmelCase , _lowerCAmelCase = self.model_tester.prepare_config_and_inputs_for_common() _lowerCAmelCase = True for model_class in self.all_model_classes: if model_class in get_values(__snake_case ): continue _lowerCAmelCase = model_class(__snake_case ) model.to(__snake_case ) model.train() _lowerCAmelCase = self._prepare_for_class(__snake_case , __snake_case , return_labels=__snake_case ) _lowerCAmelCase = model(**__snake_case ).loss loss.backward() @unittest.skip("""Will be fixed soon by reducing the size of the model used for common tests.""" ) def lowercase__ ( self : Tuple ) -> Dict: pass @slow def lowercase__ ( self : str ) -> Optional[int]: for model_name in SEGFORMER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowerCAmelCase = SegformerModel.from_pretrained(__snake_case ) self.assertIsNotNone(__snake_case ) def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_torch class UpperCAmelCase ( unittest.TestCase ): @slow def lowercase__ ( self : Union[str, Any] ) -> Any: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained("""nvidia/segformer-b0-finetuned-ade-512-512""" ).to( __snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = torch.Size((1, model.config.num_labels, 1_28, 1_28) ) self.assertEqual(outputs.logits.shape , __snake_case ) _lowerCAmelCase = torch.tensor( [ [[-4.63_10, -5.52_32, -6.23_56], [-5.19_21, -6.14_44, -6.59_96], [-5.44_24, -6.27_90, -6.75_74]], [[-12.13_91, -13.31_22, -13.95_54], [-12.87_32, -13.93_52, -14.35_63], [-12.94_38, -13.82_26, -14.25_13]], [[-12.51_34, -13.46_86, -14.49_15], [-12.86_69, -14.43_43, -14.77_58], [-13.25_23, -14.58_19, -15.06_94]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1E-4 ) ) @slow def lowercase__ ( self : Optional[Any] ) -> Any: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained( """nvidia/segformer-b1-finetuned-cityscapes-1024-1024""" ).to(__snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = torch.Size((1, model.config.num_labels, 1_28, 1_28) ) self.assertEqual(outputs.logits.shape , __snake_case ) _lowerCAmelCase = torch.tensor( [ [[-13.57_48, -13.91_11, -12.65_00], [-14.35_00, -15.36_83, -14.23_28], [-14.75_32, -16.04_24, -15.60_87]], [[-17.16_51, -15.87_25, -12.96_53], [-17.25_80, -17.37_18, -14.82_23], [-16.60_58, -16.87_83, -16.74_52]], [[-3.64_56, -3.02_09, -1.42_03], [-3.07_97, -3.19_59, -2.00_00], [-1.87_57, -1.92_17, -1.69_97]], ] ).to(__snake_case ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3] , __snake_case , atol=1E-1 ) ) @slow def lowercase__ ( self : Any ) -> str: # only resize + normalize _lowerCAmelCase = SegformerImageProcessor( image_scale=(5_12, 5_12) , keep_ratio=__snake_case , align=__snake_case , do_random_crop=__snake_case ) _lowerCAmelCase = SegformerForSemanticSegmentation.from_pretrained("""nvidia/segformer-b0-finetuned-ade-512-512""" ).to( __snake_case ) _lowerCAmelCase = prepare_img() _lowerCAmelCase = image_processor(images=__snake_case , return_tensors="""pt""" ) _lowerCAmelCase = encoded_inputs.pixel_values.to(__snake_case ) with torch.no_grad(): _lowerCAmelCase = model(__snake_case ) _lowerCAmelCase = outputs.logits.detach().cpu() _lowerCAmelCase = image_processor.post_process_semantic_segmentation(outputs=__snake_case , target_sizes=[(5_00, 3_00)] ) _lowerCAmelCase = torch.Size((5_00, 3_00) ) self.assertEqual(segmentation[0].shape , __snake_case ) _lowerCAmelCase = image_processor.post_process_semantic_segmentation(outputs=__snake_case ) _lowerCAmelCase = torch.Size((1_28, 1_28) ) self.assertEqual(segmentation[0].shape , __snake_case )
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'''simple docstring''' import unittest from transformers import DonutProcessor lowerCamelCase_ = '''naver-clova-ix/donut-base''' class _UpperCAmelCase ( unittest.TestCase ): """simple docstring""" def lowerCAmelCase ( self : List[Any] ): '''simple docstring''' _A = DonutProcessor.from_pretrained(__snake_case ) def lowerCAmelCase ( self : str ): '''simple docstring''' _A = { "name": "John Doe", "age": "99", "city": "Atlanta", "state": "GA", "zip": "30301", "phone": "123-4567", "nicknames": [{"nickname": "Johnny"}, {"nickname": "JD"}], } _A = ( "<s_name>John Doe</s_name><s_age>99</s_age><s_city>Atlanta</s_city>" "<s_state>GA</s_state><s_zip>30301</s_zip><s_phone>123-4567</s_phone>" "<s_nicknames><s_nickname>Johnny</s_nickname>" "<sep/><s_nickname>JD</s_nickname></s_nicknames>" ) _A = self.processor.tokenajson(__snake_case ) self.assertDictEqual(__snake_case , __snake_case )
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'''simple docstring''' from dataclasses import dataclass, field from typing import TYPE_CHECKING, Any, ClassVar, Dict, List, Optional, Union import pyarrow as pa if TYPE_CHECKING: from .features import FeatureType @dataclass class UpperCAmelCase : _lowercase: List[str] _lowercase: Optional[str] = None # Automatically constructed _lowercase: ClassVar[str] = "dict" _lowercase: ClassVar[Any] = None _lowercase: str = field(default='''Translation''' , init=snake_case_ , repr=snake_case_ ) def __call__( self : Optional[int] ) -> Optional[int]: return pa.struct({lang: pa.string() for lang in sorted(self.languages )} ) def lowercase__ ( self : Union[str, Any] ) -> Union["FeatureType", Dict[str, "FeatureType"]]: from .features import Value return {k: Value("""string""" ) for k in sorted(self.languages )} @dataclass class UpperCAmelCase : _lowercase: Optional[List] = None _lowercase: Optional[int] = None _lowercase: Optional[str] = None # Automatically constructed _lowercase: ClassVar[str] = "dict" _lowercase: ClassVar[Any] = None _lowercase: str = field(default='''TranslationVariableLanguages''' , init=snake_case_ , repr=snake_case_ ) def lowercase__ ( self : Any ) -> Optional[Any]: _lowerCAmelCase = sorted(set(self.languages ) ) if self.languages else None _lowerCAmelCase = len(self.languages ) if self.languages else None def __call__( self : List[str] ) -> Optional[Any]: return pa.struct({"""language""": pa.list_(pa.string() ), """translation""": pa.list_(pa.string() )} ) def lowercase__ ( self : Optional[Any] , __snake_case : Tuple ) -> Any: _lowerCAmelCase = set(self.languages ) if self.languages and set(__snake_case ) - lang_set: raise ValueError( f"Some languages in example ({', '.join(sorted(set(__snake_case ) - lang_set ) )}) are not in valid set ({', '.join(__snake_case )})." ) # Convert dictionary into tuples, splitting out cases where there are # multiple translations for a single language. _lowerCAmelCase = [] for lang, text in translation_dict.items(): if isinstance(__snake_case , __snake_case ): translation_tuples.append((lang, text) ) else: translation_tuples.extend([(lang, el) for el in text] ) # Ensure translations are in ascending order by language code. _lowerCAmelCase , _lowerCAmelCase = zip(*sorted(__snake_case ) ) return {"language": languages, "translation": translations} def lowercase__ ( self : str ) -> Union["FeatureType", Dict[str, "FeatureType"]]: from .features import Sequence, Value return { "language": Sequence(Value("""string""" ) ), "translation": Sequence(Value("""string""" ) ), }
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import math from typing import Callable, List, Optional, Union import numpy as np import PIL import torch from PIL import Image from transformers import CLIPTextModel, CLIPTokenizer from diffusers.models import AutoencoderKL, UNetaDConditionModel from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_upscale import StableDiffusionUpscalePipeline from diffusers.schedulers import DDIMScheduler, DDPMScheduler, LMSDiscreteScheduler, PNDMScheduler def __a ( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE=[] ) -> Any: '''simple docstring''' __UpperCAmelCase = size[0] - overlap_pixels * 2 __UpperCAmelCase = size[1] - overlap_pixels * 2 for letter in ["l", "r"]: if letter in remove_borders: size_x += overlap_pixels for letter in ["t", "b"]: if letter in remove_borders: size_y += overlap_pixels __UpperCAmelCase = np.ones((size_y, size_x) , dtype=np.uinta ) * 2_5_5 __UpperCAmelCase = np.pad(SCREAMING_SNAKE_CASE , mode='''linear_ramp''' , pad_width=SCREAMING_SNAKE_CASE , end_values=0 ) if "l" in remove_borders: __UpperCAmelCase = mask[:, overlap_pixels : mask.shape[1]] if "r" in remove_borders: __UpperCAmelCase = mask[:, 0 : mask.shape[1] - overlap_pixels] if "t" in remove_borders: __UpperCAmelCase = mask[overlap_pixels : mask.shape[0], :] if "b" in remove_borders: __UpperCAmelCase = mask[0 : mask.shape[0] - overlap_pixels, :] return mask def __a ( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) -> Tuple: '''simple docstring''' return max(SCREAMING_SNAKE_CASE , min(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) ) def __a ( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) -> Optional[Any]: '''simple docstring''' return ( clamp(rect[0] , min[0] , max[0] ), clamp(rect[1] , min[1] , max[1] ), clamp(rect[2] , min[0] , max[0] ), clamp(rect[3] , min[1] , max[1] ), ) def __a ( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) -> Any: '''simple docstring''' __UpperCAmelCase = list(SCREAMING_SNAKE_CASE ) rect[0] -= overlap rect[1] -= overlap rect[2] += overlap rect[3] += overlap __UpperCAmelCase = clamp_rect(SCREAMING_SNAKE_CASE , [0, 0] , [image_size[0], image_size[1]] ) return rect def __a ( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) -> Dict: '''simple docstring''' __UpperCAmelCase = Image.new('''RGB''' , (tile.size[0] + original_slice, tile.size[1]) ) result.paste( original_image.resize((tile.size[0], tile.size[1]) , Image.BICUBIC ).crop( (slice_x, 0, slice_x + original_slice, tile.size[1]) ) , (0, 0) , ) result.paste(SCREAMING_SNAKE_CASE , (original_slice, 0) ) return result def __a ( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) -> Any: '''simple docstring''' __UpperCAmelCase = (original_image_slice * 4, 0, tile.size[0], tile.size[1]) __UpperCAmelCase = tile.crop(SCREAMING_SNAKE_CASE ) return tile def __a ( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) -> str: '''simple docstring''' __UpperCAmelCase = n % d return n - divisor class A_ ( snake_case_ ): '''simple docstring''' def __init__(self , lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ = 350 , ) -> int: super().__init__( vae=__snake_case , text_encoder=__snake_case , tokenizer=__snake_case , unet=__snake_case , low_res_scheduler=__snake_case , scheduler=__snake_case , max_noise_level=__snake_case , ) def lowerCAmelCase_ (self , lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ , **lowercase__ ) -> int: torch.manual_seed(0 ) __UpperCAmelCase = ( min(image.size[0] - (tile_size + original_image_slice) , x * tile_size ), min(image.size[1] - (tile_size + original_image_slice) , y * tile_size ), min(image.size[0] , (x + 1) * tile_size ), min(image.size[1] , (y + 1) * tile_size ), ) __UpperCAmelCase = add_overlap_rect(__snake_case , __snake_case , image.size ) __UpperCAmelCase = image.crop(__snake_case ) __UpperCAmelCase = ((crop_rect[0] + ((crop_rect[2] - crop_rect[0]) / 2)) / image.size[0]) * tile.size[0] __UpperCAmelCase = translated_slice_x - (original_image_slice / 2) __UpperCAmelCase = max(0 , __snake_case ) __UpperCAmelCase = squeeze_tile(__snake_case , __snake_case , __snake_case , __snake_case ) __UpperCAmelCase = to_input.size __UpperCAmelCase = to_input.resize((tile_size, tile_size) , Image.BICUBIC ) __UpperCAmelCase = super(__snake_case , self ).__call__(image=__snake_case , **__snake_case ).images[0] __UpperCAmelCase = upscaled_tile.resize((orig_input_size[0] * 4, orig_input_size[1] * 4) , Image.BICUBIC ) __UpperCAmelCase = unsqueeze_tile(__snake_case , __snake_case ) __UpperCAmelCase = upscaled_tile.resize((tile.size[0] * 4, tile.size[1] * 4) , Image.BICUBIC ) __UpperCAmelCase = [] if x == 0: remove_borders.append('''l''' ) elif crop_rect[2] == image.size[0]: remove_borders.append('''r''' ) if y == 0: remove_borders.append('''t''' ) elif crop_rect[3] == image.size[1]: remove_borders.append('''b''' ) __UpperCAmelCase = Image.fromarray( make_transparency_mask( (upscaled_tile.size[0], upscaled_tile.size[1]) , tile_border * 4 , remove_borders=__snake_case ) , mode='''L''' , ) final_image.paste( __snake_case , (crop_rect_with_overlap[0] * 4, crop_rect_with_overlap[1] * 4) , __snake_case ) @torch.no_grad() def __call__(self , lowercase__ , lowercase__ , lowercase__ = 75 , lowercase__ = 9.0 , lowercase__ = 50 , lowercase__ = None , lowercase__ = 1 , lowercase__ = 0.0 , lowercase__ = None , lowercase__ = None , lowercase__ = None , lowercase__ = 1 , lowercase__ = 128 , lowercase__ = 32 , lowercase__ = 32 , ) -> str: __UpperCAmelCase = Image.new('''RGB''' , (image.size[0] * 4, image.size[1] * 4) ) __UpperCAmelCase = math.ceil(image.size[0] / tile_size ) __UpperCAmelCase = math.ceil(image.size[1] / tile_size ) __UpperCAmelCase = tcx * tcy __UpperCAmelCase = 0 for y in range(__snake_case ): for x in range(__snake_case ): self._process_tile( __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , prompt=__snake_case , num_inference_steps=__snake_case , guidance_scale=__snake_case , noise_level=__snake_case , negative_prompt=__snake_case , num_images_per_prompt=__snake_case , eta=__snake_case , generator=__snake_case , latents=__snake_case , ) current_count += 1 if callback is not None: callback({'''progress''': current_count / total_tile_count, '''image''': final_image} ) return final_image def __a ( ) -> Optional[Any]: '''simple docstring''' __UpperCAmelCase = '''stabilityai/stable-diffusion-x4-upscaler''' __UpperCAmelCase = StableDiffusionTiledUpscalePipeline.from_pretrained(SCREAMING_SNAKE_CASE , revision='''fp16''' , torch_dtype=torch.floataa ) __UpperCAmelCase = pipe.to('''cuda''' ) __UpperCAmelCase = Image.open('''../../docs/source/imgs/diffusers_library.jpg''' ) def callback(SCREAMING_SNAKE_CASE ): print(f'''progress: {obj['progress']:.4f}''' ) obj["image"].save('''diffusers_library_progress.jpg''' ) __UpperCAmelCase = pipe(image=SCREAMING_SNAKE_CASE , prompt='''Black font, white background, vector''' , noise_level=4_0 , callback=SCREAMING_SNAKE_CASE ) final_image.save('''diffusers_library.jpg''' ) if __name__ == "__main__": main()
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'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import normalizers from tokenizers.pre_tokenizers import BertPreTokenizer, PreTokenizer from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_roformer import RoFormerTokenizer from .tokenization_utils import JiebaPreTokenizer A__ : List[str] =logging.get_logger(__name__) A__ : Any ={'''vocab_file''': '''vocab.txt''', '''tokenizer_file''': '''tokenizer.json'''} A__ : Any ={ '''vocab_file''': { '''junnyu/roformer_chinese_small''': '''https://huggingface.co/junnyu/roformer_chinese_small/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_base''': '''https://huggingface.co/junnyu/roformer_chinese_base/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_char_small''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_small/resolve/main/vocab.txt''' ), '''junnyu/roformer_chinese_char_base''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_base/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_discriminator''': ( '''https://huggingface.co/junnyu/roformer_small_discriminator/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_generator''': ( '''https://huggingface.co/junnyu/roformer_small_generator/resolve/main/vocab.txt''' ), } } A__ : Optional[int] ={ '''junnyu/roformer_chinese_small''': 15_36, '''junnyu/roformer_chinese_base''': 15_36, '''junnyu/roformer_chinese_char_small''': 5_12, '''junnyu/roformer_chinese_char_base''': 5_12, '''junnyu/roformer_small_discriminator''': 1_28, '''junnyu/roformer_small_generator''': 1_28, } A__ : Optional[int] ={ '''junnyu/roformer_chinese_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_base''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_base''': {'''do_lower_case''': True}, '''junnyu/roformer_small_discriminator''': {'''do_lower_case''': True}, '''junnyu/roformer_small_generator''': {'''do_lower_case''': True}, } class UpperCAmelCase ( snake_case_ ): _lowercase: Optional[Any] = VOCAB_FILES_NAMES _lowercase: Tuple = PRETRAINED_VOCAB_FILES_MAP _lowercase: Dict = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowercase: str = PRETRAINED_INIT_CONFIGURATION _lowercase: List[Any] = RoFormerTokenizer def __init__( self : Dict , __snake_case : str=None , __snake_case : Tuple=None , __snake_case : List[Any]=True , __snake_case : str="[UNK]" , __snake_case : Tuple="[SEP]" , __snake_case : str="[PAD]" , __snake_case : str="[CLS]" , __snake_case : Any="[MASK]" , __snake_case : Dict=True , __snake_case : str=None , **__snake_case : Optional[Any] , ) -> Union[str, Any]: super().__init__( __snake_case , tokenizer_file=__snake_case , do_lower_case=__snake_case , unk_token=__snake_case , sep_token=__snake_case , pad_token=__snake_case , cls_token=__snake_case , mask_token=__snake_case , tokenize_chinese_chars=__snake_case , strip_accents=__snake_case , **__snake_case , ) _lowerCAmelCase = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( pre_tok_state.get("""lowercase""" , __snake_case ) != do_lower_case or pre_tok_state.get("""strip_accents""" , __snake_case ) != strip_accents ): _lowerCAmelCase = getattr(__snake_case , pre_tok_state.pop("""type""" ) ) _lowerCAmelCase = do_lower_case _lowerCAmelCase = strip_accents _lowerCAmelCase = pre_tok_class(**__snake_case ) _lowerCAmelCase = do_lower_case def __getstate__( self : int ) -> Optional[int]: _lowerCAmelCase = self.__dict__.copy() _lowerCAmelCase = BertPreTokenizer() return state def __setstate__( self : Tuple , __snake_case : Tuple ) -> List[str]: _lowerCAmelCase = d _lowerCAmelCase = self.__dict__["""_tokenizer"""].get_vocab() _lowerCAmelCase = PreTokenizer.custom(JiebaPreTokenizer(__snake_case ) ) def lowercase__ ( self : Union[str, Any] , __snake_case : Optional[int] , __snake_case : Optional[int]=None ) -> Optional[Any]: _lowerCAmelCase = [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 lowercase__ ( self : List[str] , __snake_case : List[int] , __snake_case : Optional[List[int]] = None ) -> List[int]: _lowerCAmelCase = [self.sep_token_id] _lowerCAmelCase = [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 lowercase__ ( self : int , __snake_case : str , __snake_case : Optional[str] = None ) -> Tuple[str]: _lowerCAmelCase = self._tokenizer.model.save(__snake_case , name=__snake_case ) return tuple(__snake_case ) def lowercase__ ( self : Dict , __snake_case : Dict , __snake_case : int=None , __snake_case : List[Any]=None , __snake_case : List[Any]=False , **__snake_case : Dict , ) -> str: _lowerCAmelCase = BertPreTokenizer() return super().save_pretrained(__snake_case , __snake_case , __snake_case , __snake_case , **__snake_case )
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from ...configuration_utils import PretrainedConfig from ...utils import logging __A : Union[str, Any] = logging.get_logger(__name__) __A : List[Any] = { '''weiweishi/roc-bert-base-zh''': '''https://huggingface.co/weiweishi/roc-bert-base-zh/resolve/main/config.json''', } class A_ (snake_case_ ): UpperCAmelCase__ = '''roc_bert''' def __init__( self , _A=3_0_5_2_2 , _A=7_6_8 , _A=1_2 , _A=1_2 , _A=3_0_7_2 , _A="gelu" , _A=0.1 , _A=0.1 , _A=5_1_2 , _A=2 , _A=0.02 , _A=1E-12 , _A=True , _A=0 , _A="absolute" , _A=None , _A=True , _A=True , _A=7_6_8 , _A=9_1_0 , _A=5_1_2 , _A=2_4_8_5_8 , _A=True , **_A , ): '''simple docstring''' UpperCAmelCase = vocab_size UpperCAmelCase = max_position_embeddings UpperCAmelCase = hidden_size UpperCAmelCase = num_hidden_layers UpperCAmelCase = num_attention_heads UpperCAmelCase = intermediate_size UpperCAmelCase = hidden_act UpperCAmelCase = hidden_dropout_prob UpperCAmelCase = attention_probs_dropout_prob UpperCAmelCase = initializer_range UpperCAmelCase = type_vocab_size UpperCAmelCase = layer_norm_eps UpperCAmelCase = use_cache UpperCAmelCase = enable_pronunciation UpperCAmelCase = enable_shape UpperCAmelCase = pronunciation_embed_dim UpperCAmelCase = pronunciation_vocab_size UpperCAmelCase = shape_embed_dim UpperCAmelCase = shape_vocab_size UpperCAmelCase = concat_input UpperCAmelCase = position_embedding_type UpperCAmelCase = classifier_dropout super().__init__(pad_token_id=__snake_case , **__snake_case )
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'''simple docstring''' # This model implementation is heavily inspired by https://github.com/haofanwang/ControlNet-for-Diffusers/ import gc import random import tempfile import unittest import numpy as np import torch from PIL import Image from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer from diffusers import ( AutoencoderKL, ControlNetModel, DDIMScheduler, StableDiffusionControlNetImgaImgPipeline, UNetaDConditionModel, ) from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel from diffusers.utils import floats_tensor, load_image, load_numpy, randn_tensor, slow, torch_device from diffusers.utils.import_utils import is_xformers_available from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..pipeline_params import ( IMAGE_TO_IMAGE_IMAGE_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_PARAMS, ) from ..test_pipelines_common import ( PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin, ) enable_full_determinism() class UpperCAmelCase ( snake_case_ , snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Optional[int] = StableDiffusionControlNetImgaImgPipeline _lowercase: Tuple = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''} _lowercase: str = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS _lowercase: Tuple = IMAGE_TO_IMAGE_IMAGE_PARAMS.union({'''control_image'''} ) _lowercase: Union[str, Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS def lowercase__ ( self : List[str] ) -> List[str]: torch.manual_seed(0 ) _lowerCAmelCase = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , ) torch.manual_seed(0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) torch.manual_seed(0 ) _lowerCAmelCase = DDIMScheduler( beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule="""scaled_linear""" , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) _lowerCAmelCase = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , ) torch.manual_seed(0 ) _lowerCAmelCase = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) _lowerCAmelCase = CLIPTextModel(__snake_case ) _lowerCAmelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) _lowerCAmelCase = { """unet""": unet, """controlnet""": controlnet, """scheduler""": scheduler, """vae""": vae, """text_encoder""": text_encoder, """tokenizer""": tokenizer, """safety_checker""": None, """feature_extractor""": None, } return components def lowercase__ ( self : Any , __snake_case : str , __snake_case : Any=0 ) -> str: if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = 2 _lowerCAmelCase = randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ) _lowerCAmelCase = floats_tensor(control_image.shape , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((64, 64) ) _lowerCAmelCase = { """prompt""": """A painting of a squirrel eating a burger""", """generator""": generator, """num_inference_steps""": 2, """guidance_scale""": 6.0, """output_type""": """numpy""", """image""": image, """control_image""": control_image, } return inputs def lowercase__ ( self : Optional[int] ) -> List[Any]: return self._test_attention_slicing_forward_pass(expected_max_diff=2E-3 ) @unittest.skipIf( torch_device != """cuda""" or not is_xformers_available() , reason="""XFormers attention is only available with CUDA and `xformers` installed""" , ) def lowercase__ ( self : Tuple ) -> Optional[int]: self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2E-3 ) def lowercase__ ( self : Tuple ) -> Optional[int]: self._test_inference_batch_single_identical(expected_max_diff=2E-3 ) class UpperCAmelCase ( snake_case_ , snake_case_ , unittest.TestCase ): _lowercase: Any = StableDiffusionControlNetImgaImgPipeline _lowercase: Dict = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''} _lowercase: List[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS _lowercase: Any = frozenset([] ) # TO_DO: add image_params once refactored VaeImageProcessor.preprocess def lowercase__ ( self : Optional[Any] ) -> Union[str, Any]: torch.manual_seed(0 ) _lowerCAmelCase = UNetaDConditionModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , ) torch.manual_seed(0 ) def init_weights(__snake_case : Optional[Any] ): if isinstance(__snake_case , torch.nn.Convad ): torch.nn.init.normal(m.weight ) m.bias.data.fill_(1.0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) controlneta.controlnet_down_blocks.apply(__snake_case ) torch.manual_seed(0 ) _lowerCAmelCase = ControlNetModel( block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , ) controlneta.controlnet_down_blocks.apply(__snake_case ) torch.manual_seed(0 ) _lowerCAmelCase = DDIMScheduler( beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule="""scaled_linear""" , clip_sample=__snake_case , set_alpha_to_one=__snake_case , ) torch.manual_seed(0 ) _lowerCAmelCase = AutoencoderKL( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , ) torch.manual_seed(0 ) _lowerCAmelCase = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) _lowerCAmelCase = CLIPTextModel(__snake_case ) _lowerCAmelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) _lowerCAmelCase = MultiControlNetModel([controlneta, controlneta] ) _lowerCAmelCase = { """unet""": unet, """controlnet""": controlnet, """scheduler""": scheduler, """vae""": vae, """text_encoder""": text_encoder, """tokenizer""": tokenizer, """safety_checker""": None, """feature_extractor""": None, } return components def lowercase__ ( self : Tuple , __snake_case : int , __snake_case : List[str]=0 ) -> Union[str, Any]: if str(__snake_case ).startswith("""mps""" ): _lowerCAmelCase = torch.manual_seed(__snake_case ) else: _lowerCAmelCase = torch.Generator(device=__snake_case ).manual_seed(__snake_case ) _lowerCAmelCase = 2 _lowerCAmelCase = [ randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ), randn_tensor( (1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=__snake_case , device=torch.device(__snake_case ) , ), ] _lowerCAmelCase = floats_tensor(control_image[0].shape , rng=random.Random(__snake_case ) ).to(__snake_case ) _lowerCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0] _lowerCAmelCase = Image.fromarray(np.uinta(__snake_case ) ).convert("""RGB""" ).resize((64, 64) ) _lowerCAmelCase = { """prompt""": """A painting of a squirrel eating a burger""", """generator""": generator, """num_inference_steps""": 2, """guidance_scale""": 6.0, """output_type""": """numpy""", """image""": image, """control_image""": control_image, } return inputs def lowercase__ ( self : List[str] ) -> Dict: _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) pipe.to(__snake_case ) _lowerCAmelCase = 10.0 _lowerCAmelCase = 4 _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=0.1 , control_guidance_end=0.2 )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=[0.1, 0.3] , control_guidance_end=[0.2, 0.7] )[0] _lowerCAmelCase = self.get_dummy_inputs(__snake_case ) _lowerCAmelCase = steps _lowerCAmelCase = scale _lowerCAmelCase = pipe(**__snake_case , control_guidance_start=0.4 , control_guidance_end=[0.5, 0.8] )[0] # make sure that all outputs are different assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 assert np.sum(np.abs(output_a - output_a ) ) > 1E-3 def lowercase__ ( self : int ) -> str: return self._test_attention_slicing_forward_pass(expected_max_diff=2E-3 ) @unittest.skipIf( torch_device != """cuda""" or not is_xformers_available() , reason="""XFormers attention is only available with CUDA and `xformers` installed""" , ) def lowercase__ ( self : Optional[Any] ) -> Dict: self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2E-3 ) def lowercase__ ( self : int ) -> str: self._test_inference_batch_single_identical(expected_max_diff=2E-3 ) def lowercase__ ( self : Union[str, Any] ) -> Optional[Any]: _lowerCAmelCase = self.get_dummy_components() _lowerCAmelCase = self.pipeline_class(**__snake_case ) pipe.to(__snake_case ) pipe.set_progress_bar_config(disable=__snake_case ) with tempfile.TemporaryDirectory() as tmpdir: try: # save_pretrained is not implemented for Multi-ControlNet pipe.save_pretrained(__snake_case ) except NotImplementedError: pass @slow @require_torch_gpu class UpperCAmelCase ( unittest.TestCase ): def lowercase__ ( self : Union[str, Any] ) -> int: super().tearDown() gc.collect() torch.cuda.empty_cache() def lowercase__ ( self : List[str] ) -> Any: _lowerCAmelCase = ControlNetModel.from_pretrained("""lllyasviel/sd-controlnet-canny""" ) _lowerCAmelCase = StableDiffusionControlNetImgaImgPipeline.from_pretrained( """runwayml/stable-diffusion-v1-5""" , safety_checker=__snake_case , controlnet=__snake_case ) pipe.enable_model_cpu_offload() pipe.set_progress_bar_config(disable=__snake_case ) _lowerCAmelCase = torch.Generator(device="""cpu""" ).manual_seed(0 ) _lowerCAmelCase = """evil space-punk bird""" _lowerCAmelCase = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png""" ).resize((5_12, 5_12) ) _lowerCAmelCase = load_image( """https://huggingface.co/lllyasviel/sd-controlnet-canny/resolve/main/images/bird.png""" ).resize((5_12, 5_12) ) _lowerCAmelCase = pipe( __snake_case , __snake_case , control_image=__snake_case , generator=__snake_case , output_type="""np""" , num_inference_steps=50 , strength=0.6 , ) _lowerCAmelCase = output.images[0] assert image.shape == (5_12, 5_12, 3) _lowerCAmelCase = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/img2img.npy""" ) assert np.abs(expected_image - image ).max() < 9E-2
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'''simple docstring''' from typing import Dict, List, Optional, Type from .. import config from ..utils import logging from .formatting import ( ArrowFormatter, CustomFormatter, Formatter, PandasFormatter, PythonFormatter, TensorFormatter, format_table, query_table, ) from .np_formatter import NumpyFormatter _UpperCamelCase = logging.get_logger(__name__) _UpperCamelCase = {} _UpperCamelCase = {} _UpperCamelCase = {} def a_ ( _lowerCAmelCase ,_lowerCAmelCase ,_lowerCAmelCase = None ,) -> List[Any]: __lowerCamelCase : Union[str, Any] = aliases if aliases is not None else [] if format_type in _FORMAT_TYPES: logger.warning( F'Overwriting format type \'{format_type}\' ({_FORMAT_TYPES[format_type].__name__} -> {formatter_cls.__name__})' ) __lowerCamelCase : List[Any] = formatter_cls for alias in set(aliases + [format_type] ): if alias in _FORMAT_TYPES_ALIASES: logger.warning( F'Overwriting format type alias \'{alias}\' ({_FORMAT_TYPES_ALIASES[alias]} -> {format_type})' ) __lowerCamelCase : Tuple = format_type def a_ ( _lowerCAmelCase ,_lowerCAmelCase ,_lowerCAmelCase = None ) -> str: __lowerCamelCase : str = aliases if aliases is not None else [] for alias in set(aliases + [format_type] ): __lowerCamelCase : str = unavailable_error # Here we define all the available formatting functions that can be used by `Dataset.set_format` _register_formatter(PythonFormatter, None, aliases=['python']) _register_formatter(ArrowFormatter, 'arrow', aliases=['pa', 'pyarrow']) _register_formatter(NumpyFormatter, 'numpy', aliases=['np']) _register_formatter(PandasFormatter, 'pandas', aliases=['pd']) _register_formatter(CustomFormatter, 'custom') if config.TORCH_AVAILABLE: from .torch_formatter import TorchFormatter _register_formatter(TorchFormatter, 'torch', aliases=['pt', 'pytorch']) else: _UpperCamelCase = ValueError('PyTorch needs to be installed to be able to return PyTorch tensors.') _register_unavailable_formatter(_torch_error, 'torch', aliases=['pt', 'pytorch']) if config.TF_AVAILABLE: from .tf_formatter import TFFormatter _register_formatter(TFFormatter, 'tensorflow', aliases=['tf']) else: _UpperCamelCase = ValueError('Tensorflow needs to be installed to be able to return Tensorflow tensors.') _register_unavailable_formatter(_tf_error, 'tensorflow', aliases=['tf']) if config.JAX_AVAILABLE: from .jax_formatter import JaxFormatter _register_formatter(JaxFormatter, 'jax', aliases=[]) else: _UpperCamelCase = ValueError('JAX needs to be installed to be able to return JAX arrays.') _register_unavailable_formatter(_jax_error, 'jax', aliases=[]) def a_ ( _lowerCAmelCase ) -> Optional[Any]: if format_type in _FORMAT_TYPES_ALIASES: return _FORMAT_TYPES_ALIASES[format_type] else: return format_type def a_ ( _lowerCAmelCase ,**_lowerCAmelCase ) -> Union[str, Any]: __lowerCamelCase : Optional[int] = get_format_type_from_alias(_lowerCAmelCase ) if format_type in _FORMAT_TYPES: return _FORMAT_TYPES[format_type](**_lowerCAmelCase ) if format_type in _FORMAT_TYPES_ALIASES_UNAVAILABLE: raise _FORMAT_TYPES_ALIASES_UNAVAILABLE[format_type] else: raise ValueError( F'Return type should be None or selected in {list(type for type in _FORMAT_TYPES.keys() if type != None )}, but got \'{format_type}\'' )
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'''simple docstring''' import argparse import json from pathlib import Path import requests import torch from huggingface_hub import hf_hub_download from PIL import Image from transformers import ( SwiftFormerConfig, SwiftFormerForImageClassification, ViTImageProcessor, ) from transformers.utils import logging logging.set_verbosity_info() A__ : List[Any] =logging.get_logger(__name__) A__ : Any =torch.device('''cpu''') def UpperCamelCase__ ( ): """simple docstring""" _lowerCAmelCase = """http://images.cocodataset.org/val2017/000000039769.jpg""" _lowerCAmelCase = Image.open(requests.get(lowerCAmelCase , stream=lowerCAmelCase ).raw ) return im def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if swiftformer_name == "swiftformer_xs": return torch.tensor([-2.17_03e00, 2.11_07e00, -2.08_11e00, 8.86_85e-01, 2.43_60e-01] ) elif swiftformer_name == "swiftformer_s": return torch.tensor([3.96_36e-01, 2.34_78e-01, -1.69_63e00, -1.73_81e00, -8.63_37e-01] ) elif swiftformer_name == "swiftformer_l1": return torch.tensor([-4.27_68e-01, -4.74_29e-01, -1.08_97e00, -1.02_48e00, 3.55_23e-02] ) elif swiftformer_name == "swiftformer_l3": return torch.tensor([-2.53_30e-01, 2.42_11e-01, -6.01_85e-01, -8.27_89e-01, -6.04_46e-02] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = dct.pop(lowerCAmelCase ) _lowerCAmelCase = val def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [] for k in state_dict.keys(): _lowerCAmelCase = k if ".pwconv" in k: _lowerCAmelCase = k_new.replace(""".pwconv""" , """.point_wise_conv""" ) if ".dwconv" in k: _lowerCAmelCase = k_new.replace(""".dwconv""" , """.depth_wise_conv""" ) if ".Proj." in k: _lowerCAmelCase = k_new.replace(""".Proj.""" , """.proj.""" ) if "patch_embed" in k_new: _lowerCAmelCase = k_new.replace("""patch_embed""" , """swiftformer.patch_embed.patch_embedding""" ) if "network" in k_new: _lowerCAmelCase = k_new.split(""".""" ) if ls[2].isdigit(): _lowerCAmelCase = """swiftformer.encoder.network.""" + ls[1] + """.blocks.""" + ls[2] + """.""" + """.""".join(ls[3:] ) else: _lowerCAmelCase = k_new.replace("""network""" , """swiftformer.encoder.network""" ) rename_keys.append((k, k_new) ) return rename_keys @torch.no_grad() def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = SwiftFormerConfig() # dataset (ImageNet-21k only or also fine-tuned on ImageNet 2012), patch_size and image_size _lowerCAmelCase = 10_00 _lowerCAmelCase = """huggingface/label-files""" _lowerCAmelCase = """imagenet-1k-id2label.json""" _lowerCAmelCase = json.load(open(hf_hub_download(lowerCAmelCase , lowerCAmelCase , repo_type="""dataset""" ) , """r""" ) ) _lowerCAmelCase = {int(lowerCAmelCase ): v for k, v in idalabel.items()} _lowerCAmelCase = idalabel _lowerCAmelCase = {v: k for k, v in idalabel.items()} # size of the architecture if swiftformer_name == "swiftformer_xs": _lowerCAmelCase = [3, 3, 6, 4] _lowerCAmelCase = [48, 56, 1_12, 2_20] elif swiftformer_name == "swiftformer_s": _lowerCAmelCase = [3, 3, 9, 6] _lowerCAmelCase = [48, 64, 1_68, 2_24] elif swiftformer_name == "swiftformer_l1": _lowerCAmelCase = [4, 3, 10, 5] _lowerCAmelCase = [48, 96, 1_92, 3_84] elif swiftformer_name == "swiftformer_l3": _lowerCAmelCase = [4, 4, 12, 6] _lowerCAmelCase = [64, 1_28, 3_20, 5_12] # load state_dict of original model, remove and rename some keys if original_ckpt: if original_ckpt.startswith("""https""" ): _lowerCAmelCase = torch.hub.load_state_dict_from_url(lowerCAmelCase , map_location="""cpu""" , check_hash=lowerCAmelCase ) else: _lowerCAmelCase = torch.load(lowerCAmelCase , map_location="""cpu""" ) _lowerCAmelCase = checkpoint _lowerCAmelCase = create_rename_keys(lowerCAmelCase ) for rename_key_src, rename_key_dest in rename_keys: rename_key(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ) # load HuggingFace model _lowerCAmelCase = SwiftFormerForImageClassification(lowerCAmelCase ).eval() hf_model.load_state_dict(lowerCAmelCase ) # prepare test inputs _lowerCAmelCase = prepare_img() _lowerCAmelCase = ViTImageProcessor.from_pretrained("""preprocessor_config""" ) _lowerCAmelCase = processor(images=lowerCAmelCase , return_tensors="""pt""" ) # compare outputs from both models _lowerCAmelCase = get_expected_output(lowerCAmelCase ) _lowerCAmelCase = hf_model(inputs["""pixel_values"""] ).logits assert hf_logits.shape == torch.Size([1, 10_00] ) assert torch.allclose(hf_logits[0, 0:5] , lowerCAmelCase , atol=1e-3 ) Path(lowerCAmelCase ).mkdir(exist_ok=lowerCAmelCase ) print(f"Saving model {swiftformer_name} to {pytorch_dump_folder_path}" ) hf_model.save_pretrained(lowerCAmelCase ) if __name__ == "__main__": A__ : str =argparse.ArgumentParser() # Required parameters parser.add_argument( '''--swiftformer_name''', default='''swiftformer_xs''', choices=['''swiftformer_xs''', '''swiftformer_s''', '''swiftformer_l1''', '''swiftformer_l3'''], type=str, help='''Name of the SwiftFormer model you\'d like to convert.''', ) parser.add_argument( '''--pytorch_dump_folder_path''', default='''./converted_outputs/''', type=str, help='''Path to the output PyTorch model directory.''', ) parser.add_argument('''--original_ckpt''', default=None, type=str, help='''Path to the original model checkpoint.''') A__ : Tuple =parser.parse_args() convert_swiftformer_checkpoint(args.swiftformer_name, args.pytorch_dump_folder_path, args.original_ckpt)
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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available __snake_case = { '''configuration_clap''': [ '''CLAP_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ClapAudioConfig''', '''ClapConfig''', '''ClapTextConfig''', ], '''processing_clap''': ['''ClapProcessor'''], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __snake_case = [ '''CLAP_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ClapModel''', '''ClapPreTrainedModel''', '''ClapTextModel''', '''ClapTextModelWithProjection''', '''ClapAudioModel''', '''ClapAudioModelWithProjection''', ] __snake_case = ['''ClapFeatureExtractor'''] if TYPE_CHECKING: from .configuration_clap import ( CLAP_PRETRAINED_MODEL_ARCHIVE_LIST, ClapAudioConfig, ClapConfig, ClapTextConfig, ) from .processing_clap import ClapProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .feature_extraction_clap import ClapFeatureExtractor from .modeling_clap import ( CLAP_PRETRAINED_MODEL_ARCHIVE_LIST, ClapAudioModel, ClapAudioModelWithProjection, ClapModel, ClapPreTrainedModel, ClapTextModel, ClapTextModelWithProjection, ) else: import sys __snake_case = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
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'''simple docstring''' import os import pytest from datasets import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, ) A__ : List[Any] =pytest.mark.integration @pytest.mark.parametrize("""path""" , ["""paws""", """csv"""] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" inspect_dataset(lowerCAmelCase , lowerCAmelCase ) _lowerCAmelCase = path + """.py""" assert script_name in os.listdir(lowerCAmelCase ) assert "__pycache__" not in os.listdir(lowerCAmelCase ) @pytest.mark.filterwarnings("""ignore:inspect_metric is deprecated:FutureWarning""" ) @pytest.mark.filterwarnings("""ignore:metric_module_factory is deprecated:FutureWarning""" ) @pytest.mark.parametrize("""path""" , ["""accuracy"""] ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" inspect_metric(lowerCAmelCase , lowerCAmelCase ) _lowerCAmelCase = path + """.py""" assert script_name in os.listdir(lowerCAmelCase ) assert "__pycache__" not in os.listdir(lowerCAmelCase ) @pytest.mark.parametrize( """path, config_name, expected_splits""" , [ ("""squad""", """plain_text""", ["""train""", """validation"""]), ("""dalle-mini/wit""", """dalle-mini--wit""", ["""train"""]), ("""paws""", """labeled_final""", ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_config_info(lowerCAmelCase , config_name=lowerCAmelCase ) assert info.config_name == config_name assert list(info.splits.keys() ) == expected_splits @pytest.mark.parametrize( """path, config_name, expected_exception""" , [ ("""paws""", None, ValueError), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" with pytest.raises(lowerCAmelCase ): get_dataset_config_info(lowerCAmelCase , config_name=lowerCAmelCase ) @pytest.mark.parametrize( """path, expected""" , [ ("""squad""", """plain_text"""), ("""acronym_identification""", """default"""), ("""lhoestq/squad""", """plain_text"""), ("""lhoestq/test""", """default"""), ("""lhoestq/demo1""", """lhoestq--demo1"""), ("""dalle-mini/wit""", """dalle-mini--wit"""), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_config_names(lowerCAmelCase ) assert expected in config_names @pytest.mark.parametrize( """path, expected_configs, expected_splits_in_first_config""" , [ ("""squad""", ["""plain_text"""], ["""train""", """validation"""]), ("""dalle-mini/wit""", ["""dalle-mini--wit"""], ["""train"""]), ("""paws""", ["""labeled_final""", """labeled_swap""", """unlabeled_final"""], ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_infos(lowerCAmelCase ) assert list(infos.keys() ) == expected_configs _lowerCAmelCase = expected_configs[0] assert expected_config in infos _lowerCAmelCase = infos[expected_config] assert info.config_name == expected_config assert list(info.splits.keys() ) == expected_splits_in_first_config @pytest.mark.parametrize( """path, expected_config, expected_splits""" , [ ("""squad""", """plain_text""", ["""train""", """validation"""]), ("""dalle-mini/wit""", """dalle-mini--wit""", ["""train"""]), ("""paws""", """labeled_final""", ["""train""", """test""", """validation"""]), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = get_dataset_infos(lowerCAmelCase ) assert expected_config in infos _lowerCAmelCase = infos[expected_config] assert info.config_name == expected_config assert list(info.splits.keys() ) == expected_splits @pytest.mark.parametrize( """path, config_name, expected_exception""" , [ ("""paws""", None, ValueError), ] , ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" with pytest.raises(lowerCAmelCase ): get_dataset_split_names(lowerCAmelCase , config_name=lowerCAmelCase )
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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_ : int = { '''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: lowerCamelCase_ : List[str] = ['''FunnelTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ : List[Any] = [ '''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: lowerCamelCase_ : 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 lowerCamelCase_ : Dict = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)
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'''simple docstring''' from torch import nn def UpperCamelCase__ ( lowerCAmelCase ): """simple docstring""" if act_fn in ["swish", "silu"]: return nn.SiLU() elif act_fn == "mish": return nn.Mish() elif act_fn == "gelu": return nn.GELU() else: raise ValueError(f"Unsupported activation function: {act_fn}" )
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"""simple docstring""" import argparse import json import logging import os import sys from unittest.mock import patch from transformers.testing_utils import TestCasePlus, get_gpu_count, slow snake_case_ = [ os.path.join(os.path.dirname(__file__), dirname) for dirname in [ '''text-classification''', '''language-modeling''', '''summarization''', '''token-classification''', '''question-answering''', ] ] sys.path.extend(SRC_DIRS) if SRC_DIRS is not None: import run_clm_flax import run_flax_glue import run_flax_ner import run_mlm_flax import run_qa import run_summarization_flax import run_ta_mlm_flax logging.basicConfig(level=logging.DEBUG) snake_case_ = logging.getLogger() def _lowerCAmelCase ( ): UpperCAmelCase = argparse.ArgumentParser() parser.add_argument('-f' ) UpperCAmelCase = parser.parse_args() return args.f def _lowerCAmelCase ( lowercase_ , lowercase_="eval" ): UpperCAmelCase = os.path.join(lowercase_ , F"""{split}_results.json""" ) if os.path.exists(lowercase_ ): with open(lowercase_ , 'r' ) as f: return json.load(lowercase_ ) raise ValueError(F"""can't find {path}""" ) snake_case_ = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class A_ ( snake_case_ ): """simple docstring""" def UpperCAmelCase__ ( self :List[str] ) -> Optional[int]: UpperCAmelCase = self.get_auto_remove_tmp_dir() UpperCAmelCase = f"""\n run_glue.py\n --model_name_or_path distilbert-base-uncased\n --output_dir {tmp_dir}\n --train_file ./tests/fixtures/tests_samples/MRPC/train.csv\n --validation_file ./tests/fixtures/tests_samples/MRPC/dev.csv\n --per_device_train_batch_size=2\n --per_device_eval_batch_size=1\n --learning_rate=1e-4\n --eval_steps=2\n --warmup_steps=2\n --seed=42\n --max_seq_length=128\n """.split() with patch.object(__snake_case , 'argv' , __snake_case ): run_flax_glue.main() UpperCAmelCase = get_results(__snake_case ) self.assertGreaterEqual(result['eval_accuracy'] , 0.75 ) @slow def UpperCAmelCase__ ( self :Tuple ) -> Any: UpperCAmelCase = self.get_auto_remove_tmp_dir() UpperCAmelCase = f"""\n run_clm_flax.py\n --model_name_or_path distilgpt2\n --train_file ./tests/fixtures/sample_text.txt\n --validation_file ./tests/fixtures/sample_text.txt\n --do_train\n --do_eval\n --block_size 128\n --per_device_train_batch_size 4\n --per_device_eval_batch_size 4\n --num_train_epochs 2\n --logging_steps 2 --eval_steps 2\n --output_dir {tmp_dir}\n --overwrite_output_dir\n """.split() with patch.object(__snake_case , 'argv' , __snake_case ): run_clm_flax.main() UpperCAmelCase = get_results(__snake_case ) self.assertLess(result['eval_perplexity'] , 1_00 ) @slow def UpperCAmelCase__ ( self :Union[str, Any] ) -> str: UpperCAmelCase = self.get_auto_remove_tmp_dir() UpperCAmelCase = f"""\n run_summarization.py\n --model_name_or_path t5-small\n --train_file tests/fixtures/tests_samples/xsum/sample.json\n --validation_file tests/fixtures/tests_samples/xsum/sample.json\n --test_file tests/fixtures/tests_samples/xsum/sample.json\n --output_dir {tmp_dir}\n --overwrite_output_dir\n --num_train_epochs=3\n --warmup_steps=8\n --do_train\n --do_eval\n --do_predict\n --learning_rate=2e-4\n --per_device_train_batch_size=2\n --per_device_eval_batch_size=1\n --predict_with_generate\n """.split() with patch.object(__snake_case , 'argv' , __snake_case ): run_summarization_flax.main() UpperCAmelCase = get_results(__snake_case , split='test' ) self.assertGreaterEqual(result['test_rouge1'] , 10 ) self.assertGreaterEqual(result['test_rouge2'] , 2 ) self.assertGreaterEqual(result['test_rougeL'] , 7 ) self.assertGreaterEqual(result['test_rougeLsum'] , 7 ) @slow def UpperCAmelCase__ ( self :Optional[int] ) -> List[Any]: UpperCAmelCase = self.get_auto_remove_tmp_dir() UpperCAmelCase = f"""\n run_mlm.py\n --model_name_or_path distilroberta-base\n --train_file ./tests/fixtures/sample_text.txt\n --validation_file ./tests/fixtures/sample_text.txt\n --output_dir {tmp_dir}\n --overwrite_output_dir\n --max_seq_length 128\n --per_device_train_batch_size 4\n --per_device_eval_batch_size 4\n --logging_steps 2 --eval_steps 2\n --do_train\n --do_eval\n --num_train_epochs=1\n """.split() with patch.object(__snake_case , 'argv' , __snake_case ): run_mlm_flax.main() UpperCAmelCase = get_results(__snake_case ) self.assertLess(result['eval_perplexity'] , 42 ) @slow def UpperCAmelCase__ ( self :List[Any] ) -> Optional[Any]: UpperCAmelCase = self.get_auto_remove_tmp_dir() UpperCAmelCase = f"""\n run_t5_mlm_flax.py\n --model_name_or_path t5-small\n --train_file ./tests/fixtures/sample_text.txt\n --validation_file ./tests/fixtures/sample_text.txt\n --do_train\n --do_eval\n --max_seq_length 128\n --per_device_train_batch_size 4\n --per_device_eval_batch_size 4\n --num_train_epochs 2\n --logging_steps 2 --eval_steps 2\n --output_dir {tmp_dir}\n --overwrite_output_dir\n """.split() with patch.object(__snake_case , 'argv' , __snake_case ): run_ta_mlm_flax.main() UpperCAmelCase = get_results(__snake_case ) self.assertGreaterEqual(result['eval_accuracy'] , 0.42 ) @slow def UpperCAmelCase__ ( self :Optional[Any] ) -> Tuple: # with so little data distributed training needs more epochs to get the score on par with 0/1 gpu UpperCAmelCase = 7 if get_gpu_count() > 1 else 2 UpperCAmelCase = self.get_auto_remove_tmp_dir() UpperCAmelCase = f"""\n run_flax_ner.py\n --model_name_or_path bert-base-uncased\n --train_file tests/fixtures/tests_samples/conll/sample.json\n --validation_file tests/fixtures/tests_samples/conll/sample.json\n --output_dir {tmp_dir}\n --overwrite_output_dir\n --do_train\n --do_eval\n --warmup_steps=2\n --learning_rate=2e-4\n --logging_steps 2 --eval_steps 2\n --per_device_train_batch_size=2\n --per_device_eval_batch_size=2\n --num_train_epochs={epochs}\n --seed 7\n """.split() with patch.object(__snake_case , 'argv' , __snake_case ): run_flax_ner.main() UpperCAmelCase = get_results(__snake_case ) self.assertGreaterEqual(result['eval_accuracy'] , 0.75 ) self.assertGreaterEqual(result['eval_f1'] , 0.3 ) @slow def UpperCAmelCase__ ( self :List[str] ) -> Union[str, Any]: UpperCAmelCase = self.get_auto_remove_tmp_dir() UpperCAmelCase = f"""\n run_qa.py\n --model_name_or_path bert-base-uncased\n --version_2_with_negative\n --train_file tests/fixtures/tests_samples/SQUAD/sample.json\n --validation_file tests/fixtures/tests_samples/SQUAD/sample.json\n --output_dir {tmp_dir}\n --overwrite_output_dir\n --num_train_epochs=3\n --warmup_steps=2\n --do_train\n --do_eval\n --logging_steps 2 --eval_steps 2\n --learning_rate=2e-4\n --per_device_train_batch_size=2\n --per_device_eval_batch_size=1\n """.split() with patch.object(__snake_case , 'argv' , __snake_case ): run_qa.main() UpperCAmelCase = get_results(__snake_case ) self.assertGreaterEqual(result['eval_f1'] , 30 ) self.assertGreaterEqual(result['eval_exact'] , 30 )
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'''simple docstring''' # Lint as: python3 # pylint: enable=line-too-long # pylint: disable=g-import-not-at-top,g-bad-import-order,wrong-import-position A__ : Dict ='''2.13.1''' import platform import pyarrow from packaging import version if version.parse(platform.python_version()) < version.parse('''3.7'''): raise ImportWarning( '''To use `datasets`, Python>=3.7 is required, and the current version of Python doesn\'t match this condition.''' ) if version.parse(pyarrow.__version__).major < 8: raise ImportWarning( '''To use `datasets`, the module `pyarrow>=8.0.0` is required, and the current version of `pyarrow` doesn\'t match this condition.\n''' '''If you are running this in a Google Colab, you should probably just restart the runtime to use the right version of `pyarrow`.''' ) del platform del pyarrow del version from .arrow_dataset import Dataset from .arrow_reader import ReadInstruction from .builder import ArrowBasedBuilder, BeamBasedBuilder, BuilderConfig, DatasetBuilder, GeneratorBasedBuilder from .combine import concatenate_datasets, interleave_datasets from .dataset_dict import DatasetDict, IterableDatasetDict from .download import * from .features import * from .fingerprint import disable_caching, enable_caching, is_caching_enabled, set_caching_enabled from .info import DatasetInfo, MetricInfo from .inspect import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, list_datasets, list_metrics, ) from .iterable_dataset import IterableDataset from .load import load_dataset, load_dataset_builder, load_from_disk, load_metric from .metric import Metric from .splits import ( NamedSplit, NamedSplitAll, Split, SplitBase, SplitDict, SplitGenerator, SplitInfo, SubSplitInfo, percent, ) from .tasks import * from .utils import * from .utils import logging # deprecated modules from datasets import arrow_dataset as _arrow_dataset # isort:skip from datasets import utils as _utils # isort:skip from datasets.utils import download_manager as _deprecated_download_manager # isort:skip A__ : Tuple =concatenate_datasets A__ : Dict =DownloadConfig A__ : int =DownloadManager A__ : Union[str, Any] =DownloadMode A__ : Tuple =DownloadConfig A__ : Optional[Any] =DownloadMode A__ : str =DownloadManager del _arrow_dataset, _utils, _deprecated_download_manager
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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tokenizers_available __SCREAMING_SNAKE_CASE ={'''tokenization_herbert''': ['''HerbertTokenizer''']} try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __SCREAMING_SNAKE_CASE =['''HerbertTokenizerFast'''] if TYPE_CHECKING: from .tokenization_herbert import HerbertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_herbert_fast import HerbertTokenizerFast else: import sys __SCREAMING_SNAKE_CASE =_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_tokenizers_available, is_torch_available A__ : Tuple ={ '''configuration_mvp''': ['''MVP_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''MvpConfig''', '''MvpOnnxConfig'''], '''tokenization_mvp''': ['''MvpTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : int =['''MvpTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: A__ : Any =[ '''MVP_PRETRAINED_MODEL_ARCHIVE_LIST''', '''MvpForCausalLM''', '''MvpForConditionalGeneration''', '''MvpForQuestionAnswering''', '''MvpForSequenceClassification''', '''MvpModel''', '''MvpPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_mvp import MVP_PRETRAINED_CONFIG_ARCHIVE_MAP, MvpConfig, MvpOnnxConfig from .tokenization_mvp import MvpTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_mvp_fast import MvpTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mvp import ( MVP_PRETRAINED_MODEL_ARCHIVE_LIST, MvpForCausalLM, MvpForConditionalGeneration, MvpForQuestionAnswering, MvpForSequenceClassification, MvpModel, MvpPreTrainedModel, ) else: import sys A__ : Any =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
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import numpy as np from cva import COLOR_BGR2GRAY, cvtColor, imread from numpy import array, uinta from PIL import Image from digital_image_processing import change_contrast as cc from digital_image_processing import convert_to_negative as cn from digital_image_processing import sepia as sp from digital_image_processing.dithering import burkes as bs from digital_image_processing.edge_detection import canny from digital_image_processing.filters import convolve as conv from digital_image_processing.filters import gaussian_filter as gg from digital_image_processing.filters import local_binary_pattern as lbp from digital_image_processing.filters import median_filter as med from digital_image_processing.filters import sobel_filter as sob from digital_image_processing.resize import resize as rs SCREAMING_SNAKE_CASE_ = imread(r"""digital_image_processing/image_data/lena_small.jpg""") SCREAMING_SNAKE_CASE_ = cvtColor(img, COLOR_BGR2GRAY) def __lowercase ( ) -> str: '''simple docstring''' SCREAMING_SNAKE_CASE = cn.convert_to_negative(_SCREAMING_SNAKE_CASE ) # assert negative_img array for at least one True assert negative_img.any() def __lowercase ( ) -> Dict: '''simple docstring''' with Image.open("""digital_image_processing/image_data/lena_small.jpg""" ) as img: # Work around assertion for response assert str(cc.change_contrast(_SCREAMING_SNAKE_CASE , 1_10 ) ).startswith( """<PIL.Image.Image image mode=RGB size=100x100 at""" ) def __lowercase ( ) -> str: '''simple docstring''' SCREAMING_SNAKE_CASE = canny.gen_gaussian_kernel(9 , sigma=1.4 ) # Assert ambiguous array assert resp.all() def __lowercase ( ) -> Union[str, Any]: '''simple docstring''' SCREAMING_SNAKE_CASE = imread("""digital_image_processing/image_data/lena_small.jpg""" , 0 ) # assert ambiguous array for all == True assert canny_img.all() SCREAMING_SNAKE_CASE = canny.canny(_SCREAMING_SNAKE_CASE ) # assert canny array for at least one True assert canny_array.any() def __lowercase ( ) -> List[str]: '''simple docstring''' assert gg.gaussian_filter(_SCREAMING_SNAKE_CASE , 5 , sigma=0.9 ).all() def __lowercase ( ) -> Dict: '''simple docstring''' SCREAMING_SNAKE_CASE = array([[0.25, 0.5, 0.25], [0.5, -3, 0.5], [0.25, 0.5, 0.25]] ) SCREAMING_SNAKE_CASE = conv.img_convolve(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ).astype(_SCREAMING_SNAKE_CASE ) assert res.any() def __lowercase ( ) -> Tuple: '''simple docstring''' assert med.median_filter(_SCREAMING_SNAKE_CASE , 3 ).any() def __lowercase ( ) -> Tuple: '''simple docstring''' SCREAMING_SNAKE_CASE, SCREAMING_SNAKE_CASE = sob.sobel_filter(_SCREAMING_SNAKE_CASE ) assert grad.any() and theta.any() def __lowercase ( ) -> Dict: '''simple docstring''' SCREAMING_SNAKE_CASE = sp.make_sepia(_SCREAMING_SNAKE_CASE , 20 ) assert sepia.all() def __lowercase ( _SCREAMING_SNAKE_CASE = "digital_image_processing/image_data/lena_small.jpg" ) -> Optional[Any]: '''simple docstring''' SCREAMING_SNAKE_CASE = bs.Burkes(imread(_SCREAMING_SNAKE_CASE , 1 ) , 1_20 ) burkes.process() assert burkes.output_img.any() def __lowercase ( _SCREAMING_SNAKE_CASE = "digital_image_processing/image_data/lena_small.jpg" , ) -> str: '''simple docstring''' SCREAMING_SNAKE_CASE = rs.NearestNeighbour(imread(_SCREAMING_SNAKE_CASE , 1 ) , 4_00 , 2_00 ) nn.process() assert nn.output.any() def __lowercase ( ) -> List[Any]: '''simple docstring''' SCREAMING_SNAKE_CASE = """digital_image_processing/image_data/lena.jpg""" # Reading the image and converting it to grayscale. SCREAMING_SNAKE_CASE = imread(_SCREAMING_SNAKE_CASE , 0 ) # Test for get_neighbors_pixel function() return not None SCREAMING_SNAKE_CASE = 0 SCREAMING_SNAKE_CASE = 0 SCREAMING_SNAKE_CASE = image[x_coordinate][y_coordinate] SCREAMING_SNAKE_CASE = lbp.get_neighbors_pixel( _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) assert neighbors_pixels is not None # Test for local_binary_pattern function() # Create a numpy array as the same height and width of read image SCREAMING_SNAKE_CASE = np.zeros((image.shape[0], image.shape[1]) ) # Iterating through the image and calculating the local binary pattern value # for each pixel. for i in range(0 , image.shape[0] ): for j in range(0 , image.shape[1] ): SCREAMING_SNAKE_CASE = lbp.local_binary_value(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) assert lbp_image.any()
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'''simple docstring''' def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [0 for i in range(r + 1 )] # nc0 = 1 _lowerCAmelCase = 1 for i in range(1 , n + 1 ): # to compute current row from previous row. _lowerCAmelCase = min(lowerCAmelCase , lowerCAmelCase ) while j > 0: c[j] += c[j - 1] j -= 1 return c[r] print(binomial_coefficient(n=10, r=5))
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"""simple docstring""" import unittest from transformers import is_vision_available from transformers.pipelines import pipeline from transformers.testing_utils import ( is_pipeline_test, nested_simplify, require_tf, require_torch, require_vision, slow, ) from .test_pipelines_common import ANY if is_vision_available(): from PIL import Image else: class lowerCamelCase : '''simple docstring''' @staticmethod def _a (*_lowerCamelCase , **_lowerCamelCase ): """simple docstring""" pass @is_pipeline_test @require_vision class lowerCamelCase ( unittest.TestCase ): '''simple docstring''' @require_torch def _a (self ): """simple docstring""" UpperCAmelCase__ : Optional[int] = pipeline( model="""hf-internal-testing/tiny-random-clip-zero-shot-image-classification""" , ) UpperCAmelCase__ : int = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) UpperCAmelCase__ : Any = image_classifier(__snake_case , candidate_labels=["""a""", """b""", """c"""] ) # The floating scores are so close, we enter floating error approximation and the order is not guaranteed across # python and torch versions. self.assertIn( nested_simplify(__snake_case ) , [ [{"""score""": 0.333, """label""": """a"""}, {"""score""": 0.333, """label""": """b"""}, {"""score""": 0.333, """label""": """c"""}], [{"""score""": 0.333, """label""": """a"""}, {"""score""": 0.333, """label""": """c"""}, {"""score""": 0.333, """label""": """b"""}], ] , ) UpperCAmelCase__ : Union[str, Any] = image_classifier([image] * 5 , candidate_labels=["""A""", """B""", """C"""] , batch_size=2 ) self.assertEqual( nested_simplify(__snake_case ) , [ [ {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, ], [ {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, ], [ {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, ], [ {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, ], [ {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, ], ] , ) @require_tf def _a (self ): """simple docstring""" UpperCAmelCase__ : Any = pipeline( model="""hf-internal-testing/tiny-random-clip-zero-shot-image-classification""" , framework="""tf""" ) UpperCAmelCase__ : Tuple = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) UpperCAmelCase__ : Union[str, Any] = image_classifier(__snake_case , candidate_labels=["""a""", """b""", """c"""] ) self.assertEqual( nested_simplify(__snake_case ) , [{"""score""": 0.333, """label""": """a"""}, {"""score""": 0.333, """label""": """b"""}, {"""score""": 0.333, """label""": """c"""}] , ) UpperCAmelCase__ : Tuple = image_classifier([image] * 5 , candidate_labels=["""A""", """B""", """C"""] , batch_size=2 ) self.assertEqual( nested_simplify(__snake_case ) , [ [ {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, ], [ {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, ], [ {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, ], [ {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, ], [ {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, {"""score""": 0.333, """label""": ANY(__snake_case )}, ], ] , ) @slow @require_torch def _a (self ): """simple docstring""" UpperCAmelCase__ : Any = pipeline( task="""zero-shot-image-classification""" , model="""openai/clip-vit-base-patch32""" , ) # This is an image of 2 cats with remotes and no planes UpperCAmelCase__ : Optional[int] = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) UpperCAmelCase__ : Tuple = image_classifier(__snake_case , candidate_labels=["""cat""", """plane""", """remote"""] ) self.assertEqual( nested_simplify(__snake_case ) , [ {"""score""": 0.511, """label""": """remote"""}, {"""score""": 0.485, """label""": """cat"""}, {"""score""": 0.004, """label""": """plane"""}, ] , ) UpperCAmelCase__ : Any = image_classifier([image] * 5 , candidate_labels=["""cat""", """plane""", """remote"""] , batch_size=2 ) self.assertEqual( nested_simplify(__snake_case ) , [ [ {"""score""": 0.511, """label""": """remote"""}, {"""score""": 0.485, """label""": """cat"""}, {"""score""": 0.004, """label""": """plane"""}, ], ] * 5 , ) @slow @require_tf def _a (self ): """simple docstring""" UpperCAmelCase__ : List[str] = pipeline( task="""zero-shot-image-classification""" , model="""openai/clip-vit-base-patch32""" , framework="""tf""" ) # This is an image of 2 cats with remotes and no planes UpperCAmelCase__ : str = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) UpperCAmelCase__ : Dict = image_classifier(__snake_case , candidate_labels=["""cat""", """plane""", """remote"""] ) self.assertEqual( nested_simplify(__snake_case ) , [ {"""score""": 0.511, """label""": """remote"""}, {"""score""": 0.485, """label""": """cat"""}, {"""score""": 0.004, """label""": """plane"""}, ] , ) UpperCAmelCase__ : int = image_classifier([image] * 5 , candidate_labels=["""cat""", """plane""", """remote"""] , batch_size=2 ) self.assertEqual( nested_simplify(__snake_case ) , [ [ {"""score""": 0.511, """label""": """remote"""}, {"""score""": 0.485, """label""": """cat"""}, {"""score""": 0.004, """label""": """plane"""}, ], ] * 5 , )
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'''simple docstring''' import itertools from dataclasses import dataclass from typing import Optional import pandas as pd import pyarrow as pa import datasets from datasets.table import table_cast @dataclass class UpperCAmelCase ( datasets.BuilderConfig ): _lowercase: Optional[datasets.Features] = None class UpperCAmelCase ( datasets.ArrowBasedBuilder ): _lowercase: Tuple = PandasConfig def lowercase__ ( self : Optional[Any] ) -> str: return datasets.DatasetInfo(features=self.config.features ) def lowercase__ ( self : List[str] , __snake_case : Dict ) -> int: if not self.config.data_files: raise ValueError(f"At least one data file must be specified, but got data_files={self.config.data_files}" ) _lowerCAmelCase = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__snake_case , (str, list, tuple) ): _lowerCAmelCase = data_files if isinstance(__snake_case , __snake_case ): _lowerCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive _lowerCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"""files""": files} )] _lowerCAmelCase = [] for split_name, files in data_files.items(): if isinstance(__snake_case , __snake_case ): _lowerCAmelCase = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive _lowerCAmelCase = [dl_manager.iter_files(__snake_case ) for file in files] splits.append(datasets.SplitGenerator(name=__snake_case , gen_kwargs={"""files""": files} ) ) return splits def lowercase__ ( self : List[Any] , __snake_case : pa.Table ) -> pa.Table: if self.config.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example _lowerCAmelCase = table_cast(__snake_case , self.config.features.arrow_schema ) return pa_table def lowercase__ ( self : Dict , __snake_case : Optional[Any] ) -> Any: for i, file in enumerate(itertools.chain.from_iterable(__snake_case ) ): with open(__snake_case , """rb""" ) as f: _lowerCAmelCase = pa.Table.from_pandas(pd.read_pickle(__snake_case ) ) yield i, self._cast_table(__snake_case )
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from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tokenizers_available, is_torch_available _UpperCamelCase = { '''configuration_mvp''': ['''MVP_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''MvpConfig''', '''MvpOnnxConfig'''], '''tokenization_mvp''': ['''MvpTokenizer'''], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _UpperCamelCase = ['''MvpTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _UpperCamelCase = [ '''MVP_PRETRAINED_MODEL_ARCHIVE_LIST''', '''MvpForCausalLM''', '''MvpForConditionalGeneration''', '''MvpForQuestionAnswering''', '''MvpForSequenceClassification''', '''MvpModel''', '''MvpPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_mvp import MVP_PRETRAINED_CONFIG_ARCHIVE_MAP, MvpConfig, MvpOnnxConfig from .tokenization_mvp import MvpTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_mvp_fast import MvpTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mvp import ( MVP_PRETRAINED_MODEL_ARCHIVE_LIST, MvpForCausalLM, MvpForConditionalGeneration, MvpForQuestionAnswering, MvpForSequenceClassification, MvpModel, MvpPreTrainedModel, ) else: import sys _UpperCamelCase = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
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'''simple docstring''' import heapq as hq import math from collections.abc import Iterator class UpperCAmelCase : def __init__( self : str , __snake_case : Any ) -> str: _lowerCAmelCase = str(id_ ) _lowerCAmelCase = None _lowerCAmelCase = None _lowerCAmelCase = [] _lowerCAmelCase = {} # {vertex:distance} def __lt__( self : List[str] , __snake_case : Union[str, Any] ) -> Any: return self.key < other.key def __repr__( self : Optional[Any] ) -> Optional[Any]: return self.id def lowercase__ ( self : Union[str, Any] , __snake_case : Tuple ) -> Optional[Any]: self.neighbors.append(__snake_case ) def lowercase__ ( self : Tuple , __snake_case : List[str] , __snake_case : Tuple ) -> Any: _lowerCAmelCase = weight def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ): """simple docstring""" graph[a - 1].add_neighbor(graph[b - 1] ) graph[b - 1].add_neighbor(graph[a - 1] ) # add the edges: graph[a - 1].add_edge(graph[b - 1] , lowerCAmelCase ) graph[b - 1].add_edge(graph[a - 1] , lowerCAmelCase ) def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = [] for u in graph: _lowerCAmelCase = math.inf _lowerCAmelCase = None _lowerCAmelCase = 0 _lowerCAmelCase = graph[:] while q: _lowerCAmelCase = min(lowerCAmelCase ) q.remove(lowerCAmelCase ) for v in u.neighbors: if (v in q) and (u.edges[v.id] < v.key): _lowerCAmelCase = u _lowerCAmelCase = u.edges[v.id] for i in range(1 , len(lowerCAmelCase ) ): a.append((int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) ) return a def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" for u in graph: _lowerCAmelCase = math.inf _lowerCAmelCase = None _lowerCAmelCase = 0 _lowerCAmelCase = list(lowerCAmelCase ) hq.heapify(lowerCAmelCase ) while h: _lowerCAmelCase = hq.heappop(lowerCAmelCase ) for v in u.neighbors: if (v in h) and (u.edges[v.id] < v.key): _lowerCAmelCase = u _lowerCAmelCase = u.edges[v.id] hq.heapify(lowerCAmelCase ) for i in range(1 , len(lowerCAmelCase ) ): yield (int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) def UpperCamelCase__ ( ): """simple docstring""" if __name__ == "__main__": import doctest doctest.testmod()
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