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"""
from __future__ import annotations
from fractions import Fraction
from math import gcd, sqrt
def _A ( lowercase ):
"""simple docstring"""
a =int(number**0.5 )
return number == sq * sq
def _A ( lowercase , lowercase , lowercase , lowercase , lowercase , lowercase ):
"""simple docstring"""
a =x_num * y_den * z_den + y_num * x_den * z_den + z_num * x_den * y_den
a =x_den * y_den * z_den
a =gcd(lowercase , lowercase )
top //= hcf
bottom //= hcf
return top, bottom
def _A ( lowercase = 35 ):
"""simple docstring"""
a =set()
a =42
a =Fraction(0 )
a =42
for x_num in range(1 , order + 1 ):
for x_den in range(x_num + 1 , order + 1 ):
for y_num in range(1 , order + 1 ):
for y_den in range(y_num + 1 , order + 1 ):
# n=1
a =x_num * y_den + x_den * y_num
a =x_den * y_den
a =gcd(lowercase , lowercase )
z_num //= hcf
z_den //= hcf
if 0 < z_num < z_den <= order:
a =add_three(
lowercase , lowercase , lowercase , lowercase , lowercase , lowercase )
unique_s.add(lowercase )
# n=2
a =(
x_num * x_num * y_den * y_den + x_den * x_den * y_num * y_num
)
a =x_den * x_den * y_den * y_den
if is_sq(lowercase ) and is_sq(lowercase ):
a =int(sqrt(lowercase ) )
a =int(sqrt(lowercase ) )
a =gcd(lowercase , lowercase )
z_num //= hcf
z_den //= hcf
if 0 < z_num < z_den <= order:
a =add_three(
lowercase , lowercase , lowercase , lowercase , lowercase , lowercase )
unique_s.add(lowercase )
# n=-1
a =x_num * y_num
a =x_den * y_num + x_num * y_den
a =gcd(lowercase , lowercase )
z_num //= hcf
z_den //= hcf
if 0 < z_num < z_den <= order:
a =add_three(
lowercase , lowercase , lowercase , lowercase , lowercase , lowercase )
unique_s.add(lowercase )
# n=2
a =x_num * x_num * y_num * y_num
a =(
x_den * x_den * y_num * y_num + x_num * x_num * y_den * y_den
)
if is_sq(lowercase ) and is_sq(lowercase ):
a =int(sqrt(lowercase ) )
a =int(sqrt(lowercase ) )
a =gcd(lowercase , lowercase )
z_num //= hcf
z_den //= hcf
if 0 < z_num < z_den <= order:
a =add_three(
lowercase , lowercase , lowercase , lowercase , lowercase , lowercase )
unique_s.add(lowercase )
for num, den in unique_s:
total += Fraction(lowercase , lowercase )
return total.denominator + total.numerator
if __name__ == "__main__":
print(F'{solution() = }') | 81 |
'''simple docstring'''
import unittest
from transformers import MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING, is_vision_available, 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 __UpperCamelCase :
@staticmethod
def lowercase__ ( *lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
pass
@is_pipeline_test
@require_vision
@require_torch
class __UpperCamelCase ( unittest.TestCase ):
lowercase : int =MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =pipeline(
'''zero-shot-object-detection''', model='''hf-internal-testing/tiny-random-owlvit-object-detection''' )
lowerCamelCase_ =[
{
'''image''': '''./tests/fixtures/tests_samples/COCO/000000039769.png''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
}
]
return object_detector, examples
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =object_detector(examples[0], threshold=0.0 )
lowerCamelCase_ =len(lowerCAmelCase )
self.assertGreater(lowerCAmelCase, 0 )
self.assertEqual(
lowerCAmelCase, [
{
'''score''': ANY(lowerCAmelCase ),
'''label''': ANY(lowerCAmelCase ),
'''box''': {'''xmin''': ANY(lowerCAmelCase ), '''ymin''': ANY(lowerCAmelCase ), '''xmax''': ANY(lowerCAmelCase ), '''ymax''': ANY(lowerCAmelCase )},
}
for i in range(lowerCAmelCase )
], )
@require_tf
@unittest.skip('''Zero Shot Object Detection not implemented in TF''' )
def lowercase__ ( self ):
"""simple docstring"""
pass
@require_torch
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =pipeline(
'''zero-shot-object-detection''', model='''hf-internal-testing/tiny-random-owlvit-object-detection''' )
lowerCamelCase_ =object_detector(
'''./tests/fixtures/tests_samples/COCO/000000039769.png''', candidate_labels=['''cat''', '''remote''', '''couch'''], threshold=0.6_4, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.7_2_3_5, '''label''': '''cat''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_2_1_8, '''label''': '''remote''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_1_8_4, '''label''': '''couch''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.6_7_4_8, '''label''': '''remote''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_5_6, '''label''': '''cat''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_1_4, '''label''': '''couch''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_4_5_6, '''label''': '''remote''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
{'''score''': 0.6_4_2, '''label''': '''remote''', '''box''': {'''xmin''': 67, '''ymin''': 274, '''xmax''': 93, '''ymax''': 297}},
{'''score''': 0.6_4_1_9, '''label''': '''cat''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
], )
lowerCamelCase_ =object_detector(
[
{
'''image''': '''./tests/fixtures/tests_samples/COCO/000000039769.png''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
}
], threshold=0.6_4, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
[
{'''score''': 0.7_2_3_5, '''label''': '''cat''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_2_1_8, '''label''': '''remote''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_1_8_4, '''label''': '''couch''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.6_7_4_8, '''label''': '''remote''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_5_6, '''label''': '''cat''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_1_4, '''label''': '''couch''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_4_5_6, '''label''': '''remote''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
{'''score''': 0.6_4_2, '''label''': '''remote''', '''box''': {'''xmin''': 67, '''ymin''': 274, '''xmax''': 93, '''ymax''': 297}},
{'''score''': 0.6_4_1_9, '''label''': '''cat''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
]
], )
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
], )
lowerCamelCase_ =object_detector(
[
{
'''image''': '''http://images.cocodataset.org/val2017/000000039769.jpg''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
},
{
'''image''': '''http://images.cocodataset.org/val2017/000000039769.jpg''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
},
], )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
[
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
],
[
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
],
], )
@require_tf
@unittest.skip('''Zero Shot Object Detection not implemented in TF''' )
def lowercase__ ( self ):
"""simple docstring"""
pass
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =0.2
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], threshold=lowerCAmelCase, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
], )
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =2
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], top_k=lowerCAmelCase, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
], )
| 75 | 0 |
from typing import Dict, List, Optional, Tuple, 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, is_torch_available, is_torch_tensor, logging
if is_torch_available():
import torch
A__ = logging.get_logger(__name__)
class __lowerCAmelCase ( lowerCamelCase__ ):
__lowerCamelCase = ['''pixel_values''']
def __init__( self , _snake_case = True , _snake_case = None , _snake_case = PILImageResampling.BILINEAR , _snake_case = True , _snake_case = None , _snake_case = True , _snake_case = 1 / 255 , _snake_case = True , _snake_case = None , _snake_case = None , **_snake_case , ):
"""simple docstring"""
super().__init__(**_snake_case )
_lowerCAmelCase = size if size is not None else {"""shortest_edge""": 256}
_lowerCAmelCase = get_size_dict(_snake_case , default_to_square=_snake_case )
_lowerCAmelCase = crop_size if crop_size is not None else {"""height""": 224, """width""": 224}
_lowerCAmelCase = get_size_dict(_snake_case , param_name="""crop_size""" )
_lowerCAmelCase = do_resize
_lowerCAmelCase = size
_lowerCAmelCase = resample
_lowerCAmelCase = do_center_crop
_lowerCAmelCase = crop_size
_lowerCAmelCase = do_rescale
_lowerCAmelCase = rescale_factor
_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 snake_case ( self , _snake_case , _snake_case , _snake_case = PILImageResampling.BICUBIC , _snake_case = None , **_snake_case , ):
"""simple docstring"""
_lowerCAmelCase = get_size_dict(_snake_case , default_to_square=_snake_case )
if "shortest_edge" not in size:
raise ValueError(F'The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}' )
_lowerCAmelCase = get_resize_output_image_size(_snake_case , size=size["""shortest_edge"""] , default_to_square=_snake_case )
return resize(_snake_case , size=_snake_case , resample=_snake_case , data_format=_snake_case , **_snake_case )
def snake_case ( self , _snake_case , _snake_case , _snake_case = None , **_snake_case , ):
"""simple docstring"""
_lowerCAmelCase = get_size_dict(_snake_case )
if "height" not in size or "width" not in size:
raise ValueError(F'The `size` parameter must contain the keys `height` and `width`. Got {size.keys()}' )
return center_crop(_snake_case , size=(size["""height"""], size["""width"""]) , data_format=_snake_case , **_snake_case )
def snake_case ( self , _snake_case , _snake_case , _snake_case = None , **_snake_case ):
"""simple docstring"""
return rescale(_snake_case , scale=_snake_case , data_format=_snake_case , **_snake_case )
def snake_case ( self , _snake_case , _snake_case , _snake_case , _snake_case = None , **_snake_case , ):
"""simple docstring"""
return normalize(_snake_case , mean=_snake_case , std=_snake_case , data_format=_snake_case , **_snake_case )
def snake_case ( self , _snake_case , _snake_case = None , _snake_case = None , _snake_case = None , _snake_case = None , _snake_case = None , _snake_case = None , _snake_case = None , _snake_case = None , _snake_case = None , _snake_case = None , _snake_case = None , _snake_case = ChannelDimension.FIRST , **_snake_case , ):
"""simple docstring"""
_lowerCAmelCase = do_resize if do_resize is not None else self.do_resize
_lowerCAmelCase = size if size is not None else self.size
_lowerCAmelCase = get_size_dict(_snake_case , default_to_square=_snake_case )
_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 = crop_size if crop_size is not None else self.crop_size
_lowerCAmelCase = get_size_dict(_snake_case , param_name="""crop_size""" )
_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 = 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 = make_list_of_images(_snake_case )
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.""" )
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.
_lowerCAmelCase = [to_numpy_array(_snake_case ) for image in images]
if do_resize:
_lowerCAmelCase = [self.resize(image=_snake_case , size=_snake_case , resample=_snake_case ) for image in images]
if do_center_crop:
_lowerCAmelCase = [self.center_crop(image=_snake_case , size=_snake_case ) for image in images]
if do_rescale:
_lowerCAmelCase = [self.rescale(image=_snake_case , scale=_snake_case ) for image in images]
if do_normalize:
_lowerCAmelCase = [self.normalize(image=_snake_case , mean=_snake_case , std=_snake_case ) for image in images]
_lowerCAmelCase = [to_channel_dimension_format(_snake_case , _snake_case ) for image in images]
_lowerCAmelCase = {"""pixel_values""": images}
return BatchFeature(data=_snake_case , tensor_type=_snake_case )
def snake_case ( self , _snake_case , _snake_case = None ):
"""simple docstring"""
_lowerCAmelCase = outputs.logits
# Resize logits and compute semantic segmentation maps
if target_sizes is not None:
if len(_snake_case ) != len(_snake_case ):
raise ValueError(
"""Make sure that you pass in as many target sizes as the batch dimension of the logits""" )
if is_torch_tensor(_snake_case ):
_lowerCAmelCase = target_sizes.numpy()
_lowerCAmelCase = []
for idx in range(len(_snake_case ) ):
_lowerCAmelCase = torch.nn.functional.interpolate(
logits[idx].unsqueeze(dim=0 ) , size=target_sizes[idx] , mode="""bilinear""" , align_corners=_snake_case )
_lowerCAmelCase = resized_logits[0].argmax(dim=0 )
semantic_segmentation.append(_snake_case )
else:
_lowerCAmelCase = logits.argmax(dim=1 )
_lowerCAmelCase = [semantic_segmentation[i] for i in range(semantic_segmentation.shape[0] )]
return semantic_segmentation
| 82 |
'''simple docstring'''
import json
import os
from typing import Dict, List, Optional, Tuple
import regex as re
from ...tokenization_utils import PreTrainedTokenizer
from ...utils import logging
a_ : Optional[int] = logging.get_logger(__name__)
a_ : Optional[int] = {
"""vocab_file""": """vocab.json""",
"""merges_file""": """merges.txt""",
"""tokenizer_config_file""": """tokenizer_config.json""",
}
a_ : List[Any] = {
"""vocab_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/vocab.json"""
},
"""merges_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/merges.txt"""
},
"""tokenizer_config_file""": {
"""facebook/blenderbot_small-90M""": (
"""https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/tokenizer_config.json"""
)
},
}
a_ : Optional[int] = {"""facebook/blenderbot_small-90M""": 5_12}
def a_ ( __snake_case : List[Any] ) -> Tuple:
"""simple docstring"""
lowerCamelCase_ =set()
lowerCamelCase_ =word[0]
for char in word[1:]:
pairs.add((prev_char, char) )
lowerCamelCase_ =char
lowerCamelCase_ =set(__snake_case )
return pairs
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : Optional[int] =VOCAB_FILES_NAMES
lowercase : Tuple =PRETRAINED_VOCAB_FILES_MAP
lowercase : Tuple =PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
lowercase : Dict =['input_ids', 'attention_mask']
def __init__( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase="__start__", lowerCAmelCase="__end__", lowerCAmelCase="__unk__", lowerCAmelCase="__null__", **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(unk_token=lowerCAmelCase, bos_token=lowerCAmelCase, eos_token=lowerCAmelCase, pad_token=lowerCAmelCase, **lowerCAmelCase )
with open(lowerCAmelCase, encoding='''utf-8''' ) as vocab_handle:
lowerCamelCase_ =json.load(lowerCAmelCase )
lowerCamelCase_ ={v: k for k, v in self.encoder.items()}
with open(lowerCAmelCase, encoding='''utf-8''' ) as merges_handle:
lowerCamelCase_ =merges_handle.read().split('''\n''' )[1:-1]
lowerCamelCase_ =[tuple(merge.split() ) for merge in merges]
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ ={}
@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, lowerCAmelCase ):
"""simple docstring"""
if token in self.cache:
return self.cache[token]
lowerCamelCase_ =re.sub('''([.,!?()])''', R''' \1''', lowerCAmelCase )
lowerCamelCase_ =re.sub('''(\')''', R''' \1 ''', lowerCAmelCase )
lowerCamelCase_ =re.sub(R'''\s{2,}''', ''' ''', lowerCAmelCase )
if "\n" in token:
lowerCamelCase_ =token.replace('''\n''', ''' __newln__''' )
lowerCamelCase_ =token.split(''' ''' )
lowerCamelCase_ =[]
for token in tokens:
if not len(lowerCAmelCase ):
continue
lowerCamelCase_ =token.lower()
lowerCamelCase_ =tuple(lowerCAmelCase )
lowerCamelCase_ =tuple(list(word[:-1] ) + [word[-1] + '''</w>'''] )
lowerCamelCase_ =get_pairs(lowerCAmelCase )
if not pairs:
words.append(lowerCAmelCase )
continue
while True:
lowerCamelCase_ =min(lowerCAmelCase, key=lambda lowerCAmelCase : self.bpe_ranks.get(lowerCAmelCase, float('''inf''' ) ) )
if bigram not in self.bpe_ranks:
break
lowerCamelCase_, lowerCamelCase_ =bigram
lowerCamelCase_ =[]
lowerCamelCase_ =0
while i < len(lowerCAmelCase ):
try:
lowerCamelCase_ =word.index(lowerCAmelCase, lowerCAmelCase )
new_word.extend(word[i:j] )
lowerCamelCase_ =j
except ValueError:
new_word.extend(word[i:] )
break
if word[i] == first and i < len(lowerCAmelCase ) - 1 and word[i + 1] == second:
new_word.append(first + second )
i += 2
else:
new_word.append(word[i] )
i += 1
lowerCamelCase_ =tuple(lowerCAmelCase )
lowerCamelCase_ =new_word
if len(lowerCAmelCase ) == 1:
break
else:
lowerCamelCase_ =get_pairs(lowerCAmelCase )
lowerCamelCase_ ='''@@ '''.join(lowerCAmelCase )
lowerCamelCase_ =word[:-4]
lowerCamelCase_ =word
words.append(lowerCAmelCase )
return " ".join(lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =[]
lowerCamelCase_ =re.findall(R'''\S+\n?''', lowerCAmelCase )
for token in words:
split_tokens.extend(list(self.bpe(lowerCAmelCase ).split(''' ''' ) ) )
return split_tokens
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =token.lower()
return self.encoder.get(lowerCAmelCase, self.encoder.get(self.unk_token ) )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
return self.decoder.get(lowerCAmelCase, self.unk_token )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =''' '''.join(lowerCAmelCase ).replace('''@@ ''', '''''' ).strip()
return out_string
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase = None ):
"""simple docstring"""
if not os.path.isdir(lowerCAmelCase ):
logger.error(f'''Vocabulary path ({save_directory}) should be a directory''' )
return
lowerCamelCase_ =os.path.join(
lowerCAmelCase, (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''vocab_file'''] )
lowerCamelCase_ =os.path.join(
lowerCAmelCase, (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''merges_file'''] )
with open(lowerCAmelCase, '''w''', encoding='''utf-8''' ) as f:
f.write(json.dumps(self.encoder, indent=2, sort_keys=lowerCAmelCase, ensure_ascii=lowerCAmelCase ) + '''\n''' )
lowerCamelCase_ =0
with open(lowerCAmelCase, '''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 lowerCAmelCase : 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_ =token_index
writer.write(''' '''.join(lowerCAmelCase ) + '''\n''' )
index += 1
return vocab_file, merge_file
| 75 | 0 |
'''simple docstring'''
import argparse
import ast
import logging
import os
import sys
import pandas as pd
import torch
from tqdm import tqdm
from transformers import BartForConditionalGeneration, RagRetriever, RagSequenceForGeneration, RagTokenForGeneration
from transformers import logging as transformers_logging
sys.path.append(os.path.join(os.getcwd())) # noqa: E402 # isort:skip
from utils_rag import exact_match_score, fa_score # noqa: E402 # isort:skip
snake_case_ : Dict = logging.getLogger(__name__)
logging.basicConfig(level=logging.INFO)
transformers_logging.set_verbosity_info()
def A__ ( UpperCAmelCase_ ):
if "token" in model_name_or_path:
return "rag_token"
if "sequence" in model_name_or_path:
return "rag_sequence"
if "bart" in model_name_or_path:
return "bart"
return None
def A__ ( UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ ):
return max(metric_fn(UpperCAmelCase_ , UpperCAmelCase_ ) for gt in ground_truths )
def A__ ( UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ ):
_UpperCamelCase : int = [line.strip() for line in open(UpperCAmelCase_ , 'r' ).readlines()]
_UpperCamelCase : Union[str, Any] = []
if args.gold_data_mode == "qa":
_UpperCamelCase : List[str] = pd.read_csv(UpperCAmelCase_ , sep='\t' , header=UpperCAmelCase_ )
for answer_list in data[1]:
_UpperCamelCase : Any = ast.literal_eval(UpperCAmelCase_ )
answers.append(UpperCAmelCase_ )
else:
_UpperCamelCase : Optional[int] = [line.strip() for line in open(UpperCAmelCase_ , 'r' ).readlines()]
_UpperCamelCase : Union[str, Any] = [[reference] for reference in references]
_UpperCamelCase : List[str] = 0
for prediction, ground_truths in zip(UpperCAmelCase_ , UpperCAmelCase_ ):
total += 1
em += metric_max_over_ground_truths(UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ )
fa += metric_max_over_ground_truths(UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ )
_UpperCamelCase : Dict = 100.0 * em / total
_UpperCamelCase : int = 100.0 * fa / total
logger.info(f'F1: {fa:.2f}' )
logger.info(f'EM: {em:.2f}' )
def A__ ( UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ ):
_UpperCamelCase : Optional[int] = args.k
_UpperCamelCase : Dict = [line.strip() for line in open(UpperCAmelCase_ , 'r' ).readlines()]
_UpperCamelCase : str = [line.strip() for line in open(UpperCAmelCase_ , 'r' ).readlines()]
_UpperCamelCase : Union[str, Any] = 0
for hypo, reference in zip(UpperCAmelCase_ , UpperCAmelCase_ ):
_UpperCamelCase : List[Any] = set(hypo.split('\t' )[:k] )
_UpperCamelCase : List[Any] = set(reference.split('\t' ) )
total += 1
em += len(hypo_provenance & ref_provenance ) / k
_UpperCamelCase : Any = 100.0 * em / total
logger.info(f'Precision@{k}: {em: .2f}' )
def A__ ( UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ ):
def strip_title(UpperCAmelCase_ ):
if title.startswith('"' ):
_UpperCamelCase : List[str] = title[1:]
if title.endswith('"' ):
_UpperCamelCase : Any = title[:-1]
return title
_UpperCamelCase : Any = rag_model.retriever.question_encoder_tokenizer.batch_encode_plus(
UpperCAmelCase_ , return_tensors='pt' , padding=UpperCAmelCase_ , truncation=UpperCAmelCase_ , )['input_ids'].to(args.device )
_UpperCamelCase : List[str] = rag_model.rag.question_encoder(UpperCAmelCase_ )
_UpperCamelCase : Optional[Any] = question_enc_outputs[0]
_UpperCamelCase : str = rag_model.retriever(
UpperCAmelCase_ , question_enc_pool_output.cpu().detach().to(torch.floataa ).numpy() , prefix=rag_model.rag.generator.config.prefix , n_docs=rag_model.config.n_docs , return_tensors='pt' , )
_UpperCamelCase : Tuple = rag_model.retriever.index.get_doc_dicts(result.doc_ids )
_UpperCamelCase : Optional[Any] = []
for docs in all_docs:
_UpperCamelCase : Any = [strip_title(UpperCAmelCase_ ) for title in docs['title']]
provenance_strings.append('\t'.join(UpperCAmelCase_ ) )
return provenance_strings
def A__ ( UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ ):
with torch.no_grad():
_UpperCamelCase : int = rag_model.retriever.question_encoder_tokenizer.batch_encode_plus(
UpperCAmelCase_ , return_tensors='pt' , padding=UpperCAmelCase_ , truncation=UpperCAmelCase_ )
_UpperCamelCase : Union[str, Any] = inputs_dict.input_ids.to(args.device )
_UpperCamelCase : Optional[int] = inputs_dict.attention_mask.to(args.device )
_UpperCamelCase : str = rag_model.generate( # rag_model overwrites generate
UpperCAmelCase_ , attention_mask=UpperCAmelCase_ , num_beams=args.num_beams , min_length=args.min_length , max_length=args.max_length , early_stopping=UpperCAmelCase_ , num_return_sequences=1 , bad_words_ids=[[0, 0]] , )
_UpperCamelCase : List[str] = rag_model.retriever.generator_tokenizer.batch_decode(UpperCAmelCase_ , skip_special_tokens=UpperCAmelCase_ )
if args.print_predictions:
for q, a in zip(UpperCAmelCase_ , UpperCAmelCase_ ):
logger.info('Q: {} - A: {}'.format(UpperCAmelCase_ , UpperCAmelCase_ ) )
return answers
def A__ ( ):
_UpperCamelCase : str = argparse.ArgumentParser()
parser.add_argument(
'--model_type' , choices=['rag_sequence', 'rag_token', 'bart'] , type=UpperCAmelCase_ , help=(
'RAG model type: rag_sequence, rag_token or bart, if none specified, the type is inferred from the'
' model_name_or_path'
) , )
parser.add_argument(
'--index_name' , default=UpperCAmelCase_ , choices=['exact', 'compressed', 'legacy'] , type=UpperCAmelCase_ , help='RAG model retriever type' , )
parser.add_argument(
'--index_path' , default=UpperCAmelCase_ , type=UpperCAmelCase_ , help='Path to the retrieval index' , )
parser.add_argument('--n_docs' , default=5 , type=UpperCAmelCase_ , help='Number of retrieved docs' )
parser.add_argument(
'--model_name_or_path' , default=UpperCAmelCase_ , type=UpperCAmelCase_ , required=UpperCAmelCase_ , help='Path to pretrained checkpoints or model identifier from huggingface.co/models' , )
parser.add_argument(
'--eval_mode' , choices=['e2e', 'retrieval'] , default='e2e' , type=UpperCAmelCase_ , help=(
'Evaluation mode, e2e calculates exact match and F1 of the downstream task, retrieval calculates'
' precision@k.'
) , )
parser.add_argument('--k' , default=1 , type=UpperCAmelCase_ , help='k for the precision@k calculation' )
parser.add_argument(
'--evaluation_set' , default=UpperCAmelCase_ , type=UpperCAmelCase_ , required=UpperCAmelCase_ , help='Path to a file containing evaluation samples' , )
parser.add_argument(
'--gold_data_path' , default=UpperCAmelCase_ , type=UpperCAmelCase_ , required=UpperCAmelCase_ , help='Path to a tab-separated file with gold samples' , )
parser.add_argument(
'--gold_data_mode' , default='qa' , type=UpperCAmelCase_ , choices=['qa', 'ans'] , help=(
'Format of the gold data file'
'qa - a single line in the following format: question [tab] answer_list'
'ans - a single line of the gold file contains the expected answer string'
) , )
parser.add_argument(
'--predictions_path' , type=UpperCAmelCase_ , default='predictions.txt' , help='Name of the predictions file, to be stored in the checkpoints directory' , )
parser.add_argument(
'--eval_all_checkpoints' , action='store_true' , help='Evaluate all checkpoints starting with the same prefix as model_name ending and ending with step number' , )
parser.add_argument(
'--eval_batch_size' , default=8 , type=UpperCAmelCase_ , help='Batch size per GPU/CPU for evaluation.' , )
parser.add_argument(
'--recalculate' , help='Recalculate predictions even if the prediction file exists' , action='store_true' , )
parser.add_argument(
'--num_beams' , default=4 , type=UpperCAmelCase_ , help='Number of beams to be used when generating answers' , )
parser.add_argument('--min_length' , default=1 , type=UpperCAmelCase_ , help='Min length of the generated answers' )
parser.add_argument('--max_length' , default=5_0 , type=UpperCAmelCase_ , help='Max length of the generated answers' )
parser.add_argument(
'--print_predictions' , action='store_true' , help='If True, prints predictions while evaluating.' , )
parser.add_argument(
'--print_docs' , action='store_true' , help='If True, prints docs retried while generating.' , )
_UpperCamelCase : Optional[Any] = parser.parse_args()
_UpperCamelCase : Tuple = torch.device('cuda' if torch.cuda.is_available() else 'cpu' )
return args
def A__ ( UpperCAmelCase_ ):
_UpperCamelCase : Optional[int] = {}
if args.model_type is None:
_UpperCamelCase : Tuple = infer_model_type(args.model_name_or_path )
assert args.model_type is not None
if args.model_type.startswith('rag' ):
_UpperCamelCase : str = RagTokenForGeneration if args.model_type == 'rag_token' else RagSequenceForGeneration
_UpperCamelCase : Dict = args.n_docs
if args.index_name is not None:
_UpperCamelCase : int = args.index_name
if args.index_path is not None:
_UpperCamelCase : int = args.index_path
else:
_UpperCamelCase : Any = BartForConditionalGeneration
_UpperCamelCase : int = (
[f.path for f in os.scandir(args.model_name_or_path ) if f.is_dir()]
if args.eval_all_checkpoints
else [args.model_name_or_path]
)
logger.info('Evaluate the following checkpoints: %s' , UpperCAmelCase_ )
_UpperCamelCase : Tuple = get_scores if args.eval_mode == 'e2e' else get_precision_at_k
_UpperCamelCase : Dict = evaluate_batch_eae if args.eval_mode == 'e2e' else evaluate_batch_retrieval
for checkpoint in checkpoints:
if os.path.exists(args.predictions_path ) and (not args.recalculate):
logger.info('Calculating metrics based on an existing predictions file: {}'.format(args.predictions_path ) )
score_fn(UpperCAmelCase_ , args.predictions_path , args.gold_data_path )
continue
logger.info('***** Running evaluation for {} *****'.format(UpperCAmelCase_ ) )
logger.info(' Batch size = %d' , args.eval_batch_size )
logger.info(' Predictions will be stored under {}'.format(args.predictions_path ) )
if args.model_type.startswith('rag' ):
_UpperCamelCase : Dict = RagRetriever.from_pretrained(UpperCAmelCase_ , **UpperCAmelCase_ )
_UpperCamelCase : Optional[Any] = model_class.from_pretrained(UpperCAmelCase_ , retriever=UpperCAmelCase_ , **UpperCAmelCase_ )
model.retriever.init_retrieval()
else:
_UpperCamelCase : int = model_class.from_pretrained(UpperCAmelCase_ , **UpperCAmelCase_ )
model.to(args.device )
with open(args.evaluation_set , 'r' ) as eval_file, open(args.predictions_path , 'w' ) as preds_file:
_UpperCamelCase : str = []
for line in tqdm(UpperCAmelCase_ ):
questions.append(line.strip() )
if len(UpperCAmelCase_ ) == args.eval_batch_size:
_UpperCamelCase : List[str] = evaluate_batch_fn(UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ )
preds_file.write('\n'.join(UpperCAmelCase_ ) + '\n' )
preds_file.flush()
_UpperCamelCase : Optional[Any] = []
if len(UpperCAmelCase_ ) > 0:
_UpperCamelCase : Optional[Any] = evaluate_batch_fn(UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ )
preds_file.write('\n'.join(UpperCAmelCase_ ) )
preds_file.flush()
score_fn(UpperCAmelCase_ , args.predictions_path , args.gold_data_path )
if __name__ == "__main__":
snake_case_ : int = get_args()
main(args)
| 83 |
'''simple docstring'''
from typing import List
from ...configuration_utils import PretrainedConfig
from ...utils import logging
a_ : Dict = logging.get_logger(__name__)
a_ : Any = {
"""snap-research/efficientformer-l1-300""": (
"""https://huggingface.co/snap-research/efficientformer-l1-300/resolve/main/config.json"""
),
}
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : List[str] ='efficientformer'
def __init__( self, lowerCAmelCase = [3, 2, 6, 4], lowerCAmelCase = [48, 96, 224, 448], lowerCAmelCase = [True, True, True, True], lowerCAmelCase = 448, lowerCAmelCase = 32, lowerCAmelCase = 4, lowerCAmelCase = 7, lowerCAmelCase = 5, lowerCAmelCase = 8, lowerCAmelCase = 4, lowerCAmelCase = 0.0, lowerCAmelCase = 16, lowerCAmelCase = 3, lowerCAmelCase = 3, lowerCAmelCase = 3, lowerCAmelCase = 2, lowerCAmelCase = 1, lowerCAmelCase = 0.0, lowerCAmelCase = 1, lowerCAmelCase = True, lowerCAmelCase = True, lowerCAmelCase = 1e-5, lowerCAmelCase = "gelu", lowerCAmelCase = 0.0_2, lowerCAmelCase = 1e-12, lowerCAmelCase = 224, lowerCAmelCase = 1e-05, **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
lowerCamelCase_ =hidden_act
lowerCamelCase_ =hidden_dropout_prob
lowerCamelCase_ =hidden_sizes
lowerCamelCase_ =num_hidden_layers
lowerCamelCase_ =num_attention_heads
lowerCamelCase_ =initializer_range
lowerCamelCase_ =layer_norm_eps
lowerCamelCase_ =patch_size
lowerCamelCase_ =num_channels
lowerCamelCase_ =depths
lowerCamelCase_ =mlp_expansion_ratio
lowerCamelCase_ =downsamples
lowerCamelCase_ =dim
lowerCamelCase_ =key_dim
lowerCamelCase_ =attention_ratio
lowerCamelCase_ =resolution
lowerCamelCase_ =pool_size
lowerCamelCase_ =downsample_patch_size
lowerCamelCase_ =downsample_stride
lowerCamelCase_ =downsample_pad
lowerCamelCase_ =drop_path_rate
lowerCamelCase_ =num_metaad_blocks
lowerCamelCase_ =distillation
lowerCamelCase_ =use_layer_scale
lowerCamelCase_ =layer_scale_init_value
lowerCamelCase_ =image_size
lowerCamelCase_ =batch_norm_eps
| 75 | 0 |
"""simple docstring"""
from abc import ABC, abstractmethod
from typing import Optional, Union
from .. import Dataset, DatasetDict, Features, IterableDataset, IterableDatasetDict, NamedSplit
from ..utils.typing import NestedDataStructureLike, PathLike
class _SCREAMING_SNAKE_CASE ( A__ ):
def __init__( self , __A = None , __A = None , __A = None , __A = None , __A = False , __A = False , __A = None , **__A , ) -> List[str]:
lowerCAmelCase_ :List[str] = path_or_paths
lowerCAmelCase_ :int = split if split or isinstance(__A , __A ) else """train"""
lowerCAmelCase_ :Tuple = features
lowerCAmelCase_ :str = cache_dir
lowerCAmelCase_ :int = keep_in_memory
lowerCAmelCase_ :Tuple = streaming
lowerCAmelCase_ :Optional[int] = num_proc
lowerCAmelCase_ :Optional[int] = kwargs
@abstractmethod
def __lowerCAmelCase ( self ) -> Union[Dataset, DatasetDict, IterableDataset, IterableDatasetDict]:
pass
class _SCREAMING_SNAKE_CASE ( A__ ):
def __init__( self , __A = None , __A = None , __A = False , __A = False , __A = None , **__A , ) -> int:
lowerCAmelCase_ :List[Any] = features
lowerCAmelCase_ :str = cache_dir
lowerCAmelCase_ :List[str] = keep_in_memory
lowerCAmelCase_ :Union[str, Any] = streaming
lowerCAmelCase_ :List[Any] = num_proc
lowerCAmelCase_ :List[str] = kwargs
@abstractmethod
def __lowerCAmelCase ( self ) -> Union[Dataset, IterableDataset]:
pass
| 84 |
'''simple docstring'''
import itertools
import random
import unittest
import numpy as np
from transformers import is_speech_available
from transformers.testing_utils import require_torch, require_torchaudio
from ...test_sequence_feature_extraction_common import SequenceFeatureExtractionTestMixin
if is_speech_available():
from transformers import SpeechaTextFeatureExtractor
a_ : Union[str, Any] = random.Random()
def a_ ( __snake_case : int , __snake_case : int=1.0 , __snake_case : Tuple=None , __snake_case : Union[str, Any]=None ) -> str:
"""simple docstring"""
if rng is None:
lowerCamelCase_ =global_rng
lowerCamelCase_ =[]
for batch_idx in range(shape[0] ):
values.append([] )
for _ in range(shape[1] ):
values[-1].append(rng.random() * scale )
return values
@require_torch
@require_torchaudio
class __UpperCamelCase ( unittest.TestCase ):
def __init__( self, lowerCAmelCase, lowerCAmelCase=7, lowerCAmelCase=400, lowerCAmelCase=2_000, lowerCAmelCase=24, lowerCAmelCase=24, lowerCAmelCase=0.0, lowerCAmelCase=16_000, lowerCAmelCase=True, lowerCAmelCase=True, ):
"""simple docstring"""
lowerCamelCase_ =parent
lowerCamelCase_ =batch_size
lowerCamelCase_ =min_seq_length
lowerCamelCase_ =max_seq_length
lowerCamelCase_ =(self.max_seq_length - self.min_seq_length) // (self.batch_size - 1)
lowerCamelCase_ =feature_size
lowerCamelCase_ =num_mel_bins
lowerCamelCase_ =padding_value
lowerCamelCase_ =sampling_rate
lowerCamelCase_ =return_attention_mask
lowerCamelCase_ =do_normalize
def lowercase__ ( self ):
"""simple docstring"""
return {
"feature_size": self.feature_size,
"num_mel_bins": self.num_mel_bins,
"padding_value": self.padding_value,
"sampling_rate": self.sampling_rate,
"return_attention_mask": self.return_attention_mask,
"do_normalize": self.do_normalize,
}
def lowercase__ ( self, lowerCAmelCase=False, lowerCAmelCase=False ):
"""simple docstring"""
def _flatten(lowerCAmelCase ):
return list(itertools.chain(*lowerCAmelCase ) )
if equal_length:
lowerCamelCase_ =[floats_list((self.max_seq_length, self.feature_size) ) for _ in range(self.batch_size )]
else:
# make sure that inputs increase in size
lowerCamelCase_ =[
floats_list((x, self.feature_size) )
for x in range(self.min_seq_length, self.max_seq_length, self.seq_length_diff )
]
if numpify:
lowerCamelCase_ =[np.asarray(lowerCAmelCase ) for x in speech_inputs]
return speech_inputs
@require_torch
@require_torchaudio
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : Any =SpeechaTextFeatureExtractor if is_speech_available() else None
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextFeatureExtractionTester(self )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
self.assertTrue(np.all(np.mean(lowerCAmelCase, axis=0 ) < 1e-3 ) )
self.assertTrue(np.all(np.abs(np.var(lowerCAmelCase, axis=0 ) - 1 ) < 1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
# create three inputs of length 800, 1000, and 1200
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =[np.asarray(lowerCAmelCase ) for speech_input in speech_inputs]
# Test feature size
lowerCamelCase_ =feature_extractor(lowerCAmelCase, padding=lowerCAmelCase, return_tensors='''np''' ).input_features
self.assertTrue(input_features.ndim == 3 )
self.assertTrue(input_features.shape[-1] == feature_extractor.feature_size )
# Test not batched input
lowerCamelCase_ =feature_extractor(speech_inputs[0], return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(np_speech_inputs[0], return_tensors='''np''' ).input_features
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
# Test batched
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
for enc_seq_a, enc_seq_a in zip(lowerCAmelCase, lowerCAmelCase ):
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
# Test 2-D numpy arrays are batched.
lowerCamelCase_ =[floats_list((1, x) )[0] for x in (800, 800, 800)]
lowerCamelCase_ =np.asarray(lowerCAmelCase )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
for enc_seq_a, enc_seq_a in zip(lowerCAmelCase, lowerCAmelCase ):
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =['''longest''', '''max_length''', '''do_not_pad''']
lowerCamelCase_ =[None, 16, None]
for max_length, padding in zip(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding=lowerCAmelCase, max_length=lowerCAmelCase, return_attention_mask=lowerCAmelCase )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =[np.sum(lowerCAmelCase ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =['''longest''', '''max_length''', '''do_not_pad''']
lowerCamelCase_ =[None, 16, None]
for max_length, padding in zip(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, max_length=lowerCAmelCase, padding=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =[np.sum(lowerCAmelCase ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self.assertTrue(input_features[0][fbank_feat_lengths[0] :].sum() < 1e-6 )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self.assertTrue(input_features[0][fbank_feat_lengths[1] :].sum() < 1e-6 )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''max_length''', max_length=4, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1] )
self._check_zero_mean_unit_variance(input_features[2] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''longest''', max_length=4, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape, (3, 4, 24) )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''longest''', max_length=16, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape, (3, 6, 24) )
def lowercase__ ( self ):
"""simple docstring"""
import torch
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =np.random.rand(100, 32 ).astype(np.floataa )
lowerCamelCase_ =np_speech_inputs.tolist()
for inputs in [py_speech_inputs, np_speech_inputs]:
lowerCamelCase_ =feature_extractor.pad([{'''input_features''': inputs}], return_tensors='''np''' )
self.assertTrue(np_processed.input_features.dtype == np.floataa )
lowerCamelCase_ =feature_extractor.pad([{'''input_features''': inputs}], return_tensors='''pt''' )
self.assertTrue(pt_processed.input_features.dtype == torch.floataa )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
from datasets import load_dataset
lowerCamelCase_ =load_dataset('''hf-internal-testing/librispeech_asr_dummy''', '''clean''', split='''validation''' )
# automatic decoding with librispeech
lowerCamelCase_ =ds.sort('''id''' ).select(range(lowerCAmelCase ) )[:num_samples]['''audio''']
return [x["array"] for x in speech_samples]
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =np.array([
-1.5_7_4_5, -1.7_7_1_3, -1.7_0_2_0, -1.6_0_6_9, -1.2_2_5_0, -1.1_1_0_5, -0.9_0_7_2, -0.8_2_4_1,
-1.2_3_1_0, -0.8_0_9_8, -0.3_3_2_0, -0.4_1_0_1, -0.7_9_8_5, -0.4_9_9_6, -0.8_2_1_3, -0.9_1_2_8,
-1.0_4_2_0, -1.1_2_8_6, -1.0_4_4_0, -0.7_9_9_9, -0.8_4_0_5, -1.2_2_7_5, -1.5_4_4_3, -1.4_6_2_5,
] )
# fmt: on
lowerCamelCase_ =self._load_datasamples(1 )
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''pt''' ).input_features
self.assertEquals(input_features.shape, (1, 584, 24) )
self.assertTrue(np.allclose(input_features[0, 0, :30], lowerCAmelCase, atol=1e-4 ) )
| 75 | 0 |
'''simple docstring'''
from __future__ import annotations
import requests
def UpperCamelCase_( snake_case : str ):
'''simple docstring'''
snake_case_ = f'https://hacker-news.firebaseio.com/v0/item/{story_id}.json?print=pretty'
return requests.get(snake_case ).json()
def UpperCamelCase_( snake_case : int = 1_0 ):
'''simple docstring'''
snake_case_ = "https://hacker-news.firebaseio.com/v0/topstories.json?print=pretty"
snake_case_ = requests.get(snake_case ).json()[:max_stories]
return [get_hackernews_story(snake_case ) for story_id in story_ids]
def UpperCamelCase_( snake_case : int = 1_0 ):
'''simple docstring'''
snake_case_ = hackernews_top_stories(snake_case )
return "\n".join("* [{title}]({url})".format(**snake_case ) for story in stories )
if __name__ == "__main__":
print(hackernews_top_stories_as_markdown())
| 85 |
'''simple docstring'''
def a_ ( __snake_case : Any , __snake_case : List[str] ) -> str:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in table:
res += inp[i - 1]
return res
def a_ ( __snake_case : List[str] ) -> Optional[int]:
"""simple docstring"""
return data[1:] + data[0]
def a_ ( __snake_case : str , __snake_case : Tuple ) -> int:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in range(len(__snake_case ) ):
if a[i] == b[i]:
res += "0"
else:
res += "1"
return res
def a_ ( __snake_case : Optional[Any] , __snake_case : Tuple ) -> List[Any]:
"""simple docstring"""
lowerCamelCase_ =int('''0b''' + data[0] + data[-1] , 2 )
lowerCamelCase_ =int('''0b''' + data[1:3] , 2 )
return bin(s[row][col] )[2:]
def a_ ( __snake_case : Optional[int] , __snake_case : List[str] , __snake_case : int , __snake_case : Tuple , __snake_case : List[Any] ) -> Optional[Any]:
"""simple docstring"""
lowerCamelCase_ =message[:4]
lowerCamelCase_ =message[4:]
lowerCamelCase_ =apply_table(__snake_case , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
lowerCamelCase_ =apply_sbox(__snake_case , temp[:4] ) # noqa: E741
lowerCamelCase_ =apply_sbox(__snake_case , temp[4:] )
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + l # noqa: E741
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + r
lowerCamelCase_ =apply_table(l + r , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
return temp + right
if __name__ == "__main__":
a_ : Any = input("""Enter 10 bit key: """)
a_ : Any = input("""Enter 8 bit message: """)
a_ : str = [6, 3, 7, 4, 8, 5, 10, 9]
a_ : str = [3, 5, 2, 7, 4, 10, 1, 9, 8, 6]
a_ : str = [2, 4, 3, 1]
a_ : Optional[int] = [2, 6, 3, 1, 4, 8, 5, 7]
a_ : Optional[Any] = [4, 1, 3, 5, 7, 2, 8, 6]
a_ : Union[str, Any] = [4, 1, 2, 3, 2, 3, 4, 1]
a_ : int = [[1, 0, 3, 2], [3, 2, 1, 0], [0, 2, 1, 3], [3, 1, 3, 2]]
a_ : Any = [[0, 1, 2, 3], [2, 0, 1, 3], [3, 0, 1, 0], [2, 1, 0, 3]]
# key generation
a_ : List[Any] = apply_table(key, paa_table)
a_ : str = temp[:5]
a_ : Optional[Any] = temp[5:]
a_ : Tuple = left_shift(left)
a_ : Optional[Any] = left_shift(right)
a_ : str = apply_table(left + right, pa_table)
a_ : Optional[Any] = left_shift(left)
a_ : Tuple = left_shift(right)
a_ : Union[str, Any] = left_shift(left)
a_ : List[str] = left_shift(right)
a_ : Optional[int] = apply_table(left + right, pa_table)
# encryption
a_ : Optional[int] = apply_table(message, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : str = temp[4:] + temp[:4]
a_ : List[str] = function(expansion, sa, sa, keya, temp)
a_ : Union[str, Any] = apply_table(temp, IP_inv)
print("""Cipher text is:""", CT)
# decryption
a_ : Optional[int] = apply_table(CT, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : int = temp[4:] + temp[:4]
a_ : int = function(expansion, sa, sa, keya, temp)
a_ : Optional[int] = apply_table(temp, IP_inv)
print("""Plain text after decypting is:""", PT)
| 75 | 0 |
"""simple docstring"""
import collections
import json
import os
import re
from typing import TYPE_CHECKING, List, Optional, Tuple
import numpy as np
from ...tokenization_utils_fast import PreTrainedTokenizer
from ...utils import logging
if TYPE_CHECKING:
from transformers.pipelines.conversational import Conversation
lowerCamelCase__ = logging.get_logger(__name__)
lowerCamelCase__ = {"""vocab_file""": """vocab.txt""", """emoji_file""": """emoji.json"""}
lowerCamelCase__ = {
"""vocab_file""": {
"""abeja/gpt-neox-japanese-2.7b""": """https://huggingface.co/abeja/gpt-neox-japanese-2.7b/resolve/main/vocab.txt""",
},
"""emoji_file""": {
"""abeja/gpt-neox-japanese-2.7b""": """https://huggingface.co/abeja/gpt-neox-japanese-2.7b/resolve/main/emoji.json""",
},
}
lowerCamelCase__ = {
"""abeja/gpt-neox-japanese-2.7b""": 2_048,
}
def __lowerCAmelCase (_UpperCamelCase , _UpperCamelCase ):
with open(_UpperCamelCase , 'r' , encoding='utf-8' ) as f:
__lowerCAmelCase : Any = json.loads(f.read() )
__lowerCAmelCase : Optional[int] = collections.OrderedDict()
__lowerCAmelCase : Dict = collections.OrderedDict()
__lowerCAmelCase : Dict = collections.OrderedDict()
with open(_UpperCamelCase , 'r' , encoding='utf-8' ) as f:
__lowerCAmelCase : Tuple = f.readlines()
__lowerCAmelCase : List[Any] = [[t.rstrip('\n' )] if (t == ',' or ',' not in t) else t.rstrip('\n' ).split(',' ) for t in token]
for idx, b in enumerate(_UpperCamelCase ):
__lowerCAmelCase : Tuple = b
__lowerCAmelCase : Optional[Any] = idx
for wd in b:
__lowerCAmelCase : Any = idx
return vocab, raw_vocab, ids_to_tokens, emoji
class A__ ( _lowerCamelCase):
A_ : str = VOCAB_FILES_NAMES
A_ : str = PRETRAINED_VOCAB_FILES_MAP
A_ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
A_ : Any = ['input_ids', 'attention_mask']
def __init__( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE="<|endoftext|>" , _SCREAMING_SNAKE_CASE="<|endoftext|>" , _SCREAMING_SNAKE_CASE="<|startoftext|>" , _SCREAMING_SNAKE_CASE="<|endoftext|>" , _SCREAMING_SNAKE_CASE=False , **_SCREAMING_SNAKE_CASE , ):
super().__init__(
unk_token=_SCREAMING_SNAKE_CASE , pad_token=_SCREAMING_SNAKE_CASE , bos_token=_SCREAMING_SNAKE_CASE , eos_token=_SCREAMING_SNAKE_CASE , do_clean_text=_SCREAMING_SNAKE_CASE , **_SCREAMING_SNAKE_CASE , )
if not os.path.isfile(_SCREAMING_SNAKE_CASE ):
raise ValueError(
f"Can't find a vocabulary file at path '{vocab_file}'. To load the vocabulary from a Google pretrained"
' model use `tokenizer = GPTNeoXJapaneseokenizer.from_pretrained(PRETRAINED_MODEL_NAME)`' )
if not os.path.isfile(_SCREAMING_SNAKE_CASE ):
raise ValueError(
f"Can't find a emoji file at path '{emoji_file}'. To load the emoji information from a Google"
' pretrained model use `tokenizer = GPTNeoXJapaneseokenizer.from_pretrained(PRETRAINED_MODEL_NAME)`' )
__lowerCAmelCase : Optional[int] = do_clean_text
__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase : int = load_vocab_and_emoji(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE )
__lowerCAmelCase : Optional[Any] = SubWordJapaneseTokenizer(
vocab=self.vocab , ids_to_tokens=self.ids_to_tokens , emoji=self.emoji )
@property
def __lowerCamelCase ( self ):
# self.vocab contains support for character fluctuation unique to Japanese, and has a large number of vocab
return len(self.raw_vocab )
def __lowerCamelCase ( self ):
return dict(self.raw_vocab , **self.added_tokens_encoder )
def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE ):
return self.subword_tokenizer.tokenize(_SCREAMING_SNAKE_CASE , clean=self.do_clean_text )
def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE ):
return self.vocab.get(_SCREAMING_SNAKE_CASE , self.vocab.get(self.unk_token ) )
def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE ):
return self.subword_tokenizer.convert_id_to_token(_SCREAMING_SNAKE_CASE )
def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE ):
__lowerCAmelCase : Union[str, Any] = ''.join(_SCREAMING_SNAKE_CASE ).strip()
return out_string
def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE ):
__lowerCAmelCase : int = []
for is_user, text in conversation.iter_texts():
input_ids.extend(self.encode(_SCREAMING_SNAKE_CASE , add_special_tokens=_SCREAMING_SNAKE_CASE ) + [self.eos_token_id] )
if len(_SCREAMING_SNAKE_CASE ) > self.model_max_length:
__lowerCAmelCase : int = input_ids[-self.model_max_length :]
return input_ids
def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = None ):
__lowerCAmelCase : str = 0
if os.path.isdir(_SCREAMING_SNAKE_CASE ):
__lowerCAmelCase : int = os.path.join(
_SCREAMING_SNAKE_CASE , (filename_prefix + '-' if filename_prefix else '') + VOCAB_FILES_NAMES['vocab_file'] )
__lowerCAmelCase : Dict = os.path.join(
_SCREAMING_SNAKE_CASE , (filename_prefix + '-' if filename_prefix else '') + VOCAB_FILES_NAMES['emoji_file'] )
else:
__lowerCAmelCase : int = (
(filename_prefix + '-' if filename_prefix else '') + save_directory + VOCAB_FILES_NAMES['vocab_file']
)
__lowerCAmelCase : List[str] = (
(filename_prefix + '-' if filename_prefix else '') + save_directory + VOCAB_FILES_NAMES['emoji_file']
)
with open(_SCREAMING_SNAKE_CASE , 'w' , encoding='utf-8' ) as writer:
for token_index, token in self.ids_to_tokens.items():
if index != token_index:
logger.warning(
f"Saving vocabulary to {vocab_file}: vocabulary indices are not consecutive."
' Please check that the vocabulary is not corrupted!' )
__lowerCAmelCase : Tuple = token_index
writer.write(','.join(_SCREAMING_SNAKE_CASE ) + '\n' )
index += 1
with open(_SCREAMING_SNAKE_CASE , 'w' , encoding='utf-8' ) as writer:
json.dump(self.emoji , _SCREAMING_SNAKE_CASE )
return vocab_file, emoji_file
class A__ ( _lowerCamelCase):
def __init__( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ):
__lowerCAmelCase : List[str] = vocab # same as swe
__lowerCAmelCase : str = ids_to_tokens # same as bpe
__lowerCAmelCase : Tuple = emoji
__lowerCAmelCase : str = np.max([len(_SCREAMING_SNAKE_CASE ) for w in self.vocab.keys()] )
__lowerCAmelCase : List[str] = re.compile(R'(https?|ftp)(:\/\/[-_\.!~*\'()a-zA-Z0-9;\/?:\@&=\+$,%#]+)' )
__lowerCAmelCase : List[Any] = re.compile(R'[A-Za-z0-9\._+]*@[\-_0-9A-Za-z]+(\.[A-Za-z]+)*' )
__lowerCAmelCase : Tuple = re.compile(R'[\(]{0,1}[0-9]{2,4}[\)\-\(]{0,1}[0-9]{2,4}[\)\-]{0,1}[0-9]{3,4}' )
__lowerCAmelCase : Any = re.compile(
R'([12]\d{3}[/\-年])*(0?[1-9]|1[0-2])[/\-月]((0?[1-9]|[12][0-9]|3[01])日?)*(\d{1,2}|:|\d{1,2}時|\d{1,2}分|\(日\)|\(月\)|\(火\)|\(水\)|\(木\)|\(金\)|\(土\)|㈰|㈪|㈫|㈬|㈭|㈮|㈯)*' )
__lowerCAmelCase : List[str] = re.compile(
R'(明治|大正|昭和|平成|令和|㍾|㍽|㍼|㍻|\u32ff)\d{1,2}年(0?[1-9]|1[0-2])月(0?[1-9]|[12][0-9]|3[01])日(\d{1,2}|:|\d{1,2}時|\d{1,2}分|\(日\)|\(月\)|\(火\)|\(水\)|\(木\)|\(金\)|\(土\)|㈰|㈪|㈫|㈬|㈭|㈮|㈯)*' )
__lowerCAmelCase : Tuple = re.compile(
R'((0|[1-9]\d*|[1-9]\d{0,2}(,\d{3})+)*億)*((0|[1-9]\d*|[1-9]\d{0,2}(,\d{3})+)*万)*((0|[1-9]\d*|[1-9]\d{0,2}(,\d{3})+)*千)*(0|[1-9]\d*|[1-9]\d{0,2}(,\d{3})+)*(千円|万円|千万円|円|千ドル|万ドル|千万ドル|ドル|千ユーロ|万ユーロ|千万ユーロ|ユーロ)+(\(税込\)|\(税抜\)|\+tax)*' )
__lowerCAmelCase : Optional[int] = '─━│┃┄┅┆┇┈┉┊┋┌┍┎┏┐┑┒┓└┕┖┗┘┙┚┛├┝┞┟┠┡┢┣┤┥┦┧┨┩┪┫┬┭┮┯┰┱┲┳┴┵┶┷┸┹┺┻┼┽┾┿╀╁╂╃╄╅╆╇╈╉╊╋╌╍╎╏═║╒╓╔╕╖╗╘╙╚╛╜╝╞╟╠╡╢╣╤╥╦╧╨╩╪╫╬╭╮╯╰╱╲╳╴╵╶╷╸╹╺╻╼╽╾╿'
__lowerCAmelCase : str = '▀▁▂▃▄▅▆▇█▉▊▋▌▍▎▏▐░▒▓▔▕▖▗▘▙▚▛▜▝▞▟'
__lowerCAmelCase : List[Any] = str.maketrans({k: '<BLOCK>' for k in keisen + blocks} )
def __len__( self ):
return len(self.ids_to_tokens )
def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE ):
__lowerCAmelCase : List[str] = self.content_repattera.sub('<URL>' , _SCREAMING_SNAKE_CASE )
__lowerCAmelCase : Optional[Any] = self.content_repattera.sub('<EMAIL>' , _SCREAMING_SNAKE_CASE )
__lowerCAmelCase : Any = self.content_repattera.sub('<TEL>' , _SCREAMING_SNAKE_CASE )
__lowerCAmelCase : Union[str, Any] = self.content_repattera.sub('<DATE>' , _SCREAMING_SNAKE_CASE )
__lowerCAmelCase : Union[str, Any] = self.content_repattera.sub('<DATE>' , _SCREAMING_SNAKE_CASE )
__lowerCAmelCase : Optional[Any] = self.content_repattera.sub('<PRICE>' , _SCREAMING_SNAKE_CASE )
__lowerCAmelCase : Tuple = content.translate(self.content_transa )
while "<BLOCK><BLOCK>" in content:
__lowerCAmelCase : int = content.replace('<BLOCK><BLOCK>' , '<BLOCK>' )
return content
def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=False ):
__lowerCAmelCase : str = text.replace(' ' , '<SP>' )
__lowerCAmelCase : int = text.replace(' ' , '<SP>' )
__lowerCAmelCase : int = text.replace('\r\n' , '<BR>' )
__lowerCAmelCase : Tuple = text.replace('\n' , '<BR>' )
__lowerCAmelCase : Optional[Any] = text.replace('\r' , '<BR>' )
__lowerCAmelCase : Tuple = text.replace('\t' , '<TAB>' )
__lowerCAmelCase : List[str] = text.replace('—' , 'ー' )
__lowerCAmelCase : Optional[Any] = text.replace('−' , 'ー' )
for k, v in self.emoji["emoji"].items():
if k in text:
__lowerCAmelCase : Any = text.replace(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE )
if clean:
__lowerCAmelCase : Optional[int] = self.clean_text(_SCREAMING_SNAKE_CASE )
def check_simbol(_SCREAMING_SNAKE_CASE ):
__lowerCAmelCase : Any = x.encode()
if len(_SCREAMING_SNAKE_CASE ) == 1 and len(_SCREAMING_SNAKE_CASE ) == 2:
__lowerCAmelCase : Any = (int(e[0] ) << 8) + int(e[1] )
if (
(c >= 0xc_2_a_1 and c <= 0xc_2_b_f)
or (c >= 0xc_7_8_0 and c <= 0xc_7_8_3)
or (c >= 0xc_a_b_9 and c <= 0xc_b_b_f)
or (c >= 0xc_c_8_0 and c <= 0xc_d_a_2)
):
return True
return False
def checkuae(_SCREAMING_SNAKE_CASE ):
__lowerCAmelCase : int = x.encode()
if len(_SCREAMING_SNAKE_CASE ) == 1 and len(_SCREAMING_SNAKE_CASE ) == 3:
__lowerCAmelCase : List[Any] = (int(e[0] ) << 16) + (int(e[1] ) << 8) + int(e[2] )
if c >= 0xe_2_8_0_8_0 and c <= 0xe_2_b_0_7_f:
return True
return False
__lowerCAmelCase : List[Any] = 0
__lowerCAmelCase : Any = []
while pos < len(_SCREAMING_SNAKE_CASE ):
__lowerCAmelCase : Any = min(len(_SCREAMING_SNAKE_CASE ) , pos + self.maxlen + 1 ) if text[pos] == '<' else pos + 3
__lowerCAmelCase : Union[str, Any] = [] # (token_id, token, pos)
for e in range(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , -1 ):
__lowerCAmelCase : Optional[Any] = text[pos:e]
if wd in self.vocab:
if wd[0] == "<" and len(_SCREAMING_SNAKE_CASE ) > 2:
__lowerCAmelCase : Optional[Any] = [(self.vocab[wd], wd, e)]
break
else:
candidates.append((self.vocab[wd], wd, e) )
if len(_SCREAMING_SNAKE_CASE ) > 0:
# the smallest token_id is adopted
__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase : int = sorted(_SCREAMING_SNAKE_CASE , key=lambda _SCREAMING_SNAKE_CASE : x[0] )[0]
result.append(_SCREAMING_SNAKE_CASE )
__lowerCAmelCase : Union[str, Any] = e
else:
__lowerCAmelCase : List[Any] = pos + 1
__lowerCAmelCase : str = text[pos:end]
if check_simbol(_SCREAMING_SNAKE_CASE ):
result.append('<KIGOU>' )
elif checkuae(_SCREAMING_SNAKE_CASE ):
result.append('<U2000U2BFF>' )
else:
for i in wd.encode('utf-8' ):
result.append('<|byte%d|>' % i )
__lowerCAmelCase : List[str] = end
return result
def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE="\n" ):
__lowerCAmelCase : Union[str, Any] = []
__lowerCAmelCase : List[Any] = []
__lowerCAmelCase : Dict = self.ids_to_tokens[index][0]
if word[:6] == "<|byte" and word[-2:] == "|>":
byte_tokens.append(int(word[6:-2] ) )
else:
if len(_SCREAMING_SNAKE_CASE ) > 0:
words.append(bytearray(_SCREAMING_SNAKE_CASE ).decode('utf-8' , errors='replace' ) )
__lowerCAmelCase : Dict = []
if word[:7] == "<|emoji" and word[-2:] == "|>":
words.append(self.emoji['emoji_inv'][word] )
elif word == "<SP>":
words.append(' ' )
elif word == "<BR>":
words.append(_SCREAMING_SNAKE_CASE )
elif word == "<TAB>":
words.append('\t' )
elif word == "<BLOCK>":
words.append('▀' )
elif word == "<KIGOU>":
words.append('ǀ' )
elif word == "<U2000U2BFF>":
words.append('‖' )
else:
words.append(_SCREAMING_SNAKE_CASE )
if len(_SCREAMING_SNAKE_CASE ) > 0:
words.append(bytearray(_SCREAMING_SNAKE_CASE ).decode('utf-8' , errors='replace' ) )
__lowerCAmelCase : List[str] = ''.join(_SCREAMING_SNAKE_CASE )
return text | 86 |
'''simple docstring'''
import importlib
import json
import os
from collections import OrderedDict
from typing import Dict, Optional, Union
# Build the list of all feature extractors
from ...configuration_utils import PretrainedConfig
from ...dynamic_module_utils import get_class_from_dynamic_module, resolve_trust_remote_code
from ...feature_extraction_utils import FeatureExtractionMixin
from ...utils import CONFIG_NAME, FEATURE_EXTRACTOR_NAME, get_file_from_repo, logging
from .auto_factory import _LazyAutoMapping
from .configuration_auto import (
CONFIG_MAPPING_NAMES,
AutoConfig,
model_type_to_module_name,
replace_list_option_in_docstrings,
)
a_ : List[Any] = logging.get_logger(__name__)
a_ : Tuple = OrderedDict(
[
("""audio-spectrogram-transformer""", """ASTFeatureExtractor"""),
("""beit""", """BeitFeatureExtractor"""),
("""chinese_clip""", """ChineseCLIPFeatureExtractor"""),
("""clap""", """ClapFeatureExtractor"""),
("""clip""", """CLIPFeatureExtractor"""),
("""clipseg""", """ViTFeatureExtractor"""),
("""conditional_detr""", """ConditionalDetrFeatureExtractor"""),
("""convnext""", """ConvNextFeatureExtractor"""),
("""cvt""", """ConvNextFeatureExtractor"""),
("""data2vec-audio""", """Wav2Vec2FeatureExtractor"""),
("""data2vec-vision""", """BeitFeatureExtractor"""),
("""deformable_detr""", """DeformableDetrFeatureExtractor"""),
("""deit""", """DeiTFeatureExtractor"""),
("""detr""", """DetrFeatureExtractor"""),
("""dinat""", """ViTFeatureExtractor"""),
("""donut-swin""", """DonutFeatureExtractor"""),
("""dpt""", """DPTFeatureExtractor"""),
("""encodec""", """EncodecFeatureExtractor"""),
("""flava""", """FlavaFeatureExtractor"""),
("""glpn""", """GLPNFeatureExtractor"""),
("""groupvit""", """CLIPFeatureExtractor"""),
("""hubert""", """Wav2Vec2FeatureExtractor"""),
("""imagegpt""", """ImageGPTFeatureExtractor"""),
("""layoutlmv2""", """LayoutLMv2FeatureExtractor"""),
("""layoutlmv3""", """LayoutLMv3FeatureExtractor"""),
("""levit""", """LevitFeatureExtractor"""),
("""maskformer""", """MaskFormerFeatureExtractor"""),
("""mctct""", """MCTCTFeatureExtractor"""),
("""mobilenet_v1""", """MobileNetV1FeatureExtractor"""),
("""mobilenet_v2""", """MobileNetV2FeatureExtractor"""),
("""mobilevit""", """MobileViTFeatureExtractor"""),
("""nat""", """ViTFeatureExtractor"""),
("""owlvit""", """OwlViTFeatureExtractor"""),
("""perceiver""", """PerceiverFeatureExtractor"""),
("""poolformer""", """PoolFormerFeatureExtractor"""),
("""regnet""", """ConvNextFeatureExtractor"""),
("""resnet""", """ConvNextFeatureExtractor"""),
("""segformer""", """SegformerFeatureExtractor"""),
("""sew""", """Wav2Vec2FeatureExtractor"""),
("""sew-d""", """Wav2Vec2FeatureExtractor"""),
("""speech_to_text""", """Speech2TextFeatureExtractor"""),
("""speecht5""", """SpeechT5FeatureExtractor"""),
("""swiftformer""", """ViTFeatureExtractor"""),
("""swin""", """ViTFeatureExtractor"""),
("""swinv2""", """ViTFeatureExtractor"""),
("""table-transformer""", """DetrFeatureExtractor"""),
("""timesformer""", """VideoMAEFeatureExtractor"""),
("""tvlt""", """TvltFeatureExtractor"""),
("""unispeech""", """Wav2Vec2FeatureExtractor"""),
("""unispeech-sat""", """Wav2Vec2FeatureExtractor"""),
("""van""", """ConvNextFeatureExtractor"""),
("""videomae""", """VideoMAEFeatureExtractor"""),
("""vilt""", """ViltFeatureExtractor"""),
("""vit""", """ViTFeatureExtractor"""),
("""vit_mae""", """ViTFeatureExtractor"""),
("""vit_msn""", """ViTFeatureExtractor"""),
("""wav2vec2""", """Wav2Vec2FeatureExtractor"""),
("""wav2vec2-conformer""", """Wav2Vec2FeatureExtractor"""),
("""wavlm""", """Wav2Vec2FeatureExtractor"""),
("""whisper""", """WhisperFeatureExtractor"""),
("""xclip""", """CLIPFeatureExtractor"""),
("""yolos""", """YolosFeatureExtractor"""),
]
)
a_ : Optional[Any] = _LazyAutoMapping(CONFIG_MAPPING_NAMES, FEATURE_EXTRACTOR_MAPPING_NAMES)
def a_ ( __snake_case : str ) -> Any:
"""simple docstring"""
for module_name, extractors in FEATURE_EXTRACTOR_MAPPING_NAMES.items():
if class_name in extractors:
lowerCamelCase_ =model_type_to_module_name(__snake_case )
lowerCamelCase_ =importlib.import_module(F'''.{module_name}''' , '''transformers.models''' )
try:
return getattr(__snake_case , __snake_case )
except AttributeError:
continue
for _, extractor in FEATURE_EXTRACTOR_MAPPING._extra_content.items():
if getattr(__snake_case , '''__name__''' , __snake_case ) == class_name:
return extractor
# We did not fine the class, but maybe it's because a dep is missing. In that case, the class will be in the main
# init and we return the proper dummy to get an appropriate error message.
lowerCamelCase_ =importlib.import_module('''transformers''' )
if hasattr(__snake_case , __snake_case ):
return getattr(__snake_case , __snake_case )
return None
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , **__snake_case : Union[str, Any] , ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ =get_file_from_repo(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
if resolved_config_file is None:
logger.info(
'''Could not locate the feature extractor configuration file, will try to use the model config instead.''' )
return {}
with open(__snake_case , encoding='''utf-8''' ) as reader:
return json.load(__snake_case )
class __UpperCamelCase :
def __init__( self ):
"""simple docstring"""
raise EnvironmentError(
'''AutoFeatureExtractor is designed to be instantiated '''
'''using the `AutoFeatureExtractor.from_pretrained(pretrained_model_name_or_path)` method.''' )
@classmethod
@replace_list_option_in_docstrings(lowerCAmelCase )
def lowercase__ ( cls, lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =kwargs.pop('''config''', lowerCAmelCase )
lowerCamelCase_ =kwargs.pop('''trust_remote_code''', lowerCAmelCase )
lowerCamelCase_ =True
lowerCamelCase_, lowerCamelCase_ =FeatureExtractionMixin.get_feature_extractor_dict(lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ =config_dict.get('''feature_extractor_type''', lowerCAmelCase )
lowerCamelCase_ =None
if "AutoFeatureExtractor" in config_dict.get('''auto_map''', {} ):
lowerCamelCase_ =config_dict['''auto_map''']['''AutoFeatureExtractor''']
# If we don't find the feature extractor class in the feature extractor config, let's try the model config.
if feature_extractor_class is None and feature_extractor_auto_map is None:
if not isinstance(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =AutoConfig.from_pretrained(lowerCAmelCase, **lowerCAmelCase )
# It could be in `config.feature_extractor_type``
lowerCamelCase_ =getattr(lowerCAmelCase, '''feature_extractor_type''', lowerCAmelCase )
if hasattr(lowerCAmelCase, '''auto_map''' ) and "AutoFeatureExtractor" in config.auto_map:
lowerCamelCase_ =config.auto_map['''AutoFeatureExtractor''']
if feature_extractor_class is not None:
lowerCamelCase_ =feature_extractor_class_from_name(lowerCAmelCase )
lowerCamelCase_ =feature_extractor_auto_map is not None
lowerCamelCase_ =feature_extractor_class is not None or type(lowerCAmelCase ) in FEATURE_EXTRACTOR_MAPPING
lowerCamelCase_ =resolve_trust_remote_code(
lowerCAmelCase, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase )
if has_remote_code and trust_remote_code:
lowerCamelCase_ =get_class_from_dynamic_module(
lowerCAmelCase, lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ =kwargs.pop('''code_revision''', lowerCAmelCase )
if os.path.isdir(lowerCAmelCase ):
feature_extractor_class.register_for_auto_class()
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
elif feature_extractor_class is not None:
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
# Last try: we use the FEATURE_EXTRACTOR_MAPPING.
elif type(lowerCAmelCase ) in FEATURE_EXTRACTOR_MAPPING:
lowerCamelCase_ =FEATURE_EXTRACTOR_MAPPING[type(lowerCAmelCase )]
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
raise ValueError(
f'''Unrecognized feature extractor in {pretrained_model_name_or_path}. Should have a '''
f'''`feature_extractor_type` key in its {FEATURE_EXTRACTOR_NAME} of {CONFIG_NAME}, or one of the following '''
f'''`model_type` keys in its {CONFIG_NAME}: {', '.join(c for c in FEATURE_EXTRACTOR_MAPPING_NAMES.keys() )}''' )
@staticmethod
def lowercase__ ( lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
FEATURE_EXTRACTOR_MAPPING.register(lowerCAmelCase, lowerCAmelCase )
| 75 | 0 |
def lowercase_ ( _lowerCamelCase : int , _lowerCamelCase : int):
return int((input_a, input_a).count(0) == 0)
def lowercase_ ( ):
assert and_gate(0 , 0) == 0
assert and_gate(0 , 1) == 0
assert and_gate(1 , 0) == 0
assert and_gate(1 , 1) == 1
if __name__ == "__main__":
test_and_gate()
print(and_gate(1, 0))
print(and_gate(0, 0))
print(and_gate(0, 1))
print(and_gate(1, 1))
| 87 |
'''simple docstring'''
import argparse
import csv
import logging
import os
import random
import numpy as np
import torch
from torch.utils.data import DataLoader, RandomSampler, SequentialSampler, TensorDataset
from tqdm import tqdm, trange
from transformers import (
CONFIG_NAME,
WEIGHTS_NAME,
AdamW,
OpenAIGPTDoubleHeadsModel,
OpenAIGPTTokenizer,
get_linear_schedule_with_warmup,
)
logging.basicConfig(
format="""%(asctime)s - %(levelname)s - %(name)s - %(message)s""", datefmt="""%m/%d/%Y %H:%M:%S""", level=logging.INFO
)
a_ : Optional[int] = logging.getLogger(__name__)
def a_ ( __snake_case : Union[str, Any] , __snake_case : Union[str, Any] ) -> str:
"""simple docstring"""
lowerCamelCase_ =np.argmax(__snake_case , axis=1 )
return np.sum(outputs == labels )
def a_ ( __snake_case : List[Any] ) -> Tuple:
"""simple docstring"""
with open(__snake_case , encoding='''utf_8''' ) as f:
lowerCamelCase_ =csv.reader(__snake_case )
lowerCamelCase_ =[]
next(__snake_case ) # skip the first line
for line in tqdm(__snake_case ):
output.append((''' '''.join(line[1:5] ), line[5], line[6], int(line[-1] ) - 1) )
return output
def a_ ( __snake_case : str , __snake_case : Dict , __snake_case : List[str] , __snake_case : List[str] , __snake_case : List[Any] , __snake_case : Dict ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =[]
for dataset in encoded_datasets:
lowerCamelCase_ =len(__snake_case )
lowerCamelCase_ =np.zeros((n_batch, 2, input_len) , dtype=np.intaa )
lowerCamelCase_ =np.zeros((n_batch, 2) , dtype=np.intaa )
lowerCamelCase_ =np.full((n_batch, 2, input_len) , fill_value=-100 , dtype=np.intaa )
lowerCamelCase_ =np.zeros((n_batch,) , dtype=np.intaa )
for (
i,
(story, conta, conta, mc_label),
) in enumerate(__snake_case ):
lowerCamelCase_ =[start_token] + story[:cap_length] + [delimiter_token] + conta[:cap_length] + [clf_token]
lowerCamelCase_ =[start_token] + story[:cap_length] + [delimiter_token] + conta[:cap_length] + [clf_token]
lowerCamelCase_ =with_conta
lowerCamelCase_ =with_conta
lowerCamelCase_ =len(__snake_case ) - 1
lowerCamelCase_ =len(__snake_case ) - 1
lowerCamelCase_ =with_conta
lowerCamelCase_ =with_conta
lowerCamelCase_ =mc_label
lowerCamelCase_ =(input_ids, mc_token_ids, lm_labels, mc_labels)
tensor_datasets.append(tuple(torch.tensor(__snake_case ) for t in all_inputs ) )
return tensor_datasets
def a_ ( ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =argparse.ArgumentParser()
parser.add_argument('''--model_name''' , type=__snake_case , default='''openai-gpt''' , help='''pretrained model name''' )
parser.add_argument('''--do_train''' , action='''store_true''' , help='''Whether to run training.''' )
parser.add_argument('''--do_eval''' , action='''store_true''' , help='''Whether to run eval on the dev set.''' )
parser.add_argument(
'''--output_dir''' , default=__snake_case , type=__snake_case , required=__snake_case , help='''The output directory where the model predictions and checkpoints will be written.''' , )
parser.add_argument('''--train_dataset''' , type=__snake_case , default='''''' )
parser.add_argument('''--eval_dataset''' , type=__snake_case , default='''''' )
parser.add_argument('''--seed''' , type=__snake_case , default=42 )
parser.add_argument('''--num_train_epochs''' , type=__snake_case , default=3 )
parser.add_argument('''--train_batch_size''' , type=__snake_case , default=8 )
parser.add_argument('''--eval_batch_size''' , type=__snake_case , default=16 )
parser.add_argument('''--adam_epsilon''' , default=1e-8 , type=__snake_case , help='''Epsilon for Adam optimizer.''' )
parser.add_argument('''--max_grad_norm''' , type=__snake_case , default=1 )
parser.add_argument(
'''--max_steps''' , default=-1 , type=__snake_case , help=(
'''If > 0: set total number of training steps to perform. Override num_train_epochs.'''
) , )
parser.add_argument(
'''--gradient_accumulation_steps''' , type=__snake_case , default=1 , help='''Number of updates steps to accumulate before performing a backward/update pass.''' , )
parser.add_argument('''--learning_rate''' , type=__snake_case , default=6.25e-5 )
parser.add_argument('''--warmup_steps''' , default=0 , type=__snake_case , help='''Linear warmup over warmup_steps.''' )
parser.add_argument('''--lr_schedule''' , type=__snake_case , default='''warmup_linear''' )
parser.add_argument('''--weight_decay''' , type=__snake_case , default=0.0_1 )
parser.add_argument('''--lm_coef''' , type=__snake_case , default=0.9 )
parser.add_argument('''--n_valid''' , type=__snake_case , default=374 )
parser.add_argument('''--server_ip''' , type=__snake_case , default='''''' , help='''Can be used for distant debugging.''' )
parser.add_argument('''--server_port''' , type=__snake_case , default='''''' , help='''Can be used for distant debugging.''' )
lowerCamelCase_ =parser.parse_args()
print(__snake_case )
if args.server_ip and args.server_port:
# Distant debugging - see https://code.visualstudio.com/docs/python/debugging#_attach-to-a-local-script
import ptvsd
print('''Waiting for debugger attach''' )
ptvsd.enable_attach(address=(args.server_ip, args.server_port) , redirect_output=__snake_case )
ptvsd.wait_for_attach()
random.seed(args.seed )
np.random.seed(args.seed )
torch.manual_seed(args.seed )
torch.cuda.manual_seed_all(args.seed )
lowerCamelCase_ =torch.device('''cuda''' if torch.cuda.is_available() else '''cpu''' )
lowerCamelCase_ =torch.cuda.device_count()
logger.info('''device: {}, n_gpu {}'''.format(__snake_case , __snake_case ) )
if not args.do_train and not args.do_eval:
raise ValueError('''At least one of `do_train` or `do_eval` must be True.''' )
if not os.path.exists(args.output_dir ):
os.makedirs(args.output_dir )
# Load tokenizer and model
# This loading functions also add new tokens and embeddings called `special tokens`
# These new embeddings will be fine-tuned on the RocStories dataset
lowerCamelCase_ =['''_start_''', '''_delimiter_''', '''_classify_''']
lowerCamelCase_ =OpenAIGPTTokenizer.from_pretrained(args.model_name )
tokenizer.add_tokens(__snake_case )
lowerCamelCase_ =tokenizer.convert_tokens_to_ids(__snake_case )
lowerCamelCase_ =OpenAIGPTDoubleHeadsModel.from_pretrained(args.model_name )
model.resize_token_embeddings(len(__snake_case ) )
model.to(__snake_case )
# Load and encode the datasets
def tokenize_and_encode(__snake_case : Union[str, Any] ):
if isinstance(__snake_case , __snake_case ):
return tokenizer.convert_tokens_to_ids(tokenizer.tokenize(__snake_case ) )
elif isinstance(__snake_case , __snake_case ):
return obj
return [tokenize_and_encode(__snake_case ) for o in obj]
logger.info('''Encoding dataset...''' )
lowerCamelCase_ =load_rocstories_dataset(args.train_dataset )
lowerCamelCase_ =load_rocstories_dataset(args.eval_dataset )
lowerCamelCase_ =(train_dataset, eval_dataset)
lowerCamelCase_ =tokenize_and_encode(__snake_case )
# Compute the max input length for the Transformer
lowerCamelCase_ =model.config.n_positions // 2 - 2
lowerCamelCase_ =max(
len(story[:max_length] ) + max(len(conta[:max_length] ) , len(conta[:max_length] ) ) + 3
for dataset in encoded_datasets
for story, conta, conta, _ in dataset )
lowerCamelCase_ =min(__snake_case , model.config.n_positions ) # Max size of input for the pre-trained model
# Prepare inputs tensors and dataloaders
lowerCamelCase_ =pre_process_datasets(__snake_case , __snake_case , __snake_case , *__snake_case )
lowerCamelCase_, lowerCamelCase_ =tensor_datasets[0], tensor_datasets[1]
lowerCamelCase_ =TensorDataset(*__snake_case )
lowerCamelCase_ =RandomSampler(__snake_case )
lowerCamelCase_ =DataLoader(__snake_case , sampler=__snake_case , batch_size=args.train_batch_size )
lowerCamelCase_ =TensorDataset(*__snake_case )
lowerCamelCase_ =SequentialSampler(__snake_case )
lowerCamelCase_ =DataLoader(__snake_case , sampler=__snake_case , batch_size=args.eval_batch_size )
# Prepare optimizer
if args.do_train:
if args.max_steps > 0:
lowerCamelCase_ =args.max_steps
lowerCamelCase_ =args.max_steps // (len(__snake_case ) // args.gradient_accumulation_steps) + 1
else:
lowerCamelCase_ =len(__snake_case ) // args.gradient_accumulation_steps * args.num_train_epochs
lowerCamelCase_ =list(model.named_parameters() )
lowerCamelCase_ =['''bias''', '''LayerNorm.bias''', '''LayerNorm.weight''']
lowerCamelCase_ =[
{
'''params''': [p for n, p in param_optimizer if not any(nd in n for nd in no_decay )],
'''weight_decay''': args.weight_decay,
},
{'''params''': [p for n, p in param_optimizer if any(nd in n for nd in no_decay )], '''weight_decay''': 0.0},
]
lowerCamelCase_ =AdamW(__snake_case , lr=args.learning_rate , eps=args.adam_epsilon )
lowerCamelCase_ =get_linear_schedule_with_warmup(
__snake_case , num_warmup_steps=args.warmup_steps , num_training_steps=__snake_case )
if args.do_train:
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =0, 0, None
model.train()
for _ in trange(int(args.num_train_epochs ) , desc='''Epoch''' ):
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =tqdm(__snake_case , desc='''Training''' )
for step, batch in enumerate(__snake_case ):
lowerCamelCase_ =tuple(t.to(__snake_case ) for t in batch )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =batch
lowerCamelCase_ =model(__snake_case , mc_token_ids=__snake_case , lm_labels=__snake_case , mc_labels=__snake_case )
lowerCamelCase_ =args.lm_coef * losses[0] + losses[1]
loss.backward()
optimizer.step()
scheduler.step()
optimizer.zero_grad()
tr_loss += loss.item()
lowerCamelCase_ =(
loss.item() if exp_average_loss is None else 0.7 * exp_average_loss + 0.3 * loss.item()
)
nb_tr_steps += 1
lowerCamelCase_ ='''Training loss: {:.2e} lr: {:.2e}'''.format(__snake_case , scheduler.get_lr()[0] )
# Save a trained model
if args.do_train:
# Save a trained model, configuration and tokenizer
lowerCamelCase_ =model.module if hasattr(__snake_case , '''module''' ) else model # Only save the model itself
# If we save using the predefined names, we can load using `from_pretrained`
lowerCamelCase_ =os.path.join(args.output_dir , __snake_case )
lowerCamelCase_ =os.path.join(args.output_dir , __snake_case )
torch.save(model_to_save.state_dict() , __snake_case )
model_to_save.config.to_json_file(__snake_case )
tokenizer.save_vocabulary(args.output_dir )
# Load a trained model and vocabulary that you have fine-tuned
lowerCamelCase_ =OpenAIGPTDoubleHeadsModel.from_pretrained(args.output_dir )
lowerCamelCase_ =OpenAIGPTTokenizer.from_pretrained(args.output_dir )
model.to(__snake_case )
if args.do_eval:
model.eval()
lowerCamelCase_, lowerCamelCase_ =0, 0
lowerCamelCase_, lowerCamelCase_ =0, 0
for batch in tqdm(__snake_case , desc='''Evaluating''' ):
lowerCamelCase_ =tuple(t.to(__snake_case ) for t in batch )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =batch
with torch.no_grad():
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =model(
__snake_case , mc_token_ids=__snake_case , lm_labels=__snake_case , mc_labels=__snake_case )
lowerCamelCase_ =mc_logits.detach().cpu().numpy()
lowerCamelCase_ =mc_labels.to('''cpu''' ).numpy()
lowerCamelCase_ =accuracy(__snake_case , __snake_case )
eval_loss += mc_loss.mean().item()
eval_accuracy += tmp_eval_accuracy
nb_eval_examples += input_ids.size(0 )
nb_eval_steps += 1
lowerCamelCase_ =eval_loss / nb_eval_steps
lowerCamelCase_ =eval_accuracy / nb_eval_examples
lowerCamelCase_ =tr_loss / nb_tr_steps if args.do_train else None
lowerCamelCase_ ={'''eval_loss''': eval_loss, '''eval_accuracy''': eval_accuracy, '''train_loss''': train_loss}
lowerCamelCase_ =os.path.join(args.output_dir , '''eval_results.txt''' )
with open(__snake_case , '''w''' ) as writer:
logger.info('''***** Eval results *****''' )
for key in sorted(result.keys() ):
logger.info(''' %s = %s''' , __snake_case , str(result[key] ) )
writer.write('''%s = %s\n''' % (key, str(result[key] )) )
if __name__ == "__main__":
main()
| 75 | 0 |
import gc
import random
import unittest
import numpy as np
import torch
from diffusers import DDIMScheduler, KandinskyVaaPipeline, KandinskyVaaPriorPipeline, UNetaDConditionModel, VQModel
from diffusers.utils import floats_tensor, 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_ ( _A , unittest.TestCase ):
'''simple docstring'''
a__ = KandinskyVaaPipeline
a__ = [
"""image_embeds""",
"""negative_image_embeds""",
]
a__ = ["""image_embeds""", """negative_image_embeds"""]
a__ = [
"""generator""",
"""height""",
"""width""",
"""latents""",
"""guidance_scale""",
"""num_inference_steps""",
"""return_dict""",
"""guidance_scale""",
"""num_images_per_prompt""",
"""output_type""",
"""return_dict""",
]
a__ = False
@property
def _lowercase ( self : Tuple ) -> str:
"""simple docstring"""
return 32
@property
def _lowercase ( self : int ) -> Tuple:
"""simple docstring"""
return 32
@property
def _lowercase ( self : Tuple ) -> List[Any]:
"""simple docstring"""
return self.time_input_dim
@property
def _lowercase ( self : Tuple ) -> Dict:
"""simple docstring"""
return self.time_input_dim * 4
@property
def _lowercase ( self : Optional[Any] ) -> Tuple:
"""simple docstring"""
return 100
@property
def _lowercase ( self : Any ) -> Dict:
"""simple docstring"""
torch.manual_seed(0 )
__magic_name__ = {
"""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,
}
__magic_name__ = UNetaDConditionModel(**UpperCamelCase__ )
return model
@property
def _lowercase ( self : List[Any] ) -> Tuple:
"""simple docstring"""
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 : Union[str, Any] ) -> Optional[int]:
"""simple docstring"""
torch.manual_seed(0 )
__magic_name__ = VQModel(**self.dummy_movq_kwargs )
return model
def _lowercase ( self : Dict ) -> Dict:
"""simple docstring"""
__magic_name__ = self.dummy_unet
__magic_name__ = self.dummy_movq
__magic_name__ = DDIMScheduler(
num_train_timesteps=1000 , beta_schedule="""linear""" , beta_start=0.00085 , beta_end=0.012 , clip_sample=UpperCamelCase__ , set_alpha_to_one=UpperCamelCase__ , steps_offset=1 , prediction_type="""epsilon""" , thresholding=UpperCamelCase__ , )
__magic_name__ = {
"""unet""": unet,
"""scheduler""": scheduler,
"""movq""": movq,
}
return components
def _lowercase ( self : Optional[Any] , UpperCamelCase__ : Union[str, Any] , UpperCamelCase__ : Any=0 ) -> List[str]:
"""simple docstring"""
__magic_name__ = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(UpperCamelCase__ ) ).to(UpperCamelCase__ )
__magic_name__ = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(seed + 1 ) ).to(
UpperCamelCase__ )
if str(UpperCamelCase__ ).startswith("""mps""" ):
__magic_name__ = torch.manual_seed(UpperCamelCase__ )
else:
__magic_name__ = torch.Generator(device=UpperCamelCase__ ).manual_seed(UpperCamelCase__ )
__magic_name__ = {
"""image_embeds""": image_embeds,
"""negative_image_embeds""": negative_image_embeds,
"""generator""": generator,
"""height""": 64,
"""width""": 64,
"""guidance_scale""": 4.0,
"""num_inference_steps""": 2,
"""output_type""": """np""",
}
return inputs
def _lowercase ( self : Optional[int] ) -> Any:
"""simple docstring"""
__magic_name__ = """cpu"""
__magic_name__ = self.get_dummy_components()
__magic_name__ = self.pipeline_class(**UpperCamelCase__ )
__magic_name__ = pipe.to(UpperCamelCase__ )
pipe.set_progress_bar_config(disable=UpperCamelCase__ )
__magic_name__ = pipe(**self.get_dummy_inputs(UpperCamelCase__ ) )
__magic_name__ = output.images
__magic_name__ = pipe(
**self.get_dummy_inputs(UpperCamelCase__ ) , return_dict=UpperCamelCase__ , )[0]
__magic_name__ = image[0, -3:, -3:, -1]
__magic_name__ = image_from_tuple[0, -3:, -3:, -1]
assert image.shape == (1, 64, 64, 3)
__magic_name__ = np.array(
[0.6237976, 1.0, 0.36441332, 1.0, 0.70639634, 0.29877186, 0.85652125, 0.5216843, 0.54454046] )
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 ):
'''simple docstring'''
def _lowercase ( self : List[Any] ) -> Optional[int]:
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def _lowercase ( self : Tuple ) -> Any:
"""simple docstring"""
__magic_name__ = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/kandinskyv22/kandinskyv22_text2img_cat_fp16.npy""" )
__magic_name__ = KandinskyVaaPriorPipeline.from_pretrained(
"""kandinsky-community/kandinsky-2-2-prior""" , torch_dtype=torch.floataa )
pipe_prior.to(UpperCamelCase__ )
__magic_name__ = KandinskyVaaPipeline.from_pretrained(
"""kandinsky-community/kandinsky-2-2-decoder""" , torch_dtype=torch.floataa )
__magic_name__ = pipeline.to(UpperCamelCase__ )
pipeline.set_progress_bar_config(disable=UpperCamelCase__ )
__magic_name__ = """red cat, 4k photo"""
__magic_name__ = torch.Generator(device="""cuda""" ).manual_seed(0 )
__magic_name__ , __magic_name__ = pipe_prior(
UpperCamelCase__ , generator=UpperCamelCase__ , num_inference_steps=5 , negative_prompt="""""" , ).to_tuple()
__magic_name__ = torch.Generator(device="""cuda""" ).manual_seed(0 )
__magic_name__ = pipeline(
image_embeds=UpperCamelCase__ , negative_image_embeds=UpperCamelCase__ , generator=UpperCamelCase__ , num_inference_steps=100 , output_type="""np""" , )
__magic_name__ = output.images[0]
assert image.shape == (512, 512, 3)
assert_mean_pixel_difference(UpperCamelCase__ , UpperCamelCase__ )
| 88 |
'''simple docstring'''
import copy
import os
import cva
import numpy as np
from matplotlib import pyplot as plt
class __UpperCamelCase :
def __init__( self ):
"""simple docstring"""
lowerCamelCase_ =''''''
lowerCamelCase_ =''''''
lowerCamelCase_ =[]
lowerCamelCase_ =0
lowerCamelCase_ =256
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =0
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =cva.imread(lowerCAmelCase, 0 )
lowerCamelCase_ =copy.deepcopy(self.img )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =plt.hist(self.img.ravel(), 256, [0, 256], label='''x''' )
lowerCamelCase_ =np.sum(lowerCAmelCase )
for i in range(len(lowerCAmelCase ) ):
lowerCamelCase_ =x[i] / self.k
self.sk += prk
lowerCamelCase_ =(self.L - 1) * self.sk
if self.rem != 0:
lowerCamelCase_ =int(last % last )
lowerCamelCase_ =int(last + 1 if self.rem >= 0.5 else last )
self.last_list.append(lowerCAmelCase )
lowerCamelCase_ =int(np.ma.count(self.img ) / self.img[1].size )
lowerCamelCase_ =self.img[1].size
for i in range(self.number_of_cols ):
for j in range(self.number_of_rows ):
lowerCamelCase_ =self.img[j][i]
if num != self.last_list[num]:
lowerCamelCase_ =self.last_list[num]
cva.imwrite('''output_data/output.jpg''', self.img )
def lowercase__ ( self ):
"""simple docstring"""
plt.hist(self.img.ravel(), 256, [0, 256] )
def lowercase__ ( self ):
"""simple docstring"""
cva.imshow('''Output-Image''', self.img )
cva.imshow('''Input-Image''', self.original_image )
cva.waitKey(5_000 )
cva.destroyAllWindows()
if __name__ == "__main__":
a_ : str = os.path.join(os.path.basename(__file__), """image_data/input.jpg""")
a_ : Optional[Any] = ConstantStretch()
stretcher.stretch(file_path)
stretcher.plot_histogram()
stretcher.show_image()
| 75 | 0 |
'''simple docstring'''
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import XLMRobertaTokenizerFast
from diffusers import DDIMScheduler, KandinskyImgaImgPipeline, KandinskyPriorPipeline, UNetaDConditionModel, VQModel
from diffusers.pipelines.kandinsky.text_encoder import MCLIPConfig, MultilingualCLIP
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 __magic_name__ ( _UpperCamelCase , unittest.TestCase ):
lowerCAmelCase : str = KandinskyImgaImgPipeline
lowerCAmelCase : List[Any] = ['prompt', 'image_embeds', 'negative_image_embeds', 'image']
lowerCAmelCase : List[str] = [
'prompt',
'negative_prompt',
'image_embeds',
'negative_image_embeds',
'image',
]
lowerCAmelCase : Union[str, Any] = [
'generator',
'height',
'width',
'strength',
'guidance_scale',
'negative_prompt',
'num_inference_steps',
'return_dict',
'guidance_scale',
'num_images_per_prompt',
'output_type',
'return_dict',
]
lowerCAmelCase : str = False
@property
def __lowercase ( self : str ):
return 32
@property
def __lowercase ( self : Union[str, Any] ):
return 32
@property
def __lowercase ( self : Optional[int] ):
return self.time_input_dim
@property
def __lowercase ( self : List[Any] ):
return self.time_input_dim * 4
@property
def __lowercase ( self : int ):
return 100
@property
def __lowercase ( self : Any ):
_a : Optional[Any] = XLMRobertaTokenizerFast.from_pretrained('YiYiXu/tiny-random-mclip-base' )
return tokenizer
@property
def __lowercase ( self : List[Any] ):
torch.manual_seed(0 )
_a : Union[str, Any] = MCLIPConfig(
numDims=self.cross_attention_dim ,transformerDimensions=self.text_embedder_hidden_size ,hidden_size=self.text_embedder_hidden_size ,intermediate_size=37 ,num_attention_heads=4 ,num_hidden_layers=5 ,vocab_size=1005 ,)
_a : int = MultilingualCLIP(_UpperCAmelCase )
_a : List[Any] = text_encoder.eval()
return text_encoder
@property
def __lowercase ( self : Optional[Any] ):
torch.manual_seed(0 )
_a : List[Any] = {
'in_channels': 4,
# Out channels is double in channels because predicts mean and variance
'out_channels': 8,
'addition_embed_type': 'text_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': 'text_image_proj',
'cross_attention_dim': self.cross_attention_dim,
'attention_head_dim': 4,
'resnet_time_scale_shift': 'scale_shift',
'class_embed_type': None,
}
_a : Union[str, Any] = UNetaDConditionModel(**_UpperCAmelCase )
return model
@property
def __lowercase ( self : Union[str, Any] ):
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 : Optional[int] ):
torch.manual_seed(0 )
_a : Any = VQModel(**self.dummy_movq_kwargs )
return model
def __lowercase ( self : int ):
_a : List[Any] = self.dummy_text_encoder
_a : Optional[int] = self.dummy_tokenizer
_a : List[Any] = self.dummy_unet
_a : Any = self.dummy_movq
_a : List[str] = {
'num_train_timesteps': 1000,
'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,
}
_a : List[str] = DDIMScheduler(**_UpperCAmelCase )
_a : Any = {
'text_encoder': text_encoder,
'tokenizer': tokenizer,
'unet': unet,
'scheduler': scheduler,
'movq': movq,
}
return components
def __lowercase ( self : Union[str, Any] ,_UpperCAmelCase : Dict ,_UpperCAmelCase : Optional[int]=0 ):
_a : Any = floats_tensor((1, self.cross_attention_dim) ,rng=random.Random(_UpperCAmelCase ) ).to(_UpperCAmelCase )
_a : Union[str, Any] = floats_tensor((1, self.cross_attention_dim) ,rng=random.Random(seed + 1 ) ).to(_UpperCAmelCase )
# create init_image
_a : Optional[int] = floats_tensor((1, 3, 64, 64) ,rng=random.Random(_UpperCAmelCase ) ).to(_UpperCAmelCase )
_a : Optional[int] = image.cpu().permute(0 ,2 ,3 ,1 )[0]
_a : Optional[int] = Image.fromarray(np.uinta(_UpperCAmelCase ) ).convert('RGB' ).resize((256, 256) )
if str(_UpperCAmelCase ).startswith('mps' ):
_a : Tuple = torch.manual_seed(_UpperCAmelCase )
else:
_a : int = torch.Generator(device=_UpperCAmelCase ).manual_seed(_UpperCAmelCase )
_a : List[Any] = {
'prompt': 'horse',
'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 : Union[str, Any] ):
_a : Any = 'cpu'
_a : List[Any] = self.get_dummy_components()
_a : Tuple = self.pipeline_class(**_UpperCAmelCase )
_a : Optional[Any] = pipe.to(_UpperCAmelCase )
pipe.set_progress_bar_config(disable=_UpperCAmelCase )
_a : Tuple = pipe(**self.get_dummy_inputs(_UpperCAmelCase ) )
_a : Union[str, Any] = output.images
_a : Any = pipe(
**self.get_dummy_inputs(_UpperCAmelCase ) ,return_dict=_UpperCAmelCase ,)[0]
_a : List[Any] = image[0, -3:, -3:, -1]
_a : int = image_from_tuple[0, -3:, -3:, -1]
assert image.shape == (1, 64, 64, 3)
_a : Tuple = np.array(
[0.61_47_49_43, 0.6_07_35_39, 0.43_30_85_44, 0.5_92_82_69, 0.47_49_35_95, 0.46_75_59_73, 0.4_61_38_38, 0.45_36_87_97, 0.50_11_92_33] )
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 __magic_name__ ( unittest.TestCase ):
def __lowercase ( self : str ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def __lowercase ( self : List[str] ):
_a : Optional[Any] = load_numpy(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main'
'/kandinsky/kandinsky_img2img_frog.npy' )
_a : Any = load_image(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main' '/kandinsky/cat.png' )
_a : Optional[int] = 'A red cartoon frog, 4k'
_a : List[Any] = KandinskyPriorPipeline.from_pretrained(
'kandinsky-community/kandinsky-2-1-prior' ,torch_dtype=torch.floataa )
pipe_prior.to(_UpperCAmelCase )
_a : List[Any] = KandinskyImgaImgPipeline.from_pretrained(
'kandinsky-community/kandinsky-2-1' ,torch_dtype=torch.floataa )
_a : List[Any] = pipeline.to(_UpperCAmelCase )
pipeline.set_progress_bar_config(disable=_UpperCAmelCase )
_a : Any = torch.Generator(device='cpu' ).manual_seed(0 )
_a , _a : Dict = pipe_prior(
_UpperCAmelCase ,generator=_UpperCAmelCase ,num_inference_steps=5 ,negative_prompt='' ,).to_tuple()
_a : int = pipeline(
_UpperCAmelCase ,image=_UpperCAmelCase ,image_embeds=_UpperCAmelCase ,negative_image_embeds=_UpperCAmelCase ,generator=_UpperCAmelCase ,num_inference_steps=100 ,height=768 ,width=768 ,strength=0.2 ,output_type='np' ,)
_a : str = output.images[0]
assert image.shape == (768, 768, 3)
assert_mean_pixel_difference(_UpperCAmelCase ,_UpperCAmelCase )
| 89 |
'''simple docstring'''
from collections import UserDict
from typing import Union
import numpy as np
import requests
from ..utils import (
add_end_docstrings,
logging,
)
from .audio_classification import ffmpeg_read
from .base import PIPELINE_INIT_ARGS, Pipeline
a_ : Any = logging.get_logger(__name__)
@add_end_docstrings(lowerCamelCase__ )
class __UpperCamelCase ( lowerCamelCase__ ):
def __init__( self, **lowerCAmelCase ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
if self.framework != "pt":
raise ValueError(f'''The {self.__class__} is only available in PyTorch.''' )
# No specific FOR_XXX available yet
def __call__( self, lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
return super().__call__(lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ ={}
if "candidate_labels" in kwargs:
lowerCamelCase_ =kwargs['''candidate_labels''']
if "hypothesis_template" in kwargs:
lowerCamelCase_ =kwargs['''hypothesis_template''']
return preprocess_params, {}, {}
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase=None, lowerCAmelCase="This is a sound of {}." ):
"""simple docstring"""
if isinstance(lowerCAmelCase, lowerCAmelCase ):
if audio.startswith('''http://''' ) or audio.startswith('''https://''' ):
# We need to actually check for a real protocol, otherwise it's impossible to use a local file
# like http_huggingface_co.png
lowerCamelCase_ =requests.get(lowerCAmelCase ).content
else:
with open(lowerCAmelCase, '''rb''' ) as f:
lowerCamelCase_ =f.read()
if isinstance(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =ffmpeg_read(lowerCAmelCase, self.feature_extractor.sampling_rate )
if not isinstance(lowerCAmelCase, np.ndarray ):
raise ValueError('''We expect a numpy ndarray as input''' )
if len(audio.shape ) != 1:
raise ValueError('''We expect a single channel audio input for ZeroShotAudioClassificationPipeline''' )
lowerCamelCase_ =self.feature_extractor(
[audio], sampling_rate=self.feature_extractor.sampling_rate, return_tensors='''pt''' )
lowerCamelCase_ =candidate_labels
lowerCamelCase_ =[hypothesis_template.format(lowerCAmelCase ) for x in candidate_labels]
lowerCamelCase_ =self.tokenizer(lowerCAmelCase, return_tensors=self.framework, padding=lowerCAmelCase )
lowerCamelCase_ =[text_inputs]
return inputs
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =model_inputs.pop('''candidate_labels''' )
lowerCamelCase_ =model_inputs.pop('''text_inputs''' )
if isinstance(text_inputs[0], lowerCAmelCase ):
lowerCamelCase_ =text_inputs[0]
else:
# Batching case.
lowerCamelCase_ =text_inputs[0][0]
lowerCamelCase_ =self.model(**lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ ={
'''candidate_labels''': candidate_labels,
'''logits''': outputs.logits_per_audio,
}
return model_outputs
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =model_outputs.pop('''candidate_labels''' )
lowerCamelCase_ =model_outputs['''logits'''][0]
if self.framework == "pt":
lowerCamelCase_ =logits.softmax(dim=0 )
lowerCamelCase_ =probs.tolist()
else:
raise ValueError('''`tf` framework not supported.''' )
lowerCamelCase_ =[
{'''score''': score, '''label''': candidate_label}
for score, candidate_label in sorted(zip(lowerCAmelCase, lowerCAmelCase ), key=lambda lowerCAmelCase : -x[0] )
]
return result
| 75 | 0 |
from math import factorial
def lowerCamelCase_ ( UpperCamelCase__ : int , UpperCamelCase__ : int , UpperCamelCase__ : float ) -> float:
"""simple docstring"""
if successes > trials:
raise ValueError('successes must be lower or equal to trials' )
if trials < 0 or successes < 0:
raise ValueError('the function is defined for non-negative integers' )
if not isinstance(UpperCamelCase__ , UpperCamelCase__ ) or not isinstance(UpperCamelCase__ , UpperCamelCase__ ):
raise ValueError('the function is defined for non-negative integers' )
if not 0 < prob < 1:
raise ValueError('prob has to be in range of 1 - 0' )
__lowerCamelCase = (prob**successes) * ((1 - prob) ** (trials - successes))
# Calculate the binomial coefficient: n! / k!(n-k)!
__lowerCamelCase = float(factorial(UpperCamelCase__ ) )
coefficient /= factorial(UpperCamelCase__ ) * factorial(trials - successes )
return probability * coefficient
if __name__ == "__main__":
from doctest import testmod
testmod()
print("Probability of 2 successes out of 4 trails")
print("with probability of 0.75 is:", end=" ")
print(binomial_distribution(2, 4, 0.7_5))
| 90 |
'''simple docstring'''
import unittest
from pathlib import Path
from shutil import copyfile
from transformers import SPIECE_UNDERLINE, is_sentencepiece_available
from transformers.models.speech_to_text import SpeechaTextTokenizer
from transformers.models.speech_to_text.tokenization_speech_to_text import VOCAB_FILES_NAMES, save_json
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
a_ : str = get_tests_dir("""fixtures/test_sentencepiece.model""")
if is_sentencepiece_available():
import sentencepiece as sp
a_ : Optional[Any] = 5
a_ : str = 10
@require_sentencepiece
@require_tokenizers
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : int =SpeechaTextTokenizer
lowercase : int =False
lowercase : List[str] =True
def lowercase__ ( self ):
"""simple docstring"""
super().setUp()
lowerCamelCase_ =sp.SentencePieceProcessor()
spm_model.Load(lowerCAmelCase )
lowerCamelCase_ =['''<s>''', '''<pad>''', '''</s>''', '''<unk>''']
vocab += [spm_model.IdToPiece(id_ ) for id_ in range(len(lowerCAmelCase ) )]
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ =Path(self.tmpdirname )
save_json(lowerCAmelCase, save_dir / VOCAB_FILES_NAMES['''vocab_file'''] )
if not (save_dir / VOCAB_FILES_NAMES["spm_file"]).exists():
copyfile(lowerCAmelCase, save_dir / VOCAB_FILES_NAMES['''spm_file'''] )
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(self.tmpdirname )
tokenizer.save_pretrained(self.tmpdirname )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''<pad>'''
lowerCamelCase_ =1
self.assertEqual(self.get_tokenizer()._convert_token_to_id(lowerCAmelCase ), lowerCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(lowerCAmelCase ), lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0], '''<s>''' )
self.assertEqual(vocab_keys[1], '''<pad>''' )
self.assertEqual(vocab_keys[-1], '''j''' )
self.assertEqual(len(lowerCAmelCase ), 1_001 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size, 1_001 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(self.tmpdirname )
lowerCamelCase_ =tokenizer.tokenize('''This is a test''' )
self.assertListEqual(lowerCAmelCase, ['''▁This''', '''▁is''', '''▁a''', '''▁t''', '''est'''] )
self.assertListEqual(
tokenizer.convert_tokens_to_ids(lowerCAmelCase ), [289, 50, 14, 174, 386], )
lowerCamelCase_ =tokenizer.tokenize('''I was born in 92000, and this is falsé.''' )
self.assertListEqual(
lowerCAmelCase, [SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''9''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''é''', '''.'''], )
lowerCamelCase_ =tokenizer.convert_tokens_to_ids(lowerCAmelCase )
self.assertListEqual(lowerCAmelCase, [12, 25, 88, 59, 28, 23, 11, 4, 606, 351, 351, 351, 7, 16, 70, 50, 76, 84, 10, 4, 8] )
lowerCamelCase_ =tokenizer.convert_ids_to_tokens(lowerCAmelCase )
self.assertListEqual(
lowerCAmelCase, [SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''<unk>''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''<unk>''', '''.'''], )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ={'''input_ids''': [[3_791, 797, 31, 11, 64, 797, 31, 2_429, 433, 12, 1_176, 12, 20, 786, 915, 142, 2_413, 240, 37, 3_238, 797, 31, 11, 35, 93, 915, 142, 2_413, 240, 37, 5_540, 567, 1_276, 93, 37, 610, 40, 62, 455, 657, 1_042, 123, 780, 177, 37, 309, 241, 1_298, 514, 20, 292, 2_737, 114, 2_469, 241, 85, 64, 302, 548, 528, 423, 4, 509, 406, 423, 37, 601, 4, 777, 302, 548, 528, 423, 284, 4, 3_388, 511, 459, 4, 3_555, 40, 321, 302, 705, 4, 3_388, 511, 583, 326, 5, 5, 5, 62, 3_310, 560, 177, 2_680, 217, 1_508, 32, 31, 853, 418, 64, 583, 511, 1_605, 62, 35, 93, 560, 177, 2_680, 217, 1_508, 1_521, 64, 583, 511, 519, 62, 20, 1_515, 764, 20, 149, 261, 5_625, 7_972, 20, 5_540, 567, 1_276, 93, 3_925, 1_675, 11, 15, 802, 7_972, 576, 217, 1_508, 11, 35, 93, 1_253, 2_441, 15, 289, 652, 31, 416, 321, 3_842, 115, 40, 911, 8, 476, 619, 4, 380, 142, 423, 335, 240, 35, 93, 264, 8, 11, 335, 569, 420, 163, 5, 2], [260, 548, 528, 423, 20, 451, 20, 2_681, 1_153, 3_434, 20, 5_540, 37, 567, 126, 1_253, 2_441, 3_376, 449, 210, 431, 1_563, 177, 767, 5_540, 11, 1_203, 472, 11, 2_953, 685, 285, 364, 706, 1_153, 20, 6_799, 20, 2_869, 20, 4_464, 126, 40, 2_429, 20, 1_040, 866, 2_664, 418, 20, 318, 20, 1_726, 186, 20, 265, 522, 35, 93, 2_191, 4_634, 20, 1_040, 12, 6_799, 15, 228, 2_356, 142, 31, 11, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [2_575, 2_666, 684, 1_582, 1_176, 12, 627, 149, 619, 20, 4_902, 563, 11, 20, 149, 261, 3_420, 2_356, 174, 142, 4_714, 131, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]], '''attention_mask''': [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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=lowerCAmelCase, model_name='''facebook/s2t-small-mustc-en-de-st''', revision='''a14f04cf0776c02f62a8cb800cf7909e15ea23ad''', )
@require_sentencepiece
class __UpperCamelCase ( unittest.TestCase ):
lowercase : Tuple ='valhalla/s2t_mustc_multilinguial_medium'
lowercase : Dict ='C\'est trop cool'
lowercase : str ='Esto es genial'
@classmethod
def lowercase__ ( cls ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(cls.checkpoint_name )
return cls
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.tokenizer.lang_code_to_id['''pt'''], 4 )
self.assertEqual(self.tokenizer.lang_code_to_id['''ru'''], 6 )
self.assertEqual(self.tokenizer.lang_code_to_id['''it'''], 9 )
self.assertEqual(self.tokenizer.lang_code_to_id['''de'''], 11 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.tokenizer.vocab_size, 10_000 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertIn(lowerCAmelCase, self.tokenizer.all_special_ids )
lowerCamelCase_ =[ES_CODE, 4, 1_601, 47, 7_647, 2]
lowerCamelCase_ =self.tokenizer.decode(lowerCAmelCase, skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =self.tokenizer.decode(generated_ids[1:], skip_special_tokens=lowerCAmelCase )
self.assertEqual(lowerCAmelCase, lowerCAmelCase )
self.assertNotIn(self.tokenizer.eos_token, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''fr'''
lowerCamelCase_ =self.tokenizer(self.french_text ).input_ids
self.assertEqual(encoded[0], lowerCAmelCase )
self.assertEqual(encoded[-1], self.tokenizer.eos_token_id )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''fr'''
self.assertListEqual(self.tokenizer.prefix_tokens, [FR_CODE] )
lowerCamelCase_ ='''es'''
self.assertListEqual(self.tokenizer.prefix_tokens, [ES_CODE] )
| 75 | 0 |
"""simple docstring"""
from __future__ import annotations
import math
import numpy as np
from numpy.linalg import norm
def _A (__a , __a ) -> float:
"""simple docstring"""
return math.sqrt(sum(pow(a - b , 2 ) for a, b in zip(__a , __a ) ) )
def _A (__a , __a ) -> list[list[list[float] | float]]:
"""simple docstring"""
if dataset.ndim != value_array.ndim:
SCREAMING_SNAKE_CASE_ : Tuple = (
'''Wrong input data\'s dimensions... '''
f'dataset : {dataset.ndim}, value_array : {value_array.ndim}'
)
raise ValueError(__a )
try:
if dataset.shape[1] != value_array.shape[1]:
SCREAMING_SNAKE_CASE_ : Any = (
'''Wrong input data\'s shape... '''
f'dataset : {dataset.shape[1]}, value_array : {value_array.shape[1]}'
)
raise ValueError(__a )
except IndexError:
if dataset.ndim != value_array.ndim:
raise TypeError('''Wrong shape''' )
if dataset.dtype != value_array.dtype:
SCREAMING_SNAKE_CASE_ : List[str] = (
'''Input data have different datatype... '''
f'dataset : {dataset.dtype}, value_array : {value_array.dtype}'
)
raise TypeError(__a )
SCREAMING_SNAKE_CASE_ : Any = []
for value in value_array:
SCREAMING_SNAKE_CASE_ : int = euclidean(__a , dataset[0] )
SCREAMING_SNAKE_CASE_ : List[str] = dataset[0].tolist()
for dataset_value in dataset[1:]:
SCREAMING_SNAKE_CASE_ : Optional[int] = euclidean(__a , __a )
if dist > temp_dist:
SCREAMING_SNAKE_CASE_ : Optional[int] = temp_dist
SCREAMING_SNAKE_CASE_ : int = dataset_value.tolist()
answer.append([vector, dist] )
return answer
def _A (__a , __a ) -> float:
"""simple docstring"""
return np.dot(__a , __a ) / (norm(__a ) * norm(__a ))
if __name__ == "__main__":
import doctest
doctest.testmod()
| 91 |
'''simple docstring'''
import argparse
import requests
import torch
# pip3 install salesforce-lavis
# I'm actually installing a slightly modified version: pip3 install git+https://github.com/nielsrogge/LAVIS.git@fix_lavis_float32 (there's also the fix_lavis branch)
# also note: to convert Vicuna checkpoints, we had to include /home/niels/python_projects/checkpoints/FastChat/vicuna-7b in lavis/configs/models/blip2/blip2_instruct_vicuna7b.yaml
# same for Vicuna-13b
from lavis.models import load_model_and_preprocess
from PIL import Image
from transformers import (
AutoTokenizer,
BlipImageProcessor,
InstructBlipConfig,
InstructBlipForConditionalGeneration,
InstructBlipProcessor,
InstructBlipQFormerConfig,
InstructBlipVisionConfig,
LlamaConfig,
LlamaTokenizerFast,
TaConfig,
TaTokenizerFast,
)
from transformers.utils.constants import OPENAI_CLIP_MEAN, OPENAI_CLIP_STD
def a_ ( ) -> Dict:
"""simple docstring"""
lowerCamelCase_ ='''https://raw.githubusercontent.com/salesforce/LAVIS/main/docs/_static/Confusing-Pictures.jpg'''
lowerCamelCase_ =Image.open(requests.get(__snake_case , stream=__snake_case ).raw ).convert('''RGB''' )
return image
def a_ ( __snake_case : Tuple ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =[]
# fmt: off
# vision encoder
rename_keys.append(('''visual_encoder.cls_token''', '''vision_model.embeddings.class_embedding''') )
rename_keys.append(('''visual_encoder.pos_embed''', '''vision_model.embeddings.position_embedding''') )
rename_keys.append(('''visual_encoder.patch_embed.proj.weight''', '''vision_model.embeddings.patch_embedding.weight''') )
rename_keys.append(('''visual_encoder.patch_embed.proj.bias''', '''vision_model.embeddings.patch_embedding.bias''') )
rename_keys.append(('''ln_vision.weight''', '''vision_model.post_layernorm.weight''') )
rename_keys.append(('''ln_vision.bias''', '''vision_model.post_layernorm.bias''') )
for i in range(config.vision_config.num_hidden_layers ):
rename_keys.append((F'''visual_encoder.blocks.{i}.norm1.weight''', F'''vision_model.encoder.layers.{i}.layer_norm1.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm1.bias''', F'''vision_model.encoder.layers.{i}.layer_norm1.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm2.weight''', F'''vision_model.encoder.layers.{i}.layer_norm2.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm2.bias''', F'''vision_model.encoder.layers.{i}.layer_norm2.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.qkv.weight''', F'''vision_model.encoder.layers.{i}.self_attn.qkv.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.proj.weight''', F'''vision_model.encoder.layers.{i}.self_attn.projection.weight''',) )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.proj.bias''', F'''vision_model.encoder.layers.{i}.self_attn.projection.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc1.weight''', F'''vision_model.encoder.layers.{i}.mlp.fc1.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc1.bias''', F'''vision_model.encoder.layers.{i}.mlp.fc1.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc2.weight''', F'''vision_model.encoder.layers.{i}.mlp.fc2.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc2.bias''', F'''vision_model.encoder.layers.{i}.mlp.fc2.bias''') )
# QFormer
rename_keys.append(('''Qformer.bert.embeddings.LayerNorm.weight''', '''qformer.embeddings.layernorm.weight''') )
rename_keys.append(('''Qformer.bert.embeddings.LayerNorm.bias''', '''qformer.embeddings.layernorm.bias''') )
# fmt: on
return rename_keys
def a_ ( __snake_case : Optional[Any] , __snake_case : List[str] , __snake_case : List[Any] ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =dct.pop(__snake_case )
lowerCamelCase_ =val
def a_ ( __snake_case : str , __snake_case : Optional[Any] ) -> Any:
"""simple docstring"""
for i in range(config.vision_config.num_hidden_layers ):
# read in original q and v biases
lowerCamelCase_ =state_dict.pop(F'''visual_encoder.blocks.{i}.attn.q_bias''' )
lowerCamelCase_ =state_dict.pop(F'''visual_encoder.blocks.{i}.attn.v_bias''' )
# next, set bias in the state dict
lowerCamelCase_ =torch.cat((q_bias, torch.zeros_like(__snake_case , requires_grad=__snake_case ), v_bias) )
lowerCamelCase_ =qkv_bias
def a_ ( __snake_case : List[str] ) -> Any:
"""simple docstring"""
lowerCamelCase_ =364 if '''coco''' in model_name else 224
lowerCamelCase_ =InstructBlipVisionConfig(image_size=__snake_case ).to_dict()
# make sure the models have proper bos_token_id and eos_token_id set (important for generation)
# seems like flan-T5 models don't have bos_token_id properly set?
if "t5-xl" in model_name:
lowerCamelCase_ =TaConfig.from_pretrained('''google/flan-t5-xl''' , dense_act_fn='''gelu''' , bos_token_id=1 ).to_dict()
elif "t5-xxl" in model_name:
lowerCamelCase_ =TaConfig.from_pretrained('''google/flan-t5-xxl''' , dense_act_fn='''gelu''' , bos_token_id=1 ).to_dict()
elif "vicuna-7b" in model_name:
lowerCamelCase_ =LlamaConfig.from_pretrained('''decapoda-research/llama-7b-hf''' , vocab_size=3_2001 ).to_dict()
elif "vicuna-13b" in model_name:
lowerCamelCase_ =LlamaConfig.from_pretrained('''decapoda-research/llama-13b-hf''' , vocab_size=3_2001 ).to_dict()
else:
raise ValueError('''Model name not supported''' )
# the authors add one special "[DEC]" token to the vocab of Q-Former, hence vocab size = 30522 + 1
lowerCamelCase_ =InstructBlipQFormerConfig(vocab_size=3_0523 ).to_dict()
lowerCamelCase_ =InstructBlipConfig(vision_config=__snake_case , text_config=__snake_case , qformer_config=__snake_case )
return config, image_size
@torch.no_grad()
def a_ ( __snake_case : Optional[int] , __snake_case : str=None , __snake_case : List[Any]=False ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ =AutoTokenizer.from_pretrained('''bert-base-uncased''' , truncation_side='''left''' )
qformer_tokenizer.add_special_tokens({'''bos_token''': '''[DEC]'''} )
if "t5" in model_name:
lowerCamelCase_ =TaTokenizerFast.from_pretrained('''google/flan-t5-xl''' , truncation_side='''left''' )
elif "vicuna" in model_name:
# the following was used in the original implementation:
# tokenizer = LlamaTokenizer.from_pretrained("huggyllama/llama-7b", use_fast=False, truncation_side="left")
# tokenizer.add_special_tokens({"pad_token": "[PAD]"})
# tokenizer.add_special_tokens({"bos_token": "</s>"})
# tokenizer.add_special_tokens({"eos_token": "</s>"})
# tokenizer.add_special_tokens({"unk_token": "</s>"})
lowerCamelCase_ =LlamaTokenizerFast.from_pretrained(
'''huggyllama/llama-7b''' , truncation_side='''left''' , bos_token='''</s>''' , unk_token='''</s>''' )
tokenizer.add_special_tokens({'''pad_token''': '''[PAD]'''} )
lowerCamelCase_, lowerCamelCase_ =get_blipa_config(__snake_case )
lowerCamelCase_ =InstructBlipForConditionalGeneration(__snake_case ).eval()
lowerCamelCase_ ={
'''instructblip-vicuna-7b''': ('''blip2_vicuna_instruct''', '''vicuna7b'''),
'''instructblip-vicuna-13b''': ('''blip2_vicuna_instruct''', '''vicuna13b'''),
'''instructblip-flan-t5-xl''': ('''blip2_t5_instruct''', '''flant5xl'''),
'''instructblip-flan-t5-xxl''': ('''blip2_t5_instruct''', '''flant5xxl'''),
}
lowerCamelCase_, lowerCamelCase_ =model_name_to_original[model_name]
# load original model
print('''Loading original model...''' )
lowerCamelCase_ ='''cuda:1''' if torch.cuda.is_available() else '''cpu'''
lowerCamelCase_ ='''cuda:2''' if torch.cuda.is_available() else '''cpu'''
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =load_model_and_preprocess(
name=__snake_case , model_type=__snake_case , is_eval=__snake_case , device=__snake_case )
original_model.eval()
print('''Done!''' )
# update state dict keys
lowerCamelCase_ =original_model.state_dict()
lowerCamelCase_ =create_rename_keys(__snake_case )
for src, dest in rename_keys:
rename_key(__snake_case , __snake_case , __snake_case )
# some keys can be renamed efficiently
for key, val in state_dict.copy().items():
lowerCamelCase_ =state_dict.pop(__snake_case )
if key.startswith('''Qformer.bert''' ):
lowerCamelCase_ =key.replace('''Qformer.bert''' , '''qformer''' )
if "attention.self" in key:
lowerCamelCase_ =key.replace('''self''' , '''attention''' )
if "llm_proj" in key:
lowerCamelCase_ =key.replace('''llm_proj''' , '''language_projection''' )
if "t5_proj" in key:
lowerCamelCase_ =key.replace('''t5_proj''' , '''language_projection''' )
if key.startswith('''llm_model''' ):
lowerCamelCase_ =key.replace('''llm_model''' , '''language_model''' )
if key.startswith('''t5''' ):
lowerCamelCase_ =key.replace('''t5''' , '''language''' )
lowerCamelCase_ =val
# read in qv biases
read_in_q_v_bias(__snake_case , __snake_case )
# note: weights get loaded in torch.float32 by default
hf_model.load_state_dict(__snake_case , strict=__snake_case )
lowerCamelCase_ =load_demo_image()
lowerCamelCase_ ='''What is unusual about this image?'''
# create processor
lowerCamelCase_ =BlipImageProcessor(
size={'''height''': image_size, '''width''': image_size} , image_mean=__snake_case , image_std=__snake_case )
lowerCamelCase_ =InstructBlipProcessor(
image_processor=__snake_case , tokenizer=__snake_case , qformer_tokenizer=__snake_case , )
lowerCamelCase_ =processor(images=__snake_case , text=__snake_case , return_tensors='''pt''' ).to(__snake_case )
# make sure processor creates exact same pixel values
lowerCamelCase_ =vis_processors['''eval'''](__snake_case ).unsqueeze(0 ).to(__snake_case )
lowerCamelCase_ =inputs.pixel_values
assert torch.allclose(original_pixel_values.to(pixel_values.device ) , __snake_case )
original_model.to(__snake_case )
hf_model.to(__snake_case )
with torch.no_grad():
if "vicuna" in model_name:
lowerCamelCase_ =original_model({'''image''': original_pixel_values, '''text_input''': [prompt]} ).logits
lowerCamelCase_ =hf_model(**__snake_case ).logits
else:
lowerCamelCase_ =original_model(
{'''image''': original_pixel_values, '''text_input''': [prompt], '''text_output''': ['''\n''']} ).logits
lowerCamelCase_ =tokenizer('''\n''' , return_tensors='''pt''' ).input_ids.to(__snake_case )
lowerCamelCase_ =label_input_ids.masked_fill(label_input_ids == tokenizer.pad_token_id , -100 )
lowerCamelCase_ =hf_model(**__snake_case , labels=__snake_case ).logits
print('''First values of original logits:''' , original_logits[0, :3, :3] )
print('''First values of HF logits:''' , logits[0, :3, :3] )
# assert values
assert original_logits.shape == logits.shape
lowerCamelCase_ =1e-4 if '''vicuna''' in model_name else 1e-5
assert torch.allclose(original_logits.to(logits.device ) , __snake_case , atol=__snake_case )
print('''Looks ok!''' )
print('''Generating with original model...''' )
lowerCamelCase_ =original_model.generate({'''image''': original_pixel_values, '''prompt''': prompt} , num_beams=5 )
# important: we need to cast the weights of the HF model to the appropriate type
print('''Generating with HF model...''' )
lowerCamelCase_ =hf_model.generate(
**__snake_case , do_sample=__snake_case , num_beams=5 , max_length=256 , min_length=1 , top_p=0.9 , repetition_penalty=1.5 , length_penalty=1.0 , temperature=1 , )
if "vicuna" in model_name:
# convert output id 0 to 2 (eos_token_id)
# TODO add this in the generate method?
lowerCamelCase_ =2
print('''Original generation:''' , __snake_case )
lowerCamelCase_ =processor.batch_decode(__snake_case , skip_special_tokens=__snake_case )
lowerCamelCase_ =[text.strip() for text in output_text]
print('''HF generation:''' , __snake_case )
if pytorch_dump_folder_path is not None:
processor.save_pretrained(__snake_case )
hf_model.save_pretrained(__snake_case )
if push_to_hub:
processor.push_to_hub(F'''Salesforce/{model_name}''' )
hf_model.push_to_hub(F'''Salesforce/{model_name}''' )
if __name__ == "__main__":
a_ : Any = argparse.ArgumentParser()
a_ : Any = [
"""instructblip-vicuna-7b""",
"""instructblip-vicuna-13b""",
"""instructblip-flan-t5-xl""",
"""instructblip-flan-t5-xxl""",
]
parser.add_argument(
"""--model_name""",
default="""instructblip-flan-t5-xl""",
choices=choices,
type=str,
help="""Path to hf config.json of model to convert""",
)
parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""")
parser.add_argument(
"""--push_to_hub""",
action="""store_true""",
help="""Whether to push the model and processor to the hub after converting""",
)
a_ : str = parser.parse_args()
convert_blipa_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.push_to_hub)
| 75 | 0 |
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,
is_valid_image,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
if is_vision_available():
import PIL
UpperCamelCase__ = logging.get_logger(__name__)
def _a ( SCREAMING_SNAKE_CASE_ : int ):
if isinstance(SCREAMING_SNAKE_CASE_ , (list, tuple) ) and isinstance(videos[0] , (list, tuple) ) and is_valid_image(videos[0][0] ):
return videos
elif isinstance(SCREAMING_SNAKE_CASE_ , (list, tuple) ) and is_valid_image(videos[0] ):
return [videos]
elif is_valid_image(SCREAMING_SNAKE_CASE_ ):
return [[videos]]
raise ValueError(F"""Could not make batched video from {videos}""" )
class a__ ( snake_case__ ):
_a : Tuple = ["""pixel_values"""]
def __init__( self , _A = True , _A = None , _A = PILImageResampling.BILINEAR , _A = True , _A = None , _A = True , _A = 1 / 2_5_5 , _A = True , _A = None , _A = None , **_A , ):
"""simple docstring"""
super().__init__(**_A )
__lowerCAmelCase = size if size is not None else {"shortest_edge": 2_2_4}
__lowerCAmelCase = get_size_dict(_A , default_to_square=_A )
__lowerCAmelCase = crop_size if crop_size is not None else {"height": 2_2_4, "width": 2_2_4}
__lowerCAmelCase = get_size_dict(_A , 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 = 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 __SCREAMING_SNAKE_CASE( self , _A , _A , _A = PILImageResampling.BILINEAR , _A = None , **_A , ):
"""simple docstring"""
__lowerCAmelCase = get_size_dict(_A , default_to_square=_A )
if "shortest_edge" in size:
__lowerCAmelCase = get_resize_output_image_size(_A , size["shortest_edge"] , default_to_square=_A )
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(_A , size=_A , resample=_A , data_format=_A , **_A )
def __SCREAMING_SNAKE_CASE( self , _A , _A , _A = None , **_A , ):
"""simple docstring"""
__lowerCAmelCase = get_size_dict(_A )
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(_A , size=(size["height"], size["width"]) , data_format=_A , **_A )
def __SCREAMING_SNAKE_CASE( self , _A , _A , _A = None , **_A , ):
"""simple docstring"""
return rescale(_A , scale=_A , data_format=_A , **_A )
def __SCREAMING_SNAKE_CASE( self , _A , _A , _A , _A = None , **_A , ):
"""simple docstring"""
return normalize(_A , mean=_A , std=_A , data_format=_A , **_A )
def __SCREAMING_SNAKE_CASE( self , _A , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = ChannelDimension.FIRST , ):
"""simple docstring"""
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." )
# All transformations expect numpy arrays.
__lowerCAmelCase = to_numpy_array(_A )
if do_resize:
__lowerCAmelCase = self.resize(image=_A , size=_A , resample=_A )
if do_center_crop:
__lowerCAmelCase = self.center_crop(_A , size=_A )
if do_rescale:
__lowerCAmelCase = self.rescale(image=_A , scale=_A )
if do_normalize:
__lowerCAmelCase = self.normalize(image=_A , mean=_A , std=_A )
__lowerCAmelCase = to_channel_dimension_format(_A , _A )
return image
def __SCREAMING_SNAKE_CASE( self , _A , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = None , _A = ChannelDimension.FIRST , **_A , ):
"""simple docstring"""
__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 = 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(_A , default_to_square=_A )
__lowerCAmelCase = crop_size if crop_size is not None else self.crop_size
__lowerCAmelCase = get_size_dict(_A , param_name="crop_size" )
if not valid_images(_A ):
raise ValueError(
"Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, "
"torch.Tensor, tf.Tensor or jax.ndarray." )
__lowerCAmelCase = make_batched(_A )
__lowerCAmelCase = [
[
self._preprocess_image(
image=_A , do_resize=_A , size=_A , resample=_A , do_center_crop=_A , crop_size=_A , do_rescale=_A , rescale_factor=_A , do_normalize=_A , image_mean=_A , image_std=_A , data_format=_A , )
for img in video
]
for video in videos
]
__lowerCAmelCase = {"pixel_values": videos}
return BatchFeature(data=_A , tensor_type=_A )
| 92 |
'''simple docstring'''
from __future__ import annotations
from math import pi
from typing import Protocol
import matplotlib.pyplot as plt
import numpy as np
class __UpperCamelCase ( lowerCamelCase__ ):
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
return 0.0
def a_ ( __snake_case : np.ndarray , __snake_case : int ) -> tuple[int | float, int | float]:
"""simple docstring"""
lowerCamelCase_ =min([-20, np.min(fft_results[1 : samplerate // 2 - 1] )] )
lowerCamelCase_ =max([20, np.max(fft_results[1 : samplerate // 2 - 1] )] )
return lowest, highest
def a_ ( __snake_case : FilterType , __snake_case : int ) -> None:
"""simple docstring"""
lowerCamelCase_ =512
lowerCamelCase_ =[1] + [0] * (size - 1)
lowerCamelCase_ =[filter_type.process(__snake_case ) for item in inputs]
lowerCamelCase_ =[0] * (samplerate - size) # zero-padding
outputs += filler
lowerCamelCase_ =np.abs(np.fft.fft(__snake_case ) )
lowerCamelCase_ =20 * np.logaa(__snake_case )
# Frequencies on log scale from 24 to nyquist frequency
plt.xlim(24 , samplerate / 2 - 1 )
plt.xlabel('''Frequency (Hz)''' )
plt.xscale('''log''' )
# Display within reasonable bounds
lowerCamelCase_ =get_bounds(__snake_case , __snake_case )
plt.ylim(max([-80, bounds[0]] ) , min([80, bounds[1]] ) )
plt.ylabel('''Gain (dB)''' )
plt.plot(__snake_case )
plt.show()
def a_ ( __snake_case : FilterType , __snake_case : int ) -> None:
"""simple docstring"""
lowerCamelCase_ =512
lowerCamelCase_ =[1] + [0] * (size - 1)
lowerCamelCase_ =[filter_type.process(__snake_case ) for item in inputs]
lowerCamelCase_ =[0] * (samplerate - size) # zero-padding
outputs += filler
lowerCamelCase_ =np.angle(np.fft.fft(__snake_case ) )
# Frequencies on log scale from 24 to nyquist frequency
plt.xlim(24 , samplerate / 2 - 1 )
plt.xlabel('''Frequency (Hz)''' )
plt.xscale('''log''' )
plt.ylim(-2 * pi , 2 * pi )
plt.ylabel('''Phase shift (Radians)''' )
plt.plot(np.unwrap(__snake_case , -2 * pi ) )
plt.show()
| 75 | 0 |
'''simple docstring'''
from typing import List, Optional, Union
import numpy as np
import PIL
import torch
from PIL import Image
from ...models import UNetaDConditionModel, VQModel
from ...pipelines import DiffusionPipeline
from ...pipelines.pipeline_utils import ImagePipelineOutput
from ...schedulers import DDPMScheduler
from ...utils import (
is_accelerate_available,
is_accelerate_version,
logging,
randn_tensor,
replace_example_docstring,
)
_lowercase : List[str] = logging.get_logger(__name__) # pylint: disable=invalid-name
_lowercase : str = "\n Examples:\n ```py\n >>> from diffusers import KandinskyV22Img2ImgPipeline, KandinskyV22PriorPipeline\n >>> from diffusers.utils import load_image\n >>> import torch\n\n >>> pipe_prior = KandinskyV22PriorPipeline.from_pretrained(\n ... \"kandinsky-community/kandinsky-2-2-prior\", torch_dtype=torch.float16\n ... )\n >>> pipe_prior.to(\"cuda\")\n\n >>> prompt = \"A red cartoon frog, 4k\"\n >>> image_emb, zero_image_emb = pipe_prior(prompt, return_dict=False)\n\n >>> pipe = KandinskyV22Img2ImgPipeline.from_pretrained(\n ... \"kandinsky-community/kandinsky-2-2-decoder\", torch_dtype=torch.float16\n ... )\n >>> pipe.to(\"cuda\")\n\n >>> init_image = load_image(\n ... \"https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main\"\n ... \"/kandinsky/frog.png\"\n ... )\n\n >>> image = pipe(\n ... image=init_image,\n ... image_embeds=image_emb,\n ... negative_image_embeds=zero_image_emb,\n ... height=768,\n ... width=768,\n ... num_inference_steps=100,\n ... strength=0.2,\n ... ).images\n\n >>> image[0].save(\"red_frog.png\")\n ```\n"
def snake_case_ ( __SCREAMING_SNAKE_CASE : Optional[Any] , __SCREAMING_SNAKE_CASE : Optional[int] , __SCREAMING_SNAKE_CASE : Optional[int]=8 ):
"""simple docstring"""
lowercase_ : Dict = height // scale_factor**2
if height % scale_factor**2 != 0:
new_height += 1
lowercase_ : int = width // scale_factor**2
if width % scale_factor**2 != 0:
new_width += 1
return new_height * scale_factor, new_width * scale_factor
def snake_case_ ( __SCREAMING_SNAKE_CASE : List[str] , __SCREAMING_SNAKE_CASE : Any=512 , __SCREAMING_SNAKE_CASE : Dict=512 ):
"""simple docstring"""
lowercase_ : str = pil_image.resize((w, h) , resample=Image.BICUBIC , reducing_gap=1 )
lowercase_ : Any = np.array(pil_image.convert('''RGB''' ) )
lowercase_ : List[str] = arr.astype(np.floataa ) / 127.5 - 1
lowercase_ : List[str] = np.transpose(__SCREAMING_SNAKE_CASE , [2, 0, 1] )
lowercase_ : Union[str, Any] = torch.from_numpy(__SCREAMING_SNAKE_CASE ).unsqueeze(0 )
return image
class lowerCAmelCase__ ( lowerCamelCase_ ):
def __init__( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , ):
"""simple docstring"""
super().__init__()
self.register_modules(
unet=__SCREAMING_SNAKE_CASE , scheduler=__SCREAMING_SNAKE_CASE , movq=__SCREAMING_SNAKE_CASE , )
lowercase_ : Optional[Any] = 2 ** (len(self.movq.config.block_out_channels ) - 1)
def _snake_case ( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ):
"""simple docstring"""
lowercase_ : Optional[int] = min(int(num_inference_steps * strength ) , __SCREAMING_SNAKE_CASE )
lowercase_ : Optional[Any] = max(num_inference_steps - init_timestep , 0 )
lowercase_ : Tuple = self.scheduler.timesteps[t_start:]
return timesteps, num_inference_steps - t_start
def _snake_case ( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE=None ):
"""simple docstring"""
if not isinstance(__SCREAMING_SNAKE_CASE , (torch.Tensor, PIL.Image.Image, list) ):
raise ValueError(
F'''`image` has to be of type `torch.Tensor`, `PIL.Image.Image` or list but is {type(__SCREAMING_SNAKE_CASE )}''' )
lowercase_ : Union[str, Any] = image.to(device=__SCREAMING_SNAKE_CASE , dtype=__SCREAMING_SNAKE_CASE )
lowercase_ : Optional[int] = batch_size * num_images_per_prompt
if image.shape[1] == 4:
lowercase_ : Tuple = image
else:
if isinstance(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) and len(__SCREAMING_SNAKE_CASE ) != batch_size:
raise ValueError(
F'''You have passed a list of generators of length {len(__SCREAMING_SNAKE_CASE )}, but requested an effective batch'''
F''' size of {batch_size}. Make sure the batch size matches the length of the generators.''' )
elif isinstance(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ):
lowercase_ : Tuple = [
self.movq.encode(image[i : i + 1] ).latent_dist.sample(generator[i] ) for i in range(__SCREAMING_SNAKE_CASE )
]
lowercase_ : Any = torch.cat(__SCREAMING_SNAKE_CASE , dim=0 )
else:
lowercase_ : List[Any] = self.movq.encode(__SCREAMING_SNAKE_CASE ).latent_dist.sample(__SCREAMING_SNAKE_CASE )
lowercase_ : Dict = self.movq.config.scaling_factor * init_latents
lowercase_ : List[Any] = torch.cat([init_latents] , dim=0 )
lowercase_ : List[Any] = init_latents.shape
lowercase_ : str = randn_tensor(__SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , device=__SCREAMING_SNAKE_CASE , dtype=__SCREAMING_SNAKE_CASE )
# get latents
lowercase_ : str = self.scheduler.add_noise(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE )
lowercase_ : Any = init_latents
return latents
def _snake_case ( self , __SCREAMING_SNAKE_CASE=0 ):
"""simple docstring"""
if is_accelerate_available():
from accelerate import cpu_offload
else:
raise ImportError('''Please install accelerate via `pip install accelerate`''' )
lowercase_ : Tuple = torch.device(F'''cuda:{gpu_id}''' )
lowercase_ : str = [
self.unet,
self.movq,
]
for cpu_offloaded_model in models:
if cpu_offloaded_model is not None:
cpu_offload(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE )
def _snake_case ( self , __SCREAMING_SNAKE_CASE=0 ):
"""simple docstring"""
if is_accelerate_available() and is_accelerate_version('''>=''' , '''0.17.0.dev0''' ):
from accelerate import cpu_offload_with_hook
else:
raise ImportError('''`enable_model_cpu_offload` requires `accelerate v0.17.0` or higher.''' )
lowercase_ : str = torch.device(F'''cuda:{gpu_id}''' )
if self.device.type != "cpu":
self.to('''cpu''' , silence_dtype_warnings=__SCREAMING_SNAKE_CASE )
torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist)
lowercase_ : str = None
for cpu_offloaded_model in [self.unet, self.movq]:
lowercase_ , lowercase_ : Optional[int] = cpu_offload_with_hook(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , prev_module_hook=__SCREAMING_SNAKE_CASE )
# We'll offload the last model manually.
lowercase_ : Any = hook
@property
# Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device
def _snake_case ( self ):
"""simple docstring"""
if not hasattr(self.unet , '''_hf_hook''' ):
return self.device
for module in self.unet.modules():
if (
hasattr(__SCREAMING_SNAKE_CASE , '''_hf_hook''' )
and hasattr(module._hf_hook , '''execution_device''' )
and module._hf_hook.execution_device is not None
):
return torch.device(module._hf_hook.execution_device )
return self.device
@torch.no_grad()
@replace_example_docstring(__SCREAMING_SNAKE_CASE )
def __call__( self , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE = 5_12 , __SCREAMING_SNAKE_CASE = 5_12 , __SCREAMING_SNAKE_CASE = 1_00 , __SCREAMING_SNAKE_CASE = 4.0 , __SCREAMING_SNAKE_CASE = 0.3 , __SCREAMING_SNAKE_CASE = 1 , __SCREAMING_SNAKE_CASE = None , __SCREAMING_SNAKE_CASE = "pil" , __SCREAMING_SNAKE_CASE = True , ):
"""simple docstring"""
lowercase_ : Tuple = self._execution_device
lowercase_ : str = guidance_scale > 1.0
if isinstance(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ):
lowercase_ : str = torch.cat(__SCREAMING_SNAKE_CASE , dim=0 )
lowercase_ : Union[str, Any] = image_embeds.shape[0]
if isinstance(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ):
lowercase_ : str = torch.cat(__SCREAMING_SNAKE_CASE , dim=0 )
if do_classifier_free_guidance:
lowercase_ : List[Any] = image_embeds.repeat_interleave(__SCREAMING_SNAKE_CASE , dim=0 )
lowercase_ : Optional[Any] = negative_image_embeds.repeat_interleave(__SCREAMING_SNAKE_CASE , dim=0 )
lowercase_ : Union[str, Any] = torch.cat([negative_image_embeds, image_embeds] , dim=0 ).to(dtype=self.unet.dtype , device=__SCREAMING_SNAKE_CASE )
if not isinstance(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ):
lowercase_ : Dict = [image]
if not all(isinstance(__SCREAMING_SNAKE_CASE , (PIL.Image.Image, torch.Tensor) ) for i in image ):
raise ValueError(
F'''Input is in incorrect format: {[type(__SCREAMING_SNAKE_CASE ) for i in image]}. Currently, we only support PIL image and pytorch tensor''' )
lowercase_ : Any = torch.cat([prepare_image(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE ) for i in image] , dim=0 )
lowercase_ : Optional[Any] = image.to(dtype=image_embeds.dtype , device=__SCREAMING_SNAKE_CASE )
lowercase_ : List[str] = self.movq.encode(__SCREAMING_SNAKE_CASE )['''latents''']
lowercase_ : List[Any] = latents.repeat_interleave(__SCREAMING_SNAKE_CASE , dim=0 )
self.scheduler.set_timesteps(__SCREAMING_SNAKE_CASE , device=__SCREAMING_SNAKE_CASE )
lowercase_ , lowercase_ : List[str] = self.get_timesteps(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE )
lowercase_ : List[Any] = timesteps[:1].repeat(batch_size * num_images_per_prompt )
lowercase_ , lowercase_ : Optional[Any] = downscale_height_and_width(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , self.movq_scale_factor )
lowercase_ : Tuple = self.prepare_latents(
__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , image_embeds.dtype , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE )
for i, t in enumerate(self.progress_bar(__SCREAMING_SNAKE_CASE ) ):
# expand the latents if we are doing classifier free guidance
lowercase_ : List[Any] = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents
lowercase_ : Optional[int] = {'''image_embeds''': image_embeds}
lowercase_ : List[Any] = self.unet(
sample=__SCREAMING_SNAKE_CASE , timestep=__SCREAMING_SNAKE_CASE , encoder_hidden_states=__SCREAMING_SNAKE_CASE , added_cond_kwargs=__SCREAMING_SNAKE_CASE , return_dict=__SCREAMING_SNAKE_CASE , )[0]
if do_classifier_free_guidance:
lowercase_ , lowercase_ : List[Any] = noise_pred.split(latents.shape[1] , dim=1 )
lowercase_ , lowercase_ : str = noise_pred.chunk(2 )
lowercase_ , lowercase_ : Optional[int] = variance_pred.chunk(2 )
lowercase_ : Union[str, Any] = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
lowercase_ : Dict = torch.cat([noise_pred, variance_pred_text] , dim=1 )
if not (
hasattr(self.scheduler.config , '''variance_type''' )
and self.scheduler.config.variance_type in ["learned", "learned_range"]
):
lowercase_ , lowercase_ : str = noise_pred.split(latents.shape[1] , dim=1 )
# compute the previous noisy sample x_t -> x_t-1
lowercase_ : Tuple = self.scheduler.step(
__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , )[0]
# post-processing
lowercase_ : Optional[int] = self.movq.decode(__SCREAMING_SNAKE_CASE , force_not_quantize=__SCREAMING_SNAKE_CASE )['''sample''']
if output_type not in ["pt", "np", "pil"]:
raise ValueError(F'''Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}''' )
if output_type in ["np", "pil"]:
lowercase_ : Tuple = image * 0.5 + 0.5
lowercase_ : int = image.clamp(0 , 1 )
lowercase_ : Any = image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy()
if output_type == "pil":
lowercase_ : Optional[Any] = self.numpy_to_pil(__SCREAMING_SNAKE_CASE )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=__SCREAMING_SNAKE_CASE )
| 93 |
'''simple docstring'''
import os
import unittest
from transformers import FunnelTokenizer, FunnelTokenizerFast
from transformers.models.funnel.tokenization_funnel import VOCAB_FILES_NAMES
from transformers.testing_utils import require_tokenizers
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : Union[str, Any] =FunnelTokenizer
lowercase : List[str] =FunnelTokenizerFast
lowercase : Union[str, Any] =True
lowercase : int =True
def lowercase__ ( self ):
"""simple docstring"""
super().setUp()
lowerCamelCase_ =[
'''<unk>''',
'''<cls>''',
'''<sep>''',
'''want''',
'''##want''',
'''##ed''',
'''wa''',
'''un''',
'''runn''',
'''##ing''',
''',''',
'''low''',
'''lowest''',
]
lowerCamelCase_ =os.path.join(self.tmpdirname, VOCAB_FILES_NAMES['''vocab_file'''] )
with open(self.vocab_file, '''w''', encoding='''utf-8''' ) as vocab_writer:
vocab_writer.write(''''''.join([x + '''\n''' for x in vocab_tokens] ) )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return FunnelTokenizer.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return FunnelTokenizerFast.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ ='''UNwant\u00E9d,running'''
lowerCamelCase_ ='''unwanted, running'''
return input_text, output_text
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.tokenizer_class(self.vocab_file )
lowerCamelCase_ =tokenizer.tokenize('''UNwant\u00E9d,running''' )
self.assertListEqual(lowerCAmelCase, ['''un''', '''##want''', '''##ed''', ''',''', '''runn''', '''##ing'''] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(lowerCAmelCase ), [7, 4, 5, 10, 8, 9] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizers(do_lower_case=lowerCAmelCase )
for tokenizer in tokenizers:
lowerCamelCase_ =tokenizer('''UNwant\u00E9d,running''' )
lowerCamelCase_ =len(inputs['''input_ids'''] ) - 1
self.assertListEqual(inputs['''token_type_ids'''], [2] + [0] * sentence_len )
lowerCamelCase_ =tokenizer('''UNwant\u00E9d,running''', '''UNwant\u00E9d,running''' )
self.assertListEqual(inputs['''token_type_ids'''], [2] + [0] * sentence_len + [1] * sentence_len )
| 75 | 0 |
from __future__ import annotations
from random import random
class _snake_case :
def __init__( self , _lowerCamelCase = None ):
a :List[Any] = value
a :int = random()
a :Node | None = None
a :Node | None = None
def __repr__( self ):
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 ):
a :Union[str, Any] = str(self.value ) + ''' '''
a :Union[str, Any] = str(self.left or '''''' )
a :Optional[Any] = str(self.right or '''''' )
return value + left + right
def __lowerCamelCase ( UpperCAmelCase_ : Node | None , UpperCAmelCase_ : int ):
"""simple docstring"""
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:
a , a :int = split(root.left , UpperCAmelCase_ )
return left, root
else:
a , a :Tuple = split(root.right , UpperCAmelCase_ )
return root, right
def __lowerCamelCase ( UpperCAmelCase_ : Node | None , UpperCAmelCase_ : Node | None ):
"""simple docstring"""
if (not left) or (not right): # If one node is None, return the other
return left or right
elif left.prior < right.prior:
a :List[str] = merge(left.right , UpperCAmelCase_ )
return left
else:
a :str = merge(UpperCAmelCase_ , right.left )
return right
def __lowerCamelCase ( UpperCAmelCase_ : Node | None , UpperCAmelCase_ : int ):
"""simple docstring"""
a :Union[str, Any] = Node(UpperCAmelCase_ )
a , a :Dict = split(UpperCAmelCase_ , UpperCAmelCase_ )
return merge(merge(UpperCAmelCase_ , UpperCAmelCase_ ) , UpperCAmelCase_ )
def __lowerCamelCase ( UpperCAmelCase_ : Node | None , UpperCAmelCase_ : int ):
"""simple docstring"""
a , a :List[Any] = split(UpperCAmelCase_ , value - 1 )
a , a :Optional[int] = split(UpperCAmelCase_ , UpperCAmelCase_ )
return merge(UpperCAmelCase_ , UpperCAmelCase_ )
def __lowerCamelCase ( UpperCAmelCase_ : Node | None ):
"""simple docstring"""
if not root: # None
return
else:
inorder(root.left )
print(root.value , end=''',''' )
inorder(root.right )
def __lowerCamelCase ( UpperCAmelCase_ : Node | None , UpperCAmelCase_ : str ):
"""simple docstring"""
for arg in args.split():
if arg[0] == "+":
a :Dict = insert(UpperCAmelCase_ , int(arg[1:] ) )
elif arg[0] == "-":
a :List[Any] = erase(UpperCAmelCase_ , int(arg[1:] ) )
else:
print('''Unknown command''' )
return root
def __lowerCamelCase ( ):
"""simple docstring"""
a :int = None
print(
'''enter numbers to create a tree, + value to add value into treap, '''
'''- value to erase all nodes with value. \'q\' to quit. ''' )
a :Union[str, Any] = input()
while args != "q":
a :int = interact_treap(UpperCAmelCase_ , UpperCAmelCase_ )
print(UpperCAmelCase_ )
a :Optional[int] = input()
print('''good by!''' )
if __name__ == "__main__":
import doctest
doctest.testmod()
main()
| 94 |
'''simple docstring'''
import argparse
import os
import re
import torch
from flax.traverse_util import flatten_dict
from tax import checkpoints
from transformers import (
AutoTokenizer,
PixaStructConfig,
PixaStructForConditionalGeneration,
PixaStructImageProcessor,
PixaStructProcessor,
PixaStructTextConfig,
PixaStructVisionConfig,
)
def a_ ( __snake_case : Any ) -> int:
"""simple docstring"""
lowerCamelCase_ =checkpoints.load_tax_checkpoint(__snake_case )
lowerCamelCase_ =flatten_dict(__snake_case )
return flax_params
def a_ ( __snake_case : Dict ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ ={}
lowerCamelCase_ ={
'''token_embedder''': '''embeddings''',
'''encoder_norm''': '''layernorm''',
'''kernel''': '''weight''',
'''.out''': '''.output''',
'''scale''': '''weight''',
'''embedders_0.pos_embedding''': '''row_embedder.weight''',
'''embedders_1.pos_embedding''': '''column_embedder.weight''',
}
lowerCamelCase_ ={
'''query''': '''attention.query''',
'''key''': '''attention.key''',
'''value''': '''attention.value''',
'''output.dense''': '''output''',
'''encoder_decoder_attention.o''': '''encoder_decoder_attention.attention.o''',
'''pre_self_attention_layer_norm''': '''self_attention.layer_norm''',
'''pre_cross_attention_layer_norm''': '''encoder_decoder_attention.layer_norm''',
'''mlp.''': '''mlp.DenseReluDense.''',
'''pre_mlp_layer_norm''': '''mlp.layer_norm''',
'''self_attention.o''': '''self_attention.attention.o''',
'''decoder.embeddings.embedding''': '''decoder.embed_tokens.weight''',
'''decoder.relpos_bias.rel_embedding''': '''decoder.layer.0.self_attention.attention.relative_attention_bias.weight''',
'''decoder.decoder_norm.weight''': '''decoder.final_layer_norm.weight''',
'''decoder.logits_dense.weight''': '''decoder.lm_head.weight''',
}
for key in flax_dict.keys():
if "target" in key:
# remove the first prefix from the key
lowerCamelCase_ ='''.'''.join(key[1:] )
# rename the key
for old, new in CONVERSION_MAPPING.items():
lowerCamelCase_ =new_key.replace(__snake_case , __snake_case )
if "decoder" in new_key:
for old, new in DECODER_CONVERSION_MAPPING.items():
lowerCamelCase_ =new_key.replace(__snake_case , __snake_case )
if "layers" in new_key and "decoder" not in new_key:
# use regex to replace the layer number
lowerCamelCase_ =re.sub(r'''layers_(\d+)''' , r'''layer.\1''' , __snake_case )
lowerCamelCase_ =new_key.replace('''encoder''' , '''encoder.encoder''' )
elif "layers" in new_key and "decoder" in new_key:
# use regex to replace the layer number
lowerCamelCase_ =re.sub(r'''layers_(\d+)''' , r'''layer.\1''' , __snake_case )
lowerCamelCase_ =flax_dict[key]
lowerCamelCase_ ={}
# convert converted_dict into torch format
for key in converted_dict.keys():
if ("embed_tokens" not in key) and ("embedder" not in key):
lowerCamelCase_ =torch.from_numpy(converted_dict[key].T )
else:
lowerCamelCase_ =torch.from_numpy(converted_dict[key] )
return converted_torch_dict
def a_ ( __snake_case : Optional[Any] , __snake_case : List[str] , __snake_case : Any=False , __snake_case : Optional[int]=False ) -> Union[str, Any]:
"""simple docstring"""
lowerCamelCase_ =get_flax_param(__snake_case )
if not use_large:
lowerCamelCase_ =PixaStructVisionConfig()
lowerCamelCase_ =PixaStructTextConfig()
else:
lowerCamelCase_ =PixaStructVisionConfig(
hidden_size=1536 , d_ff=3968 , num_attention_heads=24 , num_hidden_layers=18 )
lowerCamelCase_ =PixaStructTextConfig(hidden_size=1536 , d_ff=3968 , num_heads=24 , num_layers=18 )
lowerCamelCase_ =PixaStructConfig(
vision_config=encoder_config.to_dict() , text_config=decoder_config.to_dict() , is_vqa=__snake_case )
lowerCamelCase_ =PixaStructForConditionalGeneration(__snake_case )
lowerCamelCase_ =rename_and_convert_flax_params(__snake_case )
model.load_state_dict(__snake_case )
lowerCamelCase_ =AutoTokenizer.from_pretrained('''ybelkada/test-pix2struct-tokenizer''' )
lowerCamelCase_ =PixaStructImageProcessor()
lowerCamelCase_ =PixaStructProcessor(image_processor=__snake_case , tokenizer=__snake_case )
if use_large:
lowerCamelCase_ =4096
lowerCamelCase_ =True
# mkdir if needed
os.makedirs(__snake_case , exist_ok=__snake_case )
model.save_pretrained(__snake_case )
processor.save_pretrained(__snake_case )
print('''Model saved in {}'''.format(__snake_case ) )
if __name__ == "__main__":
a_ : Optional[int] = argparse.ArgumentParser()
parser.add_argument("""--t5x_checkpoint_path""", default=None, type=str, help="""Path to the original T5x checkpoint.""")
parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""")
parser.add_argument("""--use_large""", action="""store_true""", help="""Use large model.""")
parser.add_argument("""--is_vqa""", action="""store_true""", help="""Use large model.""")
a_ : Tuple = parser.parse_args()
convert_pixastruct_original_pytorch_checkpoint_to_hf(
args.tax_checkpoint_path, args.pytorch_dump_folder_path, args.use_large
)
| 75 | 0 |
import warnings
from ...utils import logging
from .image_processing_clip import CLIPImageProcessor
UpperCAmelCase : Union[str, Any] = logging.get_logger(__name__)
class __lowerCAmelCase ( UpperCamelCase__):
def __init__( self , *lowerCAmelCase__ , **lowerCAmelCase__ ) -> None:
'''simple docstring'''
warnings.warn(
"The class CLIPFeatureExtractor is deprecated and will be removed in version 5 of Transformers. Please"
" use CLIPImageProcessor instead." , lowerCAmelCase__ , )
super().__init__(*lowerCAmelCase__ , **lowerCAmelCase__ )
| 95 |
'''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,
convert_to_rgb,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
OPENAI_CLIP_MEAN,
OPENAI_CLIP_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
a_ : Union[str, Any] = logging.get_logger(__name__)
if is_vision_available():
import PIL
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : Tuple =['pixel_values']
def __init__( self, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = PILImageResampling.BICUBIC, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = True, lowerCAmelCase = 1 / 255, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = True, **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
lowerCamelCase_ =size if size is not None else {'''shortest_edge''': 224}
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase )
lowerCamelCase_ =crop_size if crop_size is not None else {'''height''': 224, '''width''': 224}
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase, param_name='''crop_size''' )
lowerCamelCase_ =do_resize
lowerCamelCase_ =size
lowerCamelCase_ =resample
lowerCamelCase_ =do_center_crop
lowerCamelCase_ =crop_size
lowerCamelCase_ =do_rescale
lowerCamelCase_ =rescale_factor
lowerCamelCase_ =do_normalize
lowerCamelCase_ =image_mean if image_mean is not None else OPENAI_CLIP_MEAN
lowerCamelCase_ =image_std if image_std is not None else OPENAI_CLIP_STD
lowerCamelCase_ =do_convert_rgb
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = PILImageResampling.BICUBIC, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase )
if "shortest_edge" not in size:
raise ValueError(f'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' )
lowerCamelCase_ =get_resize_output_image_size(lowerCAmelCase, size=size['''shortest_edge'''], default_to_square=lowerCAmelCase )
return resize(lowerCAmelCase, size=lowerCAmelCase, resample=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =get_size_dict(lowerCAmelCase )
if "height" not in size or "width" not in size:
raise ValueError(f'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' )
return center_crop(lowerCAmelCase, size=(size['''height'''], size['''width''']), data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
return rescale(lowerCAmelCase, scale=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
return normalize(lowerCAmelCase, mean=lowerCAmelCase, std=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = ChannelDimension.FIRST, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =do_resize if do_resize is not None else self.do_resize
lowerCamelCase_ =size if size is not None else self.size
lowerCamelCase_ =get_size_dict(lowerCAmelCase, param_name='''size''', default_to_square=lowerCAmelCase )
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_ =crop_size if crop_size is not None else self.crop_size
lowerCamelCase_ =get_size_dict(lowerCAmelCase, param_name='''crop_size''', default_to_square=lowerCAmelCase )
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_ =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_ =do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb
lowerCamelCase_ =make_list_of_images(lowerCAmelCase )
if not valid_images(lowerCAmelCase ):
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.''' )
# PIL RGBA images are converted to RGB
if do_convert_rgb:
lowerCamelCase_ =[convert_to_rgb(lowerCAmelCase ) for image in images]
# All transformations expect numpy arrays.
lowerCamelCase_ =[to_numpy_array(lowerCAmelCase ) for image in images]
if do_resize:
lowerCamelCase_ =[self.resize(image=lowerCAmelCase, size=lowerCAmelCase, resample=lowerCAmelCase ) for image in images]
if do_center_crop:
lowerCamelCase_ =[self.center_crop(image=lowerCAmelCase, size=lowerCAmelCase ) for image in images]
if do_rescale:
lowerCamelCase_ =[self.rescale(image=lowerCAmelCase, scale=lowerCAmelCase ) for image in images]
if do_normalize:
lowerCamelCase_ =[self.normalize(image=lowerCAmelCase, mean=lowerCAmelCase, std=lowerCAmelCase ) for image in images]
lowerCamelCase_ =[to_channel_dimension_format(lowerCAmelCase, lowerCAmelCase ) for image in images]
lowerCamelCase_ ={'''pixel_values''': images}
return BatchFeature(data=lowerCAmelCase, tensor_type=lowerCAmelCase )
| 75 | 0 |
"""simple docstring"""
def _snake_case ( lowercase__ , lowercase__ , lowercase__ , lowercase__ ):
if height >= 1:
move_tower(height - 1 , lowercase__ , lowercase__ , lowercase__ )
move_disk(lowercase__ , lowercase__ )
move_tower(height - 1 , lowercase__ , lowercase__ , lowercase__ )
def _snake_case ( lowercase__ , lowercase__ ):
print('moving disk from' , lowercase__ , 'to' , lowercase__ )
def _snake_case ( ):
_lowerCamelCase : List[Any] = int(input('Height of hanoi: ' ).strip() )
move_tower(lowercase__ , 'A' , 'B' , 'C' )
if __name__ == "__main__":
main() | 96 |
'''simple docstring'''
from __future__ import annotations
def a_ ( __snake_case : str , __snake_case : list[str] | None = None , __snake_case : dict[str, float] | None = None , __snake_case : bool = False , ) -> tuple[int, float, str]:
"""simple docstring"""
lowerCamelCase_ =cipher_alphabet or [chr(__snake_case ) for i in range(97 , 123 )]
# If the argument is None or the user provided an empty dictionary
if not frequencies_dict:
# Frequencies of letters in the english language (how much they show up)
lowerCamelCase_ ={
'''a''': 0.0_8_4_9_7,
'''b''': 0.0_1_4_9_2,
'''c''': 0.0_2_2_0_2,
'''d''': 0.0_4_2_5_3,
'''e''': 0.1_1_1_6_2,
'''f''': 0.0_2_2_2_8,
'''g''': 0.0_2_0_1_5,
'''h''': 0.0_6_0_9_4,
'''i''': 0.0_7_5_4_6,
'''j''': 0.0_0_1_5_3,
'''k''': 0.0_1_2_9_2,
'''l''': 0.0_4_0_2_5,
'''m''': 0.0_2_4_0_6,
'''n''': 0.0_6_7_4_9,
'''o''': 0.0_7_5_0_7,
'''p''': 0.0_1_9_2_9,
'''q''': 0.0_0_0_9_5,
'''r''': 0.0_7_5_8_7,
'''s''': 0.0_6_3_2_7,
'''t''': 0.0_9_3_5_6,
'''u''': 0.0_2_7_5_8,
'''v''': 0.0_0_9_7_8,
'''w''': 0.0_2_5_6_0,
'''x''': 0.0_0_1_5_0,
'''y''': 0.0_1_9_9_4,
'''z''': 0.0_0_0_7_7,
}
else:
# Custom frequencies dictionary
lowerCamelCase_ =frequencies_dict
if not case_sensitive:
lowerCamelCase_ =ciphertext.lower()
# Chi squared statistic values
lowerCamelCase_ ={}
# cycle through all of the shifts
for shift in range(len(__snake_case ) ):
lowerCamelCase_ =''''''
# decrypt the message with the shift
for letter in ciphertext:
try:
# Try to index the letter in the alphabet
lowerCamelCase_ =(alphabet_letters.index(letter.lower() ) - shift) % len(
__snake_case )
decrypted_with_shift += (
alphabet_letters[new_key].upper()
if case_sensitive and letter.isupper()
else alphabet_letters[new_key]
)
except ValueError:
# Append the character if it isn't in the alphabet
decrypted_with_shift += letter
lowerCamelCase_ =0.0
# Loop through each letter in the decoded message with the shift
for letter in decrypted_with_shift:
if case_sensitive:
lowerCamelCase_ =letter.lower()
if letter in frequencies:
# Get the amount of times the letter occurs in the message
lowerCamelCase_ =decrypted_with_shift.lower().count(__snake_case )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
lowerCamelCase_ =frequencies[letter] * occurrences
# Complete the chi squared statistic formula
lowerCamelCase_ =((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
else:
if letter.lower() in frequencies:
# Get the amount of times the letter occurs in the message
lowerCamelCase_ =decrypted_with_shift.count(__snake_case )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
lowerCamelCase_ =frequencies[letter] * occurrences
# Complete the chi squared statistic formula
lowerCamelCase_ =((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
# Add the data to the chi_squared_statistic_values dictionary
lowerCamelCase_ =(
chi_squared_statistic,
decrypted_with_shift,
)
# Get the most likely cipher by finding the cipher with the smallest chi squared
# statistic
def chi_squared_statistic_values_sorting_key(__snake_case : int ) -> tuple[float, str]:
return chi_squared_statistic_values[key]
lowerCamelCase_ =min(
__snake_case , key=__snake_case , )
# Get all the data from the most likely cipher (key, decoded message)
(
(
lowerCamelCase_
), (
lowerCamelCase_
),
) =chi_squared_statistic_values[most_likely_cipher]
# Return the data on the most likely shift
return (
most_likely_cipher,
most_likely_cipher_chi_squared_value,
decoded_most_likely_cipher,
)
| 75 | 0 |
'''simple docstring'''
from typing import Any
import numpy as np
def a ( __a ) -> bool:
'''simple docstring'''
return np.array_equal(__a , matrix.conjugate().T )
def a ( __a , __a ) -> Any:
'''simple docstring'''
UpperCamelCase__ :Dict = v.conjugate().T
UpperCamelCase__ :Optional[Any] = v_star.dot(__a )
assert isinstance(__a , np.ndarray )
return (v_star_dot.dot(__a )) / (v_star.dot(__a ))
def a ( ) -> None:
'''simple docstring'''
UpperCamelCase__ :Any = np.array([[2, 2 + 1J, 4], [2 - 1J, 3, 1J], [4, -1J, 1]] )
UpperCamelCase__ :Tuple = np.array([[1], [2], [3]] )
assert is_hermitian(__a ), f'''{a} is not hermitian.'''
print(rayleigh_quotient(__a , __a ) )
UpperCamelCase__ :Any = np.array([[1, 2, 4], [2, 3, -1], [4, -1, 1]] )
assert is_hermitian(__a ), f'''{a} is not hermitian.'''
assert rayleigh_quotient(__a , __a ) == float(3 )
if __name__ == "__main__":
import doctest
doctest.testmod()
tests() | 97 |
'''simple docstring'''
import importlib
import inspect
import json
import os
import re
import shutil
import sys
from pathlib import Path
from typing import Dict, Optional, Union
from urllib import request
from huggingface_hub import HfFolder, cached_download, hf_hub_download, model_info
from packaging import version
from .. import __version__
from . import DIFFUSERS_DYNAMIC_MODULE_NAME, HF_MODULES_CACHE, logging
a_ : List[Any] = (
"""https://raw.githubusercontent.com/huggingface/diffusers/{revision}/examples/community/{pipeline}.py"""
)
a_ : Union[str, Any] = logging.get_logger(__name__) # pylint: disable=invalid-name
def a_ ( ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ ='''https://pypi.org/pypi/diffusers/json'''
lowerCamelCase_ =json.loads(request.urlopen(__snake_case ).read() )['''releases'''].keys()
return sorted(__snake_case , key=lambda __snake_case : version.Version(__snake_case ) )
def a_ ( ) -> str:
"""simple docstring"""
# This function has already been executed if HF_MODULES_CACHE already is in the Python path.
if HF_MODULES_CACHE in sys.path:
return
sys.path.append(__snake_case )
os.makedirs(__snake_case , exist_ok=__snake_case )
lowerCamelCase_ =Path(__snake_case ) / '''__init__.py'''
if not init_path.exists():
init_path.touch()
def a_ ( __snake_case : Union[str, os.PathLike] ) -> List[str]:
"""simple docstring"""
init_hf_modules()
lowerCamelCase_ =Path(__snake_case ) / name
# If the parent module does not exist yet, recursively create it.
if not dynamic_module_path.parent.exists():
create_dynamic_module(dynamic_module_path.parent )
os.makedirs(__snake_case , exist_ok=__snake_case )
lowerCamelCase_ =dynamic_module_path / '''__init__.py'''
if not init_path.exists():
init_path.touch()
def a_ ( __snake_case : Tuple ) -> List[str]:
"""simple docstring"""
with open(__snake_case , '''r''' , encoding='''utf-8''' ) as f:
lowerCamelCase_ =f.read()
# Imports of the form `import .xxx`
lowerCamelCase_ =re.findall('''^\s*import\s+\.(\S+)\s*$''' , __snake_case , flags=re.MULTILINE )
# Imports of the form `from .xxx import yyy`
relative_imports += re.findall('''^\s*from\s+\.(\S+)\s+import''' , __snake_case , flags=re.MULTILINE )
# Unique-ify
return list(set(__snake_case ) )
def a_ ( __snake_case : str ) -> str:
"""simple docstring"""
lowerCamelCase_ =False
lowerCamelCase_ =[module_file]
lowerCamelCase_ =[]
# Let's recurse through all relative imports
while not no_change:
lowerCamelCase_ =[]
for f in files_to_check:
new_imports.extend(get_relative_imports(__snake_case ) )
lowerCamelCase_ =Path(__snake_case ).parent
lowerCamelCase_ =[str(module_path / m ) for m in new_imports]
lowerCamelCase_ =[f for f in new_import_files if f not in all_relative_imports]
lowerCamelCase_ =[F'''{f}.py''' for f in new_import_files]
lowerCamelCase_ =len(__snake_case ) == 0
all_relative_imports.extend(__snake_case )
return all_relative_imports
def a_ ( __snake_case : Union[str, Any] ) -> Optional[int]:
"""simple docstring"""
with open(__snake_case , '''r''' , encoding='''utf-8''' ) as f:
lowerCamelCase_ =f.read()
# Imports of the form `import xxx`
lowerCamelCase_ =re.findall('''^\s*import\s+(\S+)\s*$''' , __snake_case , flags=re.MULTILINE )
# Imports of the form `from xxx import yyy`
imports += re.findall('''^\s*from\s+(\S+)\s+import''' , __snake_case , flags=re.MULTILINE )
# Only keep the top-level module
lowerCamelCase_ =[imp.split('''.''' )[0] for imp in imports if not imp.startswith('''.''' )]
# Unique-ify and test we got them all
lowerCamelCase_ =list(set(__snake_case ) )
lowerCamelCase_ =[]
for imp in imports:
try:
importlib.import_module(__snake_case )
except ImportError:
missing_packages.append(__snake_case )
if len(__snake_case ) > 0:
raise ImportError(
'''This modeling file requires the following packages that were not found in your environment: '''
F'''{', '.join(__snake_case )}. Run `pip install {' '.join(__snake_case )}`''' )
return get_relative_imports(__snake_case )
def a_ ( __snake_case : Tuple , __snake_case : Tuple ) -> List[Any]:
"""simple docstring"""
lowerCamelCase_ =module_path.replace(os.path.sep , '''.''' )
lowerCamelCase_ =importlib.import_module(__snake_case )
if class_name is None:
return find_pipeline_class(__snake_case )
return getattr(__snake_case , __snake_case )
def a_ ( __snake_case : Dict ) -> Any:
"""simple docstring"""
from ..pipelines import DiffusionPipeline
lowerCamelCase_ =dict(inspect.getmembers(__snake_case , inspect.isclass ) )
lowerCamelCase_ =None
for cls_name, cls in cls_members.items():
if (
cls_name != DiffusionPipeline.__name__
and issubclass(cls , __snake_case )
and cls.__module__.split('''.''' )[0] != "diffusers"
):
if pipeline_class is not None:
raise ValueError(
F'''Multiple classes that inherit from {DiffusionPipeline.__name__} have been found:'''
F''' {pipeline_class.__name__}, and {cls_name}. Please make sure to define only one in'''
F''' {loaded_module}.''' )
lowerCamelCase_ =cls
return pipeline_class
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : str , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =str(__snake_case )
lowerCamelCase_ =os.path.join(__snake_case , __snake_case )
if os.path.isfile(__snake_case ):
lowerCamelCase_ =module_file_or_url
lowerCamelCase_ ='''local'''
elif pretrained_model_name_or_path.count('''/''' ) == 0:
lowerCamelCase_ =get_diffusers_versions()
# cut ".dev0"
lowerCamelCase_ ='''v''' + '''.'''.join(__version__.split('''.''' )[:3] )
# retrieve github version that matches
if revision is None:
lowerCamelCase_ =latest_version if latest_version[1:] in available_versions else '''main'''
logger.info(F'''Defaulting to latest_version: {revision}.''' )
elif revision in available_versions:
lowerCamelCase_ =F'''v{revision}'''
elif revision == "main":
lowerCamelCase_ =revision
else:
raise ValueError(
F'''`custom_revision`: {revision} does not exist. Please make sure to choose one of'''
F''' {', '.join(available_versions + ['main'] )}.''' )
# community pipeline on GitHub
lowerCamelCase_ =COMMUNITY_PIPELINES_URL.format(revision=__snake_case , pipeline=__snake_case )
try:
lowerCamelCase_ =cached_download(
__snake_case , cache_dir=__snake_case , force_download=__snake_case , proxies=__snake_case , resume_download=__snake_case , local_files_only=__snake_case , use_auth_token=__snake_case , )
lowerCamelCase_ ='''git'''
lowerCamelCase_ =pretrained_model_name_or_path + '''.py'''
except EnvironmentError:
logger.error(F'''Could not locate the {module_file} inside {pretrained_model_name_or_path}.''' )
raise
else:
try:
# Load from URL or cache if already cached
lowerCamelCase_ =hf_hub_download(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , proxies=__snake_case , resume_download=__snake_case , local_files_only=__snake_case , use_auth_token=__snake_case , )
lowerCamelCase_ =os.path.join('''local''' , '''--'''.join(pretrained_model_name_or_path.split('''/''' ) ) )
except EnvironmentError:
logger.error(F'''Could not locate the {module_file} inside {pretrained_model_name_or_path}.''' )
raise
# Check we have all the requirements in our environment
lowerCamelCase_ =check_imports(__snake_case )
# Now we move the module inside our cached dynamic modules.
lowerCamelCase_ =DIFFUSERS_DYNAMIC_MODULE_NAME + os.path.sep + submodule
create_dynamic_module(__snake_case )
lowerCamelCase_ =Path(__snake_case ) / full_submodule
if submodule == "local" or submodule == "git":
# We always copy local files (we could hash the file to see if there was a change, and give them the name of
# that hash, to only copy when there is a modification but it seems overkill for now).
# The only reason we do the copy is to avoid putting too many folders in sys.path.
shutil.copy(__snake_case , submodule_path / module_file )
for module_needed in modules_needed:
lowerCamelCase_ =F'''{module_needed}.py'''
shutil.copy(os.path.join(__snake_case , __snake_case ) , submodule_path / module_needed )
else:
# Get the commit hash
# TODO: we will get this info in the etag soon, so retrieve it from there and not here.
if isinstance(__snake_case , __snake_case ):
lowerCamelCase_ =use_auth_token
elif use_auth_token is True:
lowerCamelCase_ =HfFolder.get_token()
else:
lowerCamelCase_ =None
lowerCamelCase_ =model_info(__snake_case , revision=__snake_case , token=__snake_case ).sha
# The module file will end up being placed in a subfolder with the git hash of the repo. This way we get the
# benefit of versioning.
lowerCamelCase_ =submodule_path / commit_hash
lowerCamelCase_ =full_submodule + os.path.sep + commit_hash
create_dynamic_module(__snake_case )
if not (submodule_path / module_file).exists():
shutil.copy(__snake_case , submodule_path / module_file )
# Make sure we also have every file with relative
for module_needed in modules_needed:
if not (submodule_path / module_needed).exists():
get_cached_module_file(
__snake_case , F'''{module_needed}.py''' , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
return os.path.join(__snake_case , __snake_case )
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : str , __snake_case : Optional[str] = None , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , **__snake_case : Optional[int] , ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =get_cached_module_file(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
return get_class_in_module(__snake_case , final_module.replace('''.py''' , '''''' ) )
| 75 | 0 |
"""simple docstring"""
from __future__ import annotations
from fractions import Fraction
def a_ ( lowerCamelCase , lowerCamelCase ):
return (
num != den and num % 1_0 == den // 1_0 and (num // 1_0) / (den % 1_0) == num / den
)
def a_ ( lowerCamelCase ):
UpperCAmelCase__ = []
UpperCAmelCase__ = 1_1
UpperCAmelCase__ = int('1' + '0' * digit_len )
for num in range(lowerCamelCase , lowerCamelCase ):
while den <= 9_9:
if (num != den) and (num % 1_0 == den // 1_0) and (den % 1_0 != 0):
if is_digit_cancelling(lowerCamelCase , lowerCamelCase ):
solutions.append(f'''{num}/{den}''' )
den += 1
num += 1
UpperCAmelCase__ = 1_0
return solutions
def a_ ( lowerCamelCase = 2 ):
UpperCAmelCase__ = 1.0
for fraction in fraction_list(lowerCamelCase ):
UpperCAmelCase__ = Fraction(lowerCamelCase )
result *= frac.denominator / frac.numerator
return int(lowerCamelCase )
if __name__ == "__main__":
print(solution())
| 98 |
'''simple docstring'''
a_ : Any = [
9_99,
8_00,
7_99,
6_00,
5_99,
5_00,
4_00,
3_99,
3_77,
3_55,
3_33,
3_11,
2_88,
2_66,
2_44,
2_22,
2_00,
1_99,
1_77,
1_55,
1_33,
1_11,
88,
66,
44,
22,
0,
]
a_ : Any = [
9_99,
9_76,
9_52,
9_28,
9_05,
8_82,
8_58,
8_57,
8_10,
7_62,
7_15,
7_14,
5_72,
4_29,
4_28,
2_86,
2_85,
2_38,
1_90,
1_43,
1_42,
1_18,
95,
71,
47,
24,
0,
]
a_ : Optional[Any] = [
9_99,
9_88,
9_77,
9_66,
9_55,
9_44,
9_33,
9_22,
9_11,
9_00,
8_99,
8_79,
8_59,
8_40,
8_20,
8_00,
7_99,
7_66,
7_33,
7_00,
6_99,
6_50,
6_00,
5_99,
5_00,
4_99,
4_00,
3_99,
3_50,
3_00,
2_99,
2_66,
2_33,
2_00,
1_99,
1_79,
1_59,
1_40,
1_20,
1_00,
99,
88,
77,
66,
55,
44,
33,
22,
11,
0,
]
a_ : str = [
9_99,
9_95,
9_92,
9_89,
9_85,
9_81,
9_78,
9_75,
9_71,
9_67,
9_64,
9_61,
9_57,
9_56,
9_51,
9_47,
9_42,
9_37,
9_33,
9_28,
9_23,
9_19,
9_14,
9_13,
9_08,
9_03,
8_97,
8_92,
8_87,
8_81,
8_76,
8_71,
8_70,
8_64,
8_58,
8_52,
8_46,
8_40,
8_34,
8_28,
8_27,
8_20,
8_13,
8_06,
7_99,
7_92,
7_85,
7_84,
7_77,
7_70,
7_63,
7_56,
7_49,
7_42,
7_41,
7_33,
7_24,
7_16,
7_07,
6_99,
6_98,
6_88,
6_77,
6_66,
6_56,
6_55,
6_45,
6_34,
6_23,
6_13,
6_12,
5_98,
5_84,
5_70,
5_69,
5_55,
5_41,
5_27,
5_26,
5_05,
4_84,
4_83,
4_62,
4_40,
4_39,
3_96,
3_95,
3_52,
3_51,
3_08,
3_07,
2_64,
2_63,
2_20,
2_19,
1_76,
1_32,
88,
44,
0,
]
a_ : Optional[int] = [
9_99,
9_97,
9_95,
9_92,
9_90,
9_88,
9_86,
9_84,
9_81,
9_79,
9_77,
9_75,
9_72,
9_70,
9_68,
9_66,
9_64,
9_61,
9_59,
9_57,
9_56,
9_54,
9_51,
9_49,
9_46,
9_44,
9_41,
9_39,
9_36,
9_34,
9_31,
9_29,
9_26,
9_24,
9_21,
9_19,
9_16,
9_14,
9_13,
9_10,
9_07,
9_05,
9_02,
8_99,
8_96,
8_93,
8_91,
8_88,
8_85,
8_82,
8_79,
8_77,
8_74,
8_71,
8_70,
8_67,
8_64,
8_61,
8_58,
8_55,
8_52,
8_49,
8_46,
8_43,
8_40,
8_37,
8_34,
8_31,
8_28,
8_27,
8_24,
8_21,
8_17,
8_14,
8_11,
8_08,
8_04,
8_01,
7_98,
7_95,
7_91,
7_88,
7_85,
7_84,
7_80,
7_77,
7_74,
7_70,
7_66,
7_63,
7_60,
7_56,
7_52,
7_49,
7_46,
7_42,
7_41,
7_37,
7_33,
7_30,
7_26,
7_22,
7_18,
7_14,
7_10,
7_07,
7_03,
6_99,
6_98,
6_94,
6_90,
6_85,
6_81,
6_77,
6_73,
6_69,
6_64,
6_60,
6_56,
6_55,
6_50,
6_46,
6_41,
6_36,
6_32,
6_27,
6_22,
6_18,
6_13,
6_12,
6_07,
6_02,
5_96,
5_91,
5_86,
5_80,
5_75,
5_70,
5_69,
5_63,
5_57,
5_51,
5_45,
5_39,
5_33,
5_27,
5_26,
5_19,
5_12,
5_05,
4_98,
4_91,
4_84,
4_83,
4_74,
4_66,
4_57,
4_49,
4_40,
4_39,
4_28,
4_18,
4_07,
3_96,
3_95,
3_81,
3_66,
3_52,
3_51,
3_30,
3_08,
3_07,
2_86,
2_64,
2_63,
2_42,
2_20,
2_19,
1_76,
1_75,
1_32,
1_31,
88,
44,
0,
]
a_ : Dict = [
9_99,
9_91,
9_82,
9_74,
9_66,
9_58,
9_50,
9_41,
9_33,
9_25,
9_16,
9_08,
9_00,
8_99,
8_74,
8_50,
8_25,
8_00,
7_99,
7_00,
6_00,
5_00,
4_00,
3_00,
2_00,
1_00,
0,
]
a_ : Tuple = [
9_99,
9_92,
9_85,
9_78,
9_71,
9_64,
9_57,
9_49,
9_42,
9_35,
9_28,
9_21,
9_14,
9_07,
9_00,
8_99,
8_79,
8_59,
8_40,
8_20,
8_00,
7_99,
7_66,
7_33,
7_00,
6_99,
6_50,
6_00,
5_99,
5_00,
4_99,
4_00,
3_99,
3_00,
2_99,
2_00,
1_99,
1_00,
99,
0,
]
a_ : Any = [
9_99,
9_96,
9_92,
9_89,
9_85,
9_82,
9_79,
9_75,
9_72,
9_68,
9_65,
9_61,
9_58,
9_55,
9_51,
9_48,
9_44,
9_41,
9_38,
9_34,
9_31,
9_27,
9_24,
9_20,
9_17,
9_14,
9_10,
9_07,
9_03,
9_00,
8_99,
8_91,
8_84,
8_76,
8_69,
8_61,
8_53,
8_46,
8_38,
8_30,
8_23,
8_15,
8_08,
8_00,
7_99,
7_88,
7_77,
7_66,
7_55,
7_44,
7_33,
7_22,
7_11,
7_00,
6_99,
6_88,
6_77,
6_66,
6_55,
6_44,
6_33,
6_22,
6_11,
6_00,
5_99,
5_85,
5_71,
5_57,
5_42,
5_28,
5_14,
5_00,
4_99,
4_85,
4_71,
4_57,
4_42,
4_28,
4_14,
4_00,
3_99,
3_79,
3_59,
3_40,
3_20,
3_00,
2_99,
2_79,
2_59,
2_40,
2_20,
2_00,
1_99,
1_66,
1_33,
1_00,
99,
66,
33,
0,
]
| 75 | 0 |
from typing import List, Optional, Union
from ...image_utils import ImageInput
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class A__ ( __UpperCAmelCase ):
"""simple docstring"""
__A : Optional[int] = ['''image_processor''', '''tokenizer''']
__A : Dict = '''BlipImageProcessor'''
__A : Optional[Any] = ('''BertTokenizer''', '''BertTokenizerFast''')
def __init__( self , lowercase , lowercase) -> Any:
'''simple docstring'''
a__ : List[str] = False
super().__init__(lowercase , lowercase)
a__ : List[Any] = self.image_processor
def __call__( self , lowercase = None , lowercase = None , lowercase = True , lowercase = False , lowercase = None , lowercase = None , lowercase = 0 , lowercase = None , lowercase = None , lowercase = False , lowercase = False , lowercase = False , lowercase = False , lowercase = False , lowercase = True , lowercase = None , **lowercase , ) -> BatchEncoding:
'''simple docstring'''
if images is None and text is None:
raise ValueError('You have to specify either images or text.')
# Get only text
if images is None:
a__ : Tuple = self.tokenizer
a__ : Tuple = self.tokenizer(
text=lowercase , add_special_tokens=lowercase , padding=lowercase , truncation=lowercase , max_length=lowercase , stride=lowercase , pad_to_multiple_of=lowercase , return_attention_mask=lowercase , return_overflowing_tokens=lowercase , return_special_tokens_mask=lowercase , return_offsets_mapping=lowercase , return_token_type_ids=lowercase , return_length=lowercase , verbose=lowercase , return_tensors=lowercase , **lowercase , )
return text_encoding
# add pixel_values
a__ : Optional[int] = self.image_processor(lowercase , return_tensors=lowercase)
if text is not None:
a__ : List[str] = self.tokenizer(
text=lowercase , add_special_tokens=lowercase , padding=lowercase , truncation=lowercase , max_length=lowercase , stride=lowercase , pad_to_multiple_of=lowercase , return_attention_mask=lowercase , return_overflowing_tokens=lowercase , return_special_tokens_mask=lowercase , return_offsets_mapping=lowercase , return_token_type_ids=lowercase , return_length=lowercase , verbose=lowercase , return_tensors=lowercase , **lowercase , )
else:
a__ : Any = None
if text_encoding is not None:
encoding_image_processor.update(lowercase)
return encoding_image_processor
def __lowercase ( self , *lowercase , **lowercase) -> Union[str, Any]:
'''simple docstring'''
return self.tokenizer.batch_decode(*lowercase , **lowercase)
def __lowercase ( self , *lowercase , **lowercase) -> List[Any]:
'''simple docstring'''
return self.tokenizer.decode(*lowercase , **lowercase)
@property
def __lowercase ( self) -> List[Any]:
'''simple docstring'''
a__ : Tuple = self.tokenizer.model_input_names
a__ : Tuple = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names))
| 99 |
'''simple docstring'''
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
a_ : Union[str, Any] = {
"""configuration_funnel""": ["""FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP""", """FunnelConfig"""],
"""convert_funnel_original_tf_checkpoint_to_pytorch""": [],
"""tokenization_funnel""": ["""FunnelTokenizer"""],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : List[str] = ["""FunnelTokenizerFast"""]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : Optional[int] = [
"""FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""FunnelBaseModel""",
"""FunnelForMaskedLM""",
"""FunnelForMultipleChoice""",
"""FunnelForPreTraining""",
"""FunnelForQuestionAnswering""",
"""FunnelForSequenceClassification""",
"""FunnelForTokenClassification""",
"""FunnelModel""",
"""FunnelPreTrainedModel""",
"""load_tf_weights_in_funnel""",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : Optional[Any] = [
"""TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""TFFunnelBaseModel""",
"""TFFunnelForMaskedLM""",
"""TFFunnelForMultipleChoice""",
"""TFFunnelForPreTraining""",
"""TFFunnelForQuestionAnswering""",
"""TFFunnelForSequenceClassification""",
"""TFFunnelForTokenClassification""",
"""TFFunnelModel""",
"""TFFunnelPreTrainedModel""",
]
if TYPE_CHECKING:
from .configuration_funnel import FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP, FunnelConfig
from .tokenization_funnel import FunnelTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_funnel_fast import FunnelTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_funnel import (
FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST,
FunnelBaseModel,
FunnelForMaskedLM,
FunnelForMultipleChoice,
FunnelForPreTraining,
FunnelForQuestionAnswering,
FunnelForSequenceClassification,
FunnelForTokenClassification,
FunnelModel,
FunnelPreTrainedModel,
load_tf_weights_in_funnel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_funnel import (
TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST,
TFFunnelBaseModel,
TFFunnelForMaskedLM,
TFFunnelForMultipleChoice,
TFFunnelForPreTraining,
TFFunnelForQuestionAnswering,
TFFunnelForSequenceClassification,
TFFunnelForTokenClassification,
TFFunnelModel,
TFFunnelPreTrainedModel,
)
else:
import sys
a_ : str = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)
| 75 | 0 |
"""simple docstring"""
def _lowerCAmelCase ( UpperCamelCase_ = 400_0000 ):
__SCREAMING_SNAKE_CASE = [0, 1]
__SCREAMING_SNAKE_CASE = 0
while fib[i] <= n:
fib.append(fib[i] + fib[i + 1] )
if fib[i + 2] > n:
break
i += 1
__SCREAMING_SNAKE_CASE = 0
for j in range(len(UpperCamelCase_ ) - 1 ):
if fib[j] % 2 == 0:
total += fib[j]
return total
if __name__ == "__main__":
print(F"""{solution() = }""")
| 100 |
'''simple docstring'''
import json
import os
import shutil
import tempfile
import unittest
from multiprocessing import get_context
from pathlib import Path
import datasets
import numpy as np
from datasets import load_dataset
from parameterized import parameterized
from transformers import AutoProcessor
from transformers.models.wavaveca import WavaVecaCTCTokenizer, WavaVecaFeatureExtractor
from transformers.models.wavaveca.tokenization_wavaveca import VOCAB_FILES_NAMES
from transformers.testing_utils import require_pyctcdecode, require_torch, require_torchaudio, slow
from transformers.utils import FEATURE_EXTRACTOR_NAME, is_pyctcdecode_available, is_torch_available
from ..wavaveca.test_feature_extraction_wavaveca import floats_list
if is_pyctcdecode_available():
from huggingface_hub import snapshot_download
from pyctcdecode import BeamSearchDecoderCTC
from transformers.models.wavaveca_with_lm import WavaVecaProcessorWithLM
from transformers.models.wavaveca_with_lm.processing_wavaveca_with_lm import WavaVecaDecoderWithLMOutput
if is_torch_available():
from transformers import WavaVecaForCTC
@require_pyctcdecode
class __UpperCamelCase ( unittest.TestCase ):
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''| <pad> <unk> <s> </s> a b c d e f g h i j k'''.split()
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ ={
'''unk_token''': '''<unk>''',
'''bos_token''': '''<s>''',
'''eos_token''': '''</s>''',
}
lowerCamelCase_ ={
'''feature_size''': 1,
'''padding_value''': 0.0,
'''sampling_rate''': 16_000,
'''return_attention_mask''': False,
'''do_normalize''': True,
}
lowerCamelCase_ =tempfile.mkdtemp()
lowerCamelCase_ =os.path.join(self.tmpdirname, VOCAB_FILES_NAMES['''vocab_file'''] )
lowerCamelCase_ =os.path.join(self.tmpdirname, lowerCAmelCase )
with open(self.vocab_file, '''w''', encoding='''utf-8''' ) as fp:
fp.write(json.dumps(lowerCAmelCase ) + '''\n''' )
with open(self.feature_extraction_file, '''w''', encoding='''utf-8''' ) as fp:
fp.write(json.dumps(lowerCAmelCase ) + '''\n''' )
# load decoder from hub
lowerCamelCase_ ='''hf-internal-testing/ngram-beam-search-decoder'''
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =self.add_kwargs_tokens_map.copy()
kwargs.update(lowerCAmelCase )
return WavaVecaCTCTokenizer.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return WavaVecaFeatureExtractor.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return BeamSearchDecoderCTC.load_from_hf_hub(self.decoder_name, **lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
shutil.rmtree(self.tmpdirname )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
processor.save_pretrained(self.tmpdirname )
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(self.tmpdirname )
# tokenizer
self.assertEqual(processor.tokenizer.get_vocab(), tokenizer.get_vocab() )
self.assertIsInstance(processor.tokenizer, lowerCAmelCase )
# feature extractor
self.assertEqual(processor.feature_extractor.to_json_string(), feature_extractor.to_json_string() )
self.assertIsInstance(processor.feature_extractor, lowerCAmelCase )
# decoder
self.assertEqual(processor.decoder._alphabet.labels, decoder._alphabet.labels )
self.assertEqual(
processor.decoder.model_container[decoder._model_key]._unigram_set, decoder.model_container[decoder._model_key]._unigram_set, )
self.assertIsInstance(processor.decoder, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM(
tokenizer=self.get_tokenizer(), feature_extractor=self.get_feature_extractor(), decoder=self.get_decoder() )
processor.save_pretrained(self.tmpdirname )
# make sure that error is thrown when decoder alphabet doesn't match
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(
self.tmpdirname, alpha=5.0, beta=3.0, score_boundary=-7.0, unk_score_offset=3 )
# decoder
self.assertEqual(processor.language_model.alpha, 5.0 )
self.assertEqual(processor.language_model.beta, 3.0 )
self.assertEqual(processor.language_model.score_boundary, -7.0 )
self.assertEqual(processor.language_model.unk_score_offset, 3 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizer()
# add token to trigger raise
tokenizer.add_tokens(['''xx'''] )
with self.assertRaisesRegex(lowerCAmelCase, '''include''' ):
WavaVecaProcessorWithLM(
tokenizer=lowerCAmelCase, feature_extractor=self.get_feature_extractor(), decoder=self.get_decoder() )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =floats_list((3, 1_000) )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' )
lowerCamelCase_ =processor(lowerCAmelCase, 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 lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ ='''This is a test string'''
lowerCamelCase_ =processor(text=lowerCAmelCase )
lowerCamelCase_ =tokenizer(lowerCAmelCase )
for key in encoded_tok.keys():
self.assertListEqual(encoded_tok[key], encoded_processor[key] )
def lowercase__ ( self, lowerCAmelCase=(2, 10, 16), lowerCAmelCase=77 ):
"""simple docstring"""
np.random.seed(lowerCAmelCase )
return np.random.rand(*lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits(shape=(10, 16), seed=13 )
lowerCamelCase_ =processor.decode(lowerCAmelCase )
lowerCamelCase_ =decoder.decode_beams(lowerCAmelCase )[0]
self.assertEqual(decoded_decoder[0], decoded_processor.text )
self.assertEqual('''</s> <s> </s>''', decoded_processor.text )
self.assertEqual(decoded_decoder[-2], decoded_processor.logit_score )
self.assertEqual(decoded_decoder[-1], decoded_processor.lm_score )
@parameterized.expand([[None], ['''fork'''], ['''spawn''']] )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
# note: pool should be instantiated *after* Wav2Vec2ProcessorWithLM.
# otherwise, the LM won't be available to the pool's sub-processes.
# manual logic used to allow parameterized test for both pool=None and pool=Pool(...)
if pool_context is None:
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase )
else:
with get_context(lowerCAmelCase ).Pool() as pool:
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase, lowerCAmelCase )
lowerCamelCase_ =list(lowerCAmelCase )
with get_context('''fork''' ).Pool() as p:
lowerCamelCase_ =decoder.decode_beams_batch(lowerCAmelCase, lowerCAmelCase )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =[], [], []
for beams in decoded_beams:
texts_decoder.append(beams[0][0] )
logit_scores_decoder.append(beams[0][-2] )
lm_scores_decoder.append(beams[0][-1] )
self.assertListEqual(lowerCAmelCase, decoded_processor.text )
self.assertListEqual(['''<s> <s> </s>''', '''<s> <s> <s>'''], decoded_processor.text )
self.assertListEqual(lowerCAmelCase, decoded_processor.logit_score )
self.assertListEqual(lowerCAmelCase, decoded_processor.lm_score )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =15
lowerCamelCase_ =-2_0.0
lowerCamelCase_ =-4.0
lowerCamelCase_ =processor.batch_decode(
lowerCAmelCase, beam_width=lowerCAmelCase, beam_prune_logp=lowerCAmelCase, token_min_logp=lowerCAmelCase, )
lowerCamelCase_ =decoded_processor_out.text
lowerCamelCase_ =list(lowerCAmelCase )
with get_context('''fork''' ).Pool() as pool:
lowerCamelCase_ =decoder.decode_beams_batch(
lowerCAmelCase, lowerCAmelCase, beam_width=lowerCAmelCase, beam_prune_logp=lowerCAmelCase, token_min_logp=lowerCAmelCase, )
lowerCamelCase_ =[d[0][0] for d in decoded_decoder_out]
lowerCamelCase_ =[d[0][2] for d in decoded_decoder_out]
lowerCamelCase_ =[d[0][3] for d in decoded_decoder_out]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(['''</s> <s> <s>''', '''<s> <s> <s>'''], lowerCAmelCase )
self.assertTrue(np.array_equal(lowerCAmelCase, decoded_processor_out.logit_score ) )
self.assertTrue(np.allclose([-2_0.0_5_4, -1_8.4_4_7], lowerCAmelCase, atol=1e-3 ) )
self.assertTrue(np.array_equal(lowerCAmelCase, decoded_processor_out.lm_score ) )
self.assertTrue(np.allclose([-1_5.5_5_4, -1_3.9_4_7_4], lowerCAmelCase, atol=1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =2.0
lowerCamelCase_ =5.0
lowerCamelCase_ =-2_0.0
lowerCamelCase_ =True
lowerCamelCase_ =processor.batch_decode(
lowerCAmelCase, alpha=lowerCAmelCase, beta=lowerCAmelCase, unk_score_offset=lowerCAmelCase, lm_score_boundary=lowerCAmelCase, )
lowerCamelCase_ =decoded_processor_out.text
lowerCamelCase_ =list(lowerCAmelCase )
decoder.reset_params(
alpha=lowerCAmelCase, beta=lowerCAmelCase, unk_score_offset=lowerCAmelCase, lm_score_boundary=lowerCAmelCase, )
with get_context('''fork''' ).Pool() as pool:
lowerCamelCase_ =decoder.decode_beams_batch(
lowerCAmelCase, lowerCAmelCase, )
lowerCamelCase_ =[d[0][0] for d in decoded_decoder_out]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(['''<s> </s> <s> </s> </s>''', '''</s> </s> <s> </s> </s>'''], lowerCAmelCase )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
self.assertEqual(lm_model.alpha, 2.0 )
self.assertEqual(lm_model.beta, 5.0 )
self.assertEqual(lm_model.unk_score_offset, -2_0.0 )
self.assertEqual(lm_model.score_boundary, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
lowerCamelCase_ =Path(language_model._kenlm_model.path.decode('''utf-8''' ) ).parent.parent.absolute()
lowerCamelCase_ =os.listdir(lowerCAmelCase )
lowerCamelCase_ =['''alphabet.json''', '''language_model''']
downloaded_decoder_files.sort()
expected_decoder_files.sort()
# test that only decoder relevant files from
# https://huggingface.co/hf-internal-testing/processor_with_lm/tree/main
# are downloaded and none of the rest (e.g. README.md, ...)
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =snapshot_download('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(lowerCAmelCase )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
lowerCamelCase_ =Path(language_model._kenlm_model.path.decode('''utf-8''' ) ).parent.parent.absolute()
lowerCamelCase_ =os.listdir(lowerCAmelCase )
lowerCamelCase_ =os.listdir(lowerCAmelCase )
local_decoder_files.sort()
expected_decoder_files.sort()
# test that both decoder form hub and local files in cache are the same
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =AutoProcessor.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =floats_list((3, 1_000) )
lowerCamelCase_ =processor_wavaveca(lowerCAmelCase, return_tensors='''np''' )
lowerCamelCase_ =processor_auto(lowerCAmelCase, return_tensors='''np''' )
for key in input_wavaveca.keys():
self.assertAlmostEqual(input_wavaveca[key].sum(), input_auto[key].sum(), delta=1e-2 )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =processor_wavaveca.batch_decode(lowerCAmelCase )
lowerCamelCase_ =processor_auto.batch_decode(lowerCAmelCase )
self.assertListEqual(decoded_wavaveca.text, decoded_auto.text )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
self.assertListEqual(
processor.model_input_names, feature_extractor.model_input_names, msg='''`processor` and `feature_extractor` model input names do not match''', )
@staticmethod
def lowercase__ ( lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =[d[key] for d in offsets]
return retrieved_list
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =self._get_dummy_logits()[0]
lowerCamelCase_ =processor.decode(lowerCAmelCase, output_word_offsets=lowerCAmelCase )
# check Wav2Vec2CTCTokenizerOutput keys for word
self.assertEqual(len(outputs.keys() ), 4 )
self.assertTrue('''text''' in outputs )
self.assertTrue('''word_offsets''' in outputs )
self.assertTrue(isinstance(lowerCAmelCase, lowerCAmelCase ) )
self.assertEqual(''' '''.join(self.get_from_offsets(outputs['''word_offsets'''], '''word''' ) ), outputs.text )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''word''' ), ['''<s>''', '''<s>''', '''</s>'''] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''start_offset''' ), [0, 2, 4] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''end_offset''' ), [1, 3, 5] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase, output_word_offsets=lowerCAmelCase )
# check Wav2Vec2CTCTokenizerOutput keys for word
self.assertEqual(len(outputs.keys() ), 4 )
self.assertTrue('''text''' in outputs )
self.assertTrue('''word_offsets''' in outputs )
self.assertTrue(isinstance(lowerCAmelCase, lowerCAmelCase ) )
self.assertListEqual(
[''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ) for o in outputs['''word_offsets''']], outputs.text )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''word''' ), ['''<s>''', '''<s>''', '''</s>'''] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''start_offset''' ), [0, 2, 4] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''end_offset''' ), [1, 3, 5] )
@slow
@require_torch
@require_torchaudio
def lowercase__ ( self ):
"""simple docstring"""
import torch
lowerCamelCase_ =load_dataset('''common_voice''', '''en''', split='''train''', streaming=lowerCAmelCase )
lowerCamelCase_ =ds.cast_column('''audio''', datasets.Audio(sampling_rate=16_000 ) )
lowerCamelCase_ =iter(lowerCAmelCase )
lowerCamelCase_ =next(lowerCAmelCase )
lowerCamelCase_ =AutoProcessor.from_pretrained('''patrickvonplaten/wav2vec2-base-100h-with-lm''' )
lowerCamelCase_ =WavaVecaForCTC.from_pretrained('''patrickvonplaten/wav2vec2-base-100h-with-lm''' )
# compare to filename `common_voice_en_100038.mp3` of dataset viewer on https://huggingface.co/datasets/common_voice/viewer/en/train
lowerCamelCase_ =processor(sample['''audio''']['''array'''], return_tensors='''pt''' ).input_values
with torch.no_grad():
lowerCamelCase_ =model(lowerCAmelCase ).logits.cpu().numpy()
lowerCamelCase_ =processor.decode(logits[0], output_word_offsets=lowerCAmelCase )
lowerCamelCase_ =model.config.inputs_to_logits_ratio / processor.feature_extractor.sampling_rate
lowerCamelCase_ =[
{
'''start_time''': d['''start_offset'''] * time_offset,
'''end_time''': d['''end_offset'''] * time_offset,
'''word''': d['''word'''],
}
for d in output['''word_offsets''']
]
lowerCamelCase_ ='''WHY DOES MILISANDRA LOOK LIKE SHE WANTS TO CONSUME JOHN SNOW ON THE RIVER AT THE WALL'''
# output words
self.assertEqual(''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ), lowerCAmelCase )
self.assertEqual(''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ), output.text )
# output times
lowerCamelCase_ =torch.tensor(self.get_from_offsets(lowerCAmelCase, '''start_time''' ) )
lowerCamelCase_ =torch.tensor(self.get_from_offsets(lowerCAmelCase, '''end_time''' ) )
# fmt: off
lowerCamelCase_ =torch.tensor([1.4_1_9_9, 1.6_5_9_9, 2.2_5_9_9, 3.0, 3.2_4, 3.5_9_9_9, 3.7_9_9_9, 4.0_9_9_9, 4.2_6, 4.9_4, 5.2_8, 5.6_5_9_9, 5.7_8, 5.9_4, 6.3_2, 6.5_3_9_9, 6.6_5_9_9] )
lowerCamelCase_ =torch.tensor([1.5_3_9_9, 1.8_9_9_9, 2.9, 3.1_6, 3.5_3_9_9, 3.7_2, 4.0_1_9_9, 4.1_7_9_9, 4.7_6, 5.1_5_9_9, 5.5_5_9_9, 5.6_9_9_9, 5.8_6, 6.1_9_9_9, 6.3_8, 6.6_1_9_9, 6.9_4] )
# fmt: on
self.assertTrue(torch.allclose(lowerCAmelCase, lowerCAmelCase, atol=0.0_1 ) )
self.assertTrue(torch.allclose(lowerCAmelCase, lowerCAmelCase, atol=0.0_1 ) )
| 75 | 0 |
import json
from typing import TYPE_CHECKING, List, Optional, Tuple
from tokenizers import pre_tokenizers
from ...tokenization_utils_base import BatchEncoding
from ...tokenization_utils_fast import PreTrainedTokenizerFast
from ...utils import logging
if TYPE_CHECKING:
from transformers.pipelines.conversational import Conversation
lowercase__ :Tuple = logging.get_logger(__name__)
lowercase__ :Dict = {"tokenizer_file": "tokenizer.json"}
lowercase__ :Dict = {
"tokenizer_file": {
"bigscience/tokenizer": "https://huggingface.co/bigscience/tokenizer/blob/main/tokenizer.json",
"bigscience/bloom-560m": "https://huggingface.co/bigscience/bloom-560m/blob/main/tokenizer.json",
"bigscience/bloom-1b1": "https://huggingface.co/bigscience/bloom-1b1/blob/main/tokenizer.json",
"bigscience/bloom-1b7": "https://huggingface.co/bigscience/bloom-1b7/blob/main/tokenizer.json",
"bigscience/bloom-3b": "https://huggingface.co/bigscience/bloom-3b/blob/main/tokenizer.json",
"bigscience/bloom-7b1": "https://huggingface.co/bigscience/bloom-7b1/blob/main/tokenizer.json",
"bigscience/bloom": "https://huggingface.co/bigscience/bloom/blob/main/tokenizer.json",
},
}
class lowercase ( SCREAMING_SNAKE_CASE__ ):
lowercase_ : Optional[int] =VOCAB_FILES_NAMES
lowercase_ : Union[str, Any] =PRETRAINED_VOCAB_FILES_MAP
lowercase_ : Any =['''input_ids''', '''attention_mask''']
lowercase_ : List[str] =None
def __init__( self ,A__=None ,A__=None ,A__=None ,A__="<unk>" ,A__="<s>" ,A__="</s>" ,A__="<pad>" ,A__=False ,A__=False ,**A__ ,):
super().__init__(
A__ ,A__ ,tokenizer_file=A__ ,unk_token=A__ ,bos_token=A__ ,eos_token=A__ ,pad_token=A__ ,add_prefix_space=A__ ,clean_up_tokenization_spaces=A__ ,**A__ ,)
lowercase = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__())
if pre_tok_state.get('''add_prefix_space''' ,A__) != add_prefix_space:
lowercase = getattr(A__ ,pre_tok_state.pop('''type'''))
lowercase = add_prefix_space
lowercase = pre_tok_class(**A__)
lowercase = add_prefix_space
def A__ ( self ,*A__ ,**A__):
lowercase = kwargs.get('''is_split_into_words''' ,A__)
if not (self.add_prefix_space or not is_split_into_words):
raise Exception(
f'You need to instantiate {self.__class__.__name__} with add_prefix_space=True to use it with'
''' pretokenized inputs.''')
return super()._batch_encode_plus(*A__ ,**A__)
def A__ ( self ,*A__ ,**A__):
lowercase = kwargs.get('''is_split_into_words''' ,A__)
if not (self.add_prefix_space or not is_split_into_words):
raise Exception(
f'You need to instantiate {self.__class__.__name__} with add_prefix_space=True to use it with'
''' pretokenized inputs.''')
return super()._encode_plus(*A__ ,**A__)
def A__ ( self ,A__ ,A__ = None):
lowercase = self._tokenizer.model.save(A__ ,name=A__)
return tuple(A__)
def A__ ( self ,A__):
lowercase = []
for is_user, text in conversation.iter_texts():
input_ids.extend(self.encode(A__ ,add_special_tokens=A__) + [self.eos_token_id])
if len(A__) > self.model_max_length:
lowercase = input_ids[-self.model_max_length :]
return input_ids
| 101 |
'''simple docstring'''
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
DDIMScheduler,
EulerAncestralDiscreteScheduler,
LMSDiscreteScheduler,
PNDMScheduler,
StableDiffusionInstructPixaPixPipeline,
UNetaDConditionModel,
)
from diffusers.image_processor import VaeImageProcessor
from diffusers.utils import floats_tensor, load_image, slow, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..pipeline_params import (
IMAGE_TO_IMAGE_IMAGE_PARAMS,
TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class __UpperCamelCase ( lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
lowercase : List[Any] =StableDiffusionInstructPixaPixPipeline
lowercase : List[Any] =TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'height', 'width', 'cross_attention_kwargs'}
lowercase : Optional[Any] =TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS
lowercase : Union[str, Any] =IMAGE_TO_IMAGE_IMAGE_PARAMS
lowercase : List[Any] =IMAGE_TO_IMAGE_IMAGE_PARAMS
def lowercase__ ( self ):
"""simple docstring"""
torch.manual_seed(0 )
lowerCamelCase_ =UNetaDConditionModel(
block_out_channels=(32, 64), layers_per_block=2, sample_size=32, in_channels=8, out_channels=4, down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D'''), up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D'''), cross_attention_dim=32, )
lowerCamelCase_ =PNDMScheduler(skip_prk_steps=lowerCAmelCase )
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-05, num_attention_heads=4, num_hidden_layers=5, pad_token_id=1, vocab_size=1_000, )
lowerCamelCase_ =CLIPTextModel(lowerCAmelCase )
lowerCamelCase_ =CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' )
lowerCamelCase_ ={
'''unet''': unet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase=0 ):
"""simple docstring"""
lowerCamelCase_ =floats_tensor((1, 3, 32, 32), rng=random.Random(lowerCAmelCase ) ).to(lowerCAmelCase )
lowerCamelCase_ =image.cpu().permute(0, 2, 3, 1 )[0]
lowerCamelCase_ =Image.fromarray(np.uinta(lowerCAmelCase ) ).convert('''RGB''' )
if str(lowerCAmelCase ).startswith('''mps''' ):
lowerCamelCase_ =torch.manual_seed(lowerCAmelCase )
else:
lowerCamelCase_ =torch.Generator(device=lowerCAmelCase ).manual_seed(lowerCAmelCase )
lowerCamelCase_ ={
'''prompt''': '''A painting of a squirrel eating a burger''',
'''image''': image,
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''image_guidance_scale''': 1,
'''output_type''': '''numpy''',
}
return inputs
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1]
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_5_2_6, 0.3_7_5_0, 0.4_5_4_7, 0.6_1_1_7, 0.5_8_6_6, 0.5_0_1_6, 0.4_3_2_7, 0.5_6_4_2, 0.4_8_1_5] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ ='''french fries'''
lowerCamelCase_ =sd_pipe(**lowerCAmelCase, negative_prompt=lowerCAmelCase )
lowerCamelCase_ =output.images
lowerCamelCase_ =image[0, -3:, -3:, -1]
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_5_1_1, 0.3_6_4_2, 0.4_5_5_3, 0.6_2_3_6, 0.5_7_9_7, 0.5_0_1_3, 0.4_3_4_3, 0.5_6_1_1, 0.4_8_3_1] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =[inputs['''prompt''']] * 2
lowerCamelCase_ =np.array(inputs['''image'''] ).astype(np.floataa ) / 2_5_5.0
lowerCamelCase_ =torch.from_numpy(lowerCAmelCase ).unsqueeze(0 ).to(lowerCAmelCase )
lowerCamelCase_ =image / 2 + 0.5
lowerCamelCase_ =image.permute(0, 3, 1, 2 )
lowerCamelCase_ =image.repeat(2, 1, 1, 1 )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[-1, -3:, -3:, -1]
assert image.shape == (2, 32, 32, 3)
lowerCamelCase_ =np.array([0.5_8_1_2, 0.5_7_4_8, 0.5_2_2_2, 0.5_9_0_8, 0.5_6_9_5, 0.7_1_7_4, 0.6_8_0_4, 0.5_5_2_3, 0.5_5_7_9] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =EulerAncestralDiscreteScheduler(
beta_start=0.0_0_0_8_5, beta_end=0.0_1_2, beta_schedule='''scaled_linear''' )
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1]
lowerCamelCase_ =[round(lowerCAmelCase, 4 ) for x in image_slice.flatten().tolist()]
print(''','''.join([str(lowerCAmelCase ) for x in slice] ) )
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_4_1_7, 0.3_8_4_2, 0.4_7_3_2, 0.5_7_7_6, 0.5_8_9_1, 0.5_1_3_9, 0.4_0_5_2, 0.5_6_7_3, 0.4_9_8_6] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
super().test_inference_batch_single_identical(expected_max_diff=3e-3 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =VaeImageProcessor(do_resize=lowerCAmelCase, do_normalize=lowerCAmelCase )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =pipe(**self.get_dummy_inputs_by_type(lowerCAmelCase, input_image_type='''pt''' ) )[0]
lowerCamelCase_ =components['''vae''']
lowerCamelCase_ =self.get_dummy_inputs_by_type(lowerCAmelCase, input_image_type='''pt''' )
for image_param in self.image_latents_params:
if image_param in inputs.keys():
lowerCamelCase_ =vae.encode(inputs[image_param] ).latent_dist.mode()
lowerCamelCase_ =pipe(**lowerCAmelCase )[0]
lowerCamelCase_ =np.abs(out - out_latents_inputs ).max()
self.assertLess(lowerCAmelCase, 1e-4, '''passing latents as image input generate different result from passing image''' )
@slow
@require_torch_gpu
class __UpperCamelCase ( unittest.TestCase ):
def lowercase__ ( self ):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowercase__ ( self, lowerCAmelCase=0 ):
"""simple docstring"""
lowerCamelCase_ =torch.manual_seed(lowerCAmelCase )
lowerCamelCase_ =load_image(
'''https://huggingface.co/datasets/diffusers/test-arrays/resolve/main/stable_diffusion_pix2pix/example.jpg''' )
lowerCamelCase_ ={
'''prompt''': '''turn him into a cyborg''',
'''image''': image,
'''generator''': generator,
'''num_inference_steps''': 3,
'''guidance_scale''': 7.5,
'''image_guidance_scale''': 1.0,
'''output_type''': '''numpy''',
}
return inputs
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.5_9_0_2, 0.6_0_1_5, 0.6_0_2_7, 0.5_9_8_3, 0.6_0_9_2, 0.6_0_6_1, 0.5_7_6_5, 0.5_7_8_5, 0.5_5_5_5] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
lowerCamelCase_ =LMSDiscreteScheduler.from_config(pipe.scheduler.config )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.6_5_7_8, 0.6_8_1_7, 0.6_9_7_2, 0.6_7_6_1, 0.6_8_5_6, 0.6_9_1_6, 0.6_4_2_8, 0.6_5_1_6, 0.6_3_0_1] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
lowerCamelCase_ =DDIMScheduler.from_config(pipe.scheduler.config )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.3_8_2_8, 0.3_8_3_4, 0.3_8_1_8, 0.3_7_9_2, 0.3_8_6_5, 0.3_7_5_2, 0.3_7_9_2, 0.3_8_4_7, 0.3_7_5_3] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =0
def callback_fn(lowerCAmelCase, lowerCAmelCase, lowerCAmelCase ) -> None:
lowerCamelCase_ =True
nonlocal number_of_steps
number_of_steps += 1
if step == 1:
lowerCamelCase_ =latents.detach().cpu().numpy()
assert latents.shape == (1, 4, 64, 64)
lowerCamelCase_ =latents[0, -3:, -3:, -1]
lowerCamelCase_ =np.array([-0.2_4_6_3, -0.4_6_4_4, -0.9_7_5_6, 1.5_1_7_6, 1.4_4_1_4, 0.7_8_6_6, 0.9_8_9_7, 0.8_5_2_1, 0.7_9_8_3] )
assert np.abs(latents_slice.flatten() - expected_slice ).max() < 5e-2
elif step == 2:
lowerCamelCase_ =latents.detach().cpu().numpy()
assert latents.shape == (1, 4, 64, 64)
lowerCamelCase_ =latents[0, -3:, -3:, -1]
lowerCamelCase_ =np.array([-0.2_6_4_4, -0.4_6_2_6, -0.9_6_5_3, 1.5_1_7_6, 1.4_5_5_1, 0.7_6_8_6, 0.9_8_0_5, 0.8_4_5_2, 0.8_1_1_5] )
assert np.abs(latents_slice.flatten() - expected_slice ).max() < 5e-2
lowerCamelCase_ =False
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase, torch_dtype=torch.floataa )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
pipe(**lowerCAmelCase, callback=lowerCAmelCase, callback_steps=1 )
assert callback_fn.has_been_called
assert number_of_steps == 3
def lowercase__ ( self ):
"""simple docstring"""
torch.cuda.empty_cache()
torch.cuda.reset_max_memory_allocated()
torch.cuda.reset_peak_memory_stats()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase, torch_dtype=torch.floataa )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing(1 )
pipe.enable_sequential_cpu_offload()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase )
lowerCamelCase_ =torch.cuda.max_memory_allocated()
# make sure that less than 2.2 GB is allocated
assert mem_bytes < 2.2 * 10**9
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_inputs()
# resize to resolution that is divisible by 8 but not 16 or 32
lowerCamelCase_ =inputs['''image'''].resize((504, 504) )
lowerCamelCase_ ='''timbrooks/instruct-pix2pix'''
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
lowerCAmelCase, safety_checker=lowerCAmelCase, )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =pipe(**lowerCAmelCase )
lowerCamelCase_ =output.images[0]
lowerCamelCase_ =image[255:258, 383:386, -1]
assert image.shape == (504, 504, 3)
lowerCamelCase_ =np.array([0.2_7_2_6, 0.2_5_2_9, 0.2_6_6_4, 0.2_6_5_5, 0.2_6_4_1, 0.2_6_4_2, 0.2_5_9_1, 0.2_6_4_9, 0.2_5_9_0] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 5e-3
| 75 | 0 |
"""simple docstring"""
def lowercase ( _snake_case : int , _snake_case : int ) ->int:
"""simple docstring"""
return int((input_a, input_a).count(0 ) != 0 )
def lowercase ( ) ->None:
"""simple docstring"""
assert nand_gate(0 , 0 ) == 1
assert nand_gate(0 , 1 ) == 1
assert nand_gate(1 , 0 ) == 1
assert nand_gate(1 , 1 ) == 0
if __name__ == "__main__":
print(nand_gate(0, 0))
print(nand_gate(0, 1))
print(nand_gate(1, 0))
print(nand_gate(1, 1))
| 102 |
'''simple docstring'''
from __future__ import annotations
import unittest
from transformers import XGLMConfig, XGLMTokenizer, is_tf_available
from transformers.testing_utils import require_tf, slow
from ...test_configuration_common import ConfigTester
from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor, random_attention_mask
from ...test_pipeline_mixin import PipelineTesterMixin
if is_tf_available():
import tensorflow as tf
from transformers.models.xglm.modeling_tf_xglm import (
TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST,
TFXGLMForCausalLM,
TFXGLMModel,
)
@require_tf
class __UpperCamelCase :
lowercase : Union[str, Any] =XGLMConfig
lowercase : Optional[Any] ={}
lowercase : Optional[int] ='gelu'
def __init__( self, lowerCAmelCase, lowerCAmelCase=14, lowerCAmelCase=7, lowerCAmelCase=True, lowerCAmelCase=True, lowerCAmelCase=True, lowerCAmelCase=99, lowerCAmelCase=32, lowerCAmelCase=2, lowerCAmelCase=4, lowerCAmelCase=37, lowerCAmelCase="gelu", lowerCAmelCase=0.1, lowerCAmelCase=0.1, lowerCAmelCase=512, lowerCAmelCase=0.0_2, ):
"""simple docstring"""
lowerCamelCase_ =parent
lowerCamelCase_ =batch_size
lowerCamelCase_ =seq_length
lowerCamelCase_ =is_training
lowerCamelCase_ =use_input_mask
lowerCamelCase_ =use_labels
lowerCamelCase_ =vocab_size
lowerCamelCase_ =d_model
lowerCamelCase_ =num_hidden_layers
lowerCamelCase_ =num_attention_heads
lowerCamelCase_ =ffn_dim
lowerCamelCase_ =activation_function
lowerCamelCase_ =activation_dropout
lowerCamelCase_ =attention_dropout
lowerCamelCase_ =max_position_embeddings
lowerCamelCase_ =initializer_range
lowerCamelCase_ =None
lowerCamelCase_ =0
lowerCamelCase_ =2
lowerCamelCase_ =1
def lowercase__ ( self ):
"""simple docstring"""
return XGLMConfig.from_pretrained('''facebook/xglm-564M''' )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =tf.clip_by_value(
ids_tensor([self.batch_size, self.seq_length], self.vocab_size ), clip_value_min=0, clip_value_max=3 )
lowerCamelCase_ =None
if self.use_input_mask:
lowerCamelCase_ =random_attention_mask([self.batch_size, self.seq_length] )
lowerCamelCase_ =self.get_config()
lowerCamelCase_ =floats_tensor([self.num_hidden_layers, self.num_attention_heads], 2 )
return (
config,
input_ids,
input_mask,
head_mask,
)
def lowercase__ ( self ):
"""simple docstring"""
return XGLMConfig(
vocab_size=self.vocab_size, d_model=self.hidden_size, num_layers=self.num_hidden_layers, attention_heads=self.num_attention_heads, ffn_dim=self.ffn_dim, activation_function=self.activation_function, activation_dropout=self.activation_dropout, attention_dropout=self.attention_dropout, max_position_embeddings=self.max_position_embeddings, initializer_range=self.initializer_range, use_cache=lowerCAmelCase, bos_token_id=self.bos_token_id, eos_token_id=self.eos_token_id, pad_token_id=self.pad_token_id, return_dict=lowerCAmelCase, )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.prepare_config_and_inputs()
(
(
lowerCamelCase_
), (
lowerCamelCase_
), (
lowerCamelCase_
), (
lowerCamelCase_
),
) =config_and_inputs
lowerCamelCase_ ={
'''input_ids''': input_ids,
'''head_mask''': head_mask,
}
return config, inputs_dict
@require_tf
class __UpperCamelCase ( lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
lowercase : int =(TFXGLMModel, TFXGLMForCausalLM) if is_tf_available() else ()
lowercase : Optional[Any] =(TFXGLMForCausalLM,) if is_tf_available() else ()
lowercase : Tuple =(
{'feature-extraction': TFXGLMModel, 'text-generation': TFXGLMForCausalLM} if is_tf_available() else {}
)
lowercase : Optional[Any] =False
lowercase : Optional[Any] =False
lowercase : Optional[int] =False
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMModelTester(self )
lowerCamelCase_ =ConfigTester(self, config_class=lowerCAmelCase, n_embd=37 )
def lowercase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
@slow
def lowercase__ ( self ):
"""simple docstring"""
for model_name in TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
lowerCamelCase_ =TFXGLMModel.from_pretrained(lowerCAmelCase )
self.assertIsNotNone(lowerCAmelCase )
@unittest.skip(reason='''Currently, model embeddings are going to undergo a major refactor.''' )
def lowercase__ ( self ):
"""simple docstring"""
super().test_resize_token_embeddings()
@require_tf
class __UpperCamelCase ( unittest.TestCase ):
@slow
def lowercase__ ( self, lowerCAmelCase=True ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =tf.convert_to_tensor([[2, 268, 9_865]], dtype=tf.intaa ) # The dog
# </s> The dog is a very friendly dog. He is very affectionate and loves to play with other
# fmt: off
lowerCamelCase_ =[2, 268, 9_865, 67, 11, 1_988, 57_252, 9_865, 5, 984, 67, 1_988, 213_838, 1_658, 53, 70_446, 33, 6_657, 278, 1_581]
# fmt: on
lowerCamelCase_ =model.generate(lowerCAmelCase, do_sample=lowerCAmelCase, num_beams=1 )
if verify_outputs:
self.assertListEqual(output_ids[0].numpy().tolist(), lowerCAmelCase )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =XGLMTokenizer.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
tf.random.set_seed(0 )
lowerCamelCase_ =tokenizer('''Today is a nice day and''', return_tensors='''tf''' )
lowerCamelCase_ =tokenized.input_ids
# forces the generation to happen on CPU, to avoid GPU-related quirks (and assure same output regardless of the available devices)
with tf.device(''':/CPU:0''' ):
lowerCamelCase_ =model.generate(lowerCAmelCase, do_sample=lowerCAmelCase, seed=[7, 0] )
lowerCamelCase_ =tokenizer.decode(output_ids[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =(
'''Today is a nice day and warm evening here over Southern Alberta!! Today when they closed schools due'''
)
self.assertEqual(lowerCAmelCase, lowerCAmelCase )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =XGLMTokenizer.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ ='''left'''
# use different length sentences to test batching
lowerCamelCase_ =[
'''This is an extremelly long sentence that only exists to test the ability of the model to cope with '''
'''left-padding, such as in batched generation. The output for the sequence below should be the same '''
'''regardless of whether left padding is applied or not. When''',
'''Hello, my dog is a little''',
]
lowerCamelCase_ =tokenizer(lowerCAmelCase, return_tensors='''tf''', padding=lowerCAmelCase )
lowerCamelCase_ =inputs['''input_ids''']
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, attention_mask=inputs['''attention_mask'''], max_new_tokens=12 )
lowerCamelCase_ =tokenizer(sentences[0], return_tensors='''tf''' ).input_ids
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, max_new_tokens=12 )
lowerCamelCase_ =tokenizer(sentences[1], return_tensors='''tf''' ).input_ids
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, max_new_tokens=12 )
lowerCamelCase_ =tokenizer.batch_decode(lowerCAmelCase, skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =tokenizer.decode(output_non_padded[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =tokenizer.decode(output_padded[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =[
'''This is an extremelly long sentence that only exists to test the ability of the model to cope with '''
'''left-padding, such as in batched generation. The output for the sequence below should be the same '''
'''regardless of whether left padding is applied or not. When left padding is applied, the sequence will be '''
'''a single''',
'''Hello, my dog is a little bit of a shy one, but he is very friendly''',
]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(lowerCAmelCase, [non_padded_sentence, padded_sentence] )
| 75 | 0 |
import sys
import tempfile
import unittest
import unittest.mock as mock
from pathlib import Path
from huggingface_hub import HfFolder, delete_repo
from requests.exceptions import HTTPError
from transformers import AutoImageProcessor, ViTImageProcessor
from transformers.testing_utils import TOKEN, USER, get_tests_dir, is_staging_test
sys.path.append(str(Path(__file__).parent.parent / '''utils'''))
from test_module.custom_image_processing import CustomImageProcessor # noqa E402
A__ : List[Any] = get_tests_dir('''fixtures''')
class __snake_case ( unittest.TestCase ):
def UpperCAmelCase__ ( self : List[str]):
# A mock response for an HTTP head request to emulate server down
lowerCAmelCase_ : Tuple = mock.Mock()
lowerCAmelCase_ : Tuple = 5_0_0
lowerCAmelCase_ : Dict = {}
lowerCAmelCase_ : Any = HTTPError
lowerCAmelCase_ : Optional[int] = {}
# Download this model to make sure it's in the cache.
lowerCAmelCase_ : Any = ViTImageProcessor.from_pretrained('''hf-internal-testing/tiny-random-vit''')
# Under the mock environment we get a 500 error when trying to reach the model.
with mock.patch('''requests.Session.request''' , return_value=A_) as mock_head:
lowerCAmelCase_ : Optional[Any] = ViTImageProcessor.from_pretrained('''hf-internal-testing/tiny-random-vit''')
# This check we did call the fake head request
mock_head.assert_called()
def UpperCAmelCase__ ( self : List[Any]):
# This test is for deprecated behavior and can be removed in v5
lowerCAmelCase_ : Tuple = ViTImageProcessor.from_pretrained(
'''https://huggingface.co/hf-internal-testing/tiny-random-vit/resolve/main/preprocessor_config.json''')
def UpperCAmelCase__ ( self : List[str]):
with self.assertRaises(A_):
# config is in subfolder, the following should not work without specifying the subfolder
lowerCAmelCase_ : int = AutoImageProcessor.from_pretrained('''hf-internal-testing/stable-diffusion-all-variants''')
lowerCAmelCase_ : Tuple = AutoImageProcessor.from_pretrained(
'''hf-internal-testing/stable-diffusion-all-variants''' , subfolder='''feature_extractor''')
self.assertIsNotNone(A_)
@is_staging_test
class __snake_case ( unittest.TestCase ):
@classmethod
def UpperCAmelCase__ ( cls : Optional[int]):
lowerCAmelCase_ : Union[str, Any] = TOKEN
HfFolder.save_token(A_)
@classmethod
def UpperCAmelCase__ ( cls : int):
try:
delete_repo(token=cls._token , repo_id='''test-image-processor''')
except HTTPError:
pass
try:
delete_repo(token=cls._token , repo_id='''valid_org/test-image-processor-org''')
except HTTPError:
pass
try:
delete_repo(token=cls._token , repo_id='''test-dynamic-image-processor''')
except HTTPError:
pass
def UpperCAmelCase__ ( self : Any):
lowerCAmelCase_ : List[str] = ViTImageProcessor.from_pretrained(A_)
image_processor.push_to_hub('''test-image-processor''' , use_auth_token=self._token)
lowerCAmelCase_ : List[str] = ViTImageProcessor.from_pretrained(F"""{USER}/test-image-processor""")
for k, v in image_processor.__dict__.items():
self.assertEqual(A_ , getattr(A_ , A_))
# Reset repo
delete_repo(token=self._token , repo_id='''test-image-processor''')
# Push to hub via save_pretrained
with tempfile.TemporaryDirectory() as tmp_dir:
image_processor.save_pretrained(
A_ , repo_id='''test-image-processor''' , push_to_hub=A_ , use_auth_token=self._token)
lowerCAmelCase_ : Tuple = ViTImageProcessor.from_pretrained(F"""{USER}/test-image-processor""")
for k, v in image_processor.__dict__.items():
self.assertEqual(A_ , getattr(A_ , A_))
def UpperCAmelCase__ ( self : List[str]):
lowerCAmelCase_ : Dict = ViTImageProcessor.from_pretrained(A_)
image_processor.push_to_hub('''valid_org/test-image-processor''' , use_auth_token=self._token)
lowerCAmelCase_ : int = ViTImageProcessor.from_pretrained('''valid_org/test-image-processor''')
for k, v in image_processor.__dict__.items():
self.assertEqual(A_ , getattr(A_ , A_))
# Reset repo
delete_repo(token=self._token , repo_id='''valid_org/test-image-processor''')
# Push to hub via save_pretrained
with tempfile.TemporaryDirectory() as tmp_dir:
image_processor.save_pretrained(
A_ , repo_id='''valid_org/test-image-processor-org''' , push_to_hub=A_ , use_auth_token=self._token)
lowerCAmelCase_ : Dict = ViTImageProcessor.from_pretrained('''valid_org/test-image-processor-org''')
for k, v in image_processor.__dict__.items():
self.assertEqual(A_ , getattr(A_ , A_))
def UpperCAmelCase__ ( self : Union[str, Any]):
CustomImageProcessor.register_for_auto_class()
lowerCAmelCase_ : Optional[int] = CustomImageProcessor.from_pretrained(A_)
image_processor.push_to_hub('''test-dynamic-image-processor''' , use_auth_token=self._token)
# This has added the proper auto_map field to the config
self.assertDictEqual(
image_processor.auto_map , {'''AutoImageProcessor''': '''custom_image_processing.CustomImageProcessor'''} , )
lowerCAmelCase_ : List[Any] = AutoImageProcessor.from_pretrained(
F"""{USER}/test-dynamic-image-processor""" , trust_remote_code=A_)
# Can't make an isinstance check because the new_image_processor is from the CustomImageProcessor class of a dynamic module
self.assertEqual(new_image_processor.__class__.__name__ , '''CustomImageProcessor''')
| 103 |
'''simple docstring'''
import unittest
from transformers import MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING, is_vision_available, 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 __UpperCamelCase :
@staticmethod
def lowercase__ ( *lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
pass
@is_pipeline_test
@require_vision
@require_torch
class __UpperCamelCase ( unittest.TestCase ):
lowercase : int =MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =pipeline(
'''zero-shot-object-detection''', model='''hf-internal-testing/tiny-random-owlvit-object-detection''' )
lowerCamelCase_ =[
{
'''image''': '''./tests/fixtures/tests_samples/COCO/000000039769.png''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
}
]
return object_detector, examples
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =object_detector(examples[0], threshold=0.0 )
lowerCamelCase_ =len(lowerCAmelCase )
self.assertGreater(lowerCAmelCase, 0 )
self.assertEqual(
lowerCAmelCase, [
{
'''score''': ANY(lowerCAmelCase ),
'''label''': ANY(lowerCAmelCase ),
'''box''': {'''xmin''': ANY(lowerCAmelCase ), '''ymin''': ANY(lowerCAmelCase ), '''xmax''': ANY(lowerCAmelCase ), '''ymax''': ANY(lowerCAmelCase )},
}
for i in range(lowerCAmelCase )
], )
@require_tf
@unittest.skip('''Zero Shot Object Detection not implemented in TF''' )
def lowercase__ ( self ):
"""simple docstring"""
pass
@require_torch
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =pipeline(
'''zero-shot-object-detection''', model='''hf-internal-testing/tiny-random-owlvit-object-detection''' )
lowerCamelCase_ =object_detector(
'''./tests/fixtures/tests_samples/COCO/000000039769.png''', candidate_labels=['''cat''', '''remote''', '''couch'''], threshold=0.6_4, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.7_2_3_5, '''label''': '''cat''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_2_1_8, '''label''': '''remote''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_1_8_4, '''label''': '''couch''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.6_7_4_8, '''label''': '''remote''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_5_6, '''label''': '''cat''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_1_4, '''label''': '''couch''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_4_5_6, '''label''': '''remote''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
{'''score''': 0.6_4_2, '''label''': '''remote''', '''box''': {'''xmin''': 67, '''ymin''': 274, '''xmax''': 93, '''ymax''': 297}},
{'''score''': 0.6_4_1_9, '''label''': '''cat''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
], )
lowerCamelCase_ =object_detector(
[
{
'''image''': '''./tests/fixtures/tests_samples/COCO/000000039769.png''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
}
], threshold=0.6_4, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
[
{'''score''': 0.7_2_3_5, '''label''': '''cat''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_2_1_8, '''label''': '''remote''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_1_8_4, '''label''': '''couch''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.6_7_4_8, '''label''': '''remote''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_5_6, '''label''': '''cat''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_1_4, '''label''': '''couch''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_4_5_6, '''label''': '''remote''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
{'''score''': 0.6_4_2, '''label''': '''remote''', '''box''': {'''xmin''': 67, '''ymin''': 274, '''xmax''': 93, '''ymax''': 297}},
{'''score''': 0.6_4_1_9, '''label''': '''cat''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
]
], )
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
], )
lowerCamelCase_ =object_detector(
[
{
'''image''': '''http://images.cocodataset.org/val2017/000000039769.jpg''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
},
{
'''image''': '''http://images.cocodataset.org/val2017/000000039769.jpg''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
},
], )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
[
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
],
[
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
],
], )
@require_tf
@unittest.skip('''Zero Shot Object Detection not implemented in TF''' )
def lowercase__ ( self ):
"""simple docstring"""
pass
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =0.2
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], threshold=lowerCAmelCase, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
], )
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =2
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], top_k=lowerCAmelCase, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
], )
| 75 | 0 |
'''simple docstring'''
import argparse
import json
import logging
import os
import shutil
import sys
import tempfile
import unittest
from unittest import mock
import torch
from accelerate.utils import write_basic_config
from transformers.testing_utils import TestCasePlus, get_gpu_count, run_command, slow, torch_device
from transformers.utils import is_apex_available
logging.basicConfig(level=logging.DEBUG)
lowerCAmelCase__ = logging.getLogger()
def _A ( ):
"""simple docstring"""
__lowercase = argparse.ArgumentParser()
parser.add_argument('''-f''' )
__lowercase = parser.parse_args()
return args.f
def _A ( A__ ):
"""simple docstring"""
__lowercase = {}
__lowercase = os.path.join(A__ , '''all_results.json''' )
if os.path.exists(A__ ):
with open(A__ , '''r''' ) as f:
__lowercase = json.load(A__ )
else:
raise ValueError(F"can't find {path}" )
return results
def _A ( ):
"""simple docstring"""
__lowercase = torch.cuda.is_available() and torch_device == '''cuda'''
return is_using_cuda and is_apex_available()
lowerCAmelCase__ = logging.StreamHandler(sys.stdout)
logger.addHandler(stream_handler)
class lowercase_ (lowerCamelCase__ ):
"""simple docstring"""
@classmethod
def SCREAMING_SNAKE_CASE ( cls : List[str] ):
# Write Accelerate config, will pick up on CPU, GPU, and multi-GPU
__lowercase = tempfile.mkdtemp()
__lowercase = os.path.join(cls.tmpdir ,'''default_config.yml''' )
write_basic_config(save_location=cls.configPath )
__lowercase = ['''accelerate''', '''launch''', '''--config_file''', cls.configPath]
@classmethod
def SCREAMING_SNAKE_CASE ( cls : str ):
shutil.rmtree(cls.tmpdir )
@mock.patch.dict(os.environ ,{'''WANDB_MODE''': '''offline'''} )
def SCREAMING_SNAKE_CASE ( self : Any ):
__lowercase = self.get_auto_remove_tmp_dir()
__lowercase = F"\n {self.examples_dir}/pytorch/text-classification/run_glue_no_trainer.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 --seed=42\n --checkpointing_steps epoch\n --with_tracking\n ".split()
if is_cuda_and_apex_available():
testargs.append('''--fp16''' )
run_command(self._launch_args + testargs )
__lowercase = get_results(lowercase__ )
self.assertGreaterEqual(result['''eval_accuracy'''] ,0.7_5 )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''epoch_0''' ) ) )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''glue_no_trainer''' ) ) )
@mock.patch.dict(os.environ ,{'''WANDB_MODE''': '''offline'''} )
def SCREAMING_SNAKE_CASE ( self : Optional[int] ):
__lowercase = self.get_auto_remove_tmp_dir()
__lowercase = F"\n {self.examples_dir}/pytorch/language-modeling/run_clm_no_trainer.py\n --model_name_or_path distilgpt2\n --train_file ./tests/fixtures/sample_text.txt\n --validation_file ./tests/fixtures/sample_text.txt\n --block_size 128\n --per_device_train_batch_size 5\n --per_device_eval_batch_size 5\n --num_train_epochs 2\n --output_dir {tmp_dir}\n --checkpointing_steps epoch\n --with_tracking\n ".split()
if torch.cuda.device_count() > 1:
# Skipping because there are not enough batches to train the model + would need a drop_last to work.
return
run_command(self._launch_args + testargs )
__lowercase = get_results(lowercase__ )
self.assertLess(result['''perplexity'''] ,1_0_0 )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''epoch_0''' ) ) )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''clm_no_trainer''' ) ) )
@mock.patch.dict(os.environ ,{'''WANDB_MODE''': '''offline'''} )
def SCREAMING_SNAKE_CASE ( self : Optional[int] ):
__lowercase = self.get_auto_remove_tmp_dir()
__lowercase = F"\n {self.examples_dir}/pytorch/language-modeling/run_mlm_no_trainer.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 --num_train_epochs=1\n --checkpointing_steps epoch\n --with_tracking\n ".split()
run_command(self._launch_args + testargs )
__lowercase = get_results(lowercase__ )
self.assertLess(result['''perplexity'''] ,4_2 )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''epoch_0''' ) ) )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''mlm_no_trainer''' ) ) )
@mock.patch.dict(os.environ ,{'''WANDB_MODE''': '''offline'''} )
def SCREAMING_SNAKE_CASE ( self : Tuple ):
# with so little data distributed training needs more epochs to get the score on par with 0/1 gpu
__lowercase = 7 if get_gpu_count() > 1 else 2
__lowercase = self.get_auto_remove_tmp_dir()
__lowercase = F"\n {self.examples_dir}/pytorch/token-classification/run_ner_no_trainer.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 --learning_rate=2e-4\n --per_device_train_batch_size=2\n --per_device_eval_batch_size=2\n --num_train_epochs={epochs}\n --seed 7\n --checkpointing_steps epoch\n --with_tracking\n ".split()
run_command(self._launch_args + testargs )
__lowercase = get_results(lowercase__ )
self.assertGreaterEqual(result['''eval_accuracy'''] ,0.7_5 )
self.assertLess(result['''train_loss'''] ,0.5 )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''epoch_0''' ) ) )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''ner_no_trainer''' ) ) )
@unittest.skip(reason='''Fix me @muellerzr''' )
@mock.patch.dict(os.environ ,{'''WANDB_MODE''': '''offline'''} )
def SCREAMING_SNAKE_CASE ( self : Optional[Any] ):
__lowercase = self.get_auto_remove_tmp_dir()
__lowercase = F"\n {self.examples_dir}/pytorch/question-answering/run_qa_no_trainer.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 --seed=42\n --max_train_steps=10\n --num_warmup_steps=2\n --learning_rate=2e-4\n --per_device_train_batch_size=2\n --per_device_eval_batch_size=1\n --checkpointing_steps epoch\n --with_tracking\n ".split()
run_command(self._launch_args + testargs )
__lowercase = get_results(lowercase__ )
# Because we use --version_2_with_negative the testing script uses SQuAD v2 metrics.
self.assertGreaterEqual(result['''eval_f1'''] ,2_8 )
self.assertGreaterEqual(result['''eval_exact'''] ,2_8 )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''epoch_0''' ) ) )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''qa_no_trainer''' ) ) )
@mock.patch.dict(os.environ ,{'''WANDB_MODE''': '''offline'''} )
def SCREAMING_SNAKE_CASE ( self : Dict ):
__lowercase = self.get_auto_remove_tmp_dir()
__lowercase = F"\n {self.examples_dir}/pytorch/multiple-choice/run_swag_no_trainer.py\n --model_name_or_path bert-base-uncased\n --train_file tests/fixtures/tests_samples/swag/sample.json\n --validation_file tests/fixtures/tests_samples/swag/sample.json\n --output_dir {tmp_dir}\n --max_train_steps=20\n --num_warmup_steps=2\n --learning_rate=2e-4\n --per_device_train_batch_size=2\n --per_device_eval_batch_size=1\n --with_tracking\n ".split()
run_command(self._launch_args + testargs )
__lowercase = get_results(lowercase__ )
self.assertGreaterEqual(result['''eval_accuracy'''] ,0.8 )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''swag_no_trainer''' ) ) )
@slow
@mock.patch.dict(os.environ ,{'''WANDB_MODE''': '''offline'''} )
def SCREAMING_SNAKE_CASE ( self : List[str] ):
__lowercase = self.get_auto_remove_tmp_dir()
__lowercase = F"\n {self.examples_dir}/pytorch/summarization/run_summarization_no_trainer.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 --output_dir {tmp_dir}\n --max_train_steps=50\n --num_warmup_steps=8\n --learning_rate=2e-4\n --per_device_train_batch_size=2\n --per_device_eval_batch_size=1\n --checkpointing_steps epoch\n --with_tracking\n ".split()
run_command(self._launch_args + testargs )
__lowercase = get_results(lowercase__ )
self.assertGreaterEqual(result['''eval_rouge1'''] ,1_0 )
self.assertGreaterEqual(result['''eval_rouge2'''] ,2 )
self.assertGreaterEqual(result['''eval_rougeL'''] ,7 )
self.assertGreaterEqual(result['''eval_rougeLsum'''] ,7 )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''epoch_0''' ) ) )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''summarization_no_trainer''' ) ) )
@slow
@mock.patch.dict(os.environ ,{'''WANDB_MODE''': '''offline'''} )
def SCREAMING_SNAKE_CASE ( self : List[Any] ):
__lowercase = self.get_auto_remove_tmp_dir()
__lowercase = F"\n {self.examples_dir}/pytorch/translation/run_translation_no_trainer.py\n --model_name_or_path sshleifer/student_marian_en_ro_6_1\n --source_lang en\n --target_lang ro\n --train_file tests/fixtures/tests_samples/wmt16/sample.json\n --validation_file tests/fixtures/tests_samples/wmt16/sample.json\n --output_dir {tmp_dir}\n --max_train_steps=50\n --num_warmup_steps=8\n --num_beams=6\n --learning_rate=3e-3\n --per_device_train_batch_size=2\n --per_device_eval_batch_size=1\n --source_lang en_XX\n --target_lang ro_RO\n --checkpointing_steps epoch\n --with_tracking\n ".split()
run_command(self._launch_args + testargs )
__lowercase = get_results(lowercase__ )
self.assertGreaterEqual(result['''eval_bleu'''] ,3_0 )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''epoch_0''' ) ) )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''translation_no_trainer''' ) ) )
@slow
def SCREAMING_SNAKE_CASE ( self : str ):
__lowercase = logging.StreamHandler(sys.stdout )
logger.addHandler(lowercase__ )
__lowercase = self.get_auto_remove_tmp_dir()
__lowercase = F"\n {self.examples_dir}/pytorch/semantic-segmentation/run_semantic_segmentation_no_trainer.py\n --dataset_name huggingface/semantic-segmentation-test-sample\n --output_dir {tmp_dir}\n --max_train_steps=10\n --num_warmup_steps=2\n --learning_rate=2e-4\n --per_device_train_batch_size=2\n --per_device_eval_batch_size=1\n --checkpointing_steps epoch\n ".split()
run_command(self._launch_args + testargs )
__lowercase = get_results(lowercase__ )
self.assertGreaterEqual(result['''eval_overall_accuracy'''] ,0.1_0 )
@mock.patch.dict(os.environ ,{'''WANDB_MODE''': '''offline'''} )
def SCREAMING_SNAKE_CASE ( self : Tuple ):
__lowercase = self.get_auto_remove_tmp_dir()
__lowercase = F"\n {self.examples_dir}/pytorch/image-classification/run_image_classification_no_trainer.py\n --model_name_or_path google/vit-base-patch16-224-in21k\n --dataset_name hf-internal-testing/cats_vs_dogs_sample\n --learning_rate 1e-4\n --per_device_train_batch_size 2\n --per_device_eval_batch_size 1\n --max_train_steps 2\n --train_val_split 0.1\n --seed 42\n --output_dir {tmp_dir}\n --with_tracking\n --checkpointing_steps 1\n ".split()
if is_cuda_and_apex_available():
testargs.append('''--fp16''' )
run_command(self._launch_args + testargs )
__lowercase = get_results(lowercase__ )
# The base model scores a 25%
self.assertGreaterEqual(result['''eval_accuracy'''] ,0.6 )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''step_1''' ) ) )
self.assertTrue(os.path.exists(os.path.join(lowercase__ ,'''image_classification_no_trainer''' ) ) )
| 104 |
'''simple docstring'''
import json
import os
from typing import Dict, List, Optional, Tuple
import regex as re
from ...tokenization_utils import PreTrainedTokenizer
from ...utils import logging
a_ : Optional[int] = logging.get_logger(__name__)
a_ : Optional[int] = {
"""vocab_file""": """vocab.json""",
"""merges_file""": """merges.txt""",
"""tokenizer_config_file""": """tokenizer_config.json""",
}
a_ : List[Any] = {
"""vocab_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/vocab.json"""
},
"""merges_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/merges.txt"""
},
"""tokenizer_config_file""": {
"""facebook/blenderbot_small-90M""": (
"""https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/tokenizer_config.json"""
)
},
}
a_ : Optional[int] = {"""facebook/blenderbot_small-90M""": 5_12}
def a_ ( __snake_case : List[Any] ) -> Tuple:
"""simple docstring"""
lowerCamelCase_ =set()
lowerCamelCase_ =word[0]
for char in word[1:]:
pairs.add((prev_char, char) )
lowerCamelCase_ =char
lowerCamelCase_ =set(__snake_case )
return pairs
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : Optional[int] =VOCAB_FILES_NAMES
lowercase : Tuple =PRETRAINED_VOCAB_FILES_MAP
lowercase : Tuple =PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
lowercase : Dict =['input_ids', 'attention_mask']
def __init__( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase="__start__", lowerCAmelCase="__end__", lowerCAmelCase="__unk__", lowerCAmelCase="__null__", **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(unk_token=lowerCAmelCase, bos_token=lowerCAmelCase, eos_token=lowerCAmelCase, pad_token=lowerCAmelCase, **lowerCAmelCase )
with open(lowerCAmelCase, encoding='''utf-8''' ) as vocab_handle:
lowerCamelCase_ =json.load(lowerCAmelCase )
lowerCamelCase_ ={v: k for k, v in self.encoder.items()}
with open(lowerCAmelCase, encoding='''utf-8''' ) as merges_handle:
lowerCamelCase_ =merges_handle.read().split('''\n''' )[1:-1]
lowerCamelCase_ =[tuple(merge.split() ) for merge in merges]
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ ={}
@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, lowerCAmelCase ):
"""simple docstring"""
if token in self.cache:
return self.cache[token]
lowerCamelCase_ =re.sub('''([.,!?()])''', R''' \1''', lowerCAmelCase )
lowerCamelCase_ =re.sub('''(\')''', R''' \1 ''', lowerCAmelCase )
lowerCamelCase_ =re.sub(R'''\s{2,}''', ''' ''', lowerCAmelCase )
if "\n" in token:
lowerCamelCase_ =token.replace('''\n''', ''' __newln__''' )
lowerCamelCase_ =token.split(''' ''' )
lowerCamelCase_ =[]
for token in tokens:
if not len(lowerCAmelCase ):
continue
lowerCamelCase_ =token.lower()
lowerCamelCase_ =tuple(lowerCAmelCase )
lowerCamelCase_ =tuple(list(word[:-1] ) + [word[-1] + '''</w>'''] )
lowerCamelCase_ =get_pairs(lowerCAmelCase )
if not pairs:
words.append(lowerCAmelCase )
continue
while True:
lowerCamelCase_ =min(lowerCAmelCase, key=lambda lowerCAmelCase : self.bpe_ranks.get(lowerCAmelCase, float('''inf''' ) ) )
if bigram not in self.bpe_ranks:
break
lowerCamelCase_, lowerCamelCase_ =bigram
lowerCamelCase_ =[]
lowerCamelCase_ =0
while i < len(lowerCAmelCase ):
try:
lowerCamelCase_ =word.index(lowerCAmelCase, lowerCAmelCase )
new_word.extend(word[i:j] )
lowerCamelCase_ =j
except ValueError:
new_word.extend(word[i:] )
break
if word[i] == first and i < len(lowerCAmelCase ) - 1 and word[i + 1] == second:
new_word.append(first + second )
i += 2
else:
new_word.append(word[i] )
i += 1
lowerCamelCase_ =tuple(lowerCAmelCase )
lowerCamelCase_ =new_word
if len(lowerCAmelCase ) == 1:
break
else:
lowerCamelCase_ =get_pairs(lowerCAmelCase )
lowerCamelCase_ ='''@@ '''.join(lowerCAmelCase )
lowerCamelCase_ =word[:-4]
lowerCamelCase_ =word
words.append(lowerCAmelCase )
return " ".join(lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =[]
lowerCamelCase_ =re.findall(R'''\S+\n?''', lowerCAmelCase )
for token in words:
split_tokens.extend(list(self.bpe(lowerCAmelCase ).split(''' ''' ) ) )
return split_tokens
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =token.lower()
return self.encoder.get(lowerCAmelCase, self.encoder.get(self.unk_token ) )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
return self.decoder.get(lowerCAmelCase, self.unk_token )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =''' '''.join(lowerCAmelCase ).replace('''@@ ''', '''''' ).strip()
return out_string
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase = None ):
"""simple docstring"""
if not os.path.isdir(lowerCAmelCase ):
logger.error(f'''Vocabulary path ({save_directory}) should be a directory''' )
return
lowerCamelCase_ =os.path.join(
lowerCAmelCase, (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''vocab_file'''] )
lowerCamelCase_ =os.path.join(
lowerCAmelCase, (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''merges_file'''] )
with open(lowerCAmelCase, '''w''', encoding='''utf-8''' ) as f:
f.write(json.dumps(self.encoder, indent=2, sort_keys=lowerCAmelCase, ensure_ascii=lowerCAmelCase ) + '''\n''' )
lowerCamelCase_ =0
with open(lowerCAmelCase, '''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 lowerCAmelCase : 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_ =token_index
writer.write(''' '''.join(lowerCAmelCase ) + '''\n''' )
index += 1
return vocab_file, merge_file
| 75 | 0 |
"""simple docstring"""
def _SCREAMING_SNAKE_CASE ( _lowercase : float ) ->float:
'''simple docstring'''
return 10 - x * x
def _SCREAMING_SNAKE_CASE ( _lowercase : float , _lowercase : float ) ->float:
'''simple docstring'''
if equation(_lowercase ) * equation(_lowercase ) >= 0:
raise ValueError("Wrong space!" )
a : List[Any] = a
while (b - a) >= 0.01:
# Find middle point
a : Dict = (a + b) / 2
# Check if middle point is root
if equation(_lowercase ) == 0.0:
break
# Decide the side to repeat the steps
if equation(_lowercase ) * equation(_lowercase ) < 0:
a : Optional[Any] = c
else:
a : List[str] = c
return c
if __name__ == "__main__":
import doctest
doctest.testmod()
print(bisection(-2, 5))
print(bisection(0, 6))
| 105 |
'''simple docstring'''
from typing import List
from ...configuration_utils import PretrainedConfig
from ...utils import logging
a_ : Dict = logging.get_logger(__name__)
a_ : Any = {
"""snap-research/efficientformer-l1-300""": (
"""https://huggingface.co/snap-research/efficientformer-l1-300/resolve/main/config.json"""
),
}
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : List[str] ='efficientformer'
def __init__( self, lowerCAmelCase = [3, 2, 6, 4], lowerCAmelCase = [48, 96, 224, 448], lowerCAmelCase = [True, True, True, True], lowerCAmelCase = 448, lowerCAmelCase = 32, lowerCAmelCase = 4, lowerCAmelCase = 7, lowerCAmelCase = 5, lowerCAmelCase = 8, lowerCAmelCase = 4, lowerCAmelCase = 0.0, lowerCAmelCase = 16, lowerCAmelCase = 3, lowerCAmelCase = 3, lowerCAmelCase = 3, lowerCAmelCase = 2, lowerCAmelCase = 1, lowerCAmelCase = 0.0, lowerCAmelCase = 1, lowerCAmelCase = True, lowerCAmelCase = True, lowerCAmelCase = 1e-5, lowerCAmelCase = "gelu", lowerCAmelCase = 0.0_2, lowerCAmelCase = 1e-12, lowerCAmelCase = 224, lowerCAmelCase = 1e-05, **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
lowerCamelCase_ =hidden_act
lowerCamelCase_ =hidden_dropout_prob
lowerCamelCase_ =hidden_sizes
lowerCamelCase_ =num_hidden_layers
lowerCamelCase_ =num_attention_heads
lowerCamelCase_ =initializer_range
lowerCamelCase_ =layer_norm_eps
lowerCamelCase_ =patch_size
lowerCamelCase_ =num_channels
lowerCamelCase_ =depths
lowerCamelCase_ =mlp_expansion_ratio
lowerCamelCase_ =downsamples
lowerCamelCase_ =dim
lowerCamelCase_ =key_dim
lowerCamelCase_ =attention_ratio
lowerCamelCase_ =resolution
lowerCamelCase_ =pool_size
lowerCamelCase_ =downsample_patch_size
lowerCamelCase_ =downsample_stride
lowerCamelCase_ =downsample_pad
lowerCamelCase_ =drop_path_rate
lowerCamelCase_ =num_metaad_blocks
lowerCamelCase_ =distillation
lowerCamelCase_ =use_layer_scale
lowerCamelCase_ =layer_scale_init_value
lowerCamelCase_ =image_size
lowerCamelCase_ =batch_norm_eps
| 75 | 0 |
"""simple docstring"""
import argparse
import json
from typing import List
from ltp import LTP
from transformers import BertTokenizer
def __SCREAMING_SNAKE_CASE ( A_ ):
# This defines a "chinese character" as anything in the CJK Unicode block:
# https://en.wikipedia.org/wiki/CJK_Unified_Ideographs_(Unicode_block)
#
# Note that the CJK Unicode block is NOT all Japanese and Korean characters,
# despite its name. The modern Korean Hangul alphabet is a different block,
# as is Japanese Hiragana and Katakana. Those alphabets are used to write
# space-separated words, so they are not treated specially and handled
# like the all of the other languages.
if (
(cp >= 0X4_e_0_0 and cp <= 0X9_f_f_f)
or (cp >= 0X3_4_0_0 and cp <= 0X4_d_b_f) #
or (cp >= 0X2_0_0_0_0 and cp <= 0X2_a_6_d_f) #
or (cp >= 0X2_a_7_0_0 and cp <= 0X2_b_7_3_f) #
or (cp >= 0X2_b_7_4_0 and cp <= 0X2_b_8_1_f) #
or (cp >= 0X2_b_8_2_0 and cp <= 0X2_c_e_a_f) #
or (cp >= 0Xf_9_0_0 and cp <= 0Xf_a_f_f)
or (cp >= 0X2_f_8_0_0 and cp <= 0X2_f_a_1_f) #
): #
return True
return False
def __SCREAMING_SNAKE_CASE ( A_ ):
# word like '180' or '身高' or '神'
for char in word:
lowerCAmelCase__ : Tuple = ord(A_ )
if not _is_chinese_char(A_ ):
return 0
return 1
def __SCREAMING_SNAKE_CASE ( A_ ):
lowerCAmelCase__ : str = set()
for token in tokens:
lowerCAmelCase__ : str = len(A_ ) > 1 and is_chinese(A_ )
if chinese_word:
word_set.add(A_ )
lowerCAmelCase__ : str = list(A_ )
return word_list
def __SCREAMING_SNAKE_CASE ( A_ , A_ ):
if not chinese_word_set:
return bert_tokens
lowerCAmelCase__ : int = max([len(A_ ) for w in chinese_word_set] )
lowerCAmelCase__ : Tuple = bert_tokens
lowerCAmelCase__ ,lowerCAmelCase__ : List[Any] = 0, len(A_ )
while start < end:
lowerCAmelCase__ : int = True
if is_chinese(bert_word[start] ):
lowerCAmelCase__ : str = min(end - start , A_ )
for i in range(A_ , 1 , -1 ):
lowerCAmelCase__ : Dict = ''''''.join(bert_word[start : start + i] )
if whole_word in chinese_word_set:
for j in range(start + 1 , start + i ):
lowerCAmelCase__ : Any = '''##''' + bert_word[j]
lowerCAmelCase__ : str = start + i
lowerCAmelCase__ : List[Any] = False
break
if single_word:
start += 1
return bert_word
def __SCREAMING_SNAKE_CASE ( A_ , A_ , A_ ):
lowerCAmelCase__ : Dict = []
for i in range(0 , len(A_ ) , 1_00 ):
lowerCAmelCase__ : List[str] = ltp_tokenizer.seg(lines[i : i + 1_00] )[0]
lowerCAmelCase__ : Union[str, Any] = [get_chinese_word(A_ ) for r in res]
ltp_res.extend(A_ )
assert len(A_ ) == len(A_ )
lowerCAmelCase__ : Union[str, Any] = []
for i in range(0 , len(A_ ) , 1_00 ):
lowerCAmelCase__ : Tuple = bert_tokenizer(lines[i : i + 1_00] , add_special_tokens=A_ , truncation=A_ , max_length=5_12 )
bert_res.extend(res['''input_ids'''] )
assert len(A_ ) == len(A_ )
lowerCAmelCase__ : List[str] = []
for input_ids, chinese_word in zip(A_ , A_ ):
lowerCAmelCase__ : List[Any] = []
for id in input_ids:
lowerCAmelCase__ : Optional[Any] = bert_tokenizer._convert_id_to_token(A_ )
input_tokens.append(A_ )
lowerCAmelCase__ : Any = add_sub_symbol(A_ , A_ )
lowerCAmelCase__ : Dict = []
# We only save pos of chinese subwords start with ##, which mean is part of a whole word.
for i, token in enumerate(A_ ):
if token[:2] == "##":
lowerCAmelCase__ : List[str] = token[2:]
# save chinese tokens' pos
if len(A_ ) == 1 and _is_chinese_char(ord(A_ ) ):
ref_id.append(A_ )
ref_ids.append(A_ )
assert len(A_ ) == len(A_ )
return ref_ids
def __SCREAMING_SNAKE_CASE ( A_ ):
# For Chinese (Ro)Bert, the best result is from : RoBERTa-wwm-ext (https://github.com/ymcui/Chinese-BERT-wwm)
# If we want to fine-tune these model, we have to use same tokenizer : LTP (https://github.com/HIT-SCIR/ltp)
with open(args.file_name , '''r''' , encoding='''utf-8''' ) as f:
lowerCAmelCase__ : List[str] = f.readlines()
lowerCAmelCase__ : Union[str, Any] = [line.strip() for line in data if len(A_ ) > 0 and not line.isspace()] # avoid delimiter like '\u2029'
lowerCAmelCase__ : int = LTP(args.ltp ) # faster in GPU device
lowerCAmelCase__ : str = BertTokenizer.from_pretrained(args.bert )
lowerCAmelCase__ : List[Any] = prepare_ref(A_ , A_ , A_ )
with open(args.save_path , '''w''' , encoding='''utf-8''' ) as f:
lowerCAmelCase__ : str = [json.dumps(A_ ) + '''\n''' for ref in ref_ids]
f.writelines(A_ )
if __name__ == "__main__":
__UpperCamelCase : List[str] = argparse.ArgumentParser(description='''prepare_chinese_ref''')
parser.add_argument(
'''--file_name''',
type=str,
default='''./resources/chinese-demo.txt''',
help='''file need process, same as training data in lm''',
)
parser.add_argument(
'''--ltp''', type=str, default='''./resources/ltp''', help='''resources for LTP tokenizer, usually a path'''
)
parser.add_argument('''--bert''', type=str, default='''./resources/robert''', help='''resources for Bert tokenizer''')
parser.add_argument('''--save_path''', type=str, default='''./resources/ref.txt''', help='''path to save res''')
__UpperCamelCase : Optional[Any] = parser.parse_args()
main(args)
| 106 |
'''simple docstring'''
import itertools
import random
import unittest
import numpy as np
from transformers import is_speech_available
from transformers.testing_utils import require_torch, require_torchaudio
from ...test_sequence_feature_extraction_common import SequenceFeatureExtractionTestMixin
if is_speech_available():
from transformers import SpeechaTextFeatureExtractor
a_ : Union[str, Any] = random.Random()
def a_ ( __snake_case : int , __snake_case : int=1.0 , __snake_case : Tuple=None , __snake_case : Union[str, Any]=None ) -> str:
"""simple docstring"""
if rng is None:
lowerCamelCase_ =global_rng
lowerCamelCase_ =[]
for batch_idx in range(shape[0] ):
values.append([] )
for _ in range(shape[1] ):
values[-1].append(rng.random() * scale )
return values
@require_torch
@require_torchaudio
class __UpperCamelCase ( unittest.TestCase ):
def __init__( self, lowerCAmelCase, lowerCAmelCase=7, lowerCAmelCase=400, lowerCAmelCase=2_000, lowerCAmelCase=24, lowerCAmelCase=24, lowerCAmelCase=0.0, lowerCAmelCase=16_000, lowerCAmelCase=True, lowerCAmelCase=True, ):
"""simple docstring"""
lowerCamelCase_ =parent
lowerCamelCase_ =batch_size
lowerCamelCase_ =min_seq_length
lowerCamelCase_ =max_seq_length
lowerCamelCase_ =(self.max_seq_length - self.min_seq_length) // (self.batch_size - 1)
lowerCamelCase_ =feature_size
lowerCamelCase_ =num_mel_bins
lowerCamelCase_ =padding_value
lowerCamelCase_ =sampling_rate
lowerCamelCase_ =return_attention_mask
lowerCamelCase_ =do_normalize
def lowercase__ ( self ):
"""simple docstring"""
return {
"feature_size": self.feature_size,
"num_mel_bins": self.num_mel_bins,
"padding_value": self.padding_value,
"sampling_rate": self.sampling_rate,
"return_attention_mask": self.return_attention_mask,
"do_normalize": self.do_normalize,
}
def lowercase__ ( self, lowerCAmelCase=False, lowerCAmelCase=False ):
"""simple docstring"""
def _flatten(lowerCAmelCase ):
return list(itertools.chain(*lowerCAmelCase ) )
if equal_length:
lowerCamelCase_ =[floats_list((self.max_seq_length, self.feature_size) ) for _ in range(self.batch_size )]
else:
# make sure that inputs increase in size
lowerCamelCase_ =[
floats_list((x, self.feature_size) )
for x in range(self.min_seq_length, self.max_seq_length, self.seq_length_diff )
]
if numpify:
lowerCamelCase_ =[np.asarray(lowerCAmelCase ) for x in speech_inputs]
return speech_inputs
@require_torch
@require_torchaudio
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : Any =SpeechaTextFeatureExtractor if is_speech_available() else None
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextFeatureExtractionTester(self )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
self.assertTrue(np.all(np.mean(lowerCAmelCase, axis=0 ) < 1e-3 ) )
self.assertTrue(np.all(np.abs(np.var(lowerCAmelCase, axis=0 ) - 1 ) < 1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
# create three inputs of length 800, 1000, and 1200
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =[np.asarray(lowerCAmelCase ) for speech_input in speech_inputs]
# Test feature size
lowerCamelCase_ =feature_extractor(lowerCAmelCase, padding=lowerCAmelCase, return_tensors='''np''' ).input_features
self.assertTrue(input_features.ndim == 3 )
self.assertTrue(input_features.shape[-1] == feature_extractor.feature_size )
# Test not batched input
lowerCamelCase_ =feature_extractor(speech_inputs[0], return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(np_speech_inputs[0], return_tensors='''np''' ).input_features
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
# Test batched
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
for enc_seq_a, enc_seq_a in zip(lowerCAmelCase, lowerCAmelCase ):
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
# Test 2-D numpy arrays are batched.
lowerCamelCase_ =[floats_list((1, x) )[0] for x in (800, 800, 800)]
lowerCamelCase_ =np.asarray(lowerCAmelCase )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
for enc_seq_a, enc_seq_a in zip(lowerCAmelCase, lowerCAmelCase ):
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =['''longest''', '''max_length''', '''do_not_pad''']
lowerCamelCase_ =[None, 16, None]
for max_length, padding in zip(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding=lowerCAmelCase, max_length=lowerCAmelCase, return_attention_mask=lowerCAmelCase )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =[np.sum(lowerCAmelCase ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =['''longest''', '''max_length''', '''do_not_pad''']
lowerCamelCase_ =[None, 16, None]
for max_length, padding in zip(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, max_length=lowerCAmelCase, padding=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =[np.sum(lowerCAmelCase ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self.assertTrue(input_features[0][fbank_feat_lengths[0] :].sum() < 1e-6 )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self.assertTrue(input_features[0][fbank_feat_lengths[1] :].sum() < 1e-6 )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''max_length''', max_length=4, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1] )
self._check_zero_mean_unit_variance(input_features[2] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''longest''', max_length=4, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape, (3, 4, 24) )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''longest''', max_length=16, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape, (3, 6, 24) )
def lowercase__ ( self ):
"""simple docstring"""
import torch
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =np.random.rand(100, 32 ).astype(np.floataa )
lowerCamelCase_ =np_speech_inputs.tolist()
for inputs in [py_speech_inputs, np_speech_inputs]:
lowerCamelCase_ =feature_extractor.pad([{'''input_features''': inputs}], return_tensors='''np''' )
self.assertTrue(np_processed.input_features.dtype == np.floataa )
lowerCamelCase_ =feature_extractor.pad([{'''input_features''': inputs}], return_tensors='''pt''' )
self.assertTrue(pt_processed.input_features.dtype == torch.floataa )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
from datasets import load_dataset
lowerCamelCase_ =load_dataset('''hf-internal-testing/librispeech_asr_dummy''', '''clean''', split='''validation''' )
# automatic decoding with librispeech
lowerCamelCase_ =ds.sort('''id''' ).select(range(lowerCAmelCase ) )[:num_samples]['''audio''']
return [x["array"] for x in speech_samples]
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =np.array([
-1.5_7_4_5, -1.7_7_1_3, -1.7_0_2_0, -1.6_0_6_9, -1.2_2_5_0, -1.1_1_0_5, -0.9_0_7_2, -0.8_2_4_1,
-1.2_3_1_0, -0.8_0_9_8, -0.3_3_2_0, -0.4_1_0_1, -0.7_9_8_5, -0.4_9_9_6, -0.8_2_1_3, -0.9_1_2_8,
-1.0_4_2_0, -1.1_2_8_6, -1.0_4_4_0, -0.7_9_9_9, -0.8_4_0_5, -1.2_2_7_5, -1.5_4_4_3, -1.4_6_2_5,
] )
# fmt: on
lowerCamelCase_ =self._load_datasamples(1 )
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''pt''' ).input_features
self.assertEquals(input_features.shape, (1, 584, 24) )
self.assertTrue(np.allclose(input_features[0, 0, :30], lowerCAmelCase, atol=1e-4 ) )
| 75 | 0 |
# 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 pathlib import Path
import torch
from ...utils import is_npu_available, is_xpu_available
from .config_args import ClusterConfig, default_json_config_file
from .config_utils import SubcommandHelpFormatter
__lowerCAmelCase : Optional[int] = 'Create a default config file for Accelerate with only a few flags set.'
def __magic_name__ ( A : Optional[int]="no", A : str = default_json_config_file, A : bool = False ):
'''simple docstring'''
a = Path(A )
path.parent.mkdir(parents=A, exist_ok=A )
if path.exists():
print(
F"""Configuration already exists at {save_location}, will not override. Run `accelerate config` manually or pass a different `save_location`.""" )
return False
a = mixed_precision.lower()
if mixed_precision not in ["no", "fp16", "bf16", "fp8"]:
raise ValueError(
F"""`mixed_precision` should be one of 'no', 'fp16', 'bf16', or 'fp8'. Received {mixed_precision}""" )
a = {
"compute_environment": "LOCAL_MACHINE",
"mixed_precision": mixed_precision,
}
if torch.cuda.is_available():
a = torch.cuda.device_count()
a = num_gpus
a = False
if num_gpus > 1:
a = "MULTI_GPU"
else:
a = "NO"
elif is_xpu_available() and use_xpu:
a = torch.xpu.device_count()
a = num_xpus
a = False
if num_xpus > 1:
a = "MULTI_XPU"
else:
a = "NO"
elif is_npu_available():
a = torch.npu.device_count()
a = num_npus
a = False
if num_npus > 1:
a = "MULTI_NPU"
else:
a = "NO"
else:
a = 0
a = True
a = 1
a = "NO"
a = ClusterConfig(**A )
config.to_json_file(A )
return path
def __magic_name__ ( A : Union[str, Any], A : int ):
'''simple docstring'''
a = parser.add_parser("default", parents=A, help=A, formatter_class=A )
parser.add_argument(
"--config_file", default=A, help=(
"The path to use to store the config file. Will default to a file named default_config.yaml in the cache "
"location, which is the content of the environment `HF_HOME` suffixed with 'accelerate', or if you don't have "
"such an environment variable, your cache directory ('~/.cache' or the content of `XDG_CACHE_HOME`) suffixed "
"with 'huggingface'."
), dest="save_location", )
parser.add_argument(
"--mixed_precision", choices=["no", "fp16", "bf16"], type=A, help="Whether or not to use mixed precision training. "
"Choose between FP16 and BF16 (bfloat16) training. "
"BF16 training is only supported on Nvidia Ampere GPUs and PyTorch 1.10 or later.", default="no", )
parser.set_defaults(func=A )
return parser
def __magic_name__ ( A : Dict ):
'''simple docstring'''
a = write_basic_config(args.mixed_precision, args.save_location )
if config_file:
print(F"""accelerate configuration saved at {config_file}""" )
| 107 |
'''simple docstring'''
def a_ ( __snake_case : Any , __snake_case : List[str] ) -> str:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in table:
res += inp[i - 1]
return res
def a_ ( __snake_case : List[str] ) -> Optional[int]:
"""simple docstring"""
return data[1:] + data[0]
def a_ ( __snake_case : str , __snake_case : Tuple ) -> int:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in range(len(__snake_case ) ):
if a[i] == b[i]:
res += "0"
else:
res += "1"
return res
def a_ ( __snake_case : Optional[Any] , __snake_case : Tuple ) -> List[Any]:
"""simple docstring"""
lowerCamelCase_ =int('''0b''' + data[0] + data[-1] , 2 )
lowerCamelCase_ =int('''0b''' + data[1:3] , 2 )
return bin(s[row][col] )[2:]
def a_ ( __snake_case : Optional[int] , __snake_case : List[str] , __snake_case : int , __snake_case : Tuple , __snake_case : List[Any] ) -> Optional[Any]:
"""simple docstring"""
lowerCamelCase_ =message[:4]
lowerCamelCase_ =message[4:]
lowerCamelCase_ =apply_table(__snake_case , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
lowerCamelCase_ =apply_sbox(__snake_case , temp[:4] ) # noqa: E741
lowerCamelCase_ =apply_sbox(__snake_case , temp[4:] )
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + l # noqa: E741
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + r
lowerCamelCase_ =apply_table(l + r , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
return temp + right
if __name__ == "__main__":
a_ : Any = input("""Enter 10 bit key: """)
a_ : Any = input("""Enter 8 bit message: """)
a_ : str = [6, 3, 7, 4, 8, 5, 10, 9]
a_ : str = [3, 5, 2, 7, 4, 10, 1, 9, 8, 6]
a_ : str = [2, 4, 3, 1]
a_ : Optional[int] = [2, 6, 3, 1, 4, 8, 5, 7]
a_ : Optional[Any] = [4, 1, 3, 5, 7, 2, 8, 6]
a_ : Union[str, Any] = [4, 1, 2, 3, 2, 3, 4, 1]
a_ : int = [[1, 0, 3, 2], [3, 2, 1, 0], [0, 2, 1, 3], [3, 1, 3, 2]]
a_ : Any = [[0, 1, 2, 3], [2, 0, 1, 3], [3, 0, 1, 0], [2, 1, 0, 3]]
# key generation
a_ : List[Any] = apply_table(key, paa_table)
a_ : str = temp[:5]
a_ : Optional[Any] = temp[5:]
a_ : Tuple = left_shift(left)
a_ : Optional[Any] = left_shift(right)
a_ : str = apply_table(left + right, pa_table)
a_ : Optional[Any] = left_shift(left)
a_ : Tuple = left_shift(right)
a_ : Union[str, Any] = left_shift(left)
a_ : List[str] = left_shift(right)
a_ : Optional[int] = apply_table(left + right, pa_table)
# encryption
a_ : Optional[int] = apply_table(message, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : str = temp[4:] + temp[:4]
a_ : List[str] = function(expansion, sa, sa, keya, temp)
a_ : Union[str, Any] = apply_table(temp, IP_inv)
print("""Cipher text is:""", CT)
# decryption
a_ : Optional[int] = apply_table(CT, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : int = temp[4:] + temp[:4]
a_ : int = function(expansion, sa, sa, keya, temp)
a_ : Optional[int] = apply_table(temp, IP_inv)
print("""Plain text after decypting is:""", PT)
| 75 | 0 |
"""simple docstring"""
from typing import Any
import numpy as np
def a__ ( SCREAMING_SNAKE_CASE : np.ndarray ):
'''simple docstring'''
return np.array_equal(SCREAMING_SNAKE_CASE , matrix.conjugate().T )
def a__ ( SCREAMING_SNAKE_CASE : np.ndarray , SCREAMING_SNAKE_CASE : np.ndarray ):
'''simple docstring'''
lowerCAmelCase : Union[str, Any] = v.conjugate().T
lowerCAmelCase : int = v_star.dot(SCREAMING_SNAKE_CASE )
assert isinstance(SCREAMING_SNAKE_CASE , np.ndarray )
return (v_star_dot.dot(SCREAMING_SNAKE_CASE )) / (v_star.dot(SCREAMING_SNAKE_CASE ))
def a__ ( ):
'''simple docstring'''
lowerCAmelCase : Dict = np.array([[2, 2 + 1j, 4], [2 - 1j, 3, 1j], [4, -1j, 1]] )
lowerCAmelCase : Any = np.array([[1], [2], [3]] )
assert is_hermitian(SCREAMING_SNAKE_CASE ), f"""{a} is not hermitian."""
print(rayleigh_quotient(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) )
lowerCAmelCase : Dict = np.array([[1, 2, 4], [2, 3, -1], [4, -1, 1]] )
assert is_hermitian(SCREAMING_SNAKE_CASE ), f"""{a} is not hermitian."""
assert rayleigh_quotient(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) == float(3 )
if __name__ == "__main__":
import doctest
doctest.testmod()
tests()
| 108 |
'''simple docstring'''
import importlib
import json
import os
from collections import OrderedDict
from typing import Dict, Optional, Union
# Build the list of all feature extractors
from ...configuration_utils import PretrainedConfig
from ...dynamic_module_utils import get_class_from_dynamic_module, resolve_trust_remote_code
from ...feature_extraction_utils import FeatureExtractionMixin
from ...utils import CONFIG_NAME, FEATURE_EXTRACTOR_NAME, get_file_from_repo, logging
from .auto_factory import _LazyAutoMapping
from .configuration_auto import (
CONFIG_MAPPING_NAMES,
AutoConfig,
model_type_to_module_name,
replace_list_option_in_docstrings,
)
a_ : List[Any] = logging.get_logger(__name__)
a_ : Tuple = OrderedDict(
[
("""audio-spectrogram-transformer""", """ASTFeatureExtractor"""),
("""beit""", """BeitFeatureExtractor"""),
("""chinese_clip""", """ChineseCLIPFeatureExtractor"""),
("""clap""", """ClapFeatureExtractor"""),
("""clip""", """CLIPFeatureExtractor"""),
("""clipseg""", """ViTFeatureExtractor"""),
("""conditional_detr""", """ConditionalDetrFeatureExtractor"""),
("""convnext""", """ConvNextFeatureExtractor"""),
("""cvt""", """ConvNextFeatureExtractor"""),
("""data2vec-audio""", """Wav2Vec2FeatureExtractor"""),
("""data2vec-vision""", """BeitFeatureExtractor"""),
("""deformable_detr""", """DeformableDetrFeatureExtractor"""),
("""deit""", """DeiTFeatureExtractor"""),
("""detr""", """DetrFeatureExtractor"""),
("""dinat""", """ViTFeatureExtractor"""),
("""donut-swin""", """DonutFeatureExtractor"""),
("""dpt""", """DPTFeatureExtractor"""),
("""encodec""", """EncodecFeatureExtractor"""),
("""flava""", """FlavaFeatureExtractor"""),
("""glpn""", """GLPNFeatureExtractor"""),
("""groupvit""", """CLIPFeatureExtractor"""),
("""hubert""", """Wav2Vec2FeatureExtractor"""),
("""imagegpt""", """ImageGPTFeatureExtractor"""),
("""layoutlmv2""", """LayoutLMv2FeatureExtractor"""),
("""layoutlmv3""", """LayoutLMv3FeatureExtractor"""),
("""levit""", """LevitFeatureExtractor"""),
("""maskformer""", """MaskFormerFeatureExtractor"""),
("""mctct""", """MCTCTFeatureExtractor"""),
("""mobilenet_v1""", """MobileNetV1FeatureExtractor"""),
("""mobilenet_v2""", """MobileNetV2FeatureExtractor"""),
("""mobilevit""", """MobileViTFeatureExtractor"""),
("""nat""", """ViTFeatureExtractor"""),
("""owlvit""", """OwlViTFeatureExtractor"""),
("""perceiver""", """PerceiverFeatureExtractor"""),
("""poolformer""", """PoolFormerFeatureExtractor"""),
("""regnet""", """ConvNextFeatureExtractor"""),
("""resnet""", """ConvNextFeatureExtractor"""),
("""segformer""", """SegformerFeatureExtractor"""),
("""sew""", """Wav2Vec2FeatureExtractor"""),
("""sew-d""", """Wav2Vec2FeatureExtractor"""),
("""speech_to_text""", """Speech2TextFeatureExtractor"""),
("""speecht5""", """SpeechT5FeatureExtractor"""),
("""swiftformer""", """ViTFeatureExtractor"""),
("""swin""", """ViTFeatureExtractor"""),
("""swinv2""", """ViTFeatureExtractor"""),
("""table-transformer""", """DetrFeatureExtractor"""),
("""timesformer""", """VideoMAEFeatureExtractor"""),
("""tvlt""", """TvltFeatureExtractor"""),
("""unispeech""", """Wav2Vec2FeatureExtractor"""),
("""unispeech-sat""", """Wav2Vec2FeatureExtractor"""),
("""van""", """ConvNextFeatureExtractor"""),
("""videomae""", """VideoMAEFeatureExtractor"""),
("""vilt""", """ViltFeatureExtractor"""),
("""vit""", """ViTFeatureExtractor"""),
("""vit_mae""", """ViTFeatureExtractor"""),
("""vit_msn""", """ViTFeatureExtractor"""),
("""wav2vec2""", """Wav2Vec2FeatureExtractor"""),
("""wav2vec2-conformer""", """Wav2Vec2FeatureExtractor"""),
("""wavlm""", """Wav2Vec2FeatureExtractor"""),
("""whisper""", """WhisperFeatureExtractor"""),
("""xclip""", """CLIPFeatureExtractor"""),
("""yolos""", """YolosFeatureExtractor"""),
]
)
a_ : Optional[Any] = _LazyAutoMapping(CONFIG_MAPPING_NAMES, FEATURE_EXTRACTOR_MAPPING_NAMES)
def a_ ( __snake_case : str ) -> Any:
"""simple docstring"""
for module_name, extractors in FEATURE_EXTRACTOR_MAPPING_NAMES.items():
if class_name in extractors:
lowerCamelCase_ =model_type_to_module_name(__snake_case )
lowerCamelCase_ =importlib.import_module(F'''.{module_name}''' , '''transformers.models''' )
try:
return getattr(__snake_case , __snake_case )
except AttributeError:
continue
for _, extractor in FEATURE_EXTRACTOR_MAPPING._extra_content.items():
if getattr(__snake_case , '''__name__''' , __snake_case ) == class_name:
return extractor
# We did not fine the class, but maybe it's because a dep is missing. In that case, the class will be in the main
# init and we return the proper dummy to get an appropriate error message.
lowerCamelCase_ =importlib.import_module('''transformers''' )
if hasattr(__snake_case , __snake_case ):
return getattr(__snake_case , __snake_case )
return None
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , **__snake_case : Union[str, Any] , ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ =get_file_from_repo(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
if resolved_config_file is None:
logger.info(
'''Could not locate the feature extractor configuration file, will try to use the model config instead.''' )
return {}
with open(__snake_case , encoding='''utf-8''' ) as reader:
return json.load(__snake_case )
class __UpperCamelCase :
def __init__( self ):
"""simple docstring"""
raise EnvironmentError(
'''AutoFeatureExtractor is designed to be instantiated '''
'''using the `AutoFeatureExtractor.from_pretrained(pretrained_model_name_or_path)` method.''' )
@classmethod
@replace_list_option_in_docstrings(lowerCAmelCase )
def lowercase__ ( cls, lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =kwargs.pop('''config''', lowerCAmelCase )
lowerCamelCase_ =kwargs.pop('''trust_remote_code''', lowerCAmelCase )
lowerCamelCase_ =True
lowerCamelCase_, lowerCamelCase_ =FeatureExtractionMixin.get_feature_extractor_dict(lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ =config_dict.get('''feature_extractor_type''', lowerCAmelCase )
lowerCamelCase_ =None
if "AutoFeatureExtractor" in config_dict.get('''auto_map''', {} ):
lowerCamelCase_ =config_dict['''auto_map''']['''AutoFeatureExtractor''']
# If we don't find the feature extractor class in the feature extractor config, let's try the model config.
if feature_extractor_class is None and feature_extractor_auto_map is None:
if not isinstance(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =AutoConfig.from_pretrained(lowerCAmelCase, **lowerCAmelCase )
# It could be in `config.feature_extractor_type``
lowerCamelCase_ =getattr(lowerCAmelCase, '''feature_extractor_type''', lowerCAmelCase )
if hasattr(lowerCAmelCase, '''auto_map''' ) and "AutoFeatureExtractor" in config.auto_map:
lowerCamelCase_ =config.auto_map['''AutoFeatureExtractor''']
if feature_extractor_class is not None:
lowerCamelCase_ =feature_extractor_class_from_name(lowerCAmelCase )
lowerCamelCase_ =feature_extractor_auto_map is not None
lowerCamelCase_ =feature_extractor_class is not None or type(lowerCAmelCase ) in FEATURE_EXTRACTOR_MAPPING
lowerCamelCase_ =resolve_trust_remote_code(
lowerCAmelCase, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase )
if has_remote_code and trust_remote_code:
lowerCamelCase_ =get_class_from_dynamic_module(
lowerCAmelCase, lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ =kwargs.pop('''code_revision''', lowerCAmelCase )
if os.path.isdir(lowerCAmelCase ):
feature_extractor_class.register_for_auto_class()
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
elif feature_extractor_class is not None:
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
# Last try: we use the FEATURE_EXTRACTOR_MAPPING.
elif type(lowerCAmelCase ) in FEATURE_EXTRACTOR_MAPPING:
lowerCamelCase_ =FEATURE_EXTRACTOR_MAPPING[type(lowerCAmelCase )]
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
raise ValueError(
f'''Unrecognized feature extractor in {pretrained_model_name_or_path}. Should have a '''
f'''`feature_extractor_type` key in its {FEATURE_EXTRACTOR_NAME} of {CONFIG_NAME}, or one of the following '''
f'''`model_type` keys in its {CONFIG_NAME}: {', '.join(c for c in FEATURE_EXTRACTOR_MAPPING_NAMES.keys() )}''' )
@staticmethod
def lowercase__ ( lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
FEATURE_EXTRACTOR_MAPPING.register(lowerCAmelCase, lowerCAmelCase )
| 75 | 0 |
"""simple docstring"""
import functools
def _snake_case ( UpperCamelCase : str , UpperCamelCase : str ):
UpperCAmelCase : str = len(UpperCamelCase )
UpperCAmelCase : int = len(UpperCamelCase )
@functools.cache
def min_distance(UpperCamelCase : int , UpperCamelCase : int ) -> int:
# if first word index is overflow - delete all from the second word
if indexa >= len_worda:
return len_worda - indexa
# if second word index is overflow - delete all from the first word
if indexa >= len_worda:
return len_worda - indexa
UpperCAmelCase : List[str] = int(worda[indexa] != worda[indexa] ) # current letters not identical
return min(
1 + min_distance(indexa + 1 , UpperCamelCase ) , 1 + min_distance(UpperCamelCase , indexa + 1 ) , diff + min_distance(indexa + 1 , indexa + 1 ) , )
return min_distance(0 , 0 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 109 |
'''simple docstring'''
import argparse
import csv
import logging
import os
import random
import numpy as np
import torch
from torch.utils.data import DataLoader, RandomSampler, SequentialSampler, TensorDataset
from tqdm import tqdm, trange
from transformers import (
CONFIG_NAME,
WEIGHTS_NAME,
AdamW,
OpenAIGPTDoubleHeadsModel,
OpenAIGPTTokenizer,
get_linear_schedule_with_warmup,
)
logging.basicConfig(
format="""%(asctime)s - %(levelname)s - %(name)s - %(message)s""", datefmt="""%m/%d/%Y %H:%M:%S""", level=logging.INFO
)
a_ : Optional[int] = logging.getLogger(__name__)
def a_ ( __snake_case : Union[str, Any] , __snake_case : Union[str, Any] ) -> str:
"""simple docstring"""
lowerCamelCase_ =np.argmax(__snake_case , axis=1 )
return np.sum(outputs == labels )
def a_ ( __snake_case : List[Any] ) -> Tuple:
"""simple docstring"""
with open(__snake_case , encoding='''utf_8''' ) as f:
lowerCamelCase_ =csv.reader(__snake_case )
lowerCamelCase_ =[]
next(__snake_case ) # skip the first line
for line in tqdm(__snake_case ):
output.append((''' '''.join(line[1:5] ), line[5], line[6], int(line[-1] ) - 1) )
return output
def a_ ( __snake_case : str , __snake_case : Dict , __snake_case : List[str] , __snake_case : List[str] , __snake_case : List[Any] , __snake_case : Dict ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =[]
for dataset in encoded_datasets:
lowerCamelCase_ =len(__snake_case )
lowerCamelCase_ =np.zeros((n_batch, 2, input_len) , dtype=np.intaa )
lowerCamelCase_ =np.zeros((n_batch, 2) , dtype=np.intaa )
lowerCamelCase_ =np.full((n_batch, 2, input_len) , fill_value=-100 , dtype=np.intaa )
lowerCamelCase_ =np.zeros((n_batch,) , dtype=np.intaa )
for (
i,
(story, conta, conta, mc_label),
) in enumerate(__snake_case ):
lowerCamelCase_ =[start_token] + story[:cap_length] + [delimiter_token] + conta[:cap_length] + [clf_token]
lowerCamelCase_ =[start_token] + story[:cap_length] + [delimiter_token] + conta[:cap_length] + [clf_token]
lowerCamelCase_ =with_conta
lowerCamelCase_ =with_conta
lowerCamelCase_ =len(__snake_case ) - 1
lowerCamelCase_ =len(__snake_case ) - 1
lowerCamelCase_ =with_conta
lowerCamelCase_ =with_conta
lowerCamelCase_ =mc_label
lowerCamelCase_ =(input_ids, mc_token_ids, lm_labels, mc_labels)
tensor_datasets.append(tuple(torch.tensor(__snake_case ) for t in all_inputs ) )
return tensor_datasets
def a_ ( ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =argparse.ArgumentParser()
parser.add_argument('''--model_name''' , type=__snake_case , default='''openai-gpt''' , help='''pretrained model name''' )
parser.add_argument('''--do_train''' , action='''store_true''' , help='''Whether to run training.''' )
parser.add_argument('''--do_eval''' , action='''store_true''' , help='''Whether to run eval on the dev set.''' )
parser.add_argument(
'''--output_dir''' , default=__snake_case , type=__snake_case , required=__snake_case , help='''The output directory where the model predictions and checkpoints will be written.''' , )
parser.add_argument('''--train_dataset''' , type=__snake_case , default='''''' )
parser.add_argument('''--eval_dataset''' , type=__snake_case , default='''''' )
parser.add_argument('''--seed''' , type=__snake_case , default=42 )
parser.add_argument('''--num_train_epochs''' , type=__snake_case , default=3 )
parser.add_argument('''--train_batch_size''' , type=__snake_case , default=8 )
parser.add_argument('''--eval_batch_size''' , type=__snake_case , default=16 )
parser.add_argument('''--adam_epsilon''' , default=1e-8 , type=__snake_case , help='''Epsilon for Adam optimizer.''' )
parser.add_argument('''--max_grad_norm''' , type=__snake_case , default=1 )
parser.add_argument(
'''--max_steps''' , default=-1 , type=__snake_case , help=(
'''If > 0: set total number of training steps to perform. Override num_train_epochs.'''
) , )
parser.add_argument(
'''--gradient_accumulation_steps''' , type=__snake_case , default=1 , help='''Number of updates steps to accumulate before performing a backward/update pass.''' , )
parser.add_argument('''--learning_rate''' , type=__snake_case , default=6.25e-5 )
parser.add_argument('''--warmup_steps''' , default=0 , type=__snake_case , help='''Linear warmup over warmup_steps.''' )
parser.add_argument('''--lr_schedule''' , type=__snake_case , default='''warmup_linear''' )
parser.add_argument('''--weight_decay''' , type=__snake_case , default=0.0_1 )
parser.add_argument('''--lm_coef''' , type=__snake_case , default=0.9 )
parser.add_argument('''--n_valid''' , type=__snake_case , default=374 )
parser.add_argument('''--server_ip''' , type=__snake_case , default='''''' , help='''Can be used for distant debugging.''' )
parser.add_argument('''--server_port''' , type=__snake_case , default='''''' , help='''Can be used for distant debugging.''' )
lowerCamelCase_ =parser.parse_args()
print(__snake_case )
if args.server_ip and args.server_port:
# Distant debugging - see https://code.visualstudio.com/docs/python/debugging#_attach-to-a-local-script
import ptvsd
print('''Waiting for debugger attach''' )
ptvsd.enable_attach(address=(args.server_ip, args.server_port) , redirect_output=__snake_case )
ptvsd.wait_for_attach()
random.seed(args.seed )
np.random.seed(args.seed )
torch.manual_seed(args.seed )
torch.cuda.manual_seed_all(args.seed )
lowerCamelCase_ =torch.device('''cuda''' if torch.cuda.is_available() else '''cpu''' )
lowerCamelCase_ =torch.cuda.device_count()
logger.info('''device: {}, n_gpu {}'''.format(__snake_case , __snake_case ) )
if not args.do_train and not args.do_eval:
raise ValueError('''At least one of `do_train` or `do_eval` must be True.''' )
if not os.path.exists(args.output_dir ):
os.makedirs(args.output_dir )
# Load tokenizer and model
# This loading functions also add new tokens and embeddings called `special tokens`
# These new embeddings will be fine-tuned on the RocStories dataset
lowerCamelCase_ =['''_start_''', '''_delimiter_''', '''_classify_''']
lowerCamelCase_ =OpenAIGPTTokenizer.from_pretrained(args.model_name )
tokenizer.add_tokens(__snake_case )
lowerCamelCase_ =tokenizer.convert_tokens_to_ids(__snake_case )
lowerCamelCase_ =OpenAIGPTDoubleHeadsModel.from_pretrained(args.model_name )
model.resize_token_embeddings(len(__snake_case ) )
model.to(__snake_case )
# Load and encode the datasets
def tokenize_and_encode(__snake_case : Union[str, Any] ):
if isinstance(__snake_case , __snake_case ):
return tokenizer.convert_tokens_to_ids(tokenizer.tokenize(__snake_case ) )
elif isinstance(__snake_case , __snake_case ):
return obj
return [tokenize_and_encode(__snake_case ) for o in obj]
logger.info('''Encoding dataset...''' )
lowerCamelCase_ =load_rocstories_dataset(args.train_dataset )
lowerCamelCase_ =load_rocstories_dataset(args.eval_dataset )
lowerCamelCase_ =(train_dataset, eval_dataset)
lowerCamelCase_ =tokenize_and_encode(__snake_case )
# Compute the max input length for the Transformer
lowerCamelCase_ =model.config.n_positions // 2 - 2
lowerCamelCase_ =max(
len(story[:max_length] ) + max(len(conta[:max_length] ) , len(conta[:max_length] ) ) + 3
for dataset in encoded_datasets
for story, conta, conta, _ in dataset )
lowerCamelCase_ =min(__snake_case , model.config.n_positions ) # Max size of input for the pre-trained model
# Prepare inputs tensors and dataloaders
lowerCamelCase_ =pre_process_datasets(__snake_case , __snake_case , __snake_case , *__snake_case )
lowerCamelCase_, lowerCamelCase_ =tensor_datasets[0], tensor_datasets[1]
lowerCamelCase_ =TensorDataset(*__snake_case )
lowerCamelCase_ =RandomSampler(__snake_case )
lowerCamelCase_ =DataLoader(__snake_case , sampler=__snake_case , batch_size=args.train_batch_size )
lowerCamelCase_ =TensorDataset(*__snake_case )
lowerCamelCase_ =SequentialSampler(__snake_case )
lowerCamelCase_ =DataLoader(__snake_case , sampler=__snake_case , batch_size=args.eval_batch_size )
# Prepare optimizer
if args.do_train:
if args.max_steps > 0:
lowerCamelCase_ =args.max_steps
lowerCamelCase_ =args.max_steps // (len(__snake_case ) // args.gradient_accumulation_steps) + 1
else:
lowerCamelCase_ =len(__snake_case ) // args.gradient_accumulation_steps * args.num_train_epochs
lowerCamelCase_ =list(model.named_parameters() )
lowerCamelCase_ =['''bias''', '''LayerNorm.bias''', '''LayerNorm.weight''']
lowerCamelCase_ =[
{
'''params''': [p for n, p in param_optimizer if not any(nd in n for nd in no_decay )],
'''weight_decay''': args.weight_decay,
},
{'''params''': [p for n, p in param_optimizer if any(nd in n for nd in no_decay )], '''weight_decay''': 0.0},
]
lowerCamelCase_ =AdamW(__snake_case , lr=args.learning_rate , eps=args.adam_epsilon )
lowerCamelCase_ =get_linear_schedule_with_warmup(
__snake_case , num_warmup_steps=args.warmup_steps , num_training_steps=__snake_case )
if args.do_train:
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =0, 0, None
model.train()
for _ in trange(int(args.num_train_epochs ) , desc='''Epoch''' ):
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =tqdm(__snake_case , desc='''Training''' )
for step, batch in enumerate(__snake_case ):
lowerCamelCase_ =tuple(t.to(__snake_case ) for t in batch )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =batch
lowerCamelCase_ =model(__snake_case , mc_token_ids=__snake_case , lm_labels=__snake_case , mc_labels=__snake_case )
lowerCamelCase_ =args.lm_coef * losses[0] + losses[1]
loss.backward()
optimizer.step()
scheduler.step()
optimizer.zero_grad()
tr_loss += loss.item()
lowerCamelCase_ =(
loss.item() if exp_average_loss is None else 0.7 * exp_average_loss + 0.3 * loss.item()
)
nb_tr_steps += 1
lowerCamelCase_ ='''Training loss: {:.2e} lr: {:.2e}'''.format(__snake_case , scheduler.get_lr()[0] )
# Save a trained model
if args.do_train:
# Save a trained model, configuration and tokenizer
lowerCamelCase_ =model.module if hasattr(__snake_case , '''module''' ) else model # Only save the model itself
# If we save using the predefined names, we can load using `from_pretrained`
lowerCamelCase_ =os.path.join(args.output_dir , __snake_case )
lowerCamelCase_ =os.path.join(args.output_dir , __snake_case )
torch.save(model_to_save.state_dict() , __snake_case )
model_to_save.config.to_json_file(__snake_case )
tokenizer.save_vocabulary(args.output_dir )
# Load a trained model and vocabulary that you have fine-tuned
lowerCamelCase_ =OpenAIGPTDoubleHeadsModel.from_pretrained(args.output_dir )
lowerCamelCase_ =OpenAIGPTTokenizer.from_pretrained(args.output_dir )
model.to(__snake_case )
if args.do_eval:
model.eval()
lowerCamelCase_, lowerCamelCase_ =0, 0
lowerCamelCase_, lowerCamelCase_ =0, 0
for batch in tqdm(__snake_case , desc='''Evaluating''' ):
lowerCamelCase_ =tuple(t.to(__snake_case ) for t in batch )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =batch
with torch.no_grad():
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =model(
__snake_case , mc_token_ids=__snake_case , lm_labels=__snake_case , mc_labels=__snake_case )
lowerCamelCase_ =mc_logits.detach().cpu().numpy()
lowerCamelCase_ =mc_labels.to('''cpu''' ).numpy()
lowerCamelCase_ =accuracy(__snake_case , __snake_case )
eval_loss += mc_loss.mean().item()
eval_accuracy += tmp_eval_accuracy
nb_eval_examples += input_ids.size(0 )
nb_eval_steps += 1
lowerCamelCase_ =eval_loss / nb_eval_steps
lowerCamelCase_ =eval_accuracy / nb_eval_examples
lowerCamelCase_ =tr_loss / nb_tr_steps if args.do_train else None
lowerCamelCase_ ={'''eval_loss''': eval_loss, '''eval_accuracy''': eval_accuracy, '''train_loss''': train_loss}
lowerCamelCase_ =os.path.join(args.output_dir , '''eval_results.txt''' )
with open(__snake_case , '''w''' ) as writer:
logger.info('''***** Eval results *****''' )
for key in sorted(result.keys() ):
logger.info(''' %s = %s''' , __snake_case , str(result[key] ) )
writer.write('''%s = %s\n''' % (key, str(result[key] )) )
if __name__ == "__main__":
main()
| 75 | 0 |
import logging
import os
import quant_trainer
import torch
from torch.utils.data import DataLoader
from transformers import Trainer, is_torch_tpu_available
from transformers.trainer_utils import PredictionOutput
lowerCAmelCase = logging.getLogger(__name__)
if is_torch_tpu_available(check_device=False):
import torch_xla.core.xla_model as xm
import torch_xla.debug.metrics as met
class _a ( UpperCamelCase__ ):
def __init__( self: str , *UpperCamelCase_: Optional[int] , UpperCamelCase_: Optional[Any]=None , UpperCamelCase_: Optional[int]=None , UpperCamelCase_: Tuple=None , **UpperCamelCase_: Any ) -> Union[str, Any]:
"""simple docstring"""
super().__init__(*UpperCamelCase_ , **UpperCamelCase_ )
lowercase__ = eval_examples
lowercase__ = post_process_function
lowercase__ = quant_trainer_args
lowercase__ = 128 # default number of calibration samples
def lowerCamelCase_ ( self: Union[str, Any] , UpperCamelCase_: Optional[Any]=None ) -> Any:
"""simple docstring"""
if calib_dataset is None and self.calib_dataset is None:
raise ValueError('''Trainer: calibration requires an calib_dataset.''' )
lowercase__ = calib_dataset if calib_dataset is not None else self.calib_dataset
lowercase__ = self._remove_unused_columns(UpperCamelCase_ , description='''Calibration''' )
return DataLoader(
UpperCamelCase_ , batch_size=self.args.eval_batch_size , collate_fn=self.data_collator , drop_last=self.args.dataloader_drop_last , num_workers=self.args.dataloader_num_workers , pin_memory=self.args.dataloader_pin_memory , shuffle=UpperCamelCase_ , )
def lowerCamelCase_ ( self: Union[str, Any] , UpperCamelCase_: str=None ) -> Dict:
"""simple docstring"""
lowercase__ = self.train_dataset if calib_dataset is None else calib_dataset
lowercase__ = self.get_calib_dataloader(UpperCamelCase_ )
lowercase__ = self.model
quant_trainer.configure_model(UpperCamelCase_ , self.quant_trainer_args , calib=UpperCamelCase_ )
model.eval()
quant_trainer.enable_calibration(UpperCamelCase_ )
logger.info('''***** Running calibration *****''' )
logger.info(f' Num examples = {self.calib_num}' )
logger.info(f' Batch size = {calib_dataloader.batch_size}' )
for step, inputs in enumerate(UpperCamelCase_ ):
# Prediction step
lowercase__ , lowercase__ , lowercase__ = self.prediction_step(UpperCamelCase_ , UpperCamelCase_ , prediction_loss_only=UpperCamelCase_ )
if (step + 1) * calib_dataloader.batch_size >= self.calib_num:
break
quant_trainer.finish_calibration(UpperCamelCase_ , self.quant_trainer_args )
lowercase__ = model
def lowerCamelCase_ ( self: Union[str, Any] , UpperCamelCase_: Union[str, Any]=None , UpperCamelCase_: List[Any]=None , UpperCamelCase_: List[str]=None , UpperCamelCase_: str = "eval" ) -> Tuple:
"""simple docstring"""
lowercase__ = self.eval_dataset if eval_dataset is None else eval_dataset
lowercase__ = self.get_eval_dataloader(UpperCamelCase_ )
lowercase__ = self.eval_examples if eval_examples is None else eval_examples
# Temporarily disable metric computation, we will do it in the loop here.
lowercase__ = self.compute_metrics
lowercase__ = None
lowercase__ = self.prediction_loop if self.args.use_legacy_prediction_loop else self.evaluation_loop
try:
lowercase__ = eval_loop(
UpperCamelCase_ , description='''Evaluation''' , prediction_loss_only=True if compute_metrics is None else None , ignore_keys=UpperCamelCase_ , )
finally:
lowercase__ = compute_metrics
if self.post_process_function is not None and self.compute_metrics is not None:
lowercase__ = self.post_process_function(UpperCamelCase_ , UpperCamelCase_ , output.predictions )
lowercase__ = self.compute_metrics(UpperCamelCase_ )
# Prefix all keys with metric_key_prefix + '_'
for key in list(metrics.keys() ):
if not key.startswith(f'{metric_key_prefix}_' ):
lowercase__ = metrics.pop(UpperCamelCase_ )
self.log(UpperCamelCase_ )
else:
lowercase__ = {}
if self.args.tpu_metrics_debug or self.args.debug:
# tpu-comment: Logging debug metrics for PyTorch/XLA (compile, execute times, ops, etc.)
xm.master_print(met.metrics_report() )
lowercase__ = self.callback_handler.on_evaluate(self.args , self.state , self.control , UpperCamelCase_ )
return metrics
def lowerCamelCase_ ( self: int , UpperCamelCase_: Optional[Any] , UpperCamelCase_: Tuple , UpperCamelCase_: List[Any]=None , UpperCamelCase_: str = "test" ) -> Optional[int]:
"""simple docstring"""
lowercase__ = self.get_test_dataloader(UpperCamelCase_ )
# Temporarily disable metric computation, we will do it in the loop here.
lowercase__ = self.compute_metrics
lowercase__ = None
lowercase__ = self.prediction_loop if self.args.use_legacy_prediction_loop else self.evaluation_loop
try:
lowercase__ = eval_loop(
UpperCamelCase_ , description='''Prediction''' , prediction_loss_only=True if compute_metrics is None else None , ignore_keys=UpperCamelCase_ , )
finally:
lowercase__ = compute_metrics
if self.post_process_function is None or self.compute_metrics is None:
return output
lowercase__ = self.post_process_function(UpperCamelCase_ , UpperCamelCase_ , output.predictions , '''predict''' )
lowercase__ = self.compute_metrics(UpperCamelCase_ )
# Prefix all keys with metric_key_prefix + '_'
for key in list(metrics.keys() ):
if not key.startswith(f'{metric_key_prefix}_' ):
lowercase__ = metrics.pop(UpperCamelCase_ )
return PredictionOutput(predictions=predictions.predictions , label_ids=predictions.label_ids , metrics=UpperCamelCase_ )
def lowerCamelCase_ ( self: int , UpperCamelCase_: Tuple="./" ) -> str:
"""simple docstring"""
lowercase__ = self.eval_dataset
lowercase__ = self.get_eval_dataloader(UpperCamelCase_ )
lowercase__ = next(iter(UpperCamelCase_ ) )
# saving device - to make it consistent
lowercase__ = torch.device('''cuda''' if torch.cuda.is_available() else '''cpu''' )
# convert to tuple
lowercase__ = tuple(v.to(UpperCamelCase_ ) for k, v in batch.items() )
logger.info('''Converting model to be onnx compatible''' )
from pytorch_quantization.nn import TensorQuantizer
lowercase__ = True
lowercase__ = self.model.to(UpperCamelCase_ )
model.eval()
model.float()
lowercase__ = model.module if hasattr(UpperCamelCase_ , '''module''' ) else model
quant_trainer.configure_model(UpperCamelCase_ , self.quant_trainer_args )
lowercase__ = os.path.join(UpperCamelCase_ , '''model.onnx''' )
logger.info(f'exporting model to {output_model_file}' )
lowercase__ = {0: '''batch_size''', 1: '''seq_len'''}
torch.onnx.export(
UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , export_params=UpperCamelCase_ , opset_version=13 , do_constant_folding=UpperCamelCase_ , input_names=['''input_ids''', '''attention_mask''', '''token_type_ids'''] , output_names=['''output_start_logits''', '''output_end_logits'''] , dynamic_axes={
'''input_ids''': axes,
'''attention_mask''': axes,
'''token_type_ids''': axes,
'''output_start_logits''': axes,
'''output_end_logits''': axes,
} , verbose=UpperCamelCase_ , )
logger.info('''onnx export finished''' )
| 110 |
'''simple docstring'''
import copy
import os
import cva
import numpy as np
from matplotlib import pyplot as plt
class __UpperCamelCase :
def __init__( self ):
"""simple docstring"""
lowerCamelCase_ =''''''
lowerCamelCase_ =''''''
lowerCamelCase_ =[]
lowerCamelCase_ =0
lowerCamelCase_ =256
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =0
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =cva.imread(lowerCAmelCase, 0 )
lowerCamelCase_ =copy.deepcopy(self.img )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =plt.hist(self.img.ravel(), 256, [0, 256], label='''x''' )
lowerCamelCase_ =np.sum(lowerCAmelCase )
for i in range(len(lowerCAmelCase ) ):
lowerCamelCase_ =x[i] / self.k
self.sk += prk
lowerCamelCase_ =(self.L - 1) * self.sk
if self.rem != 0:
lowerCamelCase_ =int(last % last )
lowerCamelCase_ =int(last + 1 if self.rem >= 0.5 else last )
self.last_list.append(lowerCAmelCase )
lowerCamelCase_ =int(np.ma.count(self.img ) / self.img[1].size )
lowerCamelCase_ =self.img[1].size
for i in range(self.number_of_cols ):
for j in range(self.number_of_rows ):
lowerCamelCase_ =self.img[j][i]
if num != self.last_list[num]:
lowerCamelCase_ =self.last_list[num]
cva.imwrite('''output_data/output.jpg''', self.img )
def lowercase__ ( self ):
"""simple docstring"""
plt.hist(self.img.ravel(), 256, [0, 256] )
def lowercase__ ( self ):
"""simple docstring"""
cva.imshow('''Output-Image''', self.img )
cva.imshow('''Input-Image''', self.original_image )
cva.waitKey(5_000 )
cva.destroyAllWindows()
if __name__ == "__main__":
a_ : str = os.path.join(os.path.basename(__file__), """image_data/input.jpg""")
a_ : Optional[Any] = ConstantStretch()
stretcher.stretch(file_path)
stretcher.plot_histogram()
stretcher.show_image()
| 75 | 0 |
"""simple docstring"""
import os
lowerCAmelCase : Optional[int] = {"""I""": 1, """V""": 5, """X""": 10, """L""": 50, """C""": 100, """D""": 500, """M""": 1000}
def a__ ( snake_case__ ) -> int:
lowerCamelCase = 0
lowerCamelCase = 0
while index < len(__snake_case ) - 1:
lowerCamelCase = SYMBOLS[numerals[index]]
lowerCamelCase = SYMBOLS[numerals[index + 1]]
if current_value < next_value:
total_value -= current_value
else:
total_value += current_value
index += 1
total_value += SYMBOLS[numerals[index]]
return total_value
def a__ ( snake_case__ ) -> str:
lowerCamelCase = """"""
lowerCamelCase = num // 10_00
numerals += m_count * "M"
num %= 10_00
lowerCamelCase = num // 1_00
if c_count == 9:
numerals += "CM"
c_count -= 9
elif c_count == 4:
numerals += "CD"
c_count -= 4
if c_count >= 5:
numerals += "D"
c_count -= 5
numerals += c_count * "C"
num %= 1_00
lowerCamelCase = num // 10
if x_count == 9:
numerals += "XC"
x_count -= 9
elif x_count == 4:
numerals += "XL"
x_count -= 4
if x_count >= 5:
numerals += "L"
x_count -= 5
numerals += x_count * "X"
num %= 10
if num == 9:
numerals += "IX"
num -= 9
elif num == 4:
numerals += "IV"
num -= 4
if num >= 5:
numerals += "V"
num -= 5
numerals += num * "I"
return numerals
def a__ ( snake_case__ = "/p089_roman.txt" ) -> int:
lowerCamelCase = 0
with open(os.path.dirname(__snake_case ) + roman_numerals_filename ) as filea:
lowerCamelCase = filea.readlines()
for line in lines:
lowerCamelCase = line.strip()
lowerCamelCase = parse_roman_numerals(__snake_case )
lowerCamelCase = generate_roman_numerals(__snake_case )
savings += len(__snake_case ) - len(__snake_case )
return savings
if __name__ == "__main__":
print(F"""{solution() = }""")
| 291 |
'''simple docstring'''
from collections import UserDict
from typing import Union
import numpy as np
import requests
from ..utils import (
add_end_docstrings,
logging,
)
from .audio_classification import ffmpeg_read
from .base import PIPELINE_INIT_ARGS, Pipeline
a_ : Any = logging.get_logger(__name__)
@add_end_docstrings(lowerCamelCase__ )
class __UpperCamelCase ( lowerCamelCase__ ):
def __init__( self, **lowerCAmelCase ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
if self.framework != "pt":
raise ValueError(f'''The {self.__class__} is only available in PyTorch.''' )
# No specific FOR_XXX available yet
def __call__( self, lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
return super().__call__(lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ ={}
if "candidate_labels" in kwargs:
lowerCamelCase_ =kwargs['''candidate_labels''']
if "hypothesis_template" in kwargs:
lowerCamelCase_ =kwargs['''hypothesis_template''']
return preprocess_params, {}, {}
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase=None, lowerCAmelCase="This is a sound of {}." ):
"""simple docstring"""
if isinstance(lowerCAmelCase, lowerCAmelCase ):
if audio.startswith('''http://''' ) or audio.startswith('''https://''' ):
# We need to actually check for a real protocol, otherwise it's impossible to use a local file
# like http_huggingface_co.png
lowerCamelCase_ =requests.get(lowerCAmelCase ).content
else:
with open(lowerCAmelCase, '''rb''' ) as f:
lowerCamelCase_ =f.read()
if isinstance(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =ffmpeg_read(lowerCAmelCase, self.feature_extractor.sampling_rate )
if not isinstance(lowerCAmelCase, np.ndarray ):
raise ValueError('''We expect a numpy ndarray as input''' )
if len(audio.shape ) != 1:
raise ValueError('''We expect a single channel audio input for ZeroShotAudioClassificationPipeline''' )
lowerCamelCase_ =self.feature_extractor(
[audio], sampling_rate=self.feature_extractor.sampling_rate, return_tensors='''pt''' )
lowerCamelCase_ =candidate_labels
lowerCamelCase_ =[hypothesis_template.format(lowerCAmelCase ) for x in candidate_labels]
lowerCamelCase_ =self.tokenizer(lowerCAmelCase, return_tensors=self.framework, padding=lowerCAmelCase )
lowerCamelCase_ =[text_inputs]
return inputs
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =model_inputs.pop('''candidate_labels''' )
lowerCamelCase_ =model_inputs.pop('''text_inputs''' )
if isinstance(text_inputs[0], lowerCAmelCase ):
lowerCamelCase_ =text_inputs[0]
else:
# Batching case.
lowerCamelCase_ =text_inputs[0][0]
lowerCamelCase_ =self.model(**lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ ={
'''candidate_labels''': candidate_labels,
'''logits''': outputs.logits_per_audio,
}
return model_outputs
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =model_outputs.pop('''candidate_labels''' )
lowerCamelCase_ =model_outputs['''logits'''][0]
if self.framework == "pt":
lowerCamelCase_ =logits.softmax(dim=0 )
lowerCamelCase_ =probs.tolist()
else:
raise ValueError('''`tf` framework not supported.''' )
lowerCamelCase_ =[
{'''score''': score, '''label''': candidate_label}
for score, candidate_label in sorted(zip(lowerCAmelCase, lowerCAmelCase ), key=lambda lowerCAmelCase : -x[0] )
]
return result
| 75 | 0 |
"""simple docstring"""
import tempfile
import torch
from diffusers import IPNDMScheduler
from .test_schedulers import SchedulerCommonTest
class lowerCAmelCase_ ( lowerCamelCase__ ):
"""simple docstring"""
_lowerCAmelCase : Optional[Any] = (IPNDMScheduler,)
_lowerCAmelCase : Optional[int] = (('num_inference_steps', 50),)
def snake_case ( self , **lowerCAmelCase ):
"""simple docstring"""
snake_case = {'num_train_timesteps': 10_00}
config.update(**lowerCAmelCase )
return config
def snake_case ( self , lowerCAmelCase=0 , **lowerCAmelCase ):
"""simple docstring"""
snake_case = dict(self.forward_default_kwargs )
snake_case = kwargs.pop('num_inference_steps' , lowerCAmelCase )
snake_case = self.dummy_sample
snake_case = 0.1 * sample
snake_case = [residual + 0.2, residual + 0.15, residual + 0.1, residual + 0.05]
for scheduler_class in self.scheduler_classes:
snake_case = self.get_scheduler_config(**lowerCAmelCase )
snake_case = scheduler_class(**lowerCAmelCase )
scheduler.set_timesteps(lowerCAmelCase )
# copy over dummy past residuals
snake_case = dummy_past_residuals[:]
if time_step is None:
snake_case = scheduler.timesteps[len(scheduler.timesteps ) // 2]
with tempfile.TemporaryDirectory() as tmpdirname:
scheduler.save_config(lowerCAmelCase )
snake_case = scheduler_class.from_pretrained(lowerCAmelCase )
new_scheduler.set_timesteps(lowerCAmelCase )
# copy over dummy past residuals
snake_case = dummy_past_residuals[:]
snake_case = scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
snake_case = new_scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
assert torch.sum(torch.abs(output - new_output ) ) < 1E-5, "Scheduler outputs are not identical"
snake_case = scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
snake_case = new_scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
assert torch.sum(torch.abs(output - new_output ) ) < 1E-5, "Scheduler outputs are not identical"
def snake_case ( self ):
"""simple docstring"""
pass
def snake_case ( self , lowerCAmelCase=0 , **lowerCAmelCase ):
"""simple docstring"""
snake_case = dict(self.forward_default_kwargs )
snake_case = kwargs.pop('num_inference_steps' , lowerCAmelCase )
snake_case = self.dummy_sample
snake_case = 0.1 * sample
snake_case = [residual + 0.2, residual + 0.15, residual + 0.1, residual + 0.05]
for scheduler_class in self.scheduler_classes:
snake_case = self.get_scheduler_config()
snake_case = scheduler_class(**lowerCAmelCase )
scheduler.set_timesteps(lowerCAmelCase )
# copy over dummy past residuals (must be after setting timesteps)
snake_case = dummy_past_residuals[:]
if time_step is None:
snake_case = scheduler.timesteps[len(scheduler.timesteps ) // 2]
with tempfile.TemporaryDirectory() as tmpdirname:
scheduler.save_config(lowerCAmelCase )
snake_case = scheduler_class.from_pretrained(lowerCAmelCase )
# copy over dummy past residuals
new_scheduler.set_timesteps(lowerCAmelCase )
# copy over dummy past residual (must be after setting timesteps)
snake_case = dummy_past_residuals[:]
snake_case = scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
snake_case = new_scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
assert torch.sum(torch.abs(output - new_output ) ) < 1E-5, "Scheduler outputs are not identical"
snake_case = scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
snake_case = new_scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
assert torch.sum(torch.abs(output - new_output ) ) < 1E-5, "Scheduler outputs are not identical"
def snake_case ( self , **lowerCAmelCase ):
"""simple docstring"""
snake_case = self.scheduler_classes[0]
snake_case = self.get_scheduler_config(**lowerCAmelCase )
snake_case = scheduler_class(**lowerCAmelCase )
snake_case = 10
snake_case = self.dummy_model()
snake_case = self.dummy_sample_deter
scheduler.set_timesteps(lowerCAmelCase )
for i, t in enumerate(scheduler.timesteps ):
snake_case = model(lowerCAmelCase , lowerCAmelCase )
snake_case = scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ).prev_sample
for i, t in enumerate(scheduler.timesteps ):
snake_case = model(lowerCAmelCase , lowerCAmelCase )
snake_case = scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ).prev_sample
return sample
def snake_case ( self ):
"""simple docstring"""
snake_case = dict(self.forward_default_kwargs )
snake_case = kwargs.pop('num_inference_steps' , lowerCAmelCase )
for scheduler_class in self.scheduler_classes:
snake_case = self.get_scheduler_config()
snake_case = scheduler_class(**lowerCAmelCase )
snake_case = self.dummy_sample
snake_case = 0.1 * sample
if num_inference_steps is not None and hasattr(lowerCAmelCase , 'set_timesteps' ):
scheduler.set_timesteps(lowerCAmelCase )
elif num_inference_steps is not None and not hasattr(lowerCAmelCase , 'set_timesteps' ):
snake_case = num_inference_steps
# copy over dummy past residuals (must be done after set_timesteps)
snake_case = [residual + 0.2, residual + 0.15, residual + 0.1, residual + 0.05]
snake_case = dummy_past_residuals[:]
snake_case = scheduler.timesteps[5]
snake_case = scheduler.timesteps[6]
snake_case = scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
snake_case = scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
self.assertEqual(output_a.shape , sample.shape )
self.assertEqual(output_a.shape , output_a.shape )
snake_case = scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
snake_case = scheduler.step(lowerCAmelCase , lowerCAmelCase , lowerCAmelCase , **lowerCAmelCase ).prev_sample
self.assertEqual(output_a.shape , sample.shape )
self.assertEqual(output_a.shape , output_a.shape )
def snake_case ( self ):
"""simple docstring"""
for timesteps in [1_00, 10_00]:
self.check_over_configs(num_train_timesteps=lowerCAmelCase , time_step=lowerCAmelCase )
def snake_case ( self ):
"""simple docstring"""
for t, num_inference_steps in zip([1, 5, 10] , [10, 50, 1_00] ):
self.check_over_forward(num_inference_steps=lowerCAmelCase , time_step=lowerCAmelCase )
def snake_case ( self ):
"""simple docstring"""
snake_case = self.full_loop()
snake_case = torch.mean(torch.abs(lowerCAmelCase ) )
assert abs(result_mean.item() - 2_54_05_29 ) < 10
| 150 |
'''simple docstring'''
import unittest
from pathlib import Path
from shutil import copyfile
from transformers import SPIECE_UNDERLINE, is_sentencepiece_available
from transformers.models.speech_to_text import SpeechaTextTokenizer
from transformers.models.speech_to_text.tokenization_speech_to_text import VOCAB_FILES_NAMES, save_json
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
a_ : str = get_tests_dir("""fixtures/test_sentencepiece.model""")
if is_sentencepiece_available():
import sentencepiece as sp
a_ : Optional[Any] = 5
a_ : str = 10
@require_sentencepiece
@require_tokenizers
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : int =SpeechaTextTokenizer
lowercase : int =False
lowercase : List[str] =True
def lowercase__ ( self ):
"""simple docstring"""
super().setUp()
lowerCamelCase_ =sp.SentencePieceProcessor()
spm_model.Load(lowerCAmelCase )
lowerCamelCase_ =['''<s>''', '''<pad>''', '''</s>''', '''<unk>''']
vocab += [spm_model.IdToPiece(id_ ) for id_ in range(len(lowerCAmelCase ) )]
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ =Path(self.tmpdirname )
save_json(lowerCAmelCase, save_dir / VOCAB_FILES_NAMES['''vocab_file'''] )
if not (save_dir / VOCAB_FILES_NAMES["spm_file"]).exists():
copyfile(lowerCAmelCase, save_dir / VOCAB_FILES_NAMES['''spm_file'''] )
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(self.tmpdirname )
tokenizer.save_pretrained(self.tmpdirname )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''<pad>'''
lowerCamelCase_ =1
self.assertEqual(self.get_tokenizer()._convert_token_to_id(lowerCAmelCase ), lowerCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(lowerCAmelCase ), lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0], '''<s>''' )
self.assertEqual(vocab_keys[1], '''<pad>''' )
self.assertEqual(vocab_keys[-1], '''j''' )
self.assertEqual(len(lowerCAmelCase ), 1_001 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size, 1_001 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(self.tmpdirname )
lowerCamelCase_ =tokenizer.tokenize('''This is a test''' )
self.assertListEqual(lowerCAmelCase, ['''▁This''', '''▁is''', '''▁a''', '''▁t''', '''est'''] )
self.assertListEqual(
tokenizer.convert_tokens_to_ids(lowerCAmelCase ), [289, 50, 14, 174, 386], )
lowerCamelCase_ =tokenizer.tokenize('''I was born in 92000, and this is falsé.''' )
self.assertListEqual(
lowerCAmelCase, [SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''9''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''é''', '''.'''], )
lowerCamelCase_ =tokenizer.convert_tokens_to_ids(lowerCAmelCase )
self.assertListEqual(lowerCAmelCase, [12, 25, 88, 59, 28, 23, 11, 4, 606, 351, 351, 351, 7, 16, 70, 50, 76, 84, 10, 4, 8] )
lowerCamelCase_ =tokenizer.convert_ids_to_tokens(lowerCAmelCase )
self.assertListEqual(
lowerCAmelCase, [SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''<unk>''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''<unk>''', '''.'''], )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ={'''input_ids''': [[3_791, 797, 31, 11, 64, 797, 31, 2_429, 433, 12, 1_176, 12, 20, 786, 915, 142, 2_413, 240, 37, 3_238, 797, 31, 11, 35, 93, 915, 142, 2_413, 240, 37, 5_540, 567, 1_276, 93, 37, 610, 40, 62, 455, 657, 1_042, 123, 780, 177, 37, 309, 241, 1_298, 514, 20, 292, 2_737, 114, 2_469, 241, 85, 64, 302, 548, 528, 423, 4, 509, 406, 423, 37, 601, 4, 777, 302, 548, 528, 423, 284, 4, 3_388, 511, 459, 4, 3_555, 40, 321, 302, 705, 4, 3_388, 511, 583, 326, 5, 5, 5, 62, 3_310, 560, 177, 2_680, 217, 1_508, 32, 31, 853, 418, 64, 583, 511, 1_605, 62, 35, 93, 560, 177, 2_680, 217, 1_508, 1_521, 64, 583, 511, 519, 62, 20, 1_515, 764, 20, 149, 261, 5_625, 7_972, 20, 5_540, 567, 1_276, 93, 3_925, 1_675, 11, 15, 802, 7_972, 576, 217, 1_508, 11, 35, 93, 1_253, 2_441, 15, 289, 652, 31, 416, 321, 3_842, 115, 40, 911, 8, 476, 619, 4, 380, 142, 423, 335, 240, 35, 93, 264, 8, 11, 335, 569, 420, 163, 5, 2], [260, 548, 528, 423, 20, 451, 20, 2_681, 1_153, 3_434, 20, 5_540, 37, 567, 126, 1_253, 2_441, 3_376, 449, 210, 431, 1_563, 177, 767, 5_540, 11, 1_203, 472, 11, 2_953, 685, 285, 364, 706, 1_153, 20, 6_799, 20, 2_869, 20, 4_464, 126, 40, 2_429, 20, 1_040, 866, 2_664, 418, 20, 318, 20, 1_726, 186, 20, 265, 522, 35, 93, 2_191, 4_634, 20, 1_040, 12, 6_799, 15, 228, 2_356, 142, 31, 11, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [2_575, 2_666, 684, 1_582, 1_176, 12, 627, 149, 619, 20, 4_902, 563, 11, 20, 149, 261, 3_420, 2_356, 174, 142, 4_714, 131, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]], '''attention_mask''': [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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=lowerCAmelCase, model_name='''facebook/s2t-small-mustc-en-de-st''', revision='''a14f04cf0776c02f62a8cb800cf7909e15ea23ad''', )
@require_sentencepiece
class __UpperCamelCase ( unittest.TestCase ):
lowercase : Tuple ='valhalla/s2t_mustc_multilinguial_medium'
lowercase : Dict ='C\'est trop cool'
lowercase : str ='Esto es genial'
@classmethod
def lowercase__ ( cls ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(cls.checkpoint_name )
return cls
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.tokenizer.lang_code_to_id['''pt'''], 4 )
self.assertEqual(self.tokenizer.lang_code_to_id['''ru'''], 6 )
self.assertEqual(self.tokenizer.lang_code_to_id['''it'''], 9 )
self.assertEqual(self.tokenizer.lang_code_to_id['''de'''], 11 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.tokenizer.vocab_size, 10_000 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertIn(lowerCAmelCase, self.tokenizer.all_special_ids )
lowerCamelCase_ =[ES_CODE, 4, 1_601, 47, 7_647, 2]
lowerCamelCase_ =self.tokenizer.decode(lowerCAmelCase, skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =self.tokenizer.decode(generated_ids[1:], skip_special_tokens=lowerCAmelCase )
self.assertEqual(lowerCAmelCase, lowerCAmelCase )
self.assertNotIn(self.tokenizer.eos_token, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''fr'''
lowerCamelCase_ =self.tokenizer(self.french_text ).input_ids
self.assertEqual(encoded[0], lowerCAmelCase )
self.assertEqual(encoded[-1], self.tokenizer.eos_token_id )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''fr'''
self.assertListEqual(self.tokenizer.prefix_tokens, [FR_CODE] )
lowerCamelCase_ ='''es'''
self.assertListEqual(self.tokenizer.prefix_tokens, [ES_CODE] )
| 75 | 0 |
"""simple docstring"""
import unittest
from transformers import MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING, is_vision_available, 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_ ( *lowercase , **lowercase ):
pass
@is_pipeline_test
@require_vision
@require_torch
class lowerCAmelCase__ ( unittest.TestCase ):
'''simple docstring'''
lowerCamelCase__ = MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING
def A_ ( self , lowercase , lowercase , lowercase ):
_lowerCamelCase : Any = pipeline(
'zero-shot-object-detection' , model='hf-internal-testing/tiny-random-owlvit-object-detection' )
_lowerCamelCase : Dict = [
{
'image': './tests/fixtures/tests_samples/COCO/000000039769.png',
'candidate_labels': ['cat', 'remote', 'couch'],
}
]
return object_detector, examples
def A_ ( self , lowercase , lowercase ):
_lowerCamelCase : int = object_detector(examples[0] , threshold=0.0 )
_lowerCamelCase : str = len(lowercase )
self.assertGreater(lowercase , 0 )
self.assertEqual(
lowercase , [
{
'score': ANY(lowercase ),
'label': ANY(lowercase ),
'box': {'xmin': ANY(lowercase ), 'ymin': ANY(lowercase ), 'xmax': ANY(lowercase ), 'ymax': ANY(lowercase )},
}
for i in range(lowercase )
] , )
@require_tf
@unittest.skip('Zero Shot Object Detection not implemented in TF' )
def A_ ( self ):
pass
@require_torch
def A_ ( self ):
_lowerCamelCase : List[Any] = pipeline(
'zero-shot-object-detection' , model='hf-internal-testing/tiny-random-owlvit-object-detection' )
_lowerCamelCase : List[Any] = object_detector(
'./tests/fixtures/tests_samples/COCO/000000039769.png' , candidate_labels=['cat', 'remote', 'couch'] , threshold=0.64 , )
self.assertEqual(
nested_simplify(lowercase , decimals=4 ) , [
{'score': 0.72_35, 'label': 'cat', 'box': {'xmin': 204, 'ymin': 167, 'xmax': 232, 'ymax': 190}},
{'score': 0.72_18, 'label': 'remote', 'box': {'xmin': 204, 'ymin': 167, 'xmax': 232, 'ymax': 190}},
{'score': 0.71_84, 'label': 'couch', 'box': {'xmin': 204, 'ymin': 167, 'xmax': 232, 'ymax': 190}},
{'score': 0.67_48, 'label': 'remote', 'box': {'xmin': 571, 'ymin': 83, 'xmax': 598, 'ymax': 103}},
{'score': 0.66_56, 'label': 'cat', 'box': {'xmin': 571, 'ymin': 83, 'xmax': 598, 'ymax': 103}},
{'score': 0.66_14, 'label': 'couch', 'box': {'xmin': 571, 'ymin': 83, 'xmax': 598, 'ymax': 103}},
{'score': 0.64_56, 'label': 'remote', 'box': {'xmin': 494, 'ymin': 105, 'xmax': 521, 'ymax': 127}},
{'score': 0.6_42, 'label': 'remote', 'box': {'xmin': 67, 'ymin': 274, 'xmax': 93, 'ymax': 297}},
{'score': 0.64_19, 'label': 'cat', 'box': {'xmin': 494, 'ymin': 105, 'xmax': 521, 'ymax': 127}},
] , )
_lowerCamelCase : List[str] = object_detector(
[
{
'image': './tests/fixtures/tests_samples/COCO/000000039769.png',
'candidate_labels': ['cat', 'remote', 'couch'],
}
] , threshold=0.64 , )
self.assertEqual(
nested_simplify(lowercase , decimals=4 ) , [
[
{'score': 0.72_35, 'label': 'cat', 'box': {'xmin': 204, 'ymin': 167, 'xmax': 232, 'ymax': 190}},
{'score': 0.72_18, 'label': 'remote', 'box': {'xmin': 204, 'ymin': 167, 'xmax': 232, 'ymax': 190}},
{'score': 0.71_84, 'label': 'couch', 'box': {'xmin': 204, 'ymin': 167, 'xmax': 232, 'ymax': 190}},
{'score': 0.67_48, 'label': 'remote', 'box': {'xmin': 571, 'ymin': 83, 'xmax': 598, 'ymax': 103}},
{'score': 0.66_56, 'label': 'cat', 'box': {'xmin': 571, 'ymin': 83, 'xmax': 598, 'ymax': 103}},
{'score': 0.66_14, 'label': 'couch', 'box': {'xmin': 571, 'ymin': 83, 'xmax': 598, 'ymax': 103}},
{'score': 0.64_56, 'label': 'remote', 'box': {'xmin': 494, 'ymin': 105, 'xmax': 521, 'ymax': 127}},
{'score': 0.6_42, 'label': 'remote', 'box': {'xmin': 67, 'ymin': 274, 'xmax': 93, 'ymax': 297}},
{'score': 0.64_19, 'label': 'cat', 'box': {'xmin': 494, 'ymin': 105, 'xmax': 521, 'ymax': 127}},
]
] , )
@require_torch
@slow
def A_ ( self ):
_lowerCamelCase : str = pipeline('zero-shot-object-detection' )
_lowerCamelCase : Tuple = object_detector(
'http://images.cocodataset.org/val2017/000000039769.jpg' , candidate_labels=['cat', 'remote', 'couch'] , )
self.assertEqual(
nested_simplify(lowercase , decimals=4 ) , [
{'score': 0.28_68, 'label': 'cat', 'box': {'xmin': 324, 'ymin': 20, 'xmax': 640, 'ymax': 373}},
{'score': 0.2_77, 'label': 'remote', 'box': {'xmin': 40, 'ymin': 72, 'xmax': 177, 'ymax': 115}},
{'score': 0.25_37, 'label': 'cat', 'box': {'xmin': 1, 'ymin': 55, 'xmax': 315, 'ymax': 472}},
{'score': 0.14_74, 'label': 'remote', 'box': {'xmin': 335, 'ymin': 74, 'xmax': 371, 'ymax': 187}},
{'score': 0.12_08, 'label': 'couch', 'box': {'xmin': 4, 'ymin': 0, 'xmax': 642, 'ymax': 476}},
] , )
_lowerCamelCase : Dict = object_detector(
[
{
'image': 'http://images.cocodataset.org/val2017/000000039769.jpg',
'candidate_labels': ['cat', 'remote', 'couch'],
},
{
'image': 'http://images.cocodataset.org/val2017/000000039769.jpg',
'candidate_labels': ['cat', 'remote', 'couch'],
},
] , )
self.assertEqual(
nested_simplify(lowercase , decimals=4 ) , [
[
{'score': 0.28_68, 'label': 'cat', 'box': {'xmin': 324, 'ymin': 20, 'xmax': 640, 'ymax': 373}},
{'score': 0.2_77, 'label': 'remote', 'box': {'xmin': 40, 'ymin': 72, 'xmax': 177, 'ymax': 115}},
{'score': 0.25_37, 'label': 'cat', 'box': {'xmin': 1, 'ymin': 55, 'xmax': 315, 'ymax': 472}},
{'score': 0.14_74, 'label': 'remote', 'box': {'xmin': 335, 'ymin': 74, 'xmax': 371, 'ymax': 187}},
{'score': 0.12_08, 'label': 'couch', 'box': {'xmin': 4, 'ymin': 0, 'xmax': 642, 'ymax': 476}},
],
[
{'score': 0.28_68, 'label': 'cat', 'box': {'xmin': 324, 'ymin': 20, 'xmax': 640, 'ymax': 373}},
{'score': 0.2_77, 'label': 'remote', 'box': {'xmin': 40, 'ymin': 72, 'xmax': 177, 'ymax': 115}},
{'score': 0.25_37, 'label': 'cat', 'box': {'xmin': 1, 'ymin': 55, 'xmax': 315, 'ymax': 472}},
{'score': 0.14_74, 'label': 'remote', 'box': {'xmin': 335, 'ymin': 74, 'xmax': 371, 'ymax': 187}},
{'score': 0.12_08, 'label': 'couch', 'box': {'xmin': 4, 'ymin': 0, 'xmax': 642, 'ymax': 476}},
],
] , )
@require_tf
@unittest.skip('Zero Shot Object Detection not implemented in TF' )
def A_ ( self ):
pass
@require_torch
@slow
def A_ ( self ):
_lowerCamelCase : Tuple = 0.2
_lowerCamelCase : Any = pipeline('zero-shot-object-detection' )
_lowerCamelCase : List[str] = object_detector(
'http://images.cocodataset.org/val2017/000000039769.jpg' , candidate_labels=['cat', 'remote', 'couch'] , threshold=lowercase , )
self.assertEqual(
nested_simplify(lowercase , decimals=4 ) , [
{'score': 0.28_68, 'label': 'cat', 'box': {'xmin': 324, 'ymin': 20, 'xmax': 640, 'ymax': 373}},
{'score': 0.2_77, 'label': 'remote', 'box': {'xmin': 40, 'ymin': 72, 'xmax': 177, 'ymax': 115}},
{'score': 0.25_37, 'label': 'cat', 'box': {'xmin': 1, 'ymin': 55, 'xmax': 315, 'ymax': 472}},
] , )
@require_torch
@slow
def A_ ( self ):
_lowerCamelCase : Optional[int] = 2
_lowerCamelCase : str = pipeline('zero-shot-object-detection' )
_lowerCamelCase : Optional[Any] = object_detector(
'http://images.cocodataset.org/val2017/000000039769.jpg' , candidate_labels=['cat', 'remote', 'couch'] , top_k=lowercase , )
self.assertEqual(
nested_simplify(lowercase , decimals=4 ) , [
{'score': 0.28_68, 'label': 'cat', 'box': {'xmin': 324, 'ymin': 20, 'xmax': 640, 'ymax': 373}},
{'score': 0.2_77, 'label': 'remote', 'box': {'xmin': 40, 'ymin': 72, 'xmax': 177, 'ymax': 115}},
] , ) | 96 |
'''simple docstring'''
import argparse
import requests
import torch
# pip3 install salesforce-lavis
# I'm actually installing a slightly modified version: pip3 install git+https://github.com/nielsrogge/LAVIS.git@fix_lavis_float32 (there's also the fix_lavis branch)
# also note: to convert Vicuna checkpoints, we had to include /home/niels/python_projects/checkpoints/FastChat/vicuna-7b in lavis/configs/models/blip2/blip2_instruct_vicuna7b.yaml
# same for Vicuna-13b
from lavis.models import load_model_and_preprocess
from PIL import Image
from transformers import (
AutoTokenizer,
BlipImageProcessor,
InstructBlipConfig,
InstructBlipForConditionalGeneration,
InstructBlipProcessor,
InstructBlipQFormerConfig,
InstructBlipVisionConfig,
LlamaConfig,
LlamaTokenizerFast,
TaConfig,
TaTokenizerFast,
)
from transformers.utils.constants import OPENAI_CLIP_MEAN, OPENAI_CLIP_STD
def a_ ( ) -> Dict:
"""simple docstring"""
lowerCamelCase_ ='''https://raw.githubusercontent.com/salesforce/LAVIS/main/docs/_static/Confusing-Pictures.jpg'''
lowerCamelCase_ =Image.open(requests.get(__snake_case , stream=__snake_case ).raw ).convert('''RGB''' )
return image
def a_ ( __snake_case : Tuple ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =[]
# fmt: off
# vision encoder
rename_keys.append(('''visual_encoder.cls_token''', '''vision_model.embeddings.class_embedding''') )
rename_keys.append(('''visual_encoder.pos_embed''', '''vision_model.embeddings.position_embedding''') )
rename_keys.append(('''visual_encoder.patch_embed.proj.weight''', '''vision_model.embeddings.patch_embedding.weight''') )
rename_keys.append(('''visual_encoder.patch_embed.proj.bias''', '''vision_model.embeddings.patch_embedding.bias''') )
rename_keys.append(('''ln_vision.weight''', '''vision_model.post_layernorm.weight''') )
rename_keys.append(('''ln_vision.bias''', '''vision_model.post_layernorm.bias''') )
for i in range(config.vision_config.num_hidden_layers ):
rename_keys.append((F'''visual_encoder.blocks.{i}.norm1.weight''', F'''vision_model.encoder.layers.{i}.layer_norm1.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm1.bias''', F'''vision_model.encoder.layers.{i}.layer_norm1.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm2.weight''', F'''vision_model.encoder.layers.{i}.layer_norm2.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm2.bias''', F'''vision_model.encoder.layers.{i}.layer_norm2.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.qkv.weight''', F'''vision_model.encoder.layers.{i}.self_attn.qkv.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.proj.weight''', F'''vision_model.encoder.layers.{i}.self_attn.projection.weight''',) )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.proj.bias''', F'''vision_model.encoder.layers.{i}.self_attn.projection.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc1.weight''', F'''vision_model.encoder.layers.{i}.mlp.fc1.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc1.bias''', F'''vision_model.encoder.layers.{i}.mlp.fc1.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc2.weight''', F'''vision_model.encoder.layers.{i}.mlp.fc2.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc2.bias''', F'''vision_model.encoder.layers.{i}.mlp.fc2.bias''') )
# QFormer
rename_keys.append(('''Qformer.bert.embeddings.LayerNorm.weight''', '''qformer.embeddings.layernorm.weight''') )
rename_keys.append(('''Qformer.bert.embeddings.LayerNorm.bias''', '''qformer.embeddings.layernorm.bias''') )
# fmt: on
return rename_keys
def a_ ( __snake_case : Optional[Any] , __snake_case : List[str] , __snake_case : List[Any] ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =dct.pop(__snake_case )
lowerCamelCase_ =val
def a_ ( __snake_case : str , __snake_case : Optional[Any] ) -> Any:
"""simple docstring"""
for i in range(config.vision_config.num_hidden_layers ):
# read in original q and v biases
lowerCamelCase_ =state_dict.pop(F'''visual_encoder.blocks.{i}.attn.q_bias''' )
lowerCamelCase_ =state_dict.pop(F'''visual_encoder.blocks.{i}.attn.v_bias''' )
# next, set bias in the state dict
lowerCamelCase_ =torch.cat((q_bias, torch.zeros_like(__snake_case , requires_grad=__snake_case ), v_bias) )
lowerCamelCase_ =qkv_bias
def a_ ( __snake_case : List[str] ) -> Any:
"""simple docstring"""
lowerCamelCase_ =364 if '''coco''' in model_name else 224
lowerCamelCase_ =InstructBlipVisionConfig(image_size=__snake_case ).to_dict()
# make sure the models have proper bos_token_id and eos_token_id set (important for generation)
# seems like flan-T5 models don't have bos_token_id properly set?
if "t5-xl" in model_name:
lowerCamelCase_ =TaConfig.from_pretrained('''google/flan-t5-xl''' , dense_act_fn='''gelu''' , bos_token_id=1 ).to_dict()
elif "t5-xxl" in model_name:
lowerCamelCase_ =TaConfig.from_pretrained('''google/flan-t5-xxl''' , dense_act_fn='''gelu''' , bos_token_id=1 ).to_dict()
elif "vicuna-7b" in model_name:
lowerCamelCase_ =LlamaConfig.from_pretrained('''decapoda-research/llama-7b-hf''' , vocab_size=3_2001 ).to_dict()
elif "vicuna-13b" in model_name:
lowerCamelCase_ =LlamaConfig.from_pretrained('''decapoda-research/llama-13b-hf''' , vocab_size=3_2001 ).to_dict()
else:
raise ValueError('''Model name not supported''' )
# the authors add one special "[DEC]" token to the vocab of Q-Former, hence vocab size = 30522 + 1
lowerCamelCase_ =InstructBlipQFormerConfig(vocab_size=3_0523 ).to_dict()
lowerCamelCase_ =InstructBlipConfig(vision_config=__snake_case , text_config=__snake_case , qformer_config=__snake_case )
return config, image_size
@torch.no_grad()
def a_ ( __snake_case : Optional[int] , __snake_case : str=None , __snake_case : List[Any]=False ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ =AutoTokenizer.from_pretrained('''bert-base-uncased''' , truncation_side='''left''' )
qformer_tokenizer.add_special_tokens({'''bos_token''': '''[DEC]'''} )
if "t5" in model_name:
lowerCamelCase_ =TaTokenizerFast.from_pretrained('''google/flan-t5-xl''' , truncation_side='''left''' )
elif "vicuna" in model_name:
# the following was used in the original implementation:
# tokenizer = LlamaTokenizer.from_pretrained("huggyllama/llama-7b", use_fast=False, truncation_side="left")
# tokenizer.add_special_tokens({"pad_token": "[PAD]"})
# tokenizer.add_special_tokens({"bos_token": "</s>"})
# tokenizer.add_special_tokens({"eos_token": "</s>"})
# tokenizer.add_special_tokens({"unk_token": "</s>"})
lowerCamelCase_ =LlamaTokenizerFast.from_pretrained(
'''huggyllama/llama-7b''' , truncation_side='''left''' , bos_token='''</s>''' , unk_token='''</s>''' )
tokenizer.add_special_tokens({'''pad_token''': '''[PAD]'''} )
lowerCamelCase_, lowerCamelCase_ =get_blipa_config(__snake_case )
lowerCamelCase_ =InstructBlipForConditionalGeneration(__snake_case ).eval()
lowerCamelCase_ ={
'''instructblip-vicuna-7b''': ('''blip2_vicuna_instruct''', '''vicuna7b'''),
'''instructblip-vicuna-13b''': ('''blip2_vicuna_instruct''', '''vicuna13b'''),
'''instructblip-flan-t5-xl''': ('''blip2_t5_instruct''', '''flant5xl'''),
'''instructblip-flan-t5-xxl''': ('''blip2_t5_instruct''', '''flant5xxl'''),
}
lowerCamelCase_, lowerCamelCase_ =model_name_to_original[model_name]
# load original model
print('''Loading original model...''' )
lowerCamelCase_ ='''cuda:1''' if torch.cuda.is_available() else '''cpu'''
lowerCamelCase_ ='''cuda:2''' if torch.cuda.is_available() else '''cpu'''
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =load_model_and_preprocess(
name=__snake_case , model_type=__snake_case , is_eval=__snake_case , device=__snake_case )
original_model.eval()
print('''Done!''' )
# update state dict keys
lowerCamelCase_ =original_model.state_dict()
lowerCamelCase_ =create_rename_keys(__snake_case )
for src, dest in rename_keys:
rename_key(__snake_case , __snake_case , __snake_case )
# some keys can be renamed efficiently
for key, val in state_dict.copy().items():
lowerCamelCase_ =state_dict.pop(__snake_case )
if key.startswith('''Qformer.bert''' ):
lowerCamelCase_ =key.replace('''Qformer.bert''' , '''qformer''' )
if "attention.self" in key:
lowerCamelCase_ =key.replace('''self''' , '''attention''' )
if "llm_proj" in key:
lowerCamelCase_ =key.replace('''llm_proj''' , '''language_projection''' )
if "t5_proj" in key:
lowerCamelCase_ =key.replace('''t5_proj''' , '''language_projection''' )
if key.startswith('''llm_model''' ):
lowerCamelCase_ =key.replace('''llm_model''' , '''language_model''' )
if key.startswith('''t5''' ):
lowerCamelCase_ =key.replace('''t5''' , '''language''' )
lowerCamelCase_ =val
# read in qv biases
read_in_q_v_bias(__snake_case , __snake_case )
# note: weights get loaded in torch.float32 by default
hf_model.load_state_dict(__snake_case , strict=__snake_case )
lowerCamelCase_ =load_demo_image()
lowerCamelCase_ ='''What is unusual about this image?'''
# create processor
lowerCamelCase_ =BlipImageProcessor(
size={'''height''': image_size, '''width''': image_size} , image_mean=__snake_case , image_std=__snake_case )
lowerCamelCase_ =InstructBlipProcessor(
image_processor=__snake_case , tokenizer=__snake_case , qformer_tokenizer=__snake_case , )
lowerCamelCase_ =processor(images=__snake_case , text=__snake_case , return_tensors='''pt''' ).to(__snake_case )
# make sure processor creates exact same pixel values
lowerCamelCase_ =vis_processors['''eval'''](__snake_case ).unsqueeze(0 ).to(__snake_case )
lowerCamelCase_ =inputs.pixel_values
assert torch.allclose(original_pixel_values.to(pixel_values.device ) , __snake_case )
original_model.to(__snake_case )
hf_model.to(__snake_case )
with torch.no_grad():
if "vicuna" in model_name:
lowerCamelCase_ =original_model({'''image''': original_pixel_values, '''text_input''': [prompt]} ).logits
lowerCamelCase_ =hf_model(**__snake_case ).logits
else:
lowerCamelCase_ =original_model(
{'''image''': original_pixel_values, '''text_input''': [prompt], '''text_output''': ['''\n''']} ).logits
lowerCamelCase_ =tokenizer('''\n''' , return_tensors='''pt''' ).input_ids.to(__snake_case )
lowerCamelCase_ =label_input_ids.masked_fill(label_input_ids == tokenizer.pad_token_id , -100 )
lowerCamelCase_ =hf_model(**__snake_case , labels=__snake_case ).logits
print('''First values of original logits:''' , original_logits[0, :3, :3] )
print('''First values of HF logits:''' , logits[0, :3, :3] )
# assert values
assert original_logits.shape == logits.shape
lowerCamelCase_ =1e-4 if '''vicuna''' in model_name else 1e-5
assert torch.allclose(original_logits.to(logits.device ) , __snake_case , atol=__snake_case )
print('''Looks ok!''' )
print('''Generating with original model...''' )
lowerCamelCase_ =original_model.generate({'''image''': original_pixel_values, '''prompt''': prompt} , num_beams=5 )
# important: we need to cast the weights of the HF model to the appropriate type
print('''Generating with HF model...''' )
lowerCamelCase_ =hf_model.generate(
**__snake_case , do_sample=__snake_case , num_beams=5 , max_length=256 , min_length=1 , top_p=0.9 , repetition_penalty=1.5 , length_penalty=1.0 , temperature=1 , )
if "vicuna" in model_name:
# convert output id 0 to 2 (eos_token_id)
# TODO add this in the generate method?
lowerCamelCase_ =2
print('''Original generation:''' , __snake_case )
lowerCamelCase_ =processor.batch_decode(__snake_case , skip_special_tokens=__snake_case )
lowerCamelCase_ =[text.strip() for text in output_text]
print('''HF generation:''' , __snake_case )
if pytorch_dump_folder_path is not None:
processor.save_pretrained(__snake_case )
hf_model.save_pretrained(__snake_case )
if push_to_hub:
processor.push_to_hub(F'''Salesforce/{model_name}''' )
hf_model.push_to_hub(F'''Salesforce/{model_name}''' )
if __name__ == "__main__":
a_ : Any = argparse.ArgumentParser()
a_ : Any = [
"""instructblip-vicuna-7b""",
"""instructblip-vicuna-13b""",
"""instructblip-flan-t5-xl""",
"""instructblip-flan-t5-xxl""",
]
parser.add_argument(
"""--model_name""",
default="""instructblip-flan-t5-xl""",
choices=choices,
type=str,
help="""Path to hf config.json of model to convert""",
)
parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""")
parser.add_argument(
"""--push_to_hub""",
action="""store_true""",
help="""Whether to push the model and processor to the hub after converting""",
)
a_ : str = parser.parse_args()
convert_blipa_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.push_to_hub)
| 75 | 0 |
"""simple docstring"""
from torch import nn
class __A (nn.Module):
'''simple docstring'''
def __init__( self : int , UpperCAmelCase_ : str , UpperCAmelCase_ : Optional[int] ) ->Optional[int]:
"""simple docstring"""
super().__init__()
snake_case_ = class_size
snake_case_ = embed_size
# self.mlp1 = nn.Linear(embed_size, embed_size)
# self.mlp2 = (nn.Linear(embed_size, class_size))
snake_case_ = nn.Linear(UpperCAmelCase_ , UpperCAmelCase_ )
def lowerCAmelCase ( self : Tuple , UpperCAmelCase_ : Optional[Any] ) ->List[Any]:
"""simple docstring"""
snake_case_ = self.mlp(UpperCAmelCase_ )
return logits
| 347 |
'''simple docstring'''
from __future__ import annotations
from math import pi
from typing import Protocol
import matplotlib.pyplot as plt
import numpy as np
class __UpperCamelCase ( lowerCamelCase__ ):
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
return 0.0
def a_ ( __snake_case : np.ndarray , __snake_case : int ) -> tuple[int | float, int | float]:
"""simple docstring"""
lowerCamelCase_ =min([-20, np.min(fft_results[1 : samplerate // 2 - 1] )] )
lowerCamelCase_ =max([20, np.max(fft_results[1 : samplerate // 2 - 1] )] )
return lowest, highest
def a_ ( __snake_case : FilterType , __snake_case : int ) -> None:
"""simple docstring"""
lowerCamelCase_ =512
lowerCamelCase_ =[1] + [0] * (size - 1)
lowerCamelCase_ =[filter_type.process(__snake_case ) for item in inputs]
lowerCamelCase_ =[0] * (samplerate - size) # zero-padding
outputs += filler
lowerCamelCase_ =np.abs(np.fft.fft(__snake_case ) )
lowerCamelCase_ =20 * np.logaa(__snake_case )
# Frequencies on log scale from 24 to nyquist frequency
plt.xlim(24 , samplerate / 2 - 1 )
plt.xlabel('''Frequency (Hz)''' )
plt.xscale('''log''' )
# Display within reasonable bounds
lowerCamelCase_ =get_bounds(__snake_case , __snake_case )
plt.ylim(max([-80, bounds[0]] ) , min([80, bounds[1]] ) )
plt.ylabel('''Gain (dB)''' )
plt.plot(__snake_case )
plt.show()
def a_ ( __snake_case : FilterType , __snake_case : int ) -> None:
"""simple docstring"""
lowerCamelCase_ =512
lowerCamelCase_ =[1] + [0] * (size - 1)
lowerCamelCase_ =[filter_type.process(__snake_case ) for item in inputs]
lowerCamelCase_ =[0] * (samplerate - size) # zero-padding
outputs += filler
lowerCamelCase_ =np.angle(np.fft.fft(__snake_case ) )
# Frequencies on log scale from 24 to nyquist frequency
plt.xlim(24 , samplerate / 2 - 1 )
plt.xlabel('''Frequency (Hz)''' )
plt.xscale('''log''' )
plt.ylim(-2 * pi , 2 * pi )
plt.ylabel('''Phase shift (Radians)''' )
plt.plot(np.unwrap(__snake_case , -2 * pi ) )
plt.show()
| 75 | 0 |
"""simple docstring"""
from typing import Dict, Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict
from ...image_transforms import flip_channel_order, resize, to_channel_dimension_format, to_pil_image
from ...image_utils import (
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_pytesseract_available, is_vision_available, logging, requires_backends
if is_vision_available():
import PIL
# soft dependency
if is_pytesseract_available():
import pytesseract
__a = logging.get_logger(__name__)
def A_ ( _lowercase, _lowercase, _lowercase ):
'''simple docstring'''
return [
int(1000 * (box[0] / width) ),
int(1000 * (box[1] / height) ),
int(1000 * (box[2] / width) ),
int(1000 * (box[3] / height) ),
]
def A_ ( _lowercase, _lowercase, _lowercase = None ):
'''simple docstring'''
snake_case_ :List[Any] = tesseract_config if tesseract_config is not None else """"""
# apply OCR
snake_case_ :Union[str, Any] = to_pil_image(__snake_case )
snake_case_, snake_case_ :str = pil_image.size
snake_case_ :List[Any] = pytesseract.image_to_data(__snake_case, lang=__snake_case, output_type="""dict""", config=__snake_case )
snake_case_, snake_case_, snake_case_, snake_case_, snake_case_ :Union[str, Any] = data["""text"""], data["""left"""], data["""top"""], data["""width"""], data["""height"""]
# filter empty words and corresponding coordinates
snake_case_ :Tuple = [idx for idx, word in enumerate(__snake_case ) if not word.strip()]
snake_case_ :Optional[Any] = [word for idx, word in enumerate(__snake_case ) if idx not in irrelevant_indices]
snake_case_ :Union[str, Any] = [coord for idx, coord in enumerate(__snake_case ) if idx not in irrelevant_indices]
snake_case_ :Union[str, Any] = [coord for idx, coord in enumerate(__snake_case ) if idx not in irrelevant_indices]
snake_case_ :List[str] = [coord for idx, coord in enumerate(__snake_case ) if idx not in irrelevant_indices]
snake_case_ :Union[str, Any] = [coord for idx, coord in enumerate(__snake_case ) if idx not in irrelevant_indices]
# turn coordinates into (left, top, left+width, top+height) format
snake_case_ :Optional[Any] = []
for x, y, w, h in zip(__snake_case, __snake_case, __snake_case, __snake_case ):
snake_case_ :Optional[Any] = [x, y, x + w, y + h]
actual_boxes.append(__snake_case )
# finally, normalize the bounding boxes
snake_case_ :List[str] = []
for box in actual_boxes:
normalized_boxes.append(normalize_box(__snake_case, __snake_case, __snake_case ) )
assert len(__snake_case ) == len(__snake_case ), "Not as many words as there are bounding boxes"
return words, normalized_boxes
class lowerCamelCase ( lowerCamelCase__ ):
'''simple docstring'''
_A : int = ['pixel_values']
def __init__( self: str , snake_case: str = True , snake_case: List[Any] = None , snake_case: Union[str, Any] = PILImageResampling.BILINEAR , snake_case: Union[str, Any] = True , snake_case: List[str] = None , snake_case: Optional[int] = "" , **snake_case: int , ) -> str:
super().__init__(**snake_case )
snake_case_ :Tuple = size if size is not None else {"""height""": 224, """width""": 224}
snake_case_ :List[str] = get_size_dict(snake_case )
snake_case_ :Any = do_resize
snake_case_ :Dict = size
snake_case_ :Dict = resample
snake_case_ :Optional[int] = apply_ocr
snake_case_ :Any = ocr_lang
snake_case_ :Any = tesseract_config
def lowerCAmelCase_ ( self: Optional[Any] , snake_case: str , snake_case: Any , snake_case: Optional[Any] = PILImageResampling.BILINEAR , snake_case: List[str] = None , **snake_case: int , ) -> List[str]:
snake_case_ :Any = get_size_dict(snake_case )
if "height" not in size or "width" not in size:
raise ValueError(f"""The size dictionary must contain the keys \'height\' and \'width\'. Got {size.keys()}""" )
snake_case_ :Tuple = (size["""height"""], size["""width"""])
return resize(snake_case , size=snake_case , resample=snake_case , data_format=snake_case , **snake_case )
def lowerCAmelCase_ ( self: Dict , snake_case: Any , snake_case: Optional[int] = None , snake_case: Optional[Any] = None , snake_case: Dict = None , snake_case: List[Any] = None , snake_case: Any = None , snake_case: List[Any] = None , snake_case: Optional[Any] = None , snake_case: Optional[int] = ChannelDimension.FIRST , **snake_case: Dict , ) -> int:
snake_case_ :int = do_resize if do_resize is not None else self.do_resize
snake_case_ :str = size if size is not None else self.size
snake_case_ :Optional[Any] = get_size_dict(snake_case )
snake_case_ :List[str] = resample if resample is not None else self.resample
snake_case_ :Optional[int] = apply_ocr if apply_ocr is not None else self.apply_ocr
snake_case_ :Optional[Any] = ocr_lang if ocr_lang is not None else self.ocr_lang
snake_case_ :Optional[int] = tesseract_config if tesseract_config is not None else self.tesseract_config
snake_case_ :Dict = make_list_of_images(snake_case )
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.""" )
if do_resize and size is None:
raise ValueError("""Size must be specified if do_resize is True.""" )
# All transformations expect numpy arrays.
snake_case_ :int = [to_numpy_array(snake_case ) for image in images]
if apply_ocr:
requires_backends(self , """pytesseract""" )
snake_case_ :List[Any] = []
snake_case_ :Optional[int] = []
for image in images:
snake_case_, snake_case_ :Dict = apply_tesseract(snake_case , snake_case , snake_case )
words_batch.append(snake_case )
boxes_batch.append(snake_case )
if do_resize:
snake_case_ :Union[str, Any] = [self.resize(image=snake_case , size=snake_case , resample=snake_case ) for image in images]
# flip color channels from RGB to BGR (as Detectron2 requires this)
snake_case_ :Any = [flip_channel_order(snake_case ) for image in images]
snake_case_ :Tuple = [to_channel_dimension_format(snake_case , snake_case ) for image in images]
snake_case_ :str = BatchFeature(data={"""pixel_values""": images} , tensor_type=snake_case )
if apply_ocr:
snake_case_ :Union[str, Any] = words_batch
snake_case_ :Tuple = boxes_batch
return data
| 66 |
'''simple docstring'''
import os
import unittest
from transformers import FunnelTokenizer, FunnelTokenizerFast
from transformers.models.funnel.tokenization_funnel import VOCAB_FILES_NAMES
from transformers.testing_utils import require_tokenizers
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : Union[str, Any] =FunnelTokenizer
lowercase : List[str] =FunnelTokenizerFast
lowercase : Union[str, Any] =True
lowercase : int =True
def lowercase__ ( self ):
"""simple docstring"""
super().setUp()
lowerCamelCase_ =[
'''<unk>''',
'''<cls>''',
'''<sep>''',
'''want''',
'''##want''',
'''##ed''',
'''wa''',
'''un''',
'''runn''',
'''##ing''',
''',''',
'''low''',
'''lowest''',
]
lowerCamelCase_ =os.path.join(self.tmpdirname, VOCAB_FILES_NAMES['''vocab_file'''] )
with open(self.vocab_file, '''w''', encoding='''utf-8''' ) as vocab_writer:
vocab_writer.write(''''''.join([x + '''\n''' for x in vocab_tokens] ) )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return FunnelTokenizer.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return FunnelTokenizerFast.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ ='''UNwant\u00E9d,running'''
lowerCamelCase_ ='''unwanted, running'''
return input_text, output_text
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.tokenizer_class(self.vocab_file )
lowerCamelCase_ =tokenizer.tokenize('''UNwant\u00E9d,running''' )
self.assertListEqual(lowerCAmelCase, ['''un''', '''##want''', '''##ed''', ''',''', '''runn''', '''##ing'''] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(lowerCAmelCase ), [7, 4, 5, 10, 8, 9] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizers(do_lower_case=lowerCAmelCase )
for tokenizer in tokenizers:
lowerCamelCase_ =tokenizer('''UNwant\u00E9d,running''' )
lowerCamelCase_ =len(inputs['''input_ids'''] ) - 1
self.assertListEqual(inputs['''token_type_ids'''], [2] + [0] * sentence_len )
lowerCamelCase_ =tokenizer('''UNwant\u00E9d,running''', '''UNwant\u00E9d,running''' )
self.assertListEqual(inputs['''token_type_ids'''], [2] + [0] * sentence_len + [1] * sentence_len )
| 75 | 0 |
'''simple docstring'''
from typing import Any, Dict, List, Union
from ..utils import add_end_docstrings, is_torch_available, is_vision_available, logging, requires_backends
from .base import PIPELINE_INIT_ARGS, Pipeline
if is_vision_available():
from ..image_utils import load_image
if is_torch_available():
import torch
from ..models.auto.modeling_auto import MODEL_FOR_OBJECT_DETECTION_MAPPING, MODEL_FOR_TOKEN_CLASSIFICATION_MAPPING
UpperCAmelCase = logging.get_logger(__name__)
UpperCAmelCase = Dict[str, Any]
UpperCAmelCase = List[Prediction]
@add_end_docstrings(lowerCamelCase__ )
class lowerCAmelCase ( lowerCamelCase__ ):
def __init__( self : int , *__lowercase : Any , **__lowercase : Optional[int] ):
"""simple docstring"""
super().__init__(*__lowercase , **__lowercase )
if self.framework == "tf":
raise ValueError(f'''The {self.__class__} is only available in PyTorch.''' )
requires_backends(self , 'vision' )
self.check_model_type(
dict(MODEL_FOR_OBJECT_DETECTION_MAPPING.items() + MODEL_FOR_TOKEN_CLASSIFICATION_MAPPING.items() ) )
def snake_case ( self : Any , **__lowercase : Dict ):
"""simple docstring"""
__lowercase ={}
if "threshold" in kwargs:
__lowercase =kwargs['threshold']
return {}, {}, postprocess_kwargs
def __call__( self : Optional[Any] , *__lowercase : Any , **__lowercase : List[str] ):
"""simple docstring"""
return super().__call__(*__lowercase , **__lowercase )
def snake_case ( self : List[str] , __lowercase : int ):
"""simple docstring"""
__lowercase =load_image(__lowercase )
__lowercase =torch.IntTensor([[image.height, image.width]] )
__lowercase =self.image_processor(images=[image] , return_tensors='pt' )
if self.tokenizer is not None:
__lowercase =self.tokenizer(text=inputs['words'] , boxes=inputs['boxes'] , return_tensors='pt' )
__lowercase =target_size
return inputs
def snake_case ( self : Union[str, Any] , __lowercase : Dict ):
"""simple docstring"""
__lowercase =model_inputs.pop('target_size' )
__lowercase =self.model(**__lowercase )
__lowercase =outputs.__class__({'target_size': target_size, **outputs} )
if self.tokenizer is not None:
__lowercase =model_inputs['bbox']
return model_outputs
def snake_case ( self : Dict , __lowercase : int , __lowercase : Optional[int]=0.9 ):
"""simple docstring"""
__lowercase =model_outputs['target_size']
if self.tokenizer is not None:
# This is a LayoutLMForTokenClassification variant.
# The OCR got the boxes and the model classified the words.
__lowercase , __lowercase =target_size[0].tolist()
def unnormalize(__lowercase : Any ):
return self._get_bounding_box(
torch.Tensor(
[
(width * bbox[0] / 1000),
(height * bbox[1] / 1000),
(width * bbox[2] / 1000),
(height * bbox[3] / 1000),
] ) )
__lowercase , __lowercase =model_outputs['logits'].squeeze(0 ).softmax(dim=-1 ).max(dim=-1 )
__lowercase =[self.model.config.idalabel[prediction] for prediction in classes.tolist()]
__lowercase =[unnormalize(__lowercase ) for bbox in model_outputs['bbox'].squeeze(0 )]
__lowercase =['score', 'label', 'box']
__lowercase =[dict(zip(__lowercase , __lowercase ) ) for vals in zip(scores.tolist() , __lowercase , __lowercase ) if vals[0] > threshold]
else:
# This is a regular ForObjectDetectionModel
__lowercase =self.image_processor.post_process_object_detection(__lowercase , __lowercase , __lowercase )
__lowercase =raw_annotations[0]
__lowercase =raw_annotation['scores']
__lowercase =raw_annotation['labels']
__lowercase =raw_annotation['boxes']
__lowercase =scores.tolist()
__lowercase =[self.model.config.idalabel[label.item()] for label in labels]
__lowercase =[self._get_bounding_box(__lowercase ) for box in boxes]
# {"scores": [...], ...} --> [{"score":x, ...}, ...]
__lowercase =['score', 'label', 'box']
__lowercase =[
dict(zip(__lowercase , __lowercase ) )
for vals in zip(raw_annotation['scores'] , raw_annotation['labels'] , raw_annotation['boxes'] )
]
return annotation
def snake_case ( self : Optional[int] , __lowercase : List[str] ):
"""simple docstring"""
if self.framework != "pt":
raise ValueError('The ObjectDetectionPipeline is only available in PyTorch.' )
__lowercase , __lowercase , __lowercase , __lowercase =box.int().tolist()
__lowercase ={
'xmin': xmin,
'ymin': ymin,
'xmax': xmax,
'ymax': ymax,
}
return bbox
| 141 |
'''simple docstring'''
import argparse
import os
import re
import torch
from flax.traverse_util import flatten_dict
from tax import checkpoints
from transformers import (
AutoTokenizer,
PixaStructConfig,
PixaStructForConditionalGeneration,
PixaStructImageProcessor,
PixaStructProcessor,
PixaStructTextConfig,
PixaStructVisionConfig,
)
def a_ ( __snake_case : Any ) -> int:
"""simple docstring"""
lowerCamelCase_ =checkpoints.load_tax_checkpoint(__snake_case )
lowerCamelCase_ =flatten_dict(__snake_case )
return flax_params
def a_ ( __snake_case : Dict ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ ={}
lowerCamelCase_ ={
'''token_embedder''': '''embeddings''',
'''encoder_norm''': '''layernorm''',
'''kernel''': '''weight''',
'''.out''': '''.output''',
'''scale''': '''weight''',
'''embedders_0.pos_embedding''': '''row_embedder.weight''',
'''embedders_1.pos_embedding''': '''column_embedder.weight''',
}
lowerCamelCase_ ={
'''query''': '''attention.query''',
'''key''': '''attention.key''',
'''value''': '''attention.value''',
'''output.dense''': '''output''',
'''encoder_decoder_attention.o''': '''encoder_decoder_attention.attention.o''',
'''pre_self_attention_layer_norm''': '''self_attention.layer_norm''',
'''pre_cross_attention_layer_norm''': '''encoder_decoder_attention.layer_norm''',
'''mlp.''': '''mlp.DenseReluDense.''',
'''pre_mlp_layer_norm''': '''mlp.layer_norm''',
'''self_attention.o''': '''self_attention.attention.o''',
'''decoder.embeddings.embedding''': '''decoder.embed_tokens.weight''',
'''decoder.relpos_bias.rel_embedding''': '''decoder.layer.0.self_attention.attention.relative_attention_bias.weight''',
'''decoder.decoder_norm.weight''': '''decoder.final_layer_norm.weight''',
'''decoder.logits_dense.weight''': '''decoder.lm_head.weight''',
}
for key in flax_dict.keys():
if "target" in key:
# remove the first prefix from the key
lowerCamelCase_ ='''.'''.join(key[1:] )
# rename the key
for old, new in CONVERSION_MAPPING.items():
lowerCamelCase_ =new_key.replace(__snake_case , __snake_case )
if "decoder" in new_key:
for old, new in DECODER_CONVERSION_MAPPING.items():
lowerCamelCase_ =new_key.replace(__snake_case , __snake_case )
if "layers" in new_key and "decoder" not in new_key:
# use regex to replace the layer number
lowerCamelCase_ =re.sub(r'''layers_(\d+)''' , r'''layer.\1''' , __snake_case )
lowerCamelCase_ =new_key.replace('''encoder''' , '''encoder.encoder''' )
elif "layers" in new_key and "decoder" in new_key:
# use regex to replace the layer number
lowerCamelCase_ =re.sub(r'''layers_(\d+)''' , r'''layer.\1''' , __snake_case )
lowerCamelCase_ =flax_dict[key]
lowerCamelCase_ ={}
# convert converted_dict into torch format
for key in converted_dict.keys():
if ("embed_tokens" not in key) and ("embedder" not in key):
lowerCamelCase_ =torch.from_numpy(converted_dict[key].T )
else:
lowerCamelCase_ =torch.from_numpy(converted_dict[key] )
return converted_torch_dict
def a_ ( __snake_case : Optional[Any] , __snake_case : List[str] , __snake_case : Any=False , __snake_case : Optional[int]=False ) -> Union[str, Any]:
"""simple docstring"""
lowerCamelCase_ =get_flax_param(__snake_case )
if not use_large:
lowerCamelCase_ =PixaStructVisionConfig()
lowerCamelCase_ =PixaStructTextConfig()
else:
lowerCamelCase_ =PixaStructVisionConfig(
hidden_size=1536 , d_ff=3968 , num_attention_heads=24 , num_hidden_layers=18 )
lowerCamelCase_ =PixaStructTextConfig(hidden_size=1536 , d_ff=3968 , num_heads=24 , num_layers=18 )
lowerCamelCase_ =PixaStructConfig(
vision_config=encoder_config.to_dict() , text_config=decoder_config.to_dict() , is_vqa=__snake_case )
lowerCamelCase_ =PixaStructForConditionalGeneration(__snake_case )
lowerCamelCase_ =rename_and_convert_flax_params(__snake_case )
model.load_state_dict(__snake_case )
lowerCamelCase_ =AutoTokenizer.from_pretrained('''ybelkada/test-pix2struct-tokenizer''' )
lowerCamelCase_ =PixaStructImageProcessor()
lowerCamelCase_ =PixaStructProcessor(image_processor=__snake_case , tokenizer=__snake_case )
if use_large:
lowerCamelCase_ =4096
lowerCamelCase_ =True
# mkdir if needed
os.makedirs(__snake_case , exist_ok=__snake_case )
model.save_pretrained(__snake_case )
processor.save_pretrained(__snake_case )
print('''Model saved in {}'''.format(__snake_case ) )
if __name__ == "__main__":
a_ : Optional[int] = argparse.ArgumentParser()
parser.add_argument("""--t5x_checkpoint_path""", default=None, type=str, help="""Path to the original T5x checkpoint.""")
parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""")
parser.add_argument("""--use_large""", action="""store_true""", help="""Use large model.""")
parser.add_argument("""--is_vqa""", action="""store_true""", help="""Use large model.""")
a_ : Tuple = parser.parse_args()
convert_pixastruct_original_pytorch_checkpoint_to_hf(
args.tax_checkpoint_path, args.pytorch_dump_folder_path, args.use_large
)
| 75 | 0 |
from typing import List
from ...configuration_utils import PretrainedConfig
from ...utils import logging
__lowerCamelCase : Dict = logging.get_logger(__name__)
__lowerCamelCase : Any = {
"""snap-research/efficientformer-l1-300""": (
"""https://huggingface.co/snap-research/efficientformer-l1-300/resolve/main/config.json"""
),
}
class A__ ( lowerCamelCase__ ):
_UpperCAmelCase :List[str] = 'efficientformer'
def __init__( self , A_ = [3, 2, 6, 4] , A_ = [48, 96, 224, 448] , A_ = [True, True, True, True] , A_ = 448 , A_ = 32 , A_ = 4 , A_ = 7 , A_ = 5 , A_ = 8 , A_ = 4 , A_ = 0.0 , A_ = 16 , A_ = 3 , A_ = 3 , A_ = 3 , A_ = 2 , A_ = 1 , A_ = 0.0 , A_ = 1 , A_ = True , A_ = True , A_ = 1e-5 , A_ = "gelu" , A_ = 0.02 , A_ = 1e-12 , A_ = 224 , A_ = 1e-05 , **A_ , ):
'''simple docstring'''
super().__init__(**A_ )
UpperCamelCase : List[str] = hidden_act
UpperCamelCase : Dict = hidden_dropout_prob
UpperCamelCase : List[Any] = hidden_sizes
UpperCamelCase : List[Any] = num_hidden_layers
UpperCamelCase : Union[str, Any] = num_attention_heads
UpperCamelCase : Tuple = initializer_range
UpperCamelCase : List[str] = layer_norm_eps
UpperCamelCase : Tuple = patch_size
UpperCamelCase : Optional[Any] = num_channels
UpperCamelCase : Union[str, Any] = depths
UpperCamelCase : Dict = mlp_expansion_ratio
UpperCamelCase : Union[str, Any] = downsamples
UpperCamelCase : List[Any] = dim
UpperCamelCase : Union[str, Any] = key_dim
UpperCamelCase : List[Any] = attention_ratio
UpperCamelCase : Union[str, Any] = resolution
UpperCamelCase : Optional[int] = pool_size
UpperCamelCase : Optional[Any] = downsample_patch_size
UpperCamelCase : Optional[int] = downsample_stride
UpperCamelCase : int = downsample_pad
UpperCamelCase : Optional[int] = drop_path_rate
UpperCamelCase : Union[str, Any] = num_metaad_blocks
UpperCamelCase : Dict = distillation
UpperCamelCase : Optional[Any] = use_layer_scale
UpperCamelCase : Union[str, Any] = layer_scale_init_value
UpperCamelCase : List[Any] = image_size
UpperCamelCase : Tuple = batch_norm_eps
| 52 |
'''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,
convert_to_rgb,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
OPENAI_CLIP_MEAN,
OPENAI_CLIP_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
a_ : Union[str, Any] = logging.get_logger(__name__)
if is_vision_available():
import PIL
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : Tuple =['pixel_values']
def __init__( self, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = PILImageResampling.BICUBIC, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = True, lowerCAmelCase = 1 / 255, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = True, **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
lowerCamelCase_ =size if size is not None else {'''shortest_edge''': 224}
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase )
lowerCamelCase_ =crop_size if crop_size is not None else {'''height''': 224, '''width''': 224}
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase, param_name='''crop_size''' )
lowerCamelCase_ =do_resize
lowerCamelCase_ =size
lowerCamelCase_ =resample
lowerCamelCase_ =do_center_crop
lowerCamelCase_ =crop_size
lowerCamelCase_ =do_rescale
lowerCamelCase_ =rescale_factor
lowerCamelCase_ =do_normalize
lowerCamelCase_ =image_mean if image_mean is not None else OPENAI_CLIP_MEAN
lowerCamelCase_ =image_std if image_std is not None else OPENAI_CLIP_STD
lowerCamelCase_ =do_convert_rgb
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = PILImageResampling.BICUBIC, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase )
if "shortest_edge" not in size:
raise ValueError(f'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' )
lowerCamelCase_ =get_resize_output_image_size(lowerCAmelCase, size=size['''shortest_edge'''], default_to_square=lowerCAmelCase )
return resize(lowerCAmelCase, size=lowerCAmelCase, resample=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =get_size_dict(lowerCAmelCase )
if "height" not in size or "width" not in size:
raise ValueError(f'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' )
return center_crop(lowerCAmelCase, size=(size['''height'''], size['''width''']), data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
return rescale(lowerCAmelCase, scale=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
return normalize(lowerCAmelCase, mean=lowerCAmelCase, std=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = ChannelDimension.FIRST, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =do_resize if do_resize is not None else self.do_resize
lowerCamelCase_ =size if size is not None else self.size
lowerCamelCase_ =get_size_dict(lowerCAmelCase, param_name='''size''', default_to_square=lowerCAmelCase )
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_ =crop_size if crop_size is not None else self.crop_size
lowerCamelCase_ =get_size_dict(lowerCAmelCase, param_name='''crop_size''', default_to_square=lowerCAmelCase )
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_ =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_ =do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb
lowerCamelCase_ =make_list_of_images(lowerCAmelCase )
if not valid_images(lowerCAmelCase ):
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.''' )
# PIL RGBA images are converted to RGB
if do_convert_rgb:
lowerCamelCase_ =[convert_to_rgb(lowerCAmelCase ) for image in images]
# All transformations expect numpy arrays.
lowerCamelCase_ =[to_numpy_array(lowerCAmelCase ) for image in images]
if do_resize:
lowerCamelCase_ =[self.resize(image=lowerCAmelCase, size=lowerCAmelCase, resample=lowerCAmelCase ) for image in images]
if do_center_crop:
lowerCamelCase_ =[self.center_crop(image=lowerCAmelCase, size=lowerCAmelCase ) for image in images]
if do_rescale:
lowerCamelCase_ =[self.rescale(image=lowerCAmelCase, scale=lowerCAmelCase ) for image in images]
if do_normalize:
lowerCamelCase_ =[self.normalize(image=lowerCAmelCase, mean=lowerCAmelCase, std=lowerCAmelCase ) for image in images]
lowerCamelCase_ =[to_channel_dimension_format(lowerCAmelCase, lowerCAmelCase ) for image in images]
lowerCamelCase_ ={'''pixel_values''': images}
return BatchFeature(data=lowerCAmelCase, tensor_type=lowerCAmelCase )
| 75 | 0 |
def a ( lowerCamelCase_ , lowerCamelCase_ ):
'''simple docstring'''
if mass < 0:
raise ValueError('''The mass of a body cannot be negative''' )
return 0.5 * mass * abs(__snake_case ) * abs(__snake_case )
if __name__ == "__main__":
import doctest
doctest.testmod(verbose=True)
| 207 |
'''simple docstring'''
from __future__ import annotations
def a_ ( __snake_case : str , __snake_case : list[str] | None = None , __snake_case : dict[str, float] | None = None , __snake_case : bool = False , ) -> tuple[int, float, str]:
"""simple docstring"""
lowerCamelCase_ =cipher_alphabet or [chr(__snake_case ) for i in range(97 , 123 )]
# If the argument is None or the user provided an empty dictionary
if not frequencies_dict:
# Frequencies of letters in the english language (how much they show up)
lowerCamelCase_ ={
'''a''': 0.0_8_4_9_7,
'''b''': 0.0_1_4_9_2,
'''c''': 0.0_2_2_0_2,
'''d''': 0.0_4_2_5_3,
'''e''': 0.1_1_1_6_2,
'''f''': 0.0_2_2_2_8,
'''g''': 0.0_2_0_1_5,
'''h''': 0.0_6_0_9_4,
'''i''': 0.0_7_5_4_6,
'''j''': 0.0_0_1_5_3,
'''k''': 0.0_1_2_9_2,
'''l''': 0.0_4_0_2_5,
'''m''': 0.0_2_4_0_6,
'''n''': 0.0_6_7_4_9,
'''o''': 0.0_7_5_0_7,
'''p''': 0.0_1_9_2_9,
'''q''': 0.0_0_0_9_5,
'''r''': 0.0_7_5_8_7,
'''s''': 0.0_6_3_2_7,
'''t''': 0.0_9_3_5_6,
'''u''': 0.0_2_7_5_8,
'''v''': 0.0_0_9_7_8,
'''w''': 0.0_2_5_6_0,
'''x''': 0.0_0_1_5_0,
'''y''': 0.0_1_9_9_4,
'''z''': 0.0_0_0_7_7,
}
else:
# Custom frequencies dictionary
lowerCamelCase_ =frequencies_dict
if not case_sensitive:
lowerCamelCase_ =ciphertext.lower()
# Chi squared statistic values
lowerCamelCase_ ={}
# cycle through all of the shifts
for shift in range(len(__snake_case ) ):
lowerCamelCase_ =''''''
# decrypt the message with the shift
for letter in ciphertext:
try:
# Try to index the letter in the alphabet
lowerCamelCase_ =(alphabet_letters.index(letter.lower() ) - shift) % len(
__snake_case )
decrypted_with_shift += (
alphabet_letters[new_key].upper()
if case_sensitive and letter.isupper()
else alphabet_letters[new_key]
)
except ValueError:
# Append the character if it isn't in the alphabet
decrypted_with_shift += letter
lowerCamelCase_ =0.0
# Loop through each letter in the decoded message with the shift
for letter in decrypted_with_shift:
if case_sensitive:
lowerCamelCase_ =letter.lower()
if letter in frequencies:
# Get the amount of times the letter occurs in the message
lowerCamelCase_ =decrypted_with_shift.lower().count(__snake_case )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
lowerCamelCase_ =frequencies[letter] * occurrences
# Complete the chi squared statistic formula
lowerCamelCase_ =((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
else:
if letter.lower() in frequencies:
# Get the amount of times the letter occurs in the message
lowerCamelCase_ =decrypted_with_shift.count(__snake_case )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
lowerCamelCase_ =frequencies[letter] * occurrences
# Complete the chi squared statistic formula
lowerCamelCase_ =((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
# Add the data to the chi_squared_statistic_values dictionary
lowerCamelCase_ =(
chi_squared_statistic,
decrypted_with_shift,
)
# Get the most likely cipher by finding the cipher with the smallest chi squared
# statistic
def chi_squared_statistic_values_sorting_key(__snake_case : int ) -> tuple[float, str]:
return chi_squared_statistic_values[key]
lowerCamelCase_ =min(
__snake_case , key=__snake_case , )
# Get all the data from the most likely cipher (key, decoded message)
(
(
lowerCamelCase_
), (
lowerCamelCase_
),
) =chi_squared_statistic_values[most_likely_cipher]
# Return the data on the most likely shift
return (
most_likely_cipher,
most_likely_cipher_chi_squared_value,
decoded_most_likely_cipher,
)
| 75 | 0 |
import inspect
import tempfile
import unittest
from huggingface_hub import hf_hub_download
from transformers import is_torch_available
from transformers.testing_utils import is_flaky, 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
_UpperCamelCase = 1e-4
if is_torch_available():
import torch
from transformers import AutoformerConfig, AutoformerForPrediction, AutoformerModel
from transformers.models.autoformer.modeling_autoformer import AutoformerDecoder, AutoformerEncoder
@require_torch
class __lowercase :
def __init__( self , A_ , A_=16 , A_=13 , A_=7 , A_=14 , A_=10 , A_=19 , A_=5 , A_=4 , A_=True , A_=16 , A_=2 , A_=4 , A_=4 , A_="gelu" , A_=0.1 , A_=0.1 , A_=[1, 2, 3, 4, 5] , A_=25 , A_=5 , ) ->Optional[Any]:
'''simple docstring'''
__lowerCAmelCase : List[Any] = d_model
__lowerCAmelCase : str = parent
__lowerCAmelCase : int = batch_size
__lowerCAmelCase : Tuple = prediction_length
__lowerCAmelCase : str = context_length
__lowerCAmelCase : Union[str, Any] = cardinality
__lowerCAmelCase : List[str] = num_time_features
__lowerCAmelCase : Union[str, Any] = lags_sequence
__lowerCAmelCase : int = embedding_dimension
__lowerCAmelCase : Dict = is_training
__lowerCAmelCase : Tuple = hidden_size
__lowerCAmelCase : int = num_hidden_layers
__lowerCAmelCase : Optional[int] = num_attention_heads
__lowerCAmelCase : Any = intermediate_size
__lowerCAmelCase : List[str] = hidden_act
__lowerCAmelCase : Tuple = hidden_dropout_prob
__lowerCAmelCase : Optional[int] = attention_probs_dropout_prob
__lowerCAmelCase : int = context_length
__lowerCAmelCase : Optional[int] = prediction_length + label_length
__lowerCAmelCase : int = label_length
__lowerCAmelCase : str = moving_average
__lowerCAmelCase : Any = autocorrelation_factor
def UpperCamelCase__ ( self ) ->Optional[Any]:
'''simple docstring'''
return AutoformerConfig(
d_model=self.d_model , encoder_layers=self.num_hidden_layers , decoder_layers=self.num_hidden_layers , encoder_attention_heads=self.num_attention_heads , decoder_attention_heads=self.num_attention_heads , encoder_ffn_dim=self.intermediate_size , decoder_ffn_dim=self.intermediate_size , dropout=self.hidden_dropout_prob , attention_dropout=self.attention_probs_dropout_prob , prediction_length=self.prediction_length , context_length=self.context_length , label_length=self.label_length , lags_sequence=self.lags_sequence , num_time_features=self.num_time_features , num_static_categorical_features=1 , cardinality=[self.cardinality] , embedding_dimension=[self.embedding_dimension] , moving_average=self.moving_average , )
def UpperCamelCase__ ( self , A_ ) ->List[str]:
'''simple docstring'''
__lowerCAmelCase : List[Any] = config.context_length + max(config.lags_sequence )
__lowerCAmelCase : List[Any] = ids_tensor([self.batch_size, 1] , config.cardinality[0] )
__lowerCAmelCase : Union[str, Any] = floats_tensor([self.batch_size, _past_length, config.num_time_features] )
__lowerCAmelCase : int = floats_tensor([self.batch_size, _past_length] )
__lowerCAmelCase : List[Any] = floats_tensor([self.batch_size, _past_length] ) > 0.5
# decoder inputs
__lowerCAmelCase : List[str] = floats_tensor([self.batch_size, config.prediction_length, config.num_time_features] )
__lowerCAmelCase : str = floats_tensor([self.batch_size, config.prediction_length] )
__lowerCAmelCase : Optional[int] = {
'''past_values''': past_values,
'''static_categorical_features''': static_categorical_features,
'''past_time_features''': past_time_features,
'''past_observed_mask''': past_observed_mask,
'''future_time_features''': future_time_features,
'''future_values''': future_values,
}
return inputs_dict
def UpperCamelCase__ ( self ) ->Optional[int]:
'''simple docstring'''
__lowerCAmelCase : int = self.get_config()
__lowerCAmelCase : Any = self.prepare_autoformer_inputs_dict(A_ )
return config, inputs_dict
def UpperCamelCase__ ( self ) ->List[Any]:
'''simple docstring'''
__lowerCAmelCase, __lowerCAmelCase : str = self.prepare_config_and_inputs()
return config, inputs_dict
def UpperCamelCase__ ( self , A_ , A_ ) ->Any:
'''simple docstring'''
__lowerCAmelCase : Tuple = AutoformerModel(config=A_ ).to(A_ ).eval()
__lowerCAmelCase : Tuple = model(**A_ )
__lowerCAmelCase : str = outputs.encoder_last_hidden_state
__lowerCAmelCase : Dict = outputs.last_hidden_state
with tempfile.TemporaryDirectory() as tmpdirname:
__lowerCAmelCase : str = model.get_encoder()
encoder.save_pretrained(A_ )
__lowerCAmelCase : Dict = AutoformerEncoder.from_pretrained(A_ ).to(A_ )
__lowerCAmelCase, __lowerCAmelCase, __lowerCAmelCase, __lowerCAmelCase, __lowerCAmelCase : Tuple = model.create_network_inputs(**A_ )
__lowerCAmelCase, __lowerCAmelCase : int = model.decomposition_layer(transformer_inputs[:, : config.context_length, ...] )
__lowerCAmelCase : str = torch.cat(
(transformer_inputs[:, : config.context_length, ...], feature[:, : config.context_length, ...]) , dim=-1 , )
__lowerCAmelCase : Optional[int] = encoder(inputs_embeds=A_ )[0]
self.parent.assertTrue((encoder_last_hidden_state_a - encoder_last_hidden_state).abs().max().item() < 1e-3 )
__lowerCAmelCase : Tuple = (
torch.mean(transformer_inputs[:, : config.context_length, ...] , dim=1 )
.unsqueeze(1 )
.repeat(1 , config.prediction_length , 1 )
)
__lowerCAmelCase : Tuple = torch.zeros(
[transformer_inputs.shape[0], config.prediction_length, transformer_inputs.shape[2]] , device=enc_input.device , )
__lowerCAmelCase : Optional[Any] = torch.cat(
(
torch.cat((seasonal_input[:, -config.label_length :, ...], zeros) , dim=1 ),
feature[:, config.context_length - config.label_length :, ...],
) , dim=-1 , )
__lowerCAmelCase : List[str] = torch.cat(
(
torch.cat((trend_input[:, -config.label_length :, ...], mean) , dim=1 ),
feature[:, config.context_length - config.label_length :, ...],
) , dim=-1 , )
with tempfile.TemporaryDirectory() as tmpdirname:
__lowerCAmelCase : int = model.get_decoder()
decoder.save_pretrained(A_ )
__lowerCAmelCase : Tuple = AutoformerDecoder.from_pretrained(A_ ).to(A_ )
__lowerCAmelCase : Optional[int] = decoder(
trend=A_ , inputs_embeds=A_ , encoder_hidden_states=A_ , )[0]
self.parent.assertTrue((last_hidden_state_a - last_hidden_state).abs().max().item() < 1e-3 )
@require_torch
class __lowercase (lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
_UpperCamelCase = (AutoformerModel, AutoformerForPrediction) if is_torch_available() else ()
_UpperCamelCase = (AutoformerForPrediction,) if is_torch_available() else ()
_UpperCamelCase = {'feature-extraction': AutoformerModel} if is_torch_available() else {}
_UpperCamelCase = False
_UpperCamelCase = False
_UpperCamelCase = False
_UpperCamelCase = False
_UpperCamelCase = False
_UpperCamelCase = False
def UpperCamelCase__ ( self ) ->int:
'''simple docstring'''
__lowerCAmelCase : List[Any] = AutoformerModelTester(self )
__lowerCAmelCase : List[Any] = ConfigTester(self , config_class=A_ , has_text_modality=A_ )
def UpperCamelCase__ ( self ) ->Union[str, Any]:
'''simple docstring'''
self.config_tester.run_common_tests()
def UpperCamelCase__ ( self ) ->Union[str, Any]:
'''simple docstring'''
__lowerCAmelCase, __lowerCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs()
for model_class in self.all_model_classes:
__lowerCAmelCase : str = model_class(A_ )
with tempfile.TemporaryDirectory() as tmpdirname:
model.save_pretrained(A_ )
__lowerCAmelCase, __lowerCAmelCase : Optional[Any] = model_class.from_pretrained(A_ , output_loading_info=A_ )
self.assertEqual(info['''missing_keys'''] , [] )
def UpperCamelCase__ ( self ) ->Tuple:
'''simple docstring'''
__lowerCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.check_encoder_decoder_model_standalone(*A_ )
@unittest.skip(reason='''Model has no tokens embeddings''' )
def UpperCamelCase__ ( self ) ->Any:
'''simple docstring'''
pass
def UpperCamelCase__ ( self ) ->List[Any]:
'''simple docstring'''
__lowerCAmelCase : Optional[Any] = inspect.signature(getattr(A_ , '''forward''' ) )
# The main input is the name of the argument after `self`
__lowerCAmelCase : Optional[int] = list(model_signature.parameters.keys() )[1]
self.assertEqual(AutoformerModel.main_input_name , A_ )
def UpperCamelCase__ ( self ) ->Optional[int]:
'''simple docstring'''
__lowerCAmelCase, __lowerCAmelCase : List[Any] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
__lowerCAmelCase : Dict = model_class(A_ )
__lowerCAmelCase : List[str] = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
__lowerCAmelCase : List[Any] = [*signature.parameters.keys()]
__lowerCAmelCase : Optional[Any] = [
'''past_values''',
'''past_time_features''',
'''past_observed_mask''',
'''static_categorical_features''',
'''static_real_features''',
'''future_values''',
'''future_time_features''',
]
if model.__class__.__name__ in ["AutoformerForPrediction"]:
expected_arg_names.append('''future_observed_mask''' )
expected_arg_names.extend(
[
'''decoder_attention_mask''',
'''head_mask''',
'''decoder_head_mask''',
'''cross_attn_head_mask''',
'''encoder_outputs''',
'''past_key_values''',
'''output_hidden_states''',
'''output_attentions''',
'''use_cache''',
'''return_dict''',
] )
self.assertListEqual(arg_names[: len(A_ )] , A_ )
def UpperCamelCase__ ( self ) ->List[Any]:
'''simple docstring'''
__lowerCAmelCase, __lowerCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common()
__lowerCAmelCase : List[Any] = True
__lowerCAmelCase : Tuple = getattr(self.model_tester , '''seq_length''' , A_ )
__lowerCAmelCase : Tuple = getattr(self.model_tester , '''decoder_seq_length''' , A_ )
__lowerCAmelCase : Any = getattr(self.model_tester , '''encoder_seq_length''' , A_ )
__lowerCAmelCase : Dict = getattr(self.model_tester , '''d_model''' , A_ )
__lowerCAmelCase : Dict = getattr(self.model_tester , '''num_attention_heads''' , A_ )
__lowerCAmelCase : Any = d_model // num_attention_heads
for model_class in self.all_model_classes:
__lowerCAmelCase : Tuple = True
__lowerCAmelCase : Optional[Any] = False
__lowerCAmelCase : Optional[int] = True
__lowerCAmelCase : List[Any] = model_class(A_ )
model.to(A_ )
model.eval()
with torch.no_grad():
__lowerCAmelCase : int = model(**self._prepare_for_class(A_ , A_ ) )
__lowerCAmelCase : str = outputs.encoder_attentions if config.is_encoder_decoder else outputs.attentions
self.assertEqual(len(A_ ) , self.model_tester.num_hidden_layers )
# check that output_attentions also work using config
del inputs_dict["output_attentions"]
__lowerCAmelCase : Optional[Any] = True
__lowerCAmelCase : int = model_class(A_ )
model.to(A_ )
model.eval()
with torch.no_grad():
__lowerCAmelCase : List[str] = model(**self._prepare_for_class(A_ , A_ ) )
__lowerCAmelCase : str = outputs.encoder_attentions
self.assertEqual(len(A_ ) , self.model_tester.num_hidden_layers )
self.assertListEqual(
list(attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads, encoder_seq_length, dim] , )
__lowerCAmelCase : List[Any] = len(A_ )
__lowerCAmelCase : Union[str, Any] = 7
if "last_hidden_state" in outputs:
correct_outlen += 1
if "trend" in outputs:
correct_outlen += 1
if "past_key_values" in outputs:
correct_outlen += 1 # past_key_values have been returned
if "loss" in outputs:
correct_outlen += 1
if "params" in outputs:
correct_outlen += 1
self.assertEqual(A_ , A_ )
# decoder attentions
__lowerCAmelCase : Tuple = outputs.decoder_attentions
self.assertIsInstance(A_ , (list, tuple) )
self.assertEqual(len(A_ ) , self.model_tester.num_hidden_layers )
self.assertListEqual(
list(decoder_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads, decoder_seq_length, dim] , )
# cross attentions
__lowerCAmelCase : Union[str, Any] = outputs.cross_attentions
self.assertIsInstance(A_ , (list, tuple) )
self.assertEqual(len(A_ ) , self.model_tester.num_hidden_layers )
self.assertListEqual(
list(cross_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads, decoder_seq_length, dim] , )
# Check attention is always last and order is fine
__lowerCAmelCase : int = True
__lowerCAmelCase : Tuple = True
__lowerCAmelCase : int = model_class(A_ )
model.to(A_ )
model.eval()
with torch.no_grad():
__lowerCAmelCase : Optional[int] = model(**self._prepare_for_class(A_ , A_ ) )
self.assertEqual(out_len + 2 , len(A_ ) )
__lowerCAmelCase : Any = outputs.encoder_attentions if config.is_encoder_decoder else outputs.attentions
self.assertEqual(len(A_ ) , self.model_tester.num_hidden_layers )
self.assertListEqual(
list(self_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads, encoder_seq_length, dim] , )
@is_flaky()
def UpperCamelCase__ ( self ) ->str:
'''simple docstring'''
super().test_retain_grad_hidden_states_attentions()
def _lowercase ( lowercase__="train-batch.pt" ):
__lowerCAmelCase : Union[str, Any] = hf_hub_download(repo_id='''hf-internal-testing/tourism-monthly-batch''' , filename=__snake_case , repo_type='''dataset''' )
__lowerCAmelCase : Optional[int] = torch.load(__snake_case , map_location=__snake_case )
return batch
@require_torch
@slow
class __lowercase (unittest.TestCase ):
def UpperCamelCase__ ( self ) ->Any:
'''simple docstring'''
__lowerCAmelCase : int = AutoformerModel.from_pretrained('''huggingface/autoformer-tourism-monthly''' ).to(A_ )
__lowerCAmelCase : Any = prepare_batch()
with torch.no_grad():
__lowerCAmelCase : List[str] = model(
past_values=batch['''past_values'''] , past_time_features=batch['''past_time_features'''] , past_observed_mask=batch['''past_observed_mask'''] , static_categorical_features=batch['''static_categorical_features'''] , future_values=batch['''future_values'''] , future_time_features=batch['''future_time_features'''] , )[0]
__lowerCAmelCase : Tuple = torch.Size(
(64, model.config.prediction_length + model.config.label_length, model.config.feature_size) )
self.assertEqual(output.shape , A_ )
__lowerCAmelCase : str = torch.tensor(
[[0.3_593, -1.3_398, 0.6_330], [0.2_279, 1.5_396, -0.1_792], [0.0_450, 1.3_225, -0.2_335]] , device=A_ )
self.assertTrue(torch.allclose(output[0, :3, :3] , A_ , atol=A_ ) )
def UpperCamelCase__ ( self ) ->Union[str, Any]:
'''simple docstring'''
__lowerCAmelCase : Optional[Any] = AutoformerForPrediction.from_pretrained('''huggingface/autoformer-tourism-monthly''' ).to(A_ )
__lowerCAmelCase : int = prepare_batch('''val-batch.pt''' )
with torch.no_grad():
__lowerCAmelCase : Optional[int] = model(
past_values=batch['''past_values'''] , past_time_features=batch['''past_time_features'''] , past_observed_mask=batch['''past_observed_mask'''] , static_categorical_features=batch['''static_categorical_features'''] , ).encoder_last_hidden_state
__lowerCAmelCase : Dict = torch.Size((64, model.config.context_length, model.config.d_model) )
self.assertEqual(output.shape , A_ )
__lowerCAmelCase : List[str] = torch.tensor(
[[-0.0_734, -0.9_036, 0.8_358], [4.7_186, 2.4_113, 1.9_581], [1.7_953, 2.3_558, 1.2_970]] , device=A_ )
self.assertTrue(torch.allclose(output[0, :3, :3] , A_ , atol=A_ ) )
def UpperCamelCase__ ( self ) ->List[str]:
'''simple docstring'''
__lowerCAmelCase : str = AutoformerForPrediction.from_pretrained('''huggingface/autoformer-tourism-monthly''' ).to(A_ )
__lowerCAmelCase : Optional[Any] = prepare_batch('''val-batch.pt''' )
with torch.no_grad():
__lowerCAmelCase : int = model.generate(
static_categorical_features=batch['''static_categorical_features'''] , past_time_features=batch['''past_time_features'''] , past_values=batch['''past_values'''] , future_time_features=batch['''future_time_features'''] , past_observed_mask=batch['''past_observed_mask'''] , )
__lowerCAmelCase : List[Any] = torch.Size((64, model.config.num_parallel_samples, model.config.prediction_length) )
self.assertEqual(outputs.sequences.shape , A_ )
__lowerCAmelCase : Any = torch.tensor([3130.6763, 4056.5293, 7053.0786] , device=A_ )
__lowerCAmelCase : Optional[int] = outputs.sequences.mean(dim=1 )
self.assertTrue(torch.allclose(mean_prediction[0, -3:] , A_ , rtol=1e-1 ) )
| 275 |
'''simple docstring'''
import importlib
import inspect
import json
import os
import re
import shutil
import sys
from pathlib import Path
from typing import Dict, Optional, Union
from urllib import request
from huggingface_hub import HfFolder, cached_download, hf_hub_download, model_info
from packaging import version
from .. import __version__
from . import DIFFUSERS_DYNAMIC_MODULE_NAME, HF_MODULES_CACHE, logging
a_ : List[Any] = (
"""https://raw.githubusercontent.com/huggingface/diffusers/{revision}/examples/community/{pipeline}.py"""
)
a_ : Union[str, Any] = logging.get_logger(__name__) # pylint: disable=invalid-name
def a_ ( ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ ='''https://pypi.org/pypi/diffusers/json'''
lowerCamelCase_ =json.loads(request.urlopen(__snake_case ).read() )['''releases'''].keys()
return sorted(__snake_case , key=lambda __snake_case : version.Version(__snake_case ) )
def a_ ( ) -> str:
"""simple docstring"""
# This function has already been executed if HF_MODULES_CACHE already is in the Python path.
if HF_MODULES_CACHE in sys.path:
return
sys.path.append(__snake_case )
os.makedirs(__snake_case , exist_ok=__snake_case )
lowerCamelCase_ =Path(__snake_case ) / '''__init__.py'''
if not init_path.exists():
init_path.touch()
def a_ ( __snake_case : Union[str, os.PathLike] ) -> List[str]:
"""simple docstring"""
init_hf_modules()
lowerCamelCase_ =Path(__snake_case ) / name
# If the parent module does not exist yet, recursively create it.
if not dynamic_module_path.parent.exists():
create_dynamic_module(dynamic_module_path.parent )
os.makedirs(__snake_case , exist_ok=__snake_case )
lowerCamelCase_ =dynamic_module_path / '''__init__.py'''
if not init_path.exists():
init_path.touch()
def a_ ( __snake_case : Tuple ) -> List[str]:
"""simple docstring"""
with open(__snake_case , '''r''' , encoding='''utf-8''' ) as f:
lowerCamelCase_ =f.read()
# Imports of the form `import .xxx`
lowerCamelCase_ =re.findall('''^\s*import\s+\.(\S+)\s*$''' , __snake_case , flags=re.MULTILINE )
# Imports of the form `from .xxx import yyy`
relative_imports += re.findall('''^\s*from\s+\.(\S+)\s+import''' , __snake_case , flags=re.MULTILINE )
# Unique-ify
return list(set(__snake_case ) )
def a_ ( __snake_case : str ) -> str:
"""simple docstring"""
lowerCamelCase_ =False
lowerCamelCase_ =[module_file]
lowerCamelCase_ =[]
# Let's recurse through all relative imports
while not no_change:
lowerCamelCase_ =[]
for f in files_to_check:
new_imports.extend(get_relative_imports(__snake_case ) )
lowerCamelCase_ =Path(__snake_case ).parent
lowerCamelCase_ =[str(module_path / m ) for m in new_imports]
lowerCamelCase_ =[f for f in new_import_files if f not in all_relative_imports]
lowerCamelCase_ =[F'''{f}.py''' for f in new_import_files]
lowerCamelCase_ =len(__snake_case ) == 0
all_relative_imports.extend(__snake_case )
return all_relative_imports
def a_ ( __snake_case : Union[str, Any] ) -> Optional[int]:
"""simple docstring"""
with open(__snake_case , '''r''' , encoding='''utf-8''' ) as f:
lowerCamelCase_ =f.read()
# Imports of the form `import xxx`
lowerCamelCase_ =re.findall('''^\s*import\s+(\S+)\s*$''' , __snake_case , flags=re.MULTILINE )
# Imports of the form `from xxx import yyy`
imports += re.findall('''^\s*from\s+(\S+)\s+import''' , __snake_case , flags=re.MULTILINE )
# Only keep the top-level module
lowerCamelCase_ =[imp.split('''.''' )[0] for imp in imports if not imp.startswith('''.''' )]
# Unique-ify and test we got them all
lowerCamelCase_ =list(set(__snake_case ) )
lowerCamelCase_ =[]
for imp in imports:
try:
importlib.import_module(__snake_case )
except ImportError:
missing_packages.append(__snake_case )
if len(__snake_case ) > 0:
raise ImportError(
'''This modeling file requires the following packages that were not found in your environment: '''
F'''{', '.join(__snake_case )}. Run `pip install {' '.join(__snake_case )}`''' )
return get_relative_imports(__snake_case )
def a_ ( __snake_case : Tuple , __snake_case : Tuple ) -> List[Any]:
"""simple docstring"""
lowerCamelCase_ =module_path.replace(os.path.sep , '''.''' )
lowerCamelCase_ =importlib.import_module(__snake_case )
if class_name is None:
return find_pipeline_class(__snake_case )
return getattr(__snake_case , __snake_case )
def a_ ( __snake_case : Dict ) -> Any:
"""simple docstring"""
from ..pipelines import DiffusionPipeline
lowerCamelCase_ =dict(inspect.getmembers(__snake_case , inspect.isclass ) )
lowerCamelCase_ =None
for cls_name, cls in cls_members.items():
if (
cls_name != DiffusionPipeline.__name__
and issubclass(cls , __snake_case )
and cls.__module__.split('''.''' )[0] != "diffusers"
):
if pipeline_class is not None:
raise ValueError(
F'''Multiple classes that inherit from {DiffusionPipeline.__name__} have been found:'''
F''' {pipeline_class.__name__}, and {cls_name}. Please make sure to define only one in'''
F''' {loaded_module}.''' )
lowerCamelCase_ =cls
return pipeline_class
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : str , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =str(__snake_case )
lowerCamelCase_ =os.path.join(__snake_case , __snake_case )
if os.path.isfile(__snake_case ):
lowerCamelCase_ =module_file_or_url
lowerCamelCase_ ='''local'''
elif pretrained_model_name_or_path.count('''/''' ) == 0:
lowerCamelCase_ =get_diffusers_versions()
# cut ".dev0"
lowerCamelCase_ ='''v''' + '''.'''.join(__version__.split('''.''' )[:3] )
# retrieve github version that matches
if revision is None:
lowerCamelCase_ =latest_version if latest_version[1:] in available_versions else '''main'''
logger.info(F'''Defaulting to latest_version: {revision}.''' )
elif revision in available_versions:
lowerCamelCase_ =F'''v{revision}'''
elif revision == "main":
lowerCamelCase_ =revision
else:
raise ValueError(
F'''`custom_revision`: {revision} does not exist. Please make sure to choose one of'''
F''' {', '.join(available_versions + ['main'] )}.''' )
# community pipeline on GitHub
lowerCamelCase_ =COMMUNITY_PIPELINES_URL.format(revision=__snake_case , pipeline=__snake_case )
try:
lowerCamelCase_ =cached_download(
__snake_case , cache_dir=__snake_case , force_download=__snake_case , proxies=__snake_case , resume_download=__snake_case , local_files_only=__snake_case , use_auth_token=__snake_case , )
lowerCamelCase_ ='''git'''
lowerCamelCase_ =pretrained_model_name_or_path + '''.py'''
except EnvironmentError:
logger.error(F'''Could not locate the {module_file} inside {pretrained_model_name_or_path}.''' )
raise
else:
try:
# Load from URL or cache if already cached
lowerCamelCase_ =hf_hub_download(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , proxies=__snake_case , resume_download=__snake_case , local_files_only=__snake_case , use_auth_token=__snake_case , )
lowerCamelCase_ =os.path.join('''local''' , '''--'''.join(pretrained_model_name_or_path.split('''/''' ) ) )
except EnvironmentError:
logger.error(F'''Could not locate the {module_file} inside {pretrained_model_name_or_path}.''' )
raise
# Check we have all the requirements in our environment
lowerCamelCase_ =check_imports(__snake_case )
# Now we move the module inside our cached dynamic modules.
lowerCamelCase_ =DIFFUSERS_DYNAMIC_MODULE_NAME + os.path.sep + submodule
create_dynamic_module(__snake_case )
lowerCamelCase_ =Path(__snake_case ) / full_submodule
if submodule == "local" or submodule == "git":
# We always copy local files (we could hash the file to see if there was a change, and give them the name of
# that hash, to only copy when there is a modification but it seems overkill for now).
# The only reason we do the copy is to avoid putting too many folders in sys.path.
shutil.copy(__snake_case , submodule_path / module_file )
for module_needed in modules_needed:
lowerCamelCase_ =F'''{module_needed}.py'''
shutil.copy(os.path.join(__snake_case , __snake_case ) , submodule_path / module_needed )
else:
# Get the commit hash
# TODO: we will get this info in the etag soon, so retrieve it from there and not here.
if isinstance(__snake_case , __snake_case ):
lowerCamelCase_ =use_auth_token
elif use_auth_token is True:
lowerCamelCase_ =HfFolder.get_token()
else:
lowerCamelCase_ =None
lowerCamelCase_ =model_info(__snake_case , revision=__snake_case , token=__snake_case ).sha
# The module file will end up being placed in a subfolder with the git hash of the repo. This way we get the
# benefit of versioning.
lowerCamelCase_ =submodule_path / commit_hash
lowerCamelCase_ =full_submodule + os.path.sep + commit_hash
create_dynamic_module(__snake_case )
if not (submodule_path / module_file).exists():
shutil.copy(__snake_case , submodule_path / module_file )
# Make sure we also have every file with relative
for module_needed in modules_needed:
if not (submodule_path / module_needed).exists():
get_cached_module_file(
__snake_case , F'''{module_needed}.py''' , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
return os.path.join(__snake_case , __snake_case )
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : str , __snake_case : Optional[str] = None , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , **__snake_case : Optional[int] , ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =get_cached_module_file(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
return get_class_in_module(__snake_case , final_module.replace('''.py''' , '''''' ) )
| 75 | 0 |
from math import factorial, pi
def _a ( UpperCamelCase_ : float , UpperCamelCase_ : int = 30 ) -> float:
"""simple docstring"""
if not isinstance(__snake_case , (int, float) ):
raise ValueError("maclaurin_sin() requires either an int or float for theta" )
if not isinstance(__snake_case , __snake_case ) or accuracy <= 0:
raise ValueError("maclaurin_sin() requires a positive int for accuracy" )
lowerCAmelCase__ = float(__snake_case )
lowerCAmelCase__ = theta // (2 * pi)
theta -= 2 * div * pi
return sum(
(-1) ** r * theta ** (2 * r + 1) / factorial(2 * r + 1 ) for r in range(__snake_case ) )
def _a ( UpperCamelCase_ : float , UpperCamelCase_ : int = 30 ) -> float:
"""simple docstring"""
if not isinstance(__snake_case , (int, float) ):
raise ValueError("maclaurin_cos() requires either an int or float for theta" )
if not isinstance(__snake_case , __snake_case ) or accuracy <= 0:
raise ValueError("maclaurin_cos() requires a positive int for accuracy" )
lowerCAmelCase__ = float(__snake_case )
lowerCAmelCase__ = theta // (2 * pi)
theta -= 2 * div * pi
return sum((-1) ** r * theta ** (2 * r) / factorial(2 * r ) for r in range(__snake_case ) )
if __name__ == "__main__":
import doctest
doctest.testmod()
print(maclaurin_sin(10))
print(maclaurin_sin(-10))
print(maclaurin_sin(10, 15))
print(maclaurin_sin(-10, 15))
print(maclaurin_cos(5))
print(maclaurin_cos(-5))
print(maclaurin_cos(10, 15))
print(maclaurin_cos(-10, 15))
| 340 |
'''simple docstring'''
a_ : Any = [
9_99,
8_00,
7_99,
6_00,
5_99,
5_00,
4_00,
3_99,
3_77,
3_55,
3_33,
3_11,
2_88,
2_66,
2_44,
2_22,
2_00,
1_99,
1_77,
1_55,
1_33,
1_11,
88,
66,
44,
22,
0,
]
a_ : Any = [
9_99,
9_76,
9_52,
9_28,
9_05,
8_82,
8_58,
8_57,
8_10,
7_62,
7_15,
7_14,
5_72,
4_29,
4_28,
2_86,
2_85,
2_38,
1_90,
1_43,
1_42,
1_18,
95,
71,
47,
24,
0,
]
a_ : Optional[Any] = [
9_99,
9_88,
9_77,
9_66,
9_55,
9_44,
9_33,
9_22,
9_11,
9_00,
8_99,
8_79,
8_59,
8_40,
8_20,
8_00,
7_99,
7_66,
7_33,
7_00,
6_99,
6_50,
6_00,
5_99,
5_00,
4_99,
4_00,
3_99,
3_50,
3_00,
2_99,
2_66,
2_33,
2_00,
1_99,
1_79,
1_59,
1_40,
1_20,
1_00,
99,
88,
77,
66,
55,
44,
33,
22,
11,
0,
]
a_ : str = [
9_99,
9_95,
9_92,
9_89,
9_85,
9_81,
9_78,
9_75,
9_71,
9_67,
9_64,
9_61,
9_57,
9_56,
9_51,
9_47,
9_42,
9_37,
9_33,
9_28,
9_23,
9_19,
9_14,
9_13,
9_08,
9_03,
8_97,
8_92,
8_87,
8_81,
8_76,
8_71,
8_70,
8_64,
8_58,
8_52,
8_46,
8_40,
8_34,
8_28,
8_27,
8_20,
8_13,
8_06,
7_99,
7_92,
7_85,
7_84,
7_77,
7_70,
7_63,
7_56,
7_49,
7_42,
7_41,
7_33,
7_24,
7_16,
7_07,
6_99,
6_98,
6_88,
6_77,
6_66,
6_56,
6_55,
6_45,
6_34,
6_23,
6_13,
6_12,
5_98,
5_84,
5_70,
5_69,
5_55,
5_41,
5_27,
5_26,
5_05,
4_84,
4_83,
4_62,
4_40,
4_39,
3_96,
3_95,
3_52,
3_51,
3_08,
3_07,
2_64,
2_63,
2_20,
2_19,
1_76,
1_32,
88,
44,
0,
]
a_ : Optional[int] = [
9_99,
9_97,
9_95,
9_92,
9_90,
9_88,
9_86,
9_84,
9_81,
9_79,
9_77,
9_75,
9_72,
9_70,
9_68,
9_66,
9_64,
9_61,
9_59,
9_57,
9_56,
9_54,
9_51,
9_49,
9_46,
9_44,
9_41,
9_39,
9_36,
9_34,
9_31,
9_29,
9_26,
9_24,
9_21,
9_19,
9_16,
9_14,
9_13,
9_10,
9_07,
9_05,
9_02,
8_99,
8_96,
8_93,
8_91,
8_88,
8_85,
8_82,
8_79,
8_77,
8_74,
8_71,
8_70,
8_67,
8_64,
8_61,
8_58,
8_55,
8_52,
8_49,
8_46,
8_43,
8_40,
8_37,
8_34,
8_31,
8_28,
8_27,
8_24,
8_21,
8_17,
8_14,
8_11,
8_08,
8_04,
8_01,
7_98,
7_95,
7_91,
7_88,
7_85,
7_84,
7_80,
7_77,
7_74,
7_70,
7_66,
7_63,
7_60,
7_56,
7_52,
7_49,
7_46,
7_42,
7_41,
7_37,
7_33,
7_30,
7_26,
7_22,
7_18,
7_14,
7_10,
7_07,
7_03,
6_99,
6_98,
6_94,
6_90,
6_85,
6_81,
6_77,
6_73,
6_69,
6_64,
6_60,
6_56,
6_55,
6_50,
6_46,
6_41,
6_36,
6_32,
6_27,
6_22,
6_18,
6_13,
6_12,
6_07,
6_02,
5_96,
5_91,
5_86,
5_80,
5_75,
5_70,
5_69,
5_63,
5_57,
5_51,
5_45,
5_39,
5_33,
5_27,
5_26,
5_19,
5_12,
5_05,
4_98,
4_91,
4_84,
4_83,
4_74,
4_66,
4_57,
4_49,
4_40,
4_39,
4_28,
4_18,
4_07,
3_96,
3_95,
3_81,
3_66,
3_52,
3_51,
3_30,
3_08,
3_07,
2_86,
2_64,
2_63,
2_42,
2_20,
2_19,
1_76,
1_75,
1_32,
1_31,
88,
44,
0,
]
a_ : Dict = [
9_99,
9_91,
9_82,
9_74,
9_66,
9_58,
9_50,
9_41,
9_33,
9_25,
9_16,
9_08,
9_00,
8_99,
8_74,
8_50,
8_25,
8_00,
7_99,
7_00,
6_00,
5_00,
4_00,
3_00,
2_00,
1_00,
0,
]
a_ : Tuple = [
9_99,
9_92,
9_85,
9_78,
9_71,
9_64,
9_57,
9_49,
9_42,
9_35,
9_28,
9_21,
9_14,
9_07,
9_00,
8_99,
8_79,
8_59,
8_40,
8_20,
8_00,
7_99,
7_66,
7_33,
7_00,
6_99,
6_50,
6_00,
5_99,
5_00,
4_99,
4_00,
3_99,
3_00,
2_99,
2_00,
1_99,
1_00,
99,
0,
]
a_ : Any = [
9_99,
9_96,
9_92,
9_89,
9_85,
9_82,
9_79,
9_75,
9_72,
9_68,
9_65,
9_61,
9_58,
9_55,
9_51,
9_48,
9_44,
9_41,
9_38,
9_34,
9_31,
9_27,
9_24,
9_20,
9_17,
9_14,
9_10,
9_07,
9_03,
9_00,
8_99,
8_91,
8_84,
8_76,
8_69,
8_61,
8_53,
8_46,
8_38,
8_30,
8_23,
8_15,
8_08,
8_00,
7_99,
7_88,
7_77,
7_66,
7_55,
7_44,
7_33,
7_22,
7_11,
7_00,
6_99,
6_88,
6_77,
6_66,
6_55,
6_44,
6_33,
6_22,
6_11,
6_00,
5_99,
5_85,
5_71,
5_57,
5_42,
5_28,
5_14,
5_00,
4_99,
4_85,
4_71,
4_57,
4_42,
4_28,
4_14,
4_00,
3_99,
3_79,
3_59,
3_40,
3_20,
3_00,
2_99,
2_79,
2_59,
2_40,
2_20,
2_00,
1_99,
1_66,
1_33,
1_00,
99,
66,
33,
0,
]
| 75 | 0 |
'''simple docstring'''
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_torch_available
A__ : Optional[int] ={
"""configuration_gpt_neo""": ["""GPT_NEO_PRETRAINED_CONFIG_ARCHIVE_MAP""", """GPTNeoConfig""", """GPTNeoOnnxConfig"""],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
A__ : str =[
"""GPT_NEO_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""GPTNeoForCausalLM""",
"""GPTNeoForQuestionAnswering""",
"""GPTNeoForSequenceClassification""",
"""GPTNeoForTokenClassification""",
"""GPTNeoModel""",
"""GPTNeoPreTrainedModel""",
"""load_tf_weights_in_gpt_neo""",
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
A__ : List[Any] =[
"""FlaxGPTNeoForCausalLM""",
"""FlaxGPTNeoModel""",
"""FlaxGPTNeoPreTrainedModel""",
]
if TYPE_CHECKING:
from .configuration_gpt_neo import GPT_NEO_PRETRAINED_CONFIG_ARCHIVE_MAP, GPTNeoConfig, GPTNeoOnnxConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_gpt_neo import (
GPT_NEO_PRETRAINED_MODEL_ARCHIVE_LIST,
GPTNeoForCausalLM,
GPTNeoForQuestionAnswering,
GPTNeoForSequenceClassification,
GPTNeoForTokenClassification,
GPTNeoModel,
GPTNeoPreTrainedModel,
load_tf_weights_in_gpt_neo,
)
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_gpt_neo import FlaxGPTNeoForCausalLM, FlaxGPTNeoModel, FlaxGPTNeoPreTrainedModel
else:
import sys
A__ : Optional[Any] =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 70 |
'''simple docstring'''
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
a_ : Union[str, Any] = {
"""configuration_funnel""": ["""FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP""", """FunnelConfig"""],
"""convert_funnel_original_tf_checkpoint_to_pytorch""": [],
"""tokenization_funnel""": ["""FunnelTokenizer"""],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : List[str] = ["""FunnelTokenizerFast"""]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : Optional[int] = [
"""FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""FunnelBaseModel""",
"""FunnelForMaskedLM""",
"""FunnelForMultipleChoice""",
"""FunnelForPreTraining""",
"""FunnelForQuestionAnswering""",
"""FunnelForSequenceClassification""",
"""FunnelForTokenClassification""",
"""FunnelModel""",
"""FunnelPreTrainedModel""",
"""load_tf_weights_in_funnel""",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : Optional[Any] = [
"""TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""TFFunnelBaseModel""",
"""TFFunnelForMaskedLM""",
"""TFFunnelForMultipleChoice""",
"""TFFunnelForPreTraining""",
"""TFFunnelForQuestionAnswering""",
"""TFFunnelForSequenceClassification""",
"""TFFunnelForTokenClassification""",
"""TFFunnelModel""",
"""TFFunnelPreTrainedModel""",
]
if TYPE_CHECKING:
from .configuration_funnel import FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP, FunnelConfig
from .tokenization_funnel import FunnelTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_funnel_fast import FunnelTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_funnel import (
FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST,
FunnelBaseModel,
FunnelForMaskedLM,
FunnelForMultipleChoice,
FunnelForPreTraining,
FunnelForQuestionAnswering,
FunnelForSequenceClassification,
FunnelForTokenClassification,
FunnelModel,
FunnelPreTrainedModel,
load_tf_weights_in_funnel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_funnel import (
TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST,
TFFunnelBaseModel,
TFFunnelForMaskedLM,
TFFunnelForMultipleChoice,
TFFunnelForPreTraining,
TFFunnelForQuestionAnswering,
TFFunnelForSequenceClassification,
TFFunnelForTokenClassification,
TFFunnelModel,
TFFunnelPreTrainedModel,
)
else:
import sys
a_ : str = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)
| 75 | 0 |
"""simple docstring"""
import warnings
from ...utils import logging
from .image_processing_glpn import GLPNImageProcessor
lowerCAmelCase : List[str] = logging.get_logger(__name__)
class __magic_name__ ( lowerCamelCase__ ):
'''simple docstring'''
def __init__( self , *_a , **_a ):
"""simple docstring"""
warnings.warn(
"""The class GLPNFeatureExtractor is deprecated and will be removed in version 5 of Transformers. Please"""
""" use GLPNImageProcessor instead.""" , _a , )
super().__init__(*_a , **_a )
| 291 |
'''simple docstring'''
import json
import os
import shutil
import tempfile
import unittest
from multiprocessing import get_context
from pathlib import Path
import datasets
import numpy as np
from datasets import load_dataset
from parameterized import parameterized
from transformers import AutoProcessor
from transformers.models.wavaveca import WavaVecaCTCTokenizer, WavaVecaFeatureExtractor
from transformers.models.wavaveca.tokenization_wavaveca import VOCAB_FILES_NAMES
from transformers.testing_utils import require_pyctcdecode, require_torch, require_torchaudio, slow
from transformers.utils import FEATURE_EXTRACTOR_NAME, is_pyctcdecode_available, is_torch_available
from ..wavaveca.test_feature_extraction_wavaveca import floats_list
if is_pyctcdecode_available():
from huggingface_hub import snapshot_download
from pyctcdecode import BeamSearchDecoderCTC
from transformers.models.wavaveca_with_lm import WavaVecaProcessorWithLM
from transformers.models.wavaveca_with_lm.processing_wavaveca_with_lm import WavaVecaDecoderWithLMOutput
if is_torch_available():
from transformers import WavaVecaForCTC
@require_pyctcdecode
class __UpperCamelCase ( unittest.TestCase ):
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''| <pad> <unk> <s> </s> a b c d e f g h i j k'''.split()
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ ={
'''unk_token''': '''<unk>''',
'''bos_token''': '''<s>''',
'''eos_token''': '''</s>''',
}
lowerCamelCase_ ={
'''feature_size''': 1,
'''padding_value''': 0.0,
'''sampling_rate''': 16_000,
'''return_attention_mask''': False,
'''do_normalize''': True,
}
lowerCamelCase_ =tempfile.mkdtemp()
lowerCamelCase_ =os.path.join(self.tmpdirname, VOCAB_FILES_NAMES['''vocab_file'''] )
lowerCamelCase_ =os.path.join(self.tmpdirname, lowerCAmelCase )
with open(self.vocab_file, '''w''', encoding='''utf-8''' ) as fp:
fp.write(json.dumps(lowerCAmelCase ) + '''\n''' )
with open(self.feature_extraction_file, '''w''', encoding='''utf-8''' ) as fp:
fp.write(json.dumps(lowerCAmelCase ) + '''\n''' )
# load decoder from hub
lowerCamelCase_ ='''hf-internal-testing/ngram-beam-search-decoder'''
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =self.add_kwargs_tokens_map.copy()
kwargs.update(lowerCAmelCase )
return WavaVecaCTCTokenizer.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return WavaVecaFeatureExtractor.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return BeamSearchDecoderCTC.load_from_hf_hub(self.decoder_name, **lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
shutil.rmtree(self.tmpdirname )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
processor.save_pretrained(self.tmpdirname )
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(self.tmpdirname )
# tokenizer
self.assertEqual(processor.tokenizer.get_vocab(), tokenizer.get_vocab() )
self.assertIsInstance(processor.tokenizer, lowerCAmelCase )
# feature extractor
self.assertEqual(processor.feature_extractor.to_json_string(), feature_extractor.to_json_string() )
self.assertIsInstance(processor.feature_extractor, lowerCAmelCase )
# decoder
self.assertEqual(processor.decoder._alphabet.labels, decoder._alphabet.labels )
self.assertEqual(
processor.decoder.model_container[decoder._model_key]._unigram_set, decoder.model_container[decoder._model_key]._unigram_set, )
self.assertIsInstance(processor.decoder, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM(
tokenizer=self.get_tokenizer(), feature_extractor=self.get_feature_extractor(), decoder=self.get_decoder() )
processor.save_pretrained(self.tmpdirname )
# make sure that error is thrown when decoder alphabet doesn't match
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(
self.tmpdirname, alpha=5.0, beta=3.0, score_boundary=-7.0, unk_score_offset=3 )
# decoder
self.assertEqual(processor.language_model.alpha, 5.0 )
self.assertEqual(processor.language_model.beta, 3.0 )
self.assertEqual(processor.language_model.score_boundary, -7.0 )
self.assertEqual(processor.language_model.unk_score_offset, 3 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizer()
# add token to trigger raise
tokenizer.add_tokens(['''xx'''] )
with self.assertRaisesRegex(lowerCAmelCase, '''include''' ):
WavaVecaProcessorWithLM(
tokenizer=lowerCAmelCase, feature_extractor=self.get_feature_extractor(), decoder=self.get_decoder() )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =floats_list((3, 1_000) )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' )
lowerCamelCase_ =processor(lowerCAmelCase, 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 lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ ='''This is a test string'''
lowerCamelCase_ =processor(text=lowerCAmelCase )
lowerCamelCase_ =tokenizer(lowerCAmelCase )
for key in encoded_tok.keys():
self.assertListEqual(encoded_tok[key], encoded_processor[key] )
def lowercase__ ( self, lowerCAmelCase=(2, 10, 16), lowerCAmelCase=77 ):
"""simple docstring"""
np.random.seed(lowerCAmelCase )
return np.random.rand(*lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits(shape=(10, 16), seed=13 )
lowerCamelCase_ =processor.decode(lowerCAmelCase )
lowerCamelCase_ =decoder.decode_beams(lowerCAmelCase )[0]
self.assertEqual(decoded_decoder[0], decoded_processor.text )
self.assertEqual('''</s> <s> </s>''', decoded_processor.text )
self.assertEqual(decoded_decoder[-2], decoded_processor.logit_score )
self.assertEqual(decoded_decoder[-1], decoded_processor.lm_score )
@parameterized.expand([[None], ['''fork'''], ['''spawn''']] )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
# note: pool should be instantiated *after* Wav2Vec2ProcessorWithLM.
# otherwise, the LM won't be available to the pool's sub-processes.
# manual logic used to allow parameterized test for both pool=None and pool=Pool(...)
if pool_context is None:
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase )
else:
with get_context(lowerCAmelCase ).Pool() as pool:
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase, lowerCAmelCase )
lowerCamelCase_ =list(lowerCAmelCase )
with get_context('''fork''' ).Pool() as p:
lowerCamelCase_ =decoder.decode_beams_batch(lowerCAmelCase, lowerCAmelCase )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =[], [], []
for beams in decoded_beams:
texts_decoder.append(beams[0][0] )
logit_scores_decoder.append(beams[0][-2] )
lm_scores_decoder.append(beams[0][-1] )
self.assertListEqual(lowerCAmelCase, decoded_processor.text )
self.assertListEqual(['''<s> <s> </s>''', '''<s> <s> <s>'''], decoded_processor.text )
self.assertListEqual(lowerCAmelCase, decoded_processor.logit_score )
self.assertListEqual(lowerCAmelCase, decoded_processor.lm_score )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =15
lowerCamelCase_ =-2_0.0
lowerCamelCase_ =-4.0
lowerCamelCase_ =processor.batch_decode(
lowerCAmelCase, beam_width=lowerCAmelCase, beam_prune_logp=lowerCAmelCase, token_min_logp=lowerCAmelCase, )
lowerCamelCase_ =decoded_processor_out.text
lowerCamelCase_ =list(lowerCAmelCase )
with get_context('''fork''' ).Pool() as pool:
lowerCamelCase_ =decoder.decode_beams_batch(
lowerCAmelCase, lowerCAmelCase, beam_width=lowerCAmelCase, beam_prune_logp=lowerCAmelCase, token_min_logp=lowerCAmelCase, )
lowerCamelCase_ =[d[0][0] for d in decoded_decoder_out]
lowerCamelCase_ =[d[0][2] for d in decoded_decoder_out]
lowerCamelCase_ =[d[0][3] for d in decoded_decoder_out]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(['''</s> <s> <s>''', '''<s> <s> <s>'''], lowerCAmelCase )
self.assertTrue(np.array_equal(lowerCAmelCase, decoded_processor_out.logit_score ) )
self.assertTrue(np.allclose([-2_0.0_5_4, -1_8.4_4_7], lowerCAmelCase, atol=1e-3 ) )
self.assertTrue(np.array_equal(lowerCAmelCase, decoded_processor_out.lm_score ) )
self.assertTrue(np.allclose([-1_5.5_5_4, -1_3.9_4_7_4], lowerCAmelCase, atol=1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =2.0
lowerCamelCase_ =5.0
lowerCamelCase_ =-2_0.0
lowerCamelCase_ =True
lowerCamelCase_ =processor.batch_decode(
lowerCAmelCase, alpha=lowerCAmelCase, beta=lowerCAmelCase, unk_score_offset=lowerCAmelCase, lm_score_boundary=lowerCAmelCase, )
lowerCamelCase_ =decoded_processor_out.text
lowerCamelCase_ =list(lowerCAmelCase )
decoder.reset_params(
alpha=lowerCAmelCase, beta=lowerCAmelCase, unk_score_offset=lowerCAmelCase, lm_score_boundary=lowerCAmelCase, )
with get_context('''fork''' ).Pool() as pool:
lowerCamelCase_ =decoder.decode_beams_batch(
lowerCAmelCase, lowerCAmelCase, )
lowerCamelCase_ =[d[0][0] for d in decoded_decoder_out]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(['''<s> </s> <s> </s> </s>''', '''</s> </s> <s> </s> </s>'''], lowerCAmelCase )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
self.assertEqual(lm_model.alpha, 2.0 )
self.assertEqual(lm_model.beta, 5.0 )
self.assertEqual(lm_model.unk_score_offset, -2_0.0 )
self.assertEqual(lm_model.score_boundary, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
lowerCamelCase_ =Path(language_model._kenlm_model.path.decode('''utf-8''' ) ).parent.parent.absolute()
lowerCamelCase_ =os.listdir(lowerCAmelCase )
lowerCamelCase_ =['''alphabet.json''', '''language_model''']
downloaded_decoder_files.sort()
expected_decoder_files.sort()
# test that only decoder relevant files from
# https://huggingface.co/hf-internal-testing/processor_with_lm/tree/main
# are downloaded and none of the rest (e.g. README.md, ...)
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =snapshot_download('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(lowerCAmelCase )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
lowerCamelCase_ =Path(language_model._kenlm_model.path.decode('''utf-8''' ) ).parent.parent.absolute()
lowerCamelCase_ =os.listdir(lowerCAmelCase )
lowerCamelCase_ =os.listdir(lowerCAmelCase )
local_decoder_files.sort()
expected_decoder_files.sort()
# test that both decoder form hub and local files in cache are the same
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =AutoProcessor.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =floats_list((3, 1_000) )
lowerCamelCase_ =processor_wavaveca(lowerCAmelCase, return_tensors='''np''' )
lowerCamelCase_ =processor_auto(lowerCAmelCase, return_tensors='''np''' )
for key in input_wavaveca.keys():
self.assertAlmostEqual(input_wavaveca[key].sum(), input_auto[key].sum(), delta=1e-2 )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =processor_wavaveca.batch_decode(lowerCAmelCase )
lowerCamelCase_ =processor_auto.batch_decode(lowerCAmelCase )
self.assertListEqual(decoded_wavaveca.text, decoded_auto.text )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
self.assertListEqual(
processor.model_input_names, feature_extractor.model_input_names, msg='''`processor` and `feature_extractor` model input names do not match''', )
@staticmethod
def lowercase__ ( lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =[d[key] for d in offsets]
return retrieved_list
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =self._get_dummy_logits()[0]
lowerCamelCase_ =processor.decode(lowerCAmelCase, output_word_offsets=lowerCAmelCase )
# check Wav2Vec2CTCTokenizerOutput keys for word
self.assertEqual(len(outputs.keys() ), 4 )
self.assertTrue('''text''' in outputs )
self.assertTrue('''word_offsets''' in outputs )
self.assertTrue(isinstance(lowerCAmelCase, lowerCAmelCase ) )
self.assertEqual(''' '''.join(self.get_from_offsets(outputs['''word_offsets'''], '''word''' ) ), outputs.text )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''word''' ), ['''<s>''', '''<s>''', '''</s>'''] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''start_offset''' ), [0, 2, 4] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''end_offset''' ), [1, 3, 5] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase, output_word_offsets=lowerCAmelCase )
# check Wav2Vec2CTCTokenizerOutput keys for word
self.assertEqual(len(outputs.keys() ), 4 )
self.assertTrue('''text''' in outputs )
self.assertTrue('''word_offsets''' in outputs )
self.assertTrue(isinstance(lowerCAmelCase, lowerCAmelCase ) )
self.assertListEqual(
[''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ) for o in outputs['''word_offsets''']], outputs.text )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''word''' ), ['''<s>''', '''<s>''', '''</s>'''] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''start_offset''' ), [0, 2, 4] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''end_offset''' ), [1, 3, 5] )
@slow
@require_torch
@require_torchaudio
def lowercase__ ( self ):
"""simple docstring"""
import torch
lowerCamelCase_ =load_dataset('''common_voice''', '''en''', split='''train''', streaming=lowerCAmelCase )
lowerCamelCase_ =ds.cast_column('''audio''', datasets.Audio(sampling_rate=16_000 ) )
lowerCamelCase_ =iter(lowerCAmelCase )
lowerCamelCase_ =next(lowerCAmelCase )
lowerCamelCase_ =AutoProcessor.from_pretrained('''patrickvonplaten/wav2vec2-base-100h-with-lm''' )
lowerCamelCase_ =WavaVecaForCTC.from_pretrained('''patrickvonplaten/wav2vec2-base-100h-with-lm''' )
# compare to filename `common_voice_en_100038.mp3` of dataset viewer on https://huggingface.co/datasets/common_voice/viewer/en/train
lowerCamelCase_ =processor(sample['''audio''']['''array'''], return_tensors='''pt''' ).input_values
with torch.no_grad():
lowerCamelCase_ =model(lowerCAmelCase ).logits.cpu().numpy()
lowerCamelCase_ =processor.decode(logits[0], output_word_offsets=lowerCAmelCase )
lowerCamelCase_ =model.config.inputs_to_logits_ratio / processor.feature_extractor.sampling_rate
lowerCamelCase_ =[
{
'''start_time''': d['''start_offset'''] * time_offset,
'''end_time''': d['''end_offset'''] * time_offset,
'''word''': d['''word'''],
}
for d in output['''word_offsets''']
]
lowerCamelCase_ ='''WHY DOES MILISANDRA LOOK LIKE SHE WANTS TO CONSUME JOHN SNOW ON THE RIVER AT THE WALL'''
# output words
self.assertEqual(''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ), lowerCAmelCase )
self.assertEqual(''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ), output.text )
# output times
lowerCamelCase_ =torch.tensor(self.get_from_offsets(lowerCAmelCase, '''start_time''' ) )
lowerCamelCase_ =torch.tensor(self.get_from_offsets(lowerCAmelCase, '''end_time''' ) )
# fmt: off
lowerCamelCase_ =torch.tensor([1.4_1_9_9, 1.6_5_9_9, 2.2_5_9_9, 3.0, 3.2_4, 3.5_9_9_9, 3.7_9_9_9, 4.0_9_9_9, 4.2_6, 4.9_4, 5.2_8, 5.6_5_9_9, 5.7_8, 5.9_4, 6.3_2, 6.5_3_9_9, 6.6_5_9_9] )
lowerCamelCase_ =torch.tensor([1.5_3_9_9, 1.8_9_9_9, 2.9, 3.1_6, 3.5_3_9_9, 3.7_2, 4.0_1_9_9, 4.1_7_9_9, 4.7_6, 5.1_5_9_9, 5.5_5_9_9, 5.6_9_9_9, 5.8_6, 6.1_9_9_9, 6.3_8, 6.6_1_9_9, 6.9_4] )
# fmt: on
self.assertTrue(torch.allclose(lowerCAmelCase, lowerCAmelCase, atol=0.0_1 ) )
self.assertTrue(torch.allclose(lowerCAmelCase, lowerCAmelCase, atol=0.0_1 ) )
| 75 | 0 |
"""simple docstring"""
from collections import UserDict
from typing import Union
import numpy as np
import requests
from ..utils import (
add_end_docstrings,
logging,
)
from .audio_classification import ffmpeg_read
from .base import PIPELINE_INIT_ARGS, Pipeline
SCREAMING_SNAKE_CASE__ = logging.get_logger(__name__)
@add_end_docstrings(lowerCamelCase__ )
class lowerCAmelCase_ ( lowerCamelCase__ ):
"""simple docstring"""
def __init__( self , **lowerCAmelCase ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
if self.framework != "pt":
raise ValueError(F"""The {self.__class__} is only available in PyTorch.""" )
# No specific FOR_XXX available yet
def __call__( self , lowerCAmelCase , **lowerCAmelCase ):
"""simple docstring"""
return super().__call__(lowerCAmelCase , **lowerCAmelCase )
def snake_case ( self , **lowerCAmelCase ):
"""simple docstring"""
snake_case = {}
if "candidate_labels" in kwargs:
snake_case = kwargs['candidate_labels']
if "hypothesis_template" in kwargs:
snake_case = kwargs['hypothesis_template']
return preprocess_params, {}, {}
def snake_case ( self , lowerCAmelCase , lowerCAmelCase=None , lowerCAmelCase="This is a sound of {}." ):
"""simple docstring"""
if isinstance(lowerCAmelCase , lowerCAmelCase ):
if audio.startswith('http://' ) or audio.startswith('https://' ):
# We need to actually check for a real protocol, otherwise it's impossible to use a local file
# like http_huggingface_co.png
snake_case = requests.get(lowerCAmelCase ).content
else:
with open(lowerCAmelCase , 'rb' ) as f:
snake_case = f.read()
if isinstance(lowerCAmelCase , lowerCAmelCase ):
snake_case = ffmpeg_read(lowerCAmelCase , self.feature_extractor.sampling_rate )
if not isinstance(lowerCAmelCase , np.ndarray ):
raise ValueError('We expect a numpy ndarray as input' )
if len(audio.shape ) != 1:
raise ValueError('We expect a single channel audio input for ZeroShotAudioClassificationPipeline' )
snake_case = self.feature_extractor(
[audio] , sampling_rate=self.feature_extractor.sampling_rate , return_tensors='pt' )
snake_case = candidate_labels
snake_case = [hypothesis_template.format(lowerCAmelCase ) for x in candidate_labels]
snake_case = self.tokenizer(lowerCAmelCase , return_tensors=self.framework , padding=lowerCAmelCase )
snake_case = [text_inputs]
return inputs
def snake_case ( self , lowerCAmelCase ):
"""simple docstring"""
snake_case = model_inputs.pop('candidate_labels' )
snake_case = model_inputs.pop('text_inputs' )
if isinstance(text_inputs[0] , lowerCAmelCase ):
snake_case = text_inputs[0]
else:
# Batching case.
snake_case = text_inputs[0][0]
snake_case = self.model(**lowerCAmelCase , **lowerCAmelCase )
snake_case = {
'candidate_labels': candidate_labels,
'logits': outputs.logits_per_audio,
}
return model_outputs
def snake_case ( self , lowerCAmelCase ):
"""simple docstring"""
snake_case = model_outputs.pop('candidate_labels' )
snake_case = model_outputs['logits'][0]
if self.framework == "pt":
snake_case = logits.softmax(dim=0 )
snake_case = probs.tolist()
else:
raise ValueError('`tf` framework not supported.' )
snake_case = [
{'score': score, 'label': candidate_label}
for score, candidate_label in sorted(zip(lowerCAmelCase , lowerCAmelCase ) , key=lambda lowerCAmelCase : -x[0] )
]
return result
| 150 |
'''simple docstring'''
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
DDIMScheduler,
EulerAncestralDiscreteScheduler,
LMSDiscreteScheduler,
PNDMScheduler,
StableDiffusionInstructPixaPixPipeline,
UNetaDConditionModel,
)
from diffusers.image_processor import VaeImageProcessor
from diffusers.utils import floats_tensor, load_image, slow, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..pipeline_params import (
IMAGE_TO_IMAGE_IMAGE_PARAMS,
TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class __UpperCamelCase ( lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
lowercase : List[Any] =StableDiffusionInstructPixaPixPipeline
lowercase : List[Any] =TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'height', 'width', 'cross_attention_kwargs'}
lowercase : Optional[Any] =TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS
lowercase : Union[str, Any] =IMAGE_TO_IMAGE_IMAGE_PARAMS
lowercase : List[Any] =IMAGE_TO_IMAGE_IMAGE_PARAMS
def lowercase__ ( self ):
"""simple docstring"""
torch.manual_seed(0 )
lowerCamelCase_ =UNetaDConditionModel(
block_out_channels=(32, 64), layers_per_block=2, sample_size=32, in_channels=8, out_channels=4, down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D'''), up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D'''), cross_attention_dim=32, )
lowerCamelCase_ =PNDMScheduler(skip_prk_steps=lowerCAmelCase )
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-05, num_attention_heads=4, num_hidden_layers=5, pad_token_id=1, vocab_size=1_000, )
lowerCamelCase_ =CLIPTextModel(lowerCAmelCase )
lowerCamelCase_ =CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' )
lowerCamelCase_ ={
'''unet''': unet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase=0 ):
"""simple docstring"""
lowerCamelCase_ =floats_tensor((1, 3, 32, 32), rng=random.Random(lowerCAmelCase ) ).to(lowerCAmelCase )
lowerCamelCase_ =image.cpu().permute(0, 2, 3, 1 )[0]
lowerCamelCase_ =Image.fromarray(np.uinta(lowerCAmelCase ) ).convert('''RGB''' )
if str(lowerCAmelCase ).startswith('''mps''' ):
lowerCamelCase_ =torch.manual_seed(lowerCAmelCase )
else:
lowerCamelCase_ =torch.Generator(device=lowerCAmelCase ).manual_seed(lowerCAmelCase )
lowerCamelCase_ ={
'''prompt''': '''A painting of a squirrel eating a burger''',
'''image''': image,
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''image_guidance_scale''': 1,
'''output_type''': '''numpy''',
}
return inputs
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1]
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_5_2_6, 0.3_7_5_0, 0.4_5_4_7, 0.6_1_1_7, 0.5_8_6_6, 0.5_0_1_6, 0.4_3_2_7, 0.5_6_4_2, 0.4_8_1_5] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ ='''french fries'''
lowerCamelCase_ =sd_pipe(**lowerCAmelCase, negative_prompt=lowerCAmelCase )
lowerCamelCase_ =output.images
lowerCamelCase_ =image[0, -3:, -3:, -1]
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_5_1_1, 0.3_6_4_2, 0.4_5_5_3, 0.6_2_3_6, 0.5_7_9_7, 0.5_0_1_3, 0.4_3_4_3, 0.5_6_1_1, 0.4_8_3_1] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =[inputs['''prompt''']] * 2
lowerCamelCase_ =np.array(inputs['''image'''] ).astype(np.floataa ) / 2_5_5.0
lowerCamelCase_ =torch.from_numpy(lowerCAmelCase ).unsqueeze(0 ).to(lowerCAmelCase )
lowerCamelCase_ =image / 2 + 0.5
lowerCamelCase_ =image.permute(0, 3, 1, 2 )
lowerCamelCase_ =image.repeat(2, 1, 1, 1 )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[-1, -3:, -3:, -1]
assert image.shape == (2, 32, 32, 3)
lowerCamelCase_ =np.array([0.5_8_1_2, 0.5_7_4_8, 0.5_2_2_2, 0.5_9_0_8, 0.5_6_9_5, 0.7_1_7_4, 0.6_8_0_4, 0.5_5_2_3, 0.5_5_7_9] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =EulerAncestralDiscreteScheduler(
beta_start=0.0_0_0_8_5, beta_end=0.0_1_2, beta_schedule='''scaled_linear''' )
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1]
lowerCamelCase_ =[round(lowerCAmelCase, 4 ) for x in image_slice.flatten().tolist()]
print(''','''.join([str(lowerCAmelCase ) for x in slice] ) )
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_4_1_7, 0.3_8_4_2, 0.4_7_3_2, 0.5_7_7_6, 0.5_8_9_1, 0.5_1_3_9, 0.4_0_5_2, 0.5_6_7_3, 0.4_9_8_6] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
super().test_inference_batch_single_identical(expected_max_diff=3e-3 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =VaeImageProcessor(do_resize=lowerCAmelCase, do_normalize=lowerCAmelCase )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =pipe(**self.get_dummy_inputs_by_type(lowerCAmelCase, input_image_type='''pt''' ) )[0]
lowerCamelCase_ =components['''vae''']
lowerCamelCase_ =self.get_dummy_inputs_by_type(lowerCAmelCase, input_image_type='''pt''' )
for image_param in self.image_latents_params:
if image_param in inputs.keys():
lowerCamelCase_ =vae.encode(inputs[image_param] ).latent_dist.mode()
lowerCamelCase_ =pipe(**lowerCAmelCase )[0]
lowerCamelCase_ =np.abs(out - out_latents_inputs ).max()
self.assertLess(lowerCAmelCase, 1e-4, '''passing latents as image input generate different result from passing image''' )
@slow
@require_torch_gpu
class __UpperCamelCase ( unittest.TestCase ):
def lowercase__ ( self ):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowercase__ ( self, lowerCAmelCase=0 ):
"""simple docstring"""
lowerCamelCase_ =torch.manual_seed(lowerCAmelCase )
lowerCamelCase_ =load_image(
'''https://huggingface.co/datasets/diffusers/test-arrays/resolve/main/stable_diffusion_pix2pix/example.jpg''' )
lowerCamelCase_ ={
'''prompt''': '''turn him into a cyborg''',
'''image''': image,
'''generator''': generator,
'''num_inference_steps''': 3,
'''guidance_scale''': 7.5,
'''image_guidance_scale''': 1.0,
'''output_type''': '''numpy''',
}
return inputs
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.5_9_0_2, 0.6_0_1_5, 0.6_0_2_7, 0.5_9_8_3, 0.6_0_9_2, 0.6_0_6_1, 0.5_7_6_5, 0.5_7_8_5, 0.5_5_5_5] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
lowerCamelCase_ =LMSDiscreteScheduler.from_config(pipe.scheduler.config )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.6_5_7_8, 0.6_8_1_7, 0.6_9_7_2, 0.6_7_6_1, 0.6_8_5_6, 0.6_9_1_6, 0.6_4_2_8, 0.6_5_1_6, 0.6_3_0_1] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
lowerCamelCase_ =DDIMScheduler.from_config(pipe.scheduler.config )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.3_8_2_8, 0.3_8_3_4, 0.3_8_1_8, 0.3_7_9_2, 0.3_8_6_5, 0.3_7_5_2, 0.3_7_9_2, 0.3_8_4_7, 0.3_7_5_3] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =0
def callback_fn(lowerCAmelCase, lowerCAmelCase, lowerCAmelCase ) -> None:
lowerCamelCase_ =True
nonlocal number_of_steps
number_of_steps += 1
if step == 1:
lowerCamelCase_ =latents.detach().cpu().numpy()
assert latents.shape == (1, 4, 64, 64)
lowerCamelCase_ =latents[0, -3:, -3:, -1]
lowerCamelCase_ =np.array([-0.2_4_6_3, -0.4_6_4_4, -0.9_7_5_6, 1.5_1_7_6, 1.4_4_1_4, 0.7_8_6_6, 0.9_8_9_7, 0.8_5_2_1, 0.7_9_8_3] )
assert np.abs(latents_slice.flatten() - expected_slice ).max() < 5e-2
elif step == 2:
lowerCamelCase_ =latents.detach().cpu().numpy()
assert latents.shape == (1, 4, 64, 64)
lowerCamelCase_ =latents[0, -3:, -3:, -1]
lowerCamelCase_ =np.array([-0.2_6_4_4, -0.4_6_2_6, -0.9_6_5_3, 1.5_1_7_6, 1.4_5_5_1, 0.7_6_8_6, 0.9_8_0_5, 0.8_4_5_2, 0.8_1_1_5] )
assert np.abs(latents_slice.flatten() - expected_slice ).max() < 5e-2
lowerCamelCase_ =False
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase, torch_dtype=torch.floataa )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
pipe(**lowerCAmelCase, callback=lowerCAmelCase, callback_steps=1 )
assert callback_fn.has_been_called
assert number_of_steps == 3
def lowercase__ ( self ):
"""simple docstring"""
torch.cuda.empty_cache()
torch.cuda.reset_max_memory_allocated()
torch.cuda.reset_peak_memory_stats()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase, torch_dtype=torch.floataa )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing(1 )
pipe.enable_sequential_cpu_offload()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase )
lowerCamelCase_ =torch.cuda.max_memory_allocated()
# make sure that less than 2.2 GB is allocated
assert mem_bytes < 2.2 * 10**9
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_inputs()
# resize to resolution that is divisible by 8 but not 16 or 32
lowerCamelCase_ =inputs['''image'''].resize((504, 504) )
lowerCamelCase_ ='''timbrooks/instruct-pix2pix'''
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
lowerCAmelCase, safety_checker=lowerCAmelCase, )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =pipe(**lowerCAmelCase )
lowerCamelCase_ =output.images[0]
lowerCamelCase_ =image[255:258, 383:386, -1]
assert image.shape == (504, 504, 3)
lowerCamelCase_ =np.array([0.2_7_2_6, 0.2_5_2_9, 0.2_6_6_4, 0.2_6_5_5, 0.2_6_4_1, 0.2_6_4_2, 0.2_5_9_1, 0.2_6_4_9, 0.2_5_9_0] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 5e-3
| 75 | 0 |
"""simple docstring"""
import math
def _snake_case ( lowercase__ , lowercase__ = 0 , lowercase__ = 0 ):
_lowerCamelCase : Optional[Any] = end or len(__snake_case )
for i in range(__snake_case , __snake_case ):
_lowerCamelCase : List[str] = i
_lowerCamelCase : Any = array[i]
while temp_index != start and temp_index_value < array[temp_index - 1]:
_lowerCamelCase : Any = array[temp_index - 1]
temp_index -= 1
_lowerCamelCase : int = temp_index_value
return array
def _snake_case ( lowercase__ , lowercase__ , lowercase__ ): # Max Heap
_lowerCamelCase : Optional[Any] = index
_lowerCamelCase : Union[str, Any] = 2 * index + 1 # Left Node
_lowerCamelCase : Optional[int] = 2 * index + 2 # Right Node
if left_index < heap_size and array[largest] < array[left_index]:
_lowerCamelCase : Optional[int] = left_index
if right_index < heap_size and array[largest] < array[right_index]:
_lowerCamelCase : Dict = right_index
if largest != index:
_lowerCamelCase, _lowerCamelCase : Tuple = array[largest], array[index]
heapify(__snake_case , __snake_case , __snake_case )
def _snake_case ( lowercase__ ):
_lowerCamelCase : List[str] = len(__snake_case )
for i in range(n // 2 , -1 , -1 ):
heapify(__snake_case , __snake_case , __snake_case )
for i in range(n - 1 , 0 , -1 ):
_lowerCamelCase, _lowerCamelCase : Dict = array[0], array[i]
heapify(__snake_case , 0 , __snake_case )
return array
def _snake_case ( lowercase__ , lowercase__ , lowercase__ , lowercase__ ):
if (array[first_index] > array[middle_index]) != (
array[first_index] > array[last_index]
):
return array[first_index]
elif (array[middle_index] > array[first_index]) != (
array[middle_index] > array[last_index]
):
return array[middle_index]
else:
return array[last_index]
def _snake_case ( lowercase__ , lowercase__ , lowercase__ , lowercase__ ):
_lowerCamelCase : int = low
_lowerCamelCase : str = high
while True:
while array[i] < pivot:
i += 1
j -= 1
while pivot < array[j]:
j -= 1
if i >= j:
return i
_lowerCamelCase, _lowerCamelCase : List[str] = array[j], array[i]
i += 1
def _snake_case ( lowercase__ ):
if len(__snake_case ) == 0:
return array
_lowerCamelCase : Optional[int] = 2 * math.ceil(math.loga(len(__snake_case ) ) )
_lowerCamelCase : List[Any] = 16
return intro_sort(__snake_case , 0 , len(__snake_case ) , __snake_case , __snake_case )
def _snake_case ( lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ ):
while end - start > size_threshold:
if max_depth == 0:
return heap_sort(__snake_case )
max_depth -= 1
_lowerCamelCase : int = median_of_a(__snake_case , __snake_case , start + ((end - start) // 2) + 1 , end - 1 )
_lowerCamelCase : Tuple = partition(__snake_case , __snake_case , __snake_case , __snake_case )
intro_sort(__snake_case , __snake_case , __snake_case , __snake_case , __snake_case )
_lowerCamelCase : List[Any] = p
return insertion_sort(__snake_case , __snake_case , __snake_case )
if __name__ == "__main__":
import doctest
doctest.testmod()
lowercase__ = input("""Enter numbers separated by a comma : """).strip()
lowercase__ = [float(item) for item in user_input.split(""",""")]
print(sort(unsorted)) | 96 |
'''simple docstring'''
from __future__ import annotations
import unittest
from transformers import XGLMConfig, XGLMTokenizer, is_tf_available
from transformers.testing_utils import require_tf, slow
from ...test_configuration_common import ConfigTester
from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor, random_attention_mask
from ...test_pipeline_mixin import PipelineTesterMixin
if is_tf_available():
import tensorflow as tf
from transformers.models.xglm.modeling_tf_xglm import (
TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST,
TFXGLMForCausalLM,
TFXGLMModel,
)
@require_tf
class __UpperCamelCase :
lowercase : Union[str, Any] =XGLMConfig
lowercase : Optional[Any] ={}
lowercase : Optional[int] ='gelu'
def __init__( self, lowerCAmelCase, lowerCAmelCase=14, lowerCAmelCase=7, lowerCAmelCase=True, lowerCAmelCase=True, lowerCAmelCase=True, lowerCAmelCase=99, lowerCAmelCase=32, lowerCAmelCase=2, lowerCAmelCase=4, lowerCAmelCase=37, lowerCAmelCase="gelu", lowerCAmelCase=0.1, lowerCAmelCase=0.1, lowerCAmelCase=512, lowerCAmelCase=0.0_2, ):
"""simple docstring"""
lowerCamelCase_ =parent
lowerCamelCase_ =batch_size
lowerCamelCase_ =seq_length
lowerCamelCase_ =is_training
lowerCamelCase_ =use_input_mask
lowerCamelCase_ =use_labels
lowerCamelCase_ =vocab_size
lowerCamelCase_ =d_model
lowerCamelCase_ =num_hidden_layers
lowerCamelCase_ =num_attention_heads
lowerCamelCase_ =ffn_dim
lowerCamelCase_ =activation_function
lowerCamelCase_ =activation_dropout
lowerCamelCase_ =attention_dropout
lowerCamelCase_ =max_position_embeddings
lowerCamelCase_ =initializer_range
lowerCamelCase_ =None
lowerCamelCase_ =0
lowerCamelCase_ =2
lowerCamelCase_ =1
def lowercase__ ( self ):
"""simple docstring"""
return XGLMConfig.from_pretrained('''facebook/xglm-564M''' )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =tf.clip_by_value(
ids_tensor([self.batch_size, self.seq_length], self.vocab_size ), clip_value_min=0, clip_value_max=3 )
lowerCamelCase_ =None
if self.use_input_mask:
lowerCamelCase_ =random_attention_mask([self.batch_size, self.seq_length] )
lowerCamelCase_ =self.get_config()
lowerCamelCase_ =floats_tensor([self.num_hidden_layers, self.num_attention_heads], 2 )
return (
config,
input_ids,
input_mask,
head_mask,
)
def lowercase__ ( self ):
"""simple docstring"""
return XGLMConfig(
vocab_size=self.vocab_size, d_model=self.hidden_size, num_layers=self.num_hidden_layers, attention_heads=self.num_attention_heads, ffn_dim=self.ffn_dim, activation_function=self.activation_function, activation_dropout=self.activation_dropout, attention_dropout=self.attention_dropout, max_position_embeddings=self.max_position_embeddings, initializer_range=self.initializer_range, use_cache=lowerCAmelCase, bos_token_id=self.bos_token_id, eos_token_id=self.eos_token_id, pad_token_id=self.pad_token_id, return_dict=lowerCAmelCase, )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.prepare_config_and_inputs()
(
(
lowerCamelCase_
), (
lowerCamelCase_
), (
lowerCamelCase_
), (
lowerCamelCase_
),
) =config_and_inputs
lowerCamelCase_ ={
'''input_ids''': input_ids,
'''head_mask''': head_mask,
}
return config, inputs_dict
@require_tf
class __UpperCamelCase ( lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
lowercase : int =(TFXGLMModel, TFXGLMForCausalLM) if is_tf_available() else ()
lowercase : Optional[Any] =(TFXGLMForCausalLM,) if is_tf_available() else ()
lowercase : Tuple =(
{'feature-extraction': TFXGLMModel, 'text-generation': TFXGLMForCausalLM} if is_tf_available() else {}
)
lowercase : Optional[Any] =False
lowercase : Optional[Any] =False
lowercase : Optional[int] =False
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMModelTester(self )
lowerCamelCase_ =ConfigTester(self, config_class=lowerCAmelCase, n_embd=37 )
def lowercase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
@slow
def lowercase__ ( self ):
"""simple docstring"""
for model_name in TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
lowerCamelCase_ =TFXGLMModel.from_pretrained(lowerCAmelCase )
self.assertIsNotNone(lowerCAmelCase )
@unittest.skip(reason='''Currently, model embeddings are going to undergo a major refactor.''' )
def lowercase__ ( self ):
"""simple docstring"""
super().test_resize_token_embeddings()
@require_tf
class __UpperCamelCase ( unittest.TestCase ):
@slow
def lowercase__ ( self, lowerCAmelCase=True ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =tf.convert_to_tensor([[2, 268, 9_865]], dtype=tf.intaa ) # The dog
# </s> The dog is a very friendly dog. He is very affectionate and loves to play with other
# fmt: off
lowerCamelCase_ =[2, 268, 9_865, 67, 11, 1_988, 57_252, 9_865, 5, 984, 67, 1_988, 213_838, 1_658, 53, 70_446, 33, 6_657, 278, 1_581]
# fmt: on
lowerCamelCase_ =model.generate(lowerCAmelCase, do_sample=lowerCAmelCase, num_beams=1 )
if verify_outputs:
self.assertListEqual(output_ids[0].numpy().tolist(), lowerCAmelCase )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =XGLMTokenizer.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
tf.random.set_seed(0 )
lowerCamelCase_ =tokenizer('''Today is a nice day and''', return_tensors='''tf''' )
lowerCamelCase_ =tokenized.input_ids
# forces the generation to happen on CPU, to avoid GPU-related quirks (and assure same output regardless of the available devices)
with tf.device(''':/CPU:0''' ):
lowerCamelCase_ =model.generate(lowerCAmelCase, do_sample=lowerCAmelCase, seed=[7, 0] )
lowerCamelCase_ =tokenizer.decode(output_ids[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =(
'''Today is a nice day and warm evening here over Southern Alberta!! Today when they closed schools due'''
)
self.assertEqual(lowerCAmelCase, lowerCAmelCase )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =XGLMTokenizer.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ ='''left'''
# use different length sentences to test batching
lowerCamelCase_ =[
'''This is an extremelly long sentence that only exists to test the ability of the model to cope with '''
'''left-padding, such as in batched generation. The output for the sequence below should be the same '''
'''regardless of whether left padding is applied or not. When''',
'''Hello, my dog is a little''',
]
lowerCamelCase_ =tokenizer(lowerCAmelCase, return_tensors='''tf''', padding=lowerCAmelCase )
lowerCamelCase_ =inputs['''input_ids''']
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, attention_mask=inputs['''attention_mask'''], max_new_tokens=12 )
lowerCamelCase_ =tokenizer(sentences[0], return_tensors='''tf''' ).input_ids
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, max_new_tokens=12 )
lowerCamelCase_ =tokenizer(sentences[1], return_tensors='''tf''' ).input_ids
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, max_new_tokens=12 )
lowerCamelCase_ =tokenizer.batch_decode(lowerCAmelCase, skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =tokenizer.decode(output_non_padded[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =tokenizer.decode(output_padded[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =[
'''This is an extremelly long sentence that only exists to test the ability of the model to cope with '''
'''left-padding, such as in batched generation. The output for the sequence below should be the same '''
'''regardless of whether left padding is applied or not. When left padding is applied, the sequence will be '''
'''a single''',
'''Hello, my dog is a little bit of a shy one, but he is very friendly''',
]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(lowerCAmelCase, [non_padded_sentence, padded_sentence] )
| 75 | 0 |
"""simple docstring"""
from __future__ import annotations
import random
# Maximum size of the population. Bigger could be faster but is more memory expensive.
__SCREAMING_SNAKE_CASE : str = 200
# Number of elements selected in every generation of evolution. The selection takes
# place from best to worst of that generation and must be smaller than N_POPULATION.
__SCREAMING_SNAKE_CASE : Tuple = 50
# Probability that an element of a generation can mutate, changing one of its genes.
# This will guarantee that all genes will be used during evolution.
__SCREAMING_SNAKE_CASE : List[Any] = 0.4
# Just a seed to improve randomness required by the algorithm.
random.seed(random.randint(0, 1_000))
def _a ( _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) -> tuple[str, float]:
snake_case_ = len([g for position, g in enumerate(__snake_case ) if g == main_target[position]] )
return (item, float(__snake_case ))
def _a ( _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) -> tuple[str, str]:
snake_case_ = random.randint(0 , len(__snake_case ) - 1 )
snake_case_ = parent_a[:random_slice] + parent_a[random_slice:]
snake_case_ = parent_a[:random_slice] + parent_a[random_slice:]
return (child_a, child_a)
def _a ( _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) -> str:
snake_case_ = list(__snake_case )
if random.uniform(0 , 1 ) < MUTATION_PROBABILITY:
snake_case_ = random.choice(__snake_case )
return "".join(__snake_case )
def _a ( _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , ) -> list[str]:
snake_case_ = []
# Generate more children proportionally to the fitness score.
snake_case_ = int(parent_a[1] * 100 ) + 1
snake_case_ = 10 if child_n >= 10 else child_n
for _ in range(__snake_case ):
snake_case_ = population_score[random.randint(0 , __snake_case )][0]
snake_case_ , snake_case_ = crossover(parent_a[0] , __snake_case )
# Append new string to the population list.
pop.append(mutate(__snake_case , __snake_case ) )
pop.append(mutate(__snake_case , __snake_case ) )
return pop
def _a ( _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = True ) -> tuple[int, int, str]:
# Verify if N_POPULATION is bigger than N_SELECTED
if N_POPULATION < N_SELECTED:
snake_case_ = f"""{N_POPULATION} must be bigger than {N_SELECTED}"""
raise ValueError(__snake_case )
# Verify that the target contains no genes besides the ones inside genes variable.
snake_case_ = sorted({c for c in target if c not in genes} )
if not_in_genes_list:
snake_case_ = f"""{not_in_genes_list} is not in genes list, evolution cannot converge"""
raise ValueError(__snake_case )
# Generate random starting population.
snake_case_ = []
for _ in range(__snake_case ):
population.append("""""".join([random.choice(__snake_case ) for i in range(len(__snake_case ) )] ) )
# Just some logs to know what the algorithms is doing.
snake_case_ , snake_case_ = 0, 0
# This loop will end when we find a perfect match for our target.
while True:
generation += 1
total_population += len(__snake_case )
# Random population created. Now it's time to evaluate.
# Adding a bit of concurrency can make everything faster,
#
# import concurrent.futures
# population_score: list[tuple[str, float]] = []
# with concurrent.futures.ThreadPoolExecutor(
# max_workers=NUM_WORKERS) as executor:
# futures = {executor.submit(evaluate, item) for item in population}
# concurrent.futures.wait(futures)
# population_score = [item.result() for item in futures]
#
# but with a simple algorithm like this, it will probably be slower.
# We just need to call evaluate for every item inside the population.
snake_case_ = [evaluate(__snake_case , __snake_case ) for item in population]
# Check if there is a matching evolution.
snake_case_ = sorted(__snake_case , key=lambda _SCREAMING_SNAKE_CASE : x[1] , reverse=__snake_case )
if population_score[0][0] == target:
return (generation, total_population, population_score[0][0])
# Print the best result every 10 generation.
# Just to know that the algorithm is working.
if debug and generation % 10 == 0:
print(
f"""\nGeneration: {generation}"""
f"""\nTotal Population:{total_population}"""
f"""\nBest score: {population_score[0][1]}"""
f"""\nBest string: {population_score[0][0]}""" )
# Flush the old population, keeping some of the best evolutions.
# Keeping this avoid regression of evolution.
snake_case_ = population[: int(N_POPULATION / 3 )]
population.clear()
population.extend(__snake_case )
# Normalize population score to be between 0 and 1.
snake_case_ = [
(item, score / len(__snake_case )) for item, score in population_score
]
# This is selection
for i in range(__snake_case ):
population.extend(select(population_score[int(__snake_case )] , __snake_case , __snake_case ) )
# Check if the population has already reached the maximum value and if so,
# break the cycle. If this check is disabled, the algorithm will take
# forever to compute large strings, but will also calculate small strings in
# a far fewer generations.
if len(__snake_case ) > N_POPULATION:
break
if __name__ == "__main__":
__SCREAMING_SNAKE_CASE : str = (
"""This is a genetic algorithm to evaluate, combine, evolve, and mutate a string!"""
)
__SCREAMING_SNAKE_CASE : Dict = list(
' ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklm'
'nopqrstuvwxyz.,;!?+-*#@^\'èéòà€ù=)(&%$£/\\'
)
__SCREAMING_SNAKE_CASE : Optional[Any] = basic(target_str, genes_list)
print(
f"""\nGeneration: {generation}\nTotal Population: {population}\nTarget: {target}"""
)
| 347 |
'''simple docstring'''
import unittest
from transformers import MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING, is_vision_available, 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 __UpperCamelCase :
@staticmethod
def lowercase__ ( *lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
pass
@is_pipeline_test
@require_vision
@require_torch
class __UpperCamelCase ( unittest.TestCase ):
lowercase : int =MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =pipeline(
'''zero-shot-object-detection''', model='''hf-internal-testing/tiny-random-owlvit-object-detection''' )
lowerCamelCase_ =[
{
'''image''': '''./tests/fixtures/tests_samples/COCO/000000039769.png''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
}
]
return object_detector, examples
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =object_detector(examples[0], threshold=0.0 )
lowerCamelCase_ =len(lowerCAmelCase )
self.assertGreater(lowerCAmelCase, 0 )
self.assertEqual(
lowerCAmelCase, [
{
'''score''': ANY(lowerCAmelCase ),
'''label''': ANY(lowerCAmelCase ),
'''box''': {'''xmin''': ANY(lowerCAmelCase ), '''ymin''': ANY(lowerCAmelCase ), '''xmax''': ANY(lowerCAmelCase ), '''ymax''': ANY(lowerCAmelCase )},
}
for i in range(lowerCAmelCase )
], )
@require_tf
@unittest.skip('''Zero Shot Object Detection not implemented in TF''' )
def lowercase__ ( self ):
"""simple docstring"""
pass
@require_torch
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =pipeline(
'''zero-shot-object-detection''', model='''hf-internal-testing/tiny-random-owlvit-object-detection''' )
lowerCamelCase_ =object_detector(
'''./tests/fixtures/tests_samples/COCO/000000039769.png''', candidate_labels=['''cat''', '''remote''', '''couch'''], threshold=0.6_4, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.7_2_3_5, '''label''': '''cat''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_2_1_8, '''label''': '''remote''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_1_8_4, '''label''': '''couch''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.6_7_4_8, '''label''': '''remote''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_5_6, '''label''': '''cat''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_1_4, '''label''': '''couch''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_4_5_6, '''label''': '''remote''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
{'''score''': 0.6_4_2, '''label''': '''remote''', '''box''': {'''xmin''': 67, '''ymin''': 274, '''xmax''': 93, '''ymax''': 297}},
{'''score''': 0.6_4_1_9, '''label''': '''cat''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
], )
lowerCamelCase_ =object_detector(
[
{
'''image''': '''./tests/fixtures/tests_samples/COCO/000000039769.png''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
}
], threshold=0.6_4, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
[
{'''score''': 0.7_2_3_5, '''label''': '''cat''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_2_1_8, '''label''': '''remote''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_1_8_4, '''label''': '''couch''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.6_7_4_8, '''label''': '''remote''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_5_6, '''label''': '''cat''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_1_4, '''label''': '''couch''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_4_5_6, '''label''': '''remote''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
{'''score''': 0.6_4_2, '''label''': '''remote''', '''box''': {'''xmin''': 67, '''ymin''': 274, '''xmax''': 93, '''ymax''': 297}},
{'''score''': 0.6_4_1_9, '''label''': '''cat''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
]
], )
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
], )
lowerCamelCase_ =object_detector(
[
{
'''image''': '''http://images.cocodataset.org/val2017/000000039769.jpg''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
},
{
'''image''': '''http://images.cocodataset.org/val2017/000000039769.jpg''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
},
], )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
[
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
],
[
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
],
], )
@require_tf
@unittest.skip('''Zero Shot Object Detection not implemented in TF''' )
def lowercase__ ( self ):
"""simple docstring"""
pass
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =0.2
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], threshold=lowerCAmelCase, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
], )
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =2
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], top_k=lowerCAmelCase, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
], )
| 75 | 0 |
"""simple docstring"""
import unittest
from transformers import BigBirdConfig, 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
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class lowerCamelCase ( unittest.TestCase ):
'''simple docstring'''
def __init__( self: int , snake_case: List[str] , snake_case: str=2 , snake_case: Any=56 , snake_case: Union[str, Any]=True , snake_case: Optional[Any]=True , snake_case: Dict=True , snake_case: Any=True , snake_case: Tuple=99 , snake_case: List[Any]=32 , snake_case: int=2 , snake_case: str=2 , snake_case: List[str]=7 , snake_case: List[Any]="gelu_new" , snake_case: str=0.1 , snake_case: Tuple=0.1 , snake_case: Dict=512 , snake_case: Tuple=16 , snake_case: Optional[Any]=2 , snake_case: str=0.0_2 , snake_case: List[Any]=4 , snake_case: Optional[int]="block_sparse" , snake_case: List[str]=True , snake_case: List[Any]=False , snake_case: Any=2 , snake_case: int=3 , ) -> List[str]:
snake_case_ :Tuple = parent
snake_case_ :Optional[Any] = batch_size
snake_case_ :Union[str, Any] = seq_length
snake_case_ :Dict = is_training
snake_case_ :List[str] = use_attention_mask
snake_case_ :List[Any] = use_token_type_ids
snake_case_ :List[Any] = use_labels
snake_case_ :Dict = vocab_size
snake_case_ :Optional[int] = hidden_size
snake_case_ :Optional[int] = num_hidden_layers
snake_case_ :Optional[int] = num_attention_heads
snake_case_ :Any = intermediate_size
snake_case_ :Any = hidden_act
snake_case_ :str = hidden_dropout_prob
snake_case_ :str = attention_probs_dropout_prob
snake_case_ :Union[str, Any] = max_position_embeddings
snake_case_ :Union[str, Any] = type_vocab_size
snake_case_ :Optional[Any] = type_sequence_label_size
snake_case_ :Optional[Any] = initializer_range
snake_case_ :Any = num_choices
snake_case_ :str = rescale_embeddings
snake_case_ :int = attention_type
snake_case_ :Tuple = use_bias
snake_case_ :str = block_size
snake_case_ :str = num_random_blocks
def lowerCAmelCase_ ( self: int ) -> Tuple:
snake_case_ :Dict = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
snake_case_ :int = None
if self.use_attention_mask:
snake_case_ :Any = random_attention_mask([self.batch_size, self.seq_length] )
snake_case_ :int = None
if self.use_token_type_ids:
snake_case_ :str = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
snake_case_ :List[str] = BigBirdConfig(
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 , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def lowerCAmelCase_ ( self: Optional[Any] ) -> Optional[int]:
snake_case_ :int = self.prepare_config_and_inputs()
snake_case_, snake_case_, snake_case_, snake_case_ :List[str] = config_and_inputs
snake_case_ :List[str] = {
"""input_ids""": input_ids,
"""token_type_ids""": token_type_ids,
"""attention_mask""": attention_mask,
}
return config, inputs_dict
@require_flax
class lowerCamelCase ( lowerCamelCase__ , unittest.TestCase ):
'''simple docstring'''
_A : Any = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
_A : int = False
_A : Optional[int] = False
def lowerCAmelCase_ ( self: str ) -> str:
snake_case_ :Any = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase_ ( self: Any ) -> Optional[int]:
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase_ ( self: Dict ) -> List[str]:
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase_ ( self: Dict ) -> Optional[Any]:
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase_ ( self: List[Any] ) -> Optional[Any]:
super().test_hidden_states_output()
@slow
def lowerCAmelCase_ ( self: int ) -> Any:
for model_class_name in self.all_model_classes:
snake_case_ :Dict = model_class_name.from_pretrained("""google/bigbird-roberta-base""" )
self.assertIsNotNone(snake_case )
def lowerCAmelCase_ ( self: Tuple ) -> List[str]:
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase_ ( self: int ) -> Tuple:
snake_case_, snake_case_ :int = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
snake_case_ :Optional[Any] = self._prepare_for_class(snake_case , snake_case )
snake_case_ :Dict = model_class(snake_case )
@jax.jit
def model_jitted(snake_case: List[str] , snake_case: Optional[Any]=None , **snake_case: Tuple ):
return model(input_ids=snake_case , attention_mask=snake_case , **snake_case )
with self.subTest("""JIT Enabled""" ):
snake_case_ :Dict = model_jitted(**snake_case ).to_tuple()
with self.subTest("""JIT Disabled""" ):
with jax.disable_jit():
snake_case_ :Dict = model_jitted(**snake_case ).to_tuple()
self.assertEqual(len(snake_case ) , len(snake_case ) )
for jitted_output, output in zip(snake_case , snake_case ):
self.assertEqual(jitted_output.shape , output.shape )
def lowerCAmelCase_ ( self: List[str] , snake_case: int , snake_case: List[str] , snake_case: Dict , snake_case: Tuple=1E-5 , snake_case: Tuple="outputs" , snake_case: Any=None ) -> Tuple:
if name.startswith("""outputs.attentions""" ):
return
else:
super().check_pt_flax_outputs(snake_case , snake_case , snake_case , snake_case , snake_case , snake_case )
| 66 |
'''simple docstring'''
import json
import os
from typing import Dict, List, Optional, Tuple
import regex as re
from ...tokenization_utils import PreTrainedTokenizer
from ...utils import logging
a_ : Optional[int] = logging.get_logger(__name__)
a_ : Optional[int] = {
"""vocab_file""": """vocab.json""",
"""merges_file""": """merges.txt""",
"""tokenizer_config_file""": """tokenizer_config.json""",
}
a_ : List[Any] = {
"""vocab_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/vocab.json"""
},
"""merges_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/merges.txt"""
},
"""tokenizer_config_file""": {
"""facebook/blenderbot_small-90M""": (
"""https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/tokenizer_config.json"""
)
},
}
a_ : Optional[int] = {"""facebook/blenderbot_small-90M""": 5_12}
def a_ ( __snake_case : List[Any] ) -> Tuple:
"""simple docstring"""
lowerCamelCase_ =set()
lowerCamelCase_ =word[0]
for char in word[1:]:
pairs.add((prev_char, char) )
lowerCamelCase_ =char
lowerCamelCase_ =set(__snake_case )
return pairs
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : Optional[int] =VOCAB_FILES_NAMES
lowercase : Tuple =PRETRAINED_VOCAB_FILES_MAP
lowercase : Tuple =PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
lowercase : Dict =['input_ids', 'attention_mask']
def __init__( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase="__start__", lowerCAmelCase="__end__", lowerCAmelCase="__unk__", lowerCAmelCase="__null__", **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(unk_token=lowerCAmelCase, bos_token=lowerCAmelCase, eos_token=lowerCAmelCase, pad_token=lowerCAmelCase, **lowerCAmelCase )
with open(lowerCAmelCase, encoding='''utf-8''' ) as vocab_handle:
lowerCamelCase_ =json.load(lowerCAmelCase )
lowerCamelCase_ ={v: k for k, v in self.encoder.items()}
with open(lowerCAmelCase, encoding='''utf-8''' ) as merges_handle:
lowerCamelCase_ =merges_handle.read().split('''\n''' )[1:-1]
lowerCamelCase_ =[tuple(merge.split() ) for merge in merges]
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ ={}
@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, lowerCAmelCase ):
"""simple docstring"""
if token in self.cache:
return self.cache[token]
lowerCamelCase_ =re.sub('''([.,!?()])''', R''' \1''', lowerCAmelCase )
lowerCamelCase_ =re.sub('''(\')''', R''' \1 ''', lowerCAmelCase )
lowerCamelCase_ =re.sub(R'''\s{2,}''', ''' ''', lowerCAmelCase )
if "\n" in token:
lowerCamelCase_ =token.replace('''\n''', ''' __newln__''' )
lowerCamelCase_ =token.split(''' ''' )
lowerCamelCase_ =[]
for token in tokens:
if not len(lowerCAmelCase ):
continue
lowerCamelCase_ =token.lower()
lowerCamelCase_ =tuple(lowerCAmelCase )
lowerCamelCase_ =tuple(list(word[:-1] ) + [word[-1] + '''</w>'''] )
lowerCamelCase_ =get_pairs(lowerCAmelCase )
if not pairs:
words.append(lowerCAmelCase )
continue
while True:
lowerCamelCase_ =min(lowerCAmelCase, key=lambda lowerCAmelCase : self.bpe_ranks.get(lowerCAmelCase, float('''inf''' ) ) )
if bigram not in self.bpe_ranks:
break
lowerCamelCase_, lowerCamelCase_ =bigram
lowerCamelCase_ =[]
lowerCamelCase_ =0
while i < len(lowerCAmelCase ):
try:
lowerCamelCase_ =word.index(lowerCAmelCase, lowerCAmelCase )
new_word.extend(word[i:j] )
lowerCamelCase_ =j
except ValueError:
new_word.extend(word[i:] )
break
if word[i] == first and i < len(lowerCAmelCase ) - 1 and word[i + 1] == second:
new_word.append(first + second )
i += 2
else:
new_word.append(word[i] )
i += 1
lowerCamelCase_ =tuple(lowerCAmelCase )
lowerCamelCase_ =new_word
if len(lowerCAmelCase ) == 1:
break
else:
lowerCamelCase_ =get_pairs(lowerCAmelCase )
lowerCamelCase_ ='''@@ '''.join(lowerCAmelCase )
lowerCamelCase_ =word[:-4]
lowerCamelCase_ =word
words.append(lowerCAmelCase )
return " ".join(lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =[]
lowerCamelCase_ =re.findall(R'''\S+\n?''', lowerCAmelCase )
for token in words:
split_tokens.extend(list(self.bpe(lowerCAmelCase ).split(''' ''' ) ) )
return split_tokens
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =token.lower()
return self.encoder.get(lowerCAmelCase, self.encoder.get(self.unk_token ) )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
return self.decoder.get(lowerCAmelCase, self.unk_token )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =''' '''.join(lowerCAmelCase ).replace('''@@ ''', '''''' ).strip()
return out_string
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase = None ):
"""simple docstring"""
if not os.path.isdir(lowerCAmelCase ):
logger.error(f'''Vocabulary path ({save_directory}) should be a directory''' )
return
lowerCamelCase_ =os.path.join(
lowerCAmelCase, (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''vocab_file'''] )
lowerCamelCase_ =os.path.join(
lowerCAmelCase, (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''merges_file'''] )
with open(lowerCAmelCase, '''w''', encoding='''utf-8''' ) as f:
f.write(json.dumps(self.encoder, indent=2, sort_keys=lowerCAmelCase, ensure_ascii=lowerCAmelCase ) + '''\n''' )
lowerCamelCase_ =0
with open(lowerCAmelCase, '''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 lowerCAmelCase : 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_ =token_index
writer.write(''' '''.join(lowerCAmelCase ) + '''\n''' )
index += 1
return vocab_file, merge_file
| 75 | 0 |
'''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, PreTrainedTokenizer
from ...utils import logging
UpperCAmelCase = logging.get_logger(__name__)
UpperCAmelCase = """▁"""
UpperCAmelCase = {"""vocab_file""": """sentencepiece.bpe.model"""}
UpperCAmelCase = {
"""vocab_file""": {
"""xlm-roberta-base""": """https://huggingface.co/xlm-roberta-base/resolve/main/sentencepiece.bpe.model""",
"""xlm-roberta-large""": """https://huggingface.co/xlm-roberta-large/resolve/main/sentencepiece.bpe.model""",
"""xlm-roberta-large-finetuned-conll02-dutch""": (
"""https://huggingface.co/xlm-roberta-large-finetuned-conll02-dutch/resolve/main/sentencepiece.bpe.model"""
),
"""xlm-roberta-large-finetuned-conll02-spanish""": (
"""https://huggingface.co/xlm-roberta-large-finetuned-conll02-spanish/resolve/main/sentencepiece.bpe.model"""
),
"""xlm-roberta-large-finetuned-conll03-english""": (
"""https://huggingface.co/xlm-roberta-large-finetuned-conll03-english/resolve/main/sentencepiece.bpe.model"""
),
"""xlm-roberta-large-finetuned-conll03-german""": (
"""https://huggingface.co/xlm-roberta-large-finetuned-conll03-german/resolve/main/sentencepiece.bpe.model"""
),
}
}
UpperCAmelCase = {
"""xlm-roberta-base""": 512,
"""xlm-roberta-large""": 512,
"""xlm-roberta-large-finetuned-conll02-dutch""": 512,
"""xlm-roberta-large-finetuned-conll02-spanish""": 512,
"""xlm-roberta-large-finetuned-conll03-english""": 512,
"""xlm-roberta-large-finetuned-conll03-german""": 512,
}
class lowerCAmelCase ( lowerCamelCase__ ):
lowerCAmelCase_ = VOCAB_FILES_NAMES
lowerCAmelCase_ = PRETRAINED_VOCAB_FILES_MAP
lowerCAmelCase_ = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
lowerCAmelCase_ = ['input_ids', 'attention_mask']
def __init__( self : Union[str, Any] , __lowercase : Any , __lowercase : Tuple="<s>" , __lowercase : Optional[Any]="</s>" , __lowercase : str="</s>" , __lowercase : List[str]="<s>" , __lowercase : Dict="<unk>" , __lowercase : Optional[Any]="<pad>" , __lowercase : Tuple="<mask>" , __lowercase : str = None , **__lowercase : int , ):
"""simple docstring"""
__lowercase =AddedToken(__lowercase , lstrip=__lowercase , rstrip=__lowercase ) if isinstance(__lowercase , __lowercase ) else mask_token
__lowercase ={} if sp_model_kwargs is None else sp_model_kwargs
super().__init__(
bos_token=__lowercase , eos_token=__lowercase , unk_token=__lowercase , sep_token=__lowercase , cls_token=__lowercase , pad_token=__lowercase , mask_token=__lowercase , sp_model_kwargs=self.sp_model_kwargs , **__lowercase , )
__lowercase =spm.SentencePieceProcessor(**self.sp_model_kwargs )
self.sp_model.Load(str(__lowercase ) )
__lowercase =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>' | ',' | '.' | '▁' | 's' | '▁de' | '-'
# spm | '<unk>' | '<s>' | '</s>' | ',' | '.' | '▁' | 's' | '▁de' | '-' | '▁a'
# Mimic fairseq token-to-id alignment for the first 4 token
__lowercase ={'<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
__lowercase =1
__lowercase =len(self.sp_model ) + self.fairseq_offset
__lowercase ={v: k for k, v in self.fairseq_tokens_to_ids.items()}
def __getstate__( self : List[str] ):
"""simple docstring"""
__lowercase =self.__dict__.copy()
__lowercase =None
__lowercase =self.sp_model.serialized_model_proto()
return state
def __setstate__( self : Tuple , __lowercase : str ):
"""simple docstring"""
__lowercase =d
# for backward compatibility
if not hasattr(self , 'sp_model_kwargs' ):
__lowercase ={}
__lowercase =spm.SentencePieceProcessor(**self.sp_model_kwargs )
self.sp_model.LoadFromSerializedProto(self.sp_model_proto )
def snake_case ( self : List[str] , __lowercase : Dict , __lowercase : Dict = None ):
"""simple docstring"""
if token_ids_a is None:
return [self.cls_token_id] + token_ids_a + [self.sep_token_id]
__lowercase =[self.cls_token_id]
__lowercase =[self.sep_token_id]
return cls + token_ids_a + sep + sep + token_ids_a + sep
def snake_case ( self : Tuple , __lowercase : List[Any] , __lowercase : List[Any] = None , __lowercase : Union[str, Any] = False ):
"""simple docstring"""
if already_has_special_tokens:
return super().get_special_tokens_mask(
token_ids_a=__lowercase , token_ids_a=__lowercase , already_has_special_tokens=__lowercase )
if token_ids_a is None:
return [1] + ([0] * len(__lowercase )) + [1]
return [1] + ([0] * len(__lowercase )) + [1, 1] + ([0] * len(__lowercase )) + [1]
def snake_case ( self : Dict , __lowercase : Optional[Any] , __lowercase : List[str] = None ):
"""simple docstring"""
__lowercase =[self.sep_token_id]
__lowercase =[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]
@property
def snake_case ( self : Union[str, Any] ):
"""simple docstring"""
return len(self.sp_model ) + self.fairseq_offset + 1 # Add the <mask> token
def snake_case ( self : int ):
"""simple docstring"""
__lowercase ={self.convert_ids_to_tokens(__lowercase ): i for i in range(self.vocab_size )}
vocab.update(self.added_tokens_encoder )
return vocab
def snake_case ( self : Optional[int] , __lowercase : List[str] ):
"""simple docstring"""
return self.sp_model.encode(__lowercase , out_type=__lowercase )
def snake_case ( self : str , __lowercase : Optional[Any] ):
"""simple docstring"""
if token in self.fairseq_tokens_to_ids:
return self.fairseq_tokens_to_ids[token]
__lowercase =self.sp_model.PieceToId(__lowercase )
# 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 snake_case ( self : str , __lowercase : List[str] ):
"""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 snake_case ( self : Union[str, Any] , __lowercase : Tuple ):
"""simple docstring"""
__lowercase =''.join(__lowercase ).replace(__lowercase , ' ' ).strip()
return out_string
def snake_case ( self : Dict , __lowercase : List[str] , __lowercase : Optional[int] = None ):
"""simple docstring"""
if not os.path.isdir(__lowercase ):
logger.error(f'''Vocabulary path ({save_directory}) should be a directory''' )
return
__lowercase =os.path.join(
__lowercase , (filename_prefix + '-' if filename_prefix else '') + VOCAB_FILES_NAMES['vocab_file'] )
if os.path.abspath(self.vocab_file ) != os.path.abspath(__lowercase ) and os.path.isfile(self.vocab_file ):
copyfile(self.vocab_file , __lowercase )
elif not os.path.isfile(self.vocab_file ):
with open(__lowercase , 'wb' ) as fi:
__lowercase =self.sp_model.serialized_model_proto()
fi.write(__lowercase )
return (out_vocab_file,)
| 141 |
'''simple docstring'''
from typing import List
from ...configuration_utils import PretrainedConfig
from ...utils import logging
a_ : Dict = logging.get_logger(__name__)
a_ : Any = {
"""snap-research/efficientformer-l1-300""": (
"""https://huggingface.co/snap-research/efficientformer-l1-300/resolve/main/config.json"""
),
}
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : List[str] ='efficientformer'
def __init__( self, lowerCAmelCase = [3, 2, 6, 4], lowerCAmelCase = [48, 96, 224, 448], lowerCAmelCase = [True, True, True, True], lowerCAmelCase = 448, lowerCAmelCase = 32, lowerCAmelCase = 4, lowerCAmelCase = 7, lowerCAmelCase = 5, lowerCAmelCase = 8, lowerCAmelCase = 4, lowerCAmelCase = 0.0, lowerCAmelCase = 16, lowerCAmelCase = 3, lowerCAmelCase = 3, lowerCAmelCase = 3, lowerCAmelCase = 2, lowerCAmelCase = 1, lowerCAmelCase = 0.0, lowerCAmelCase = 1, lowerCAmelCase = True, lowerCAmelCase = True, lowerCAmelCase = 1e-5, lowerCAmelCase = "gelu", lowerCAmelCase = 0.0_2, lowerCAmelCase = 1e-12, lowerCAmelCase = 224, lowerCAmelCase = 1e-05, **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
lowerCamelCase_ =hidden_act
lowerCamelCase_ =hidden_dropout_prob
lowerCamelCase_ =hidden_sizes
lowerCamelCase_ =num_hidden_layers
lowerCamelCase_ =num_attention_heads
lowerCamelCase_ =initializer_range
lowerCamelCase_ =layer_norm_eps
lowerCamelCase_ =patch_size
lowerCamelCase_ =num_channels
lowerCamelCase_ =depths
lowerCamelCase_ =mlp_expansion_ratio
lowerCamelCase_ =downsamples
lowerCamelCase_ =dim
lowerCamelCase_ =key_dim
lowerCamelCase_ =attention_ratio
lowerCamelCase_ =resolution
lowerCamelCase_ =pool_size
lowerCamelCase_ =downsample_patch_size
lowerCamelCase_ =downsample_stride
lowerCamelCase_ =downsample_pad
lowerCamelCase_ =drop_path_rate
lowerCamelCase_ =num_metaad_blocks
lowerCamelCase_ =distillation
lowerCamelCase_ =use_layer_scale
lowerCamelCase_ =layer_scale_init_value
lowerCamelCase_ =image_size
lowerCamelCase_ =batch_norm_eps
| 75 | 0 |
import multiprocessing
from typing import TYPE_CHECKING, Optional, Union
from .. import Dataset, Features, config
from ..formatting import query_table
from ..packaged_modules.sql.sql import Sql
from ..utils import logging
from .abc import AbstractDatasetInputStream
if TYPE_CHECKING:
import sqlitea
import sqlalchemy
class A__ ( lowerCamelCase__ ):
def __init__( self , A_ , A_ , A_ = None , A_ = None , A_ = False , **A_ , ):
'''simple docstring'''
super().__init__(features=A_ , cache_dir=A_ , keep_in_memory=A_ , **A_ )
UpperCamelCase : Any = Sql(
cache_dir=A_ , features=A_ , sql=A_ , con=A_ , **A_ , )
def __UpperCamelCase( self ):
'''simple docstring'''
UpperCamelCase : Dict = None
UpperCamelCase : Dict = None
UpperCamelCase : List[Any] = None
UpperCamelCase : Tuple = None
self.builder.download_and_prepare(
download_config=A_ , download_mode=A_ , verification_mode=A_ , base_path=A_ , )
# Build dataset for splits
UpperCamelCase : Dict = self.builder.as_dataset(
split="train" , verification_mode=A_ , in_memory=self.keep_in_memory )
return dataset
class A__ :
def __init__( self , A_ , A_ , A_ , A_ = None , A_ = None , **A_ , ):
'''simple docstring'''
if num_proc is not None and num_proc <= 0:
raise ValueError(F"""num_proc {num_proc} must be an integer > 0.""" )
UpperCamelCase : Optional[int] = dataset
UpperCamelCase : Union[str, Any] = name
UpperCamelCase : str = con
UpperCamelCase : Optional[Any] = batch_size if batch_size else config.DEFAULT_MAX_BATCH_SIZE
UpperCamelCase : Optional[Any] = num_proc
UpperCamelCase : Any = to_sql_kwargs
def __UpperCamelCase( self ):
'''simple docstring'''
UpperCamelCase : Dict = self.to_sql_kwargs.pop("sql" , A_ )
UpperCamelCase : Optional[int] = self.to_sql_kwargs.pop("con" , A_ )
UpperCamelCase : Tuple = self.to_sql_kwargs.pop("index" , A_ )
UpperCamelCase : str = self._write(index=A_ , **self.to_sql_kwargs )
return written
def __UpperCamelCase( self , A_ ):
'''simple docstring'''
UpperCamelCase , UpperCamelCase , UpperCamelCase : str = args
UpperCamelCase : int = {**to_sql_kwargs, "if_exists": "append"} if offset > 0 else to_sql_kwargs
UpperCamelCase : int = query_table(
table=self.dataset.data , key=slice(A_ , offset + self.batch_size ) , indices=self.dataset._indices , )
UpperCamelCase : Union[str, Any] = batch.to_pandas()
UpperCamelCase : Union[str, Any] = df.to_sql(self.name , self.con , index=A_ , **A_ )
return num_rows or len(A_ )
def __UpperCamelCase( self , A_ , **A_ ):
'''simple docstring'''
UpperCamelCase : List[Any] = 0
if self.num_proc is None or self.num_proc == 1:
for offset in logging.tqdm(
range(0 , len(self.dataset ) , self.batch_size ) , unit="ba" , disable=not logging.is_progress_bar_enabled() , desc="Creating SQL from Arrow format" , ):
written += self._batch_sql((offset, index, to_sql_kwargs) )
else:
UpperCamelCase , UpperCamelCase : Any = len(self.dataset ), self.batch_size
with multiprocessing.Pool(self.num_proc ) as pool:
for num_rows in logging.tqdm(
pool.imap(
self._batch_sql , [(offset, index, to_sql_kwargs) for offset in range(0 , A_ , A_ )] , ) , total=(num_rows // batch_size) + 1 if num_rows % batch_size else num_rows // batch_size , unit="ba" , disable=not logging.is_progress_bar_enabled() , desc="Creating SQL from Arrow format" , ):
written += num_rows
return written
| 52 |
'''simple docstring'''
import itertools
import random
import unittest
import numpy as np
from transformers import is_speech_available
from transformers.testing_utils import require_torch, require_torchaudio
from ...test_sequence_feature_extraction_common import SequenceFeatureExtractionTestMixin
if is_speech_available():
from transformers import SpeechaTextFeatureExtractor
a_ : Union[str, Any] = random.Random()
def a_ ( __snake_case : int , __snake_case : int=1.0 , __snake_case : Tuple=None , __snake_case : Union[str, Any]=None ) -> str:
"""simple docstring"""
if rng is None:
lowerCamelCase_ =global_rng
lowerCamelCase_ =[]
for batch_idx in range(shape[0] ):
values.append([] )
for _ in range(shape[1] ):
values[-1].append(rng.random() * scale )
return values
@require_torch
@require_torchaudio
class __UpperCamelCase ( unittest.TestCase ):
def __init__( self, lowerCAmelCase, lowerCAmelCase=7, lowerCAmelCase=400, lowerCAmelCase=2_000, lowerCAmelCase=24, lowerCAmelCase=24, lowerCAmelCase=0.0, lowerCAmelCase=16_000, lowerCAmelCase=True, lowerCAmelCase=True, ):
"""simple docstring"""
lowerCamelCase_ =parent
lowerCamelCase_ =batch_size
lowerCamelCase_ =min_seq_length
lowerCamelCase_ =max_seq_length
lowerCamelCase_ =(self.max_seq_length - self.min_seq_length) // (self.batch_size - 1)
lowerCamelCase_ =feature_size
lowerCamelCase_ =num_mel_bins
lowerCamelCase_ =padding_value
lowerCamelCase_ =sampling_rate
lowerCamelCase_ =return_attention_mask
lowerCamelCase_ =do_normalize
def lowercase__ ( self ):
"""simple docstring"""
return {
"feature_size": self.feature_size,
"num_mel_bins": self.num_mel_bins,
"padding_value": self.padding_value,
"sampling_rate": self.sampling_rate,
"return_attention_mask": self.return_attention_mask,
"do_normalize": self.do_normalize,
}
def lowercase__ ( self, lowerCAmelCase=False, lowerCAmelCase=False ):
"""simple docstring"""
def _flatten(lowerCAmelCase ):
return list(itertools.chain(*lowerCAmelCase ) )
if equal_length:
lowerCamelCase_ =[floats_list((self.max_seq_length, self.feature_size) ) for _ in range(self.batch_size )]
else:
# make sure that inputs increase in size
lowerCamelCase_ =[
floats_list((x, self.feature_size) )
for x in range(self.min_seq_length, self.max_seq_length, self.seq_length_diff )
]
if numpify:
lowerCamelCase_ =[np.asarray(lowerCAmelCase ) for x in speech_inputs]
return speech_inputs
@require_torch
@require_torchaudio
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : Any =SpeechaTextFeatureExtractor if is_speech_available() else None
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextFeatureExtractionTester(self )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
self.assertTrue(np.all(np.mean(lowerCAmelCase, axis=0 ) < 1e-3 ) )
self.assertTrue(np.all(np.abs(np.var(lowerCAmelCase, axis=0 ) - 1 ) < 1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
# create three inputs of length 800, 1000, and 1200
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =[np.asarray(lowerCAmelCase ) for speech_input in speech_inputs]
# Test feature size
lowerCamelCase_ =feature_extractor(lowerCAmelCase, padding=lowerCAmelCase, return_tensors='''np''' ).input_features
self.assertTrue(input_features.ndim == 3 )
self.assertTrue(input_features.shape[-1] == feature_extractor.feature_size )
# Test not batched input
lowerCamelCase_ =feature_extractor(speech_inputs[0], return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(np_speech_inputs[0], return_tensors='''np''' ).input_features
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
# Test batched
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
for enc_seq_a, enc_seq_a in zip(lowerCAmelCase, lowerCAmelCase ):
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
# Test 2-D numpy arrays are batched.
lowerCamelCase_ =[floats_list((1, x) )[0] for x in (800, 800, 800)]
lowerCamelCase_ =np.asarray(lowerCAmelCase )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
for enc_seq_a, enc_seq_a in zip(lowerCAmelCase, lowerCAmelCase ):
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =['''longest''', '''max_length''', '''do_not_pad''']
lowerCamelCase_ =[None, 16, None]
for max_length, padding in zip(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding=lowerCAmelCase, max_length=lowerCAmelCase, return_attention_mask=lowerCAmelCase )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =[np.sum(lowerCAmelCase ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =['''longest''', '''max_length''', '''do_not_pad''']
lowerCamelCase_ =[None, 16, None]
for max_length, padding in zip(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, max_length=lowerCAmelCase, padding=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =[np.sum(lowerCAmelCase ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self.assertTrue(input_features[0][fbank_feat_lengths[0] :].sum() < 1e-6 )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self.assertTrue(input_features[0][fbank_feat_lengths[1] :].sum() < 1e-6 )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''max_length''', max_length=4, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1] )
self._check_zero_mean_unit_variance(input_features[2] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''longest''', max_length=4, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape, (3, 4, 24) )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''longest''', max_length=16, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape, (3, 6, 24) )
def lowercase__ ( self ):
"""simple docstring"""
import torch
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =np.random.rand(100, 32 ).astype(np.floataa )
lowerCamelCase_ =np_speech_inputs.tolist()
for inputs in [py_speech_inputs, np_speech_inputs]:
lowerCamelCase_ =feature_extractor.pad([{'''input_features''': inputs}], return_tensors='''np''' )
self.assertTrue(np_processed.input_features.dtype == np.floataa )
lowerCamelCase_ =feature_extractor.pad([{'''input_features''': inputs}], return_tensors='''pt''' )
self.assertTrue(pt_processed.input_features.dtype == torch.floataa )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
from datasets import load_dataset
lowerCamelCase_ =load_dataset('''hf-internal-testing/librispeech_asr_dummy''', '''clean''', split='''validation''' )
# automatic decoding with librispeech
lowerCamelCase_ =ds.sort('''id''' ).select(range(lowerCAmelCase ) )[:num_samples]['''audio''']
return [x["array"] for x in speech_samples]
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =np.array([
-1.5_7_4_5, -1.7_7_1_3, -1.7_0_2_0, -1.6_0_6_9, -1.2_2_5_0, -1.1_1_0_5, -0.9_0_7_2, -0.8_2_4_1,
-1.2_3_1_0, -0.8_0_9_8, -0.3_3_2_0, -0.4_1_0_1, -0.7_9_8_5, -0.4_9_9_6, -0.8_2_1_3, -0.9_1_2_8,
-1.0_4_2_0, -1.1_2_8_6, -1.0_4_4_0, -0.7_9_9_9, -0.8_4_0_5, -1.2_2_7_5, -1.5_4_4_3, -1.4_6_2_5,
] )
# fmt: on
lowerCamelCase_ =self._load_datasamples(1 )
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''pt''' ).input_features
self.assertEquals(input_features.shape, (1, 584, 24) )
self.assertTrue(np.allclose(input_features[0, 0, :30], lowerCAmelCase, atol=1e-4 ) )
| 75 | 0 |
from ...configuration_utils import PretrainedConfig
from ...utils import logging
A__ : List[Any] = logging.get_logger(__name__)
A__ : int = {
"""weiweishi/roc-bert-base-zh""": """https://huggingface.co/weiweishi/roc-bert-base-zh/resolve/main/config.json""",
}
class _UpperCAmelCase ( lowerCamelCase__ ):
"""simple docstring"""
lowercase__ = 'roc_bert'
def __init__( self : Union[str, Any], lowerCamelCase : Tuple=30_522, lowerCamelCase : Any=768, lowerCamelCase : List[Any]=12, lowerCamelCase : Union[str, Any]=12, lowerCamelCase : Optional[int]=3_072, lowerCamelCase : Optional[Any]="gelu", lowerCamelCase : Union[str, Any]=0.1, lowerCamelCase : Optional[Any]=0.1, lowerCamelCase : Any=512, lowerCamelCase : int=2, lowerCamelCase : Union[str, Any]=0.02, lowerCamelCase : Any=1E-12, lowerCamelCase : Tuple=True, lowerCamelCase : Any=0, lowerCamelCase : int="absolute", lowerCamelCase : Union[str, Any]=None, lowerCamelCase : List[Any]=True, lowerCamelCase : Any=True, lowerCamelCase : Optional[Any]=768, lowerCamelCase : Dict=910, lowerCamelCase : Tuple=512, lowerCamelCase : Optional[int]=24_858, lowerCamelCase : Union[str, Any]=True, **lowerCamelCase : List[Any], ):
'''simple docstring'''
lowercase__ = vocab_size
lowercase__ = max_position_embeddings
lowercase__ = hidden_size
lowercase__ = num_hidden_layers
lowercase__ = num_attention_heads
lowercase__ = intermediate_size
lowercase__ = hidden_act
lowercase__ = hidden_dropout_prob
lowercase__ = attention_probs_dropout_prob
lowercase__ = initializer_range
lowercase__ = type_vocab_size
lowercase__ = layer_norm_eps
lowercase__ = use_cache
lowercase__ = enable_pronunciation
lowercase__ = enable_shape
lowercase__ = pronunciation_embed_dim
lowercase__ = pronunciation_vocab_size
lowercase__ = shape_embed_dim
lowercase__ = shape_vocab_size
lowercase__ = concat_input
lowercase__ = position_embedding_type
lowercase__ = classifier_dropout
super().__init__(pad_token_id=lowerCamelCase, **lowerCamelCase )
| 207 |
'''simple docstring'''
def a_ ( __snake_case : Any , __snake_case : List[str] ) -> str:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in table:
res += inp[i - 1]
return res
def a_ ( __snake_case : List[str] ) -> Optional[int]:
"""simple docstring"""
return data[1:] + data[0]
def a_ ( __snake_case : str , __snake_case : Tuple ) -> int:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in range(len(__snake_case ) ):
if a[i] == b[i]:
res += "0"
else:
res += "1"
return res
def a_ ( __snake_case : Optional[Any] , __snake_case : Tuple ) -> List[Any]:
"""simple docstring"""
lowerCamelCase_ =int('''0b''' + data[0] + data[-1] , 2 )
lowerCamelCase_ =int('''0b''' + data[1:3] , 2 )
return bin(s[row][col] )[2:]
def a_ ( __snake_case : Optional[int] , __snake_case : List[str] , __snake_case : int , __snake_case : Tuple , __snake_case : List[Any] ) -> Optional[Any]:
"""simple docstring"""
lowerCamelCase_ =message[:4]
lowerCamelCase_ =message[4:]
lowerCamelCase_ =apply_table(__snake_case , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
lowerCamelCase_ =apply_sbox(__snake_case , temp[:4] ) # noqa: E741
lowerCamelCase_ =apply_sbox(__snake_case , temp[4:] )
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + l # noqa: E741
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + r
lowerCamelCase_ =apply_table(l + r , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
return temp + right
if __name__ == "__main__":
a_ : Any = input("""Enter 10 bit key: """)
a_ : Any = input("""Enter 8 bit message: """)
a_ : str = [6, 3, 7, 4, 8, 5, 10, 9]
a_ : str = [3, 5, 2, 7, 4, 10, 1, 9, 8, 6]
a_ : str = [2, 4, 3, 1]
a_ : Optional[int] = [2, 6, 3, 1, 4, 8, 5, 7]
a_ : Optional[Any] = [4, 1, 3, 5, 7, 2, 8, 6]
a_ : Union[str, Any] = [4, 1, 2, 3, 2, 3, 4, 1]
a_ : int = [[1, 0, 3, 2], [3, 2, 1, 0], [0, 2, 1, 3], [3, 1, 3, 2]]
a_ : Any = [[0, 1, 2, 3], [2, 0, 1, 3], [3, 0, 1, 0], [2, 1, 0, 3]]
# key generation
a_ : List[Any] = apply_table(key, paa_table)
a_ : str = temp[:5]
a_ : Optional[Any] = temp[5:]
a_ : Tuple = left_shift(left)
a_ : Optional[Any] = left_shift(right)
a_ : str = apply_table(left + right, pa_table)
a_ : Optional[Any] = left_shift(left)
a_ : Tuple = left_shift(right)
a_ : Union[str, Any] = left_shift(left)
a_ : List[str] = left_shift(right)
a_ : Optional[int] = apply_table(left + right, pa_table)
# encryption
a_ : Optional[int] = apply_table(message, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : str = temp[4:] + temp[:4]
a_ : List[str] = function(expansion, sa, sa, keya, temp)
a_ : Union[str, Any] = apply_table(temp, IP_inv)
print("""Cipher text is:""", CT)
# decryption
a_ : Optional[int] = apply_table(CT, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : int = temp[4:] + temp[:4]
a_ : int = function(expansion, sa, sa, keya, temp)
a_ : Optional[int] = apply_table(temp, IP_inv)
print("""Plain text after decypting is:""", PT)
| 75 | 0 |
import gc
import unittest
from transformers import MODEL_FOR_MASKED_LM_MAPPING, TF_MODEL_FOR_MASKED_LM_MAPPING, FillMaskPipeline, pipeline
from transformers.pipelines import PipelineException
from transformers.testing_utils import (
is_pipeline_test,
is_torch_available,
nested_simplify,
require_tf,
require_torch,
require_torch_gpu,
slow,
)
from .test_pipelines_common import ANY
@is_pipeline_test
class __lowercase (unittest.TestCase ):
_UpperCamelCase = MODEL_FOR_MASKED_LM_MAPPING
_UpperCamelCase = TF_MODEL_FOR_MASKED_LM_MAPPING
def UpperCamelCase__ ( self ) ->int:
'''simple docstring'''
super().tearDown()
# clean-up as much as possible GPU memory occupied by PyTorch
gc.collect()
if is_torch_available():
import torch
torch.cuda.empty_cache()
@require_tf
def UpperCamelCase__ ( self ) ->Union[str, Any]:
'''simple docstring'''
__lowerCAmelCase : Tuple = pipeline(task='''fill-mask''' , model='''sshleifer/tiny-distilroberta-base''' , top_k=2 , framework='''tf''' )
__lowerCAmelCase : Dict = unmasker('''My name is <mask>''' )
self.assertEqual(
nested_simplify(A_ , decimals=6 ) , [
{'''sequence''': '''My name is grouped''', '''score''': 2.1e-05, '''token''': 3_8015, '''token_str''': ''' grouped'''},
{'''sequence''': '''My name is accuser''', '''score''': 2.1e-05, '''token''': 2_5506, '''token_str''': ''' accuser'''},
] , )
__lowerCAmelCase : Optional[Any] = unmasker('''The largest city in France is <mask>''' )
self.assertEqual(
nested_simplify(A_ , decimals=6 ) , [
{
'''sequence''': '''The largest city in France is grouped''',
'''score''': 2.1e-05,
'''token''': 3_8015,
'''token_str''': ''' grouped''',
},
{
'''sequence''': '''The largest city in France is accuser''',
'''score''': 2.1e-05,
'''token''': 2_5506,
'''token_str''': ''' accuser''',
},
] , )
__lowerCAmelCase : List[str] = unmasker('''My name is <mask>''' , targets=[''' Patrick''', ''' Clara''', ''' Teven'''] , top_k=3 )
self.assertEqual(
nested_simplify(A_ , decimals=6 ) , [
{'''sequence''': '''My name is Clara''', '''score''': 2e-05, '''token''': 1_3606, '''token_str''': ''' Clara'''},
{'''sequence''': '''My name is Patrick''', '''score''': 2e-05, '''token''': 3499, '''token_str''': ''' Patrick'''},
{'''sequence''': '''My name is Te''', '''score''': 1.9e-05, '''token''': 2941, '''token_str''': ''' Te'''},
] , )
@require_torch
def UpperCamelCase__ ( self ) ->Dict:
'''simple docstring'''
__lowerCAmelCase : Optional[Any] = pipeline(task='''fill-mask''' , model='''sshleifer/tiny-distilroberta-base''' , top_k=2 , framework='''pt''' )
__lowerCAmelCase : Tuple = unmasker('''My name is <mask>''' )
self.assertEqual(
nested_simplify(A_ , decimals=6 ) , [
{'''sequence''': '''My name is Maul''', '''score''': 2.2e-05, '''token''': 3_5676, '''token_str''': ''' Maul'''},
{'''sequence''': '''My name isELS''', '''score''': 2.2e-05, '''token''': 1_6416, '''token_str''': '''ELS'''},
] , )
__lowerCAmelCase : str = unmasker('''The largest city in France is <mask>''' )
self.assertEqual(
nested_simplify(A_ , decimals=6 ) , [
{
'''sequence''': '''The largest city in France is Maul''',
'''score''': 2.2e-05,
'''token''': 3_5676,
'''token_str''': ''' Maul''',
},
{'''sequence''': '''The largest city in France isELS''', '''score''': 2.2e-05, '''token''': 1_6416, '''token_str''': '''ELS'''},
] , )
__lowerCAmelCase : Any = unmasker('''My name is <mask>''' , targets=[''' Patrick''', ''' Clara''', ''' Teven'''] , top_k=3 )
self.assertEqual(
nested_simplify(A_ , decimals=6 ) , [
{'''sequence''': '''My name is Patrick''', '''score''': 2.1e-05, '''token''': 3499, '''token_str''': ''' Patrick'''},
{'''sequence''': '''My name is Te''', '''score''': 2e-05, '''token''': 2941, '''token_str''': ''' Te'''},
{'''sequence''': '''My name is Clara''', '''score''': 2e-05, '''token''': 1_3606, '''token_str''': ''' Clara'''},
] , )
__lowerCAmelCase : int = unmasker('''My name is <mask> <mask>''' , top_k=2 )
self.assertEqual(
nested_simplify(A_ , decimals=6 ) , [
[
{
'''score''': 2.2e-05,
'''token''': 3_5676,
'''token_str''': ''' Maul''',
'''sequence''': '''<s>My name is Maul<mask></s>''',
},
{'''score''': 2.2e-05, '''token''': 1_6416, '''token_str''': '''ELS''', '''sequence''': '''<s>My name isELS<mask></s>'''},
],
[
{
'''score''': 2.2e-05,
'''token''': 3_5676,
'''token_str''': ''' Maul''',
'''sequence''': '''<s>My name is<mask> Maul</s>''',
},
{'''score''': 2.2e-05, '''token''': 1_6416, '''token_str''': '''ELS''', '''sequence''': '''<s>My name is<mask>ELS</s>'''},
],
] , )
@require_torch_gpu
def UpperCamelCase__ ( self ) ->Tuple:
'''simple docstring'''
__lowerCAmelCase : Dict = pipeline('''fill-mask''' , model='''hf-internal-testing/tiny-random-distilbert''' , device=0 , framework='''pt''' )
# convert model to fp16
pipe.model.half()
__lowerCAmelCase : List[str] = pipe('''Paris is the [MASK] of France.''' )
# We actually don't care about the result, we just want to make sure
# it works, meaning the float16 tensor got casted back to float32
# for postprocessing.
self.assertIsInstance(A_ , A_ )
@slow
@require_torch
def UpperCamelCase__ ( self ) ->Any:
'''simple docstring'''
__lowerCAmelCase : Tuple = pipeline(task='''fill-mask''' , model='''distilroberta-base''' , top_k=2 , framework='''pt''' )
self.run_large_test(A_ )
@slow
@require_tf
def UpperCamelCase__ ( self ) ->Optional[Any]:
'''simple docstring'''
__lowerCAmelCase : Optional[Any] = pipeline(task='''fill-mask''' , model='''distilroberta-base''' , top_k=2 , framework='''tf''' )
self.run_large_test(A_ )
def UpperCamelCase__ ( self , A_ ) ->Any:
'''simple docstring'''
__lowerCAmelCase : str = unmasker('''My name is <mask>''' )
self.assertEqual(
nested_simplify(A_ ) , [
{'''sequence''': '''My name is John''', '''score''': 0.008, '''token''': 610, '''token_str''': ''' John'''},
{'''sequence''': '''My name is Chris''', '''score''': 0.007, '''token''': 1573, '''token_str''': ''' Chris'''},
] , )
__lowerCAmelCase : Optional[Any] = unmasker('''The largest city in France is <mask>''' )
self.assertEqual(
nested_simplify(A_ ) , [
{
'''sequence''': '''The largest city in France is Paris''',
'''score''': 0.251,
'''token''': 2201,
'''token_str''': ''' Paris''',
},
{
'''sequence''': '''The largest city in France is Lyon''',
'''score''': 0.214,
'''token''': 1_2790,
'''token_str''': ''' Lyon''',
},
] , )
__lowerCAmelCase : int = unmasker('''My name is <mask>''' , targets=[''' Patrick''', ''' Clara''', ''' Teven'''] , top_k=3 )
self.assertEqual(
nested_simplify(A_ ) , [
{'''sequence''': '''My name is Patrick''', '''score''': 0.005, '''token''': 3499, '''token_str''': ''' Patrick'''},
{'''sequence''': '''My name is Clara''', '''score''': 0.000, '''token''': 1_3606, '''token_str''': ''' Clara'''},
{'''sequence''': '''My name is Te''', '''score''': 0.000, '''token''': 2941, '''token_str''': ''' Te'''},
] , )
@require_torch
def UpperCamelCase__ ( self ) ->List[str]:
'''simple docstring'''
__lowerCAmelCase : List[str] = pipeline(task='''fill-mask''' , model='''sshleifer/tiny-distilroberta-base''' , framework='''pt''' )
__lowerCAmelCase : int = None
__lowerCAmelCase : int = None
self.run_pipeline_test(A_ , [] )
@require_tf
def UpperCamelCase__ ( self ) ->List[str]:
'''simple docstring'''
__lowerCAmelCase : List[str] = pipeline(task='''fill-mask''' , model='''sshleifer/tiny-distilroberta-base''' , framework='''tf''' )
__lowerCAmelCase : List[Any] = None
__lowerCAmelCase : Optional[Any] = None
self.run_pipeline_test(A_ , [] )
def UpperCamelCase__ ( self , A_ , A_ , A_ ) ->Optional[int]:
'''simple docstring'''
if tokenizer is None or tokenizer.mask_token_id is None:
self.skipTest('''The provided tokenizer has no mask token, (probably reformer or wav2vec2)''' )
__lowerCAmelCase : Optional[int] = FillMaskPipeline(model=A_ , tokenizer=A_ )
__lowerCAmelCase : Optional[int] = [
f"""This is another {tokenizer.mask_token} test""",
]
return fill_masker, examples
def UpperCamelCase__ ( self , A_ , A_ ) ->Optional[int]:
'''simple docstring'''
__lowerCAmelCase : Any = fill_masker.tokenizer
__lowerCAmelCase : Union[str, Any] = fill_masker.model
__lowerCAmelCase : Optional[int] = fill_masker(
f"""This is a {tokenizer.mask_token}""" , )
self.assertEqual(
A_ , [
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
] , )
__lowerCAmelCase : Any = fill_masker([f"""This is a {tokenizer.mask_token}"""] )
self.assertEqual(
A_ , [
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
] , )
__lowerCAmelCase : List[str] = fill_masker([f"""This is a {tokenizer.mask_token}""", f"""Another {tokenizer.mask_token} great test."""] )
self.assertEqual(
A_ , [
[
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
],
[
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
],
] , )
with self.assertRaises(A_ ):
fill_masker([None] )
# No mask_token is not supported
with self.assertRaises(A_ ):
fill_masker('''This is''' )
self.run_test_top_k(A_ , A_ )
self.run_test_targets(A_ , A_ )
self.run_test_top_k_targets(A_ , A_ )
self.fill_mask_with_duplicate_targets_and_top_k(A_ , A_ )
self.fill_mask_with_multiple_masks(A_ , A_ )
def UpperCamelCase__ ( self , A_ , A_ ) ->Tuple:
'''simple docstring'''
__lowerCAmelCase : str = tokenizer.get_vocab()
__lowerCAmelCase : List[str] = sorted(vocab.keys() )[:2]
# Pipeline argument
__lowerCAmelCase : Union[str, Any] = FillMaskPipeline(model=A_ , tokenizer=A_ , targets=A_ )
__lowerCAmelCase : str = fill_masker(f"""This is a {tokenizer.mask_token}""" )
self.assertEqual(
A_ , [
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
] , )
__lowerCAmelCase : Any = {vocab[el] for el in targets}
self.assertEqual({el['''token'''] for el in outputs} , A_ )
__lowerCAmelCase : Optional[int] = [tokenizer.decode([x] ) for x in target_ids]
self.assertEqual({el['''token_str'''] for el in outputs} , set(A_ ) )
# Call argument
__lowerCAmelCase : Dict = FillMaskPipeline(model=A_ , tokenizer=A_ )
__lowerCAmelCase : Optional[int] = fill_masker(f"""This is a {tokenizer.mask_token}""" , targets=A_ )
self.assertEqual(
A_ , [
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
] , )
__lowerCAmelCase : str = {vocab[el] for el in targets}
self.assertEqual({el['''token'''] for el in outputs} , A_ )
__lowerCAmelCase : Optional[Any] = [tokenizer.decode([x] ) for x in target_ids]
self.assertEqual({el['''token_str'''] for el in outputs} , set(A_ ) )
# Score equivalence
__lowerCAmelCase : str = fill_masker(f"""This is a {tokenizer.mask_token}""" , targets=A_ )
__lowerCAmelCase : Optional[Any] = [top_mask['''token_str'''] for top_mask in outputs]
__lowerCAmelCase : Optional[int] = [top_mask['''score'''] for top_mask in outputs]
# For some BPE tokenizers, `</w>` is removed during decoding, so `token_str` won't be the same as in `targets`.
if set(A_ ) == set(A_ ):
__lowerCAmelCase : Tuple = fill_masker(f"""This is a {tokenizer.mask_token}""" , targets=A_ )
__lowerCAmelCase : Tuple = [top_mask['''score'''] for top_mask in unmasked_targets]
self.assertEqual(nested_simplify(A_ ) , nested_simplify(A_ ) )
# Raises with invalid
with self.assertRaises(A_ ):
__lowerCAmelCase : Union[str, Any] = fill_masker(f"""This is a {tokenizer.mask_token}""" , targets=[] )
# For some tokenizers, `""` is actually in the vocabulary and the expected error won't raised
if "" not in tokenizer.get_vocab():
with self.assertRaises(A_ ):
__lowerCAmelCase : List[str] = fill_masker(f"""This is a {tokenizer.mask_token}""" , targets=[''''''] )
with self.assertRaises(A_ ):
__lowerCAmelCase : List[str] = fill_masker(f"""This is a {tokenizer.mask_token}""" , targets='''''' )
def UpperCamelCase__ ( self , A_ , A_ ) ->Optional[int]:
'''simple docstring'''
__lowerCAmelCase : List[Any] = FillMaskPipeline(model=A_ , tokenizer=A_ , top_k=2 )
__lowerCAmelCase : Optional[Any] = fill_masker(f"""This is a {tokenizer.mask_token}""" )
self.assertEqual(
A_ , [
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
] , )
__lowerCAmelCase : Tuple = FillMaskPipeline(model=A_ , tokenizer=A_ )
__lowerCAmelCase : Dict = fill_masker(f"""This is a {tokenizer.mask_token}""" , top_k=2 )
self.assertEqual(
A_ , [
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
] , )
self.assertEqual(nested_simplify(A_ ) , nested_simplify(A_ ) )
def UpperCamelCase__ ( self , A_ , A_ ) ->int:
'''simple docstring'''
__lowerCAmelCase : int = tokenizer.get_vocab()
__lowerCAmelCase : Union[str, Any] = FillMaskPipeline(model=A_ , tokenizer=A_ )
# top_k=2, ntargets=3
__lowerCAmelCase : List[Any] = sorted(vocab.keys() )[:3]
__lowerCAmelCase : Any = fill_masker(f"""This is a {tokenizer.mask_token}""" , top_k=2 , targets=A_ )
# If we use the most probably targets, and filter differently, we should still
# have the same results
__lowerCAmelCase : Optional[int] = [el['''token_str'''] for el in sorted(A_ , key=lambda A_ : x["score"] , reverse=A_ )]
# For some BPE tokenizers, `</w>` is removed during decoding, so `token_str` won't be the same as in `targets`.
if set(A_ ).issubset(A_ ):
__lowerCAmelCase : List[str] = fill_masker(f"""This is a {tokenizer.mask_token}""" , top_k=3 , targets=A_ )
# They should yield exactly the same result
self.assertEqual(nested_simplify(A_ ) , nested_simplify(A_ ) )
def UpperCamelCase__ ( self , A_ , A_ ) ->Optional[int]:
'''simple docstring'''
__lowerCAmelCase : Union[str, Any] = FillMaskPipeline(model=A_ , tokenizer=A_ )
__lowerCAmelCase : Any = tokenizer.get_vocab()
# String duplicates + id duplicates
__lowerCAmelCase : Optional[int] = sorted(vocab.keys() )[:3]
__lowerCAmelCase : str = [targets[0], targets[1], targets[0], targets[2], targets[1]]
__lowerCAmelCase : Union[str, Any] = fill_masker(f"""My name is {tokenizer.mask_token}""" , targets=A_ , top_k=10 )
# The target list contains duplicates, so we can't output more
# than them
self.assertEqual(len(A_ ) , 3 )
def UpperCamelCase__ ( self , A_ , A_ ) ->Optional[int]:
'''simple docstring'''
__lowerCAmelCase : Dict = FillMaskPipeline(model=A_ , tokenizer=A_ )
__lowerCAmelCase : Any = fill_masker(
f"""This is a {tokenizer.mask_token} {tokenizer.mask_token} {tokenizer.mask_token}""" , top_k=2 )
self.assertEqual(
A_ , [
[
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
],
[
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
],
[
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
{'''sequence''': ANY(A_ ), '''score''': ANY(A_ ), '''token''': ANY(A_ ), '''token_str''': ANY(A_ )},
],
] , )
| 275 |
'''simple docstring'''
import importlib
import json
import os
from collections import OrderedDict
from typing import Dict, Optional, Union
# Build the list of all feature extractors
from ...configuration_utils import PretrainedConfig
from ...dynamic_module_utils import get_class_from_dynamic_module, resolve_trust_remote_code
from ...feature_extraction_utils import FeatureExtractionMixin
from ...utils import CONFIG_NAME, FEATURE_EXTRACTOR_NAME, get_file_from_repo, logging
from .auto_factory import _LazyAutoMapping
from .configuration_auto import (
CONFIG_MAPPING_NAMES,
AutoConfig,
model_type_to_module_name,
replace_list_option_in_docstrings,
)
a_ : List[Any] = logging.get_logger(__name__)
a_ : Tuple = OrderedDict(
[
("""audio-spectrogram-transformer""", """ASTFeatureExtractor"""),
("""beit""", """BeitFeatureExtractor"""),
("""chinese_clip""", """ChineseCLIPFeatureExtractor"""),
("""clap""", """ClapFeatureExtractor"""),
("""clip""", """CLIPFeatureExtractor"""),
("""clipseg""", """ViTFeatureExtractor"""),
("""conditional_detr""", """ConditionalDetrFeatureExtractor"""),
("""convnext""", """ConvNextFeatureExtractor"""),
("""cvt""", """ConvNextFeatureExtractor"""),
("""data2vec-audio""", """Wav2Vec2FeatureExtractor"""),
("""data2vec-vision""", """BeitFeatureExtractor"""),
("""deformable_detr""", """DeformableDetrFeatureExtractor"""),
("""deit""", """DeiTFeatureExtractor"""),
("""detr""", """DetrFeatureExtractor"""),
("""dinat""", """ViTFeatureExtractor"""),
("""donut-swin""", """DonutFeatureExtractor"""),
("""dpt""", """DPTFeatureExtractor"""),
("""encodec""", """EncodecFeatureExtractor"""),
("""flava""", """FlavaFeatureExtractor"""),
("""glpn""", """GLPNFeatureExtractor"""),
("""groupvit""", """CLIPFeatureExtractor"""),
("""hubert""", """Wav2Vec2FeatureExtractor"""),
("""imagegpt""", """ImageGPTFeatureExtractor"""),
("""layoutlmv2""", """LayoutLMv2FeatureExtractor"""),
("""layoutlmv3""", """LayoutLMv3FeatureExtractor"""),
("""levit""", """LevitFeatureExtractor"""),
("""maskformer""", """MaskFormerFeatureExtractor"""),
("""mctct""", """MCTCTFeatureExtractor"""),
("""mobilenet_v1""", """MobileNetV1FeatureExtractor"""),
("""mobilenet_v2""", """MobileNetV2FeatureExtractor"""),
("""mobilevit""", """MobileViTFeatureExtractor"""),
("""nat""", """ViTFeatureExtractor"""),
("""owlvit""", """OwlViTFeatureExtractor"""),
("""perceiver""", """PerceiverFeatureExtractor"""),
("""poolformer""", """PoolFormerFeatureExtractor"""),
("""regnet""", """ConvNextFeatureExtractor"""),
("""resnet""", """ConvNextFeatureExtractor"""),
("""segformer""", """SegformerFeatureExtractor"""),
("""sew""", """Wav2Vec2FeatureExtractor"""),
("""sew-d""", """Wav2Vec2FeatureExtractor"""),
("""speech_to_text""", """Speech2TextFeatureExtractor"""),
("""speecht5""", """SpeechT5FeatureExtractor"""),
("""swiftformer""", """ViTFeatureExtractor"""),
("""swin""", """ViTFeatureExtractor"""),
("""swinv2""", """ViTFeatureExtractor"""),
("""table-transformer""", """DetrFeatureExtractor"""),
("""timesformer""", """VideoMAEFeatureExtractor"""),
("""tvlt""", """TvltFeatureExtractor"""),
("""unispeech""", """Wav2Vec2FeatureExtractor"""),
("""unispeech-sat""", """Wav2Vec2FeatureExtractor"""),
("""van""", """ConvNextFeatureExtractor"""),
("""videomae""", """VideoMAEFeatureExtractor"""),
("""vilt""", """ViltFeatureExtractor"""),
("""vit""", """ViTFeatureExtractor"""),
("""vit_mae""", """ViTFeatureExtractor"""),
("""vit_msn""", """ViTFeatureExtractor"""),
("""wav2vec2""", """Wav2Vec2FeatureExtractor"""),
("""wav2vec2-conformer""", """Wav2Vec2FeatureExtractor"""),
("""wavlm""", """Wav2Vec2FeatureExtractor"""),
("""whisper""", """WhisperFeatureExtractor"""),
("""xclip""", """CLIPFeatureExtractor"""),
("""yolos""", """YolosFeatureExtractor"""),
]
)
a_ : Optional[Any] = _LazyAutoMapping(CONFIG_MAPPING_NAMES, FEATURE_EXTRACTOR_MAPPING_NAMES)
def a_ ( __snake_case : str ) -> Any:
"""simple docstring"""
for module_name, extractors in FEATURE_EXTRACTOR_MAPPING_NAMES.items():
if class_name in extractors:
lowerCamelCase_ =model_type_to_module_name(__snake_case )
lowerCamelCase_ =importlib.import_module(F'''.{module_name}''' , '''transformers.models''' )
try:
return getattr(__snake_case , __snake_case )
except AttributeError:
continue
for _, extractor in FEATURE_EXTRACTOR_MAPPING._extra_content.items():
if getattr(__snake_case , '''__name__''' , __snake_case ) == class_name:
return extractor
# We did not fine the class, but maybe it's because a dep is missing. In that case, the class will be in the main
# init and we return the proper dummy to get an appropriate error message.
lowerCamelCase_ =importlib.import_module('''transformers''' )
if hasattr(__snake_case , __snake_case ):
return getattr(__snake_case , __snake_case )
return None
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , **__snake_case : Union[str, Any] , ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ =get_file_from_repo(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
if resolved_config_file is None:
logger.info(
'''Could not locate the feature extractor configuration file, will try to use the model config instead.''' )
return {}
with open(__snake_case , encoding='''utf-8''' ) as reader:
return json.load(__snake_case )
class __UpperCamelCase :
def __init__( self ):
"""simple docstring"""
raise EnvironmentError(
'''AutoFeatureExtractor is designed to be instantiated '''
'''using the `AutoFeatureExtractor.from_pretrained(pretrained_model_name_or_path)` method.''' )
@classmethod
@replace_list_option_in_docstrings(lowerCAmelCase )
def lowercase__ ( cls, lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =kwargs.pop('''config''', lowerCAmelCase )
lowerCamelCase_ =kwargs.pop('''trust_remote_code''', lowerCAmelCase )
lowerCamelCase_ =True
lowerCamelCase_, lowerCamelCase_ =FeatureExtractionMixin.get_feature_extractor_dict(lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ =config_dict.get('''feature_extractor_type''', lowerCAmelCase )
lowerCamelCase_ =None
if "AutoFeatureExtractor" in config_dict.get('''auto_map''', {} ):
lowerCamelCase_ =config_dict['''auto_map''']['''AutoFeatureExtractor''']
# If we don't find the feature extractor class in the feature extractor config, let's try the model config.
if feature_extractor_class is None and feature_extractor_auto_map is None:
if not isinstance(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =AutoConfig.from_pretrained(lowerCAmelCase, **lowerCAmelCase )
# It could be in `config.feature_extractor_type``
lowerCamelCase_ =getattr(lowerCAmelCase, '''feature_extractor_type''', lowerCAmelCase )
if hasattr(lowerCAmelCase, '''auto_map''' ) and "AutoFeatureExtractor" in config.auto_map:
lowerCamelCase_ =config.auto_map['''AutoFeatureExtractor''']
if feature_extractor_class is not None:
lowerCamelCase_ =feature_extractor_class_from_name(lowerCAmelCase )
lowerCamelCase_ =feature_extractor_auto_map is not None
lowerCamelCase_ =feature_extractor_class is not None or type(lowerCAmelCase ) in FEATURE_EXTRACTOR_MAPPING
lowerCamelCase_ =resolve_trust_remote_code(
lowerCAmelCase, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase )
if has_remote_code and trust_remote_code:
lowerCamelCase_ =get_class_from_dynamic_module(
lowerCAmelCase, lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ =kwargs.pop('''code_revision''', lowerCAmelCase )
if os.path.isdir(lowerCAmelCase ):
feature_extractor_class.register_for_auto_class()
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
elif feature_extractor_class is not None:
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
# Last try: we use the FEATURE_EXTRACTOR_MAPPING.
elif type(lowerCAmelCase ) in FEATURE_EXTRACTOR_MAPPING:
lowerCamelCase_ =FEATURE_EXTRACTOR_MAPPING[type(lowerCAmelCase )]
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
raise ValueError(
f'''Unrecognized feature extractor in {pretrained_model_name_or_path}. Should have a '''
f'''`feature_extractor_type` key in its {FEATURE_EXTRACTOR_NAME} of {CONFIG_NAME}, or one of the following '''
f'''`model_type` keys in its {CONFIG_NAME}: {', '.join(c for c in FEATURE_EXTRACTOR_MAPPING_NAMES.keys() )}''' )
@staticmethod
def lowercase__ ( lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
FEATURE_EXTRACTOR_MAPPING.register(lowerCAmelCase, lowerCAmelCase )
| 75 | 0 |
import copy
import os
import cva
import numpy as np
from matplotlib import pyplot as plt
class lowercase__ :
def __init__( self )-> int:
'''simple docstring'''
lowerCAmelCase__ = ""
lowerCAmelCase__ = ""
lowerCAmelCase__ = []
lowerCAmelCase__ = 0
lowerCAmelCase__ = 256
lowerCAmelCase__ = 0
lowerCAmelCase__ = 0
lowerCAmelCase__ = 0
lowerCAmelCase__ = 0
def UpperCAmelCase ( self , __UpperCAmelCase )-> Optional[int]:
'''simple docstring'''
lowerCAmelCase__ = cva.imread(__UpperCAmelCase , 0 )
lowerCAmelCase__ = copy.deepcopy(self.img )
lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ = plt.hist(self.img.ravel() , 256 , [0, 256] , label="x" )
lowerCAmelCase__ = np.sum(__UpperCAmelCase )
for i in range(len(__UpperCAmelCase ) ):
lowerCAmelCase__ = x[i] / self.k
self.sk += prk
lowerCAmelCase__ = (self.L - 1) * self.sk
if self.rem != 0:
lowerCAmelCase__ = int(last % last )
lowerCAmelCase__ = int(last + 1 if self.rem >= 0.5 else last )
self.last_list.append(__UpperCAmelCase )
lowerCAmelCase__ = int(np.ma.count(self.img ) / self.img[1].size )
lowerCAmelCase__ = self.img[1].size
for i in range(self.number_of_cols ):
for j in range(self.number_of_rows ):
lowerCAmelCase__ = self.img[j][i]
if num != self.last_list[num]:
lowerCAmelCase__ = self.last_list[num]
cva.imwrite("output_data/output.jpg" , self.img )
def UpperCAmelCase ( self )-> int:
'''simple docstring'''
plt.hist(self.img.ravel() , 256 , [0, 256] )
def UpperCAmelCase ( self )-> Tuple:
'''simple docstring'''
cva.imshow("Output-Image" , self.img )
cva.imshow("Input-Image" , self.original_image )
cva.waitKey(5000 )
cva.destroyAllWindows()
if __name__ == "__main__":
a_ = os.path.join(os.path.basename(__file__), '''image_data/input.jpg''')
a_ = ConstantStretch()
stretcher.stretch(file_path)
stretcher.plot_histogram()
stretcher.show_image()
| 340 |
'''simple docstring'''
import argparse
import csv
import logging
import os
import random
import numpy as np
import torch
from torch.utils.data import DataLoader, RandomSampler, SequentialSampler, TensorDataset
from tqdm import tqdm, trange
from transformers import (
CONFIG_NAME,
WEIGHTS_NAME,
AdamW,
OpenAIGPTDoubleHeadsModel,
OpenAIGPTTokenizer,
get_linear_schedule_with_warmup,
)
logging.basicConfig(
format="""%(asctime)s - %(levelname)s - %(name)s - %(message)s""", datefmt="""%m/%d/%Y %H:%M:%S""", level=logging.INFO
)
a_ : Optional[int] = logging.getLogger(__name__)
def a_ ( __snake_case : Union[str, Any] , __snake_case : Union[str, Any] ) -> str:
"""simple docstring"""
lowerCamelCase_ =np.argmax(__snake_case , axis=1 )
return np.sum(outputs == labels )
def a_ ( __snake_case : List[Any] ) -> Tuple:
"""simple docstring"""
with open(__snake_case , encoding='''utf_8''' ) as f:
lowerCamelCase_ =csv.reader(__snake_case )
lowerCamelCase_ =[]
next(__snake_case ) # skip the first line
for line in tqdm(__snake_case ):
output.append((''' '''.join(line[1:5] ), line[5], line[6], int(line[-1] ) - 1) )
return output
def a_ ( __snake_case : str , __snake_case : Dict , __snake_case : List[str] , __snake_case : List[str] , __snake_case : List[Any] , __snake_case : Dict ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =[]
for dataset in encoded_datasets:
lowerCamelCase_ =len(__snake_case )
lowerCamelCase_ =np.zeros((n_batch, 2, input_len) , dtype=np.intaa )
lowerCamelCase_ =np.zeros((n_batch, 2) , dtype=np.intaa )
lowerCamelCase_ =np.full((n_batch, 2, input_len) , fill_value=-100 , dtype=np.intaa )
lowerCamelCase_ =np.zeros((n_batch,) , dtype=np.intaa )
for (
i,
(story, conta, conta, mc_label),
) in enumerate(__snake_case ):
lowerCamelCase_ =[start_token] + story[:cap_length] + [delimiter_token] + conta[:cap_length] + [clf_token]
lowerCamelCase_ =[start_token] + story[:cap_length] + [delimiter_token] + conta[:cap_length] + [clf_token]
lowerCamelCase_ =with_conta
lowerCamelCase_ =with_conta
lowerCamelCase_ =len(__snake_case ) - 1
lowerCamelCase_ =len(__snake_case ) - 1
lowerCamelCase_ =with_conta
lowerCamelCase_ =with_conta
lowerCamelCase_ =mc_label
lowerCamelCase_ =(input_ids, mc_token_ids, lm_labels, mc_labels)
tensor_datasets.append(tuple(torch.tensor(__snake_case ) for t in all_inputs ) )
return tensor_datasets
def a_ ( ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =argparse.ArgumentParser()
parser.add_argument('''--model_name''' , type=__snake_case , default='''openai-gpt''' , help='''pretrained model name''' )
parser.add_argument('''--do_train''' , action='''store_true''' , help='''Whether to run training.''' )
parser.add_argument('''--do_eval''' , action='''store_true''' , help='''Whether to run eval on the dev set.''' )
parser.add_argument(
'''--output_dir''' , default=__snake_case , type=__snake_case , required=__snake_case , help='''The output directory where the model predictions and checkpoints will be written.''' , )
parser.add_argument('''--train_dataset''' , type=__snake_case , default='''''' )
parser.add_argument('''--eval_dataset''' , type=__snake_case , default='''''' )
parser.add_argument('''--seed''' , type=__snake_case , default=42 )
parser.add_argument('''--num_train_epochs''' , type=__snake_case , default=3 )
parser.add_argument('''--train_batch_size''' , type=__snake_case , default=8 )
parser.add_argument('''--eval_batch_size''' , type=__snake_case , default=16 )
parser.add_argument('''--adam_epsilon''' , default=1e-8 , type=__snake_case , help='''Epsilon for Adam optimizer.''' )
parser.add_argument('''--max_grad_norm''' , type=__snake_case , default=1 )
parser.add_argument(
'''--max_steps''' , default=-1 , type=__snake_case , help=(
'''If > 0: set total number of training steps to perform. Override num_train_epochs.'''
) , )
parser.add_argument(
'''--gradient_accumulation_steps''' , type=__snake_case , default=1 , help='''Number of updates steps to accumulate before performing a backward/update pass.''' , )
parser.add_argument('''--learning_rate''' , type=__snake_case , default=6.25e-5 )
parser.add_argument('''--warmup_steps''' , default=0 , type=__snake_case , help='''Linear warmup over warmup_steps.''' )
parser.add_argument('''--lr_schedule''' , type=__snake_case , default='''warmup_linear''' )
parser.add_argument('''--weight_decay''' , type=__snake_case , default=0.0_1 )
parser.add_argument('''--lm_coef''' , type=__snake_case , default=0.9 )
parser.add_argument('''--n_valid''' , type=__snake_case , default=374 )
parser.add_argument('''--server_ip''' , type=__snake_case , default='''''' , help='''Can be used for distant debugging.''' )
parser.add_argument('''--server_port''' , type=__snake_case , default='''''' , help='''Can be used for distant debugging.''' )
lowerCamelCase_ =parser.parse_args()
print(__snake_case )
if args.server_ip and args.server_port:
# Distant debugging - see https://code.visualstudio.com/docs/python/debugging#_attach-to-a-local-script
import ptvsd
print('''Waiting for debugger attach''' )
ptvsd.enable_attach(address=(args.server_ip, args.server_port) , redirect_output=__snake_case )
ptvsd.wait_for_attach()
random.seed(args.seed )
np.random.seed(args.seed )
torch.manual_seed(args.seed )
torch.cuda.manual_seed_all(args.seed )
lowerCamelCase_ =torch.device('''cuda''' if torch.cuda.is_available() else '''cpu''' )
lowerCamelCase_ =torch.cuda.device_count()
logger.info('''device: {}, n_gpu {}'''.format(__snake_case , __snake_case ) )
if not args.do_train and not args.do_eval:
raise ValueError('''At least one of `do_train` or `do_eval` must be True.''' )
if not os.path.exists(args.output_dir ):
os.makedirs(args.output_dir )
# Load tokenizer and model
# This loading functions also add new tokens and embeddings called `special tokens`
# These new embeddings will be fine-tuned on the RocStories dataset
lowerCamelCase_ =['''_start_''', '''_delimiter_''', '''_classify_''']
lowerCamelCase_ =OpenAIGPTTokenizer.from_pretrained(args.model_name )
tokenizer.add_tokens(__snake_case )
lowerCamelCase_ =tokenizer.convert_tokens_to_ids(__snake_case )
lowerCamelCase_ =OpenAIGPTDoubleHeadsModel.from_pretrained(args.model_name )
model.resize_token_embeddings(len(__snake_case ) )
model.to(__snake_case )
# Load and encode the datasets
def tokenize_and_encode(__snake_case : Union[str, Any] ):
if isinstance(__snake_case , __snake_case ):
return tokenizer.convert_tokens_to_ids(tokenizer.tokenize(__snake_case ) )
elif isinstance(__snake_case , __snake_case ):
return obj
return [tokenize_and_encode(__snake_case ) for o in obj]
logger.info('''Encoding dataset...''' )
lowerCamelCase_ =load_rocstories_dataset(args.train_dataset )
lowerCamelCase_ =load_rocstories_dataset(args.eval_dataset )
lowerCamelCase_ =(train_dataset, eval_dataset)
lowerCamelCase_ =tokenize_and_encode(__snake_case )
# Compute the max input length for the Transformer
lowerCamelCase_ =model.config.n_positions // 2 - 2
lowerCamelCase_ =max(
len(story[:max_length] ) + max(len(conta[:max_length] ) , len(conta[:max_length] ) ) + 3
for dataset in encoded_datasets
for story, conta, conta, _ in dataset )
lowerCamelCase_ =min(__snake_case , model.config.n_positions ) # Max size of input for the pre-trained model
# Prepare inputs tensors and dataloaders
lowerCamelCase_ =pre_process_datasets(__snake_case , __snake_case , __snake_case , *__snake_case )
lowerCamelCase_, lowerCamelCase_ =tensor_datasets[0], tensor_datasets[1]
lowerCamelCase_ =TensorDataset(*__snake_case )
lowerCamelCase_ =RandomSampler(__snake_case )
lowerCamelCase_ =DataLoader(__snake_case , sampler=__snake_case , batch_size=args.train_batch_size )
lowerCamelCase_ =TensorDataset(*__snake_case )
lowerCamelCase_ =SequentialSampler(__snake_case )
lowerCamelCase_ =DataLoader(__snake_case , sampler=__snake_case , batch_size=args.eval_batch_size )
# Prepare optimizer
if args.do_train:
if args.max_steps > 0:
lowerCamelCase_ =args.max_steps
lowerCamelCase_ =args.max_steps // (len(__snake_case ) // args.gradient_accumulation_steps) + 1
else:
lowerCamelCase_ =len(__snake_case ) // args.gradient_accumulation_steps * args.num_train_epochs
lowerCamelCase_ =list(model.named_parameters() )
lowerCamelCase_ =['''bias''', '''LayerNorm.bias''', '''LayerNorm.weight''']
lowerCamelCase_ =[
{
'''params''': [p for n, p in param_optimizer if not any(nd in n for nd in no_decay )],
'''weight_decay''': args.weight_decay,
},
{'''params''': [p for n, p in param_optimizer if any(nd in n for nd in no_decay )], '''weight_decay''': 0.0},
]
lowerCamelCase_ =AdamW(__snake_case , lr=args.learning_rate , eps=args.adam_epsilon )
lowerCamelCase_ =get_linear_schedule_with_warmup(
__snake_case , num_warmup_steps=args.warmup_steps , num_training_steps=__snake_case )
if args.do_train:
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =0, 0, None
model.train()
for _ in trange(int(args.num_train_epochs ) , desc='''Epoch''' ):
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =tqdm(__snake_case , desc='''Training''' )
for step, batch in enumerate(__snake_case ):
lowerCamelCase_ =tuple(t.to(__snake_case ) for t in batch )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =batch
lowerCamelCase_ =model(__snake_case , mc_token_ids=__snake_case , lm_labels=__snake_case , mc_labels=__snake_case )
lowerCamelCase_ =args.lm_coef * losses[0] + losses[1]
loss.backward()
optimizer.step()
scheduler.step()
optimizer.zero_grad()
tr_loss += loss.item()
lowerCamelCase_ =(
loss.item() if exp_average_loss is None else 0.7 * exp_average_loss + 0.3 * loss.item()
)
nb_tr_steps += 1
lowerCamelCase_ ='''Training loss: {:.2e} lr: {:.2e}'''.format(__snake_case , scheduler.get_lr()[0] )
# Save a trained model
if args.do_train:
# Save a trained model, configuration and tokenizer
lowerCamelCase_ =model.module if hasattr(__snake_case , '''module''' ) else model # Only save the model itself
# If we save using the predefined names, we can load using `from_pretrained`
lowerCamelCase_ =os.path.join(args.output_dir , __snake_case )
lowerCamelCase_ =os.path.join(args.output_dir , __snake_case )
torch.save(model_to_save.state_dict() , __snake_case )
model_to_save.config.to_json_file(__snake_case )
tokenizer.save_vocabulary(args.output_dir )
# Load a trained model and vocabulary that you have fine-tuned
lowerCamelCase_ =OpenAIGPTDoubleHeadsModel.from_pretrained(args.output_dir )
lowerCamelCase_ =OpenAIGPTTokenizer.from_pretrained(args.output_dir )
model.to(__snake_case )
if args.do_eval:
model.eval()
lowerCamelCase_, lowerCamelCase_ =0, 0
lowerCamelCase_, lowerCamelCase_ =0, 0
for batch in tqdm(__snake_case , desc='''Evaluating''' ):
lowerCamelCase_ =tuple(t.to(__snake_case ) for t in batch )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =batch
with torch.no_grad():
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =model(
__snake_case , mc_token_ids=__snake_case , lm_labels=__snake_case , mc_labels=__snake_case )
lowerCamelCase_ =mc_logits.detach().cpu().numpy()
lowerCamelCase_ =mc_labels.to('''cpu''' ).numpy()
lowerCamelCase_ =accuracy(__snake_case , __snake_case )
eval_loss += mc_loss.mean().item()
eval_accuracy += tmp_eval_accuracy
nb_eval_examples += input_ids.size(0 )
nb_eval_steps += 1
lowerCamelCase_ =eval_loss / nb_eval_steps
lowerCamelCase_ =eval_accuracy / nb_eval_examples
lowerCamelCase_ =tr_loss / nb_tr_steps if args.do_train else None
lowerCamelCase_ ={'''eval_loss''': eval_loss, '''eval_accuracy''': eval_accuracy, '''train_loss''': train_loss}
lowerCamelCase_ =os.path.join(args.output_dir , '''eval_results.txt''' )
with open(__snake_case , '''w''' ) as writer:
logger.info('''***** Eval results *****''' )
for key in sorted(result.keys() ):
logger.info(''' %s = %s''' , __snake_case , str(result[key] ) )
writer.write('''%s = %s\n''' % (key, str(result[key] )) )
if __name__ == "__main__":
main()
| 75 | 0 |
'''simple docstring'''
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available, is_vision_available
A__ : Optional[Any] ={"""configuration_yolos""": ["""YOLOS_PRETRAINED_CONFIG_ARCHIVE_MAP""", """YolosConfig""", """YolosOnnxConfig"""]}
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
A__ : int =["""YolosFeatureExtractor"""]
A__ : Optional[int] =["""YolosImageProcessor"""]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
A__ : List[Any] =[
"""YOLOS_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""YolosForObjectDetection""",
"""YolosModel""",
"""YolosPreTrainedModel""",
]
if TYPE_CHECKING:
from .configuration_yolos import YOLOS_PRETRAINED_CONFIG_ARCHIVE_MAP, YolosConfig, YolosOnnxConfig
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .feature_extraction_yolos import YolosFeatureExtractor
from .image_processing_yolos import YolosImageProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_yolos import (
YOLOS_PRETRAINED_MODEL_ARCHIVE_LIST,
YolosForObjectDetection,
YolosModel,
YolosPreTrainedModel,
)
else:
import sys
A__ : Tuple =_LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 70 |
'''simple docstring'''
import copy
import os
import cva
import numpy as np
from matplotlib import pyplot as plt
class __UpperCamelCase :
def __init__( self ):
"""simple docstring"""
lowerCamelCase_ =''''''
lowerCamelCase_ =''''''
lowerCamelCase_ =[]
lowerCamelCase_ =0
lowerCamelCase_ =256
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =0
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =cva.imread(lowerCAmelCase, 0 )
lowerCamelCase_ =copy.deepcopy(self.img )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =plt.hist(self.img.ravel(), 256, [0, 256], label='''x''' )
lowerCamelCase_ =np.sum(lowerCAmelCase )
for i in range(len(lowerCAmelCase ) ):
lowerCamelCase_ =x[i] / self.k
self.sk += prk
lowerCamelCase_ =(self.L - 1) * self.sk
if self.rem != 0:
lowerCamelCase_ =int(last % last )
lowerCamelCase_ =int(last + 1 if self.rem >= 0.5 else last )
self.last_list.append(lowerCAmelCase )
lowerCamelCase_ =int(np.ma.count(self.img ) / self.img[1].size )
lowerCamelCase_ =self.img[1].size
for i in range(self.number_of_cols ):
for j in range(self.number_of_rows ):
lowerCamelCase_ =self.img[j][i]
if num != self.last_list[num]:
lowerCamelCase_ =self.last_list[num]
cva.imwrite('''output_data/output.jpg''', self.img )
def lowercase__ ( self ):
"""simple docstring"""
plt.hist(self.img.ravel(), 256, [0, 256] )
def lowercase__ ( self ):
"""simple docstring"""
cva.imshow('''Output-Image''', self.img )
cva.imshow('''Input-Image''', self.original_image )
cva.waitKey(5_000 )
cva.destroyAllWindows()
if __name__ == "__main__":
a_ : str = os.path.join(os.path.basename(__file__), """image_data/input.jpg""")
a_ : Optional[Any] = ConstantStretch()
stretcher.stretch(file_path)
stretcher.plot_histogram()
stretcher.show_image()
| 75 | 0 |
"""simple docstring"""
from abc import ABC, abstractmethod
from typing import Optional, Union
from .. import Dataset, DatasetDict, Features, IterableDataset, IterableDatasetDict, NamedSplit
from ..utils.typing import NestedDataStructureLike, PathLike
class __magic_name__ ( lowerCamelCase__ ):
'''simple docstring'''
def __init__( self , _a = None , _a = None , _a = None , _a = None , _a = False , _a = False , _a = None , **_a , ):
"""simple docstring"""
lowerCamelCase = path_or_paths
lowerCamelCase = split if split or isinstance(_a , _a ) else """train"""
lowerCamelCase = features
lowerCamelCase = cache_dir
lowerCamelCase = keep_in_memory
lowerCamelCase = streaming
lowerCamelCase = num_proc
lowerCamelCase = kwargs
@abstractmethod
def _lowerCAmelCase ( self ):
"""simple docstring"""
pass
class __magic_name__ ( lowerCamelCase__ ):
'''simple docstring'''
def __init__( self , _a = None , _a = None , _a = False , _a = False , _a = None , **_a , ):
"""simple docstring"""
lowerCamelCase = features
lowerCamelCase = cache_dir
lowerCamelCase = keep_in_memory
lowerCamelCase = streaming
lowerCamelCase = num_proc
lowerCamelCase = kwargs
@abstractmethod
def _lowerCAmelCase ( self ):
"""simple docstring"""
pass
| 291 |
'''simple docstring'''
from collections import UserDict
from typing import Union
import numpy as np
import requests
from ..utils import (
add_end_docstrings,
logging,
)
from .audio_classification import ffmpeg_read
from .base import PIPELINE_INIT_ARGS, Pipeline
a_ : Any = logging.get_logger(__name__)
@add_end_docstrings(lowerCamelCase__ )
class __UpperCamelCase ( lowerCamelCase__ ):
def __init__( self, **lowerCAmelCase ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
if self.framework != "pt":
raise ValueError(f'''The {self.__class__} is only available in PyTorch.''' )
# No specific FOR_XXX available yet
def __call__( self, lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
return super().__call__(lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ ={}
if "candidate_labels" in kwargs:
lowerCamelCase_ =kwargs['''candidate_labels''']
if "hypothesis_template" in kwargs:
lowerCamelCase_ =kwargs['''hypothesis_template''']
return preprocess_params, {}, {}
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase=None, lowerCAmelCase="This is a sound of {}." ):
"""simple docstring"""
if isinstance(lowerCAmelCase, lowerCAmelCase ):
if audio.startswith('''http://''' ) or audio.startswith('''https://''' ):
# We need to actually check for a real protocol, otherwise it's impossible to use a local file
# like http_huggingface_co.png
lowerCamelCase_ =requests.get(lowerCAmelCase ).content
else:
with open(lowerCAmelCase, '''rb''' ) as f:
lowerCamelCase_ =f.read()
if isinstance(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =ffmpeg_read(lowerCAmelCase, self.feature_extractor.sampling_rate )
if not isinstance(lowerCAmelCase, np.ndarray ):
raise ValueError('''We expect a numpy ndarray as input''' )
if len(audio.shape ) != 1:
raise ValueError('''We expect a single channel audio input for ZeroShotAudioClassificationPipeline''' )
lowerCamelCase_ =self.feature_extractor(
[audio], sampling_rate=self.feature_extractor.sampling_rate, return_tensors='''pt''' )
lowerCamelCase_ =candidate_labels
lowerCamelCase_ =[hypothesis_template.format(lowerCAmelCase ) for x in candidate_labels]
lowerCamelCase_ =self.tokenizer(lowerCAmelCase, return_tensors=self.framework, padding=lowerCAmelCase )
lowerCamelCase_ =[text_inputs]
return inputs
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =model_inputs.pop('''candidate_labels''' )
lowerCamelCase_ =model_inputs.pop('''text_inputs''' )
if isinstance(text_inputs[0], lowerCAmelCase ):
lowerCamelCase_ =text_inputs[0]
else:
# Batching case.
lowerCamelCase_ =text_inputs[0][0]
lowerCamelCase_ =self.model(**lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ ={
'''candidate_labels''': candidate_labels,
'''logits''': outputs.logits_per_audio,
}
return model_outputs
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =model_outputs.pop('''candidate_labels''' )
lowerCamelCase_ =model_outputs['''logits'''][0]
if self.framework == "pt":
lowerCamelCase_ =logits.softmax(dim=0 )
lowerCamelCase_ =probs.tolist()
else:
raise ValueError('''`tf` framework not supported.''' )
lowerCamelCase_ =[
{'''score''': score, '''label''': candidate_label}
for score, candidate_label in sorted(zip(lowerCAmelCase, lowerCAmelCase ), key=lambda lowerCAmelCase : -x[0] )
]
return result
| 75 | 0 |
"""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__)
| 150 |
'''simple docstring'''
import unittest
from pathlib import Path
from shutil import copyfile
from transformers import SPIECE_UNDERLINE, is_sentencepiece_available
from transformers.models.speech_to_text import SpeechaTextTokenizer
from transformers.models.speech_to_text.tokenization_speech_to_text import VOCAB_FILES_NAMES, save_json
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
a_ : str = get_tests_dir("""fixtures/test_sentencepiece.model""")
if is_sentencepiece_available():
import sentencepiece as sp
a_ : Optional[Any] = 5
a_ : str = 10
@require_sentencepiece
@require_tokenizers
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : int =SpeechaTextTokenizer
lowercase : int =False
lowercase : List[str] =True
def lowercase__ ( self ):
"""simple docstring"""
super().setUp()
lowerCamelCase_ =sp.SentencePieceProcessor()
spm_model.Load(lowerCAmelCase )
lowerCamelCase_ =['''<s>''', '''<pad>''', '''</s>''', '''<unk>''']
vocab += [spm_model.IdToPiece(id_ ) for id_ in range(len(lowerCAmelCase ) )]
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ =Path(self.tmpdirname )
save_json(lowerCAmelCase, save_dir / VOCAB_FILES_NAMES['''vocab_file'''] )
if not (save_dir / VOCAB_FILES_NAMES["spm_file"]).exists():
copyfile(lowerCAmelCase, save_dir / VOCAB_FILES_NAMES['''spm_file'''] )
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(self.tmpdirname )
tokenizer.save_pretrained(self.tmpdirname )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''<pad>'''
lowerCamelCase_ =1
self.assertEqual(self.get_tokenizer()._convert_token_to_id(lowerCAmelCase ), lowerCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(lowerCAmelCase ), lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0], '''<s>''' )
self.assertEqual(vocab_keys[1], '''<pad>''' )
self.assertEqual(vocab_keys[-1], '''j''' )
self.assertEqual(len(lowerCAmelCase ), 1_001 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size, 1_001 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(self.tmpdirname )
lowerCamelCase_ =tokenizer.tokenize('''This is a test''' )
self.assertListEqual(lowerCAmelCase, ['''▁This''', '''▁is''', '''▁a''', '''▁t''', '''est'''] )
self.assertListEqual(
tokenizer.convert_tokens_to_ids(lowerCAmelCase ), [289, 50, 14, 174, 386], )
lowerCamelCase_ =tokenizer.tokenize('''I was born in 92000, and this is falsé.''' )
self.assertListEqual(
lowerCAmelCase, [SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''9''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''é''', '''.'''], )
lowerCamelCase_ =tokenizer.convert_tokens_to_ids(lowerCAmelCase )
self.assertListEqual(lowerCAmelCase, [12, 25, 88, 59, 28, 23, 11, 4, 606, 351, 351, 351, 7, 16, 70, 50, 76, 84, 10, 4, 8] )
lowerCamelCase_ =tokenizer.convert_ids_to_tokens(lowerCAmelCase )
self.assertListEqual(
lowerCAmelCase, [SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''<unk>''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''<unk>''', '''.'''], )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ={'''input_ids''': [[3_791, 797, 31, 11, 64, 797, 31, 2_429, 433, 12, 1_176, 12, 20, 786, 915, 142, 2_413, 240, 37, 3_238, 797, 31, 11, 35, 93, 915, 142, 2_413, 240, 37, 5_540, 567, 1_276, 93, 37, 610, 40, 62, 455, 657, 1_042, 123, 780, 177, 37, 309, 241, 1_298, 514, 20, 292, 2_737, 114, 2_469, 241, 85, 64, 302, 548, 528, 423, 4, 509, 406, 423, 37, 601, 4, 777, 302, 548, 528, 423, 284, 4, 3_388, 511, 459, 4, 3_555, 40, 321, 302, 705, 4, 3_388, 511, 583, 326, 5, 5, 5, 62, 3_310, 560, 177, 2_680, 217, 1_508, 32, 31, 853, 418, 64, 583, 511, 1_605, 62, 35, 93, 560, 177, 2_680, 217, 1_508, 1_521, 64, 583, 511, 519, 62, 20, 1_515, 764, 20, 149, 261, 5_625, 7_972, 20, 5_540, 567, 1_276, 93, 3_925, 1_675, 11, 15, 802, 7_972, 576, 217, 1_508, 11, 35, 93, 1_253, 2_441, 15, 289, 652, 31, 416, 321, 3_842, 115, 40, 911, 8, 476, 619, 4, 380, 142, 423, 335, 240, 35, 93, 264, 8, 11, 335, 569, 420, 163, 5, 2], [260, 548, 528, 423, 20, 451, 20, 2_681, 1_153, 3_434, 20, 5_540, 37, 567, 126, 1_253, 2_441, 3_376, 449, 210, 431, 1_563, 177, 767, 5_540, 11, 1_203, 472, 11, 2_953, 685, 285, 364, 706, 1_153, 20, 6_799, 20, 2_869, 20, 4_464, 126, 40, 2_429, 20, 1_040, 866, 2_664, 418, 20, 318, 20, 1_726, 186, 20, 265, 522, 35, 93, 2_191, 4_634, 20, 1_040, 12, 6_799, 15, 228, 2_356, 142, 31, 11, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [2_575, 2_666, 684, 1_582, 1_176, 12, 627, 149, 619, 20, 4_902, 563, 11, 20, 149, 261, 3_420, 2_356, 174, 142, 4_714, 131, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]], '''attention_mask''': [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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=lowerCAmelCase, model_name='''facebook/s2t-small-mustc-en-de-st''', revision='''a14f04cf0776c02f62a8cb800cf7909e15ea23ad''', )
@require_sentencepiece
class __UpperCamelCase ( unittest.TestCase ):
lowercase : Tuple ='valhalla/s2t_mustc_multilinguial_medium'
lowercase : Dict ='C\'est trop cool'
lowercase : str ='Esto es genial'
@classmethod
def lowercase__ ( cls ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(cls.checkpoint_name )
return cls
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.tokenizer.lang_code_to_id['''pt'''], 4 )
self.assertEqual(self.tokenizer.lang_code_to_id['''ru'''], 6 )
self.assertEqual(self.tokenizer.lang_code_to_id['''it'''], 9 )
self.assertEqual(self.tokenizer.lang_code_to_id['''de'''], 11 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.tokenizer.vocab_size, 10_000 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertIn(lowerCAmelCase, self.tokenizer.all_special_ids )
lowerCamelCase_ =[ES_CODE, 4, 1_601, 47, 7_647, 2]
lowerCamelCase_ =self.tokenizer.decode(lowerCAmelCase, skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =self.tokenizer.decode(generated_ids[1:], skip_special_tokens=lowerCAmelCase )
self.assertEqual(lowerCAmelCase, lowerCAmelCase )
self.assertNotIn(self.tokenizer.eos_token, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''fr'''
lowerCamelCase_ =self.tokenizer(self.french_text ).input_ids
self.assertEqual(encoded[0], lowerCAmelCase )
self.assertEqual(encoded[-1], self.tokenizer.eos_token_id )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''fr'''
self.assertListEqual(self.tokenizer.prefix_tokens, [FR_CODE] )
lowerCamelCase_ ='''es'''
self.assertListEqual(self.tokenizer.prefix_tokens, [ES_CODE] )
| 75 | 0 |
"""simple docstring"""
from __future__ import annotations
import math
lowercase__ = """2020.9.26"""
lowercase__ = """xcodz-dot, cclaus, dhruvmanila"""
def _snake_case ( lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ ):
if not all(isinstance(__snake_case , (float, int) ) for val in locals().values() ):
_lowerCamelCase : Any = f'''Input values must either be float or int: {list(locals().values() )}'''
raise TypeError(__snake_case )
_lowerCamelCase : Union[str, Any] = ((x * distance) / (z + distance)) * scale
_lowerCamelCase : Optional[Any] = ((y * distance) / (z + distance)) * scale
return projected_x, projected_y
def _snake_case ( lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ ):
if not isinstance(__snake_case , __snake_case ):
raise TypeError('Axis must be a str' )
_lowerCamelCase : Any = locals()
del input_variables["axis"]
if not all(isinstance(__snake_case , (float, int) ) for val in input_variables.values() ):
_lowerCamelCase : Union[str, Any] = (
'Input values except axis must either be float or int: '
f'''{list(input_variables.values() )}'''
)
raise TypeError(__snake_case )
_lowerCamelCase : int = (angle % 360) / 450 * 180 / math.pi
if axis == "z":
_lowerCamelCase : List[Any] = x * math.cos(__snake_case ) - y * math.sin(__snake_case )
_lowerCamelCase : Dict = y * math.cos(__snake_case ) + x * math.sin(__snake_case )
_lowerCamelCase : Union[str, Any] = z
elif axis == "x":
_lowerCamelCase : str = y * math.cos(__snake_case ) - z * math.sin(__snake_case )
_lowerCamelCase : Any = z * math.cos(__snake_case ) + y * math.sin(__snake_case )
_lowerCamelCase : Any = x
elif axis == "y":
_lowerCamelCase : Dict = x * math.cos(__snake_case ) - z * math.sin(__snake_case )
_lowerCamelCase : List[str] = z * math.cos(__snake_case ) + x * math.sin(__snake_case )
_lowerCamelCase : List[Any] = y
else:
raise ValueError('not a valid axis, choose one of \'x\', \'y\', \'z\'' )
return new_x, new_y, new_z
if __name__ == "__main__":
import doctest
doctest.testmod()
print(F"{convert_to_ad(1.0, 2.0, 3.0, 10.0, 10.0) = }")
print(F"{rotate(1.0, 2.0, 3.0, 'y', 90.0) = }") | 96 |
'''simple docstring'''
import argparse
import requests
import torch
# pip3 install salesforce-lavis
# I'm actually installing a slightly modified version: pip3 install git+https://github.com/nielsrogge/LAVIS.git@fix_lavis_float32 (there's also the fix_lavis branch)
# also note: to convert Vicuna checkpoints, we had to include /home/niels/python_projects/checkpoints/FastChat/vicuna-7b in lavis/configs/models/blip2/blip2_instruct_vicuna7b.yaml
# same for Vicuna-13b
from lavis.models import load_model_and_preprocess
from PIL import Image
from transformers import (
AutoTokenizer,
BlipImageProcessor,
InstructBlipConfig,
InstructBlipForConditionalGeneration,
InstructBlipProcessor,
InstructBlipQFormerConfig,
InstructBlipVisionConfig,
LlamaConfig,
LlamaTokenizerFast,
TaConfig,
TaTokenizerFast,
)
from transformers.utils.constants import OPENAI_CLIP_MEAN, OPENAI_CLIP_STD
def a_ ( ) -> Dict:
"""simple docstring"""
lowerCamelCase_ ='''https://raw.githubusercontent.com/salesforce/LAVIS/main/docs/_static/Confusing-Pictures.jpg'''
lowerCamelCase_ =Image.open(requests.get(__snake_case , stream=__snake_case ).raw ).convert('''RGB''' )
return image
def a_ ( __snake_case : Tuple ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =[]
# fmt: off
# vision encoder
rename_keys.append(('''visual_encoder.cls_token''', '''vision_model.embeddings.class_embedding''') )
rename_keys.append(('''visual_encoder.pos_embed''', '''vision_model.embeddings.position_embedding''') )
rename_keys.append(('''visual_encoder.patch_embed.proj.weight''', '''vision_model.embeddings.patch_embedding.weight''') )
rename_keys.append(('''visual_encoder.patch_embed.proj.bias''', '''vision_model.embeddings.patch_embedding.bias''') )
rename_keys.append(('''ln_vision.weight''', '''vision_model.post_layernorm.weight''') )
rename_keys.append(('''ln_vision.bias''', '''vision_model.post_layernorm.bias''') )
for i in range(config.vision_config.num_hidden_layers ):
rename_keys.append((F'''visual_encoder.blocks.{i}.norm1.weight''', F'''vision_model.encoder.layers.{i}.layer_norm1.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm1.bias''', F'''vision_model.encoder.layers.{i}.layer_norm1.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm2.weight''', F'''vision_model.encoder.layers.{i}.layer_norm2.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm2.bias''', F'''vision_model.encoder.layers.{i}.layer_norm2.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.qkv.weight''', F'''vision_model.encoder.layers.{i}.self_attn.qkv.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.proj.weight''', F'''vision_model.encoder.layers.{i}.self_attn.projection.weight''',) )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.proj.bias''', F'''vision_model.encoder.layers.{i}.self_attn.projection.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc1.weight''', F'''vision_model.encoder.layers.{i}.mlp.fc1.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc1.bias''', F'''vision_model.encoder.layers.{i}.mlp.fc1.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc2.weight''', F'''vision_model.encoder.layers.{i}.mlp.fc2.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc2.bias''', F'''vision_model.encoder.layers.{i}.mlp.fc2.bias''') )
# QFormer
rename_keys.append(('''Qformer.bert.embeddings.LayerNorm.weight''', '''qformer.embeddings.layernorm.weight''') )
rename_keys.append(('''Qformer.bert.embeddings.LayerNorm.bias''', '''qformer.embeddings.layernorm.bias''') )
# fmt: on
return rename_keys
def a_ ( __snake_case : Optional[Any] , __snake_case : List[str] , __snake_case : List[Any] ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =dct.pop(__snake_case )
lowerCamelCase_ =val
def a_ ( __snake_case : str , __snake_case : Optional[Any] ) -> Any:
"""simple docstring"""
for i in range(config.vision_config.num_hidden_layers ):
# read in original q and v biases
lowerCamelCase_ =state_dict.pop(F'''visual_encoder.blocks.{i}.attn.q_bias''' )
lowerCamelCase_ =state_dict.pop(F'''visual_encoder.blocks.{i}.attn.v_bias''' )
# next, set bias in the state dict
lowerCamelCase_ =torch.cat((q_bias, torch.zeros_like(__snake_case , requires_grad=__snake_case ), v_bias) )
lowerCamelCase_ =qkv_bias
def a_ ( __snake_case : List[str] ) -> Any:
"""simple docstring"""
lowerCamelCase_ =364 if '''coco''' in model_name else 224
lowerCamelCase_ =InstructBlipVisionConfig(image_size=__snake_case ).to_dict()
# make sure the models have proper bos_token_id and eos_token_id set (important for generation)
# seems like flan-T5 models don't have bos_token_id properly set?
if "t5-xl" in model_name:
lowerCamelCase_ =TaConfig.from_pretrained('''google/flan-t5-xl''' , dense_act_fn='''gelu''' , bos_token_id=1 ).to_dict()
elif "t5-xxl" in model_name:
lowerCamelCase_ =TaConfig.from_pretrained('''google/flan-t5-xxl''' , dense_act_fn='''gelu''' , bos_token_id=1 ).to_dict()
elif "vicuna-7b" in model_name:
lowerCamelCase_ =LlamaConfig.from_pretrained('''decapoda-research/llama-7b-hf''' , vocab_size=3_2001 ).to_dict()
elif "vicuna-13b" in model_name:
lowerCamelCase_ =LlamaConfig.from_pretrained('''decapoda-research/llama-13b-hf''' , vocab_size=3_2001 ).to_dict()
else:
raise ValueError('''Model name not supported''' )
# the authors add one special "[DEC]" token to the vocab of Q-Former, hence vocab size = 30522 + 1
lowerCamelCase_ =InstructBlipQFormerConfig(vocab_size=3_0523 ).to_dict()
lowerCamelCase_ =InstructBlipConfig(vision_config=__snake_case , text_config=__snake_case , qformer_config=__snake_case )
return config, image_size
@torch.no_grad()
def a_ ( __snake_case : Optional[int] , __snake_case : str=None , __snake_case : List[Any]=False ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ =AutoTokenizer.from_pretrained('''bert-base-uncased''' , truncation_side='''left''' )
qformer_tokenizer.add_special_tokens({'''bos_token''': '''[DEC]'''} )
if "t5" in model_name:
lowerCamelCase_ =TaTokenizerFast.from_pretrained('''google/flan-t5-xl''' , truncation_side='''left''' )
elif "vicuna" in model_name:
# the following was used in the original implementation:
# tokenizer = LlamaTokenizer.from_pretrained("huggyllama/llama-7b", use_fast=False, truncation_side="left")
# tokenizer.add_special_tokens({"pad_token": "[PAD]"})
# tokenizer.add_special_tokens({"bos_token": "</s>"})
# tokenizer.add_special_tokens({"eos_token": "</s>"})
# tokenizer.add_special_tokens({"unk_token": "</s>"})
lowerCamelCase_ =LlamaTokenizerFast.from_pretrained(
'''huggyllama/llama-7b''' , truncation_side='''left''' , bos_token='''</s>''' , unk_token='''</s>''' )
tokenizer.add_special_tokens({'''pad_token''': '''[PAD]'''} )
lowerCamelCase_, lowerCamelCase_ =get_blipa_config(__snake_case )
lowerCamelCase_ =InstructBlipForConditionalGeneration(__snake_case ).eval()
lowerCamelCase_ ={
'''instructblip-vicuna-7b''': ('''blip2_vicuna_instruct''', '''vicuna7b'''),
'''instructblip-vicuna-13b''': ('''blip2_vicuna_instruct''', '''vicuna13b'''),
'''instructblip-flan-t5-xl''': ('''blip2_t5_instruct''', '''flant5xl'''),
'''instructblip-flan-t5-xxl''': ('''blip2_t5_instruct''', '''flant5xxl'''),
}
lowerCamelCase_, lowerCamelCase_ =model_name_to_original[model_name]
# load original model
print('''Loading original model...''' )
lowerCamelCase_ ='''cuda:1''' if torch.cuda.is_available() else '''cpu'''
lowerCamelCase_ ='''cuda:2''' if torch.cuda.is_available() else '''cpu'''
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =load_model_and_preprocess(
name=__snake_case , model_type=__snake_case , is_eval=__snake_case , device=__snake_case )
original_model.eval()
print('''Done!''' )
# update state dict keys
lowerCamelCase_ =original_model.state_dict()
lowerCamelCase_ =create_rename_keys(__snake_case )
for src, dest in rename_keys:
rename_key(__snake_case , __snake_case , __snake_case )
# some keys can be renamed efficiently
for key, val in state_dict.copy().items():
lowerCamelCase_ =state_dict.pop(__snake_case )
if key.startswith('''Qformer.bert''' ):
lowerCamelCase_ =key.replace('''Qformer.bert''' , '''qformer''' )
if "attention.self" in key:
lowerCamelCase_ =key.replace('''self''' , '''attention''' )
if "llm_proj" in key:
lowerCamelCase_ =key.replace('''llm_proj''' , '''language_projection''' )
if "t5_proj" in key:
lowerCamelCase_ =key.replace('''t5_proj''' , '''language_projection''' )
if key.startswith('''llm_model''' ):
lowerCamelCase_ =key.replace('''llm_model''' , '''language_model''' )
if key.startswith('''t5''' ):
lowerCamelCase_ =key.replace('''t5''' , '''language''' )
lowerCamelCase_ =val
# read in qv biases
read_in_q_v_bias(__snake_case , __snake_case )
# note: weights get loaded in torch.float32 by default
hf_model.load_state_dict(__snake_case , strict=__snake_case )
lowerCamelCase_ =load_demo_image()
lowerCamelCase_ ='''What is unusual about this image?'''
# create processor
lowerCamelCase_ =BlipImageProcessor(
size={'''height''': image_size, '''width''': image_size} , image_mean=__snake_case , image_std=__snake_case )
lowerCamelCase_ =InstructBlipProcessor(
image_processor=__snake_case , tokenizer=__snake_case , qformer_tokenizer=__snake_case , )
lowerCamelCase_ =processor(images=__snake_case , text=__snake_case , return_tensors='''pt''' ).to(__snake_case )
# make sure processor creates exact same pixel values
lowerCamelCase_ =vis_processors['''eval'''](__snake_case ).unsqueeze(0 ).to(__snake_case )
lowerCamelCase_ =inputs.pixel_values
assert torch.allclose(original_pixel_values.to(pixel_values.device ) , __snake_case )
original_model.to(__snake_case )
hf_model.to(__snake_case )
with torch.no_grad():
if "vicuna" in model_name:
lowerCamelCase_ =original_model({'''image''': original_pixel_values, '''text_input''': [prompt]} ).logits
lowerCamelCase_ =hf_model(**__snake_case ).logits
else:
lowerCamelCase_ =original_model(
{'''image''': original_pixel_values, '''text_input''': [prompt], '''text_output''': ['''\n''']} ).logits
lowerCamelCase_ =tokenizer('''\n''' , return_tensors='''pt''' ).input_ids.to(__snake_case )
lowerCamelCase_ =label_input_ids.masked_fill(label_input_ids == tokenizer.pad_token_id , -100 )
lowerCamelCase_ =hf_model(**__snake_case , labels=__snake_case ).logits
print('''First values of original logits:''' , original_logits[0, :3, :3] )
print('''First values of HF logits:''' , logits[0, :3, :3] )
# assert values
assert original_logits.shape == logits.shape
lowerCamelCase_ =1e-4 if '''vicuna''' in model_name else 1e-5
assert torch.allclose(original_logits.to(logits.device ) , __snake_case , atol=__snake_case )
print('''Looks ok!''' )
print('''Generating with original model...''' )
lowerCamelCase_ =original_model.generate({'''image''': original_pixel_values, '''prompt''': prompt} , num_beams=5 )
# important: we need to cast the weights of the HF model to the appropriate type
print('''Generating with HF model...''' )
lowerCamelCase_ =hf_model.generate(
**__snake_case , do_sample=__snake_case , num_beams=5 , max_length=256 , min_length=1 , top_p=0.9 , repetition_penalty=1.5 , length_penalty=1.0 , temperature=1 , )
if "vicuna" in model_name:
# convert output id 0 to 2 (eos_token_id)
# TODO add this in the generate method?
lowerCamelCase_ =2
print('''Original generation:''' , __snake_case )
lowerCamelCase_ =processor.batch_decode(__snake_case , skip_special_tokens=__snake_case )
lowerCamelCase_ =[text.strip() for text in output_text]
print('''HF generation:''' , __snake_case )
if pytorch_dump_folder_path is not None:
processor.save_pretrained(__snake_case )
hf_model.save_pretrained(__snake_case )
if push_to_hub:
processor.push_to_hub(F'''Salesforce/{model_name}''' )
hf_model.push_to_hub(F'''Salesforce/{model_name}''' )
if __name__ == "__main__":
a_ : Any = argparse.ArgumentParser()
a_ : Any = [
"""instructblip-vicuna-7b""",
"""instructblip-vicuna-13b""",
"""instructblip-flan-t5-xl""",
"""instructblip-flan-t5-xxl""",
]
parser.add_argument(
"""--model_name""",
default="""instructblip-flan-t5-xl""",
choices=choices,
type=str,
help="""Path to hf config.json of model to convert""",
)
parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""")
parser.add_argument(
"""--push_to_hub""",
action="""store_true""",
help="""Whether to push the model and processor to the hub after converting""",
)
a_ : str = parser.parse_args()
convert_blipa_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.push_to_hub)
| 75 | 0 |
"""simple docstring"""
import doctest
from collections import deque
import numpy as np
class __A :
'''simple docstring'''
def __init__( self : Any ) ->Optional[int]:
"""simple docstring"""
snake_case_ = [2, 1, 2, -1]
snake_case_ = [1, 2, 3, 4]
def lowerCAmelCase ( self : Any ) ->List[Any]:
"""simple docstring"""
snake_case_ = len(self.first_signal )
snake_case_ = len(self.second_signal )
snake_case_ = max(UpperCAmelCase_ , UpperCAmelCase_ )
# create a zero matrix of max_length x max_length
snake_case_ = [[0] * max_length for i in range(UpperCAmelCase_ )]
# fills the smaller signal with zeros to make both signals of same length
if length_first_signal < length_second_signal:
self.first_signal += [0] * (max_length - length_first_signal)
elif length_first_signal > length_second_signal:
self.second_signal += [0] * (max_length - length_second_signal)
for i in range(UpperCAmelCase_ ):
snake_case_ = deque(self.second_signal )
rotated_signal.rotate(UpperCAmelCase_ )
for j, item in enumerate(UpperCAmelCase_ ):
matrix[i][j] += item
# multiply the matrix with the first signal
snake_case_ = np.matmul(np.transpose(UpperCAmelCase_ ) , np.transpose(self.first_signal ) )
# rounding-off to two decimal places
return [round(UpperCAmelCase_ , 2 ) for i in final_signal]
if __name__ == "__main__":
doctest.testmod()
| 347 |
'''simple docstring'''
from __future__ import annotations
from math import pi
from typing import Protocol
import matplotlib.pyplot as plt
import numpy as np
class __UpperCamelCase ( lowerCamelCase__ ):
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
return 0.0
def a_ ( __snake_case : np.ndarray , __snake_case : int ) -> tuple[int | float, int | float]:
"""simple docstring"""
lowerCamelCase_ =min([-20, np.min(fft_results[1 : samplerate // 2 - 1] )] )
lowerCamelCase_ =max([20, np.max(fft_results[1 : samplerate // 2 - 1] )] )
return lowest, highest
def a_ ( __snake_case : FilterType , __snake_case : int ) -> None:
"""simple docstring"""
lowerCamelCase_ =512
lowerCamelCase_ =[1] + [0] * (size - 1)
lowerCamelCase_ =[filter_type.process(__snake_case ) for item in inputs]
lowerCamelCase_ =[0] * (samplerate - size) # zero-padding
outputs += filler
lowerCamelCase_ =np.abs(np.fft.fft(__snake_case ) )
lowerCamelCase_ =20 * np.logaa(__snake_case )
# Frequencies on log scale from 24 to nyquist frequency
plt.xlim(24 , samplerate / 2 - 1 )
plt.xlabel('''Frequency (Hz)''' )
plt.xscale('''log''' )
# Display within reasonable bounds
lowerCamelCase_ =get_bounds(__snake_case , __snake_case )
plt.ylim(max([-80, bounds[0]] ) , min([80, bounds[1]] ) )
plt.ylabel('''Gain (dB)''' )
plt.plot(__snake_case )
plt.show()
def a_ ( __snake_case : FilterType , __snake_case : int ) -> None:
"""simple docstring"""
lowerCamelCase_ =512
lowerCamelCase_ =[1] + [0] * (size - 1)
lowerCamelCase_ =[filter_type.process(__snake_case ) for item in inputs]
lowerCamelCase_ =[0] * (samplerate - size) # zero-padding
outputs += filler
lowerCamelCase_ =np.angle(np.fft.fft(__snake_case ) )
# Frequencies on log scale from 24 to nyquist frequency
plt.xlim(24 , samplerate / 2 - 1 )
plt.xlabel('''Frequency (Hz)''' )
plt.xscale('''log''' )
plt.ylim(-2 * pi , 2 * pi )
plt.ylabel('''Phase shift (Radians)''' )
plt.plot(np.unwrap(__snake_case , -2 * pi ) )
plt.show()
| 75 | 0 |
"""simple docstring"""
from ...configuration_utils import PretrainedConfig
from ...utils import logging
__a = logging.get_logger(__name__)
__a = {
"""facebook/dpr-ctx_encoder-single-nq-base""": (
"""https://huggingface.co/facebook/dpr-ctx_encoder-single-nq-base/resolve/main/config.json"""
),
"""facebook/dpr-question_encoder-single-nq-base""": (
"""https://huggingface.co/facebook/dpr-question_encoder-single-nq-base/resolve/main/config.json"""
),
"""facebook/dpr-reader-single-nq-base""": (
"""https://huggingface.co/facebook/dpr-reader-single-nq-base/resolve/main/config.json"""
),
"""facebook/dpr-ctx_encoder-multiset-base""": (
"""https://huggingface.co/facebook/dpr-ctx_encoder-multiset-base/resolve/main/config.json"""
),
"""facebook/dpr-question_encoder-multiset-base""": (
"""https://huggingface.co/facebook/dpr-question_encoder-multiset-base/resolve/main/config.json"""
),
"""facebook/dpr-reader-multiset-base""": (
"""https://huggingface.co/facebook/dpr-reader-multiset-base/resolve/main/config.json"""
),
}
class lowerCamelCase ( lowerCamelCase__ ):
'''simple docstring'''
_A : Tuple = 'dpr'
def __init__( self: int , snake_case: List[str]=30_522 , snake_case: Optional[int]=768 , snake_case: Tuple=12 , snake_case: Dict=12 , snake_case: Any=3_072 , snake_case: Optional[int]="gelu" , snake_case: Any=0.1 , snake_case: List[str]=0.1 , snake_case: Union[str, Any]=512 , snake_case: List[str]=2 , snake_case: List[Any]=0.0_2 , snake_case: Any=1E-12 , snake_case: Union[str, Any]=0 , snake_case: List[str]="absolute" , snake_case: Any = 0 , **snake_case: List[Any] , ) -> List[str]:
super().__init__(pad_token_id=snake_case , **snake_case )
snake_case_ :Optional[int] = vocab_size
snake_case_ :str = hidden_size
snake_case_ :List[Any] = num_hidden_layers
snake_case_ :str = num_attention_heads
snake_case_ :Dict = hidden_act
snake_case_ :Any = intermediate_size
snake_case_ :List[Any] = hidden_dropout_prob
snake_case_ :List[Any] = attention_probs_dropout_prob
snake_case_ :Any = max_position_embeddings
snake_case_ :Tuple = type_vocab_size
snake_case_ :Optional[Any] = initializer_range
snake_case_ :int = layer_norm_eps
snake_case_ :int = projection_dim
snake_case_ :str = position_embedding_type
| 66 |
'''simple docstring'''
import os
import unittest
from transformers import FunnelTokenizer, FunnelTokenizerFast
from transformers.models.funnel.tokenization_funnel import VOCAB_FILES_NAMES
from transformers.testing_utils import require_tokenizers
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : Union[str, Any] =FunnelTokenizer
lowercase : List[str] =FunnelTokenizerFast
lowercase : Union[str, Any] =True
lowercase : int =True
def lowercase__ ( self ):
"""simple docstring"""
super().setUp()
lowerCamelCase_ =[
'''<unk>''',
'''<cls>''',
'''<sep>''',
'''want''',
'''##want''',
'''##ed''',
'''wa''',
'''un''',
'''runn''',
'''##ing''',
''',''',
'''low''',
'''lowest''',
]
lowerCamelCase_ =os.path.join(self.tmpdirname, VOCAB_FILES_NAMES['''vocab_file'''] )
with open(self.vocab_file, '''w''', encoding='''utf-8''' ) as vocab_writer:
vocab_writer.write(''''''.join([x + '''\n''' for x in vocab_tokens] ) )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return FunnelTokenizer.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return FunnelTokenizerFast.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ ='''UNwant\u00E9d,running'''
lowerCamelCase_ ='''unwanted, running'''
return input_text, output_text
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.tokenizer_class(self.vocab_file )
lowerCamelCase_ =tokenizer.tokenize('''UNwant\u00E9d,running''' )
self.assertListEqual(lowerCAmelCase, ['''un''', '''##want''', '''##ed''', ''',''', '''runn''', '''##ing'''] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(lowerCAmelCase ), [7, 4, 5, 10, 8, 9] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizers(do_lower_case=lowerCAmelCase )
for tokenizer in tokenizers:
lowerCamelCase_ =tokenizer('''UNwant\u00E9d,running''' )
lowerCamelCase_ =len(inputs['''input_ids'''] ) - 1
self.assertListEqual(inputs['''token_type_ids'''], [2] + [0] * sentence_len )
lowerCamelCase_ =tokenizer('''UNwant\u00E9d,running''', '''UNwant\u00E9d,running''' )
self.assertListEqual(inputs['''token_type_ids'''], [2] + [0] * sentence_len + [1] * sentence_len )
| 75 | 0 |
'''simple docstring'''
import json
import os
from functools import lru_cache
from typing import Dict, List, Optional, Tuple, Union
import regex as re
from ...tokenization_utils import AddedToken, PreTrainedTokenizer
from ...tokenization_utils_base import BatchEncoding, EncodedInput
from ...utils import PaddingStrategy, logging
UpperCAmelCase = logging.get_logger(__name__)
UpperCAmelCase = {"""vocab_file""": """vocab.json""", """merges_file""": """merges.txt"""}
# See all LED models at https://huggingface.co/models?filter=LED
UpperCAmelCase = {
"""vocab_file""": {
"""allenai/led-base-16384""": """https://huggingface.co/allenai/led-base-16384/resolve/main/vocab.json""",
},
"""merges_file""": {
"""allenai/led-base-16384""": """https://huggingface.co/allenai/led-base-16384/resolve/main/merges.txt""",
},
"""tokenizer_file""": {
"""allenai/led-base-16384""": """https://huggingface.co/allenai/led-base-16384/resolve/main/tokenizer.json""",
},
}
UpperCAmelCase = {
"""allenai/led-base-16384""": 1_6384,
}
@lru_cache()
# Copied from transformers.models.bart.tokenization_bart.bytes_to_unicode
def __UpperCamelCase ( ):
'''simple docstring'''
__lowercase =(
list(range(ord('!' ), ord('~' ) + 1 ) ) + list(range(ord('¡' ), ord('¬' ) + 1 ) ) + list(range(ord('®' ), ord('ÿ' ) + 1 ) )
)
__lowercase =bs[:]
__lowercase =0
for b in range(2**8 ):
if b not in bs:
bs.append(__snake_case )
cs.append(2**8 + n )
n += 1
__lowercase =[chr(__snake_case ) for n in cs]
return dict(zip(__snake_case, __snake_case ) )
def __UpperCamelCase ( lowercase__ : List[Any] ):
'''simple docstring'''
__lowercase =set()
__lowercase =word[0]
for char in word[1:]:
pairs.add((prev_char, char) )
__lowercase =char
return pairs
class lowerCAmelCase ( lowerCamelCase__ ):
lowerCAmelCase_ = VOCAB_FILES_NAMES
lowerCAmelCase_ = PRETRAINED_VOCAB_FILES_MAP
lowerCAmelCase_ = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
lowerCAmelCase_ = ['input_ids', 'attention_mask']
def __init__( self : Optional[Any] , __lowercase : Optional[Any] , __lowercase : List[Any] , __lowercase : Optional[Any]="replace" , __lowercase : List[Any]="<s>" , __lowercase : Optional[Any]="</s>" , __lowercase : List[str]="</s>" , __lowercase : str="<s>" , __lowercase : List[str]="<unk>" , __lowercase : List[str]="<pad>" , __lowercase : Optional[int]="<mask>" , __lowercase : Dict=False , **__lowercase : int , ):
"""simple docstring"""
__lowercase =AddedToken(__lowercase , lstrip=__lowercase , rstrip=__lowercase ) if isinstance(__lowercase , __lowercase ) else bos_token
__lowercase =AddedToken(__lowercase , lstrip=__lowercase , rstrip=__lowercase ) if isinstance(__lowercase , __lowercase ) else eos_token
__lowercase =AddedToken(__lowercase , lstrip=__lowercase , rstrip=__lowercase ) if isinstance(__lowercase , __lowercase ) else sep_token
__lowercase =AddedToken(__lowercase , lstrip=__lowercase , rstrip=__lowercase ) if isinstance(__lowercase , __lowercase ) else cls_token
__lowercase =AddedToken(__lowercase , lstrip=__lowercase , rstrip=__lowercase ) if isinstance(__lowercase , __lowercase ) else unk_token
__lowercase =AddedToken(__lowercase , lstrip=__lowercase , rstrip=__lowercase ) if isinstance(__lowercase , __lowercase ) else pad_token
# Mask token behave like a normal word, i.e. include the space before it
__lowercase =AddedToken(__lowercase , lstrip=__lowercase , rstrip=__lowercase ) if isinstance(__lowercase , __lowercase ) else mask_token
super().__init__(
errors=__lowercase , bos_token=__lowercase , eos_token=__lowercase , unk_token=__lowercase , sep_token=__lowercase , cls_token=__lowercase , pad_token=__lowercase , mask_token=__lowercase , add_prefix_space=__lowercase , **__lowercase , )
with open(__lowercase , encoding='utf-8' ) as vocab_handle:
__lowercase =json.load(__lowercase )
__lowercase ={v: k for k, v in self.encoder.items()}
__lowercase =errors # how to handle errors in decoding
__lowercase =bytes_to_unicode()
__lowercase ={v: k for k, v in self.byte_encoder.items()}
with open(__lowercase , encoding='utf-8' ) as merges_handle:
__lowercase =merges_handle.read().split('\n' )[1:-1]
__lowercase =[tuple(merge.split() ) for merge in bpe_merges]
__lowercase =dict(zip(__lowercase , range(len(__lowercase ) ) ) )
__lowercase ={}
__lowercase =add_prefix_space
# Should have added re.IGNORECASE so BPE merges can happen for capitalized versions of contractions
__lowercase =re.compile(r'\'s|\'t|\'re|\'ve|\'m|\'ll|\'d| ?\p{L}+| ?\p{N}+| ?[^\s\p{L}\p{N}]+|\s+(?!\S)|\s+' )
@property
# Copied from transformers.models.bart.tokenization_bart.BartTokenizer.vocab_size
def snake_case ( self : Tuple ):
"""simple docstring"""
return len(self.encoder )
def snake_case ( self : List[str] ):
"""simple docstring"""
return dict(self.encoder , **self.added_tokens_encoder )
def snake_case ( self : int , __lowercase : Tuple ):
"""simple docstring"""
if token in self.cache:
return self.cache[token]
__lowercase =tuple(__lowercase )
__lowercase =get_pairs(__lowercase )
if not pairs:
return token
while True:
__lowercase =min(__lowercase , key=lambda __lowercase : self.bpe_ranks.get(__lowercase , float('inf' ) ) )
if bigram not in self.bpe_ranks:
break
__lowercase , __lowercase =bigram
__lowercase =[]
__lowercase =0
while i < len(__lowercase ):
try:
__lowercase =word.index(__lowercase , __lowercase )
except ValueError:
new_word.extend(word[i:] )
break
else:
new_word.extend(word[i:j] )
__lowercase =j
if word[i] == first and i < len(__lowercase ) - 1 and word[i + 1] == second:
new_word.append(first + second )
i += 2
else:
new_word.append(word[i] )
i += 1
__lowercase =tuple(__lowercase )
__lowercase =new_word
if len(__lowercase ) == 1:
break
else:
__lowercase =get_pairs(__lowercase )
__lowercase =' '.join(__lowercase )
__lowercase =word
return word
def snake_case ( self : str , __lowercase : List[Any] ):
"""simple docstring"""
__lowercase =[]
for token in re.findall(self.pat , __lowercase ):
__lowercase =''.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(__lowercase ).split(' ' ) )
return bpe_tokens
def snake_case ( self : Optional[int] , __lowercase : Optional[int] ):
"""simple docstring"""
return self.encoder.get(__lowercase , self.encoder.get(self.unk_token ) )
def snake_case ( self : Tuple , __lowercase : Dict ):
"""simple docstring"""
return self.decoder.get(__lowercase )
def snake_case ( self : str , __lowercase : Optional[Any] ):
"""simple docstring"""
__lowercase =''.join(__lowercase )
__lowercase =bytearray([self.byte_decoder[c] for c in text] ).decode('utf-8' , errors=self.errors )
return text
def snake_case ( self : int , __lowercase : Dict , __lowercase : Optional[int] = None ):
"""simple docstring"""
if not os.path.isdir(__lowercase ):
logger.error(f'''Vocabulary path ({save_directory}) should be a directory''' )
return
__lowercase =os.path.join(
__lowercase , (filename_prefix + '-' if filename_prefix else '') + VOCAB_FILES_NAMES['vocab_file'] )
__lowercase =os.path.join(
__lowercase , (filename_prefix + '-' if filename_prefix else '') + VOCAB_FILES_NAMES['merges_file'] )
with open(__lowercase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(self.encoder , indent=2 , sort_keys=__lowercase , ensure_ascii=__lowercase ) + '\n' )
__lowercase =0
with open(__lowercase , '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 __lowercase : 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!' )
__lowercase =token_index
writer.write(' '.join(__lowercase ) + '\n' )
index += 1
return vocab_file, merge_file
def snake_case ( self : Optional[int] , __lowercase : int , __lowercase : int = None ):
"""simple docstring"""
if token_ids_a is None:
return [self.cls_token_id] + token_ids_a + [self.sep_token_id]
__lowercase =[self.cls_token_id]
__lowercase =[self.sep_token_id]
return cls + token_ids_a + sep + sep + token_ids_a + sep
def snake_case ( self : Dict , __lowercase : Optional[int] , __lowercase : str = None , __lowercase : Union[str, Any] = False ):
"""simple docstring"""
if already_has_special_tokens:
return super().get_special_tokens_mask(
token_ids_a=__lowercase , token_ids_a=__lowercase , already_has_special_tokens=__lowercase )
if token_ids_a is None:
return [1] + ([0] * len(__lowercase )) + [1]
return [1] + ([0] * len(__lowercase )) + [1, 1] + ([0] * len(__lowercase )) + [1]
def snake_case ( self : int , __lowercase : int , __lowercase : List[str] = None ):
"""simple docstring"""
__lowercase =[self.sep_token_id]
__lowercase =[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 snake_case ( self : Dict , __lowercase : Optional[int] , __lowercase : Optional[int]=False , **__lowercase : Optional[Any] ):
"""simple docstring"""
__lowercase =kwargs.pop('add_prefix_space' , self.add_prefix_space )
if (is_split_into_words or add_prefix_space) and (len(__lowercase ) > 0 and not text[0].isspace()):
__lowercase =' ' + text
return (text, kwargs)
def snake_case ( self : Union[str, Any] , __lowercase : Any , __lowercase : Tuple = None , __lowercase : Union[str, Any] = PaddingStrategy.DO_NOT_PAD , __lowercase : Dict = None , __lowercase : List[str] = None , ):
"""simple docstring"""
__lowercase =super()._pad(
encoded_inputs=__lowercase , max_length=__lowercase , padding_strategy=__lowercase , pad_to_multiple_of=__lowercase , return_attention_mask=__lowercase , )
# Load from model defaults
if return_attention_mask is None:
__lowercase ='attention_mask' in self.model_input_names
if return_attention_mask and "global_attention_mask" in encoded_inputs:
__lowercase =encoded_inputs[self.model_input_names[0]]
# `global_attention_mask` need to have the same length as other (sequential) inputs.
__lowercase =len(encoded_inputs['global_attention_mask'] ) != len(__lowercase )
if needs_to_be_padded:
__lowercase =len(__lowercase ) - len(encoded_inputs['global_attention_mask'] )
if self.padding_side == "right":
# Use `-1` since `0` in `global_attention_mask` means `local attention` instead of `not to attend`
__lowercase =(
encoded_inputs['global_attention_mask'] + [-1] * difference
)
elif self.padding_side == "left":
__lowercase =[-1] * difference + encoded_inputs[
'global_attention_mask'
]
else:
raise ValueError('Invalid padding strategy:' + str(self.padding_side ) )
return encoded_inputs
| 141 |
'''simple docstring'''
import argparse
import os
import re
import torch
from flax.traverse_util import flatten_dict
from tax import checkpoints
from transformers import (
AutoTokenizer,
PixaStructConfig,
PixaStructForConditionalGeneration,
PixaStructImageProcessor,
PixaStructProcessor,
PixaStructTextConfig,
PixaStructVisionConfig,
)
def a_ ( __snake_case : Any ) -> int:
"""simple docstring"""
lowerCamelCase_ =checkpoints.load_tax_checkpoint(__snake_case )
lowerCamelCase_ =flatten_dict(__snake_case )
return flax_params
def a_ ( __snake_case : Dict ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ ={}
lowerCamelCase_ ={
'''token_embedder''': '''embeddings''',
'''encoder_norm''': '''layernorm''',
'''kernel''': '''weight''',
'''.out''': '''.output''',
'''scale''': '''weight''',
'''embedders_0.pos_embedding''': '''row_embedder.weight''',
'''embedders_1.pos_embedding''': '''column_embedder.weight''',
}
lowerCamelCase_ ={
'''query''': '''attention.query''',
'''key''': '''attention.key''',
'''value''': '''attention.value''',
'''output.dense''': '''output''',
'''encoder_decoder_attention.o''': '''encoder_decoder_attention.attention.o''',
'''pre_self_attention_layer_norm''': '''self_attention.layer_norm''',
'''pre_cross_attention_layer_norm''': '''encoder_decoder_attention.layer_norm''',
'''mlp.''': '''mlp.DenseReluDense.''',
'''pre_mlp_layer_norm''': '''mlp.layer_norm''',
'''self_attention.o''': '''self_attention.attention.o''',
'''decoder.embeddings.embedding''': '''decoder.embed_tokens.weight''',
'''decoder.relpos_bias.rel_embedding''': '''decoder.layer.0.self_attention.attention.relative_attention_bias.weight''',
'''decoder.decoder_norm.weight''': '''decoder.final_layer_norm.weight''',
'''decoder.logits_dense.weight''': '''decoder.lm_head.weight''',
}
for key in flax_dict.keys():
if "target" in key:
# remove the first prefix from the key
lowerCamelCase_ ='''.'''.join(key[1:] )
# rename the key
for old, new in CONVERSION_MAPPING.items():
lowerCamelCase_ =new_key.replace(__snake_case , __snake_case )
if "decoder" in new_key:
for old, new in DECODER_CONVERSION_MAPPING.items():
lowerCamelCase_ =new_key.replace(__snake_case , __snake_case )
if "layers" in new_key and "decoder" not in new_key:
# use regex to replace the layer number
lowerCamelCase_ =re.sub(r'''layers_(\d+)''' , r'''layer.\1''' , __snake_case )
lowerCamelCase_ =new_key.replace('''encoder''' , '''encoder.encoder''' )
elif "layers" in new_key and "decoder" in new_key:
# use regex to replace the layer number
lowerCamelCase_ =re.sub(r'''layers_(\d+)''' , r'''layer.\1''' , __snake_case )
lowerCamelCase_ =flax_dict[key]
lowerCamelCase_ ={}
# convert converted_dict into torch format
for key in converted_dict.keys():
if ("embed_tokens" not in key) and ("embedder" not in key):
lowerCamelCase_ =torch.from_numpy(converted_dict[key].T )
else:
lowerCamelCase_ =torch.from_numpy(converted_dict[key] )
return converted_torch_dict
def a_ ( __snake_case : Optional[Any] , __snake_case : List[str] , __snake_case : Any=False , __snake_case : Optional[int]=False ) -> Union[str, Any]:
"""simple docstring"""
lowerCamelCase_ =get_flax_param(__snake_case )
if not use_large:
lowerCamelCase_ =PixaStructVisionConfig()
lowerCamelCase_ =PixaStructTextConfig()
else:
lowerCamelCase_ =PixaStructVisionConfig(
hidden_size=1536 , d_ff=3968 , num_attention_heads=24 , num_hidden_layers=18 )
lowerCamelCase_ =PixaStructTextConfig(hidden_size=1536 , d_ff=3968 , num_heads=24 , num_layers=18 )
lowerCamelCase_ =PixaStructConfig(
vision_config=encoder_config.to_dict() , text_config=decoder_config.to_dict() , is_vqa=__snake_case )
lowerCamelCase_ =PixaStructForConditionalGeneration(__snake_case )
lowerCamelCase_ =rename_and_convert_flax_params(__snake_case )
model.load_state_dict(__snake_case )
lowerCamelCase_ =AutoTokenizer.from_pretrained('''ybelkada/test-pix2struct-tokenizer''' )
lowerCamelCase_ =PixaStructImageProcessor()
lowerCamelCase_ =PixaStructProcessor(image_processor=__snake_case , tokenizer=__snake_case )
if use_large:
lowerCamelCase_ =4096
lowerCamelCase_ =True
# mkdir if needed
os.makedirs(__snake_case , exist_ok=__snake_case )
model.save_pretrained(__snake_case )
processor.save_pretrained(__snake_case )
print('''Model saved in {}'''.format(__snake_case ) )
if __name__ == "__main__":
a_ : Optional[int] = argparse.ArgumentParser()
parser.add_argument("""--t5x_checkpoint_path""", default=None, type=str, help="""Path to the original T5x checkpoint.""")
parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""")
parser.add_argument("""--use_large""", action="""store_true""", help="""Use large model.""")
parser.add_argument("""--is_vqa""", action="""store_true""", help="""Use large model.""")
a_ : Tuple = parser.parse_args()
convert_pixastruct_original_pytorch_checkpoint_to_hf(
args.tax_checkpoint_path, args.pytorch_dump_folder_path, args.use_large
)
| 75 | 0 |
import argparse
import json
import os
from collections import OrderedDict
import numpy as np
import tensorflow as tf
import torch
def A_ ( _lowerCAmelCase ) -> Union[str, Any]:
UpperCamelCase : Optional[Any] = os.path.join(args.tf_model_dir , "parameters.json" )
UpperCamelCase : Optional[int] = json.loads(open(__snake_case ).read() )
if not params:
raise ValueError(
F"""It seems that the json file at {parameter_file} is empty. Make sure you have a correct json file.""" )
if not args.output.endswith(".pt" ):
UpperCamelCase : Tuple = args.output + ".pt"
UpperCamelCase : List[str] = OrderedDict()
with tf.device("/CPU:0" ):
UpperCamelCase : Optional[int] = tf.train.load_checkpoint(args.tf_model_dir )
UpperCamelCase : Dict = reader.get_variable_to_shape_map()
for key_name in shapes.keys():
UpperCamelCase : List[Any] = reader.get_tensor(__snake_case ).astype(np.floataa )
if key_name.endswith("/adam_m" ) or key_name.endswith("/adam_v" ):
continue
if key_name.startswith("pasts/" ):
if key_name.startswith("pasts/mlp" ):
UpperCamelCase : Optional[int] = int(key_name[9] )
elif key_name.startswith("pasts/out" ):
UpperCamelCase : List[Any] = 8
UpperCamelCase : Tuple = "model.sqout.%d.weight" % (player * 2) # enter to nn.Sequencial with Tanh, so 2 at a time
UpperCamelCase : Dict = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix
UpperCamelCase : Dict = torch.tensor(__snake_case )
elif key_name.startswith("model/moe" ):
UpperCamelCase : Optional[Any] = int(key_name[9:].split("/" )[0] )
if key_name.endswith("/switch_gating/kernel" ):
UpperCamelCase : Optional[int] = "model.blocks.%d.feed_forward.mlp.router.classifier.weight" % player
UpperCamelCase : Union[str, Any] = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix
UpperCamelCase : Any = torch.tensor(__snake_case )
elif key_name.endswith("/softmlp/kernel" ):
UpperCamelCase : Optional[int] = "model.blocks.%d.feed_forward.soft_bypass_mlp.weight" % player
UpperCamelCase : int = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix
UpperCamelCase : Tuple = torch.tensor(__snake_case )
elif key_name.endswith("/wo/kernel" ) or key_name.endswith("/wi/kernel" ):
UpperCamelCase : Any = key_name[-9:-7]
for i in range(16 ):
UpperCamelCase : Any = "model.blocks.%d.feed_forward.mlp.experts.expert_%d.%s.weight" % (player, i, nlayer)
UpperCamelCase : Union[str, Any] = (
vnp[i].transpose([1, 0] ).copy()
) # In Mesh-Tensorflow, it is one array, so it is divided
UpperCamelCase : Tuple = torch.tensor(__snake_case )
elif key_name.startswith("model/mlp" ):
UpperCamelCase : Union[str, Any] = int(key_name[9:].split("/" )[0] )
if key_name.endswith("/p1/kernel" ):
UpperCamelCase : Tuple = "model.blocks.%d.feed_forward.mlp.wi.weight" % player
UpperCamelCase : str = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix
UpperCamelCase : Dict = torch.tensor(__snake_case )
elif key_name.endswith("/p1/bias" ):
UpperCamelCase : List[Any] = "model.blocks.%d.feed_forward.mlp.wi.bias" % player
UpperCamelCase : Union[str, Any] = vnp.copy() # same because it is one dimensional
UpperCamelCase : Any = torch.tensor(__snake_case )
elif key_name.endswith("/p2/kernel" ):
UpperCamelCase : List[str] = "model.blocks.%d.feed_forward.mlp.wo.weight" % player
UpperCamelCase : Optional[int] = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix
UpperCamelCase : List[str] = torch.tensor(__snake_case )
elif key_name.endswith("/p2/bias" ):
UpperCamelCase : List[Any] = "model.blocks.%d.feed_forward.mlp.wo.bias" % player
UpperCamelCase : Dict = vnp.copy() # same because it is one dimensional
UpperCamelCase : Optional[Any] = torch.tensor(__snake_case )
elif key_name.startswith("model/ln" ):
UpperCamelCase : str = int(key_name[8:].split("/" )[0] )
if key_name.endswith("/b" ):
UpperCamelCase : int = "model.blocks.%d.feed_forward.norm.bias" % player
UpperCamelCase : Any = vnp.copy() # same because it is one dimensional
UpperCamelCase : str = torch.tensor(__snake_case )
elif key_name.endswith("/g" ):
UpperCamelCase : Union[str, Any] = "model.blocks.%d.feed_forward.norm.weight" % player
UpperCamelCase : Optional[Any] = vnp.copy() # same because it is one dimensional
UpperCamelCase : Union[str, Any] = torch.tensor(__snake_case )
elif key_name.startswith("model/att" ):
UpperCamelCase : Tuple = int(key_name[9:].split("/" )[0] )
if key_name.endswith("/qkv/kernel" ):
UpperCamelCase : List[Any] = vnp.copy() # Compute same dimension as Mesh-tensorflow using einsum
UpperCamelCase : int = state[:, 0, :, :]
UpperCamelCase : List[str] = state[:, 1, :, :]
UpperCamelCase : Dict = state[:, 2, :, :]
UpperCamelCase : Any = (
state_q.reshape([state_q.shape[0], state_q.shape[1] * state_q.shape[2]] )
.transpose([1, 0] )
.copy()
) # Mesh-Tensorflow is a diagonal matrix
UpperCamelCase : Union[str, Any] = (
state_k.reshape([state_k.shape[0], state_k.shape[1] * state_k.shape[2]] )
.transpose([1, 0] )
.copy()
) # Mesh-Tensorflow is a diagonal matrix
UpperCamelCase : Union[str, Any] = (
state_v.reshape([state_v.shape[0], state_v.shape[1] * state_v.shape[2]] )
.transpose([1, 0] )
.copy()
) # Mesh-Tensorflow is a diagonal matrix
UpperCamelCase : Optional[int] = "model.blocks.%d.self_attn.self_attn.q_proj.weight" % player
UpperCamelCase : List[str] = torch.tensor(__snake_case )
UpperCamelCase : Union[str, Any] = "model.blocks.%d.self_attn.self_attn.k_proj.weight" % player
UpperCamelCase : int = torch.tensor(__snake_case )
UpperCamelCase : Optional[int] = "model.blocks.%d.self_attn.self_attn.v_proj.weight" % player
UpperCamelCase : List[str] = torch.tensor(__snake_case )
elif key_name.endswith("/o/kernel" ):
UpperCamelCase : Any = "model.blocks.%d.self_attn.self_attn.out_proj.weight" % player
UpperCamelCase : Optional[Any] = (
vnp.reshape([vnp.shape[0] * vnp.shape[1], vnp.shape[2]] ).transpose([1, 0] ).copy()
) # Mesh-Tensorflow is a diagonal matrix
UpperCamelCase : List[str] = torch.tensor(__snake_case )
elif key_name.startswith("model/an" ):
UpperCamelCase : Tuple = int(key_name[8:].split("/" )[0] )
if key_name.endswith("/b" ):
UpperCamelCase : int = "model.blocks.%d.self_attn.norm.bias" % player
UpperCamelCase : Union[str, Any] = vnp.copy() # same because it is one dimensional
UpperCamelCase : List[Any] = torch.tensor(__snake_case )
elif key_name.endswith("/g" ):
UpperCamelCase : List[Any] = "model.blocks.%d.self_attn.norm.weight" % player
UpperCamelCase : Union[str, Any] = vnp.copy() # same because it is one dimensional
UpperCamelCase : List[str] = torch.tensor(__snake_case )
elif (
key_name.startswith("model/wte" )
or key_name.startswith("model/wpe" )
or key_name.startswith("model/ete" )
):
UpperCamelCase : str = {"wte": "embed_tokens", "wpe": "position_embeddings", "ete": "extra_position_embeddings"}[
key_name[-3:]
]
UpperCamelCase : int = "model.%s.weight" % nlayer
UpperCamelCase : Optional[Any] = vnp.copy() # same in embedded
UpperCamelCase : Dict = torch.tensor(__snake_case )
if key_name.startswith("model/wte" ):
UpperCamelCase : Tuple = "lm_head.weight"
UpperCamelCase : List[str] = vnp.copy() # same in embedded
UpperCamelCase : Dict = torch.tensor(__snake_case )
elif key_name.startswith("model/wob" ):
UpperCamelCase : int = "final_logits_bias"
UpperCamelCase : int = vnp.copy() # same in embedded
UpperCamelCase : List[str] = state.reshape((1, -1) )
UpperCamelCase : Optional[Any] = torch.tensor(__snake_case )
elif key_name == "model/dense/kernel":
UpperCamelCase : Tuple = "model.last_project.weight"
UpperCamelCase : Dict = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix
UpperCamelCase : Optional[Any] = torch.tensor(__snake_case )
elif key_name == "model/dense_1/bias":
UpperCamelCase : int = "model.last_project.bias"
UpperCamelCase : List[str] = vnp.copy() # same because it is one dimensional
UpperCamelCase : Optional[int] = torch.tensor(__snake_case )
torch.save(__snake_case , args.output )
if __name__ == "__main__":
__lowerCamelCase : Optional[int] = argparse.ArgumentParser(
description="""model converter.""", formatter_class=argparse.ArgumentDefaultsHelpFormatter
)
parser.add_argument("""--tf_model_dir""", metavar="""PATH""", type=str, required=True, help="""import model""")
parser.add_argument("""--output""", metavar="""PATH""", type=str, required=True, help="""output model""")
__lowerCamelCase : List[str] = parser.parse_args()
convert_tf_gptsan_to_pt(args)
| 52 |
'''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,
convert_to_rgb,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
OPENAI_CLIP_MEAN,
OPENAI_CLIP_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
a_ : Union[str, Any] = logging.get_logger(__name__)
if is_vision_available():
import PIL
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : Tuple =['pixel_values']
def __init__( self, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = PILImageResampling.BICUBIC, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = True, lowerCAmelCase = 1 / 255, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = True, **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
lowerCamelCase_ =size if size is not None else {'''shortest_edge''': 224}
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase )
lowerCamelCase_ =crop_size if crop_size is not None else {'''height''': 224, '''width''': 224}
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase, param_name='''crop_size''' )
lowerCamelCase_ =do_resize
lowerCamelCase_ =size
lowerCamelCase_ =resample
lowerCamelCase_ =do_center_crop
lowerCamelCase_ =crop_size
lowerCamelCase_ =do_rescale
lowerCamelCase_ =rescale_factor
lowerCamelCase_ =do_normalize
lowerCamelCase_ =image_mean if image_mean is not None else OPENAI_CLIP_MEAN
lowerCamelCase_ =image_std if image_std is not None else OPENAI_CLIP_STD
lowerCamelCase_ =do_convert_rgb
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = PILImageResampling.BICUBIC, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase )
if "shortest_edge" not in size:
raise ValueError(f'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' )
lowerCamelCase_ =get_resize_output_image_size(lowerCAmelCase, size=size['''shortest_edge'''], default_to_square=lowerCAmelCase )
return resize(lowerCAmelCase, size=lowerCAmelCase, resample=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =get_size_dict(lowerCAmelCase )
if "height" not in size or "width" not in size:
raise ValueError(f'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' )
return center_crop(lowerCAmelCase, size=(size['''height'''], size['''width''']), data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
return rescale(lowerCAmelCase, scale=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
return normalize(lowerCAmelCase, mean=lowerCAmelCase, std=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = ChannelDimension.FIRST, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =do_resize if do_resize is not None else self.do_resize
lowerCamelCase_ =size if size is not None else self.size
lowerCamelCase_ =get_size_dict(lowerCAmelCase, param_name='''size''', default_to_square=lowerCAmelCase )
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_ =crop_size if crop_size is not None else self.crop_size
lowerCamelCase_ =get_size_dict(lowerCAmelCase, param_name='''crop_size''', default_to_square=lowerCAmelCase )
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_ =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_ =do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb
lowerCamelCase_ =make_list_of_images(lowerCAmelCase )
if not valid_images(lowerCAmelCase ):
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.''' )
# PIL RGBA images are converted to RGB
if do_convert_rgb:
lowerCamelCase_ =[convert_to_rgb(lowerCAmelCase ) for image in images]
# All transformations expect numpy arrays.
lowerCamelCase_ =[to_numpy_array(lowerCAmelCase ) for image in images]
if do_resize:
lowerCamelCase_ =[self.resize(image=lowerCAmelCase, size=lowerCAmelCase, resample=lowerCAmelCase ) for image in images]
if do_center_crop:
lowerCamelCase_ =[self.center_crop(image=lowerCAmelCase, size=lowerCAmelCase ) for image in images]
if do_rescale:
lowerCamelCase_ =[self.rescale(image=lowerCAmelCase, scale=lowerCAmelCase ) for image in images]
if do_normalize:
lowerCamelCase_ =[self.normalize(image=lowerCAmelCase, mean=lowerCAmelCase, std=lowerCAmelCase ) for image in images]
lowerCamelCase_ =[to_channel_dimension_format(lowerCAmelCase, lowerCAmelCase ) for image in images]
lowerCamelCase_ ={'''pixel_values''': images}
return BatchFeature(data=lowerCAmelCase, tensor_type=lowerCAmelCase )
| 75 | 0 |
import collections.abc
from typing import Optional, Tuple, Union
import torch
import torch.utils.checkpoint
from torch import nn
from torch.nn import BCEWithLogitsLoss, CrossEntropyLoss, MSELoss
from ...activations import ACTaFN
from ...modeling_outputs import BaseModelOutputWithNoAttention, ImageClassifierOutputWithNoAttention
from ...modeling_utils import PreTrainedModel
from ...utils import add_code_sample_docstrings, add_start_docstrings, add_start_docstrings_to_model_forward, logging
from .configuration_poolformer import PoolFormerConfig
A__ : List[Any] = logging.get_logger(__name__)
# General docstring
A__ : str = """PoolFormerConfig"""
# Base docstring
A__ : Optional[int] = """sail/poolformer_s12"""
A__ : Optional[int] = [1, 5_12, 7, 7]
# Image classification docstring
A__ : List[Any] = """sail/poolformer_s12"""
A__ : int = """tabby, tabby cat"""
A__ : List[str] = [
"""sail/poolformer_s12""",
# See all PoolFormer models at https://huggingface.co/models?filter=poolformer
]
def a ( lowerCamelCase_ , lowerCamelCase_ = 0.0 , lowerCamelCase_ = False ):
'''simple docstring'''
if drop_prob == 0.0 or not training:
return input
lowercase__ = 1 - drop_prob
lowercase__ = (input.shape[0],) + (1,) * (input.ndim - 1) # work with diff dim tensors, not just 2D ConvNets
lowercase__ = keep_prob + torch.rand(__snake_case , dtype=input.dtype , device=input.device )
random_tensor.floor_() # binarize
lowercase__ = input.div(__snake_case ) * random_tensor
return output
class _UpperCAmelCase ( nn.Module ):
"""simple docstring"""
def __init__( self : int, lowerCamelCase : Optional[Any] = None ):
'''simple docstring'''
super().__init__()
lowercase__ = drop_prob
def lowercase__ ( self : Union[str, Any], lowerCamelCase : Any ):
'''simple docstring'''
return drop_path(lowerCamelCase, self.drop_prob, self.training )
def lowercase__ ( self : Dict ):
'''simple docstring'''
return "p={}".format(self.drop_prob )
class _UpperCAmelCase ( nn.Module ):
"""simple docstring"""
def __init__( self : Tuple, lowerCamelCase : Union[str, Any], lowerCamelCase : Dict, lowerCamelCase : Tuple, lowerCamelCase : Tuple, lowerCamelCase : Optional[Any], lowerCamelCase : Dict=None ):
'''simple docstring'''
super().__init__()
lowercase__ = patch_size if isinstance(lowerCamelCase, collections.abc.Iterable ) else (patch_size, patch_size)
lowercase__ = stride if isinstance(lowerCamelCase, collections.abc.Iterable ) else (stride, stride)
lowercase__ = padding if isinstance(lowerCamelCase, collections.abc.Iterable ) else (padding, padding)
lowercase__ = nn.Convad(lowerCamelCase, lowerCamelCase, kernel_size=lowerCamelCase, stride=lowerCamelCase, padding=lowerCamelCase )
lowercase__ = norm_layer(lowerCamelCase ) if norm_layer else nn.Identity()
def lowercase__ ( self : int, lowerCamelCase : Optional[Any] ):
'''simple docstring'''
lowercase__ = self.projection(lowerCamelCase )
lowercase__ = self.norm(lowerCamelCase )
return embeddings
class _UpperCAmelCase ( nn.GroupNorm ):
"""simple docstring"""
def __init__( self : List[str], lowerCamelCase : str, **lowerCamelCase : Optional[Any] ):
'''simple docstring'''
super().__init__(1, lowerCamelCase, **lowerCamelCase )
class _UpperCAmelCase ( nn.Module ):
"""simple docstring"""
def __init__( self : Tuple, lowerCamelCase : Optional[Any] ):
'''simple docstring'''
super().__init__()
lowercase__ = nn.AvgPoolad(lowerCamelCase, stride=1, padding=pool_size // 2, count_include_pad=lowerCamelCase )
def lowercase__ ( self : Dict, lowerCamelCase : List[Any] ):
'''simple docstring'''
return self.pool(lowerCamelCase ) - hidden_states
class _UpperCAmelCase ( nn.Module ):
"""simple docstring"""
def __init__( self : Any, lowerCamelCase : Optional[Any], lowerCamelCase : List[Any], lowerCamelCase : Tuple, lowerCamelCase : Dict ):
'''simple docstring'''
super().__init__()
lowercase__ = nn.Convad(lowerCamelCase, lowerCamelCase, 1 )
lowercase__ = nn.Convad(lowerCamelCase, lowerCamelCase, 1 )
lowercase__ = PoolFormerDropPath(lowerCamelCase )
if isinstance(config.hidden_act, lowerCamelCase ):
lowercase__ = ACTaFN[config.hidden_act]
else:
lowercase__ = config.hidden_act
def lowercase__ ( self : str, lowerCamelCase : Union[str, Any] ):
'''simple docstring'''
lowercase__ = self.conva(lowerCamelCase )
lowercase__ = self.act_fn(lowerCamelCase )
lowercase__ = self.drop(lowerCamelCase )
lowercase__ = self.conva(lowerCamelCase )
lowercase__ = self.drop(lowerCamelCase )
return hidden_states
class _UpperCAmelCase ( nn.Module ):
"""simple docstring"""
def __init__( self : List[Any], lowerCamelCase : List[Any], lowerCamelCase : List[str], lowerCamelCase : List[Any], lowerCamelCase : Any, lowerCamelCase : Optional[int], lowerCamelCase : Optional[int] ):
'''simple docstring'''
super().__init__()
lowercase__ = PoolFormerPooling(lowerCamelCase )
lowercase__ = PoolFormerOutput(lowerCamelCase, lowerCamelCase, lowerCamelCase, lowerCamelCase )
lowercase__ = PoolFormerGroupNorm(lowerCamelCase )
lowercase__ = PoolFormerGroupNorm(lowerCamelCase )
# Useful for training neural nets
lowercase__ = PoolFormerDropPath(lowerCamelCase ) if drop_path > 0.0 else nn.Identity()
lowercase__ = config.use_layer_scale
if config.use_layer_scale:
lowercase__ = nn.Parameter(
config.layer_scale_init_value * torch.ones((lowerCamelCase) ), requires_grad=lowerCamelCase )
lowercase__ = nn.Parameter(
config.layer_scale_init_value * torch.ones((lowerCamelCase) ), requires_grad=lowerCamelCase )
def lowercase__ ( self : List[str], lowerCamelCase : Union[str, Any] ):
'''simple docstring'''
if self.use_layer_scale:
lowercase__ = self.pooling(self.before_norm(lowerCamelCase ) )
lowercase__ = self.layer_scale_a.unsqueeze(-1 ).unsqueeze(-1 ) * pooling_output
# First residual connection
lowercase__ = hidden_states + self.drop_path(lowerCamelCase )
lowercase__ = ()
lowercase__ = self.output(self.after_norm(lowerCamelCase ) )
lowercase__ = self.layer_scale_a.unsqueeze(-1 ).unsqueeze(-1 ) * layer_output
# Second residual connection
lowercase__ = hidden_states + self.drop_path(lowerCamelCase )
lowercase__ = (output,) + outputs
return outputs
else:
lowercase__ = self.drop_path(self.pooling(self.before_norm(lowerCamelCase ) ) )
# First residual connection
lowercase__ = pooling_output + hidden_states
lowercase__ = ()
# Second residual connection inside the PoolFormerOutput block
lowercase__ = self.drop_path(self.output(self.after_norm(lowerCamelCase ) ) )
lowercase__ = hidden_states + layer_output
lowercase__ = (output,) + outputs
return outputs
class _UpperCAmelCase ( nn.Module ):
"""simple docstring"""
def __init__( self : Dict, lowerCamelCase : List[str] ):
'''simple docstring'''
super().__init__()
lowercase__ = config
# stochastic depth decay rule
lowercase__ = [x.item() for x in torch.linspace(0, config.drop_path_rate, sum(config.depths ) )]
# patch embeddings
lowercase__ = []
for i in range(config.num_encoder_blocks ):
embeddings.append(
PoolFormerEmbeddings(
patch_size=config.patch_sizes[i], stride=config.strides[i], padding=config.padding[i], num_channels=config.num_channels if i == 0 else config.hidden_sizes[i - 1], hidden_size=config.hidden_sizes[i], ) )
lowercase__ = nn.ModuleList(lowerCamelCase )
# Transformer blocks
lowercase__ = []
lowercase__ = 0
for i in range(config.num_encoder_blocks ):
# each block consists of layers
lowercase__ = []
if i != 0:
cur += config.depths[i - 1]
for j in range(config.depths[i] ):
layers.append(
PoolFormerLayer(
lowerCamelCase, num_channels=config.hidden_sizes[i], pool_size=config.pool_size, hidden_size=config.hidden_sizes[i], intermediate_size=int(config.hidden_sizes[i] * config.mlp_ratio ), drop_path=dpr[cur + j], ) )
blocks.append(nn.ModuleList(lowerCamelCase ) )
lowercase__ = nn.ModuleList(lowerCamelCase )
def lowercase__ ( self : List[str], lowerCamelCase : int, lowerCamelCase : int=False, lowerCamelCase : Any=True ):
'''simple docstring'''
lowercase__ = () if output_hidden_states else None
lowercase__ = pixel_values
for idx, layers in enumerate(zip(self.patch_embeddings, self.block ) ):
lowercase__ , lowercase__ = layers
# Get patch embeddings from hidden_states
lowercase__ = embedding_layer(lowerCamelCase )
# Send the embeddings through the blocks
for _, blk in enumerate(lowerCamelCase ):
lowercase__ = blk(lowerCamelCase )
lowercase__ = layer_outputs[0]
if output_hidden_states:
lowercase__ = all_hidden_states + (hidden_states,)
if not return_dict:
return tuple(v for v in [hidden_states, all_hidden_states] if v is not None )
return BaseModelOutputWithNoAttention(last_hidden_state=lowerCamelCase, hidden_states=lowerCamelCase )
class _UpperCAmelCase ( lowerCamelCase__ ):
"""simple docstring"""
lowercase__ = PoolFormerConfig
lowercase__ = 'poolformer'
lowercase__ = 'pixel_values'
lowercase__ = True
def lowercase__ ( self : Tuple, lowerCamelCase : Union[str, Any] ):
'''simple docstring'''
if isinstance(lowerCamelCase, (nn.Linear, nn.Convad) ):
module.weight.data.normal_(mean=0.0, std=self.config.initializer_range )
if module.bias is not None:
module.bias.data.zero_()
elif isinstance(lowerCamelCase, nn.LayerNorm ):
module.bias.data.zero_()
module.weight.data.fill_(1.0 )
def lowercase__ ( self : Union[str, Any], lowerCamelCase : List[str], lowerCamelCase : Dict=False ):
'''simple docstring'''
if isinstance(lowerCamelCase, lowerCamelCase ):
lowercase__ = value
A__ : str = R"""
This model is a PyTorch [torch.nn.Module](https://pytorch.org/docs/stable/nn.html#torch.nn.Module) sub-class. Use
it as a regular PyTorch Module and refer to the PyTorch documentation for all matter related to general usage and
behavior.
Parameters:
config ([`PoolFormerConfig`]): Model configuration class with all the parameters of the model.
Initializing with a config file does not load the weights associated with the model, only the
configuration. Check out the [`~PreTrainedModel.from_pretrained`] method to load the model weights.
"""
A__ : Dict = R"""
Args:
pixel_values (`torch.FloatTensor` of shape `(batch_size, num_channels, height, width)`):
Pixel values. Pixel values can be obtained using [`AutoImageProcessor`]. See
[`PoolFormerImageProcessor.__call__`] for details.
"""
@add_start_docstrings(
"""The bare PoolFormer Model transformer outputting raw hidden-states without any specific head on top.""" ,lowerCamelCase__ ,)
class _UpperCAmelCase ( lowerCamelCase__ ):
"""simple docstring"""
def __init__( self : Optional[Any], lowerCamelCase : Tuple ):
'''simple docstring'''
super().__init__(lowerCamelCase )
lowercase__ = config
lowercase__ = PoolFormerEncoder(lowerCamelCase )
# Initialize weights and apply final processing
self.post_init()
def lowercase__ ( self : int ):
'''simple docstring'''
return self.embeddings.patch_embeddings
@add_start_docstrings_to_model_forward(lowerCamelCase )
@add_code_sample_docstrings(
checkpoint=_CHECKPOINT_FOR_DOC, output_type=lowerCamelCase, config_class=_CONFIG_FOR_DOC, modality='''vision''', expected_output=_EXPECTED_OUTPUT_SHAPE, )
def lowercase__ ( self : List[Any], lowerCamelCase : int = None, lowerCamelCase : Any = None, lowerCamelCase : List[Any] = None, ):
'''simple docstring'''
lowercase__ = (
output_hidden_states if output_hidden_states is not None else self.config.output_hidden_states
)
lowercase__ = return_dict if return_dict is not None else self.config.use_return_dict
if pixel_values is None:
raise ValueError('''You have to specify pixel_values''' )
lowercase__ = self.encoder(
lowerCamelCase, output_hidden_states=lowerCamelCase, return_dict=lowerCamelCase, )
lowercase__ = encoder_outputs[0]
if not return_dict:
return (sequence_output, None) + encoder_outputs[1:]
return BaseModelOutputWithNoAttention(
last_hidden_state=lowerCamelCase, hidden_states=encoder_outputs.hidden_states, )
class _UpperCAmelCase ( nn.Module ):
"""simple docstring"""
def __init__( self : Dict, lowerCamelCase : Union[str, Any] ):
'''simple docstring'''
super().__init__()
lowercase__ = nn.Linear(config.hidden_size, config.hidden_size )
def lowercase__ ( self : Dict, lowerCamelCase : Dict ):
'''simple docstring'''
lowercase__ = self.dense(lowerCamelCase )
return output
@add_start_docstrings(
"""\n PoolFormer Model transformer with an image classification head on top\n """ ,lowerCamelCase__ ,)
class _UpperCAmelCase ( lowerCamelCase__ ):
"""simple docstring"""
def __init__( self : Optional[Any], lowerCamelCase : int ):
'''simple docstring'''
super().__init__(lowerCamelCase )
lowercase__ = config.num_labels
lowercase__ = PoolFormerModel(lowerCamelCase )
# Final norm
lowercase__ = PoolFormerGroupNorm(config.hidden_sizes[-1] )
# Classifier head
lowercase__ = (
nn.Linear(config.hidden_sizes[-1], config.num_labels ) if config.num_labels > 0 else nn.Identity()
)
# Initialize weights and apply final processing
self.post_init()
@add_start_docstrings_to_model_forward(lowerCamelCase )
@add_code_sample_docstrings(
checkpoint=_IMAGE_CLASS_CHECKPOINT, output_type=lowerCamelCase, config_class=_CONFIG_FOR_DOC, expected_output=_IMAGE_CLASS_EXPECTED_OUTPUT, )
def lowercase__ ( self : Tuple, lowerCamelCase : int = None, lowerCamelCase : Optional[int] = None, lowerCamelCase : Optional[Any] = None, lowerCamelCase : Any = None, ):
'''simple docstring'''
lowercase__ = return_dict if return_dict is not None else self.config.use_return_dict
lowercase__ = self.poolformer(
lowerCamelCase, output_hidden_states=lowerCamelCase, return_dict=lowerCamelCase, )
lowercase__ = outputs[0]
lowercase__ = self.classifier(self.norm(lowerCamelCase ).mean([-2, -1] ) )
lowercase__ = None
if labels is not None:
if self.config.problem_type is None:
if self.num_labels == 1:
lowercase__ = '''regression'''
elif self.num_labels > 1 and (labels.dtype == torch.long or labels.dtype == torch.int):
lowercase__ = '''single_label_classification'''
else:
lowercase__ = '''multi_label_classification'''
if self.config.problem_type == "regression":
lowercase__ = MSELoss()
if self.num_labels == 1:
lowercase__ = loss_fct(logits.squeeze(), labels.squeeze() )
else:
lowercase__ = loss_fct(lowerCamelCase, lowerCamelCase )
elif self.config.problem_type == "single_label_classification":
lowercase__ = CrossEntropyLoss()
lowercase__ = loss_fct(logits.view(-1, self.num_labels ), labels.view(-1 ) )
elif self.config.problem_type == "multi_label_classification":
lowercase__ = BCEWithLogitsLoss()
lowercase__ = loss_fct(lowerCamelCase, lowerCamelCase )
if not return_dict:
lowercase__ = (logits,) + outputs[2:]
return ((loss,) + output) if loss is not None else output
return ImageClassifierOutputWithNoAttention(loss=lowerCamelCase, logits=lowerCamelCase, hidden_states=outputs.hidden_states )
| 207 |
'''simple docstring'''
from __future__ import annotations
def a_ ( __snake_case : str , __snake_case : list[str] | None = None , __snake_case : dict[str, float] | None = None , __snake_case : bool = False , ) -> tuple[int, float, str]:
"""simple docstring"""
lowerCamelCase_ =cipher_alphabet or [chr(__snake_case ) for i in range(97 , 123 )]
# If the argument is None or the user provided an empty dictionary
if not frequencies_dict:
# Frequencies of letters in the english language (how much they show up)
lowerCamelCase_ ={
'''a''': 0.0_8_4_9_7,
'''b''': 0.0_1_4_9_2,
'''c''': 0.0_2_2_0_2,
'''d''': 0.0_4_2_5_3,
'''e''': 0.1_1_1_6_2,
'''f''': 0.0_2_2_2_8,
'''g''': 0.0_2_0_1_5,
'''h''': 0.0_6_0_9_4,
'''i''': 0.0_7_5_4_6,
'''j''': 0.0_0_1_5_3,
'''k''': 0.0_1_2_9_2,
'''l''': 0.0_4_0_2_5,
'''m''': 0.0_2_4_0_6,
'''n''': 0.0_6_7_4_9,
'''o''': 0.0_7_5_0_7,
'''p''': 0.0_1_9_2_9,
'''q''': 0.0_0_0_9_5,
'''r''': 0.0_7_5_8_7,
'''s''': 0.0_6_3_2_7,
'''t''': 0.0_9_3_5_6,
'''u''': 0.0_2_7_5_8,
'''v''': 0.0_0_9_7_8,
'''w''': 0.0_2_5_6_0,
'''x''': 0.0_0_1_5_0,
'''y''': 0.0_1_9_9_4,
'''z''': 0.0_0_0_7_7,
}
else:
# Custom frequencies dictionary
lowerCamelCase_ =frequencies_dict
if not case_sensitive:
lowerCamelCase_ =ciphertext.lower()
# Chi squared statistic values
lowerCamelCase_ ={}
# cycle through all of the shifts
for shift in range(len(__snake_case ) ):
lowerCamelCase_ =''''''
# decrypt the message with the shift
for letter in ciphertext:
try:
# Try to index the letter in the alphabet
lowerCamelCase_ =(alphabet_letters.index(letter.lower() ) - shift) % len(
__snake_case )
decrypted_with_shift += (
alphabet_letters[new_key].upper()
if case_sensitive and letter.isupper()
else alphabet_letters[new_key]
)
except ValueError:
# Append the character if it isn't in the alphabet
decrypted_with_shift += letter
lowerCamelCase_ =0.0
# Loop through each letter in the decoded message with the shift
for letter in decrypted_with_shift:
if case_sensitive:
lowerCamelCase_ =letter.lower()
if letter in frequencies:
# Get the amount of times the letter occurs in the message
lowerCamelCase_ =decrypted_with_shift.lower().count(__snake_case )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
lowerCamelCase_ =frequencies[letter] * occurrences
# Complete the chi squared statistic formula
lowerCamelCase_ =((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
else:
if letter.lower() in frequencies:
# Get the amount of times the letter occurs in the message
lowerCamelCase_ =decrypted_with_shift.count(__snake_case )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
lowerCamelCase_ =frequencies[letter] * occurrences
# Complete the chi squared statistic formula
lowerCamelCase_ =((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
# Add the data to the chi_squared_statistic_values dictionary
lowerCamelCase_ =(
chi_squared_statistic,
decrypted_with_shift,
)
# Get the most likely cipher by finding the cipher with the smallest chi squared
# statistic
def chi_squared_statistic_values_sorting_key(__snake_case : int ) -> tuple[float, str]:
return chi_squared_statistic_values[key]
lowerCamelCase_ =min(
__snake_case , key=__snake_case , )
# Get all the data from the most likely cipher (key, decoded message)
(
(
lowerCamelCase_
), (
lowerCamelCase_
),
) =chi_squared_statistic_values[most_likely_cipher]
# Return the data on the most likely shift
return (
most_likely_cipher,
most_likely_cipher_chi_squared_value,
decoded_most_likely_cipher,
)
| 75 | 0 |
import numpy as np
from PIL import Image
def _lowercase ( lowercase__ , lowercase__ , lowercase__ ):
__lowerCAmelCase : Tuple = np.array(__snake_case )
if arr.shape[0] != arr.shape[1]:
raise ValueError('''The input array is not a square matrix''' )
__lowerCAmelCase : List[Any] = 0
__lowerCAmelCase : List[str] = 0
__lowerCAmelCase : int = 0
__lowerCAmelCase : List[str] = 0
# compute the shape of the output matrix
__lowerCAmelCase : List[Any] = (arr.shape[0] - size) // stride + 1
# initialize the output matrix with zeros of shape maxpool_shape
__lowerCAmelCase : Optional[int] = np.zeros((maxpool_shape, maxpool_shape) )
while i < arr.shape[0]:
if i + size > arr.shape[0]:
# if the end of the matrix is reached, break
break
while j < arr.shape[1]:
# if the end of the matrix is reached, break
if j + size > arr.shape[1]:
break
# compute the maximum of the pooling matrix
__lowerCAmelCase : Tuple = np.max(arr[i : i + size, j : j + size] )
# shift the pooling matrix by stride of column pixels
j += stride
mat_j += 1
# shift the pooling matrix by stride of row pixels
i += stride
mat_i += 1
# reset the column index to 0
__lowerCAmelCase : Union[str, Any] = 0
__lowerCAmelCase : str = 0
return updated_arr
def _lowercase ( lowercase__ , lowercase__ , lowercase__ ):
__lowerCAmelCase : Union[str, Any] = np.array(__snake_case )
if arr.shape[0] != arr.shape[1]:
raise ValueError('''The input array is not a square matrix''' )
__lowerCAmelCase : Any = 0
__lowerCAmelCase : Optional[int] = 0
__lowerCAmelCase : int = 0
__lowerCAmelCase : Tuple = 0
# compute the shape of the output matrix
__lowerCAmelCase : List[Any] = (arr.shape[0] - size) // stride + 1
# initialize the output matrix with zeros of shape avgpool_shape
__lowerCAmelCase : List[Any] = np.zeros((avgpool_shape, avgpool_shape) )
while i < arr.shape[0]:
# if the end of the matrix is reached, break
if i + size > arr.shape[0]:
break
while j < arr.shape[1]:
# if the end of the matrix is reached, break
if j + size > arr.shape[1]:
break
# compute the average of the pooling matrix
__lowerCAmelCase : Union[str, Any] = int(np.average(arr[i : i + size, j : j + size] ) )
# shift the pooling matrix by stride of column pixels
j += stride
mat_j += 1
# shift the pooling matrix by stride of row pixels
i += stride
mat_i += 1
# reset the column index to 0
__lowerCAmelCase : Any = 0
__lowerCAmelCase : str = 0
return updated_arr
# Main Function
if __name__ == "__main__":
from doctest import testmod
testmod(name="avgpooling", verbose=True)
# Loading the image
_UpperCamelCase = Image.open("path_to_image")
# Converting the image to numpy array and maxpooling, displaying the result
# Ensure that the image is a square matrix
Image.fromarray(maxpooling(np.array(image), size=3, stride=2)).show()
# Converting the image to numpy array and averagepooling, displaying the result
# Ensure that the image is a square matrix
Image.fromarray(avgpooling(np.array(image), size=3, stride=2)).show()
| 275 |
'''simple docstring'''
import importlib
import inspect
import json
import os
import re
import shutil
import sys
from pathlib import Path
from typing import Dict, Optional, Union
from urllib import request
from huggingface_hub import HfFolder, cached_download, hf_hub_download, model_info
from packaging import version
from .. import __version__
from . import DIFFUSERS_DYNAMIC_MODULE_NAME, HF_MODULES_CACHE, logging
a_ : List[Any] = (
"""https://raw.githubusercontent.com/huggingface/diffusers/{revision}/examples/community/{pipeline}.py"""
)
a_ : Union[str, Any] = logging.get_logger(__name__) # pylint: disable=invalid-name
def a_ ( ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ ='''https://pypi.org/pypi/diffusers/json'''
lowerCamelCase_ =json.loads(request.urlopen(__snake_case ).read() )['''releases'''].keys()
return sorted(__snake_case , key=lambda __snake_case : version.Version(__snake_case ) )
def a_ ( ) -> str:
"""simple docstring"""
# This function has already been executed if HF_MODULES_CACHE already is in the Python path.
if HF_MODULES_CACHE in sys.path:
return
sys.path.append(__snake_case )
os.makedirs(__snake_case , exist_ok=__snake_case )
lowerCamelCase_ =Path(__snake_case ) / '''__init__.py'''
if not init_path.exists():
init_path.touch()
def a_ ( __snake_case : Union[str, os.PathLike] ) -> List[str]:
"""simple docstring"""
init_hf_modules()
lowerCamelCase_ =Path(__snake_case ) / name
# If the parent module does not exist yet, recursively create it.
if not dynamic_module_path.parent.exists():
create_dynamic_module(dynamic_module_path.parent )
os.makedirs(__snake_case , exist_ok=__snake_case )
lowerCamelCase_ =dynamic_module_path / '''__init__.py'''
if not init_path.exists():
init_path.touch()
def a_ ( __snake_case : Tuple ) -> List[str]:
"""simple docstring"""
with open(__snake_case , '''r''' , encoding='''utf-8''' ) as f:
lowerCamelCase_ =f.read()
# Imports of the form `import .xxx`
lowerCamelCase_ =re.findall('''^\s*import\s+\.(\S+)\s*$''' , __snake_case , flags=re.MULTILINE )
# Imports of the form `from .xxx import yyy`
relative_imports += re.findall('''^\s*from\s+\.(\S+)\s+import''' , __snake_case , flags=re.MULTILINE )
# Unique-ify
return list(set(__snake_case ) )
def a_ ( __snake_case : str ) -> str:
"""simple docstring"""
lowerCamelCase_ =False
lowerCamelCase_ =[module_file]
lowerCamelCase_ =[]
# Let's recurse through all relative imports
while not no_change:
lowerCamelCase_ =[]
for f in files_to_check:
new_imports.extend(get_relative_imports(__snake_case ) )
lowerCamelCase_ =Path(__snake_case ).parent
lowerCamelCase_ =[str(module_path / m ) for m in new_imports]
lowerCamelCase_ =[f for f in new_import_files if f not in all_relative_imports]
lowerCamelCase_ =[F'''{f}.py''' for f in new_import_files]
lowerCamelCase_ =len(__snake_case ) == 0
all_relative_imports.extend(__snake_case )
return all_relative_imports
def a_ ( __snake_case : Union[str, Any] ) -> Optional[int]:
"""simple docstring"""
with open(__snake_case , '''r''' , encoding='''utf-8''' ) as f:
lowerCamelCase_ =f.read()
# Imports of the form `import xxx`
lowerCamelCase_ =re.findall('''^\s*import\s+(\S+)\s*$''' , __snake_case , flags=re.MULTILINE )
# Imports of the form `from xxx import yyy`
imports += re.findall('''^\s*from\s+(\S+)\s+import''' , __snake_case , flags=re.MULTILINE )
# Only keep the top-level module
lowerCamelCase_ =[imp.split('''.''' )[0] for imp in imports if not imp.startswith('''.''' )]
# Unique-ify and test we got them all
lowerCamelCase_ =list(set(__snake_case ) )
lowerCamelCase_ =[]
for imp in imports:
try:
importlib.import_module(__snake_case )
except ImportError:
missing_packages.append(__snake_case )
if len(__snake_case ) > 0:
raise ImportError(
'''This modeling file requires the following packages that were not found in your environment: '''
F'''{', '.join(__snake_case )}. Run `pip install {' '.join(__snake_case )}`''' )
return get_relative_imports(__snake_case )
def a_ ( __snake_case : Tuple , __snake_case : Tuple ) -> List[Any]:
"""simple docstring"""
lowerCamelCase_ =module_path.replace(os.path.sep , '''.''' )
lowerCamelCase_ =importlib.import_module(__snake_case )
if class_name is None:
return find_pipeline_class(__snake_case )
return getattr(__snake_case , __snake_case )
def a_ ( __snake_case : Dict ) -> Any:
"""simple docstring"""
from ..pipelines import DiffusionPipeline
lowerCamelCase_ =dict(inspect.getmembers(__snake_case , inspect.isclass ) )
lowerCamelCase_ =None
for cls_name, cls in cls_members.items():
if (
cls_name != DiffusionPipeline.__name__
and issubclass(cls , __snake_case )
and cls.__module__.split('''.''' )[0] != "diffusers"
):
if pipeline_class is not None:
raise ValueError(
F'''Multiple classes that inherit from {DiffusionPipeline.__name__} have been found:'''
F''' {pipeline_class.__name__}, and {cls_name}. Please make sure to define only one in'''
F''' {loaded_module}.''' )
lowerCamelCase_ =cls
return pipeline_class
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : str , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =str(__snake_case )
lowerCamelCase_ =os.path.join(__snake_case , __snake_case )
if os.path.isfile(__snake_case ):
lowerCamelCase_ =module_file_or_url
lowerCamelCase_ ='''local'''
elif pretrained_model_name_or_path.count('''/''' ) == 0:
lowerCamelCase_ =get_diffusers_versions()
# cut ".dev0"
lowerCamelCase_ ='''v''' + '''.'''.join(__version__.split('''.''' )[:3] )
# retrieve github version that matches
if revision is None:
lowerCamelCase_ =latest_version if latest_version[1:] in available_versions else '''main'''
logger.info(F'''Defaulting to latest_version: {revision}.''' )
elif revision in available_versions:
lowerCamelCase_ =F'''v{revision}'''
elif revision == "main":
lowerCamelCase_ =revision
else:
raise ValueError(
F'''`custom_revision`: {revision} does not exist. Please make sure to choose one of'''
F''' {', '.join(available_versions + ['main'] )}.''' )
# community pipeline on GitHub
lowerCamelCase_ =COMMUNITY_PIPELINES_URL.format(revision=__snake_case , pipeline=__snake_case )
try:
lowerCamelCase_ =cached_download(
__snake_case , cache_dir=__snake_case , force_download=__snake_case , proxies=__snake_case , resume_download=__snake_case , local_files_only=__snake_case , use_auth_token=__snake_case , )
lowerCamelCase_ ='''git'''
lowerCamelCase_ =pretrained_model_name_or_path + '''.py'''
except EnvironmentError:
logger.error(F'''Could not locate the {module_file} inside {pretrained_model_name_or_path}.''' )
raise
else:
try:
# Load from URL or cache if already cached
lowerCamelCase_ =hf_hub_download(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , proxies=__snake_case , resume_download=__snake_case , local_files_only=__snake_case , use_auth_token=__snake_case , )
lowerCamelCase_ =os.path.join('''local''' , '''--'''.join(pretrained_model_name_or_path.split('''/''' ) ) )
except EnvironmentError:
logger.error(F'''Could not locate the {module_file} inside {pretrained_model_name_or_path}.''' )
raise
# Check we have all the requirements in our environment
lowerCamelCase_ =check_imports(__snake_case )
# Now we move the module inside our cached dynamic modules.
lowerCamelCase_ =DIFFUSERS_DYNAMIC_MODULE_NAME + os.path.sep + submodule
create_dynamic_module(__snake_case )
lowerCamelCase_ =Path(__snake_case ) / full_submodule
if submodule == "local" or submodule == "git":
# We always copy local files (we could hash the file to see if there was a change, and give them the name of
# that hash, to only copy when there is a modification but it seems overkill for now).
# The only reason we do the copy is to avoid putting too many folders in sys.path.
shutil.copy(__snake_case , submodule_path / module_file )
for module_needed in modules_needed:
lowerCamelCase_ =F'''{module_needed}.py'''
shutil.copy(os.path.join(__snake_case , __snake_case ) , submodule_path / module_needed )
else:
# Get the commit hash
# TODO: we will get this info in the etag soon, so retrieve it from there and not here.
if isinstance(__snake_case , __snake_case ):
lowerCamelCase_ =use_auth_token
elif use_auth_token is True:
lowerCamelCase_ =HfFolder.get_token()
else:
lowerCamelCase_ =None
lowerCamelCase_ =model_info(__snake_case , revision=__snake_case , token=__snake_case ).sha
# The module file will end up being placed in a subfolder with the git hash of the repo. This way we get the
# benefit of versioning.
lowerCamelCase_ =submodule_path / commit_hash
lowerCamelCase_ =full_submodule + os.path.sep + commit_hash
create_dynamic_module(__snake_case )
if not (submodule_path / module_file).exists():
shutil.copy(__snake_case , submodule_path / module_file )
# Make sure we also have every file with relative
for module_needed in modules_needed:
if not (submodule_path / module_needed).exists():
get_cached_module_file(
__snake_case , F'''{module_needed}.py''' , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
return os.path.join(__snake_case , __snake_case )
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : str , __snake_case : Optional[str] = None , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , **__snake_case : Optional[int] , ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =get_cached_module_file(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
return get_class_in_module(__snake_case , final_module.replace('''.py''' , '''''' ) )
| 75 | 0 |
import logging
import os
import sys
from dataclasses import dataclass, field
from itertools import chain
from typing import Optional, Union
import datasets
import numpy as np
import torch
from datasets import load_dataset
import transformers
from transformers import (
AutoConfig,
AutoModelForMultipleChoice,
AutoTokenizer,
HfArgumentParser,
Trainer,
TrainingArguments,
default_data_collator,
set_seed,
)
from transformers.tokenization_utils_base import PreTrainedTokenizerBase
from transformers.trainer_utils import get_last_checkpoint
from transformers.utils import PaddingStrategy, check_min_version, send_example_telemetry
# Will error if the minimal version of Transformers is not installed. Remove at your own risks.
check_min_version('''4.31.0''')
a_ = logging.getLogger(__name__)
@dataclass
class lowercase__ :
a_ =field(
metadata={"""help""": """Path to pretrained model or model identifier from huggingface.co/models"""} )
a_ =field(
default=lowerCamelCase__, metadata={"""help""": """Pretrained config name or path if not the same as model_name"""} )
a_ =field(
default=lowerCamelCase__, metadata={"""help""": """Pretrained tokenizer name or path if not the same as model_name"""} )
a_ =field(
default=lowerCamelCase__, metadata={"""help""": """Where do you want to store the pretrained models downloaded from huggingface.co"""}, )
a_ =field(
default=lowerCamelCase__, metadata={"""help""": """Whether to use one of the fast tokenizer (backed by the tokenizers library) or not."""}, )
a_ =field(
default="""main""", metadata={"""help""": """The specific model version to use (can be a branch name, tag name or commit id)."""}, )
a_ =field(
default=lowerCamelCase__, metadata={
"""help""": (
"""Will use the token generated when running `huggingface-cli login` (necessary to use this script """
"""with private models)."""
)
}, )
@dataclass
class lowercase__ :
a_ =field(default=lowerCamelCase__, metadata={"""help""": """The input training data file (a text file)."""} )
a_ =field(
default=lowerCamelCase__, metadata={"""help""": """An optional input evaluation data file to evaluate the perplexity on (a text file)."""}, )
a_ =field(
default=lowerCamelCase__, metadata={"""help""": """Overwrite the cached training and evaluation sets"""} )
a_ =field(
default=lowerCamelCase__, metadata={"""help""": """The number of processes to use for the preprocessing."""}, )
a_ =field(
default=lowerCamelCase__, metadata={
"""help""": (
"""The maximum total input sequence length after tokenization. If passed, sequences longer """
"""than this will be truncated, sequences shorter will be padded."""
)
}, )
a_ =field(
default=lowerCamelCase__, metadata={
"""help""": (
"""Whether to pad all samples to the maximum sentence length. """
"""If False, will pad the samples dynamically when batching to the maximum length in the batch. More """
"""efficient on GPU but very bad for TPU."""
)
}, )
a_ =field(
default=lowerCamelCase__, metadata={
"""help""": (
"""For debugging purposes or quicker training, truncate the number of training examples to this """
"""value if set."""
)
}, )
a_ =field(
default=lowerCamelCase__, metadata={
"""help""": (
"""For debugging purposes or quicker training, truncate the number of evaluation examples to this """
"""value if set."""
)
}, )
def UpperCAmelCase ( self )-> Tuple:
'''simple docstring'''
if self.train_file is not None:
lowerCAmelCase__ = self.train_file.split("." )[-1]
assert extension in ["csv", "json"], "`train_file` should be a csv or a json file."
if self.validation_file is not None:
lowerCAmelCase__ = self.validation_file.split("." )[-1]
assert extension in ["csv", "json"], "`validation_file` should be a csv or a json file."
@dataclass
class lowercase__ :
a_ =42
a_ =True
a_ =None
a_ =None
def __call__( self , __UpperCAmelCase )-> str:
'''simple docstring'''
lowerCAmelCase__ = "label" if "label" in features[0].keys() else "labels"
lowerCAmelCase__ = [feature.pop(__UpperCAmelCase ) for feature in features]
lowerCAmelCase__ = len(__UpperCAmelCase )
lowerCAmelCase__ = len(features[0]["input_ids"] )
lowerCAmelCase__ = [
[{k: v[i] for k, v in feature.items()} for i in range(__UpperCAmelCase )] for feature in features
]
lowerCAmelCase__ = list(chain(*__UpperCAmelCase ) )
lowerCAmelCase__ = self.tokenizer.pad(
__UpperCAmelCase , padding=self.padding , max_length=self.max_length , pad_to_multiple_of=self.pad_to_multiple_of , return_tensors="pt" , )
# Un-flatten
lowerCAmelCase__ = {k: v.view(__UpperCAmelCase , __UpperCAmelCase , -1 ) for k, v in batch.items()}
# Add back labels
lowerCAmelCase__ = torch.tensor(__UpperCAmelCase , dtype=torch.intaa )
return batch
def _a ( ) -> Optional[Any]:
"""simple docstring"""
lowerCAmelCase__ = HfArgumentParser((ModelArguments, DataTrainingArguments, TrainingArguments) )
if len(sys.argv ) == 2 and sys.argv[1].endswith(".json" ):
# If we pass only one argument to the script and it's the path to a json file,
# let's parse it to get our arguments.
lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ = parser.parse_json_file(json_file=os.path.abspath(sys.argv[1] ) )
else:
lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ = parser.parse_args_into_dataclasses()
# Sending telemetry. Tracking the example usage helps us better allocate resources to maintain them. The
# information sent is the one passed as arguments along with your Python/PyTorch versions.
send_example_telemetry("run_swag" , __snake_case , __snake_case )
# Setup logging
logging.basicConfig(
format="%(asctime)s - %(levelname)s - %(name)s - %(message)s" , datefmt="%m/%d/%Y %H:%M:%S" , handlers=[logging.StreamHandler(sys.stdout )] , )
if training_args.should_log:
# The default of training_args.log_level is passive, so we set log level at info here to have that default.
transformers.utils.logging.set_verbosity_info()
lowerCAmelCase__ = training_args.get_process_log_level()
logger.setLevel(__snake_case )
datasets.utils.logging.set_verbosity(__snake_case )
transformers.utils.logging.set_verbosity(__snake_case )
transformers.utils.logging.enable_default_handler()
transformers.utils.logging.enable_explicit_format()
# Log on each process the small summary:
logger.warning(
F"Process rank: {training_args.local_rank}, device: {training_args.device}, n_gpu: {training_args.n_gpu}"
+ F"distributed training: {bool(training_args.local_rank != -1 )}, 16-bits training: {training_args.fpaa}" )
logger.info(F"Training/evaluation parameters {training_args}" )
# Detecting last checkpoint.
lowerCAmelCase__ = None
if os.path.isdir(training_args.output_dir ) and training_args.do_train and not training_args.overwrite_output_dir:
lowerCAmelCase__ = get_last_checkpoint(training_args.output_dir )
if last_checkpoint is None and len(os.listdir(training_args.output_dir ) ) > 0:
raise ValueError(
F"Output directory ({training_args.output_dir}) already exists and is not empty. "
"Use --overwrite_output_dir to overcome." )
elif last_checkpoint is not None and training_args.resume_from_checkpoint is None:
logger.info(
F"Checkpoint detected, resuming training at {last_checkpoint}. To avoid this behavior, change "
"the `--output_dir` or add `--overwrite_output_dir` to train from scratch." )
# Set seed before initializing model.
set_seed(training_args.seed )
# Get the datasets: you can either provide your own CSV/JSON/TXT training and evaluation files (see below)
# or just provide the name of one of the public datasets available on the hub at https://huggingface.co/datasets/
# (the dataset will be downloaded automatically from the datasets Hub).
# For CSV/JSON files, this script will use the column called 'text' or the first column if no column called
# 'text' is found. You can easily tweak this behavior (see below).
# In distributed training, the load_dataset function guarantee that only one local process can concurrently
# download the dataset.
if data_args.train_file is not None or data_args.validation_file is not None:
lowerCAmelCase__ = {}
if data_args.train_file is not None:
lowerCAmelCase__ = data_args.train_file
if data_args.validation_file is not None:
lowerCAmelCase__ = data_args.validation_file
lowerCAmelCase__ = data_args.train_file.split("." )[-1]
lowerCAmelCase__ = load_dataset(
__snake_case , data_files=__snake_case , cache_dir=model_args.cache_dir , use_auth_token=True if model_args.use_auth_token else None , )
else:
# Downloading and loading the swag dataset from the hub.
lowerCAmelCase__ = load_dataset(
"swag" , "regular" , cache_dir=model_args.cache_dir , use_auth_token=True if model_args.use_auth_token else None , )
# See more about loading any type of standard or custom dataset (from files, python dict, pandas DataFrame, etc) at
# https://huggingface.co/docs/datasets/loading_datasets.html.
# Load pretrained model and tokenizer
# Distributed training:
# The .from_pretrained methods guarantee that only one local process can concurrently
# download model & vocab.
lowerCAmelCase__ = AutoConfig.from_pretrained(
model_args.config_name if model_args.config_name else model_args.model_name_or_path , cache_dir=model_args.cache_dir , revision=model_args.model_revision , use_auth_token=True if model_args.use_auth_token else None , )
lowerCAmelCase__ = AutoTokenizer.from_pretrained(
model_args.tokenizer_name if model_args.tokenizer_name else model_args.model_name_or_path , cache_dir=model_args.cache_dir , use_fast=model_args.use_fast_tokenizer , revision=model_args.model_revision , use_auth_token=True if model_args.use_auth_token else None , )
lowerCAmelCase__ = AutoModelForMultipleChoice.from_pretrained(
model_args.model_name_or_path , from_tf=bool(".ckpt" in model_args.model_name_or_path ) , config=__snake_case , cache_dir=model_args.cache_dir , revision=model_args.model_revision , use_auth_token=True if model_args.use_auth_token else None , )
# When using your own dataset or a different dataset from swag, you will probably need to change this.
lowerCAmelCase__ = [F"ending{i}" for i in range(4 )]
lowerCAmelCase__ = "sent1"
lowerCAmelCase__ = "sent2"
if data_args.max_seq_length is None:
lowerCAmelCase__ = tokenizer.model_max_length
if max_seq_length > 1_024:
logger.warning(
"The chosen tokenizer supports a `model_max_length` that is longer than the default `block_size` value"
" of 1024. If you would like to use a longer `block_size` up to `tokenizer.model_max_length` you can"
" override this default with `--block_size xxx`." )
lowerCAmelCase__ = 1_024
else:
if data_args.max_seq_length > tokenizer.model_max_length:
logger.warning(
F"The max_seq_length passed ({data_args.max_seq_length}) is larger than the maximum length for the"
F"model ({tokenizer.model_max_length}). Using max_seq_length={tokenizer.model_max_length}." )
lowerCAmelCase__ = min(data_args.max_seq_length , tokenizer.model_max_length )
# Preprocessing the datasets.
def preprocess_function(UpperCamelCase_ : Optional[int] ):
lowerCAmelCase__ = [[context] * 4 for context in examples[context_name]]
lowerCAmelCase__ = examples[question_header_name]
lowerCAmelCase__ = [
[F"{header} {examples[end][i]}" for end in ending_names] for i, header in enumerate(__snake_case )
]
# Flatten out
lowerCAmelCase__ = list(chain(*__snake_case ) )
lowerCAmelCase__ = list(chain(*__snake_case ) )
# Tokenize
lowerCAmelCase__ = tokenizer(
__snake_case , __snake_case , truncation=__snake_case , max_length=__snake_case , padding="max_length" if data_args.pad_to_max_length else False , )
# Un-flatten
return {k: [v[i : i + 4] for i in range(0 , len(__snake_case ) , 4 )] for k, v in tokenized_examples.items()}
if training_args.do_train:
if "train" not in raw_datasets:
raise ValueError("--do_train requires a train dataset" )
lowerCAmelCase__ = raw_datasets["train"]
if data_args.max_train_samples is not None:
lowerCAmelCase__ = min(len(__snake_case ) , data_args.max_train_samples )
lowerCAmelCase__ = train_dataset.select(range(__snake_case ) )
with training_args.main_process_first(desc="train dataset map pre-processing" ):
lowerCAmelCase__ = train_dataset.map(
__snake_case , batched=__snake_case , num_proc=data_args.preprocessing_num_workers , load_from_cache_file=not data_args.overwrite_cache , )
if training_args.do_eval:
if "validation" not in raw_datasets:
raise ValueError("--do_eval requires a validation dataset" )
lowerCAmelCase__ = raw_datasets["validation"]
if data_args.max_eval_samples is not None:
lowerCAmelCase__ = min(len(__snake_case ) , data_args.max_eval_samples )
lowerCAmelCase__ = eval_dataset.select(range(__snake_case ) )
with training_args.main_process_first(desc="validation dataset map pre-processing" ):
lowerCAmelCase__ = eval_dataset.map(
__snake_case , batched=__snake_case , num_proc=data_args.preprocessing_num_workers , load_from_cache_file=not data_args.overwrite_cache , )
# Data collator
lowerCAmelCase__ = (
default_data_collator
if data_args.pad_to_max_length
else DataCollatorForMultipleChoice(tokenizer=__snake_case , pad_to_multiple_of=8 if training_args.fpaa else None )
)
# Metric
def compute_metrics(UpperCamelCase_ : Tuple ):
lowerCAmelCase__ , lowerCAmelCase__ = eval_predictions
lowerCAmelCase__ = np.argmax(__snake_case , axis=1 )
return {"accuracy": (preds == label_ids).astype(np.floataa ).mean().item()}
# Initialize our Trainer
lowerCAmelCase__ = Trainer(
model=__snake_case , args=__snake_case , train_dataset=train_dataset if training_args.do_train else None , eval_dataset=eval_dataset if training_args.do_eval else None , tokenizer=__snake_case , data_collator=__snake_case , compute_metrics=__snake_case , )
# Training
if training_args.do_train:
lowerCAmelCase__ = None
if training_args.resume_from_checkpoint is not None:
lowerCAmelCase__ = training_args.resume_from_checkpoint
elif last_checkpoint is not None:
lowerCAmelCase__ = last_checkpoint
lowerCAmelCase__ = trainer.train(resume_from_checkpoint=__snake_case )
trainer.save_model() # Saves the tokenizer too for easy upload
lowerCAmelCase__ = train_result.metrics
lowerCAmelCase__ = (
data_args.max_train_samples if data_args.max_train_samples is not None else len(__snake_case )
)
lowerCAmelCase__ = min(__snake_case , len(__snake_case ) )
trainer.log_metrics("train" , __snake_case )
trainer.save_metrics("train" , __snake_case )
trainer.save_state()
# Evaluation
if training_args.do_eval:
logger.info("*** Evaluate ***" )
lowerCAmelCase__ = trainer.evaluate()
lowerCAmelCase__ = data_args.max_eval_samples if data_args.max_eval_samples is not None else len(__snake_case )
lowerCAmelCase__ = min(__snake_case , len(__snake_case ) )
trainer.log_metrics("eval" , __snake_case )
trainer.save_metrics("eval" , __snake_case )
lowerCAmelCase__ = {
"finetuned_from": model_args.model_name_or_path,
"tasks": "multiple-choice",
"dataset_tags": "swag",
"dataset_args": "regular",
"dataset": "SWAG",
"language": "en",
}
if training_args.push_to_hub:
trainer.push_to_hub(**__snake_case )
else:
trainer.create_model_card(**__snake_case )
def _a ( UpperCamelCase_ : Dict ) -> Union[str, Any]:
"""simple docstring"""
main()
if __name__ == "__main__":
main()
| 340 |
'''simple docstring'''
a_ : Any = [
9_99,
8_00,
7_99,
6_00,
5_99,
5_00,
4_00,
3_99,
3_77,
3_55,
3_33,
3_11,
2_88,
2_66,
2_44,
2_22,
2_00,
1_99,
1_77,
1_55,
1_33,
1_11,
88,
66,
44,
22,
0,
]
a_ : Any = [
9_99,
9_76,
9_52,
9_28,
9_05,
8_82,
8_58,
8_57,
8_10,
7_62,
7_15,
7_14,
5_72,
4_29,
4_28,
2_86,
2_85,
2_38,
1_90,
1_43,
1_42,
1_18,
95,
71,
47,
24,
0,
]
a_ : Optional[Any] = [
9_99,
9_88,
9_77,
9_66,
9_55,
9_44,
9_33,
9_22,
9_11,
9_00,
8_99,
8_79,
8_59,
8_40,
8_20,
8_00,
7_99,
7_66,
7_33,
7_00,
6_99,
6_50,
6_00,
5_99,
5_00,
4_99,
4_00,
3_99,
3_50,
3_00,
2_99,
2_66,
2_33,
2_00,
1_99,
1_79,
1_59,
1_40,
1_20,
1_00,
99,
88,
77,
66,
55,
44,
33,
22,
11,
0,
]
a_ : str = [
9_99,
9_95,
9_92,
9_89,
9_85,
9_81,
9_78,
9_75,
9_71,
9_67,
9_64,
9_61,
9_57,
9_56,
9_51,
9_47,
9_42,
9_37,
9_33,
9_28,
9_23,
9_19,
9_14,
9_13,
9_08,
9_03,
8_97,
8_92,
8_87,
8_81,
8_76,
8_71,
8_70,
8_64,
8_58,
8_52,
8_46,
8_40,
8_34,
8_28,
8_27,
8_20,
8_13,
8_06,
7_99,
7_92,
7_85,
7_84,
7_77,
7_70,
7_63,
7_56,
7_49,
7_42,
7_41,
7_33,
7_24,
7_16,
7_07,
6_99,
6_98,
6_88,
6_77,
6_66,
6_56,
6_55,
6_45,
6_34,
6_23,
6_13,
6_12,
5_98,
5_84,
5_70,
5_69,
5_55,
5_41,
5_27,
5_26,
5_05,
4_84,
4_83,
4_62,
4_40,
4_39,
3_96,
3_95,
3_52,
3_51,
3_08,
3_07,
2_64,
2_63,
2_20,
2_19,
1_76,
1_32,
88,
44,
0,
]
a_ : Optional[int] = [
9_99,
9_97,
9_95,
9_92,
9_90,
9_88,
9_86,
9_84,
9_81,
9_79,
9_77,
9_75,
9_72,
9_70,
9_68,
9_66,
9_64,
9_61,
9_59,
9_57,
9_56,
9_54,
9_51,
9_49,
9_46,
9_44,
9_41,
9_39,
9_36,
9_34,
9_31,
9_29,
9_26,
9_24,
9_21,
9_19,
9_16,
9_14,
9_13,
9_10,
9_07,
9_05,
9_02,
8_99,
8_96,
8_93,
8_91,
8_88,
8_85,
8_82,
8_79,
8_77,
8_74,
8_71,
8_70,
8_67,
8_64,
8_61,
8_58,
8_55,
8_52,
8_49,
8_46,
8_43,
8_40,
8_37,
8_34,
8_31,
8_28,
8_27,
8_24,
8_21,
8_17,
8_14,
8_11,
8_08,
8_04,
8_01,
7_98,
7_95,
7_91,
7_88,
7_85,
7_84,
7_80,
7_77,
7_74,
7_70,
7_66,
7_63,
7_60,
7_56,
7_52,
7_49,
7_46,
7_42,
7_41,
7_37,
7_33,
7_30,
7_26,
7_22,
7_18,
7_14,
7_10,
7_07,
7_03,
6_99,
6_98,
6_94,
6_90,
6_85,
6_81,
6_77,
6_73,
6_69,
6_64,
6_60,
6_56,
6_55,
6_50,
6_46,
6_41,
6_36,
6_32,
6_27,
6_22,
6_18,
6_13,
6_12,
6_07,
6_02,
5_96,
5_91,
5_86,
5_80,
5_75,
5_70,
5_69,
5_63,
5_57,
5_51,
5_45,
5_39,
5_33,
5_27,
5_26,
5_19,
5_12,
5_05,
4_98,
4_91,
4_84,
4_83,
4_74,
4_66,
4_57,
4_49,
4_40,
4_39,
4_28,
4_18,
4_07,
3_96,
3_95,
3_81,
3_66,
3_52,
3_51,
3_30,
3_08,
3_07,
2_86,
2_64,
2_63,
2_42,
2_20,
2_19,
1_76,
1_75,
1_32,
1_31,
88,
44,
0,
]
a_ : Dict = [
9_99,
9_91,
9_82,
9_74,
9_66,
9_58,
9_50,
9_41,
9_33,
9_25,
9_16,
9_08,
9_00,
8_99,
8_74,
8_50,
8_25,
8_00,
7_99,
7_00,
6_00,
5_00,
4_00,
3_00,
2_00,
1_00,
0,
]
a_ : Tuple = [
9_99,
9_92,
9_85,
9_78,
9_71,
9_64,
9_57,
9_49,
9_42,
9_35,
9_28,
9_21,
9_14,
9_07,
9_00,
8_99,
8_79,
8_59,
8_40,
8_20,
8_00,
7_99,
7_66,
7_33,
7_00,
6_99,
6_50,
6_00,
5_99,
5_00,
4_99,
4_00,
3_99,
3_00,
2_99,
2_00,
1_99,
1_00,
99,
0,
]
a_ : Any = [
9_99,
9_96,
9_92,
9_89,
9_85,
9_82,
9_79,
9_75,
9_72,
9_68,
9_65,
9_61,
9_58,
9_55,
9_51,
9_48,
9_44,
9_41,
9_38,
9_34,
9_31,
9_27,
9_24,
9_20,
9_17,
9_14,
9_10,
9_07,
9_03,
9_00,
8_99,
8_91,
8_84,
8_76,
8_69,
8_61,
8_53,
8_46,
8_38,
8_30,
8_23,
8_15,
8_08,
8_00,
7_99,
7_88,
7_77,
7_66,
7_55,
7_44,
7_33,
7_22,
7_11,
7_00,
6_99,
6_88,
6_77,
6_66,
6_55,
6_44,
6_33,
6_22,
6_11,
6_00,
5_99,
5_85,
5_71,
5_57,
5_42,
5_28,
5_14,
5_00,
4_99,
4_85,
4_71,
4_57,
4_42,
4_28,
4_14,
4_00,
3_99,
3_79,
3_59,
3_40,
3_20,
3_00,
2_99,
2_79,
2_59,
2_40,
2_20,
2_00,
1_99,
1_66,
1_33,
1_00,
99,
66,
33,
0,
]
| 75 | 0 |
'''simple docstring'''
def UpperCamelCase__ ( lowerCAmelCase = 60_08_51_47_51_43 ):
"""simple docstring"""
try:
_lowerCAmelCase = int(__snake_case )
except (TypeError, ValueError):
raise TypeError("""Parameter n must be int or castable to int.""" )
if n <= 0:
raise ValueError("""Parameter n must be greater than or equal to one.""" )
_lowerCAmelCase = 2
_lowerCAmelCase = 0
if n == 2:
return 2
while n > 2:
while n % i != 0:
i += 1
_lowerCAmelCase = i
while n % i == 0:
_lowerCAmelCase = n // i
i += 1
return int(__snake_case )
if __name__ == "__main__":
print(F"""{solution() = }""")
| 70 |
'''simple docstring'''
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
a_ : Union[str, Any] = {
"""configuration_funnel""": ["""FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP""", """FunnelConfig"""],
"""convert_funnel_original_tf_checkpoint_to_pytorch""": [],
"""tokenization_funnel""": ["""FunnelTokenizer"""],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : List[str] = ["""FunnelTokenizerFast"""]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : Optional[int] = [
"""FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""FunnelBaseModel""",
"""FunnelForMaskedLM""",
"""FunnelForMultipleChoice""",
"""FunnelForPreTraining""",
"""FunnelForQuestionAnswering""",
"""FunnelForSequenceClassification""",
"""FunnelForTokenClassification""",
"""FunnelModel""",
"""FunnelPreTrainedModel""",
"""load_tf_weights_in_funnel""",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : Optional[Any] = [
"""TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""TFFunnelBaseModel""",
"""TFFunnelForMaskedLM""",
"""TFFunnelForMultipleChoice""",
"""TFFunnelForPreTraining""",
"""TFFunnelForQuestionAnswering""",
"""TFFunnelForSequenceClassification""",
"""TFFunnelForTokenClassification""",
"""TFFunnelModel""",
"""TFFunnelPreTrainedModel""",
]
if TYPE_CHECKING:
from .configuration_funnel import FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP, FunnelConfig
from .tokenization_funnel import FunnelTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_funnel_fast import FunnelTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_funnel import (
FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST,
FunnelBaseModel,
FunnelForMaskedLM,
FunnelForMultipleChoice,
FunnelForPreTraining,
FunnelForQuestionAnswering,
FunnelForSequenceClassification,
FunnelForTokenClassification,
FunnelModel,
FunnelPreTrainedModel,
load_tf_weights_in_funnel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_funnel import (
TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST,
TFFunnelBaseModel,
TFFunnelForMaskedLM,
TFFunnelForMultipleChoice,
TFFunnelForPreTraining,
TFFunnelForQuestionAnswering,
TFFunnelForSequenceClassification,
TFFunnelForTokenClassification,
TFFunnelModel,
TFFunnelPreTrainedModel,
)
else:
import sys
a_ : str = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)
| 75 | 0 |
"""simple docstring"""
import json
import pathlib
import unittest
import numpy as np
from transformers.testing_utils import require_torch, require_vision, slow
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
if is_vision_available():
from PIL import Image
from transformers import DetaImageProcessor
class __magic_name__ ( unittest.TestCase ):
'''simple docstring'''
def __init__( self , _a , _a=7 , _a=3 , _a=30 , _a=400 , _a=True , _a=None , _a=True , _a=[0.5, 0.5, 0.5] , _a=[0.5, 0.5, 0.5] , _a=True , _a=1 / 255 , _a=True , ):
"""simple docstring"""
lowerCamelCase = size if size is not None else {"""shortest_edge""": 18, """longest_edge""": 1_333}
lowerCamelCase = parent
lowerCamelCase = batch_size
lowerCamelCase = num_channels
lowerCamelCase = min_resolution
lowerCamelCase = max_resolution
lowerCamelCase = do_resize
lowerCamelCase = size
lowerCamelCase = do_normalize
lowerCamelCase = image_mean
lowerCamelCase = image_std
lowerCamelCase = do_rescale
lowerCamelCase = rescale_factor
lowerCamelCase = do_pad
def _lowerCAmelCase ( self ):
"""simple docstring"""
return {
"do_resize": self.do_resize,
"size": self.size,
"do_normalize": self.do_normalize,
"image_mean": self.image_mean,
"image_std": self.image_std,
"do_rescale": self.do_rescale,
"rescale_factor": self.rescale_factor,
"do_pad": self.do_pad,
}
def _lowerCAmelCase ( self , _a , _a=False ):
"""simple docstring"""
if not batched:
lowerCamelCase = image_inputs[0]
if isinstance(_a , Image.Image ):
lowerCamelCase , lowerCamelCase = image.size
else:
lowerCamelCase , lowerCamelCase = image.shape[1], image.shape[2]
if w < h:
lowerCamelCase = int(self.size["""shortest_edge"""] * h / w )
lowerCamelCase = self.size["""shortest_edge"""]
elif w > h:
lowerCamelCase = self.size["""shortest_edge"""]
lowerCamelCase = int(self.size["""shortest_edge"""] * w / h )
else:
lowerCamelCase = self.size["""shortest_edge"""]
lowerCamelCase = self.size["""shortest_edge"""]
else:
lowerCamelCase = []
for image in image_inputs:
lowerCamelCase , lowerCamelCase = self.get_expected_values([image] )
expected_values.append((expected_height, expected_width) )
lowerCamelCase = max(_a , key=lambda _a : item[0] )[0]
lowerCamelCase = max(_a , key=lambda _a : item[1] )[1]
return expected_height, expected_width
@require_torch
@require_vision
class __magic_name__ ( lowerCamelCase__ , unittest.TestCase ):
'''simple docstring'''
__UpperCamelCase = DetaImageProcessor if is_vision_available() else None
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = DetaImageProcessingTester(self )
@property
def _lowerCAmelCase ( self ):
"""simple docstring"""
return self.image_processor_tester.prepare_image_processor_dict()
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = self.image_processing_class(**self.image_processor_dict )
self.assertTrue(hasattr(_a , """image_mean""" ) )
self.assertTrue(hasattr(_a , """image_std""" ) )
self.assertTrue(hasattr(_a , """do_normalize""" ) )
self.assertTrue(hasattr(_a , """do_resize""" ) )
self.assertTrue(hasattr(_a , """do_rescale""" ) )
self.assertTrue(hasattr(_a , """do_pad""" ) )
self.assertTrue(hasattr(_a , """size""" ) )
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = self.image_processing_class.from_dict(self.image_processor_dict )
self.assertEqual(image_processor.size , {"""shortest_edge""": 18, """longest_edge""": 1_333} )
self.assertEqual(image_processor.do_pad , _a )
def _lowerCAmelCase ( self ):
"""simple docstring"""
pass
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = self.image_processing_class(**self.image_processor_dict )
# create random PIL images
lowerCamelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=_a )
for image in image_inputs:
self.assertIsInstance(_a , Image.Image )
# Test not batched input
lowerCamelCase = image_processing(image_inputs[0] , return_tensors="""pt""" ).pixel_values
lowerCamelCase , lowerCamelCase = self.image_processor_tester.get_expected_values(_a )
self.assertEqual(
encoded_images.shape , (1, self.image_processor_tester.num_channels, expected_height, expected_width) , )
# Test batched
lowerCamelCase , lowerCamelCase = self.image_processor_tester.get_expected_values(_a , batched=_a )
lowerCamelCase = image_processing(_a , return_tensors="""pt""" ).pixel_values
self.assertEqual(
encoded_images.shape , (
self.image_processor_tester.batch_size,
self.image_processor_tester.num_channels,
expected_height,
expected_width,
) , )
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = self.image_processing_class(**self.image_processor_dict )
# create random numpy tensors
lowerCamelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=_a , numpify=_a )
for image in image_inputs:
self.assertIsInstance(_a , np.ndarray )
# Test not batched input
lowerCamelCase = image_processing(image_inputs[0] , return_tensors="""pt""" ).pixel_values
lowerCamelCase , lowerCamelCase = self.image_processor_tester.get_expected_values(_a )
self.assertEqual(
encoded_images.shape , (1, self.image_processor_tester.num_channels, expected_height, expected_width) , )
# Test batched
lowerCamelCase = image_processing(_a , return_tensors="""pt""" ).pixel_values
lowerCamelCase , lowerCamelCase = self.image_processor_tester.get_expected_values(_a , batched=_a )
self.assertEqual(
encoded_images.shape , (
self.image_processor_tester.batch_size,
self.image_processor_tester.num_channels,
expected_height,
expected_width,
) , )
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = self.image_processing_class(**self.image_processor_dict )
# create random PyTorch tensors
lowerCamelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=_a , torchify=_a )
for image in image_inputs:
self.assertIsInstance(_a , torch.Tensor )
# Test not batched input
lowerCamelCase = image_processing(image_inputs[0] , return_tensors="""pt""" ).pixel_values
lowerCamelCase , lowerCamelCase = self.image_processor_tester.get_expected_values(_a )
self.assertEqual(
encoded_images.shape , (1, self.image_processor_tester.num_channels, expected_height, expected_width) , )
# Test batched
lowerCamelCase = image_processing(_a , return_tensors="""pt""" ).pixel_values
lowerCamelCase , lowerCamelCase = self.image_processor_tester.get_expected_values(_a , batched=_a )
self.assertEqual(
encoded_images.shape , (
self.image_processor_tester.batch_size,
self.image_processor_tester.num_channels,
expected_height,
expected_width,
) , )
@slow
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" )
with open("""./tests/fixtures/tests_samples/COCO/coco_annotations.txt""" , """r""" ) as f:
lowerCamelCase = json.loads(f.read() )
lowerCamelCase = {"""image_id""": 39_769, """annotations""": target}
# encode them
lowerCamelCase = DetaImageProcessor()
lowerCamelCase = image_processing(images=_a , annotations=_a , return_tensors="""pt""" )
# verify pixel values
lowerCamelCase = torch.Size([1, 3, 800, 1_066] )
self.assertEqual(encoding["""pixel_values"""].shape , _a )
lowerCamelCase = torch.tensor([0.2_796, 0.3_138, 0.3_481] )
self.assertTrue(torch.allclose(encoding["""pixel_values"""][0, 0, 0, :3] , _a , atol=1e-4 ) )
# verify area
lowerCamelCase = torch.tensor([5_887.9_600, 11_250.2_061, 489_353.8_438, 837_122.7_500, 147_967.5_156, 165_732.3_438] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""area"""] , _a ) )
# verify boxes
lowerCamelCase = torch.Size([6, 4] )
self.assertEqual(encoding["""labels"""][0]["""boxes"""].shape , _a )
lowerCamelCase = torch.tensor([0.5_503, 0.2_765, 0.0_604, 0.2_215] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""boxes"""][0] , _a , atol=1e-3 ) )
# verify image_id
lowerCamelCase = torch.tensor([39_769] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""image_id"""] , _a ) )
# verify is_crowd
lowerCamelCase = torch.tensor([0, 0, 0, 0, 0, 0] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""iscrowd"""] , _a ) )
# verify class_labels
lowerCamelCase = torch.tensor([75, 75, 63, 65, 17, 17] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""class_labels"""] , _a ) )
# verify orig_size
lowerCamelCase = torch.tensor([480, 640] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""orig_size"""] , _a ) )
# verify size
lowerCamelCase = torch.tensor([800, 1_066] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""size"""] , _a ) )
@slow
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" )
with open("""./tests/fixtures/tests_samples/COCO/coco_panoptic_annotations.txt""" , """r""" ) as f:
lowerCamelCase = json.loads(f.read() )
lowerCamelCase = {"""file_name""": """000000039769.png""", """image_id""": 39_769, """segments_info""": target}
lowerCamelCase = pathlib.Path("""./tests/fixtures/tests_samples/COCO/coco_panoptic""" )
# encode them
lowerCamelCase = DetaImageProcessor(format="""coco_panoptic""" )
lowerCamelCase = image_processing(images=_a , annotations=_a , masks_path=_a , return_tensors="""pt""" )
# verify pixel values
lowerCamelCase = torch.Size([1, 3, 800, 1_066] )
self.assertEqual(encoding["""pixel_values"""].shape , _a )
lowerCamelCase = torch.tensor([0.2_796, 0.3_138, 0.3_481] )
self.assertTrue(torch.allclose(encoding["""pixel_values"""][0, 0, 0, :3] , _a , atol=1e-4 ) )
# verify area
lowerCamelCase = torch.tensor([147_979.6_875, 165_527.0_469, 484_638.5_938, 11_292.9_375, 5_879.6_562, 7_634.1_147] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""area"""] , _a ) )
# verify boxes
lowerCamelCase = torch.Size([6, 4] )
self.assertEqual(encoding["""labels"""][0]["""boxes"""].shape , _a )
lowerCamelCase = torch.tensor([0.2_625, 0.5_437, 0.4_688, 0.8_625] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""boxes"""][0] , _a , atol=1e-3 ) )
# verify image_id
lowerCamelCase = torch.tensor([39_769] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""image_id"""] , _a ) )
# verify is_crowd
lowerCamelCase = torch.tensor([0, 0, 0, 0, 0, 0] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""iscrowd"""] , _a ) )
# verify class_labels
lowerCamelCase = torch.tensor([17, 17, 63, 75, 75, 93] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""class_labels"""] , _a ) )
# verify masks
lowerCamelCase = 822_873
self.assertEqual(encoding["""labels"""][0]["""masks"""].sum().item() , _a )
# verify orig_size
lowerCamelCase = torch.tensor([480, 640] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""orig_size"""] , _a ) )
# verify size
lowerCamelCase = torch.tensor([800, 1_066] )
self.assertTrue(torch.allclose(encoding["""labels"""][0]["""size"""] , _a ) )
| 291 |
'''simple docstring'''
import json
import os
import shutil
import tempfile
import unittest
from multiprocessing import get_context
from pathlib import Path
import datasets
import numpy as np
from datasets import load_dataset
from parameterized import parameterized
from transformers import AutoProcessor
from transformers.models.wavaveca import WavaVecaCTCTokenizer, WavaVecaFeatureExtractor
from transformers.models.wavaveca.tokenization_wavaveca import VOCAB_FILES_NAMES
from transformers.testing_utils import require_pyctcdecode, require_torch, require_torchaudio, slow
from transformers.utils import FEATURE_EXTRACTOR_NAME, is_pyctcdecode_available, is_torch_available
from ..wavaveca.test_feature_extraction_wavaveca import floats_list
if is_pyctcdecode_available():
from huggingface_hub import snapshot_download
from pyctcdecode import BeamSearchDecoderCTC
from transformers.models.wavaveca_with_lm import WavaVecaProcessorWithLM
from transformers.models.wavaveca_with_lm.processing_wavaveca_with_lm import WavaVecaDecoderWithLMOutput
if is_torch_available():
from transformers import WavaVecaForCTC
@require_pyctcdecode
class __UpperCamelCase ( unittest.TestCase ):
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''| <pad> <unk> <s> </s> a b c d e f g h i j k'''.split()
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ ={
'''unk_token''': '''<unk>''',
'''bos_token''': '''<s>''',
'''eos_token''': '''</s>''',
}
lowerCamelCase_ ={
'''feature_size''': 1,
'''padding_value''': 0.0,
'''sampling_rate''': 16_000,
'''return_attention_mask''': False,
'''do_normalize''': True,
}
lowerCamelCase_ =tempfile.mkdtemp()
lowerCamelCase_ =os.path.join(self.tmpdirname, VOCAB_FILES_NAMES['''vocab_file'''] )
lowerCamelCase_ =os.path.join(self.tmpdirname, lowerCAmelCase )
with open(self.vocab_file, '''w''', encoding='''utf-8''' ) as fp:
fp.write(json.dumps(lowerCAmelCase ) + '''\n''' )
with open(self.feature_extraction_file, '''w''', encoding='''utf-8''' ) as fp:
fp.write(json.dumps(lowerCAmelCase ) + '''\n''' )
# load decoder from hub
lowerCamelCase_ ='''hf-internal-testing/ngram-beam-search-decoder'''
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =self.add_kwargs_tokens_map.copy()
kwargs.update(lowerCAmelCase )
return WavaVecaCTCTokenizer.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return WavaVecaFeatureExtractor.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return BeamSearchDecoderCTC.load_from_hf_hub(self.decoder_name, **lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
shutil.rmtree(self.tmpdirname )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
processor.save_pretrained(self.tmpdirname )
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(self.tmpdirname )
# tokenizer
self.assertEqual(processor.tokenizer.get_vocab(), tokenizer.get_vocab() )
self.assertIsInstance(processor.tokenizer, lowerCAmelCase )
# feature extractor
self.assertEqual(processor.feature_extractor.to_json_string(), feature_extractor.to_json_string() )
self.assertIsInstance(processor.feature_extractor, lowerCAmelCase )
# decoder
self.assertEqual(processor.decoder._alphabet.labels, decoder._alphabet.labels )
self.assertEqual(
processor.decoder.model_container[decoder._model_key]._unigram_set, decoder.model_container[decoder._model_key]._unigram_set, )
self.assertIsInstance(processor.decoder, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM(
tokenizer=self.get_tokenizer(), feature_extractor=self.get_feature_extractor(), decoder=self.get_decoder() )
processor.save_pretrained(self.tmpdirname )
# make sure that error is thrown when decoder alphabet doesn't match
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(
self.tmpdirname, alpha=5.0, beta=3.0, score_boundary=-7.0, unk_score_offset=3 )
# decoder
self.assertEqual(processor.language_model.alpha, 5.0 )
self.assertEqual(processor.language_model.beta, 3.0 )
self.assertEqual(processor.language_model.score_boundary, -7.0 )
self.assertEqual(processor.language_model.unk_score_offset, 3 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizer()
# add token to trigger raise
tokenizer.add_tokens(['''xx'''] )
with self.assertRaisesRegex(lowerCAmelCase, '''include''' ):
WavaVecaProcessorWithLM(
tokenizer=lowerCAmelCase, feature_extractor=self.get_feature_extractor(), decoder=self.get_decoder() )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =floats_list((3, 1_000) )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' )
lowerCamelCase_ =processor(lowerCAmelCase, 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 lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ ='''This is a test string'''
lowerCamelCase_ =processor(text=lowerCAmelCase )
lowerCamelCase_ =tokenizer(lowerCAmelCase )
for key in encoded_tok.keys():
self.assertListEqual(encoded_tok[key], encoded_processor[key] )
def lowercase__ ( self, lowerCAmelCase=(2, 10, 16), lowerCAmelCase=77 ):
"""simple docstring"""
np.random.seed(lowerCAmelCase )
return np.random.rand(*lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits(shape=(10, 16), seed=13 )
lowerCamelCase_ =processor.decode(lowerCAmelCase )
lowerCamelCase_ =decoder.decode_beams(lowerCAmelCase )[0]
self.assertEqual(decoded_decoder[0], decoded_processor.text )
self.assertEqual('''</s> <s> </s>''', decoded_processor.text )
self.assertEqual(decoded_decoder[-2], decoded_processor.logit_score )
self.assertEqual(decoded_decoder[-1], decoded_processor.lm_score )
@parameterized.expand([[None], ['''fork'''], ['''spawn''']] )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
# note: pool should be instantiated *after* Wav2Vec2ProcessorWithLM.
# otherwise, the LM won't be available to the pool's sub-processes.
# manual logic used to allow parameterized test for both pool=None and pool=Pool(...)
if pool_context is None:
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase )
else:
with get_context(lowerCAmelCase ).Pool() as pool:
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase, lowerCAmelCase )
lowerCamelCase_ =list(lowerCAmelCase )
with get_context('''fork''' ).Pool() as p:
lowerCamelCase_ =decoder.decode_beams_batch(lowerCAmelCase, lowerCAmelCase )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =[], [], []
for beams in decoded_beams:
texts_decoder.append(beams[0][0] )
logit_scores_decoder.append(beams[0][-2] )
lm_scores_decoder.append(beams[0][-1] )
self.assertListEqual(lowerCAmelCase, decoded_processor.text )
self.assertListEqual(['''<s> <s> </s>''', '''<s> <s> <s>'''], decoded_processor.text )
self.assertListEqual(lowerCAmelCase, decoded_processor.logit_score )
self.assertListEqual(lowerCAmelCase, decoded_processor.lm_score )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =15
lowerCamelCase_ =-2_0.0
lowerCamelCase_ =-4.0
lowerCamelCase_ =processor.batch_decode(
lowerCAmelCase, beam_width=lowerCAmelCase, beam_prune_logp=lowerCAmelCase, token_min_logp=lowerCAmelCase, )
lowerCamelCase_ =decoded_processor_out.text
lowerCamelCase_ =list(lowerCAmelCase )
with get_context('''fork''' ).Pool() as pool:
lowerCamelCase_ =decoder.decode_beams_batch(
lowerCAmelCase, lowerCAmelCase, beam_width=lowerCAmelCase, beam_prune_logp=lowerCAmelCase, token_min_logp=lowerCAmelCase, )
lowerCamelCase_ =[d[0][0] for d in decoded_decoder_out]
lowerCamelCase_ =[d[0][2] for d in decoded_decoder_out]
lowerCamelCase_ =[d[0][3] for d in decoded_decoder_out]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(['''</s> <s> <s>''', '''<s> <s> <s>'''], lowerCAmelCase )
self.assertTrue(np.array_equal(lowerCAmelCase, decoded_processor_out.logit_score ) )
self.assertTrue(np.allclose([-2_0.0_5_4, -1_8.4_4_7], lowerCAmelCase, atol=1e-3 ) )
self.assertTrue(np.array_equal(lowerCAmelCase, decoded_processor_out.lm_score ) )
self.assertTrue(np.allclose([-1_5.5_5_4, -1_3.9_4_7_4], lowerCAmelCase, atol=1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =2.0
lowerCamelCase_ =5.0
lowerCamelCase_ =-2_0.0
lowerCamelCase_ =True
lowerCamelCase_ =processor.batch_decode(
lowerCAmelCase, alpha=lowerCAmelCase, beta=lowerCAmelCase, unk_score_offset=lowerCAmelCase, lm_score_boundary=lowerCAmelCase, )
lowerCamelCase_ =decoded_processor_out.text
lowerCamelCase_ =list(lowerCAmelCase )
decoder.reset_params(
alpha=lowerCAmelCase, beta=lowerCAmelCase, unk_score_offset=lowerCAmelCase, lm_score_boundary=lowerCAmelCase, )
with get_context('''fork''' ).Pool() as pool:
lowerCamelCase_ =decoder.decode_beams_batch(
lowerCAmelCase, lowerCAmelCase, )
lowerCamelCase_ =[d[0][0] for d in decoded_decoder_out]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(['''<s> </s> <s> </s> </s>''', '''</s> </s> <s> </s> </s>'''], lowerCAmelCase )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
self.assertEqual(lm_model.alpha, 2.0 )
self.assertEqual(lm_model.beta, 5.0 )
self.assertEqual(lm_model.unk_score_offset, -2_0.0 )
self.assertEqual(lm_model.score_boundary, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
lowerCamelCase_ =Path(language_model._kenlm_model.path.decode('''utf-8''' ) ).parent.parent.absolute()
lowerCamelCase_ =os.listdir(lowerCAmelCase )
lowerCamelCase_ =['''alphabet.json''', '''language_model''']
downloaded_decoder_files.sort()
expected_decoder_files.sort()
# test that only decoder relevant files from
# https://huggingface.co/hf-internal-testing/processor_with_lm/tree/main
# are downloaded and none of the rest (e.g. README.md, ...)
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =snapshot_download('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(lowerCAmelCase )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
lowerCamelCase_ =Path(language_model._kenlm_model.path.decode('''utf-8''' ) ).parent.parent.absolute()
lowerCamelCase_ =os.listdir(lowerCAmelCase )
lowerCamelCase_ =os.listdir(lowerCAmelCase )
local_decoder_files.sort()
expected_decoder_files.sort()
# test that both decoder form hub and local files in cache are the same
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =AutoProcessor.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =floats_list((3, 1_000) )
lowerCamelCase_ =processor_wavaveca(lowerCAmelCase, return_tensors='''np''' )
lowerCamelCase_ =processor_auto(lowerCAmelCase, return_tensors='''np''' )
for key in input_wavaveca.keys():
self.assertAlmostEqual(input_wavaveca[key].sum(), input_auto[key].sum(), delta=1e-2 )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =processor_wavaveca.batch_decode(lowerCAmelCase )
lowerCamelCase_ =processor_auto.batch_decode(lowerCAmelCase )
self.assertListEqual(decoded_wavaveca.text, decoded_auto.text )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
self.assertListEqual(
processor.model_input_names, feature_extractor.model_input_names, msg='''`processor` and `feature_extractor` model input names do not match''', )
@staticmethod
def lowercase__ ( lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =[d[key] for d in offsets]
return retrieved_list
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =self._get_dummy_logits()[0]
lowerCamelCase_ =processor.decode(lowerCAmelCase, output_word_offsets=lowerCAmelCase )
# check Wav2Vec2CTCTokenizerOutput keys for word
self.assertEqual(len(outputs.keys() ), 4 )
self.assertTrue('''text''' in outputs )
self.assertTrue('''word_offsets''' in outputs )
self.assertTrue(isinstance(lowerCAmelCase, lowerCAmelCase ) )
self.assertEqual(''' '''.join(self.get_from_offsets(outputs['''word_offsets'''], '''word''' ) ), outputs.text )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''word''' ), ['''<s>''', '''<s>''', '''</s>'''] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''start_offset''' ), [0, 2, 4] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''end_offset''' ), [1, 3, 5] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase, output_word_offsets=lowerCAmelCase )
# check Wav2Vec2CTCTokenizerOutput keys for word
self.assertEqual(len(outputs.keys() ), 4 )
self.assertTrue('''text''' in outputs )
self.assertTrue('''word_offsets''' in outputs )
self.assertTrue(isinstance(lowerCAmelCase, lowerCAmelCase ) )
self.assertListEqual(
[''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ) for o in outputs['''word_offsets''']], outputs.text )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''word''' ), ['''<s>''', '''<s>''', '''</s>'''] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''start_offset''' ), [0, 2, 4] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''end_offset''' ), [1, 3, 5] )
@slow
@require_torch
@require_torchaudio
def lowercase__ ( self ):
"""simple docstring"""
import torch
lowerCamelCase_ =load_dataset('''common_voice''', '''en''', split='''train''', streaming=lowerCAmelCase )
lowerCamelCase_ =ds.cast_column('''audio''', datasets.Audio(sampling_rate=16_000 ) )
lowerCamelCase_ =iter(lowerCAmelCase )
lowerCamelCase_ =next(lowerCAmelCase )
lowerCamelCase_ =AutoProcessor.from_pretrained('''patrickvonplaten/wav2vec2-base-100h-with-lm''' )
lowerCamelCase_ =WavaVecaForCTC.from_pretrained('''patrickvonplaten/wav2vec2-base-100h-with-lm''' )
# compare to filename `common_voice_en_100038.mp3` of dataset viewer on https://huggingface.co/datasets/common_voice/viewer/en/train
lowerCamelCase_ =processor(sample['''audio''']['''array'''], return_tensors='''pt''' ).input_values
with torch.no_grad():
lowerCamelCase_ =model(lowerCAmelCase ).logits.cpu().numpy()
lowerCamelCase_ =processor.decode(logits[0], output_word_offsets=lowerCAmelCase )
lowerCamelCase_ =model.config.inputs_to_logits_ratio / processor.feature_extractor.sampling_rate
lowerCamelCase_ =[
{
'''start_time''': d['''start_offset'''] * time_offset,
'''end_time''': d['''end_offset'''] * time_offset,
'''word''': d['''word'''],
}
for d in output['''word_offsets''']
]
lowerCamelCase_ ='''WHY DOES MILISANDRA LOOK LIKE SHE WANTS TO CONSUME JOHN SNOW ON THE RIVER AT THE WALL'''
# output words
self.assertEqual(''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ), lowerCAmelCase )
self.assertEqual(''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ), output.text )
# output times
lowerCamelCase_ =torch.tensor(self.get_from_offsets(lowerCAmelCase, '''start_time''' ) )
lowerCamelCase_ =torch.tensor(self.get_from_offsets(lowerCAmelCase, '''end_time''' ) )
# fmt: off
lowerCamelCase_ =torch.tensor([1.4_1_9_9, 1.6_5_9_9, 2.2_5_9_9, 3.0, 3.2_4, 3.5_9_9_9, 3.7_9_9_9, 4.0_9_9_9, 4.2_6, 4.9_4, 5.2_8, 5.6_5_9_9, 5.7_8, 5.9_4, 6.3_2, 6.5_3_9_9, 6.6_5_9_9] )
lowerCamelCase_ =torch.tensor([1.5_3_9_9, 1.8_9_9_9, 2.9, 3.1_6, 3.5_3_9_9, 3.7_2, 4.0_1_9_9, 4.1_7_9_9, 4.7_6, 5.1_5_9_9, 5.5_5_9_9, 5.6_9_9_9, 5.8_6, 6.1_9_9_9, 6.3_8, 6.6_1_9_9, 6.9_4] )
# fmt: on
self.assertTrue(torch.allclose(lowerCAmelCase, lowerCAmelCase, atol=0.0_1 ) )
self.assertTrue(torch.allclose(lowerCAmelCase, lowerCAmelCase, atol=0.0_1 ) )
| 75 | 0 |
"""simple docstring"""
import argparse
import requests
import torch
# pip3 install salesforce-lavis
# I'm actually installing a slightly modified version: pip3 install git+https://github.com/nielsrogge/LAVIS.git@fix_lavis_float32 (there's also the fix_lavis branch)
# also note: to convert Vicuna checkpoints, we had to include /home/niels/python_projects/checkpoints/FastChat/vicuna-7b in lavis/configs/models/blip2/blip2_instruct_vicuna7b.yaml
# same for Vicuna-13b
from lavis.models import load_model_and_preprocess
from PIL import Image
from transformers import (
AutoTokenizer,
BlipImageProcessor,
InstructBlipConfig,
InstructBlipForConditionalGeneration,
InstructBlipProcessor,
InstructBlipQFormerConfig,
InstructBlipVisionConfig,
LlamaConfig,
LlamaTokenizerFast,
TaConfig,
TaTokenizerFast,
)
from transformers.utils.constants import OPENAI_CLIP_MEAN, OPENAI_CLIP_STD
def lowerCAmelCase__ ( ) -> Dict:
"""simple docstring"""
snake_case = 'https://raw.githubusercontent.com/salesforce/LAVIS/main/docs/_static/Confusing-Pictures.jpg'
snake_case = Image.open(requests.get(__snake_case , stream=__snake_case ).raw ).convert('RGB' )
return image
def lowerCAmelCase__ ( _UpperCamelCase : Tuple ) -> Dict:
"""simple docstring"""
snake_case = []
# fmt: off
# vision encoder
rename_keys.append(('visual_encoder.cls_token', 'vision_model.embeddings.class_embedding') )
rename_keys.append(('visual_encoder.pos_embed', 'vision_model.embeddings.position_embedding') )
rename_keys.append(('visual_encoder.patch_embed.proj.weight', 'vision_model.embeddings.patch_embedding.weight') )
rename_keys.append(('visual_encoder.patch_embed.proj.bias', 'vision_model.embeddings.patch_embedding.bias') )
rename_keys.append(('ln_vision.weight', 'vision_model.post_layernorm.weight') )
rename_keys.append(('ln_vision.bias', 'vision_model.post_layernorm.bias') )
for i in range(config.vision_config.num_hidden_layers ):
rename_keys.append((f"""visual_encoder.blocks.{i}.norm1.weight""", f"""vision_model.encoder.layers.{i}.layer_norm1.weight""") )
rename_keys.append((f"""visual_encoder.blocks.{i}.norm1.bias""", f"""vision_model.encoder.layers.{i}.layer_norm1.bias""") )
rename_keys.append((f"""visual_encoder.blocks.{i}.norm2.weight""", f"""vision_model.encoder.layers.{i}.layer_norm2.weight""") )
rename_keys.append((f"""visual_encoder.blocks.{i}.norm2.bias""", f"""vision_model.encoder.layers.{i}.layer_norm2.bias""") )
rename_keys.append((f"""visual_encoder.blocks.{i}.attn.qkv.weight""", f"""vision_model.encoder.layers.{i}.self_attn.qkv.weight""") )
rename_keys.append((f"""visual_encoder.blocks.{i}.attn.proj.weight""", f"""vision_model.encoder.layers.{i}.self_attn.projection.weight""",) )
rename_keys.append((f"""visual_encoder.blocks.{i}.attn.proj.bias""", f"""vision_model.encoder.layers.{i}.self_attn.projection.bias""") )
rename_keys.append((f"""visual_encoder.blocks.{i}.mlp.fc1.weight""", f"""vision_model.encoder.layers.{i}.mlp.fc1.weight""") )
rename_keys.append((f"""visual_encoder.blocks.{i}.mlp.fc1.bias""", f"""vision_model.encoder.layers.{i}.mlp.fc1.bias""") )
rename_keys.append((f"""visual_encoder.blocks.{i}.mlp.fc2.weight""", f"""vision_model.encoder.layers.{i}.mlp.fc2.weight""") )
rename_keys.append((f"""visual_encoder.blocks.{i}.mlp.fc2.bias""", f"""vision_model.encoder.layers.{i}.mlp.fc2.bias""") )
# QFormer
rename_keys.append(('Qformer.bert.embeddings.LayerNorm.weight', 'qformer.embeddings.layernorm.weight') )
rename_keys.append(('Qformer.bert.embeddings.LayerNorm.bias', 'qformer.embeddings.layernorm.bias') )
# fmt: on
return rename_keys
def lowerCAmelCase__ ( _UpperCamelCase : Optional[Any] , _UpperCamelCase : List[str] , _UpperCamelCase : List[Any] ) -> Dict:
"""simple docstring"""
snake_case = dct.pop(__snake_case )
snake_case = val
def lowerCAmelCase__ ( _UpperCamelCase : str , _UpperCamelCase : Optional[Any] ) -> Any:
"""simple docstring"""
for i in range(config.vision_config.num_hidden_layers ):
# read in original q and v biases
snake_case = state_dict.pop(f"""visual_encoder.blocks.{i}.attn.q_bias""" )
snake_case = state_dict.pop(f"""visual_encoder.blocks.{i}.attn.v_bias""" )
# next, set bias in the state dict
snake_case = torch.cat((q_bias, torch.zeros_like(__snake_case , requires_grad=__snake_case ), v_bias) )
snake_case = qkv_bias
def lowerCAmelCase__ ( _UpperCamelCase : List[str] ) -> Any:
"""simple docstring"""
snake_case = 3_6_4 if 'coco' in model_name else 2_2_4
snake_case = InstructBlipVisionConfig(image_size=__snake_case ).to_dict()
# make sure the models have proper bos_token_id and eos_token_id set (important for generation)
# seems like flan-T5 models don't have bos_token_id properly set?
if "t5-xl" in model_name:
snake_case = TaConfig.from_pretrained('google/flan-t5-xl' , dense_act_fn='gelu' , bos_token_id=1 ).to_dict()
elif "t5-xxl" in model_name:
snake_case = TaConfig.from_pretrained('google/flan-t5-xxl' , dense_act_fn='gelu' , bos_token_id=1 ).to_dict()
elif "vicuna-7b" in model_name:
snake_case = LlamaConfig.from_pretrained('decapoda-research/llama-7b-hf' , vocab_size=3_2_0_0_1 ).to_dict()
elif "vicuna-13b" in model_name:
snake_case = LlamaConfig.from_pretrained('decapoda-research/llama-13b-hf' , vocab_size=3_2_0_0_1 ).to_dict()
else:
raise ValueError('Model name not supported' )
# the authors add one special "[DEC]" token to the vocab of Q-Former, hence vocab size = 30522 + 1
snake_case = InstructBlipQFormerConfig(vocab_size=3_0_5_2_3 ).to_dict()
snake_case = InstructBlipConfig(vision_config=__snake_case , text_config=__snake_case , qformer_config=__snake_case )
return config, image_size
@torch.no_grad()
def lowerCAmelCase__ ( _UpperCamelCase : Optional[int] , _UpperCamelCase : str=None , _UpperCamelCase : List[Any]=False ) -> List[str]:
"""simple docstring"""
snake_case = AutoTokenizer.from_pretrained('bert-base-uncased' , truncation_side='left' )
qformer_tokenizer.add_special_tokens({'bos_token': '[DEC]'} )
if "t5" in model_name:
snake_case = TaTokenizerFast.from_pretrained('google/flan-t5-xl' , truncation_side='left' )
elif "vicuna" in model_name:
# the following was used in the original implementation:
# tokenizer = LlamaTokenizer.from_pretrained("huggyllama/llama-7b", use_fast=False, truncation_side="left")
# tokenizer.add_special_tokens({"pad_token": "[PAD]"})
# tokenizer.add_special_tokens({"bos_token": "</s>"})
# tokenizer.add_special_tokens({"eos_token": "</s>"})
# tokenizer.add_special_tokens({"unk_token": "</s>"})
snake_case = LlamaTokenizerFast.from_pretrained(
'huggyllama/llama-7b' , truncation_side='left' , bos_token='</s>' , unk_token='</s>' )
tokenizer.add_special_tokens({'pad_token': '[PAD]'} )
snake_case ,snake_case = get_blipa_config(__snake_case )
snake_case = InstructBlipForConditionalGeneration(__snake_case ).eval()
snake_case = {
'instructblip-vicuna-7b': ('blip2_vicuna_instruct', 'vicuna7b'),
'instructblip-vicuna-13b': ('blip2_vicuna_instruct', 'vicuna13b'),
'instructblip-flan-t5-xl': ('blip2_t5_instruct', 'flant5xl'),
'instructblip-flan-t5-xxl': ('blip2_t5_instruct', 'flant5xxl'),
}
snake_case ,snake_case = model_name_to_original[model_name]
# load original model
print('Loading original model...' )
snake_case = 'cuda:1' if torch.cuda.is_available() else 'cpu'
snake_case = 'cuda:2' if torch.cuda.is_available() else 'cpu'
snake_case ,snake_case ,snake_case = load_model_and_preprocess(
name=__snake_case , model_type=__snake_case , is_eval=__snake_case , device=__snake_case )
original_model.eval()
print('Done!' )
# update state dict keys
snake_case = original_model.state_dict()
snake_case = create_rename_keys(__snake_case )
for src, dest in rename_keys:
rename_key(__snake_case , __snake_case , __snake_case )
# some keys can be renamed efficiently
for key, val in state_dict.copy().items():
snake_case = state_dict.pop(__snake_case )
if key.startswith('Qformer.bert' ):
snake_case = key.replace('Qformer.bert' , 'qformer' )
if "attention.self" in key:
snake_case = key.replace('self' , 'attention' )
if "llm_proj" in key:
snake_case = key.replace('llm_proj' , 'language_projection' )
if "t5_proj" in key:
snake_case = key.replace('t5_proj' , 'language_projection' )
if key.startswith('llm_model' ):
snake_case = key.replace('llm_model' , 'language_model' )
if key.startswith('t5' ):
snake_case = key.replace('t5' , 'language' )
snake_case = val
# read in qv biases
read_in_q_v_bias(__snake_case , __snake_case )
# note: weights get loaded in torch.float32 by default
hf_model.load_state_dict(__snake_case , strict=__snake_case )
snake_case = load_demo_image()
snake_case = 'What is unusual about this image?'
# create processor
snake_case = BlipImageProcessor(
size={'height': image_size, 'width': image_size} , image_mean=__snake_case , image_std=__snake_case )
snake_case = InstructBlipProcessor(
image_processor=__snake_case , tokenizer=__snake_case , qformer_tokenizer=__snake_case , )
snake_case = processor(images=__snake_case , text=__snake_case , return_tensors='pt' ).to(__snake_case )
# make sure processor creates exact same pixel values
snake_case = vis_processors['eval'](__snake_case ).unsqueeze(0 ).to(__snake_case )
snake_case = inputs.pixel_values
assert torch.allclose(original_pixel_values.to(pixel_values.device ) , __snake_case )
original_model.to(__snake_case )
hf_model.to(__snake_case )
with torch.no_grad():
if "vicuna" in model_name:
snake_case = original_model({'image': original_pixel_values, 'text_input': [prompt]} ).logits
snake_case = hf_model(**__snake_case ).logits
else:
snake_case = original_model(
{'image': original_pixel_values, 'text_input': [prompt], 'text_output': ['\n']} ).logits
snake_case = tokenizer('\n' , return_tensors='pt' ).input_ids.to(__snake_case )
snake_case = label_input_ids.masked_fill(label_input_ids == tokenizer.pad_token_id , -1_0_0 )
snake_case = hf_model(**__snake_case , labels=__snake_case ).logits
print('First values of original logits:' , original_logits[0, :3, :3] )
print('First values of HF logits:' , logits[0, :3, :3] )
# assert values
assert original_logits.shape == logits.shape
snake_case = 1e-4 if 'vicuna' in model_name else 1e-5
assert torch.allclose(original_logits.to(logits.device ) , __snake_case , atol=__snake_case )
print('Looks ok!' )
print('Generating with original model...' )
snake_case = original_model.generate({'image': original_pixel_values, 'prompt': prompt} , num_beams=5 )
# important: we need to cast the weights of the HF model to the appropriate type
print('Generating with HF model...' )
snake_case = hf_model.generate(
**__snake_case , do_sample=__snake_case , num_beams=5 , max_length=2_5_6 , min_length=1 , top_p=0.9 , repetition_penalty=1.5 , length_penalty=1.0 , temperature=1 , )
if "vicuna" in model_name:
# convert output id 0 to 2 (eos_token_id)
# TODO add this in the generate method?
snake_case = 2
print('Original generation:' , __snake_case )
snake_case = processor.batch_decode(__snake_case , skip_special_tokens=__snake_case )
snake_case = [text.strip() for text in output_text]
print('HF generation:' , __snake_case )
if pytorch_dump_folder_path is not None:
processor.save_pretrained(__snake_case )
hf_model.save_pretrained(__snake_case )
if push_to_hub:
processor.push_to_hub(f"""Salesforce/{model_name}""" )
hf_model.push_to_hub(f"""Salesforce/{model_name}""" )
if __name__ == "__main__":
SCREAMING_SNAKE_CASE__ = argparse.ArgumentParser()
SCREAMING_SNAKE_CASE__ = [
"""instructblip-vicuna-7b""",
"""instructblip-vicuna-13b""",
"""instructblip-flan-t5-xl""",
"""instructblip-flan-t5-xxl""",
]
parser.add_argument(
"--model_name",
default="instructblip-flan-t5-xl",
choices=choices,
type=str,
help="Path to hf config.json of model to convert",
)
parser.add_argument("--pytorch_dump_folder_path", default=None, type=str, help="Path to the output PyTorch model.")
parser.add_argument(
"--push_to_hub",
action="store_true",
help="Whether to push the model and processor to the hub after converting",
)
SCREAMING_SNAKE_CASE__ = parser.parse_args()
convert_blipa_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.push_to_hub)
| 150 |
'''simple docstring'''
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
DDIMScheduler,
EulerAncestralDiscreteScheduler,
LMSDiscreteScheduler,
PNDMScheduler,
StableDiffusionInstructPixaPixPipeline,
UNetaDConditionModel,
)
from diffusers.image_processor import VaeImageProcessor
from diffusers.utils import floats_tensor, load_image, slow, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..pipeline_params import (
IMAGE_TO_IMAGE_IMAGE_PARAMS,
TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class __UpperCamelCase ( lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
lowercase : List[Any] =StableDiffusionInstructPixaPixPipeline
lowercase : List[Any] =TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'height', 'width', 'cross_attention_kwargs'}
lowercase : Optional[Any] =TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS
lowercase : Union[str, Any] =IMAGE_TO_IMAGE_IMAGE_PARAMS
lowercase : List[Any] =IMAGE_TO_IMAGE_IMAGE_PARAMS
def lowercase__ ( self ):
"""simple docstring"""
torch.manual_seed(0 )
lowerCamelCase_ =UNetaDConditionModel(
block_out_channels=(32, 64), layers_per_block=2, sample_size=32, in_channels=8, out_channels=4, down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D'''), up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D'''), cross_attention_dim=32, )
lowerCamelCase_ =PNDMScheduler(skip_prk_steps=lowerCAmelCase )
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-05, num_attention_heads=4, num_hidden_layers=5, pad_token_id=1, vocab_size=1_000, )
lowerCamelCase_ =CLIPTextModel(lowerCAmelCase )
lowerCamelCase_ =CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' )
lowerCamelCase_ ={
'''unet''': unet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase=0 ):
"""simple docstring"""
lowerCamelCase_ =floats_tensor((1, 3, 32, 32), rng=random.Random(lowerCAmelCase ) ).to(lowerCAmelCase )
lowerCamelCase_ =image.cpu().permute(0, 2, 3, 1 )[0]
lowerCamelCase_ =Image.fromarray(np.uinta(lowerCAmelCase ) ).convert('''RGB''' )
if str(lowerCAmelCase ).startswith('''mps''' ):
lowerCamelCase_ =torch.manual_seed(lowerCAmelCase )
else:
lowerCamelCase_ =torch.Generator(device=lowerCAmelCase ).manual_seed(lowerCAmelCase )
lowerCamelCase_ ={
'''prompt''': '''A painting of a squirrel eating a burger''',
'''image''': image,
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''image_guidance_scale''': 1,
'''output_type''': '''numpy''',
}
return inputs
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1]
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_5_2_6, 0.3_7_5_0, 0.4_5_4_7, 0.6_1_1_7, 0.5_8_6_6, 0.5_0_1_6, 0.4_3_2_7, 0.5_6_4_2, 0.4_8_1_5] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ ='''french fries'''
lowerCamelCase_ =sd_pipe(**lowerCAmelCase, negative_prompt=lowerCAmelCase )
lowerCamelCase_ =output.images
lowerCamelCase_ =image[0, -3:, -3:, -1]
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_5_1_1, 0.3_6_4_2, 0.4_5_5_3, 0.6_2_3_6, 0.5_7_9_7, 0.5_0_1_3, 0.4_3_4_3, 0.5_6_1_1, 0.4_8_3_1] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =[inputs['''prompt''']] * 2
lowerCamelCase_ =np.array(inputs['''image'''] ).astype(np.floataa ) / 2_5_5.0
lowerCamelCase_ =torch.from_numpy(lowerCAmelCase ).unsqueeze(0 ).to(lowerCAmelCase )
lowerCamelCase_ =image / 2 + 0.5
lowerCamelCase_ =image.permute(0, 3, 1, 2 )
lowerCamelCase_ =image.repeat(2, 1, 1, 1 )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[-1, -3:, -3:, -1]
assert image.shape == (2, 32, 32, 3)
lowerCamelCase_ =np.array([0.5_8_1_2, 0.5_7_4_8, 0.5_2_2_2, 0.5_9_0_8, 0.5_6_9_5, 0.7_1_7_4, 0.6_8_0_4, 0.5_5_2_3, 0.5_5_7_9] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =EulerAncestralDiscreteScheduler(
beta_start=0.0_0_0_8_5, beta_end=0.0_1_2, beta_schedule='''scaled_linear''' )
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1]
lowerCamelCase_ =[round(lowerCAmelCase, 4 ) for x in image_slice.flatten().tolist()]
print(''','''.join([str(lowerCAmelCase ) for x in slice] ) )
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_4_1_7, 0.3_8_4_2, 0.4_7_3_2, 0.5_7_7_6, 0.5_8_9_1, 0.5_1_3_9, 0.4_0_5_2, 0.5_6_7_3, 0.4_9_8_6] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
super().test_inference_batch_single_identical(expected_max_diff=3e-3 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =VaeImageProcessor(do_resize=lowerCAmelCase, do_normalize=lowerCAmelCase )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =pipe(**self.get_dummy_inputs_by_type(lowerCAmelCase, input_image_type='''pt''' ) )[0]
lowerCamelCase_ =components['''vae''']
lowerCamelCase_ =self.get_dummy_inputs_by_type(lowerCAmelCase, input_image_type='''pt''' )
for image_param in self.image_latents_params:
if image_param in inputs.keys():
lowerCamelCase_ =vae.encode(inputs[image_param] ).latent_dist.mode()
lowerCamelCase_ =pipe(**lowerCAmelCase )[0]
lowerCamelCase_ =np.abs(out - out_latents_inputs ).max()
self.assertLess(lowerCAmelCase, 1e-4, '''passing latents as image input generate different result from passing image''' )
@slow
@require_torch_gpu
class __UpperCamelCase ( unittest.TestCase ):
def lowercase__ ( self ):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowercase__ ( self, lowerCAmelCase=0 ):
"""simple docstring"""
lowerCamelCase_ =torch.manual_seed(lowerCAmelCase )
lowerCamelCase_ =load_image(
'''https://huggingface.co/datasets/diffusers/test-arrays/resolve/main/stable_diffusion_pix2pix/example.jpg''' )
lowerCamelCase_ ={
'''prompt''': '''turn him into a cyborg''',
'''image''': image,
'''generator''': generator,
'''num_inference_steps''': 3,
'''guidance_scale''': 7.5,
'''image_guidance_scale''': 1.0,
'''output_type''': '''numpy''',
}
return inputs
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.5_9_0_2, 0.6_0_1_5, 0.6_0_2_7, 0.5_9_8_3, 0.6_0_9_2, 0.6_0_6_1, 0.5_7_6_5, 0.5_7_8_5, 0.5_5_5_5] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
lowerCamelCase_ =LMSDiscreteScheduler.from_config(pipe.scheduler.config )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.6_5_7_8, 0.6_8_1_7, 0.6_9_7_2, 0.6_7_6_1, 0.6_8_5_6, 0.6_9_1_6, 0.6_4_2_8, 0.6_5_1_6, 0.6_3_0_1] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
lowerCamelCase_ =DDIMScheduler.from_config(pipe.scheduler.config )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.3_8_2_8, 0.3_8_3_4, 0.3_8_1_8, 0.3_7_9_2, 0.3_8_6_5, 0.3_7_5_2, 0.3_7_9_2, 0.3_8_4_7, 0.3_7_5_3] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =0
def callback_fn(lowerCAmelCase, lowerCAmelCase, lowerCAmelCase ) -> None:
lowerCamelCase_ =True
nonlocal number_of_steps
number_of_steps += 1
if step == 1:
lowerCamelCase_ =latents.detach().cpu().numpy()
assert latents.shape == (1, 4, 64, 64)
lowerCamelCase_ =latents[0, -3:, -3:, -1]
lowerCamelCase_ =np.array([-0.2_4_6_3, -0.4_6_4_4, -0.9_7_5_6, 1.5_1_7_6, 1.4_4_1_4, 0.7_8_6_6, 0.9_8_9_7, 0.8_5_2_1, 0.7_9_8_3] )
assert np.abs(latents_slice.flatten() - expected_slice ).max() < 5e-2
elif step == 2:
lowerCamelCase_ =latents.detach().cpu().numpy()
assert latents.shape == (1, 4, 64, 64)
lowerCamelCase_ =latents[0, -3:, -3:, -1]
lowerCamelCase_ =np.array([-0.2_6_4_4, -0.4_6_2_6, -0.9_6_5_3, 1.5_1_7_6, 1.4_5_5_1, 0.7_6_8_6, 0.9_8_0_5, 0.8_4_5_2, 0.8_1_1_5] )
assert np.abs(latents_slice.flatten() - expected_slice ).max() < 5e-2
lowerCamelCase_ =False
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase, torch_dtype=torch.floataa )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
pipe(**lowerCAmelCase, callback=lowerCAmelCase, callback_steps=1 )
assert callback_fn.has_been_called
assert number_of_steps == 3
def lowercase__ ( self ):
"""simple docstring"""
torch.cuda.empty_cache()
torch.cuda.reset_max_memory_allocated()
torch.cuda.reset_peak_memory_stats()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase, torch_dtype=torch.floataa )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing(1 )
pipe.enable_sequential_cpu_offload()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase )
lowerCamelCase_ =torch.cuda.max_memory_allocated()
# make sure that less than 2.2 GB is allocated
assert mem_bytes < 2.2 * 10**9
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_inputs()
# resize to resolution that is divisible by 8 but not 16 or 32
lowerCamelCase_ =inputs['''image'''].resize((504, 504) )
lowerCamelCase_ ='''timbrooks/instruct-pix2pix'''
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
lowerCAmelCase, safety_checker=lowerCAmelCase, )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =pipe(**lowerCAmelCase )
lowerCamelCase_ =output.images[0]
lowerCamelCase_ =image[255:258, 383:386, -1]
assert image.shape == (504, 504, 3)
lowerCamelCase_ =np.array([0.2_7_2_6, 0.2_5_2_9, 0.2_6_6_4, 0.2_6_5_5, 0.2_6_4_1, 0.2_6_4_2, 0.2_5_9_1, 0.2_6_4_9, 0.2_5_9_0] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 5e-3
| 75 | 0 |
"""simple docstring"""
from __future__ import annotations
def _snake_case ( lowercase__ ):
_lowerCamelCase : Dict = len(__snake_case )
# We need to create solution object to save path.
_lowerCamelCase : Any = [[0 for _ in range(__snake_case )] for _ in range(__snake_case )]
_lowerCamelCase : Optional[int] = run_maze(__snake_case , 0 , 0 , __snake_case )
if solved:
print('\n'.join(str(__snake_case ) for row in solutions ) )
else:
print('No solution exists!' )
return solved
def _snake_case ( lowercase__ , lowercase__ , lowercase__ , lowercase__ ):
_lowerCamelCase : str = len(__snake_case )
# Final check point.
if i == j == (size - 1):
_lowerCamelCase : List[str] = 1
return True
_lowerCamelCase : Optional[Any] = (not i < 0) and (not j < 0) # Check lower bounds
_lowerCamelCase : List[Any] = (i < size) and (j < size) # Check upper bounds
if lower_flag and upper_flag:
# check for already visited and block points.
_lowerCamelCase : str = (not solutions[i][j]) and (not maze[i][j])
if block_flag:
# check visited
_lowerCamelCase : int = 1
# check for directions
if (
run_maze(__snake_case , i + 1 , __snake_case , __snake_case )
or run_maze(__snake_case , __snake_case , j + 1 , __snake_case )
or run_maze(__snake_case , i - 1 , __snake_case , __snake_case )
or run_maze(__snake_case , __snake_case , j - 1 , __snake_case )
):
return True
_lowerCamelCase : str = 0
return False
return False
if __name__ == "__main__":
import doctest
doctest.testmod() | 96 |
'''simple docstring'''
from __future__ import annotations
import unittest
from transformers import XGLMConfig, XGLMTokenizer, is_tf_available
from transformers.testing_utils import require_tf, slow
from ...test_configuration_common import ConfigTester
from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor, random_attention_mask
from ...test_pipeline_mixin import PipelineTesterMixin
if is_tf_available():
import tensorflow as tf
from transformers.models.xglm.modeling_tf_xglm import (
TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST,
TFXGLMForCausalLM,
TFXGLMModel,
)
@require_tf
class __UpperCamelCase :
lowercase : Union[str, Any] =XGLMConfig
lowercase : Optional[Any] ={}
lowercase : Optional[int] ='gelu'
def __init__( self, lowerCAmelCase, lowerCAmelCase=14, lowerCAmelCase=7, lowerCAmelCase=True, lowerCAmelCase=True, lowerCAmelCase=True, lowerCAmelCase=99, lowerCAmelCase=32, lowerCAmelCase=2, lowerCAmelCase=4, lowerCAmelCase=37, lowerCAmelCase="gelu", lowerCAmelCase=0.1, lowerCAmelCase=0.1, lowerCAmelCase=512, lowerCAmelCase=0.0_2, ):
"""simple docstring"""
lowerCamelCase_ =parent
lowerCamelCase_ =batch_size
lowerCamelCase_ =seq_length
lowerCamelCase_ =is_training
lowerCamelCase_ =use_input_mask
lowerCamelCase_ =use_labels
lowerCamelCase_ =vocab_size
lowerCamelCase_ =d_model
lowerCamelCase_ =num_hidden_layers
lowerCamelCase_ =num_attention_heads
lowerCamelCase_ =ffn_dim
lowerCamelCase_ =activation_function
lowerCamelCase_ =activation_dropout
lowerCamelCase_ =attention_dropout
lowerCamelCase_ =max_position_embeddings
lowerCamelCase_ =initializer_range
lowerCamelCase_ =None
lowerCamelCase_ =0
lowerCamelCase_ =2
lowerCamelCase_ =1
def lowercase__ ( self ):
"""simple docstring"""
return XGLMConfig.from_pretrained('''facebook/xglm-564M''' )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =tf.clip_by_value(
ids_tensor([self.batch_size, self.seq_length], self.vocab_size ), clip_value_min=0, clip_value_max=3 )
lowerCamelCase_ =None
if self.use_input_mask:
lowerCamelCase_ =random_attention_mask([self.batch_size, self.seq_length] )
lowerCamelCase_ =self.get_config()
lowerCamelCase_ =floats_tensor([self.num_hidden_layers, self.num_attention_heads], 2 )
return (
config,
input_ids,
input_mask,
head_mask,
)
def lowercase__ ( self ):
"""simple docstring"""
return XGLMConfig(
vocab_size=self.vocab_size, d_model=self.hidden_size, num_layers=self.num_hidden_layers, attention_heads=self.num_attention_heads, ffn_dim=self.ffn_dim, activation_function=self.activation_function, activation_dropout=self.activation_dropout, attention_dropout=self.attention_dropout, max_position_embeddings=self.max_position_embeddings, initializer_range=self.initializer_range, use_cache=lowerCAmelCase, bos_token_id=self.bos_token_id, eos_token_id=self.eos_token_id, pad_token_id=self.pad_token_id, return_dict=lowerCAmelCase, )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.prepare_config_and_inputs()
(
(
lowerCamelCase_
), (
lowerCamelCase_
), (
lowerCamelCase_
), (
lowerCamelCase_
),
) =config_and_inputs
lowerCamelCase_ ={
'''input_ids''': input_ids,
'''head_mask''': head_mask,
}
return config, inputs_dict
@require_tf
class __UpperCamelCase ( lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
lowercase : int =(TFXGLMModel, TFXGLMForCausalLM) if is_tf_available() else ()
lowercase : Optional[Any] =(TFXGLMForCausalLM,) if is_tf_available() else ()
lowercase : Tuple =(
{'feature-extraction': TFXGLMModel, 'text-generation': TFXGLMForCausalLM} if is_tf_available() else {}
)
lowercase : Optional[Any] =False
lowercase : Optional[Any] =False
lowercase : Optional[int] =False
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMModelTester(self )
lowerCamelCase_ =ConfigTester(self, config_class=lowerCAmelCase, n_embd=37 )
def lowercase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
@slow
def lowercase__ ( self ):
"""simple docstring"""
for model_name in TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
lowerCamelCase_ =TFXGLMModel.from_pretrained(lowerCAmelCase )
self.assertIsNotNone(lowerCAmelCase )
@unittest.skip(reason='''Currently, model embeddings are going to undergo a major refactor.''' )
def lowercase__ ( self ):
"""simple docstring"""
super().test_resize_token_embeddings()
@require_tf
class __UpperCamelCase ( unittest.TestCase ):
@slow
def lowercase__ ( self, lowerCAmelCase=True ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =tf.convert_to_tensor([[2, 268, 9_865]], dtype=tf.intaa ) # The dog
# </s> The dog is a very friendly dog. He is very affectionate and loves to play with other
# fmt: off
lowerCamelCase_ =[2, 268, 9_865, 67, 11, 1_988, 57_252, 9_865, 5, 984, 67, 1_988, 213_838, 1_658, 53, 70_446, 33, 6_657, 278, 1_581]
# fmt: on
lowerCamelCase_ =model.generate(lowerCAmelCase, do_sample=lowerCAmelCase, num_beams=1 )
if verify_outputs:
self.assertListEqual(output_ids[0].numpy().tolist(), lowerCAmelCase )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =XGLMTokenizer.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
tf.random.set_seed(0 )
lowerCamelCase_ =tokenizer('''Today is a nice day and''', return_tensors='''tf''' )
lowerCamelCase_ =tokenized.input_ids
# forces the generation to happen on CPU, to avoid GPU-related quirks (and assure same output regardless of the available devices)
with tf.device(''':/CPU:0''' ):
lowerCamelCase_ =model.generate(lowerCAmelCase, do_sample=lowerCAmelCase, seed=[7, 0] )
lowerCamelCase_ =tokenizer.decode(output_ids[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =(
'''Today is a nice day and warm evening here over Southern Alberta!! Today when they closed schools due'''
)
self.assertEqual(lowerCAmelCase, lowerCAmelCase )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =XGLMTokenizer.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ ='''left'''
# use different length sentences to test batching
lowerCamelCase_ =[
'''This is an extremelly long sentence that only exists to test the ability of the model to cope with '''
'''left-padding, such as in batched generation. The output for the sequence below should be the same '''
'''regardless of whether left padding is applied or not. When''',
'''Hello, my dog is a little''',
]
lowerCamelCase_ =tokenizer(lowerCAmelCase, return_tensors='''tf''', padding=lowerCAmelCase )
lowerCamelCase_ =inputs['''input_ids''']
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, attention_mask=inputs['''attention_mask'''], max_new_tokens=12 )
lowerCamelCase_ =tokenizer(sentences[0], return_tensors='''tf''' ).input_ids
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, max_new_tokens=12 )
lowerCamelCase_ =tokenizer(sentences[1], return_tensors='''tf''' ).input_ids
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, max_new_tokens=12 )
lowerCamelCase_ =tokenizer.batch_decode(lowerCAmelCase, skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =tokenizer.decode(output_non_padded[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =tokenizer.decode(output_padded[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =[
'''This is an extremelly long sentence that only exists to test the ability of the model to cope with '''
'''left-padding, such as in batched generation. The output for the sequence below should be the same '''
'''regardless of whether left padding is applied or not. When left padding is applied, the sequence will be '''
'''a single''',
'''Hello, my dog is a little bit of a shy one, but he is very friendly''',
]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(lowerCAmelCase, [non_padded_sentence, padded_sentence] )
| 75 | 0 |
"""simple docstring"""
import unittest
from transformers import load_tool
from .test_tools_common import ToolTesterMixin
class __A (unittest.TestCase , lowerCamelCase__):
'''simple docstring'''
def lowerCAmelCase ( self : List[Any] ) ->Optional[int]:
"""simple docstring"""
snake_case_ = load_tool("""text-classification""" )
self.tool.setup()
snake_case_ = load_tool("""text-classification""" , remote=UpperCAmelCase_ )
def lowerCAmelCase ( self : Optional[int] ) ->Optional[int]:
"""simple docstring"""
snake_case_ = self.tool("""That\'s quite cool""" , ["""positive""", """negative"""] )
self.assertEqual(UpperCAmelCase_ , """positive""" )
def lowerCAmelCase ( self : Optional[int] ) ->List[str]:
"""simple docstring"""
snake_case_ = self.remote_tool("""That\'s quite cool""" , ["""positive""", """negative"""] )
self.assertEqual(UpperCAmelCase_ , """positive""" )
def lowerCAmelCase ( self : Any ) ->Tuple:
"""simple docstring"""
snake_case_ = self.tool(text="""That\'s quite cool""" , labels=["""positive""", """negative"""] )
self.assertEqual(UpperCAmelCase_ , """positive""" )
def lowerCAmelCase ( self : Optional[int] ) ->Union[str, Any]:
"""simple docstring"""
snake_case_ = self.remote_tool(text="""That\'s quite cool""" , labels=["""positive""", """negative"""] )
self.assertEqual(UpperCAmelCase_ , """positive""" )
| 347 |
'''simple docstring'''
import unittest
from transformers import MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING, is_vision_available, 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 __UpperCamelCase :
@staticmethod
def lowercase__ ( *lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
pass
@is_pipeline_test
@require_vision
@require_torch
class __UpperCamelCase ( unittest.TestCase ):
lowercase : int =MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =pipeline(
'''zero-shot-object-detection''', model='''hf-internal-testing/tiny-random-owlvit-object-detection''' )
lowerCamelCase_ =[
{
'''image''': '''./tests/fixtures/tests_samples/COCO/000000039769.png''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
}
]
return object_detector, examples
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =object_detector(examples[0], threshold=0.0 )
lowerCamelCase_ =len(lowerCAmelCase )
self.assertGreater(lowerCAmelCase, 0 )
self.assertEqual(
lowerCAmelCase, [
{
'''score''': ANY(lowerCAmelCase ),
'''label''': ANY(lowerCAmelCase ),
'''box''': {'''xmin''': ANY(lowerCAmelCase ), '''ymin''': ANY(lowerCAmelCase ), '''xmax''': ANY(lowerCAmelCase ), '''ymax''': ANY(lowerCAmelCase )},
}
for i in range(lowerCAmelCase )
], )
@require_tf
@unittest.skip('''Zero Shot Object Detection not implemented in TF''' )
def lowercase__ ( self ):
"""simple docstring"""
pass
@require_torch
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =pipeline(
'''zero-shot-object-detection''', model='''hf-internal-testing/tiny-random-owlvit-object-detection''' )
lowerCamelCase_ =object_detector(
'''./tests/fixtures/tests_samples/COCO/000000039769.png''', candidate_labels=['''cat''', '''remote''', '''couch'''], threshold=0.6_4, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.7_2_3_5, '''label''': '''cat''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_2_1_8, '''label''': '''remote''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_1_8_4, '''label''': '''couch''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.6_7_4_8, '''label''': '''remote''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_5_6, '''label''': '''cat''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_1_4, '''label''': '''couch''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_4_5_6, '''label''': '''remote''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
{'''score''': 0.6_4_2, '''label''': '''remote''', '''box''': {'''xmin''': 67, '''ymin''': 274, '''xmax''': 93, '''ymax''': 297}},
{'''score''': 0.6_4_1_9, '''label''': '''cat''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
], )
lowerCamelCase_ =object_detector(
[
{
'''image''': '''./tests/fixtures/tests_samples/COCO/000000039769.png''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
}
], threshold=0.6_4, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
[
{'''score''': 0.7_2_3_5, '''label''': '''cat''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_2_1_8, '''label''': '''remote''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_1_8_4, '''label''': '''couch''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.6_7_4_8, '''label''': '''remote''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_5_6, '''label''': '''cat''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_1_4, '''label''': '''couch''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_4_5_6, '''label''': '''remote''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
{'''score''': 0.6_4_2, '''label''': '''remote''', '''box''': {'''xmin''': 67, '''ymin''': 274, '''xmax''': 93, '''ymax''': 297}},
{'''score''': 0.6_4_1_9, '''label''': '''cat''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
]
], )
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
], )
lowerCamelCase_ =object_detector(
[
{
'''image''': '''http://images.cocodataset.org/val2017/000000039769.jpg''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
},
{
'''image''': '''http://images.cocodataset.org/val2017/000000039769.jpg''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
},
], )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
[
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
],
[
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
],
], )
@require_tf
@unittest.skip('''Zero Shot Object Detection not implemented in TF''' )
def lowercase__ ( self ):
"""simple docstring"""
pass
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =0.2
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], threshold=lowerCAmelCase, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
], )
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =2
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], top_k=lowerCAmelCase, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
], )
| 75 | 0 |
"""simple docstring"""
from typing import TYPE_CHECKING
from ...file_utils import _LazyModule, is_tokenizers_available, is_torch_available, is_vision_available
from ...utils import OptionalDependencyNotAvailable
__a = {"""configuration_dpt""": ["""DPT_PRETRAINED_CONFIG_ARCHIVE_MAP""", """DPTConfig"""]}
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__a = ["""DPTFeatureExtractor"""]
__a = ["""DPTImageProcessor"""]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__a = [
"""DPT_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""DPTForDepthEstimation""",
"""DPTForSemanticSegmentation""",
"""DPTModel""",
"""DPTPreTrainedModel""",
]
if TYPE_CHECKING:
from .configuration_dpt import DPT_PRETRAINED_CONFIG_ARCHIVE_MAP, DPTConfig
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .feature_extraction_dpt import DPTFeatureExtractor
from .image_processing_dpt import DPTImageProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_dpt import (
DPT_PRETRAINED_MODEL_ARCHIVE_LIST,
DPTForDepthEstimation,
DPTForSemanticSegmentation,
DPTModel,
DPTPreTrainedModel,
)
else:
import sys
__a = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 66 |
'''simple docstring'''
import json
import os
from typing import Dict, List, Optional, Tuple
import regex as re
from ...tokenization_utils import PreTrainedTokenizer
from ...utils import logging
a_ : Optional[int] = logging.get_logger(__name__)
a_ : Optional[int] = {
"""vocab_file""": """vocab.json""",
"""merges_file""": """merges.txt""",
"""tokenizer_config_file""": """tokenizer_config.json""",
}
a_ : List[Any] = {
"""vocab_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/vocab.json"""
},
"""merges_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/merges.txt"""
},
"""tokenizer_config_file""": {
"""facebook/blenderbot_small-90M""": (
"""https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/tokenizer_config.json"""
)
},
}
a_ : Optional[int] = {"""facebook/blenderbot_small-90M""": 5_12}
def a_ ( __snake_case : List[Any] ) -> Tuple:
"""simple docstring"""
lowerCamelCase_ =set()
lowerCamelCase_ =word[0]
for char in word[1:]:
pairs.add((prev_char, char) )
lowerCamelCase_ =char
lowerCamelCase_ =set(__snake_case )
return pairs
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : Optional[int] =VOCAB_FILES_NAMES
lowercase : Tuple =PRETRAINED_VOCAB_FILES_MAP
lowercase : Tuple =PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
lowercase : Dict =['input_ids', 'attention_mask']
def __init__( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase="__start__", lowerCAmelCase="__end__", lowerCAmelCase="__unk__", lowerCAmelCase="__null__", **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(unk_token=lowerCAmelCase, bos_token=lowerCAmelCase, eos_token=lowerCAmelCase, pad_token=lowerCAmelCase, **lowerCAmelCase )
with open(lowerCAmelCase, encoding='''utf-8''' ) as vocab_handle:
lowerCamelCase_ =json.load(lowerCAmelCase )
lowerCamelCase_ ={v: k for k, v in self.encoder.items()}
with open(lowerCAmelCase, encoding='''utf-8''' ) as merges_handle:
lowerCamelCase_ =merges_handle.read().split('''\n''' )[1:-1]
lowerCamelCase_ =[tuple(merge.split() ) for merge in merges]
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ ={}
@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, lowerCAmelCase ):
"""simple docstring"""
if token in self.cache:
return self.cache[token]
lowerCamelCase_ =re.sub('''([.,!?()])''', R''' \1''', lowerCAmelCase )
lowerCamelCase_ =re.sub('''(\')''', R''' \1 ''', lowerCAmelCase )
lowerCamelCase_ =re.sub(R'''\s{2,}''', ''' ''', lowerCAmelCase )
if "\n" in token:
lowerCamelCase_ =token.replace('''\n''', ''' __newln__''' )
lowerCamelCase_ =token.split(''' ''' )
lowerCamelCase_ =[]
for token in tokens:
if not len(lowerCAmelCase ):
continue
lowerCamelCase_ =token.lower()
lowerCamelCase_ =tuple(lowerCAmelCase )
lowerCamelCase_ =tuple(list(word[:-1] ) + [word[-1] + '''</w>'''] )
lowerCamelCase_ =get_pairs(lowerCAmelCase )
if not pairs:
words.append(lowerCAmelCase )
continue
while True:
lowerCamelCase_ =min(lowerCAmelCase, key=lambda lowerCAmelCase : self.bpe_ranks.get(lowerCAmelCase, float('''inf''' ) ) )
if bigram not in self.bpe_ranks:
break
lowerCamelCase_, lowerCamelCase_ =bigram
lowerCamelCase_ =[]
lowerCamelCase_ =0
while i < len(lowerCAmelCase ):
try:
lowerCamelCase_ =word.index(lowerCAmelCase, lowerCAmelCase )
new_word.extend(word[i:j] )
lowerCamelCase_ =j
except ValueError:
new_word.extend(word[i:] )
break
if word[i] == first and i < len(lowerCAmelCase ) - 1 and word[i + 1] == second:
new_word.append(first + second )
i += 2
else:
new_word.append(word[i] )
i += 1
lowerCamelCase_ =tuple(lowerCAmelCase )
lowerCamelCase_ =new_word
if len(lowerCAmelCase ) == 1:
break
else:
lowerCamelCase_ =get_pairs(lowerCAmelCase )
lowerCamelCase_ ='''@@ '''.join(lowerCAmelCase )
lowerCamelCase_ =word[:-4]
lowerCamelCase_ =word
words.append(lowerCAmelCase )
return " ".join(lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =[]
lowerCamelCase_ =re.findall(R'''\S+\n?''', lowerCAmelCase )
for token in words:
split_tokens.extend(list(self.bpe(lowerCAmelCase ).split(''' ''' ) ) )
return split_tokens
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =token.lower()
return self.encoder.get(lowerCAmelCase, self.encoder.get(self.unk_token ) )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
return self.decoder.get(lowerCAmelCase, self.unk_token )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =''' '''.join(lowerCAmelCase ).replace('''@@ ''', '''''' ).strip()
return out_string
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase = None ):
"""simple docstring"""
if not os.path.isdir(lowerCAmelCase ):
logger.error(f'''Vocabulary path ({save_directory}) should be a directory''' )
return
lowerCamelCase_ =os.path.join(
lowerCAmelCase, (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''vocab_file'''] )
lowerCamelCase_ =os.path.join(
lowerCAmelCase, (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''merges_file'''] )
with open(lowerCAmelCase, '''w''', encoding='''utf-8''' ) as f:
f.write(json.dumps(self.encoder, indent=2, sort_keys=lowerCAmelCase, ensure_ascii=lowerCAmelCase ) + '''\n''' )
lowerCamelCase_ =0
with open(lowerCAmelCase, '''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 lowerCAmelCase : 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_ =token_index
writer.write(''' '''.join(lowerCAmelCase ) + '''\n''' )
index += 1
return vocab_file, merge_file
| 75 | 0 |
'''simple docstring'''
import copy
import tempfile
import unittest
from transformers import MaMaaaConfig, is_torch_available
from transformers.testing_utils import require_sentencepiece, require_tokenizers, require_torch, slow, torch_device
from transformers.utils import cached_property
from ...generation.test_utils import GenerationTesterMixin
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import MaMaaaForConditionalGeneration, MaMaaaModel, MaMaaaTokenizer
from transformers.models.mam_aaa.modeling_mam_aaa import MaMaaaDecoder, MaMaaaEncoder
def __UpperCamelCase ( lowercase__ : Optional[int], lowercase__ : Optional[Any], lowercase__ : str, lowercase__ : Optional[int]=None, lowercase__ : List[str]=None, lowercase__ : Optional[Any]=None, lowercase__ : Optional[int]=None, lowercase__ : List[str]=None, ):
'''simple docstring'''
if attention_mask is None:
__lowercase =input_ids.ne(config.pad_token_id )
if decoder_attention_mask is None:
__lowercase =decoder_input_ids.ne(config.pad_token_id )
if head_mask is None:
__lowercase =torch.ones(config.encoder_layers, config.encoder_attention_heads, device=__snake_case )
if decoder_head_mask is None:
__lowercase =torch.ones(config.decoder_layers, config.decoder_attention_heads, device=__snake_case )
if cross_attn_head_mask is None:
__lowercase =torch.ones(config.decoder_layers, config.decoder_attention_heads, device=__snake_case )
return {
"input_ids": input_ids,
"decoder_input_ids": decoder_input_ids,
"attention_mask": attention_mask,
"decoder_attention_mask": attention_mask,
"head_mask": head_mask,
"decoder_head_mask": decoder_head_mask,
"cross_attn_head_mask": cross_attn_head_mask,
}
class lowerCAmelCase :
def __init__( self : Dict , __lowercase : Union[str, Any] , __lowercase : Optional[int]=13 , __lowercase : str=7 , __lowercase : Optional[Any]=True , __lowercase : int=False , __lowercase : Any=99 , __lowercase : Tuple=16 , __lowercase : Dict=2 , __lowercase : Tuple=4 , __lowercase : Optional[Any]=4 , __lowercase : str="relu" , __lowercase : str=0.1 , __lowercase : Union[str, Any]=0.1 , __lowercase : Optional[Any]=0.0 , __lowercase : List[str]=0.0 , __lowercase : Union[str, Any]=20 , __lowercase : Tuple=2 , __lowercase : int=1 , __lowercase : int=0 , ):
"""simple docstring"""
__lowercase =parent
__lowercase =batch_size
__lowercase =seq_length
__lowercase =is_training
__lowercase =use_labels
__lowercase =vocab_size
__lowercase =hidden_size
__lowercase =num_hidden_layers
__lowercase =num_attention_heads
__lowercase =intermediate_size
__lowercase =hidden_act
__lowercase =hidden_dropout_prob
__lowercase =attention_probs_dropout_prob
__lowercase =encoder_layerdrop
__lowercase =decoder_layerdrop
__lowercase =max_position_embeddings
__lowercase =eos_token_id
__lowercase =pad_token_id
__lowercase =bos_token_id
def snake_case ( self : int ):
"""simple docstring"""
__lowercase =ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__lowercase =self.eos_token_id # Eos Token
__lowercase =ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
# we need to clamp the input ids here to avoid having pad token in between
# this is because for M2M100 the position_ids are prepared such that
# all pad tokens have pos id = 2 and rest are between 2..seq_length
# and the seq_length here is seq_length - num_pad_tokens
# but when using past, there is no way of knowing if the past input ids had
# pad tokens in them, which results in incorrect seq_lenth and which in turn results in
# position_ids being off by num_pad_tokens in past input
__lowercase =input_ids.clamp(self.pad_token_id + 1 )
__lowercase =decoder_input_ids.clamp(self.pad_token_id + 1 )
__lowercase =self.get_config()
__lowercase =prepare_mam_aaa_inputs_dict(__lowercase , __lowercase , __lowercase )
return config, inputs_dict
def snake_case ( self : Union[str, Any] ):
"""simple docstring"""
return MaMaaaConfig(
vocab_size=self.vocab_size , d_model=self.hidden_size , encoder_layers=self.num_hidden_layers , decoder_layers=self.num_hidden_layers , encoder_attention_heads=self.num_attention_heads , decoder_attention_heads=self.num_attention_heads , encoder_ffn_dim=self.intermediate_size , decoder_ffn_dim=self.intermediate_size , dropout=self.hidden_dropout_prob , attention_dropout=self.attention_probs_dropout_prob , encoder_layerdrop=self.encoder_layerdrop , decoder_layerdrop=self.decoder_layerdrop , max_position_embeddings=self.max_position_embeddings , eos_token_id=self.eos_token_id , bos_token_id=self.bos_token_id , pad_token_id=self.pad_token_id , )
def snake_case ( self : Optional[Any] ):
"""simple docstring"""
__lowercase , __lowercase =self.prepare_config_and_inputs()
return config, inputs_dict
def snake_case ( self : Tuple , __lowercase : Dict , __lowercase : Dict ):
"""simple docstring"""
__lowercase =MaMaaaModel(config=__lowercase ).get_decoder().to(__lowercase ).eval()
__lowercase =inputs_dict['input_ids']
__lowercase =inputs_dict['attention_mask']
__lowercase =inputs_dict['head_mask']
# first forward pass
__lowercase =model(__lowercase , attention_mask=__lowercase , head_mask=__lowercase , use_cache=__lowercase )
__lowercase , __lowercase =outputs.to_tuple()
# create hypothetical multiple next token and extent to next_input_ids
__lowercase =ids_tensor((self.batch_size, 3) , config.vocab_size )
__lowercase =ids_tensor((self.batch_size, 3) , 2 )
# append to next input_ids and
__lowercase =torch.cat([input_ids, next_tokens] , dim=-1 )
__lowercase =torch.cat([attention_mask, next_attn_mask] , dim=-1 )
__lowercase =model(__lowercase , attention_mask=__lowercase )['last_hidden_state']
__lowercase =model(__lowercase , attention_mask=__lowercase , past_key_values=__lowercase )[
'last_hidden_state'
]
# select random slice
__lowercase =ids_tensor((1,) , output_from_past.shape[-1] ).item()
__lowercase =output_from_no_past[:, -3:, random_slice_idx].detach()
__lowercase =output_from_past[:, :, random_slice_idx].detach()
self.parent.assertTrue(output_from_past_slice.shape[1] == next_tokens.shape[1] )
# test that outputs are equal for slice
self.parent.assertTrue(torch.allclose(__lowercase , __lowercase , atol=1E-2 ) )
def snake_case ( self : Optional[Any] , __lowercase : List[Any] , __lowercase : Dict ):
"""simple docstring"""
__lowercase =MaMaaaModel(config=__lowercase ).to(__lowercase ).eval()
__lowercase =model(**__lowercase )
__lowercase =outputs.encoder_last_hidden_state
__lowercase =outputs.last_hidden_state
with tempfile.TemporaryDirectory() as tmpdirname:
__lowercase =model.get_encoder()
encoder.save_pretrained(__lowercase )
__lowercase =MaMaaaEncoder.from_pretrained(__lowercase ).to(__lowercase )
__lowercase =encoder(inputs_dict['input_ids'] , attention_mask=inputs_dict['attention_mask'] )[
0
]
self.parent.assertTrue((encoder_last_hidden_state_a - encoder_last_hidden_state).abs().max().item() < 1E-3 )
with tempfile.TemporaryDirectory() as tmpdirname:
__lowercase =model.get_decoder()
decoder.save_pretrained(__lowercase )
__lowercase =MaMaaaDecoder.from_pretrained(__lowercase ).to(__lowercase )
__lowercase =decoder(
input_ids=inputs_dict['decoder_input_ids'] , attention_mask=inputs_dict['decoder_attention_mask'] , encoder_hidden_states=__lowercase , encoder_attention_mask=inputs_dict['attention_mask'] , )[0]
self.parent.assertTrue((last_hidden_state_a - last_hidden_state).abs().max().item() < 1E-3 )
@require_torch
class lowerCAmelCase ( lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
lowerCAmelCase_ = (
(
MaMaaaModel,
MaMaaaForConditionalGeneration,
)
if is_torch_available()
else ()
)
lowerCAmelCase_ = (MaMaaaForConditionalGeneration,) if is_torch_available() else ()
lowerCAmelCase_ = (
{
'conversational': MaMaaaForConditionalGeneration,
'feature-extraction': MaMaaaModel,
'summarization': MaMaaaForConditionalGeneration,
'text2text-generation': MaMaaaForConditionalGeneration,
'translation': MaMaaaForConditionalGeneration,
}
if is_torch_available()
else {}
)
lowerCAmelCase_ = True
lowerCAmelCase_ = True
lowerCAmelCase_ = False
lowerCAmelCase_ = False
def snake_case ( self : List[Any] , __lowercase : List[str] , __lowercase : List[Any] , __lowercase : Optional[int] , __lowercase : List[Any] , __lowercase : str ):
"""simple docstring"""
if pipeline_test_casse_name == "TranslationPipelineTests":
# Get `ValueError: Translation requires a `src_lang` and a `tgt_lang` for this model`.
# `M2M100Config` was never used in pipeline tests: cannot create a simple tokenizer.
return True
return False
def snake_case ( self : Optional[int] ):
"""simple docstring"""
__lowercase =MaMaaaModelTester(self )
__lowercase =ConfigTester(self , config_class=__lowercase )
def snake_case ( self : Optional[int] ):
"""simple docstring"""
self.config_tester.run_common_tests()
def snake_case ( self : List[str] ):
"""simple docstring"""
__lowercase , __lowercase =self.model_tester.prepare_config_and_inputs()
for model_class in self.all_model_classes:
__lowercase =model_class(__lowercase )
with tempfile.TemporaryDirectory() as tmpdirname:
model.save_pretrained(__lowercase )
__lowercase , __lowercase =model_class.from_pretrained(__lowercase , output_loading_info=__lowercase )
self.assertEqual(info['missing_keys'] , [] )
def snake_case ( self : List[str] ):
"""simple docstring"""
__lowercase =self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_decoder_model_past_large_inputs(*__lowercase )
def snake_case ( self : Optional[Any] ):
"""simple docstring"""
__lowercase =self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.check_encoder_decoder_model_standalone(*__lowercase )
def snake_case ( self : List[Any] ):
"""simple docstring"""
__lowercase , __lowercase =self.model_tester.prepare_config_and_inputs_for_common()
for model_class in (MaMaaaModel, MaMaaaForConditionalGeneration):
__lowercase =model_class(__lowercase )
model.to(__lowercase )
model.eval()
__lowercase =copy.deepcopy(self._prepare_for_class(__lowercase , __lowercase ) )
if not self.is_encoder_decoder:
__lowercase =inputs['input_ids']
del inputs["input_ids"]
else:
__lowercase =inputs['input_ids']
__lowercase =inputs.get('decoder_input_ids' , __lowercase )
del inputs["input_ids"]
inputs.pop('decoder_input_ids' , __lowercase )
__lowercase =model.get_input_embeddings()
if not self.is_encoder_decoder:
__lowercase =wte(__lowercase )
else:
__lowercase =wte(__lowercase )
__lowercase =wte(__lowercase )
with torch.no_grad():
model(**__lowercase )[0]
def snake_case ( self : Optional[Any] ):
"""simple docstring"""
__lowercase , __lowercase =self.model_tester.prepare_config_and_inputs()
__lowercase =input_dict['input_ids']
__lowercase =input_ids.ne(1 ).to(__lowercase )
__lowercase =MaMaaaForConditionalGeneration(__lowercase ).eval().to(__lowercase )
if torch_device == "cuda":
model.half()
model.generate(__lowercase , attention_mask=__lowercase )
model.generate(num_beams=4 , do_sample=__lowercase , early_stopping=__lowercase , num_return_sequences=3 )
def __UpperCamelCase ( lowercase__ : Tuple ):
'''simple docstring'''
return torch.tensor(__snake_case, dtype=torch.long, device=__snake_case )
UpperCAmelCase = 1E-4
@require_torch
@require_sentencepiece
@require_tokenizers
@slow
class lowerCAmelCase ( unittest.TestCase ):
@cached_property
def snake_case ( self : Any ):
"""simple docstring"""
return MaMaaaTokenizer.from_pretrained('facebook/m2m100_418M' )
def snake_case ( self : Any ):
"""simple docstring"""
__lowercase =MaMaaaModel.from_pretrained('facebook/m2m100_418M' ).to(__lowercase )
__lowercase =_long_tensor([[128028, 98, 12, 30527, 2732, 159, 7755, 61904, 39144, 38, 2]] )
__lowercase =_long_tensor([[2, 128028, 98, 12, 30527, 2732, 159, 7755, 61904, 39144, 38]] )
__lowercase =prepare_mam_aaa_inputs_dict(model.config , __lowercase , __lowercase )
with torch.no_grad():
__lowercase =model(**__lowercase )[0]
__lowercase =torch.Size((1, 11, 1024) )
self.assertEqual(output.shape , __lowercase )
# change to expected output here
__lowercase =torch.tensor(
[[-0.7_7_8_0, -0.1_6_7_6, 0.1_0_3_8], [-6.7_5_5_6, -1.3_9_9_2, 0.0_5_6_7], [-7.5_3_8_3, -0.5_9_2_0, -0.2_7_7_9]] , device=__lowercase )
self.assertTrue(torch.allclose(output[:, :3, :3] , __lowercase , atol=__lowercase ) )
def snake_case ( self : Union[str, Any] ):
"""simple docstring"""
__lowercase =MaMaaaForConditionalGeneration.from_pretrained('facebook/m2m100_418M' ).to(__lowercase )
# change to intended input
__lowercase =_long_tensor([[128028, 98, 12, 30527, 2732, 159, 7755, 61904, 39144, 38, 2]] )
__lowercase =_long_tensor([[2, 128028, 98, 12, 30527, 2732, 159, 7755, 61904, 39144, 38]] )
__lowercase =prepare_mam_aaa_inputs_dict(model.config , __lowercase , __lowercase )
with torch.no_grad():
__lowercase =model(**__lowercase )[0]
__lowercase =torch.Size((1, 11, model.config.vocab_size) )
self.assertEqual(output.shape , __lowercase )
# change to expected output here
__lowercase =torch.tensor(
[[-1.0_4_4_8, -1.0_4_1_1, 3.7_9_9_2], [-3.2_1_9_1, -3.2_3_8_6, -1.3_4_5_1], [-3.6_2_1_0, -3.5_9_9_3, 0.4_9_2_5]] , device=__lowercase )
self.assertTrue(torch.allclose(output[:, :3, :3] , __lowercase , atol=__lowercase ) )
def snake_case ( self : Optional[Any] ):
"""simple docstring"""
__lowercase =MaMaaaForConditionalGeneration.from_pretrained('facebook/m2m100_418M' ).to(__lowercase )
__lowercase =MaMaaaTokenizer.from_pretrained('facebook/m2m100_418M' , src_lang='fr' , tgt_lang='en' )
__lowercase =[
'L\'affaire NSA souligne l\'absence totale de débat sur le renseignement',
'Selon moi, il y a deux niveaux de réponse de la part du gouvernement français.',
'Lorsque François Hollande téléphone à Barack Obama ou quand le ministre des affaires étrangères Laurent'
' Fabius convoque l\'ambassadeur des Etats-Unis, ils réagissent à une vraie découverte, qui est celle de'
' l\'ampleur de la surveillance américaine sur l\'ensemble des communications en France.',
]
# The below article tests that we don't add any hypotheses outside of the top n_beams
__lowercase =tokenizer(__lowercase , padding=__lowercase , return_tensors='pt' )
__lowercase =model.generate(
input_ids=dct['input_ids'].to(__lowercase ) , attention_mask=dct['attention_mask'].to(__lowercase ) , num_beams=5 , forced_bos_token_id=tokenizer.get_lang_id('en' ) , )
__lowercase =[
'The NSA case highlights the total absence of intelligence debate',
'I think there are two levels of response from the French government.',
'When François Hollande calls Barack Obama or when Foreign Minister Laurent Fabius calls the U.S.'
' Ambassador, they respond to a real discovery, which is that of the scale of U.S. surveillance on all'
' communications in France.',
]
__lowercase =tokenizer.batch_decode(
hypotheses_batch.tolist() , clean_up_tokenization_spaces=__lowercase , skip_special_tokens=__lowercase )
assert generated == expected_en
| 141 |
'''simple docstring'''
from typing import List
from ...configuration_utils import PretrainedConfig
from ...utils import logging
a_ : Dict = logging.get_logger(__name__)
a_ : Any = {
"""snap-research/efficientformer-l1-300""": (
"""https://huggingface.co/snap-research/efficientformer-l1-300/resolve/main/config.json"""
),
}
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : List[str] ='efficientformer'
def __init__( self, lowerCAmelCase = [3, 2, 6, 4], lowerCAmelCase = [48, 96, 224, 448], lowerCAmelCase = [True, True, True, True], lowerCAmelCase = 448, lowerCAmelCase = 32, lowerCAmelCase = 4, lowerCAmelCase = 7, lowerCAmelCase = 5, lowerCAmelCase = 8, lowerCAmelCase = 4, lowerCAmelCase = 0.0, lowerCAmelCase = 16, lowerCAmelCase = 3, lowerCAmelCase = 3, lowerCAmelCase = 3, lowerCAmelCase = 2, lowerCAmelCase = 1, lowerCAmelCase = 0.0, lowerCAmelCase = 1, lowerCAmelCase = True, lowerCAmelCase = True, lowerCAmelCase = 1e-5, lowerCAmelCase = "gelu", lowerCAmelCase = 0.0_2, lowerCAmelCase = 1e-12, lowerCAmelCase = 224, lowerCAmelCase = 1e-05, **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
lowerCamelCase_ =hidden_act
lowerCamelCase_ =hidden_dropout_prob
lowerCamelCase_ =hidden_sizes
lowerCamelCase_ =num_hidden_layers
lowerCamelCase_ =num_attention_heads
lowerCamelCase_ =initializer_range
lowerCamelCase_ =layer_norm_eps
lowerCamelCase_ =patch_size
lowerCamelCase_ =num_channels
lowerCamelCase_ =depths
lowerCamelCase_ =mlp_expansion_ratio
lowerCamelCase_ =downsamples
lowerCamelCase_ =dim
lowerCamelCase_ =key_dim
lowerCamelCase_ =attention_ratio
lowerCamelCase_ =resolution
lowerCamelCase_ =pool_size
lowerCamelCase_ =downsample_patch_size
lowerCamelCase_ =downsample_stride
lowerCamelCase_ =downsample_pad
lowerCamelCase_ =drop_path_rate
lowerCamelCase_ =num_metaad_blocks
lowerCamelCase_ =distillation
lowerCamelCase_ =use_layer_scale
lowerCamelCase_ =layer_scale_init_value
lowerCamelCase_ =image_size
lowerCamelCase_ =batch_norm_eps
| 75 | 0 |
import argparse
import pickle
import numpy as np
import torch
from torch import nn
from transformers import ReformerConfig, ReformerModelWithLMHead
from transformers.utils import logging
logging.set_verbosity_info()
def A_ ( _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase=None ) -> List[str]:
assert torch_layer.weight.shape == weight.shape, F"""{torch_layer} layer.weight does not match"""
UpperCamelCase : Dict = nn.Parameter(__snake_case )
if bias is not None:
assert torch_layer.bias.shape == bias.shape, F"""{torch_layer} layer.bias does not match"""
UpperCamelCase : Optional[Any] = nn.Parameter(__snake_case )
def A_ ( _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase ) -> List[Any]:
UpperCamelCase : Union[str, Any] = np.asarray(weights[0] )
UpperCamelCase : Any = np.asarray(weights[1] )
UpperCamelCase : Optional[Any] = np.asarray(weights[2] )
set_param(
torch_layer.self_attention.query_key , torch.tensor(__snake_case ).transpose(1 , 2 ).contiguous().view(-1 , __snake_case ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__snake_case ).transpose(1 , 2 ).contiguous().view(-1 , __snake_case ) , )
set_param(
torch_layer.output.dense , torch.tensor(__snake_case ).view(-1 , __snake_case ).contiguous().transpose(0 , 1 ) , )
def A_ ( _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase ) -> Dict:
UpperCamelCase : List[str] = np.asarray(weights[0] )
UpperCamelCase : Union[str, Any] = np.asarray(weights[1] )
UpperCamelCase : List[str] = np.asarray(weights[2] )
UpperCamelCase : Union[str, Any] = np.asarray(weights[3] )
set_param(
torch_layer.self_attention.query , torch.tensor(__snake_case ).transpose(1 , 2 ).contiguous().view(-1 , __snake_case ) , )
set_param(
torch_layer.self_attention.key , torch.tensor(__snake_case ).transpose(1 , 2 ).contiguous().view(-1 , __snake_case ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__snake_case ).transpose(1 , 2 ).contiguous().view(-1 , __snake_case ) , )
set_param(
torch_layer.output.dense , torch.tensor(__snake_case ).view(-1 , __snake_case ).contiguous().transpose(0 , 1 ) , )
def A_ ( _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase ) -> List[str]:
UpperCamelCase : Optional[int] = weights[0][0][0]
UpperCamelCase : int = np.asarray(layer_norm_a[0] )
UpperCamelCase : List[Any] = np.asarray(layer_norm_a[1] )
set_param(
torch_block.attention.layer_norm , torch.tensor(__snake_case ) , torch.tensor(__snake_case ) , )
# lsh weights + output
UpperCamelCase : List[str] = weights[0][1]
if len(__snake_case ) < 4:
set_layer_weights_in_torch_lsh(__snake_case , torch_block.attention , __snake_case )
else:
set_layer_weights_in_torch_local(__snake_case , torch_block.attention , __snake_case )
# intermediate weighs
UpperCamelCase : Optional[int] = weights[2][0][1][2]
# Chunked Feed Forward
if len(__snake_case ) == 4:
UpperCamelCase : Dict = intermediate_weights[2]
# layernorm 2
UpperCamelCase : Optional[int] = np.asarray(intermediate_weights[0][0] )
UpperCamelCase : List[Any] = np.asarray(intermediate_weights[0][1] )
set_param(
torch_block.feed_forward.layer_norm , torch.tensor(__snake_case ) , torch.tensor(__snake_case ) , )
# intermediate dense
UpperCamelCase : List[Any] = np.asarray(intermediate_weights[1][0] )
UpperCamelCase : Union[str, Any] = np.asarray(intermediate_weights[1][1] )
set_param(
torch_block.feed_forward.dense.dense , torch.tensor(__snake_case ).transpose(0 , 1 ).contiguous() , torch.tensor(__snake_case ) , )
# intermediate out
UpperCamelCase : Optional[int] = np.asarray(intermediate_weights[4][0] )
UpperCamelCase : Optional[int] = np.asarray(intermediate_weights[4][1] )
set_param(
torch_block.feed_forward.output.dense , torch.tensor(__snake_case ).transpose(0 , 1 ).contiguous() , torch.tensor(__snake_case ) , )
def A_ ( _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase ) -> str:
UpperCamelCase : str = torch_model.reformer
# word embeds
UpperCamelCase : Optional[int] = np.asarray(weights[1] )
set_param(
torch_model_reformer.embeddings.word_embeddings , torch.tensor(__snake_case ) , )
if isinstance(weights[3] , __snake_case ):
UpperCamelCase : Any = torch_model_reformer.embeddings.position_embeddings
for emb_idx in range(len(position_embeddings.weights ) ):
UpperCamelCase : Tuple = np.asarray(weights[3][emb_idx][0] )
assert (
position_embeddings.weights[emb_idx].shape == emb_weights.shape
), F"""{position_embeddings[emb_idx]} emb does not match"""
UpperCamelCase : str = nn.Parameter(torch.tensor(__snake_case ) )
UpperCamelCase : Optional[Any] = weights[5]
assert len(torch_model_reformer.encoder.layers ) * 4 == len(
__snake_case ), "HF and trax model do not have the same number of layers"
for layer_idx, layer in enumerate(torch_model_reformer.encoder.layers ):
UpperCamelCase : int = trax_layer_weights[4 * layer_idx : 4 * (layer_idx + 1)]
set_block_weights_in_torch(__snake_case , __snake_case , __snake_case )
# output layer norm
UpperCamelCase : Optional[Any] = np.asarray(weights[7][0] )
UpperCamelCase : List[str] = np.asarray(weights[7][1] )
set_param(
torch_model_reformer.encoder.layer_norm , torch.tensor(__snake_case ) , torch.tensor(__snake_case ) , )
# output embeddings
UpperCamelCase : List[Any] = np.asarray(weights[9][0] )
UpperCamelCase : List[Any] = np.asarray(weights[9][1] )
set_param(
torch_model.lm_head.decoder , torch.tensor(__snake_case ).transpose(0 , 1 ).contiguous() , torch.tensor(__snake_case ) , )
def A_ ( _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase ) -> Dict:
UpperCamelCase : List[str] = ReformerConfig.from_json_file(__snake_case )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCamelCase : str = ReformerModelWithLMHead(__snake_case )
with open(__snake_case , "rb" ) as f:
UpperCamelCase : Union[str, Any] = pickle.load(__snake_case )["weights"]
set_model_weights_in_torch(__snake_case , __snake_case , config.hidden_size )
# Save pytorch-model
print(F"""Save PyTorch model to {pytorch_dump_path}""" )
torch.save(model.state_dict() , __snake_case )
if __name__ == "__main__":
__lowerCamelCase : int = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
"""--trax_model_pkl_path""", default=None, type=str, required=True, help="""Path to the TensorFlow checkpoint path."""
)
parser.add_argument(
"""--config_file""",
default=None,
type=str,
required=True,
help=(
"""The config json file corresponding to the pre-trained Reformer model. \n"""
"""This specifies the model architecture."""
),
)
parser.add_argument(
"""--pytorch_dump_path""", default=None, type=str, required=True, help="""Path to the output PyTorch model."""
)
__lowerCamelCase : Union[str, Any] = parser.parse_args()
convert_trax_checkpoint_to_pytorch(args.trax_model_pkl_path, args.config_file, args.pytorch_dump_path)
| 52 |
'''simple docstring'''
import itertools
import random
import unittest
import numpy as np
from transformers import is_speech_available
from transformers.testing_utils import require_torch, require_torchaudio
from ...test_sequence_feature_extraction_common import SequenceFeatureExtractionTestMixin
if is_speech_available():
from transformers import SpeechaTextFeatureExtractor
a_ : Union[str, Any] = random.Random()
def a_ ( __snake_case : int , __snake_case : int=1.0 , __snake_case : Tuple=None , __snake_case : Union[str, Any]=None ) -> str:
"""simple docstring"""
if rng is None:
lowerCamelCase_ =global_rng
lowerCamelCase_ =[]
for batch_idx in range(shape[0] ):
values.append([] )
for _ in range(shape[1] ):
values[-1].append(rng.random() * scale )
return values
@require_torch
@require_torchaudio
class __UpperCamelCase ( unittest.TestCase ):
def __init__( self, lowerCAmelCase, lowerCAmelCase=7, lowerCAmelCase=400, lowerCAmelCase=2_000, lowerCAmelCase=24, lowerCAmelCase=24, lowerCAmelCase=0.0, lowerCAmelCase=16_000, lowerCAmelCase=True, lowerCAmelCase=True, ):
"""simple docstring"""
lowerCamelCase_ =parent
lowerCamelCase_ =batch_size
lowerCamelCase_ =min_seq_length
lowerCamelCase_ =max_seq_length
lowerCamelCase_ =(self.max_seq_length - self.min_seq_length) // (self.batch_size - 1)
lowerCamelCase_ =feature_size
lowerCamelCase_ =num_mel_bins
lowerCamelCase_ =padding_value
lowerCamelCase_ =sampling_rate
lowerCamelCase_ =return_attention_mask
lowerCamelCase_ =do_normalize
def lowercase__ ( self ):
"""simple docstring"""
return {
"feature_size": self.feature_size,
"num_mel_bins": self.num_mel_bins,
"padding_value": self.padding_value,
"sampling_rate": self.sampling_rate,
"return_attention_mask": self.return_attention_mask,
"do_normalize": self.do_normalize,
}
def lowercase__ ( self, lowerCAmelCase=False, lowerCAmelCase=False ):
"""simple docstring"""
def _flatten(lowerCAmelCase ):
return list(itertools.chain(*lowerCAmelCase ) )
if equal_length:
lowerCamelCase_ =[floats_list((self.max_seq_length, self.feature_size) ) for _ in range(self.batch_size )]
else:
# make sure that inputs increase in size
lowerCamelCase_ =[
floats_list((x, self.feature_size) )
for x in range(self.min_seq_length, self.max_seq_length, self.seq_length_diff )
]
if numpify:
lowerCamelCase_ =[np.asarray(lowerCAmelCase ) for x in speech_inputs]
return speech_inputs
@require_torch
@require_torchaudio
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : Any =SpeechaTextFeatureExtractor if is_speech_available() else None
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextFeatureExtractionTester(self )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
self.assertTrue(np.all(np.mean(lowerCAmelCase, axis=0 ) < 1e-3 ) )
self.assertTrue(np.all(np.abs(np.var(lowerCAmelCase, axis=0 ) - 1 ) < 1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
# create three inputs of length 800, 1000, and 1200
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =[np.asarray(lowerCAmelCase ) for speech_input in speech_inputs]
# Test feature size
lowerCamelCase_ =feature_extractor(lowerCAmelCase, padding=lowerCAmelCase, return_tensors='''np''' ).input_features
self.assertTrue(input_features.ndim == 3 )
self.assertTrue(input_features.shape[-1] == feature_extractor.feature_size )
# Test not batched input
lowerCamelCase_ =feature_extractor(speech_inputs[0], return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(np_speech_inputs[0], return_tensors='''np''' ).input_features
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
# Test batched
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
for enc_seq_a, enc_seq_a in zip(lowerCAmelCase, lowerCAmelCase ):
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
# Test 2-D numpy arrays are batched.
lowerCamelCase_ =[floats_list((1, x) )[0] for x in (800, 800, 800)]
lowerCamelCase_ =np.asarray(lowerCAmelCase )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
for enc_seq_a, enc_seq_a in zip(lowerCAmelCase, lowerCAmelCase ):
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =['''longest''', '''max_length''', '''do_not_pad''']
lowerCamelCase_ =[None, 16, None]
for max_length, padding in zip(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding=lowerCAmelCase, max_length=lowerCAmelCase, return_attention_mask=lowerCAmelCase )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =[np.sum(lowerCAmelCase ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =['''longest''', '''max_length''', '''do_not_pad''']
lowerCamelCase_ =[None, 16, None]
for max_length, padding in zip(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, max_length=lowerCAmelCase, padding=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =[np.sum(lowerCAmelCase ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self.assertTrue(input_features[0][fbank_feat_lengths[0] :].sum() < 1e-6 )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self.assertTrue(input_features[0][fbank_feat_lengths[1] :].sum() < 1e-6 )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''max_length''', max_length=4, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1] )
self._check_zero_mean_unit_variance(input_features[2] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''longest''', max_length=4, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape, (3, 4, 24) )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''longest''', max_length=16, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape, (3, 6, 24) )
def lowercase__ ( self ):
"""simple docstring"""
import torch
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =np.random.rand(100, 32 ).astype(np.floataa )
lowerCamelCase_ =np_speech_inputs.tolist()
for inputs in [py_speech_inputs, np_speech_inputs]:
lowerCamelCase_ =feature_extractor.pad([{'''input_features''': inputs}], return_tensors='''np''' )
self.assertTrue(np_processed.input_features.dtype == np.floataa )
lowerCamelCase_ =feature_extractor.pad([{'''input_features''': inputs}], return_tensors='''pt''' )
self.assertTrue(pt_processed.input_features.dtype == torch.floataa )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
from datasets import load_dataset
lowerCamelCase_ =load_dataset('''hf-internal-testing/librispeech_asr_dummy''', '''clean''', split='''validation''' )
# automatic decoding with librispeech
lowerCamelCase_ =ds.sort('''id''' ).select(range(lowerCAmelCase ) )[:num_samples]['''audio''']
return [x["array"] for x in speech_samples]
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =np.array([
-1.5_7_4_5, -1.7_7_1_3, -1.7_0_2_0, -1.6_0_6_9, -1.2_2_5_0, -1.1_1_0_5, -0.9_0_7_2, -0.8_2_4_1,
-1.2_3_1_0, -0.8_0_9_8, -0.3_3_2_0, -0.4_1_0_1, -0.7_9_8_5, -0.4_9_9_6, -0.8_2_1_3, -0.9_1_2_8,
-1.0_4_2_0, -1.1_2_8_6, -1.0_4_4_0, -0.7_9_9_9, -0.8_4_0_5, -1.2_2_7_5, -1.5_4_4_3, -1.4_6_2_5,
] )
# fmt: on
lowerCamelCase_ =self._load_datasamples(1 )
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''pt''' ).input_features
self.assertEquals(input_features.shape, (1, 584, 24) )
self.assertTrue(np.allclose(input_features[0, 0, :30], lowerCAmelCase, atol=1e-4 ) )
| 75 | 0 |
import argparse
import os
import shutil
import torch
from emmental.modules import MagnitudeBinarizer, ThresholdBinarizer, TopKBinarizer
def a ( lowerCamelCase_ ):
'''simple docstring'''
lowercase__ = args.pruning_method
lowercase__ = args.threshold
lowercase__ = args.model_name_or_path.rstrip('''/''' )
lowercase__ = args.target_model_path
print(F"""Load fine-pruned model from {model_name_or_path}""" )
lowercase__ = torch.load(os.path.join(__snake_case , '''pytorch_model.bin''' ) )
lowercase__ = {}
for name, tensor in model.items():
if "embeddings" in name or "LayerNorm" in name or "pooler" in name:
lowercase__ = tensor
print(F"""Copied layer {name}""" )
elif "classifier" in name or "qa_output" in name:
lowercase__ = tensor
print(F"""Copied layer {name}""" )
elif "bias" in name:
lowercase__ = tensor
print(F"""Copied layer {name}""" )
else:
if pruning_method == "magnitude":
lowercase__ = MagnitudeBinarizer.apply(inputs=__snake_case , threshold=__snake_case )
lowercase__ = tensor * mask
print(F"""Pruned layer {name}""" )
elif pruning_method == "topK":
if "mask_scores" in name:
continue
lowercase__ = name[:-6]
lowercase__ = model[F"""{prefix_}mask_scores"""]
lowercase__ = TopKBinarizer.apply(__snake_case , __snake_case )
lowercase__ = tensor * mask
print(F"""Pruned layer {name}""" )
elif pruning_method == "sigmoied_threshold":
if "mask_scores" in name:
continue
lowercase__ = name[:-6]
lowercase__ = model[F"""{prefix_}mask_scores"""]
lowercase__ = ThresholdBinarizer.apply(__snake_case , __snake_case , __snake_case )
lowercase__ = tensor * mask
print(F"""Pruned layer {name}""" )
elif pruning_method == "l0":
if "mask_scores" in name:
continue
lowercase__ = name[:-6]
lowercase__ = model[F"""{prefix_}mask_scores"""]
lowercase__ , lowercase__ = -0.1, 1.1
lowercase__ = torch.sigmoid(__snake_case )
lowercase__ = s * (r - l) + l
lowercase__ = s_bar.clamp(min=0.0 , max=1.0 )
lowercase__ = tensor * mask
print(F"""Pruned layer {name}""" )
else:
raise ValueError('''Unknown pruning method''' )
if target_model_path is None:
lowercase__ = os.path.join(
os.path.dirname(__snake_case ) , F"""bertarized_{os.path.basename(__snake_case )}""" )
if not os.path.isdir(__snake_case ):
shutil.copytree(__snake_case , __snake_case )
print(F"""\nCreated folder {target_model_path}""" )
torch.save(__snake_case , os.path.join(__snake_case , '''pytorch_model.bin''' ) )
print('''\nPruned model saved! See you later!''' )
if __name__ == "__main__":
A__ : List[Any] = argparse.ArgumentParser()
parser.add_argument(
'--pruning_method',
choices=['l0', 'magnitude', 'topK', 'sigmoied_threshold'],
type=str,
required=True,
help=(
'Pruning Method (l0 = L0 regularization, magnitude = Magnitude pruning, topK = Movement pruning,'
' sigmoied_threshold = Soft movement pruning)'
),
)
parser.add_argument(
'--threshold',
type=float,
required=False,
help=(
'For `magnitude` and `topK`, it is the level of remaining weights (in %) in the fine-pruned model.'
'For `sigmoied_threshold`, it is the threshold \tau against which the (sigmoied) scores are compared.'
'Not needed for `l0`'
),
)
parser.add_argument(
'--model_name_or_path',
type=str,
required=True,
help='Folder containing the model that was previously fine-pruned',
)
parser.add_argument(
'--target_model_path',
default=None,
type=str,
required=False,
help='Folder containing the model that was previously fine-pruned',
)
A__ : Optional[Any] = parser.parse_args()
main(args)
| 207 |
'''simple docstring'''
def a_ ( __snake_case : Any , __snake_case : List[str] ) -> str:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in table:
res += inp[i - 1]
return res
def a_ ( __snake_case : List[str] ) -> Optional[int]:
"""simple docstring"""
return data[1:] + data[0]
def a_ ( __snake_case : str , __snake_case : Tuple ) -> int:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in range(len(__snake_case ) ):
if a[i] == b[i]:
res += "0"
else:
res += "1"
return res
def a_ ( __snake_case : Optional[Any] , __snake_case : Tuple ) -> List[Any]:
"""simple docstring"""
lowerCamelCase_ =int('''0b''' + data[0] + data[-1] , 2 )
lowerCamelCase_ =int('''0b''' + data[1:3] , 2 )
return bin(s[row][col] )[2:]
def a_ ( __snake_case : Optional[int] , __snake_case : List[str] , __snake_case : int , __snake_case : Tuple , __snake_case : List[Any] ) -> Optional[Any]:
"""simple docstring"""
lowerCamelCase_ =message[:4]
lowerCamelCase_ =message[4:]
lowerCamelCase_ =apply_table(__snake_case , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
lowerCamelCase_ =apply_sbox(__snake_case , temp[:4] ) # noqa: E741
lowerCamelCase_ =apply_sbox(__snake_case , temp[4:] )
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + l # noqa: E741
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + r
lowerCamelCase_ =apply_table(l + r , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
return temp + right
if __name__ == "__main__":
a_ : Any = input("""Enter 10 bit key: """)
a_ : Any = input("""Enter 8 bit message: """)
a_ : str = [6, 3, 7, 4, 8, 5, 10, 9]
a_ : str = [3, 5, 2, 7, 4, 10, 1, 9, 8, 6]
a_ : str = [2, 4, 3, 1]
a_ : Optional[int] = [2, 6, 3, 1, 4, 8, 5, 7]
a_ : Optional[Any] = [4, 1, 3, 5, 7, 2, 8, 6]
a_ : Union[str, Any] = [4, 1, 2, 3, 2, 3, 4, 1]
a_ : int = [[1, 0, 3, 2], [3, 2, 1, 0], [0, 2, 1, 3], [3, 1, 3, 2]]
a_ : Any = [[0, 1, 2, 3], [2, 0, 1, 3], [3, 0, 1, 0], [2, 1, 0, 3]]
# key generation
a_ : List[Any] = apply_table(key, paa_table)
a_ : str = temp[:5]
a_ : Optional[Any] = temp[5:]
a_ : Tuple = left_shift(left)
a_ : Optional[Any] = left_shift(right)
a_ : str = apply_table(left + right, pa_table)
a_ : Optional[Any] = left_shift(left)
a_ : Tuple = left_shift(right)
a_ : Union[str, Any] = left_shift(left)
a_ : List[str] = left_shift(right)
a_ : Optional[int] = apply_table(left + right, pa_table)
# encryption
a_ : Optional[int] = apply_table(message, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : str = temp[4:] + temp[:4]
a_ : List[str] = function(expansion, sa, sa, keya, temp)
a_ : Union[str, Any] = apply_table(temp, IP_inv)
print("""Cipher text is:""", CT)
# decryption
a_ : Optional[int] = apply_table(CT, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : int = temp[4:] + temp[:4]
a_ : int = function(expansion, sa, sa, keya, temp)
a_ : Optional[int] = apply_table(temp, IP_inv)
print("""Plain text after decypting is:""", PT)
| 75 | 0 |
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
is_vision_available,
)
_UpperCamelCase = {
"""configuration_owlvit""": [
"""OWLVIT_PRETRAINED_CONFIG_ARCHIVE_MAP""",
"""OwlViTConfig""",
"""OwlViTOnnxConfig""",
"""OwlViTTextConfig""",
"""OwlViTVisionConfig""",
],
"""processing_owlvit""": ["""OwlViTProcessor"""],
}
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_UpperCamelCase = ["""OwlViTFeatureExtractor"""]
_UpperCamelCase = ["""OwlViTImageProcessor"""]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_UpperCamelCase = [
"""OWLVIT_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""OwlViTModel""",
"""OwlViTPreTrainedModel""",
"""OwlViTTextModel""",
"""OwlViTVisionModel""",
"""OwlViTForObjectDetection""",
]
if TYPE_CHECKING:
from .configuration_owlvit import (
OWLVIT_PRETRAINED_CONFIG_ARCHIVE_MAP,
OwlViTConfig,
OwlViTOnnxConfig,
OwlViTTextConfig,
OwlViTVisionConfig,
)
from .processing_owlvit import OwlViTProcessor
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .feature_extraction_owlvit import OwlViTFeatureExtractor
from .image_processing_owlvit import OwlViTImageProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_owlvit import (
OWLVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
OwlViTForObjectDetection,
OwlViTModel,
OwlViTPreTrainedModel,
OwlViTTextModel,
OwlViTVisionModel,
)
else:
import sys
_UpperCamelCase = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 275 |
'''simple docstring'''
import importlib
import json
import os
from collections import OrderedDict
from typing import Dict, Optional, Union
# Build the list of all feature extractors
from ...configuration_utils import PretrainedConfig
from ...dynamic_module_utils import get_class_from_dynamic_module, resolve_trust_remote_code
from ...feature_extraction_utils import FeatureExtractionMixin
from ...utils import CONFIG_NAME, FEATURE_EXTRACTOR_NAME, get_file_from_repo, logging
from .auto_factory import _LazyAutoMapping
from .configuration_auto import (
CONFIG_MAPPING_NAMES,
AutoConfig,
model_type_to_module_name,
replace_list_option_in_docstrings,
)
a_ : List[Any] = logging.get_logger(__name__)
a_ : Tuple = OrderedDict(
[
("""audio-spectrogram-transformer""", """ASTFeatureExtractor"""),
("""beit""", """BeitFeatureExtractor"""),
("""chinese_clip""", """ChineseCLIPFeatureExtractor"""),
("""clap""", """ClapFeatureExtractor"""),
("""clip""", """CLIPFeatureExtractor"""),
("""clipseg""", """ViTFeatureExtractor"""),
("""conditional_detr""", """ConditionalDetrFeatureExtractor"""),
("""convnext""", """ConvNextFeatureExtractor"""),
("""cvt""", """ConvNextFeatureExtractor"""),
("""data2vec-audio""", """Wav2Vec2FeatureExtractor"""),
("""data2vec-vision""", """BeitFeatureExtractor"""),
("""deformable_detr""", """DeformableDetrFeatureExtractor"""),
("""deit""", """DeiTFeatureExtractor"""),
("""detr""", """DetrFeatureExtractor"""),
("""dinat""", """ViTFeatureExtractor"""),
("""donut-swin""", """DonutFeatureExtractor"""),
("""dpt""", """DPTFeatureExtractor"""),
("""encodec""", """EncodecFeatureExtractor"""),
("""flava""", """FlavaFeatureExtractor"""),
("""glpn""", """GLPNFeatureExtractor"""),
("""groupvit""", """CLIPFeatureExtractor"""),
("""hubert""", """Wav2Vec2FeatureExtractor"""),
("""imagegpt""", """ImageGPTFeatureExtractor"""),
("""layoutlmv2""", """LayoutLMv2FeatureExtractor"""),
("""layoutlmv3""", """LayoutLMv3FeatureExtractor"""),
("""levit""", """LevitFeatureExtractor"""),
("""maskformer""", """MaskFormerFeatureExtractor"""),
("""mctct""", """MCTCTFeatureExtractor"""),
("""mobilenet_v1""", """MobileNetV1FeatureExtractor"""),
("""mobilenet_v2""", """MobileNetV2FeatureExtractor"""),
("""mobilevit""", """MobileViTFeatureExtractor"""),
("""nat""", """ViTFeatureExtractor"""),
("""owlvit""", """OwlViTFeatureExtractor"""),
("""perceiver""", """PerceiverFeatureExtractor"""),
("""poolformer""", """PoolFormerFeatureExtractor"""),
("""regnet""", """ConvNextFeatureExtractor"""),
("""resnet""", """ConvNextFeatureExtractor"""),
("""segformer""", """SegformerFeatureExtractor"""),
("""sew""", """Wav2Vec2FeatureExtractor"""),
("""sew-d""", """Wav2Vec2FeatureExtractor"""),
("""speech_to_text""", """Speech2TextFeatureExtractor"""),
("""speecht5""", """SpeechT5FeatureExtractor"""),
("""swiftformer""", """ViTFeatureExtractor"""),
("""swin""", """ViTFeatureExtractor"""),
("""swinv2""", """ViTFeatureExtractor"""),
("""table-transformer""", """DetrFeatureExtractor"""),
("""timesformer""", """VideoMAEFeatureExtractor"""),
("""tvlt""", """TvltFeatureExtractor"""),
("""unispeech""", """Wav2Vec2FeatureExtractor"""),
("""unispeech-sat""", """Wav2Vec2FeatureExtractor"""),
("""van""", """ConvNextFeatureExtractor"""),
("""videomae""", """VideoMAEFeatureExtractor"""),
("""vilt""", """ViltFeatureExtractor"""),
("""vit""", """ViTFeatureExtractor"""),
("""vit_mae""", """ViTFeatureExtractor"""),
("""vit_msn""", """ViTFeatureExtractor"""),
("""wav2vec2""", """Wav2Vec2FeatureExtractor"""),
("""wav2vec2-conformer""", """Wav2Vec2FeatureExtractor"""),
("""wavlm""", """Wav2Vec2FeatureExtractor"""),
("""whisper""", """WhisperFeatureExtractor"""),
("""xclip""", """CLIPFeatureExtractor"""),
("""yolos""", """YolosFeatureExtractor"""),
]
)
a_ : Optional[Any] = _LazyAutoMapping(CONFIG_MAPPING_NAMES, FEATURE_EXTRACTOR_MAPPING_NAMES)
def a_ ( __snake_case : str ) -> Any:
"""simple docstring"""
for module_name, extractors in FEATURE_EXTRACTOR_MAPPING_NAMES.items():
if class_name in extractors:
lowerCamelCase_ =model_type_to_module_name(__snake_case )
lowerCamelCase_ =importlib.import_module(F'''.{module_name}''' , '''transformers.models''' )
try:
return getattr(__snake_case , __snake_case )
except AttributeError:
continue
for _, extractor in FEATURE_EXTRACTOR_MAPPING._extra_content.items():
if getattr(__snake_case , '''__name__''' , __snake_case ) == class_name:
return extractor
# We did not fine the class, but maybe it's because a dep is missing. In that case, the class will be in the main
# init and we return the proper dummy to get an appropriate error message.
lowerCamelCase_ =importlib.import_module('''transformers''' )
if hasattr(__snake_case , __snake_case ):
return getattr(__snake_case , __snake_case )
return None
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , **__snake_case : Union[str, Any] , ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ =get_file_from_repo(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
if resolved_config_file is None:
logger.info(
'''Could not locate the feature extractor configuration file, will try to use the model config instead.''' )
return {}
with open(__snake_case , encoding='''utf-8''' ) as reader:
return json.load(__snake_case )
class __UpperCamelCase :
def __init__( self ):
"""simple docstring"""
raise EnvironmentError(
'''AutoFeatureExtractor is designed to be instantiated '''
'''using the `AutoFeatureExtractor.from_pretrained(pretrained_model_name_or_path)` method.''' )
@classmethod
@replace_list_option_in_docstrings(lowerCAmelCase )
def lowercase__ ( cls, lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =kwargs.pop('''config''', lowerCAmelCase )
lowerCamelCase_ =kwargs.pop('''trust_remote_code''', lowerCAmelCase )
lowerCamelCase_ =True
lowerCamelCase_, lowerCamelCase_ =FeatureExtractionMixin.get_feature_extractor_dict(lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ =config_dict.get('''feature_extractor_type''', lowerCAmelCase )
lowerCamelCase_ =None
if "AutoFeatureExtractor" in config_dict.get('''auto_map''', {} ):
lowerCamelCase_ =config_dict['''auto_map''']['''AutoFeatureExtractor''']
# If we don't find the feature extractor class in the feature extractor config, let's try the model config.
if feature_extractor_class is None and feature_extractor_auto_map is None:
if not isinstance(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =AutoConfig.from_pretrained(lowerCAmelCase, **lowerCAmelCase )
# It could be in `config.feature_extractor_type``
lowerCamelCase_ =getattr(lowerCAmelCase, '''feature_extractor_type''', lowerCAmelCase )
if hasattr(lowerCAmelCase, '''auto_map''' ) and "AutoFeatureExtractor" in config.auto_map:
lowerCamelCase_ =config.auto_map['''AutoFeatureExtractor''']
if feature_extractor_class is not None:
lowerCamelCase_ =feature_extractor_class_from_name(lowerCAmelCase )
lowerCamelCase_ =feature_extractor_auto_map is not None
lowerCamelCase_ =feature_extractor_class is not None or type(lowerCAmelCase ) in FEATURE_EXTRACTOR_MAPPING
lowerCamelCase_ =resolve_trust_remote_code(
lowerCAmelCase, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase )
if has_remote_code and trust_remote_code:
lowerCamelCase_ =get_class_from_dynamic_module(
lowerCAmelCase, lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ =kwargs.pop('''code_revision''', lowerCAmelCase )
if os.path.isdir(lowerCAmelCase ):
feature_extractor_class.register_for_auto_class()
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
elif feature_extractor_class is not None:
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
# Last try: we use the FEATURE_EXTRACTOR_MAPPING.
elif type(lowerCAmelCase ) in FEATURE_EXTRACTOR_MAPPING:
lowerCamelCase_ =FEATURE_EXTRACTOR_MAPPING[type(lowerCAmelCase )]
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
raise ValueError(
f'''Unrecognized feature extractor in {pretrained_model_name_or_path}. Should have a '''
f'''`feature_extractor_type` key in its {FEATURE_EXTRACTOR_NAME} of {CONFIG_NAME}, or one of the following '''
f'''`model_type` keys in its {CONFIG_NAME}: {', '.join(c for c in FEATURE_EXTRACTOR_MAPPING_NAMES.keys() )}''' )
@staticmethod
def lowercase__ ( lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
FEATURE_EXTRACTOR_MAPPING.register(lowerCAmelCase, lowerCAmelCase )
| 75 | 0 |
import numpy as np
import torch
from torch.utils.data import DataLoader
from accelerate.utils.dataclasses import DistributedType
class lowercase__ :
def __init__( self , __UpperCAmelCase=2 , __UpperCAmelCase=3 , __UpperCAmelCase=64 , __UpperCAmelCase=None )-> Tuple:
'''simple docstring'''
lowerCAmelCase__ = np.random.default_rng(__UpperCAmelCase )
lowerCAmelCase__ = length
lowerCAmelCase__ = rng.normal(size=(length,) ).astype(np.floataa )
lowerCAmelCase__ = a * self.x + b + rng.normal(scale=0.1 , size=(length,) ).astype(np.floataa )
def __len__( self )-> List[Any]:
'''simple docstring'''
return self.length
def __getitem__( self , __UpperCAmelCase )-> int:
'''simple docstring'''
return {"x": self.x[i], "y": self.y[i]}
class lowercase__ ( torch.nn.Module ):
def __init__( self , __UpperCAmelCase=0 , __UpperCAmelCase=0 , __UpperCAmelCase=False )-> int:
'''simple docstring'''
super().__init__()
lowerCAmelCase__ = torch.nn.Parameter(torch.tensor([2, 3] ).float() )
lowerCAmelCase__ = torch.nn.Parameter(torch.tensor([2, 3] ).float() )
lowerCAmelCase__ = True
def UpperCAmelCase ( self , __UpperCAmelCase=None )-> List[Any]:
'''simple docstring'''
if self.first_batch:
print(F"Model dtype: {self.a.dtype}, {self.b.dtype}. Input dtype: {x.dtype}" )
lowerCAmelCase__ = False
return x * self.a[0] + self.b[0]
class lowercase__ ( torch.nn.Module ):
def __init__( self , __UpperCAmelCase=0 , __UpperCAmelCase=0 , __UpperCAmelCase=False )-> Optional[int]:
'''simple docstring'''
super().__init__()
lowerCAmelCase__ = torch.nn.Parameter(torch.tensor(__UpperCAmelCase ).float() )
lowerCAmelCase__ = torch.nn.Parameter(torch.tensor(__UpperCAmelCase ).float() )
lowerCAmelCase__ = True
def UpperCAmelCase ( self , __UpperCAmelCase=None )-> Union[str, Any]:
'''simple docstring'''
if self.first_batch:
print(F"Model dtype: {self.a.dtype}, {self.b.dtype}. Input dtype: {x.dtype}" )
lowerCAmelCase__ = False
return x * self.a + self.b
def _a ( UpperCamelCase_ : List[str] , UpperCamelCase_ : int = 16 ) -> str:
"""simple docstring"""
from datasets import load_dataset
from transformers import AutoTokenizer
lowerCAmelCase__ = AutoTokenizer.from_pretrained("bert-base-cased" )
lowerCAmelCase__ = {"train": "tests/test_samples/MRPC/train.csv", "validation": "tests/test_samples/MRPC/dev.csv"}
lowerCAmelCase__ = load_dataset("csv" , data_files=__snake_case )
lowerCAmelCase__ = datasets["train"].unique("label" )
lowerCAmelCase__ = {v: i for i, v in enumerate(__snake_case )}
def tokenize_function(UpperCamelCase_ : Any ):
# max_length=None => use the model max length (it's actually the default)
lowerCAmelCase__ = tokenizer(
examples["sentence1"] , examples["sentence2"] , truncation=__snake_case , max_length=__snake_case , padding="max_length" )
if "label" in examples:
lowerCAmelCase__ = [label_to_id[l] for l in examples["label"]]
return outputs
# Apply the method we just defined to all the examples in all the splits of the dataset
lowerCAmelCase__ = datasets.map(
__snake_case , batched=__snake_case , remove_columns=["sentence1", "sentence2", "label"] , )
def collate_fn(UpperCamelCase_ : int ):
# On TPU it's best to pad everything to the same length or training will be very slow.
if accelerator.distributed_type == DistributedType.TPU:
return tokenizer.pad(__snake_case , padding="max_length" , max_length=128 , return_tensors="pt" )
return tokenizer.pad(__snake_case , padding="longest" , return_tensors="pt" )
# Instantiate dataloaders.
lowerCAmelCase__ = DataLoader(tokenized_datasets["train"] , shuffle=__snake_case , collate_fn=__snake_case , batch_size=2 )
lowerCAmelCase__ = DataLoader(tokenized_datasets["validation"] , shuffle=__snake_case , collate_fn=__snake_case , batch_size=1 )
return train_dataloader, eval_dataloader
| 340 |
'''simple docstring'''
import argparse
import csv
import logging
import os
import random
import numpy as np
import torch
from torch.utils.data import DataLoader, RandomSampler, SequentialSampler, TensorDataset
from tqdm import tqdm, trange
from transformers import (
CONFIG_NAME,
WEIGHTS_NAME,
AdamW,
OpenAIGPTDoubleHeadsModel,
OpenAIGPTTokenizer,
get_linear_schedule_with_warmup,
)
logging.basicConfig(
format="""%(asctime)s - %(levelname)s - %(name)s - %(message)s""", datefmt="""%m/%d/%Y %H:%M:%S""", level=logging.INFO
)
a_ : Optional[int] = logging.getLogger(__name__)
def a_ ( __snake_case : Union[str, Any] , __snake_case : Union[str, Any] ) -> str:
"""simple docstring"""
lowerCamelCase_ =np.argmax(__snake_case , axis=1 )
return np.sum(outputs == labels )
def a_ ( __snake_case : List[Any] ) -> Tuple:
"""simple docstring"""
with open(__snake_case , encoding='''utf_8''' ) as f:
lowerCamelCase_ =csv.reader(__snake_case )
lowerCamelCase_ =[]
next(__snake_case ) # skip the first line
for line in tqdm(__snake_case ):
output.append((''' '''.join(line[1:5] ), line[5], line[6], int(line[-1] ) - 1) )
return output
def a_ ( __snake_case : str , __snake_case : Dict , __snake_case : List[str] , __snake_case : List[str] , __snake_case : List[Any] , __snake_case : Dict ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =[]
for dataset in encoded_datasets:
lowerCamelCase_ =len(__snake_case )
lowerCamelCase_ =np.zeros((n_batch, 2, input_len) , dtype=np.intaa )
lowerCamelCase_ =np.zeros((n_batch, 2) , dtype=np.intaa )
lowerCamelCase_ =np.full((n_batch, 2, input_len) , fill_value=-100 , dtype=np.intaa )
lowerCamelCase_ =np.zeros((n_batch,) , dtype=np.intaa )
for (
i,
(story, conta, conta, mc_label),
) in enumerate(__snake_case ):
lowerCamelCase_ =[start_token] + story[:cap_length] + [delimiter_token] + conta[:cap_length] + [clf_token]
lowerCamelCase_ =[start_token] + story[:cap_length] + [delimiter_token] + conta[:cap_length] + [clf_token]
lowerCamelCase_ =with_conta
lowerCamelCase_ =with_conta
lowerCamelCase_ =len(__snake_case ) - 1
lowerCamelCase_ =len(__snake_case ) - 1
lowerCamelCase_ =with_conta
lowerCamelCase_ =with_conta
lowerCamelCase_ =mc_label
lowerCamelCase_ =(input_ids, mc_token_ids, lm_labels, mc_labels)
tensor_datasets.append(tuple(torch.tensor(__snake_case ) for t in all_inputs ) )
return tensor_datasets
def a_ ( ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =argparse.ArgumentParser()
parser.add_argument('''--model_name''' , type=__snake_case , default='''openai-gpt''' , help='''pretrained model name''' )
parser.add_argument('''--do_train''' , action='''store_true''' , help='''Whether to run training.''' )
parser.add_argument('''--do_eval''' , action='''store_true''' , help='''Whether to run eval on the dev set.''' )
parser.add_argument(
'''--output_dir''' , default=__snake_case , type=__snake_case , required=__snake_case , help='''The output directory where the model predictions and checkpoints will be written.''' , )
parser.add_argument('''--train_dataset''' , type=__snake_case , default='''''' )
parser.add_argument('''--eval_dataset''' , type=__snake_case , default='''''' )
parser.add_argument('''--seed''' , type=__snake_case , default=42 )
parser.add_argument('''--num_train_epochs''' , type=__snake_case , default=3 )
parser.add_argument('''--train_batch_size''' , type=__snake_case , default=8 )
parser.add_argument('''--eval_batch_size''' , type=__snake_case , default=16 )
parser.add_argument('''--adam_epsilon''' , default=1e-8 , type=__snake_case , help='''Epsilon for Adam optimizer.''' )
parser.add_argument('''--max_grad_norm''' , type=__snake_case , default=1 )
parser.add_argument(
'''--max_steps''' , default=-1 , type=__snake_case , help=(
'''If > 0: set total number of training steps to perform. Override num_train_epochs.'''
) , )
parser.add_argument(
'''--gradient_accumulation_steps''' , type=__snake_case , default=1 , help='''Number of updates steps to accumulate before performing a backward/update pass.''' , )
parser.add_argument('''--learning_rate''' , type=__snake_case , default=6.25e-5 )
parser.add_argument('''--warmup_steps''' , default=0 , type=__snake_case , help='''Linear warmup over warmup_steps.''' )
parser.add_argument('''--lr_schedule''' , type=__snake_case , default='''warmup_linear''' )
parser.add_argument('''--weight_decay''' , type=__snake_case , default=0.0_1 )
parser.add_argument('''--lm_coef''' , type=__snake_case , default=0.9 )
parser.add_argument('''--n_valid''' , type=__snake_case , default=374 )
parser.add_argument('''--server_ip''' , type=__snake_case , default='''''' , help='''Can be used for distant debugging.''' )
parser.add_argument('''--server_port''' , type=__snake_case , default='''''' , help='''Can be used for distant debugging.''' )
lowerCamelCase_ =parser.parse_args()
print(__snake_case )
if args.server_ip and args.server_port:
# Distant debugging - see https://code.visualstudio.com/docs/python/debugging#_attach-to-a-local-script
import ptvsd
print('''Waiting for debugger attach''' )
ptvsd.enable_attach(address=(args.server_ip, args.server_port) , redirect_output=__snake_case )
ptvsd.wait_for_attach()
random.seed(args.seed )
np.random.seed(args.seed )
torch.manual_seed(args.seed )
torch.cuda.manual_seed_all(args.seed )
lowerCamelCase_ =torch.device('''cuda''' if torch.cuda.is_available() else '''cpu''' )
lowerCamelCase_ =torch.cuda.device_count()
logger.info('''device: {}, n_gpu {}'''.format(__snake_case , __snake_case ) )
if not args.do_train and not args.do_eval:
raise ValueError('''At least one of `do_train` or `do_eval` must be True.''' )
if not os.path.exists(args.output_dir ):
os.makedirs(args.output_dir )
# Load tokenizer and model
# This loading functions also add new tokens and embeddings called `special tokens`
# These new embeddings will be fine-tuned on the RocStories dataset
lowerCamelCase_ =['''_start_''', '''_delimiter_''', '''_classify_''']
lowerCamelCase_ =OpenAIGPTTokenizer.from_pretrained(args.model_name )
tokenizer.add_tokens(__snake_case )
lowerCamelCase_ =tokenizer.convert_tokens_to_ids(__snake_case )
lowerCamelCase_ =OpenAIGPTDoubleHeadsModel.from_pretrained(args.model_name )
model.resize_token_embeddings(len(__snake_case ) )
model.to(__snake_case )
# Load and encode the datasets
def tokenize_and_encode(__snake_case : Union[str, Any] ):
if isinstance(__snake_case , __snake_case ):
return tokenizer.convert_tokens_to_ids(tokenizer.tokenize(__snake_case ) )
elif isinstance(__snake_case , __snake_case ):
return obj
return [tokenize_and_encode(__snake_case ) for o in obj]
logger.info('''Encoding dataset...''' )
lowerCamelCase_ =load_rocstories_dataset(args.train_dataset )
lowerCamelCase_ =load_rocstories_dataset(args.eval_dataset )
lowerCamelCase_ =(train_dataset, eval_dataset)
lowerCamelCase_ =tokenize_and_encode(__snake_case )
# Compute the max input length for the Transformer
lowerCamelCase_ =model.config.n_positions // 2 - 2
lowerCamelCase_ =max(
len(story[:max_length] ) + max(len(conta[:max_length] ) , len(conta[:max_length] ) ) + 3
for dataset in encoded_datasets
for story, conta, conta, _ in dataset )
lowerCamelCase_ =min(__snake_case , model.config.n_positions ) # Max size of input for the pre-trained model
# Prepare inputs tensors and dataloaders
lowerCamelCase_ =pre_process_datasets(__snake_case , __snake_case , __snake_case , *__snake_case )
lowerCamelCase_, lowerCamelCase_ =tensor_datasets[0], tensor_datasets[1]
lowerCamelCase_ =TensorDataset(*__snake_case )
lowerCamelCase_ =RandomSampler(__snake_case )
lowerCamelCase_ =DataLoader(__snake_case , sampler=__snake_case , batch_size=args.train_batch_size )
lowerCamelCase_ =TensorDataset(*__snake_case )
lowerCamelCase_ =SequentialSampler(__snake_case )
lowerCamelCase_ =DataLoader(__snake_case , sampler=__snake_case , batch_size=args.eval_batch_size )
# Prepare optimizer
if args.do_train:
if args.max_steps > 0:
lowerCamelCase_ =args.max_steps
lowerCamelCase_ =args.max_steps // (len(__snake_case ) // args.gradient_accumulation_steps) + 1
else:
lowerCamelCase_ =len(__snake_case ) // args.gradient_accumulation_steps * args.num_train_epochs
lowerCamelCase_ =list(model.named_parameters() )
lowerCamelCase_ =['''bias''', '''LayerNorm.bias''', '''LayerNorm.weight''']
lowerCamelCase_ =[
{
'''params''': [p for n, p in param_optimizer if not any(nd in n for nd in no_decay )],
'''weight_decay''': args.weight_decay,
},
{'''params''': [p for n, p in param_optimizer if any(nd in n for nd in no_decay )], '''weight_decay''': 0.0},
]
lowerCamelCase_ =AdamW(__snake_case , lr=args.learning_rate , eps=args.adam_epsilon )
lowerCamelCase_ =get_linear_schedule_with_warmup(
__snake_case , num_warmup_steps=args.warmup_steps , num_training_steps=__snake_case )
if args.do_train:
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =0, 0, None
model.train()
for _ in trange(int(args.num_train_epochs ) , desc='''Epoch''' ):
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =tqdm(__snake_case , desc='''Training''' )
for step, batch in enumerate(__snake_case ):
lowerCamelCase_ =tuple(t.to(__snake_case ) for t in batch )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =batch
lowerCamelCase_ =model(__snake_case , mc_token_ids=__snake_case , lm_labels=__snake_case , mc_labels=__snake_case )
lowerCamelCase_ =args.lm_coef * losses[0] + losses[1]
loss.backward()
optimizer.step()
scheduler.step()
optimizer.zero_grad()
tr_loss += loss.item()
lowerCamelCase_ =(
loss.item() if exp_average_loss is None else 0.7 * exp_average_loss + 0.3 * loss.item()
)
nb_tr_steps += 1
lowerCamelCase_ ='''Training loss: {:.2e} lr: {:.2e}'''.format(__snake_case , scheduler.get_lr()[0] )
# Save a trained model
if args.do_train:
# Save a trained model, configuration and tokenizer
lowerCamelCase_ =model.module if hasattr(__snake_case , '''module''' ) else model # Only save the model itself
# If we save using the predefined names, we can load using `from_pretrained`
lowerCamelCase_ =os.path.join(args.output_dir , __snake_case )
lowerCamelCase_ =os.path.join(args.output_dir , __snake_case )
torch.save(model_to_save.state_dict() , __snake_case )
model_to_save.config.to_json_file(__snake_case )
tokenizer.save_vocabulary(args.output_dir )
# Load a trained model and vocabulary that you have fine-tuned
lowerCamelCase_ =OpenAIGPTDoubleHeadsModel.from_pretrained(args.output_dir )
lowerCamelCase_ =OpenAIGPTTokenizer.from_pretrained(args.output_dir )
model.to(__snake_case )
if args.do_eval:
model.eval()
lowerCamelCase_, lowerCamelCase_ =0, 0
lowerCamelCase_, lowerCamelCase_ =0, 0
for batch in tqdm(__snake_case , desc='''Evaluating''' ):
lowerCamelCase_ =tuple(t.to(__snake_case ) for t in batch )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =batch
with torch.no_grad():
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =model(
__snake_case , mc_token_ids=__snake_case , lm_labels=__snake_case , mc_labels=__snake_case )
lowerCamelCase_ =mc_logits.detach().cpu().numpy()
lowerCamelCase_ =mc_labels.to('''cpu''' ).numpy()
lowerCamelCase_ =accuracy(__snake_case , __snake_case )
eval_loss += mc_loss.mean().item()
eval_accuracy += tmp_eval_accuracy
nb_eval_examples += input_ids.size(0 )
nb_eval_steps += 1
lowerCamelCase_ =eval_loss / nb_eval_steps
lowerCamelCase_ =eval_accuracy / nb_eval_examples
lowerCamelCase_ =tr_loss / nb_tr_steps if args.do_train else None
lowerCamelCase_ ={'''eval_loss''': eval_loss, '''eval_accuracy''': eval_accuracy, '''train_loss''': train_loss}
lowerCamelCase_ =os.path.join(args.output_dir , '''eval_results.txt''' )
with open(__snake_case , '''w''' ) as writer:
logger.info('''***** Eval results *****''' )
for key in sorted(result.keys() ):
logger.info(''' %s = %s''' , __snake_case , str(result[key] ) )
writer.write('''%s = %s\n''' % (key, str(result[key] )) )
if __name__ == "__main__":
main()
| 75 | 0 |
'''simple docstring'''
import uuid
from typing import Any, Dict, List, Optional, Union
from ..utils import add_end_docstrings, is_tf_available, is_torch_available, logging
from .base import PIPELINE_INIT_ARGS, Pipeline
if is_tf_available():
import tensorflow as tf
if is_torch_available():
import torch
A__ : Dict =logging.get_logger(__name__)
class UpperCAmelCase :
def __init__( self : str , __snake_case : List[str] = None , __snake_case : Any = None , __snake_case : Union[str, Any]=None , __snake_case : List[str]=None ) -> Any:
if not conversation_id:
_lowerCAmelCase = uuid.uuida()
if past_user_inputs is None:
_lowerCAmelCase = []
if generated_responses is None:
_lowerCAmelCase = []
_lowerCAmelCase = conversation_id
_lowerCAmelCase = past_user_inputs
_lowerCAmelCase = generated_responses
_lowerCAmelCase = text
def __eq__( self : Optional[Any] , __snake_case : Optional[int] ) -> Dict:
if not isinstance(__snake_case , __snake_case ):
return False
if self.uuid == other.uuid:
return True
return (
self.new_user_input == other.new_user_input
and self.past_user_inputs == other.past_user_inputs
and self.generated_responses == other.generated_responses
)
def lowercase__ ( self : Any , __snake_case : Optional[int] , __snake_case : Optional[Any] = False ) -> Optional[int]:
if self.new_user_input:
if overwrite:
logger.warning(
f"User input added while unprocessed input was existing: \"{self.new_user_input}\" was overwritten "
f"with: \"{text}\"." )
_lowerCAmelCase = text
else:
logger.warning(
f"User input added while unprocessed input was existing: \"{self.new_user_input}\" new input "
f"ignored: \"{text}\". Set `overwrite` to True to overwrite unprocessed user input" )
else:
_lowerCAmelCase = text
def lowercase__ ( self : Optional[int] ) -> int:
if self.new_user_input:
self.past_user_inputs.append(self.new_user_input )
_lowerCAmelCase = None
def lowercase__ ( self : Tuple , __snake_case : str ) -> Optional[int]:
self.generated_responses.append(__snake_case )
def lowercase__ ( self : Dict ) -> int:
for user_input, generated_response in zip(self.past_user_inputs , self.generated_responses ):
yield True, user_input
yield False, generated_response
if self.new_user_input:
yield True, self.new_user_input
def __repr__( self : str ) -> int:
_lowerCAmelCase = f"Conversation id: {self.uuid} \n"
for is_user, text in self.iter_texts():
_lowerCAmelCase = """user""" if is_user else """bot"""
output += f"{name} >> {text} \n"
return output
@add_end_docstrings(
lowerCamelCase__ , r'''\n min_length_for_response (`int`, *optional*, defaults to 32):\n The minimum length (in number of tokens) for a response.\n minimum_tokens (`int`, *optional*, defaults to 10):\n The minimum length of tokens to leave for a response.\n ''' , )
class UpperCAmelCase ( lowerCamelCase__ ):
def __init__( self : Optional[int] , *__snake_case : List[str] , **__snake_case : List[str] ) -> List[Any]:
super().__init__(*__snake_case , **__snake_case )
if self.tokenizer.pad_token_id is None:
_lowerCAmelCase = self.tokenizer.eos_token
def lowercase__ ( self : List[str] , __snake_case : Optional[Any]=None , __snake_case : Dict=None , __snake_case : Any=None , **__snake_case : Union[str, Any] ) -> Union[str, Any]:
_lowerCAmelCase = {}
_lowerCAmelCase = {}
_lowerCAmelCase = {}
if min_length_for_response is not None:
_lowerCAmelCase = min_length_for_response
if minimum_tokens is not None:
_lowerCAmelCase = minimum_tokens
if "max_length" in generate_kwargs:
_lowerCAmelCase = generate_kwargs["""max_length"""]
# self.max_length = generate_kwargs.get("max_length", self.model.config.max_length)
if clean_up_tokenization_spaces is not None:
_lowerCAmelCase = clean_up_tokenization_spaces
if generate_kwargs:
forward_params.update(__snake_case )
return preprocess_params, forward_params, postprocess_params
def __call__( self : Tuple , __snake_case : Any , __snake_case : Union[str, Any]=0 , **__snake_case : str ) -> str:
_lowerCAmelCase = super().__call__(__snake_case , num_workers=__snake_case , **__snake_case )
if isinstance(__snake_case , __snake_case ) and len(__snake_case ) == 1:
return outputs[0]
return outputs
def lowercase__ ( self : Optional[Any] , __snake_case : Optional[int] , __snake_case : Union[str, Any]=32 ) -> Optional[Any]:
if not isinstance(__snake_case , __snake_case ):
raise ValueError("""ConversationalPipeline, expects Conversation as inputs""" )
if conversation.new_user_input is None:
raise ValueError(
f"Conversation with UUID {type(conversation.uuid )} does not contain new user input to process. "
"""Add user inputs with the conversation\'s `add_user_input` method""" )
if hasattr(self.tokenizer , """_build_conversation_input_ids""" ):
_lowerCAmelCase = self.tokenizer._build_conversation_input_ids(__snake_case )
else:
# If the tokenizer cannot handle conversations, we default to only the old version
_lowerCAmelCase = self._legacy_parse_and_tokenize(__snake_case )
if self.framework == "pt":
_lowerCAmelCase = torch.LongTensor([input_ids] )
elif self.framework == "tf":
_lowerCAmelCase = tf.constant([input_ids] )
return {"input_ids": input_ids, "conversation": conversation}
def lowercase__ ( self : List[str] , __snake_case : str , __snake_case : Union[str, Any]=10 , **__snake_case : List[Any] ) -> Tuple:
_lowerCAmelCase = generate_kwargs.get("""max_length""" , self.model.config.max_length )
_lowerCAmelCase = model_inputs["""input_ids"""].shape[1]
if max_length - minimum_tokens < n:
logger.warning(f"Conversation input is to long ({n}), trimming it to ({max_length} - {minimum_tokens})" )
_lowerCAmelCase = max_length - minimum_tokens
_lowerCAmelCase = model_inputs["""input_ids"""][:, -trim:]
if "attention_mask" in model_inputs:
_lowerCAmelCase = model_inputs["""attention_mask"""][:, -trim:]
_lowerCAmelCase = model_inputs.pop("""conversation""" )
_lowerCAmelCase = max_length
_lowerCAmelCase = self.model.generate(**__snake_case , **__snake_case )
if self.model.config.is_encoder_decoder:
_lowerCAmelCase = 1
else:
_lowerCAmelCase = n
return {"output_ids": output_ids[:, start_position:], "conversation": conversation}
def lowercase__ ( self : Dict , __snake_case : Any , __snake_case : Union[str, Any]=True ) -> Tuple:
_lowerCAmelCase = model_outputs["""output_ids"""]
_lowerCAmelCase = self.tokenizer.decode(
output_ids[0] , skip_special_tokens=__snake_case , clean_up_tokenization_spaces=__snake_case , )
_lowerCAmelCase = model_outputs["""conversation"""]
conversation.mark_processed()
conversation.append_response(__snake_case )
return conversation
def lowercase__ ( self : Optional[Any] , __snake_case : Optional[Any] ) -> Union[str, Any]:
_lowerCAmelCase = self.tokenizer.eos_token_id
_lowerCAmelCase = []
for is_user, text in conversation.iter_texts():
if eos_token_id is not None:
input_ids.extend(self.tokenizer.encode(__snake_case , add_special_tokens=__snake_case ) + [eos_token_id] )
else:
input_ids.extend(self.tokenizer.encode(__snake_case , add_special_tokens=__snake_case ) )
if len(__snake_case ) > self.tokenizer.model_max_length:
_lowerCAmelCase = input_ids[-self.tokenizer.model_max_length :]
return input_ids
| 70 |
'''simple docstring'''
import copy
import os
import cva
import numpy as np
from matplotlib import pyplot as plt
class __UpperCamelCase :
def __init__( self ):
"""simple docstring"""
lowerCamelCase_ =''''''
lowerCamelCase_ =''''''
lowerCamelCase_ =[]
lowerCamelCase_ =0
lowerCamelCase_ =256
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =0
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =cva.imread(lowerCAmelCase, 0 )
lowerCamelCase_ =copy.deepcopy(self.img )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =plt.hist(self.img.ravel(), 256, [0, 256], label='''x''' )
lowerCamelCase_ =np.sum(lowerCAmelCase )
for i in range(len(lowerCAmelCase ) ):
lowerCamelCase_ =x[i] / self.k
self.sk += prk
lowerCamelCase_ =(self.L - 1) * self.sk
if self.rem != 0:
lowerCamelCase_ =int(last % last )
lowerCamelCase_ =int(last + 1 if self.rem >= 0.5 else last )
self.last_list.append(lowerCAmelCase )
lowerCamelCase_ =int(np.ma.count(self.img ) / self.img[1].size )
lowerCamelCase_ =self.img[1].size
for i in range(self.number_of_cols ):
for j in range(self.number_of_rows ):
lowerCamelCase_ =self.img[j][i]
if num != self.last_list[num]:
lowerCamelCase_ =self.last_list[num]
cva.imwrite('''output_data/output.jpg''', self.img )
def lowercase__ ( self ):
"""simple docstring"""
plt.hist(self.img.ravel(), 256, [0, 256] )
def lowercase__ ( self ):
"""simple docstring"""
cva.imshow('''Output-Image''', self.img )
cva.imshow('''Input-Image''', self.original_image )
cva.waitKey(5_000 )
cva.destroyAllWindows()
if __name__ == "__main__":
a_ : str = os.path.join(os.path.basename(__file__), """image_data/input.jpg""")
a_ : Optional[Any] = ConstantStretch()
stretcher.stretch(file_path)
stretcher.plot_histogram()
stretcher.show_image()
| 75 | 0 |
"""simple docstring"""
import argparse
import requests
import torch
from PIL import Image
from transformers import ViTMAEConfig, ViTMAEForPreTraining, ViTMAEImageProcessor
def a__ ( snake_case__ ) -> Tuple:
if "cls_token" in name:
lowerCamelCase = name.replace("""cls_token""" , """vit.embeddings.cls_token""" )
if "mask_token" in name:
lowerCamelCase = name.replace("""mask_token""" , """decoder.mask_token""" )
if "decoder_pos_embed" in name:
lowerCamelCase = name.replace("""decoder_pos_embed""" , """decoder.decoder_pos_embed""" )
if "pos_embed" in name and "decoder" not in name:
lowerCamelCase = name.replace("""pos_embed""" , """vit.embeddings.position_embeddings""" )
if "patch_embed.proj" in name:
lowerCamelCase = name.replace("""patch_embed.proj""" , """vit.embeddings.patch_embeddings.projection""" )
if "patch_embed.norm" in name:
lowerCamelCase = name.replace("""patch_embed.norm""" , """vit.embeddings.norm""" )
if "decoder_blocks" in name:
lowerCamelCase = name.replace("""decoder_blocks""" , """decoder.decoder_layers""" )
if "blocks" in name:
lowerCamelCase = name.replace("""blocks""" , """vit.encoder.layer""" )
if "attn.proj" in name:
lowerCamelCase = name.replace("""attn.proj""" , """attention.output.dense""" )
if "attn" in name:
lowerCamelCase = name.replace("""attn""" , """attention.self""" )
if "norm1" in name:
lowerCamelCase = name.replace("""norm1""" , """layernorm_before""" )
if "norm2" in name:
lowerCamelCase = name.replace("""norm2""" , """layernorm_after""" )
if "mlp.fc1" in name:
lowerCamelCase = name.replace("""mlp.fc1""" , """intermediate.dense""" )
if "mlp.fc2" in name:
lowerCamelCase = name.replace("""mlp.fc2""" , """output.dense""" )
if "decoder_embed" in name:
lowerCamelCase = name.replace("""decoder_embed""" , """decoder.decoder_embed""" )
if "decoder_norm" in name:
lowerCamelCase = name.replace("""decoder_norm""" , """decoder.decoder_norm""" )
if "decoder_pred" in name:
lowerCamelCase = name.replace("""decoder_pred""" , """decoder.decoder_pred""" )
if "norm.weight" in name and "decoder" not in name:
lowerCamelCase = name.replace("""norm.weight""" , """vit.layernorm.weight""" )
if "norm.bias" in name and "decoder" not in name:
lowerCamelCase = name.replace("""norm.bias""" , """vit.layernorm.bias""" )
return name
def a__ ( snake_case__ , snake_case__ ) -> List[str]:
for key in orig_state_dict.copy().keys():
lowerCamelCase = orig_state_dict.pop(__snake_case )
if "qkv" in key:
lowerCamelCase = key.split(""".""" )
lowerCamelCase = int(key_split[1] )
if "decoder_blocks" in key:
lowerCamelCase = config.decoder_hidden_size
lowerCamelCase = """decoder.decoder_layers."""
if "weight" in key:
lowerCamelCase = val[:dim, :]
lowerCamelCase = val[dim : dim * 2, :]
lowerCamelCase = val[-dim:, :]
elif "bias" in key:
lowerCamelCase = val[:dim]
lowerCamelCase = val[dim : dim * 2]
lowerCamelCase = val[-dim:]
else:
lowerCamelCase = config.hidden_size
lowerCamelCase = """vit.encoder.layer."""
if "weight" in key:
lowerCamelCase = val[:dim, :]
lowerCamelCase = val[dim : dim * 2, :]
lowerCamelCase = val[-dim:, :]
elif "bias" in key:
lowerCamelCase = val[:dim]
lowerCamelCase = val[dim : dim * 2]
lowerCamelCase = val[-dim:]
else:
lowerCamelCase = val
return orig_state_dict
def a__ ( snake_case__ , snake_case__ ) -> str:
lowerCamelCase = ViTMAEConfig()
if "large" in checkpoint_url:
lowerCamelCase = 10_24
lowerCamelCase = 40_96
lowerCamelCase = 24
lowerCamelCase = 16
elif "huge" in checkpoint_url:
lowerCamelCase = 14
lowerCamelCase = 12_80
lowerCamelCase = 51_20
lowerCamelCase = 32
lowerCamelCase = 16
lowerCamelCase = ViTMAEForPreTraining(__snake_case )
lowerCamelCase = torch.hub.load_state_dict_from_url(__snake_case , map_location="""cpu""" )["""model"""]
lowerCamelCase = ViTMAEImageProcessor(size=config.image_size )
lowerCamelCase = convert_state_dict(__snake_case , __snake_case )
model.load_state_dict(__snake_case )
model.eval()
lowerCamelCase = """https://user-images.githubusercontent.com/11435359/147738734-196fd92f-9260-48d5-ba7e-bf103d29364d.jpg"""
lowerCamelCase = Image.open(requests.get(__snake_case , stream=__snake_case ).raw )
lowerCamelCase = ViTMAEImageProcessor(size=config.image_size )
lowerCamelCase = image_processor(images=__snake_case , return_tensors="""pt""" )
# forward pass
torch.manual_seed(2 )
lowerCamelCase = model(**__snake_case )
lowerCamelCase = outputs.logits
if "large" in checkpoint_url:
lowerCamelCase = torch.tensor(
[[-0.7309, -0.7128, -1.0169], [-1.0161, -0.9058, -1.1878], [-1.0478, -0.9411, -1.1911]] )
elif "huge" in checkpoint_url:
lowerCamelCase = torch.tensor(
[[-1.1599, -0.9199, -1.2221], [-1.1952, -0.9269, -1.2307], [-1.2143, -0.9337, -1.2262]] )
else:
lowerCamelCase = torch.tensor(
[[-0.9192, -0.8481, -1.1259], [-1.1349, -1.0034, -1.2599], [-1.1757, -1.0429, -1.2726]] )
# verify logits
assert torch.allclose(logits[0, :3, :3] , __snake_case , atol=1E-4 )
print(F'Saving model to {pytorch_dump_folder_path}' )
model.save_pretrained(__snake_case )
print(F'Saving image processor to {pytorch_dump_folder_path}' )
image_processor.save_pretrained(__snake_case )
if __name__ == "__main__":
lowerCAmelCase : List[str] = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
"""--checkpoint_url""",
default="""https://dl.fbaipublicfiles.com/mae/visualize/mae_visualize_vit_base.pth""",
type=str,
help="""URL of the checkpoint you'd like to convert.""",
)
parser.add_argument(
"""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model directory."""
)
lowerCAmelCase : Optional[int] = parser.parse_args()
convert_vit_mae_checkpoint(args.checkpoint_url, args.pytorch_dump_folder_path)
| 291 |
'''simple docstring'''
from collections import UserDict
from typing import Union
import numpy as np
import requests
from ..utils import (
add_end_docstrings,
logging,
)
from .audio_classification import ffmpeg_read
from .base import PIPELINE_INIT_ARGS, Pipeline
a_ : Any = logging.get_logger(__name__)
@add_end_docstrings(lowerCamelCase__ )
class __UpperCamelCase ( lowerCamelCase__ ):
def __init__( self, **lowerCAmelCase ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
if self.framework != "pt":
raise ValueError(f'''The {self.__class__} is only available in PyTorch.''' )
# No specific FOR_XXX available yet
def __call__( self, lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
return super().__call__(lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ ={}
if "candidate_labels" in kwargs:
lowerCamelCase_ =kwargs['''candidate_labels''']
if "hypothesis_template" in kwargs:
lowerCamelCase_ =kwargs['''hypothesis_template''']
return preprocess_params, {}, {}
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase=None, lowerCAmelCase="This is a sound of {}." ):
"""simple docstring"""
if isinstance(lowerCAmelCase, lowerCAmelCase ):
if audio.startswith('''http://''' ) or audio.startswith('''https://''' ):
# We need to actually check for a real protocol, otherwise it's impossible to use a local file
# like http_huggingface_co.png
lowerCamelCase_ =requests.get(lowerCAmelCase ).content
else:
with open(lowerCAmelCase, '''rb''' ) as f:
lowerCamelCase_ =f.read()
if isinstance(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =ffmpeg_read(lowerCAmelCase, self.feature_extractor.sampling_rate )
if not isinstance(lowerCAmelCase, np.ndarray ):
raise ValueError('''We expect a numpy ndarray as input''' )
if len(audio.shape ) != 1:
raise ValueError('''We expect a single channel audio input for ZeroShotAudioClassificationPipeline''' )
lowerCamelCase_ =self.feature_extractor(
[audio], sampling_rate=self.feature_extractor.sampling_rate, return_tensors='''pt''' )
lowerCamelCase_ =candidate_labels
lowerCamelCase_ =[hypothesis_template.format(lowerCAmelCase ) for x in candidate_labels]
lowerCamelCase_ =self.tokenizer(lowerCAmelCase, return_tensors=self.framework, padding=lowerCAmelCase )
lowerCamelCase_ =[text_inputs]
return inputs
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =model_inputs.pop('''candidate_labels''' )
lowerCamelCase_ =model_inputs.pop('''text_inputs''' )
if isinstance(text_inputs[0], lowerCAmelCase ):
lowerCamelCase_ =text_inputs[0]
else:
# Batching case.
lowerCamelCase_ =text_inputs[0][0]
lowerCamelCase_ =self.model(**lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ ={
'''candidate_labels''': candidate_labels,
'''logits''': outputs.logits_per_audio,
}
return model_outputs
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =model_outputs.pop('''candidate_labels''' )
lowerCamelCase_ =model_outputs['''logits'''][0]
if self.framework == "pt":
lowerCamelCase_ =logits.softmax(dim=0 )
lowerCamelCase_ =probs.tolist()
else:
raise ValueError('''`tf` framework not supported.''' )
lowerCamelCase_ =[
{'''score''': score, '''label''': candidate_label}
for score, candidate_label in sorted(zip(lowerCAmelCase, lowerCAmelCase ), key=lambda lowerCAmelCase : -x[0] )
]
return result
| 75 | 0 |
"""simple docstring"""
from io import BytesIO
from typing import List, Union
import requests
from ..utils import add_end_docstrings, is_decord_available, is_torch_available, logging, requires_backends
from .base import PIPELINE_INIT_ARGS, Pipeline
if is_decord_available():
import numpy as np
from decord import VideoReader
if is_torch_available():
from ..models.auto.modeling_auto import MODEL_FOR_VIDEO_CLASSIFICATION_MAPPING
SCREAMING_SNAKE_CASE__ = logging.get_logger(__name__)
@add_end_docstrings(lowerCamelCase__ )
class lowerCAmelCase_ ( lowerCamelCase__ ):
"""simple docstring"""
def __init__( self , *lowerCAmelCase , **lowerCAmelCase ):
"""simple docstring"""
super().__init__(*lowerCAmelCase , **lowerCAmelCase )
requires_backends(self , 'decord' )
self.check_model_type(lowerCAmelCase )
def snake_case ( self , lowerCAmelCase=None , lowerCAmelCase=None , lowerCAmelCase=None ):
"""simple docstring"""
snake_case = {}
if frame_sampling_rate is not None:
snake_case = frame_sampling_rate
if num_frames is not None:
snake_case = num_frames
snake_case = {}
if top_k is not None:
snake_case = top_k
return preprocess_params, {}, postprocess_params
def __call__( self , lowerCAmelCase , **lowerCAmelCase ):
"""simple docstring"""
return super().__call__(lowerCAmelCase , **lowerCAmelCase )
def snake_case ( self , lowerCAmelCase , lowerCAmelCase=None , lowerCAmelCase=1 ):
"""simple docstring"""
if num_frames is None:
snake_case = self.model.config.num_frames
if video.startswith('http://' ) or video.startswith('https://' ):
snake_case = BytesIO(requests.get(lowerCAmelCase ).content )
snake_case = VideoReader(lowerCAmelCase )
videoreader.seek(0 )
snake_case = 0
snake_case = num_frames * frame_sampling_rate - 1
snake_case = np.linspace(lowerCAmelCase , lowerCAmelCase , num=lowerCAmelCase , dtype=np.intaa )
snake_case = videoreader.get_batch(lowerCAmelCase ).asnumpy()
snake_case = list(lowerCAmelCase )
snake_case = self.image_processor(lowerCAmelCase , return_tensors=self.framework )
return model_inputs
def snake_case ( self , lowerCAmelCase ):
"""simple docstring"""
snake_case = self.model(**lowerCAmelCase )
return model_outputs
def snake_case ( self , lowerCAmelCase , lowerCAmelCase=5 ):
"""simple docstring"""
if top_k > self.model.config.num_labels:
snake_case = self.model.config.num_labels
if self.framework == "pt":
snake_case = model_outputs.logits.softmax(-1 )[0]
snake_case ,snake_case = probs.topk(lowerCAmelCase )
else:
raise ValueError(F"""Unsupported framework: {self.framework}""" )
snake_case = scores.tolist()
snake_case = ids.tolist()
return [{"score": score, "label": self.model.config.idalabel[_id]} for score, _id in zip(lowerCAmelCase , lowerCAmelCase )]
| 150 |
'''simple docstring'''
import unittest
from pathlib import Path
from shutil import copyfile
from transformers import SPIECE_UNDERLINE, is_sentencepiece_available
from transformers.models.speech_to_text import SpeechaTextTokenizer
from transformers.models.speech_to_text.tokenization_speech_to_text import VOCAB_FILES_NAMES, save_json
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
a_ : str = get_tests_dir("""fixtures/test_sentencepiece.model""")
if is_sentencepiece_available():
import sentencepiece as sp
a_ : Optional[Any] = 5
a_ : str = 10
@require_sentencepiece
@require_tokenizers
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : int =SpeechaTextTokenizer
lowercase : int =False
lowercase : List[str] =True
def lowercase__ ( self ):
"""simple docstring"""
super().setUp()
lowerCamelCase_ =sp.SentencePieceProcessor()
spm_model.Load(lowerCAmelCase )
lowerCamelCase_ =['''<s>''', '''<pad>''', '''</s>''', '''<unk>''']
vocab += [spm_model.IdToPiece(id_ ) for id_ in range(len(lowerCAmelCase ) )]
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ =Path(self.tmpdirname )
save_json(lowerCAmelCase, save_dir / VOCAB_FILES_NAMES['''vocab_file'''] )
if not (save_dir / VOCAB_FILES_NAMES["spm_file"]).exists():
copyfile(lowerCAmelCase, save_dir / VOCAB_FILES_NAMES['''spm_file'''] )
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(self.tmpdirname )
tokenizer.save_pretrained(self.tmpdirname )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''<pad>'''
lowerCamelCase_ =1
self.assertEqual(self.get_tokenizer()._convert_token_to_id(lowerCAmelCase ), lowerCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(lowerCAmelCase ), lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0], '''<s>''' )
self.assertEqual(vocab_keys[1], '''<pad>''' )
self.assertEqual(vocab_keys[-1], '''j''' )
self.assertEqual(len(lowerCAmelCase ), 1_001 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size, 1_001 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(self.tmpdirname )
lowerCamelCase_ =tokenizer.tokenize('''This is a test''' )
self.assertListEqual(lowerCAmelCase, ['''▁This''', '''▁is''', '''▁a''', '''▁t''', '''est'''] )
self.assertListEqual(
tokenizer.convert_tokens_to_ids(lowerCAmelCase ), [289, 50, 14, 174, 386], )
lowerCamelCase_ =tokenizer.tokenize('''I was born in 92000, and this is falsé.''' )
self.assertListEqual(
lowerCAmelCase, [SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''9''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''é''', '''.'''], )
lowerCamelCase_ =tokenizer.convert_tokens_to_ids(lowerCAmelCase )
self.assertListEqual(lowerCAmelCase, [12, 25, 88, 59, 28, 23, 11, 4, 606, 351, 351, 351, 7, 16, 70, 50, 76, 84, 10, 4, 8] )
lowerCamelCase_ =tokenizer.convert_ids_to_tokens(lowerCAmelCase )
self.assertListEqual(
lowerCAmelCase, [SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''<unk>''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''<unk>''', '''.'''], )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ={'''input_ids''': [[3_791, 797, 31, 11, 64, 797, 31, 2_429, 433, 12, 1_176, 12, 20, 786, 915, 142, 2_413, 240, 37, 3_238, 797, 31, 11, 35, 93, 915, 142, 2_413, 240, 37, 5_540, 567, 1_276, 93, 37, 610, 40, 62, 455, 657, 1_042, 123, 780, 177, 37, 309, 241, 1_298, 514, 20, 292, 2_737, 114, 2_469, 241, 85, 64, 302, 548, 528, 423, 4, 509, 406, 423, 37, 601, 4, 777, 302, 548, 528, 423, 284, 4, 3_388, 511, 459, 4, 3_555, 40, 321, 302, 705, 4, 3_388, 511, 583, 326, 5, 5, 5, 62, 3_310, 560, 177, 2_680, 217, 1_508, 32, 31, 853, 418, 64, 583, 511, 1_605, 62, 35, 93, 560, 177, 2_680, 217, 1_508, 1_521, 64, 583, 511, 519, 62, 20, 1_515, 764, 20, 149, 261, 5_625, 7_972, 20, 5_540, 567, 1_276, 93, 3_925, 1_675, 11, 15, 802, 7_972, 576, 217, 1_508, 11, 35, 93, 1_253, 2_441, 15, 289, 652, 31, 416, 321, 3_842, 115, 40, 911, 8, 476, 619, 4, 380, 142, 423, 335, 240, 35, 93, 264, 8, 11, 335, 569, 420, 163, 5, 2], [260, 548, 528, 423, 20, 451, 20, 2_681, 1_153, 3_434, 20, 5_540, 37, 567, 126, 1_253, 2_441, 3_376, 449, 210, 431, 1_563, 177, 767, 5_540, 11, 1_203, 472, 11, 2_953, 685, 285, 364, 706, 1_153, 20, 6_799, 20, 2_869, 20, 4_464, 126, 40, 2_429, 20, 1_040, 866, 2_664, 418, 20, 318, 20, 1_726, 186, 20, 265, 522, 35, 93, 2_191, 4_634, 20, 1_040, 12, 6_799, 15, 228, 2_356, 142, 31, 11, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [2_575, 2_666, 684, 1_582, 1_176, 12, 627, 149, 619, 20, 4_902, 563, 11, 20, 149, 261, 3_420, 2_356, 174, 142, 4_714, 131, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]], '''attention_mask''': [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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=lowerCAmelCase, model_name='''facebook/s2t-small-mustc-en-de-st''', revision='''a14f04cf0776c02f62a8cb800cf7909e15ea23ad''', )
@require_sentencepiece
class __UpperCamelCase ( unittest.TestCase ):
lowercase : Tuple ='valhalla/s2t_mustc_multilinguial_medium'
lowercase : Dict ='C\'est trop cool'
lowercase : str ='Esto es genial'
@classmethod
def lowercase__ ( cls ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(cls.checkpoint_name )
return cls
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.tokenizer.lang_code_to_id['''pt'''], 4 )
self.assertEqual(self.tokenizer.lang_code_to_id['''ru'''], 6 )
self.assertEqual(self.tokenizer.lang_code_to_id['''it'''], 9 )
self.assertEqual(self.tokenizer.lang_code_to_id['''de'''], 11 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.tokenizer.vocab_size, 10_000 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertIn(lowerCAmelCase, self.tokenizer.all_special_ids )
lowerCamelCase_ =[ES_CODE, 4, 1_601, 47, 7_647, 2]
lowerCamelCase_ =self.tokenizer.decode(lowerCAmelCase, skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =self.tokenizer.decode(generated_ids[1:], skip_special_tokens=lowerCAmelCase )
self.assertEqual(lowerCAmelCase, lowerCAmelCase )
self.assertNotIn(self.tokenizer.eos_token, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''fr'''
lowerCamelCase_ =self.tokenizer(self.french_text ).input_ids
self.assertEqual(encoded[0], lowerCAmelCase )
self.assertEqual(encoded[-1], self.tokenizer.eos_token_id )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''fr'''
self.assertListEqual(self.tokenizer.prefix_tokens, [FR_CODE] )
lowerCamelCase_ ='''es'''
self.assertListEqual(self.tokenizer.prefix_tokens, [ES_CODE] )
| 75 | 0 |
"""simple docstring"""
from sklearn.metrics import fa_score, matthews_corrcoef
import datasets
from .record_evaluation import evaluate as evaluate_record
lowercase__ = """\
@article{wang2019superglue,
title={SuperGLUE: A Stickier Benchmark for General-Purpose Language Understanding Systems},
author={Wang, Alex and Pruksachatkun, Yada and Nangia, Nikita and Singh, Amanpreet and Michael, Julian and Hill, Felix and Levy, Omer and Bowman, Samuel R},
journal={arXiv preprint arXiv:1905.00537},
year={2019}
}
"""
lowercase__ = """\
SuperGLUE (https://super.gluebenchmark.com/) is a new benchmark styled after
GLUE with a new set of more difficult language understanding tasks, improved
resources, and a new public leaderboard.
"""
lowercase__ = """
Compute SuperGLUE evaluation metric associated to each SuperGLUE dataset.
Args:
predictions: list of predictions to score. Depending on the SuperGlUE subset:
- for 'record': list of question-answer dictionaries with the following keys:
- 'idx': index of the question as specified by the dataset
- 'prediction_text': the predicted answer text
- for 'multirc': list of question-answer dictionaries with the following keys:
- 'idx': index of the question-answer pair as specified by the dataset
- 'prediction': the predicted answer label
- otherwise: list of predicted labels
references: list of reference labels. Depending on the SuperGLUE subset:
- for 'record': list of question-answers dictionaries with the following keys:
- 'idx': index of the question as specified by the dataset
- 'answers': list of possible answers
- otherwise: list of reference labels
Returns: depending on the SuperGLUE subset:
- for 'record':
- 'exact_match': Exact match between answer and gold answer
- 'f1': F1 score
- for 'multirc':
- 'exact_match': Exact match between answer and gold answer
- 'f1_m': Per-question macro-F1 score
- 'f1_a': Average F1 score over all answers
- for 'axb':
'matthews_correlation': Matthew Correlation
- for 'cb':
- 'accuracy': Accuracy
- 'f1': F1 score
- for all others:
- 'accuracy': Accuracy
Examples:
>>> super_glue_metric = datasets.load_metric('super_glue', 'copa') # any of [\"copa\", \"rte\", \"wic\", \"wsc\", \"wsc.fixed\", \"boolq\", \"axg\"]
>>> predictions = [0, 1]
>>> references = [0, 1]
>>> results = super_glue_metric.compute(predictions=predictions, references=references)
>>> print(results)
{'accuracy': 1.0}
>>> super_glue_metric = datasets.load_metric('super_glue', 'cb')
>>> predictions = [0, 1]
>>> references = [0, 1]
>>> results = super_glue_metric.compute(predictions=predictions, references=references)
>>> print(results)
{'accuracy': 1.0, 'f1': 1.0}
>>> super_glue_metric = datasets.load_metric('super_glue', 'record')
>>> predictions = [{'idx': {'passage': 0, 'query': 0}, 'prediction_text': 'answer'}]
>>> references = [{'idx': {'passage': 0, 'query': 0}, 'answers': ['answer', 'another_answer']}]
>>> results = super_glue_metric.compute(predictions=predictions, references=references)
>>> print(results)
{'exact_match': 1.0, 'f1': 1.0}
>>> super_glue_metric = datasets.load_metric('super_glue', 'multirc')
>>> predictions = [{'idx': {'answer': 0, 'paragraph': 0, 'question': 0}, 'prediction': 0}, {'idx': {'answer': 1, 'paragraph': 2, 'question': 3}, 'prediction': 1}]
>>> references = [0, 1]
>>> results = super_glue_metric.compute(predictions=predictions, references=references)
>>> print(results)
{'exact_match': 1.0, 'f1_m': 1.0, 'f1_a': 1.0}
>>> super_glue_metric = datasets.load_metric('super_glue', 'axb')
>>> references = [0, 1]
>>> predictions = [0, 1]
>>> results = super_glue_metric.compute(predictions=predictions, references=references)
>>> print(results)
{'matthews_correlation': 1.0}
"""
def _snake_case ( lowercase__ , lowercase__ ):
return float((preds == labels).mean() )
def _snake_case ( lowercase__ , lowercase__ , lowercase__="binary" ):
_lowerCamelCase : List[Any] = simple_accuracy(__snake_case , __snake_case )
_lowerCamelCase : Any = float(fa_score(y_true=__snake_case , y_pred=__snake_case , average=__snake_case ) )
return {
"accuracy": acc,
"f1": fa,
}
def _snake_case ( lowercase__ , lowercase__ ):
_lowerCamelCase : Any = {}
for id_pred, label in zip(__snake_case , __snake_case ):
_lowerCamelCase : Optional[Any] = f'''{id_pred['idx']['paragraph']}-{id_pred['idx']['question']}'''
_lowerCamelCase : Dict = id_pred['prediction']
if question_id in question_map:
question_map[question_id].append((pred, label) )
else:
_lowerCamelCase : Union[str, Any] = [(pred, label)]
_lowerCamelCase, _lowerCamelCase : Tuple = [], []
for question, preds_labels in question_map.items():
_lowerCamelCase, _lowerCamelCase : Optional[Any] = zip(*__snake_case )
_lowerCamelCase : Union[str, Any] = fa_score(y_true=__snake_case , y_pred=__snake_case , average='macro' )
fas.append(__snake_case )
_lowerCamelCase : Any = int(sum(pred == label for pred, label in preds_labels ) == len(__snake_case ) )
ems.append(__snake_case )
_lowerCamelCase : Optional[Any] = float(sum(__snake_case ) / len(__snake_case ) )
_lowerCamelCase : Optional[int] = sum(__snake_case ) / len(__snake_case )
_lowerCamelCase : Any = float(fa_score(y_true=__snake_case , y_pred=[id_pred['prediction'] for id_pred in ids_preds] ) )
return {"exact_match": em, "f1_m": fa_m, "f1_a": fa_a}
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION, _KWARGS_DESCRIPTION )
class lowerCAmelCase__ ( datasets.Metric ):
'''simple docstring'''
def A_ ( self ):
if self.config_name not in [
"boolq",
"cb",
"copa",
"multirc",
"record",
"rte",
"wic",
"wsc",
"wsc.fixed",
"axb",
"axg",
]:
raise KeyError(
'You should supply a configuration name selected in '
'["boolq", "cb", "copa", "multirc", "record", "rte", "wic", "wsc", "wsc.fixed", "axb", "axg",]' )
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(self._get_feature_types() ) , codebase_urls=[] , reference_urls=[] , format='numpy' if not self.config_name == 'record' and not self.config_name == 'multirc' else None , )
def A_ ( self ):
if self.config_name == "record":
return {
"predictions": {
"idx": {
"passage": datasets.Value('int64' ),
"query": datasets.Value('int64' ),
},
"prediction_text": datasets.Value('string' ),
},
"references": {
"idx": {
"passage": datasets.Value('int64' ),
"query": datasets.Value('int64' ),
},
"answers": datasets.Sequence(datasets.Value('string' ) ),
},
}
elif self.config_name == "multirc":
return {
"predictions": {
"idx": {
"answer": datasets.Value('int64' ),
"paragraph": datasets.Value('int64' ),
"question": datasets.Value('int64' ),
},
"prediction": datasets.Value('int64' ),
},
"references": datasets.Value('int64' ),
}
else:
return {
"predictions": datasets.Value('int64' ),
"references": datasets.Value('int64' ),
}
def A_ ( self , lowercase , lowercase ):
if self.config_name == "axb":
return {"matthews_correlation": matthews_corrcoef(lowercase , lowercase )}
elif self.config_name == "cb":
return acc_and_fa(lowercase , lowercase , fa_avg='macro' )
elif self.config_name == "record":
_lowerCamelCase : Dict = [
{
'qas': [
{'id': ref['idx']['query'], 'answers': [{'text': ans} for ans in ref['answers']]}
for ref in references
]
}
]
_lowerCamelCase : str = {pred['idx']['query']: pred['prediction_text'] for pred in predictions}
return evaluate_record(lowercase , lowercase )[0]
elif self.config_name == "multirc":
return evaluate_multirc(lowercase , lowercase )
elif self.config_name in ["copa", "rte", "wic", "wsc", "wsc.fixed", "boolq", "axg"]:
return {"accuracy": simple_accuracy(lowercase , lowercase )}
else:
raise KeyError(
'You should supply a configuration name selected in '
'["boolq", "cb", "copa", "multirc", "record", "rte", "wic", "wsc", "wsc.fixed", "axb", "axg",]' ) | 96 |
'''simple docstring'''
import argparse
import requests
import torch
# pip3 install salesforce-lavis
# I'm actually installing a slightly modified version: pip3 install git+https://github.com/nielsrogge/LAVIS.git@fix_lavis_float32 (there's also the fix_lavis branch)
# also note: to convert Vicuna checkpoints, we had to include /home/niels/python_projects/checkpoints/FastChat/vicuna-7b in lavis/configs/models/blip2/blip2_instruct_vicuna7b.yaml
# same for Vicuna-13b
from lavis.models import load_model_and_preprocess
from PIL import Image
from transformers import (
AutoTokenizer,
BlipImageProcessor,
InstructBlipConfig,
InstructBlipForConditionalGeneration,
InstructBlipProcessor,
InstructBlipQFormerConfig,
InstructBlipVisionConfig,
LlamaConfig,
LlamaTokenizerFast,
TaConfig,
TaTokenizerFast,
)
from transformers.utils.constants import OPENAI_CLIP_MEAN, OPENAI_CLIP_STD
def a_ ( ) -> Dict:
"""simple docstring"""
lowerCamelCase_ ='''https://raw.githubusercontent.com/salesforce/LAVIS/main/docs/_static/Confusing-Pictures.jpg'''
lowerCamelCase_ =Image.open(requests.get(__snake_case , stream=__snake_case ).raw ).convert('''RGB''' )
return image
def a_ ( __snake_case : Tuple ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =[]
# fmt: off
# vision encoder
rename_keys.append(('''visual_encoder.cls_token''', '''vision_model.embeddings.class_embedding''') )
rename_keys.append(('''visual_encoder.pos_embed''', '''vision_model.embeddings.position_embedding''') )
rename_keys.append(('''visual_encoder.patch_embed.proj.weight''', '''vision_model.embeddings.patch_embedding.weight''') )
rename_keys.append(('''visual_encoder.patch_embed.proj.bias''', '''vision_model.embeddings.patch_embedding.bias''') )
rename_keys.append(('''ln_vision.weight''', '''vision_model.post_layernorm.weight''') )
rename_keys.append(('''ln_vision.bias''', '''vision_model.post_layernorm.bias''') )
for i in range(config.vision_config.num_hidden_layers ):
rename_keys.append((F'''visual_encoder.blocks.{i}.norm1.weight''', F'''vision_model.encoder.layers.{i}.layer_norm1.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm1.bias''', F'''vision_model.encoder.layers.{i}.layer_norm1.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm2.weight''', F'''vision_model.encoder.layers.{i}.layer_norm2.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm2.bias''', F'''vision_model.encoder.layers.{i}.layer_norm2.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.qkv.weight''', F'''vision_model.encoder.layers.{i}.self_attn.qkv.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.proj.weight''', F'''vision_model.encoder.layers.{i}.self_attn.projection.weight''',) )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.proj.bias''', F'''vision_model.encoder.layers.{i}.self_attn.projection.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc1.weight''', F'''vision_model.encoder.layers.{i}.mlp.fc1.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc1.bias''', F'''vision_model.encoder.layers.{i}.mlp.fc1.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc2.weight''', F'''vision_model.encoder.layers.{i}.mlp.fc2.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc2.bias''', F'''vision_model.encoder.layers.{i}.mlp.fc2.bias''') )
# QFormer
rename_keys.append(('''Qformer.bert.embeddings.LayerNorm.weight''', '''qformer.embeddings.layernorm.weight''') )
rename_keys.append(('''Qformer.bert.embeddings.LayerNorm.bias''', '''qformer.embeddings.layernorm.bias''') )
# fmt: on
return rename_keys
def a_ ( __snake_case : Optional[Any] , __snake_case : List[str] , __snake_case : List[Any] ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =dct.pop(__snake_case )
lowerCamelCase_ =val
def a_ ( __snake_case : str , __snake_case : Optional[Any] ) -> Any:
"""simple docstring"""
for i in range(config.vision_config.num_hidden_layers ):
# read in original q and v biases
lowerCamelCase_ =state_dict.pop(F'''visual_encoder.blocks.{i}.attn.q_bias''' )
lowerCamelCase_ =state_dict.pop(F'''visual_encoder.blocks.{i}.attn.v_bias''' )
# next, set bias in the state dict
lowerCamelCase_ =torch.cat((q_bias, torch.zeros_like(__snake_case , requires_grad=__snake_case ), v_bias) )
lowerCamelCase_ =qkv_bias
def a_ ( __snake_case : List[str] ) -> Any:
"""simple docstring"""
lowerCamelCase_ =364 if '''coco''' in model_name else 224
lowerCamelCase_ =InstructBlipVisionConfig(image_size=__snake_case ).to_dict()
# make sure the models have proper bos_token_id and eos_token_id set (important for generation)
# seems like flan-T5 models don't have bos_token_id properly set?
if "t5-xl" in model_name:
lowerCamelCase_ =TaConfig.from_pretrained('''google/flan-t5-xl''' , dense_act_fn='''gelu''' , bos_token_id=1 ).to_dict()
elif "t5-xxl" in model_name:
lowerCamelCase_ =TaConfig.from_pretrained('''google/flan-t5-xxl''' , dense_act_fn='''gelu''' , bos_token_id=1 ).to_dict()
elif "vicuna-7b" in model_name:
lowerCamelCase_ =LlamaConfig.from_pretrained('''decapoda-research/llama-7b-hf''' , vocab_size=3_2001 ).to_dict()
elif "vicuna-13b" in model_name:
lowerCamelCase_ =LlamaConfig.from_pretrained('''decapoda-research/llama-13b-hf''' , vocab_size=3_2001 ).to_dict()
else:
raise ValueError('''Model name not supported''' )
# the authors add one special "[DEC]" token to the vocab of Q-Former, hence vocab size = 30522 + 1
lowerCamelCase_ =InstructBlipQFormerConfig(vocab_size=3_0523 ).to_dict()
lowerCamelCase_ =InstructBlipConfig(vision_config=__snake_case , text_config=__snake_case , qformer_config=__snake_case )
return config, image_size
@torch.no_grad()
def a_ ( __snake_case : Optional[int] , __snake_case : str=None , __snake_case : List[Any]=False ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ =AutoTokenizer.from_pretrained('''bert-base-uncased''' , truncation_side='''left''' )
qformer_tokenizer.add_special_tokens({'''bos_token''': '''[DEC]'''} )
if "t5" in model_name:
lowerCamelCase_ =TaTokenizerFast.from_pretrained('''google/flan-t5-xl''' , truncation_side='''left''' )
elif "vicuna" in model_name:
# the following was used in the original implementation:
# tokenizer = LlamaTokenizer.from_pretrained("huggyllama/llama-7b", use_fast=False, truncation_side="left")
# tokenizer.add_special_tokens({"pad_token": "[PAD]"})
# tokenizer.add_special_tokens({"bos_token": "</s>"})
# tokenizer.add_special_tokens({"eos_token": "</s>"})
# tokenizer.add_special_tokens({"unk_token": "</s>"})
lowerCamelCase_ =LlamaTokenizerFast.from_pretrained(
'''huggyllama/llama-7b''' , truncation_side='''left''' , bos_token='''</s>''' , unk_token='''</s>''' )
tokenizer.add_special_tokens({'''pad_token''': '''[PAD]'''} )
lowerCamelCase_, lowerCamelCase_ =get_blipa_config(__snake_case )
lowerCamelCase_ =InstructBlipForConditionalGeneration(__snake_case ).eval()
lowerCamelCase_ ={
'''instructblip-vicuna-7b''': ('''blip2_vicuna_instruct''', '''vicuna7b'''),
'''instructblip-vicuna-13b''': ('''blip2_vicuna_instruct''', '''vicuna13b'''),
'''instructblip-flan-t5-xl''': ('''blip2_t5_instruct''', '''flant5xl'''),
'''instructblip-flan-t5-xxl''': ('''blip2_t5_instruct''', '''flant5xxl'''),
}
lowerCamelCase_, lowerCamelCase_ =model_name_to_original[model_name]
# load original model
print('''Loading original model...''' )
lowerCamelCase_ ='''cuda:1''' if torch.cuda.is_available() else '''cpu'''
lowerCamelCase_ ='''cuda:2''' if torch.cuda.is_available() else '''cpu'''
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =load_model_and_preprocess(
name=__snake_case , model_type=__snake_case , is_eval=__snake_case , device=__snake_case )
original_model.eval()
print('''Done!''' )
# update state dict keys
lowerCamelCase_ =original_model.state_dict()
lowerCamelCase_ =create_rename_keys(__snake_case )
for src, dest in rename_keys:
rename_key(__snake_case , __snake_case , __snake_case )
# some keys can be renamed efficiently
for key, val in state_dict.copy().items():
lowerCamelCase_ =state_dict.pop(__snake_case )
if key.startswith('''Qformer.bert''' ):
lowerCamelCase_ =key.replace('''Qformer.bert''' , '''qformer''' )
if "attention.self" in key:
lowerCamelCase_ =key.replace('''self''' , '''attention''' )
if "llm_proj" in key:
lowerCamelCase_ =key.replace('''llm_proj''' , '''language_projection''' )
if "t5_proj" in key:
lowerCamelCase_ =key.replace('''t5_proj''' , '''language_projection''' )
if key.startswith('''llm_model''' ):
lowerCamelCase_ =key.replace('''llm_model''' , '''language_model''' )
if key.startswith('''t5''' ):
lowerCamelCase_ =key.replace('''t5''' , '''language''' )
lowerCamelCase_ =val
# read in qv biases
read_in_q_v_bias(__snake_case , __snake_case )
# note: weights get loaded in torch.float32 by default
hf_model.load_state_dict(__snake_case , strict=__snake_case )
lowerCamelCase_ =load_demo_image()
lowerCamelCase_ ='''What is unusual about this image?'''
# create processor
lowerCamelCase_ =BlipImageProcessor(
size={'''height''': image_size, '''width''': image_size} , image_mean=__snake_case , image_std=__snake_case )
lowerCamelCase_ =InstructBlipProcessor(
image_processor=__snake_case , tokenizer=__snake_case , qformer_tokenizer=__snake_case , )
lowerCamelCase_ =processor(images=__snake_case , text=__snake_case , return_tensors='''pt''' ).to(__snake_case )
# make sure processor creates exact same pixel values
lowerCamelCase_ =vis_processors['''eval'''](__snake_case ).unsqueeze(0 ).to(__snake_case )
lowerCamelCase_ =inputs.pixel_values
assert torch.allclose(original_pixel_values.to(pixel_values.device ) , __snake_case )
original_model.to(__snake_case )
hf_model.to(__snake_case )
with torch.no_grad():
if "vicuna" in model_name:
lowerCamelCase_ =original_model({'''image''': original_pixel_values, '''text_input''': [prompt]} ).logits
lowerCamelCase_ =hf_model(**__snake_case ).logits
else:
lowerCamelCase_ =original_model(
{'''image''': original_pixel_values, '''text_input''': [prompt], '''text_output''': ['''\n''']} ).logits
lowerCamelCase_ =tokenizer('''\n''' , return_tensors='''pt''' ).input_ids.to(__snake_case )
lowerCamelCase_ =label_input_ids.masked_fill(label_input_ids == tokenizer.pad_token_id , -100 )
lowerCamelCase_ =hf_model(**__snake_case , labels=__snake_case ).logits
print('''First values of original logits:''' , original_logits[0, :3, :3] )
print('''First values of HF logits:''' , logits[0, :3, :3] )
# assert values
assert original_logits.shape == logits.shape
lowerCamelCase_ =1e-4 if '''vicuna''' in model_name else 1e-5
assert torch.allclose(original_logits.to(logits.device ) , __snake_case , atol=__snake_case )
print('''Looks ok!''' )
print('''Generating with original model...''' )
lowerCamelCase_ =original_model.generate({'''image''': original_pixel_values, '''prompt''': prompt} , num_beams=5 )
# important: we need to cast the weights of the HF model to the appropriate type
print('''Generating with HF model...''' )
lowerCamelCase_ =hf_model.generate(
**__snake_case , do_sample=__snake_case , num_beams=5 , max_length=256 , min_length=1 , top_p=0.9 , repetition_penalty=1.5 , length_penalty=1.0 , temperature=1 , )
if "vicuna" in model_name:
# convert output id 0 to 2 (eos_token_id)
# TODO add this in the generate method?
lowerCamelCase_ =2
print('''Original generation:''' , __snake_case )
lowerCamelCase_ =processor.batch_decode(__snake_case , skip_special_tokens=__snake_case )
lowerCamelCase_ =[text.strip() for text in output_text]
print('''HF generation:''' , __snake_case )
if pytorch_dump_folder_path is not None:
processor.save_pretrained(__snake_case )
hf_model.save_pretrained(__snake_case )
if push_to_hub:
processor.push_to_hub(F'''Salesforce/{model_name}''' )
hf_model.push_to_hub(F'''Salesforce/{model_name}''' )
if __name__ == "__main__":
a_ : Any = argparse.ArgumentParser()
a_ : Any = [
"""instructblip-vicuna-7b""",
"""instructblip-vicuna-13b""",
"""instructblip-flan-t5-xl""",
"""instructblip-flan-t5-xxl""",
]
parser.add_argument(
"""--model_name""",
default="""instructblip-flan-t5-xl""",
choices=choices,
type=str,
help="""Path to hf config.json of model to convert""",
)
parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""")
parser.add_argument(
"""--push_to_hub""",
action="""store_true""",
help="""Whether to push the model and processor to the hub after converting""",
)
a_ : str = parser.parse_args()
convert_blipa_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.push_to_hub)
| 75 | 0 |
"""simple docstring"""
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_sentencepiece_available,
is_speech_available,
is_torch_available,
)
__SCREAMING_SNAKE_CASE : Union[str, Any] = {
"""configuration_trocr""": ["""TROCR_PRETRAINED_CONFIG_ARCHIVE_MAP""", """TrOCRConfig"""],
"""processing_trocr""": ["""TrOCRProcessor"""],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__SCREAMING_SNAKE_CASE : Union[str, Any] = [
"""TROCR_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""TrOCRForCausalLM""",
"""TrOCRPreTrainedModel""",
]
if TYPE_CHECKING:
from .configuration_trocr import TROCR_PRETRAINED_CONFIG_ARCHIVE_MAP, TrOCRConfig
from .processing_trocr import TrOCRProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_trocr import TROCR_PRETRAINED_MODEL_ARCHIVE_LIST, TrOCRForCausalLM, TrOCRPreTrainedModel
else:
import sys
__SCREAMING_SNAKE_CASE : Tuple = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 347 |
'''simple docstring'''
from __future__ import annotations
from math import pi
from typing import Protocol
import matplotlib.pyplot as plt
import numpy as np
class __UpperCamelCase ( lowerCamelCase__ ):
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
return 0.0
def a_ ( __snake_case : np.ndarray , __snake_case : int ) -> tuple[int | float, int | float]:
"""simple docstring"""
lowerCamelCase_ =min([-20, np.min(fft_results[1 : samplerate // 2 - 1] )] )
lowerCamelCase_ =max([20, np.max(fft_results[1 : samplerate // 2 - 1] )] )
return lowest, highest
def a_ ( __snake_case : FilterType , __snake_case : int ) -> None:
"""simple docstring"""
lowerCamelCase_ =512
lowerCamelCase_ =[1] + [0] * (size - 1)
lowerCamelCase_ =[filter_type.process(__snake_case ) for item in inputs]
lowerCamelCase_ =[0] * (samplerate - size) # zero-padding
outputs += filler
lowerCamelCase_ =np.abs(np.fft.fft(__snake_case ) )
lowerCamelCase_ =20 * np.logaa(__snake_case )
# Frequencies on log scale from 24 to nyquist frequency
plt.xlim(24 , samplerate / 2 - 1 )
plt.xlabel('''Frequency (Hz)''' )
plt.xscale('''log''' )
# Display within reasonable bounds
lowerCamelCase_ =get_bounds(__snake_case , __snake_case )
plt.ylim(max([-80, bounds[0]] ) , min([80, bounds[1]] ) )
plt.ylabel('''Gain (dB)''' )
plt.plot(__snake_case )
plt.show()
def a_ ( __snake_case : FilterType , __snake_case : int ) -> None:
"""simple docstring"""
lowerCamelCase_ =512
lowerCamelCase_ =[1] + [0] * (size - 1)
lowerCamelCase_ =[filter_type.process(__snake_case ) for item in inputs]
lowerCamelCase_ =[0] * (samplerate - size) # zero-padding
outputs += filler
lowerCamelCase_ =np.angle(np.fft.fft(__snake_case ) )
# Frequencies on log scale from 24 to nyquist frequency
plt.xlim(24 , samplerate / 2 - 1 )
plt.xlabel('''Frequency (Hz)''' )
plt.xscale('''log''' )
plt.ylim(-2 * pi , 2 * pi )
plt.ylabel('''Phase shift (Radians)''' )
plt.plot(np.unwrap(__snake_case , -2 * pi ) )
plt.show()
| 75 | 0 |
"""simple docstring"""
import functools
import operator
from ...configuration_utils import PretrainedConfig
from ...utils import logging
__a = logging.get_logger(__name__)
__a = {
"""microsoft/unispeech-large-1500h-cv""": (
"""https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json"""
),
# See all UniSpeech models at https://huggingface.co/models?filter=unispeech
}
class lowerCamelCase ( lowerCamelCase__ ):
'''simple docstring'''
_A : str = 'unispeech'
def __init__( self: List[Any] , snake_case: Optional[int]=32 , snake_case: Optional[int]=768 , snake_case: List[str]=12 , snake_case: Tuple=12 , snake_case: Optional[Any]=3_072 , snake_case: str="gelu" , snake_case: int=0.1 , snake_case: str=0.1 , snake_case: Any=0.1 , snake_case: Optional[Any]=0.0 , snake_case: Optional[Any]=0.0 , snake_case: Tuple=0.1 , snake_case: Optional[Any]=0.1 , snake_case: str=0.0_2 , snake_case: Optional[Any]=1E-5 , snake_case: Tuple="group" , snake_case: str="gelu" , snake_case: Optional[Any]=(512, 512, 512, 512, 512, 512, 512) , snake_case: Dict=(5, 2, 2, 2, 2, 2, 2) , snake_case: Optional[Any]=(10, 3, 3, 3, 3, 2, 2) , snake_case: str=False , snake_case: Tuple=128 , snake_case: int=16 , snake_case: Optional[Any]=False , snake_case: Union[str, Any]=True , snake_case: Union[str, Any]=0.0_5 , snake_case: List[Any]=10 , snake_case: List[str]=2 , snake_case: str=0.0 , snake_case: Union[str, Any]=10 , snake_case: Optional[Any]=0 , snake_case: List[Any]=320 , snake_case: Tuple=2 , snake_case: List[str]=0.1 , snake_case: Union[str, Any]=100 , snake_case: Tuple=256 , snake_case: Optional[Any]=256 , snake_case: Optional[int]=0.1 , snake_case: int="mean" , snake_case: List[str]=False , snake_case: Optional[Any]=False , snake_case: int=256 , snake_case: Any=80 , snake_case: Union[str, Any]=0 , snake_case: List[Any]=1 , snake_case: Any=2 , snake_case: Tuple=0.5 , **snake_case: int , ) -> List[str]:
super().__init__(**snake_case , pad_token_id=snake_case , bos_token_id=snake_case , eos_token_id=snake_case )
snake_case_ :str = hidden_size
snake_case_ :int = feat_extract_norm
snake_case_ :List[Any] = feat_extract_activation
snake_case_ :Dict = list(snake_case )
snake_case_ :Tuple = list(snake_case )
snake_case_ :List[Any] = list(snake_case )
snake_case_ :int = conv_bias
snake_case_ :Optional[int] = num_conv_pos_embeddings
snake_case_ :Union[str, Any] = num_conv_pos_embedding_groups
snake_case_ :int = len(self.conv_dim )
snake_case_ :Any = num_hidden_layers
snake_case_ :Tuple = intermediate_size
snake_case_ :Any = hidden_act
snake_case_ :Dict = num_attention_heads
snake_case_ :int = hidden_dropout
snake_case_ :Union[str, Any] = attention_dropout
snake_case_ :List[Any] = activation_dropout
snake_case_ :str = feat_proj_dropout
snake_case_ :int = final_dropout
snake_case_ :str = layerdrop
snake_case_ :Dict = layer_norm_eps
snake_case_ :str = initializer_range
snake_case_ :int = num_ctc_classes
snake_case_ :List[Any] = vocab_size
snake_case_ :Dict = do_stable_layer_norm
snake_case_ :Optional[Any] = use_weighted_layer_sum
snake_case_ :Tuple = classifier_proj_size
if (
(len(self.conv_stride ) != self.num_feat_extract_layers)
or (len(self.conv_kernel ) != self.num_feat_extract_layers)
or (len(self.conv_dim ) != self.num_feat_extract_layers)
):
raise ValueError(
"""Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` =="""
""" `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) ="""
f""" {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,"""
f""" `len(config.conv_kernel) = {len(self.conv_kernel )}`.""" )
# fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779
snake_case_ :List[Any] = apply_spec_augment
snake_case_ :int = mask_time_prob
snake_case_ :str = mask_time_length
snake_case_ :Tuple = mask_time_min_masks
snake_case_ :Optional[Any] = mask_feature_prob
snake_case_ :Tuple = mask_feature_length
snake_case_ :int = mask_feature_min_masks
# parameters for pretraining with codevector quantized representations
snake_case_ :Any = num_codevectors_per_group
snake_case_ :Optional[Any] = num_codevector_groups
snake_case_ :Union[str, Any] = contrastive_logits_temperature
snake_case_ :Tuple = feat_quantizer_dropout
snake_case_ :List[Any] = num_negatives
snake_case_ :Any = codevector_dim
snake_case_ :List[Any] = proj_codevector_dim
snake_case_ :int = diversity_loss_weight
# ctc loss
snake_case_ :Dict = ctc_loss_reduction
snake_case_ :List[Any] = ctc_zero_infinity
# pretraining loss
snake_case_ :int = replace_prob
@property
def lowerCAmelCase_ ( self: str ) -> str:
return functools.reduce(operator.mul , self.conv_stride , 1 )
| 66 |
'''simple docstring'''
import os
import unittest
from transformers import FunnelTokenizer, FunnelTokenizerFast
from transformers.models.funnel.tokenization_funnel import VOCAB_FILES_NAMES
from transformers.testing_utils import require_tokenizers
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : Union[str, Any] =FunnelTokenizer
lowercase : List[str] =FunnelTokenizerFast
lowercase : Union[str, Any] =True
lowercase : int =True
def lowercase__ ( self ):
"""simple docstring"""
super().setUp()
lowerCamelCase_ =[
'''<unk>''',
'''<cls>''',
'''<sep>''',
'''want''',
'''##want''',
'''##ed''',
'''wa''',
'''un''',
'''runn''',
'''##ing''',
''',''',
'''low''',
'''lowest''',
]
lowerCamelCase_ =os.path.join(self.tmpdirname, VOCAB_FILES_NAMES['''vocab_file'''] )
with open(self.vocab_file, '''w''', encoding='''utf-8''' ) as vocab_writer:
vocab_writer.write(''''''.join([x + '''\n''' for x in vocab_tokens] ) )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return FunnelTokenizer.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return FunnelTokenizerFast.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ ='''UNwant\u00E9d,running'''
lowerCamelCase_ ='''unwanted, running'''
return input_text, output_text
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.tokenizer_class(self.vocab_file )
lowerCamelCase_ =tokenizer.tokenize('''UNwant\u00E9d,running''' )
self.assertListEqual(lowerCAmelCase, ['''un''', '''##want''', '''##ed''', ''',''', '''runn''', '''##ing'''] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(lowerCAmelCase ), [7, 4, 5, 10, 8, 9] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizers(do_lower_case=lowerCAmelCase )
for tokenizer in tokenizers:
lowerCamelCase_ =tokenizer('''UNwant\u00E9d,running''' )
lowerCamelCase_ =len(inputs['''input_ids'''] ) - 1
self.assertListEqual(inputs['''token_type_ids'''], [2] + [0] * sentence_len )
lowerCamelCase_ =tokenizer('''UNwant\u00E9d,running''', '''UNwant\u00E9d,running''' )
self.assertListEqual(inputs['''token_type_ids'''], [2] + [0] * sentence_len + [1] * sentence_len )
| 75 | 0 |
'''simple docstring'''
import unittest
from parameterized import parameterized
from transformers import LlamaConfig, is_torch_available, set_seed
from transformers.testing_utils import require_torch, slow, torch_device
from ...generation.test_utils import GenerationTesterMixin
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 LlamaForCausalLM, LlamaForSequenceClassification, LlamaModel, LlamaTokenizer
class lowerCAmelCase :
def __init__( self : Dict , __lowercase : List[str] , __lowercase : Optional[int]=13 , __lowercase : Any=7 , __lowercase : int=True , __lowercase : Any=True , __lowercase : Optional[int]=False , __lowercase : List[Any]=True , __lowercase : Dict=99 , __lowercase : List[Any]=32 , __lowercase : int=5 , __lowercase : Dict=4 , __lowercase : int=37 , __lowercase : Optional[int]="gelu" , __lowercase : int=0.1 , __lowercase : Any=0.1 , __lowercase : Tuple=512 , __lowercase : Dict=16 , __lowercase : Tuple=2 , __lowercase : Dict=0.0_2 , __lowercase : Any=3 , __lowercase : List[Any]=4 , __lowercase : List[Any]=None , ):
"""simple docstring"""
__lowercase =parent
__lowercase =batch_size
__lowercase =seq_length
__lowercase =is_training
__lowercase =use_input_mask
__lowercase =use_token_type_ids
__lowercase =use_labels
__lowercase =vocab_size
__lowercase =hidden_size
__lowercase =num_hidden_layers
__lowercase =num_attention_heads
__lowercase =intermediate_size
__lowercase =hidden_act
__lowercase =hidden_dropout_prob
__lowercase =attention_probs_dropout_prob
__lowercase =max_position_embeddings
__lowercase =type_vocab_size
__lowercase =type_sequence_label_size
__lowercase =initializer_range
__lowercase =num_labels
__lowercase =num_choices
__lowercase =scope
def snake_case ( self : Dict ):
"""simple docstring"""
__lowercase =ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__lowercase =None
if self.use_input_mask:
__lowercase =random_attention_mask([self.batch_size, self.seq_length] )
__lowercase =None
if self.use_token_type_ids:
__lowercase =ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
__lowercase =None
__lowercase =None
__lowercase =None
if self.use_labels:
__lowercase =ids_tensor([self.batch_size] , self.type_sequence_label_size )
__lowercase =ids_tensor([self.batch_size, self.seq_length] , self.num_labels )
__lowercase =ids_tensor([self.batch_size] , self.num_choices )
__lowercase =self.get_config()
return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels
def snake_case ( self : Optional[Any] ):
"""simple docstring"""
return LlamaConfig(
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=__lowercase , initializer_range=self.initializer_range , )
def snake_case ( self : Dict , __lowercase : Any , __lowercase : str , __lowercase : Union[str, Any] , __lowercase : Dict , __lowercase : Any , __lowercase : str , __lowercase : Any ):
"""simple docstring"""
__lowercase =LlamaModel(config=__lowercase )
model.to(__lowercase )
model.eval()
__lowercase =model(__lowercase , attention_mask=__lowercase )
__lowercase =model(__lowercase )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def snake_case ( self : Any , __lowercase : List[str] , __lowercase : Union[str, Any] , __lowercase : Any , __lowercase : Union[str, Any] , __lowercase : List[str] , __lowercase : Optional[int] , __lowercase : Dict , __lowercase : List[Any] , __lowercase : Optional[int] , ):
"""simple docstring"""
__lowercase =True
__lowercase =LlamaModel(__lowercase )
model.to(__lowercase )
model.eval()
__lowercase =model(
__lowercase , attention_mask=__lowercase , encoder_hidden_states=__lowercase , encoder_attention_mask=__lowercase , )
__lowercase =model(
__lowercase , attention_mask=__lowercase , encoder_hidden_states=__lowercase , )
__lowercase =model(__lowercase , attention_mask=__lowercase )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def snake_case ( self : List[Any] , __lowercase : Dict , __lowercase : List[str] , __lowercase : List[Any] , __lowercase : Any , __lowercase : Dict , __lowercase : List[str] , __lowercase : Any , __lowercase : Tuple , __lowercase : Optional[int] , ):
"""simple docstring"""
__lowercase =LlamaForCausalLM(config=__lowercase )
model.to(__lowercase )
model.eval()
__lowercase =model(__lowercase , attention_mask=__lowercase , labels=__lowercase )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size) )
def snake_case ( self : Any , __lowercase : Optional[Any] , __lowercase : Any , __lowercase : Dict , __lowercase : Optional[int] , __lowercase : Tuple , __lowercase : Optional[Any] , __lowercase : Optional[Any] , __lowercase : Optional[Any] , __lowercase : Union[str, Any] , ):
"""simple docstring"""
__lowercase =True
__lowercase =True
__lowercase =LlamaForCausalLM(config=__lowercase )
model.to(__lowercase )
model.eval()
# first forward pass
__lowercase =model(
__lowercase , attention_mask=__lowercase , encoder_hidden_states=__lowercase , encoder_attention_mask=__lowercase , use_cache=__lowercase , )
__lowercase =outputs.past_key_values
# create hypothetical multiple next token and extent to next_input_ids
__lowercase =ids_tensor((self.batch_size, 3) , config.vocab_size )
__lowercase =ids_tensor((self.batch_size, 3) , vocab_size=2 )
# append to next input_ids and
__lowercase =torch.cat([input_ids, next_tokens] , dim=-1 )
__lowercase =torch.cat([input_mask, next_mask] , dim=-1 )
__lowercase =model(
__lowercase , attention_mask=__lowercase , encoder_hidden_states=__lowercase , encoder_attention_mask=__lowercase , output_hidden_states=__lowercase , )['hidden_states'][0]
__lowercase =model(
__lowercase , attention_mask=__lowercase , encoder_hidden_states=__lowercase , encoder_attention_mask=__lowercase , past_key_values=__lowercase , output_hidden_states=__lowercase , )['hidden_states'][0]
# select random slice
__lowercase =ids_tensor((1,) , output_from_past.shape[-1] ).item()
__lowercase =output_from_no_past[:, -3:, random_slice_idx].detach()
__lowercase =output_from_past[:, :, random_slice_idx].detach()
self.parent.assertTrue(output_from_past_slice.shape[1] == next_tokens.shape[1] )
# test that outputs are equal for slice
self.parent.assertTrue(torch.allclose(__lowercase , __lowercase , atol=1E-3 ) )
def snake_case ( self : Optional[Any] ):
"""simple docstring"""
__lowercase =self.prepare_config_and_inputs()
(
(
__lowercase
) , (
__lowercase
) , (
__lowercase
) , (
__lowercase
) , (
__lowercase
) , (
__lowercase
) , (
__lowercase
) ,
) =config_and_inputs
__lowercase ={'input_ids': input_ids, 'attention_mask': input_mask}
return config, inputs_dict
@require_torch
class lowerCAmelCase ( lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
lowerCAmelCase_ = (LlamaModel, LlamaForCausalLM, LlamaForSequenceClassification) if is_torch_available() else ()
lowerCAmelCase_ = (LlamaForCausalLM,) if is_torch_available() else ()
lowerCAmelCase_ = (
{
'feature-extraction': LlamaModel,
'text-classification': LlamaForSequenceClassification,
'text-generation': LlamaForCausalLM,
'zero-shot': LlamaForSequenceClassification,
}
if is_torch_available()
else {}
)
lowerCAmelCase_ = False
lowerCAmelCase_ = False
def snake_case ( self : List[Any] ):
"""simple docstring"""
__lowercase =LlamaModelTester(self )
__lowercase =ConfigTester(self , config_class=__lowercase , hidden_size=37 )
def snake_case ( self : Optional[int] ):
"""simple docstring"""
self.config_tester.run_common_tests()
def snake_case ( self : List[str] ):
"""simple docstring"""
__lowercase =self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*__lowercase )
def snake_case ( self : Union[str, Any] ):
"""simple docstring"""
__lowercase =self.model_tester.prepare_config_and_inputs()
for type in ["absolute", "relative_key", "relative_key_query"]:
__lowercase =type
self.model_tester.create_and_check_model(*__lowercase )
def snake_case ( self : List[str] ):
"""simple docstring"""
__lowercase , __lowercase =self.model_tester.prepare_config_and_inputs_for_common()
__lowercase =3
__lowercase =input_dict['input_ids']
__lowercase =input_ids.ne(1 ).to(__lowercase )
__lowercase =ids_tensor([self.model_tester.batch_size] , self.model_tester.type_sequence_label_size )
__lowercase =LlamaForSequenceClassification(__lowercase )
model.to(__lowercase )
model.eval()
__lowercase =model(__lowercase , attention_mask=__lowercase , labels=__lowercase )
self.assertEqual(result.logits.shape , (self.model_tester.batch_size, self.model_tester.num_labels) )
def snake_case ( self : Optional[int] ):
"""simple docstring"""
__lowercase , __lowercase =self.model_tester.prepare_config_and_inputs_for_common()
__lowercase =3
__lowercase ='single_label_classification'
__lowercase =input_dict['input_ids']
__lowercase =input_ids.ne(1 ).to(__lowercase )
__lowercase =ids_tensor([self.model_tester.batch_size] , self.model_tester.type_sequence_label_size )
__lowercase =LlamaForSequenceClassification(__lowercase )
model.to(__lowercase )
model.eval()
__lowercase =model(__lowercase , attention_mask=__lowercase , labels=__lowercase )
self.assertEqual(result.logits.shape , (self.model_tester.batch_size, self.model_tester.num_labels) )
def snake_case ( self : Tuple ):
"""simple docstring"""
__lowercase , __lowercase =self.model_tester.prepare_config_and_inputs_for_common()
__lowercase =3
__lowercase ='multi_label_classification'
__lowercase =input_dict['input_ids']
__lowercase =input_ids.ne(1 ).to(__lowercase )
__lowercase =ids_tensor(
[self.model_tester.batch_size, config.num_labels] , self.model_tester.type_sequence_label_size ).to(torch.float )
__lowercase =LlamaForSequenceClassification(__lowercase )
model.to(__lowercase )
model.eval()
__lowercase =model(__lowercase , attention_mask=__lowercase , labels=__lowercase )
self.assertEqual(result.logits.shape , (self.model_tester.batch_size, self.model_tester.num_labels) )
@unittest.skip('LLaMA buffers include complex numbers, which breaks this test' )
def snake_case ( self : Any ):
"""simple docstring"""
pass
@parameterized.expand([('linear',), ('dynamic',)] )
def snake_case ( self : Dict , __lowercase : List[str] ):
"""simple docstring"""
__lowercase , __lowercase =self.model_tester.prepare_config_and_inputs_for_common()
__lowercase =ids_tensor([1, 10] , config.vocab_size )
__lowercase =ids_tensor([1, int(config.max_position_embeddings * 1.5 )] , config.vocab_size )
set_seed(42 ) # Fixed seed at init time so the two models get the same random weights
__lowercase =LlamaModel(__lowercase )
original_model.to(__lowercase )
original_model.eval()
__lowercase =original_model(__lowercase ).last_hidden_state
__lowercase =original_model(__lowercase ).last_hidden_state
set_seed(42 ) # Fixed seed at init time so the two models get the same random weights
__lowercase ={'type': scaling_type, 'factor': 10.0}
__lowercase =LlamaModel(__lowercase )
scaled_model.to(__lowercase )
scaled_model.eval()
__lowercase =scaled_model(__lowercase ).last_hidden_state
__lowercase =scaled_model(__lowercase ).last_hidden_state
# Dynamic scaling does not change the RoPE embeddings until it receives an input longer than the original
# maximum sequence length, so the outputs for the short input should match.
if scaling_type == "dynamic":
self.assertTrue(torch.allclose(__lowercase , __lowercase , atol=1E-5 ) )
else:
self.assertFalse(torch.allclose(__lowercase , __lowercase , atol=1E-5 ) )
# The output should be different for long inputs
self.assertFalse(torch.allclose(__lowercase , __lowercase , atol=1E-5 ) )
@require_torch
class lowerCAmelCase ( unittest.TestCase ):
@unittest.skip('Logits are not exactly the same, once we fix the instabalities somehow, will update!' )
@slow
def snake_case ( self : Any ):
"""simple docstring"""
__lowercase =[1, 306, 4658, 278, 6593, 310, 2834, 338]
__lowercase =LlamaForCausalLM.from_pretrained('meta-llama/Llama-2-7b-hf' , device_map='auto' )
__lowercase =model(torch.tensor([input_ids] ) )
# Expected mean on dim = -1
__lowercase =torch.tensor([[-6.6_5_5_0, -4.1_2_2_7, -4.9_8_5_9, -3.2_4_0_6, 0.8_2_6_2, -3.0_0_3_3, 1.2_9_6_4, -3.3_6_9_9]] )
torch.testing.assert_close(out.mean(-1 ) , __lowercase , atol=1E-2 , rtol=1E-2 )
# slicing logits[0, 0, 0:30]
# fmt: off
__lowercase =torch.tensor([-12.8281, -7.4_4_5_3, -0.4_6_3_9, -8.0_6_2_5, -7.2_5_0_0, -8.0_0_0_0, -6.4_8_8_3, -7.7_6_9_5, -7.8_4_3_8, -7.0_3_1_2, -6.2_1_8_8, -7.1_3_2_8, -1.8_4_9_6, 1.9_9_6_1, -8.6_2_5_0, -6.7_2_2_7, -12.8281, -6.9_4_9_2, -7.0_7_4_2, -7.7_8_5_2, -7.5_8_2_0, -7.9_0_6_2, -6.9_3_7_5, -7.9_8_0_5, -8.3_4_3_8, -8.1_5_6_2, -8.0_4_6_9, -7.6_2_5_0, -7.7_4_2_2, -7.3_3_9_8,] )
# fmt: on
torch.testing.assert_close(out[0, 0, :30] , __lowercase , atol=1E-5 , rtol=1E-5 )
@unittest.skip('Logits are not exactly the same, once we fix the instabalities somehow, will update!' )
@slow
def snake_case ( self : Optional[int] ):
"""simple docstring"""
__lowercase =[1, 306, 4658, 278, 6593, 310, 2834, 338]
__lowercase =LlamaForCausalLM.from_pretrained('meta-llama/Llama-2-13b-hf' , device_map='auto' )
__lowercase =model(torch.tensor(__lowercase ) )
# Expected mean on dim = -1
__lowercase =torch.tensor([[-2.0_6_2_2, -1.2_7_9_4, -1.1_6_3_8, -0.9_7_8_8, -1.4_6_0_3, -1.0_2_3_8, -1.7_8_9_3, -1.4_4_1_1]] )
torch.testing.assert_close(out.mean(-1 ) , __lowercase , atol=1E-2 , rtol=1E-2 )
# slicing logits[0, 0, 0:30]
# fmt: off
__lowercase =torch.tensor([-8.1_4_0_6, -8.0_5_4_7, 2.7_4_6_1, -1.2_3_4_4, -0.1_4_4_8, -1.8_2_6_2, -1.0_0_2_0, -1.8_1_5_4, -1.6_8_9_5, -1.8_5_1_6, -2.3_5_7_4, -0.9_2_7_7, 3.7_5_9_8, 6.5_7_4_2, -1.2_9_9_8, -0.1_1_7_7, -8.1_4_0_6, -2.9_6_8_8, -2.9_1_9_9, -3.1_6_9_9, -3.5_2_5_4, -2.3_5_5_5, -2.7_9_8_8, -3.4_1_4_1, -2.8_2_6_2, -4.5_1_9_5, -3.3_3_7_9, -3.3_1_6_4, -2.7_8_3_2, -3.0_2_7_3] )
# fmt: on
torch.testing.assert_close(out[0, 0, :30] , __lowercase , atol=1E-5 , rtol=1E-5 )
@unittest.skip('Logits are not exactly the same, once we fix the instabalities somehow, will update!' )
@slow
def snake_case ( self : Tuple ):
"""simple docstring"""
__lowercase =[1, 306, 4658, 278, 6593, 310, 2834, 338]
__lowercase =LlamaForCausalLM.from_pretrained('meta-llama/Llama-2-13b-chat-hf' , device_map='auto' )
__lowercase =model(torch.tensor(__lowercase ) )
# Expected mean on dim = -1
__lowercase =torch.tensor([[-0.8_5_6_2, -1.8_5_2_0, -0.7_5_5_1, -0.4_1_6_2, -1.5_1_6_1, -1.2_0_3_8, -2.4_8_2_3, -2.3_2_5_4]] )
torch.testing.assert_close(out.mean(-1 ) , __lowercase , atol=1E-2 , rtol=1E-2 )
# slicing logits[0, 0, 0:30]
# fmt: off
__lowercase =torch.tensor([-2.2_2_2_7, 4.8_8_2_8, 0.9_0_2_3, -0.4_5_7_8, -0.7_8_7_1, -0.1_0_3_3, -0.6_2_2_1, -0.5_7_8_6, -0.7_8_0_3, -1.0_6_7_4, -1.2_9_2_0, -0.1_5_7_0, 0.8_0_0_8, 2.0_7_2_3, -0.9_4_9_7, 0.2_7_7_1, -2.2_2_2_7, -0.7_6_1_2, -1.4_3_4_6, -1.2_0_6_1, -1.6_4_2_6, -0.3_0_0_0, -0.7_1_3_9, -1.1_9_3_4, -1.8_6_9_1, -1.6_9_7_3, -1.5_9_4_7, -1.2_7_0_5, -0.3_5_2_3, -0.5_5_1_3] )
# fmt: on
torch.testing.assert_close(out.mean(-1 ) , __lowercase , atol=1E-2 , rtol=1E-2 )
@unittest.skip(
'Logits are not exactly the same, once we fix the instabalities somehow, will update! Also it is gonna be a `too_slow` test' )
@slow
def snake_case ( self : List[Any] ):
"""simple docstring"""
__lowercase =[1, 306, 4658, 278, 6593, 310, 2834, 338]
__lowercase =LlamaForCausalLM.from_pretrained('meta-llama/Llama-2-70b-hf' , device_map='auto' )
__lowercase =model(torch.tensor(__lowercase ) )
__lowercase =torch.tensor(
[[-4.2_3_2_7, -3.3_3_6_0, -4.6_6_6_5, -4.7_6_3_1, -1.8_1_8_0, -3.4_1_7_0, -1.4_2_1_1, -3.1_8_1_0]] , dtype=torch.floataa )
torch.testing.assert_close(out.mean(-1 ) , __lowercase , atol=1E-2 , rtol=1E-2 )
# fmt: off
__lowercase =torch.tensor([-9.4_9_2_2, -3.9_5_5_1, 1.7_9_9_8, -5.6_7_5_8, -5.1_0_5_5, -5.8_9_8_4, -4.8_3_2_0, -6.8_0_8_6, -6.5_3_9_1, -5.6_1_7_2, -5.5_8_2_0, -5.5_3_5_2, 1.7_8_8_1, 3.6_2_8_9, -6.5_1_1_7, -3.4_7_8_5, -9.5_0_0_0, -6.0_3_5_2, -6.8_1_2_5, -6.0_1_9_5, -6.6_8_3_6, -5.4_7_2_7, -6.2_8_1_2, -6.0_3_9_1, -7.3_3_9_8, -7.4_2_9_7, -7.4_8_4_4, -6.5_8_2_0, -5.8_7_8_9, -5.5_3_1_2] )
# fmt: on
torch.testing.assert_close(out[0, 0, :30] , __lowercase , atol=1E-5 , rtol=1E-5 )
@unittest.skip('Model is curently gated' )
@slow
def snake_case ( self : Any ):
"""simple docstring"""
__lowercase ='Simply put, the theory of relativity states that 1) the laws of physics are the same everywhere in the universe and 2) the passage of time and the length of objects can vary depending on the observer\'s frame of reference.\n\nThe first part of the theory, that the laws of physics are the same everywhere, is known as the "princi'
__lowercase ='Simply put, the theory of relativity states that '
__lowercase =LlamaTokenizer.from_pretrained('meta-llama/Llama-2-13b-chat-hf' )
__lowercase =tokenizer.encode(__lowercase , return_tensors='pt' )
__lowercase =LlamaForCausalLM.from_pretrained(
'meta-llama/Llama-2-13b-chat-hf' , device_map='sequential' , use_safetensors=__lowercase )
# greedy generation outputs
__lowercase =model.generate(__lowercase , max_new_tokens=64 , top_p=__lowercase , temperature=1 , do_sample=__lowercase )
__lowercase =tokenizer.decode(generated_ids[0] , skip_special_tokens=__lowercase )
self.assertEqual(__lowercase , __lowercase )
| 141 |
'''simple docstring'''
import argparse
import os
import re
import torch
from flax.traverse_util import flatten_dict
from tax import checkpoints
from transformers import (
AutoTokenizer,
PixaStructConfig,
PixaStructForConditionalGeneration,
PixaStructImageProcessor,
PixaStructProcessor,
PixaStructTextConfig,
PixaStructVisionConfig,
)
def a_ ( __snake_case : Any ) -> int:
"""simple docstring"""
lowerCamelCase_ =checkpoints.load_tax_checkpoint(__snake_case )
lowerCamelCase_ =flatten_dict(__snake_case )
return flax_params
def a_ ( __snake_case : Dict ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ ={}
lowerCamelCase_ ={
'''token_embedder''': '''embeddings''',
'''encoder_norm''': '''layernorm''',
'''kernel''': '''weight''',
'''.out''': '''.output''',
'''scale''': '''weight''',
'''embedders_0.pos_embedding''': '''row_embedder.weight''',
'''embedders_1.pos_embedding''': '''column_embedder.weight''',
}
lowerCamelCase_ ={
'''query''': '''attention.query''',
'''key''': '''attention.key''',
'''value''': '''attention.value''',
'''output.dense''': '''output''',
'''encoder_decoder_attention.o''': '''encoder_decoder_attention.attention.o''',
'''pre_self_attention_layer_norm''': '''self_attention.layer_norm''',
'''pre_cross_attention_layer_norm''': '''encoder_decoder_attention.layer_norm''',
'''mlp.''': '''mlp.DenseReluDense.''',
'''pre_mlp_layer_norm''': '''mlp.layer_norm''',
'''self_attention.o''': '''self_attention.attention.o''',
'''decoder.embeddings.embedding''': '''decoder.embed_tokens.weight''',
'''decoder.relpos_bias.rel_embedding''': '''decoder.layer.0.self_attention.attention.relative_attention_bias.weight''',
'''decoder.decoder_norm.weight''': '''decoder.final_layer_norm.weight''',
'''decoder.logits_dense.weight''': '''decoder.lm_head.weight''',
}
for key in flax_dict.keys():
if "target" in key:
# remove the first prefix from the key
lowerCamelCase_ ='''.'''.join(key[1:] )
# rename the key
for old, new in CONVERSION_MAPPING.items():
lowerCamelCase_ =new_key.replace(__snake_case , __snake_case )
if "decoder" in new_key:
for old, new in DECODER_CONVERSION_MAPPING.items():
lowerCamelCase_ =new_key.replace(__snake_case , __snake_case )
if "layers" in new_key and "decoder" not in new_key:
# use regex to replace the layer number
lowerCamelCase_ =re.sub(r'''layers_(\d+)''' , r'''layer.\1''' , __snake_case )
lowerCamelCase_ =new_key.replace('''encoder''' , '''encoder.encoder''' )
elif "layers" in new_key and "decoder" in new_key:
# use regex to replace the layer number
lowerCamelCase_ =re.sub(r'''layers_(\d+)''' , r'''layer.\1''' , __snake_case )
lowerCamelCase_ =flax_dict[key]
lowerCamelCase_ ={}
# convert converted_dict into torch format
for key in converted_dict.keys():
if ("embed_tokens" not in key) and ("embedder" not in key):
lowerCamelCase_ =torch.from_numpy(converted_dict[key].T )
else:
lowerCamelCase_ =torch.from_numpy(converted_dict[key] )
return converted_torch_dict
def a_ ( __snake_case : Optional[Any] , __snake_case : List[str] , __snake_case : Any=False , __snake_case : Optional[int]=False ) -> Union[str, Any]:
"""simple docstring"""
lowerCamelCase_ =get_flax_param(__snake_case )
if not use_large:
lowerCamelCase_ =PixaStructVisionConfig()
lowerCamelCase_ =PixaStructTextConfig()
else:
lowerCamelCase_ =PixaStructVisionConfig(
hidden_size=1536 , d_ff=3968 , num_attention_heads=24 , num_hidden_layers=18 )
lowerCamelCase_ =PixaStructTextConfig(hidden_size=1536 , d_ff=3968 , num_heads=24 , num_layers=18 )
lowerCamelCase_ =PixaStructConfig(
vision_config=encoder_config.to_dict() , text_config=decoder_config.to_dict() , is_vqa=__snake_case )
lowerCamelCase_ =PixaStructForConditionalGeneration(__snake_case )
lowerCamelCase_ =rename_and_convert_flax_params(__snake_case )
model.load_state_dict(__snake_case )
lowerCamelCase_ =AutoTokenizer.from_pretrained('''ybelkada/test-pix2struct-tokenizer''' )
lowerCamelCase_ =PixaStructImageProcessor()
lowerCamelCase_ =PixaStructProcessor(image_processor=__snake_case , tokenizer=__snake_case )
if use_large:
lowerCamelCase_ =4096
lowerCamelCase_ =True
# mkdir if needed
os.makedirs(__snake_case , exist_ok=__snake_case )
model.save_pretrained(__snake_case )
processor.save_pretrained(__snake_case )
print('''Model saved in {}'''.format(__snake_case ) )
if __name__ == "__main__":
a_ : Optional[int] = argparse.ArgumentParser()
parser.add_argument("""--t5x_checkpoint_path""", default=None, type=str, help="""Path to the original T5x checkpoint.""")
parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""")
parser.add_argument("""--use_large""", action="""store_true""", help="""Use large model.""")
parser.add_argument("""--is_vqa""", action="""store_true""", help="""Use large model.""")
a_ : Tuple = parser.parse_args()
convert_pixastruct_original_pytorch_checkpoint_to_hf(
args.tax_checkpoint_path, args.pytorch_dump_folder_path, args.use_large
)
| 75 | 0 |
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 YolosConfig, YolosForObjectDetection, YolosImageProcessor
from transformers.utils import logging
logging.set_verbosity_info()
__lowerCamelCase : List[str] = logging.get_logger(__name__)
def A_ ( _lowerCAmelCase ) -> YolosConfig:
UpperCamelCase : int = YolosConfig()
# size of the architecture
if "yolos_ti" in yolos_name:
UpperCamelCase : Tuple = 192
UpperCamelCase : Optional[Any] = 768
UpperCamelCase : str = 12
UpperCamelCase : Any = 3
UpperCamelCase : Optional[Any] = [800, 1333]
UpperCamelCase : List[str] = False
elif yolos_name == "yolos_s_dWr":
UpperCamelCase : Any = 330
UpperCamelCase : Dict = 14
UpperCamelCase : Tuple = 6
UpperCamelCase : Optional[int] = 1320
elif "yolos_s" in yolos_name:
UpperCamelCase : int = 384
UpperCamelCase : Tuple = 1536
UpperCamelCase : Optional[Any] = 12
UpperCamelCase : List[Any] = 6
elif "yolos_b" in yolos_name:
UpperCamelCase : List[str] = [800, 1344]
UpperCamelCase : Any = 91
UpperCamelCase : Optional[int] = "huggingface/label-files"
UpperCamelCase : Union[str, Any] = "coco-detection-id2label.json"
UpperCamelCase : List[str] = json.load(open(hf_hub_download(__snake_case , __snake_case , repo_type="dataset" ) , "r" ) )
UpperCamelCase : Union[str, Any] = {int(__snake_case ): v for k, v in idalabel.items()}
UpperCamelCase : str = idalabel
UpperCamelCase : Dict = {v: k for k, v in idalabel.items()}
return config
def A_ ( _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = False ) -> Any:
for i in range(config.num_hidden_layers ):
# read in weights + bias of input projection layer (in timm, this is a single matrix + bias)
UpperCamelCase : List[Any] = state_dict.pop(F"""blocks.{i}.attn.qkv.weight""" )
UpperCamelCase : Dict = state_dict.pop(F"""blocks.{i}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCamelCase : List[Any] = in_proj_weight[: config.hidden_size, :]
UpperCamelCase : str = in_proj_bias[: config.hidden_size]
UpperCamelCase : int = in_proj_weight[
config.hidden_size : config.hidden_size * 2, :
]
UpperCamelCase : Any = in_proj_bias[
config.hidden_size : config.hidden_size * 2
]
UpperCamelCase : Optional[int] = in_proj_weight[-config.hidden_size :, :]
UpperCamelCase : Dict = in_proj_bias[-config.hidden_size :]
def A_ ( _lowerCAmelCase ) -> str:
if "backbone" in name:
UpperCamelCase : Any = name.replace("backbone" , "vit" )
if "cls_token" in name:
UpperCamelCase : Union[str, Any] = name.replace("cls_token" , "embeddings.cls_token" )
if "det_token" in name:
UpperCamelCase : Union[str, Any] = name.replace("det_token" , "embeddings.detection_tokens" )
if "mid_pos_embed" in name:
UpperCamelCase : int = name.replace("mid_pos_embed" , "encoder.mid_position_embeddings" )
if "pos_embed" in name:
UpperCamelCase : List[Any] = name.replace("pos_embed" , "embeddings.position_embeddings" )
if "patch_embed.proj" in name:
UpperCamelCase : List[str] = name.replace("patch_embed.proj" , "embeddings.patch_embeddings.projection" )
if "blocks" in name:
UpperCamelCase : List[str] = name.replace("blocks" , "encoder.layer" )
if "attn.proj" in name:
UpperCamelCase : List[str] = name.replace("attn.proj" , "attention.output.dense" )
if "attn" in name:
UpperCamelCase : List[Any] = name.replace("attn" , "attention.self" )
if "norm1" in name:
UpperCamelCase : str = name.replace("norm1" , "layernorm_before" )
if "norm2" in name:
UpperCamelCase : Dict = name.replace("norm2" , "layernorm_after" )
if "mlp.fc1" in name:
UpperCamelCase : List[str] = name.replace("mlp.fc1" , "intermediate.dense" )
if "mlp.fc2" in name:
UpperCamelCase : Tuple = name.replace("mlp.fc2" , "output.dense" )
if "class_embed" in name:
UpperCamelCase : List[Any] = name.replace("class_embed" , "class_labels_classifier" )
if "bbox_embed" in name:
UpperCamelCase : List[str] = name.replace("bbox_embed" , "bbox_predictor" )
if "vit.norm" in name:
UpperCamelCase : Any = name.replace("vit.norm" , "vit.layernorm" )
return name
def A_ ( _lowerCAmelCase , _lowerCAmelCase ) -> dict:
for key in orig_state_dict.copy().keys():
UpperCamelCase : Optional[int] = orig_state_dict.pop(__snake_case )
if "qkv" in key:
UpperCamelCase : List[str] = key.split("." )
UpperCamelCase : List[Any] = int(key_split[2] )
UpperCamelCase : int = model.vit.encoder.layer[layer_num].attention.attention.all_head_size
if "weight" in key:
UpperCamelCase : Optional[int] = val[:dim, :]
UpperCamelCase : Optional[int] = val[
dim : dim * 2, :
]
UpperCamelCase : Any = val[-dim:, :]
else:
UpperCamelCase : Optional[Any] = val[:dim]
UpperCamelCase : Tuple = val[dim : dim * 2]
UpperCamelCase : List[str] = val[-dim:]
else:
UpperCamelCase : Optional[Any] = val
return orig_state_dict
def A_ ( ) -> torch.Tensor:
UpperCamelCase : Optional[Any] = "http://images.cocodataset.org/val2017/000000039769.jpg"
UpperCamelCase : Union[str, Any] = Image.open(requests.get(__snake_case , stream=__snake_case ).raw )
return im
@torch.no_grad()
def A_ ( _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase = False ) -> Any:
UpperCamelCase : Dict = get_yolos_config(__snake_case )
# load original state_dict
UpperCamelCase : Optional[int] = torch.load(__snake_case , map_location="cpu" )["model"]
# load 🤗 model
UpperCamelCase : Union[str, Any] = YolosForObjectDetection(__snake_case )
model.eval()
UpperCamelCase : int = convert_state_dict(__snake_case , __snake_case )
model.load_state_dict(__snake_case )
# Check outputs on an image, prepared by YolosImageProcessor
UpperCamelCase : List[Any] = 800 if yolos_name != "yolos_ti" else 512
UpperCamelCase : List[str] = YolosImageProcessor(format="coco_detection" , size=__snake_case )
UpperCamelCase : Optional[int] = image_processor(images=prepare_img() , return_tensors="pt" )
UpperCamelCase : List[str] = model(**__snake_case )
UpperCamelCase , UpperCamelCase : str = outputs.logits, outputs.pred_boxes
UpperCamelCase , UpperCamelCase : str = None, None
if yolos_name == "yolos_ti":
UpperCamelCase : str = torch.tensor(
[[-39.5022, -11.9820, -17.6888], [-29.9574, -9.9_769, -17.7691], [-42.3281, -20.7200, -30.6294]] )
UpperCamelCase : Optional[int] = torch.tensor(
[[0.4_021, 0.0_836, 0.7_979], [0.0_184, 0.2_609, 0.0_364], [0.1_781, 0.2_004, 0.2_095]] )
elif yolos_name == "yolos_s_200_pre":
UpperCamelCase : Optional[Any] = torch.tensor(
[[-24.0248, -10.3024, -14.8290], [-42.0392, -16.8200, -27.4334], [-27.2743, -11.8154, -18.7148]] )
UpperCamelCase : int = torch.tensor(
[[0.2_559, 0.5_455, 0.4_706], [0.2_989, 0.7_279, 0.1_875], [0.7_732, 0.4_017, 0.4_462]] )
elif yolos_name == "yolos_s_300_pre":
UpperCamelCase : Tuple = torch.tensor(
[[-36.2220, -14.4385, -23.5457], [-35.6970, -14.7583, -21.3935], [-31.5939, -13.6042, -16.8049]] )
UpperCamelCase : Optional[Any] = torch.tensor(
[[0.7_614, 0.2_316, 0.4_728], [0.7_168, 0.4_495, 0.3_855], [0.4_996, 0.1_466, 0.9_996]] )
elif yolos_name == "yolos_s_dWr":
UpperCamelCase : Optional[Any] = torch.tensor(
[[-42.8668, -24.1049, -41.1690], [-34.7456, -14.1274, -24.9194], [-33.7898, -12.1946, -25.6495]] )
UpperCamelCase : Dict = torch.tensor(
[[0.5_587, 0.2_773, 0.0_605], [0.5_004, 0.3_014, 0.9_994], [0.4_999, 0.1_548, 0.9_994]] )
elif yolos_name == "yolos_base":
UpperCamelCase : Union[str, Any] = torch.tensor(
[[-40.6064, -24.3084, -32.6447], [-55.1990, -30.7719, -35.5877], [-51.4311, -33.3507, -35.6462]] )
UpperCamelCase : Union[str, Any] = torch.tensor(
[[0.5_555, 0.2_794, 0.0_655], [0.9_049, 0.2_664, 0.1_894], [0.9_183, 0.1_984, 0.1_635]] )
else:
raise ValueError(F"""Unknown yolos_name: {yolos_name}""" )
assert torch.allclose(logits[0, :3, :3] , __snake_case , atol=1e-4 )
assert torch.allclose(pred_boxes[0, :3, :3] , __snake_case , atol=1e-4 )
Path(__snake_case ).mkdir(exist_ok=__snake_case )
print(F"""Saving model {yolos_name} to {pytorch_dump_folder_path}""" )
model.save_pretrained(__snake_case )
print(F"""Saving image processor to {pytorch_dump_folder_path}""" )
image_processor.save_pretrained(__snake_case )
if push_to_hub:
UpperCamelCase : Any = {
"yolos_ti": "yolos-tiny",
"yolos_s_200_pre": "yolos-small",
"yolos_s_300_pre": "yolos-small-300",
"yolos_s_dWr": "yolos-small-dwr",
"yolos_base": "yolos-base",
}
print("Pushing to the hub..." )
UpperCamelCase : Dict = model_mapping[yolos_name]
image_processor.push_to_hub(__snake_case , organization="hustvl" )
model.push_to_hub(__snake_case , organization="hustvl" )
if __name__ == "__main__":
__lowerCamelCase : Union[str, Any] = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
"""--yolos_name""",
default="""yolos_s_200_pre""",
type=str,
help=(
"""Name of the YOLOS model you'd like to convert. Should be one of 'yolos_ti', 'yolos_s_200_pre',"""
""" 'yolos_s_300_pre', 'yolos_s_dWr', 'yolos_base'."""
),
)
parser.add_argument(
"""--checkpoint_path""", default=None, type=str, help="""Path to the original state dict (.pth file)."""
)
parser.add_argument(
"""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model directory."""
)
parser.add_argument(
"""--push_to_hub""", action="""store_true""", help="""Whether or not to push the converted model to the 🤗 hub."""
)
__lowerCamelCase : Optional[Any] = parser.parse_args()
convert_yolos_checkpoint(args.yolos_name, args.checkpoint_path, args.pytorch_dump_folder_path, args.push_to_hub)
| 52 |
'''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,
convert_to_rgb,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
OPENAI_CLIP_MEAN,
OPENAI_CLIP_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
a_ : Union[str, Any] = logging.get_logger(__name__)
if is_vision_available():
import PIL
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : Tuple =['pixel_values']
def __init__( self, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = PILImageResampling.BICUBIC, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = True, lowerCAmelCase = 1 / 255, lowerCAmelCase = True, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = True, **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
lowerCamelCase_ =size if size is not None else {'''shortest_edge''': 224}
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase )
lowerCamelCase_ =crop_size if crop_size is not None else {'''height''': 224, '''width''': 224}
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase, param_name='''crop_size''' )
lowerCamelCase_ =do_resize
lowerCamelCase_ =size
lowerCamelCase_ =resample
lowerCamelCase_ =do_center_crop
lowerCamelCase_ =crop_size
lowerCamelCase_ =do_rescale
lowerCamelCase_ =rescale_factor
lowerCamelCase_ =do_normalize
lowerCamelCase_ =image_mean if image_mean is not None else OPENAI_CLIP_MEAN
lowerCamelCase_ =image_std if image_std is not None else OPENAI_CLIP_STD
lowerCamelCase_ =do_convert_rgb
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = PILImageResampling.BICUBIC, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =get_size_dict(lowerCAmelCase, default_to_square=lowerCAmelCase )
if "shortest_edge" not in size:
raise ValueError(f'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' )
lowerCamelCase_ =get_resize_output_image_size(lowerCAmelCase, size=size['''shortest_edge'''], default_to_square=lowerCAmelCase )
return resize(lowerCAmelCase, size=lowerCAmelCase, resample=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =get_size_dict(lowerCAmelCase )
if "height" not in size or "width" not in size:
raise ValueError(f'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' )
return center_crop(lowerCAmelCase, size=(size['''height'''], size['''width''']), data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
return rescale(lowerCAmelCase, scale=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase = None, **lowerCAmelCase, ):
"""simple docstring"""
return normalize(lowerCAmelCase, mean=lowerCAmelCase, std=lowerCAmelCase, data_format=lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = None, lowerCAmelCase = ChannelDimension.FIRST, **lowerCAmelCase, ):
"""simple docstring"""
lowerCamelCase_ =do_resize if do_resize is not None else self.do_resize
lowerCamelCase_ =size if size is not None else self.size
lowerCamelCase_ =get_size_dict(lowerCAmelCase, param_name='''size''', default_to_square=lowerCAmelCase )
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_ =crop_size if crop_size is not None else self.crop_size
lowerCamelCase_ =get_size_dict(lowerCAmelCase, param_name='''crop_size''', default_to_square=lowerCAmelCase )
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_ =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_ =do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb
lowerCamelCase_ =make_list_of_images(lowerCAmelCase )
if not valid_images(lowerCAmelCase ):
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.''' )
# PIL RGBA images are converted to RGB
if do_convert_rgb:
lowerCamelCase_ =[convert_to_rgb(lowerCAmelCase ) for image in images]
# All transformations expect numpy arrays.
lowerCamelCase_ =[to_numpy_array(lowerCAmelCase ) for image in images]
if do_resize:
lowerCamelCase_ =[self.resize(image=lowerCAmelCase, size=lowerCAmelCase, resample=lowerCAmelCase ) for image in images]
if do_center_crop:
lowerCamelCase_ =[self.center_crop(image=lowerCAmelCase, size=lowerCAmelCase ) for image in images]
if do_rescale:
lowerCamelCase_ =[self.rescale(image=lowerCAmelCase, scale=lowerCAmelCase ) for image in images]
if do_normalize:
lowerCamelCase_ =[self.normalize(image=lowerCAmelCase, mean=lowerCAmelCase, std=lowerCAmelCase ) for image in images]
lowerCamelCase_ =[to_channel_dimension_format(lowerCAmelCase, lowerCAmelCase ) for image in images]
lowerCamelCase_ ={'''pixel_values''': images}
return BatchFeature(data=lowerCAmelCase, tensor_type=lowerCAmelCase )
| 75 | 0 |
from __future__ import annotations
from scipy.special import comb # type: ignore
class _UpperCAmelCase :
"""simple docstring"""
def __init__( self : Optional[Any], lowerCamelCase : List[str] ):
'''simple docstring'''
lowercase__ = list_of_points
# Degree determines the flexibility of the curve.
# Degree = 1 will produce a straight line.
lowercase__ = len(lowerCamelCase ) - 1
def lowercase__ ( self : Optional[Any], lowerCamelCase : Union[str, Any] ):
'''simple docstring'''
assert 0 <= t <= 1, "Time t must be between 0 and 1."
lowercase__ = []
for i in range(len(self.list_of_points ) ):
# basis function for each i
output_values.append(
comb(self.degree, lowerCamelCase ) * ((1 - t) ** (self.degree - i)) * (t**i) )
# the basis must sum up to 1 for it to produce a valid Bezier curve.
assert round(sum(lowerCamelCase ), 5 ) == 1
return output_values
def lowercase__ ( self : Tuple, lowerCamelCase : List[Any] ):
'''simple docstring'''
assert 0 <= t <= 1, "Time t must be between 0 and 1."
lowercase__ = self.basis_function(lowerCamelCase )
lowercase__ = 0.0
lowercase__ = 0.0
for i in range(len(self.list_of_points ) ):
# For all points, sum up the product of i-th basis function and i-th point.
x += basis_function[i] * self.list_of_points[i][0]
y += basis_function[i] * self.list_of_points[i][1]
return (x, y)
def lowercase__ ( self : Union[str, Any], lowerCamelCase : str = 0.01 ):
'''simple docstring'''
from matplotlib import pyplot as plt # type: ignore
lowercase__ = [] # x coordinates of points to plot
lowercase__ = [] # y coordinates of points to plot
lowercase__ = 0.0
while t <= 1:
lowercase__ = self.bezier_curve_function(lowerCamelCase )
to_plot_x.append(value[0] )
to_plot_y.append(value[1] )
t += step_size
lowercase__ = [i[0] for i in self.list_of_points]
lowercase__ = [i[1] for i in self.list_of_points]
plt.plot(
lowerCamelCase, lowerCamelCase, color='''blue''', label='''Curve of Degree ''' + str(self.degree ), )
plt.scatter(lowerCamelCase, lowerCamelCase, color='''red''', label='''Control Points''' )
plt.legend()
plt.show()
if __name__ == "__main__":
import doctest
doctest.testmod()
BezierCurve([(1, 2), (3, 5)]).plot_curve() # degree 1
BezierCurve([(0, 0), (5, 5), (5, 0)]).plot_curve() # degree 2
BezierCurve([(0, 0), (5, 5), (5, 0), (2.5, -2.5)]).plot_curve() # degree 3
| 207 |
'''simple docstring'''
from __future__ import annotations
def a_ ( __snake_case : str , __snake_case : list[str] | None = None , __snake_case : dict[str, float] | None = None , __snake_case : bool = False , ) -> tuple[int, float, str]:
"""simple docstring"""
lowerCamelCase_ =cipher_alphabet or [chr(__snake_case ) for i in range(97 , 123 )]
# If the argument is None or the user provided an empty dictionary
if not frequencies_dict:
# Frequencies of letters in the english language (how much they show up)
lowerCamelCase_ ={
'''a''': 0.0_8_4_9_7,
'''b''': 0.0_1_4_9_2,
'''c''': 0.0_2_2_0_2,
'''d''': 0.0_4_2_5_3,
'''e''': 0.1_1_1_6_2,
'''f''': 0.0_2_2_2_8,
'''g''': 0.0_2_0_1_5,
'''h''': 0.0_6_0_9_4,
'''i''': 0.0_7_5_4_6,
'''j''': 0.0_0_1_5_3,
'''k''': 0.0_1_2_9_2,
'''l''': 0.0_4_0_2_5,
'''m''': 0.0_2_4_0_6,
'''n''': 0.0_6_7_4_9,
'''o''': 0.0_7_5_0_7,
'''p''': 0.0_1_9_2_9,
'''q''': 0.0_0_0_9_5,
'''r''': 0.0_7_5_8_7,
'''s''': 0.0_6_3_2_7,
'''t''': 0.0_9_3_5_6,
'''u''': 0.0_2_7_5_8,
'''v''': 0.0_0_9_7_8,
'''w''': 0.0_2_5_6_0,
'''x''': 0.0_0_1_5_0,
'''y''': 0.0_1_9_9_4,
'''z''': 0.0_0_0_7_7,
}
else:
# Custom frequencies dictionary
lowerCamelCase_ =frequencies_dict
if not case_sensitive:
lowerCamelCase_ =ciphertext.lower()
# Chi squared statistic values
lowerCamelCase_ ={}
# cycle through all of the shifts
for shift in range(len(__snake_case ) ):
lowerCamelCase_ =''''''
# decrypt the message with the shift
for letter in ciphertext:
try:
# Try to index the letter in the alphabet
lowerCamelCase_ =(alphabet_letters.index(letter.lower() ) - shift) % len(
__snake_case )
decrypted_with_shift += (
alphabet_letters[new_key].upper()
if case_sensitive and letter.isupper()
else alphabet_letters[new_key]
)
except ValueError:
# Append the character if it isn't in the alphabet
decrypted_with_shift += letter
lowerCamelCase_ =0.0
# Loop through each letter in the decoded message with the shift
for letter in decrypted_with_shift:
if case_sensitive:
lowerCamelCase_ =letter.lower()
if letter in frequencies:
# Get the amount of times the letter occurs in the message
lowerCamelCase_ =decrypted_with_shift.lower().count(__snake_case )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
lowerCamelCase_ =frequencies[letter] * occurrences
# Complete the chi squared statistic formula
lowerCamelCase_ =((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
else:
if letter.lower() in frequencies:
# Get the amount of times the letter occurs in the message
lowerCamelCase_ =decrypted_with_shift.count(__snake_case )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
lowerCamelCase_ =frequencies[letter] * occurrences
# Complete the chi squared statistic formula
lowerCamelCase_ =((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
# Add the data to the chi_squared_statistic_values dictionary
lowerCamelCase_ =(
chi_squared_statistic,
decrypted_with_shift,
)
# Get the most likely cipher by finding the cipher with the smallest chi squared
# statistic
def chi_squared_statistic_values_sorting_key(__snake_case : int ) -> tuple[float, str]:
return chi_squared_statistic_values[key]
lowerCamelCase_ =min(
__snake_case , key=__snake_case , )
# Get all the data from the most likely cipher (key, decoded message)
(
(
lowerCamelCase_
), (
lowerCamelCase_
),
) =chi_squared_statistic_values[most_likely_cipher]
# Return the data on the most likely shift
return (
most_likely_cipher,
most_likely_cipher_chi_squared_value,
decoded_most_likely_cipher,
)
| 75 | 0 |
import requests
from bsa import BeautifulSoup
def _lowercase ( lowercase__ = "AAPL" ):
__lowerCAmelCase : str = f"""https://in.finance.yahoo.com/quote/{symbol}?s={symbol}"""
__lowerCAmelCase : int = BeautifulSoup(requests.get(__snake_case ).text , '''html.parser''' )
__lowerCAmelCase : Union[str, Any] = '''My(6px) Pos(r) smartphone_Mt(6px)'''
return soup.find('''div''' , class_=class_ ).find('''span''' ).text
if __name__ == "__main__":
for symbol in "AAPL AMZN IBM GOOG MSFT ORCL".split():
print(F"Current {symbol:<4} stock price is {stock_price(symbol):>8}")
| 275 |
'''simple docstring'''
import importlib
import inspect
import json
import os
import re
import shutil
import sys
from pathlib import Path
from typing import Dict, Optional, Union
from urllib import request
from huggingface_hub import HfFolder, cached_download, hf_hub_download, model_info
from packaging import version
from .. import __version__
from . import DIFFUSERS_DYNAMIC_MODULE_NAME, HF_MODULES_CACHE, logging
a_ : List[Any] = (
"""https://raw.githubusercontent.com/huggingface/diffusers/{revision}/examples/community/{pipeline}.py"""
)
a_ : Union[str, Any] = logging.get_logger(__name__) # pylint: disable=invalid-name
def a_ ( ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ ='''https://pypi.org/pypi/diffusers/json'''
lowerCamelCase_ =json.loads(request.urlopen(__snake_case ).read() )['''releases'''].keys()
return sorted(__snake_case , key=lambda __snake_case : version.Version(__snake_case ) )
def a_ ( ) -> str:
"""simple docstring"""
# This function has already been executed if HF_MODULES_CACHE already is in the Python path.
if HF_MODULES_CACHE in sys.path:
return
sys.path.append(__snake_case )
os.makedirs(__snake_case , exist_ok=__snake_case )
lowerCamelCase_ =Path(__snake_case ) / '''__init__.py'''
if not init_path.exists():
init_path.touch()
def a_ ( __snake_case : Union[str, os.PathLike] ) -> List[str]:
"""simple docstring"""
init_hf_modules()
lowerCamelCase_ =Path(__snake_case ) / name
# If the parent module does not exist yet, recursively create it.
if not dynamic_module_path.parent.exists():
create_dynamic_module(dynamic_module_path.parent )
os.makedirs(__snake_case , exist_ok=__snake_case )
lowerCamelCase_ =dynamic_module_path / '''__init__.py'''
if not init_path.exists():
init_path.touch()
def a_ ( __snake_case : Tuple ) -> List[str]:
"""simple docstring"""
with open(__snake_case , '''r''' , encoding='''utf-8''' ) as f:
lowerCamelCase_ =f.read()
# Imports of the form `import .xxx`
lowerCamelCase_ =re.findall('''^\s*import\s+\.(\S+)\s*$''' , __snake_case , flags=re.MULTILINE )
# Imports of the form `from .xxx import yyy`
relative_imports += re.findall('''^\s*from\s+\.(\S+)\s+import''' , __snake_case , flags=re.MULTILINE )
# Unique-ify
return list(set(__snake_case ) )
def a_ ( __snake_case : str ) -> str:
"""simple docstring"""
lowerCamelCase_ =False
lowerCamelCase_ =[module_file]
lowerCamelCase_ =[]
# Let's recurse through all relative imports
while not no_change:
lowerCamelCase_ =[]
for f in files_to_check:
new_imports.extend(get_relative_imports(__snake_case ) )
lowerCamelCase_ =Path(__snake_case ).parent
lowerCamelCase_ =[str(module_path / m ) for m in new_imports]
lowerCamelCase_ =[f for f in new_import_files if f not in all_relative_imports]
lowerCamelCase_ =[F'''{f}.py''' for f in new_import_files]
lowerCamelCase_ =len(__snake_case ) == 0
all_relative_imports.extend(__snake_case )
return all_relative_imports
def a_ ( __snake_case : Union[str, Any] ) -> Optional[int]:
"""simple docstring"""
with open(__snake_case , '''r''' , encoding='''utf-8''' ) as f:
lowerCamelCase_ =f.read()
# Imports of the form `import xxx`
lowerCamelCase_ =re.findall('''^\s*import\s+(\S+)\s*$''' , __snake_case , flags=re.MULTILINE )
# Imports of the form `from xxx import yyy`
imports += re.findall('''^\s*from\s+(\S+)\s+import''' , __snake_case , flags=re.MULTILINE )
# Only keep the top-level module
lowerCamelCase_ =[imp.split('''.''' )[0] for imp in imports if not imp.startswith('''.''' )]
# Unique-ify and test we got them all
lowerCamelCase_ =list(set(__snake_case ) )
lowerCamelCase_ =[]
for imp in imports:
try:
importlib.import_module(__snake_case )
except ImportError:
missing_packages.append(__snake_case )
if len(__snake_case ) > 0:
raise ImportError(
'''This modeling file requires the following packages that were not found in your environment: '''
F'''{', '.join(__snake_case )}. Run `pip install {' '.join(__snake_case )}`''' )
return get_relative_imports(__snake_case )
def a_ ( __snake_case : Tuple , __snake_case : Tuple ) -> List[Any]:
"""simple docstring"""
lowerCamelCase_ =module_path.replace(os.path.sep , '''.''' )
lowerCamelCase_ =importlib.import_module(__snake_case )
if class_name is None:
return find_pipeline_class(__snake_case )
return getattr(__snake_case , __snake_case )
def a_ ( __snake_case : Dict ) -> Any:
"""simple docstring"""
from ..pipelines import DiffusionPipeline
lowerCamelCase_ =dict(inspect.getmembers(__snake_case , inspect.isclass ) )
lowerCamelCase_ =None
for cls_name, cls in cls_members.items():
if (
cls_name != DiffusionPipeline.__name__
and issubclass(cls , __snake_case )
and cls.__module__.split('''.''' )[0] != "diffusers"
):
if pipeline_class is not None:
raise ValueError(
F'''Multiple classes that inherit from {DiffusionPipeline.__name__} have been found:'''
F''' {pipeline_class.__name__}, and {cls_name}. Please make sure to define only one in'''
F''' {loaded_module}.''' )
lowerCamelCase_ =cls
return pipeline_class
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : str , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =str(__snake_case )
lowerCamelCase_ =os.path.join(__snake_case , __snake_case )
if os.path.isfile(__snake_case ):
lowerCamelCase_ =module_file_or_url
lowerCamelCase_ ='''local'''
elif pretrained_model_name_or_path.count('''/''' ) == 0:
lowerCamelCase_ =get_diffusers_versions()
# cut ".dev0"
lowerCamelCase_ ='''v''' + '''.'''.join(__version__.split('''.''' )[:3] )
# retrieve github version that matches
if revision is None:
lowerCamelCase_ =latest_version if latest_version[1:] in available_versions else '''main'''
logger.info(F'''Defaulting to latest_version: {revision}.''' )
elif revision in available_versions:
lowerCamelCase_ =F'''v{revision}'''
elif revision == "main":
lowerCamelCase_ =revision
else:
raise ValueError(
F'''`custom_revision`: {revision} does not exist. Please make sure to choose one of'''
F''' {', '.join(available_versions + ['main'] )}.''' )
# community pipeline on GitHub
lowerCamelCase_ =COMMUNITY_PIPELINES_URL.format(revision=__snake_case , pipeline=__snake_case )
try:
lowerCamelCase_ =cached_download(
__snake_case , cache_dir=__snake_case , force_download=__snake_case , proxies=__snake_case , resume_download=__snake_case , local_files_only=__snake_case , use_auth_token=__snake_case , )
lowerCamelCase_ ='''git'''
lowerCamelCase_ =pretrained_model_name_or_path + '''.py'''
except EnvironmentError:
logger.error(F'''Could not locate the {module_file} inside {pretrained_model_name_or_path}.''' )
raise
else:
try:
# Load from URL or cache if already cached
lowerCamelCase_ =hf_hub_download(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , proxies=__snake_case , resume_download=__snake_case , local_files_only=__snake_case , use_auth_token=__snake_case , )
lowerCamelCase_ =os.path.join('''local''' , '''--'''.join(pretrained_model_name_or_path.split('''/''' ) ) )
except EnvironmentError:
logger.error(F'''Could not locate the {module_file} inside {pretrained_model_name_or_path}.''' )
raise
# Check we have all the requirements in our environment
lowerCamelCase_ =check_imports(__snake_case )
# Now we move the module inside our cached dynamic modules.
lowerCamelCase_ =DIFFUSERS_DYNAMIC_MODULE_NAME + os.path.sep + submodule
create_dynamic_module(__snake_case )
lowerCamelCase_ =Path(__snake_case ) / full_submodule
if submodule == "local" or submodule == "git":
# We always copy local files (we could hash the file to see if there was a change, and give them the name of
# that hash, to only copy when there is a modification but it seems overkill for now).
# The only reason we do the copy is to avoid putting too many folders in sys.path.
shutil.copy(__snake_case , submodule_path / module_file )
for module_needed in modules_needed:
lowerCamelCase_ =F'''{module_needed}.py'''
shutil.copy(os.path.join(__snake_case , __snake_case ) , submodule_path / module_needed )
else:
# Get the commit hash
# TODO: we will get this info in the etag soon, so retrieve it from there and not here.
if isinstance(__snake_case , __snake_case ):
lowerCamelCase_ =use_auth_token
elif use_auth_token is True:
lowerCamelCase_ =HfFolder.get_token()
else:
lowerCamelCase_ =None
lowerCamelCase_ =model_info(__snake_case , revision=__snake_case , token=__snake_case ).sha
# The module file will end up being placed in a subfolder with the git hash of the repo. This way we get the
# benefit of versioning.
lowerCamelCase_ =submodule_path / commit_hash
lowerCamelCase_ =full_submodule + os.path.sep + commit_hash
create_dynamic_module(__snake_case )
if not (submodule_path / module_file).exists():
shutil.copy(__snake_case , submodule_path / module_file )
# Make sure we also have every file with relative
for module_needed in modules_needed:
if not (submodule_path / module_needed).exists():
get_cached_module_file(
__snake_case , F'''{module_needed}.py''' , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
return os.path.join(__snake_case , __snake_case )
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : str , __snake_case : Optional[str] = None , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , **__snake_case : Optional[int] , ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =get_cached_module_file(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
return get_class_in_module(__snake_case , final_module.replace('''.py''' , '''''' ) )
| 75 | 0 |
def _a ( UpperCamelCase_ : int = 4_000_000 ) -> int:
"""simple docstring"""
lowerCAmelCase__ = []
lowerCAmelCase__ , lowerCAmelCase__ = 0, 1
while b <= n:
if b % 2 == 0:
even_fibs.append(__snake_case )
lowerCAmelCase__ , lowerCAmelCase__ = b, a + b
return sum(__snake_case )
if __name__ == "__main__":
print(F"{solution() = }")
| 340 |
'''simple docstring'''
a_ : Any = [
9_99,
8_00,
7_99,
6_00,
5_99,
5_00,
4_00,
3_99,
3_77,
3_55,
3_33,
3_11,
2_88,
2_66,
2_44,
2_22,
2_00,
1_99,
1_77,
1_55,
1_33,
1_11,
88,
66,
44,
22,
0,
]
a_ : Any = [
9_99,
9_76,
9_52,
9_28,
9_05,
8_82,
8_58,
8_57,
8_10,
7_62,
7_15,
7_14,
5_72,
4_29,
4_28,
2_86,
2_85,
2_38,
1_90,
1_43,
1_42,
1_18,
95,
71,
47,
24,
0,
]
a_ : Optional[Any] = [
9_99,
9_88,
9_77,
9_66,
9_55,
9_44,
9_33,
9_22,
9_11,
9_00,
8_99,
8_79,
8_59,
8_40,
8_20,
8_00,
7_99,
7_66,
7_33,
7_00,
6_99,
6_50,
6_00,
5_99,
5_00,
4_99,
4_00,
3_99,
3_50,
3_00,
2_99,
2_66,
2_33,
2_00,
1_99,
1_79,
1_59,
1_40,
1_20,
1_00,
99,
88,
77,
66,
55,
44,
33,
22,
11,
0,
]
a_ : str = [
9_99,
9_95,
9_92,
9_89,
9_85,
9_81,
9_78,
9_75,
9_71,
9_67,
9_64,
9_61,
9_57,
9_56,
9_51,
9_47,
9_42,
9_37,
9_33,
9_28,
9_23,
9_19,
9_14,
9_13,
9_08,
9_03,
8_97,
8_92,
8_87,
8_81,
8_76,
8_71,
8_70,
8_64,
8_58,
8_52,
8_46,
8_40,
8_34,
8_28,
8_27,
8_20,
8_13,
8_06,
7_99,
7_92,
7_85,
7_84,
7_77,
7_70,
7_63,
7_56,
7_49,
7_42,
7_41,
7_33,
7_24,
7_16,
7_07,
6_99,
6_98,
6_88,
6_77,
6_66,
6_56,
6_55,
6_45,
6_34,
6_23,
6_13,
6_12,
5_98,
5_84,
5_70,
5_69,
5_55,
5_41,
5_27,
5_26,
5_05,
4_84,
4_83,
4_62,
4_40,
4_39,
3_96,
3_95,
3_52,
3_51,
3_08,
3_07,
2_64,
2_63,
2_20,
2_19,
1_76,
1_32,
88,
44,
0,
]
a_ : Optional[int] = [
9_99,
9_97,
9_95,
9_92,
9_90,
9_88,
9_86,
9_84,
9_81,
9_79,
9_77,
9_75,
9_72,
9_70,
9_68,
9_66,
9_64,
9_61,
9_59,
9_57,
9_56,
9_54,
9_51,
9_49,
9_46,
9_44,
9_41,
9_39,
9_36,
9_34,
9_31,
9_29,
9_26,
9_24,
9_21,
9_19,
9_16,
9_14,
9_13,
9_10,
9_07,
9_05,
9_02,
8_99,
8_96,
8_93,
8_91,
8_88,
8_85,
8_82,
8_79,
8_77,
8_74,
8_71,
8_70,
8_67,
8_64,
8_61,
8_58,
8_55,
8_52,
8_49,
8_46,
8_43,
8_40,
8_37,
8_34,
8_31,
8_28,
8_27,
8_24,
8_21,
8_17,
8_14,
8_11,
8_08,
8_04,
8_01,
7_98,
7_95,
7_91,
7_88,
7_85,
7_84,
7_80,
7_77,
7_74,
7_70,
7_66,
7_63,
7_60,
7_56,
7_52,
7_49,
7_46,
7_42,
7_41,
7_37,
7_33,
7_30,
7_26,
7_22,
7_18,
7_14,
7_10,
7_07,
7_03,
6_99,
6_98,
6_94,
6_90,
6_85,
6_81,
6_77,
6_73,
6_69,
6_64,
6_60,
6_56,
6_55,
6_50,
6_46,
6_41,
6_36,
6_32,
6_27,
6_22,
6_18,
6_13,
6_12,
6_07,
6_02,
5_96,
5_91,
5_86,
5_80,
5_75,
5_70,
5_69,
5_63,
5_57,
5_51,
5_45,
5_39,
5_33,
5_27,
5_26,
5_19,
5_12,
5_05,
4_98,
4_91,
4_84,
4_83,
4_74,
4_66,
4_57,
4_49,
4_40,
4_39,
4_28,
4_18,
4_07,
3_96,
3_95,
3_81,
3_66,
3_52,
3_51,
3_30,
3_08,
3_07,
2_86,
2_64,
2_63,
2_42,
2_20,
2_19,
1_76,
1_75,
1_32,
1_31,
88,
44,
0,
]
a_ : Dict = [
9_99,
9_91,
9_82,
9_74,
9_66,
9_58,
9_50,
9_41,
9_33,
9_25,
9_16,
9_08,
9_00,
8_99,
8_74,
8_50,
8_25,
8_00,
7_99,
7_00,
6_00,
5_00,
4_00,
3_00,
2_00,
1_00,
0,
]
a_ : Tuple = [
9_99,
9_92,
9_85,
9_78,
9_71,
9_64,
9_57,
9_49,
9_42,
9_35,
9_28,
9_21,
9_14,
9_07,
9_00,
8_99,
8_79,
8_59,
8_40,
8_20,
8_00,
7_99,
7_66,
7_33,
7_00,
6_99,
6_50,
6_00,
5_99,
5_00,
4_99,
4_00,
3_99,
3_00,
2_99,
2_00,
1_99,
1_00,
99,
0,
]
a_ : Any = [
9_99,
9_96,
9_92,
9_89,
9_85,
9_82,
9_79,
9_75,
9_72,
9_68,
9_65,
9_61,
9_58,
9_55,
9_51,
9_48,
9_44,
9_41,
9_38,
9_34,
9_31,
9_27,
9_24,
9_20,
9_17,
9_14,
9_10,
9_07,
9_03,
9_00,
8_99,
8_91,
8_84,
8_76,
8_69,
8_61,
8_53,
8_46,
8_38,
8_30,
8_23,
8_15,
8_08,
8_00,
7_99,
7_88,
7_77,
7_66,
7_55,
7_44,
7_33,
7_22,
7_11,
7_00,
6_99,
6_88,
6_77,
6_66,
6_55,
6_44,
6_33,
6_22,
6_11,
6_00,
5_99,
5_85,
5_71,
5_57,
5_42,
5_28,
5_14,
5_00,
4_99,
4_85,
4_71,
4_57,
4_42,
4_28,
4_14,
4_00,
3_99,
3_79,
3_59,
3_40,
3_20,
3_00,
2_99,
2_79,
2_59,
2_40,
2_20,
2_00,
1_99,
1_66,
1_33,
1_00,
99,
66,
33,
0,
]
| 75 | 0 |
'''simple docstring'''
import json
import os
from typing import Dict, List, Optional, Tuple
import regex as re
from ...tokenization_utils import PreTrainedTokenizer
from ...utils import logging
A__ : Optional[int] =logging.get_logger(__name__)
A__ : Optional[int] ={
"""vocab_file""": """vocab.json""",
"""merges_file""": """merges.txt""",
"""tokenizer_config_file""": """tokenizer_config.json""",
}
A__ : List[Any] ={
"""vocab_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/vocab.json"""
},
"""merges_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/merges.txt"""
},
"""tokenizer_config_file""": {
"""facebook/blenderbot_small-90M""": (
"""https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/tokenizer_config.json"""
)
},
}
A__ : Optional[int] ={"""facebook/blenderbot_small-90M""": 5_12}
def UpperCamelCase__ ( lowerCAmelCase ):
"""simple docstring"""
_lowerCAmelCase = set()
_lowerCAmelCase = word[0]
for char in word[1:]:
pairs.add((prev_char, char) )
_lowerCAmelCase = char
_lowerCAmelCase = set(__snake_case )
return pairs
class UpperCAmelCase ( lowerCamelCase__ ):
_lowercase: Optional[int] = VOCAB_FILES_NAMES
_lowercase: Tuple = PRETRAINED_VOCAB_FILES_MAP
_lowercase: Tuple = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
_lowercase: Dict = ['input_ids', 'attention_mask']
def __init__( self : Optional[int] , __snake_case : List[Any] , __snake_case : int , __snake_case : Tuple="__start__" , __snake_case : int="__end__" , __snake_case : Optional[Any]="__unk__" , __snake_case : Optional[int]="__null__" , **__snake_case : Tuple , ) -> List[Any]:
super().__init__(unk_token=__snake_case , bos_token=__snake_case , eos_token=__snake_case , pad_token=__snake_case , **__snake_case )
with open(__snake_case , encoding="""utf-8""" ) as vocab_handle:
_lowerCAmelCase = json.load(__snake_case )
_lowerCAmelCase = {v: k for k, v in self.encoder.items()}
with open(__snake_case , encoding="""utf-8""" ) as merges_handle:
_lowerCAmelCase = merges_handle.read().split("""\n""" )[1:-1]
_lowerCAmelCase = [tuple(merge.split() ) for merge in merges]
_lowerCAmelCase = dict(zip(__snake_case , range(len(__snake_case ) ) ) )
_lowerCAmelCase = {}
@property
def lowercase__ ( self : int ) -> List[Any]:
return len(self.encoder )
def lowercase__ ( self : Optional[int] ) -> str:
return dict(self.encoder , **self.added_tokens_encoder )
def lowercase__ ( self : Union[str, Any] , __snake_case : List[str] ) -> Optional[Any]:
if token in self.cache:
return self.cache[token]
_lowerCAmelCase = re.sub("""([.,!?()])""" , R""" \1""" , __snake_case )
_lowerCAmelCase = re.sub("""(\')""" , R""" \1 """ , __snake_case )
_lowerCAmelCase = re.sub(R"""\s{2,}""" , """ """ , __snake_case )
if "\n" in token:
_lowerCAmelCase = token.replace("""\n""" , """ __newln__""" )
_lowerCAmelCase = token.split(""" """ )
_lowerCAmelCase = []
for token in tokens:
if not len(__snake_case ):
continue
_lowerCAmelCase = token.lower()
_lowerCAmelCase = tuple(__snake_case )
_lowerCAmelCase = tuple(list(word[:-1] ) + [word[-1] + """</w>"""] )
_lowerCAmelCase = get_pairs(__snake_case )
if not pairs:
words.append(__snake_case )
continue
while True:
_lowerCAmelCase = 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 = bigram
_lowerCAmelCase = []
_lowerCAmelCase = 0
while i < len(__snake_case ):
try:
_lowerCAmelCase = word.index(__snake_case , __snake_case )
new_word.extend(word[i:j] )
_lowerCAmelCase = j
except ValueError:
new_word.extend(word[i:] )
break
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 = tuple(__snake_case )
_lowerCAmelCase = new_word
if len(__snake_case ) == 1:
break
else:
_lowerCAmelCase = get_pairs(__snake_case )
_lowerCAmelCase = """@@ """.join(__snake_case )
_lowerCAmelCase = word[:-4]
_lowerCAmelCase = word
words.append(__snake_case )
return " ".join(__snake_case )
def lowercase__ ( self : Any , __snake_case : int ) -> Union[str, Any]:
_lowerCAmelCase = []
_lowerCAmelCase = re.findall(R"""\S+\n?""" , __snake_case )
for token in words:
split_tokens.extend(list(self.bpe(__snake_case ).split(""" """ ) ) )
return split_tokens
def lowercase__ ( self : Dict , __snake_case : Dict ) -> List[str]:
_lowerCAmelCase = token.lower()
return self.encoder.get(__snake_case , self.encoder.get(self.unk_token ) )
def lowercase__ ( self : Union[str, Any] , __snake_case : List[str] ) -> int:
return self.decoder.get(__snake_case , self.unk_token )
def lowercase__ ( self : Any , __snake_case : str ) -> Union[str, Any]:
_lowerCAmelCase = """ """.join(__snake_case ).replace("""@@ """ , """""" ).strip()
return out_string
def lowercase__ ( self : Tuple , __snake_case : List[Any] , __snake_case : Optional[Any] = None ) -> 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"""] )
_lowerCAmelCase = 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 = 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 = token_index
writer.write(""" """.join(__snake_case ) + """\n""" )
index += 1
return vocab_file, merge_file
| 70 |
'''simple docstring'''
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
a_ : Union[str, Any] = {
"""configuration_funnel""": ["""FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP""", """FunnelConfig"""],
"""convert_funnel_original_tf_checkpoint_to_pytorch""": [],
"""tokenization_funnel""": ["""FunnelTokenizer"""],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : List[str] = ["""FunnelTokenizerFast"""]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : Optional[int] = [
"""FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""FunnelBaseModel""",
"""FunnelForMaskedLM""",
"""FunnelForMultipleChoice""",
"""FunnelForPreTraining""",
"""FunnelForQuestionAnswering""",
"""FunnelForSequenceClassification""",
"""FunnelForTokenClassification""",
"""FunnelModel""",
"""FunnelPreTrainedModel""",
"""load_tf_weights_in_funnel""",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
a_ : Optional[Any] = [
"""TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""TFFunnelBaseModel""",
"""TFFunnelForMaskedLM""",
"""TFFunnelForMultipleChoice""",
"""TFFunnelForPreTraining""",
"""TFFunnelForQuestionAnswering""",
"""TFFunnelForSequenceClassification""",
"""TFFunnelForTokenClassification""",
"""TFFunnelModel""",
"""TFFunnelPreTrainedModel""",
]
if TYPE_CHECKING:
from .configuration_funnel import FUNNEL_PRETRAINED_CONFIG_ARCHIVE_MAP, FunnelConfig
from .tokenization_funnel import FunnelTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_funnel_fast import FunnelTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_funnel import (
FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST,
FunnelBaseModel,
FunnelForMaskedLM,
FunnelForMultipleChoice,
FunnelForPreTraining,
FunnelForQuestionAnswering,
FunnelForSequenceClassification,
FunnelForTokenClassification,
FunnelModel,
FunnelPreTrainedModel,
load_tf_weights_in_funnel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_funnel import (
TF_FUNNEL_PRETRAINED_MODEL_ARCHIVE_LIST,
TFFunnelBaseModel,
TFFunnelForMaskedLM,
TFFunnelForMultipleChoice,
TFFunnelForPreTraining,
TFFunnelForQuestionAnswering,
TFFunnelForSequenceClassification,
TFFunnelForTokenClassification,
TFFunnelModel,
TFFunnelPreTrainedModel,
)
else:
import sys
a_ : str = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)
| 75 | 0 |
"""simple docstring"""
import shutil
import tempfile
import unittest
from unittest.mock import patch
from transformers import (
DefaultFlowCallback,
IntervalStrategy,
PrinterCallback,
ProgressCallback,
Trainer,
TrainerCallback,
TrainingArguments,
is_torch_available,
)
from transformers.testing_utils import require_torch
if is_torch_available():
from transformers.trainer import DEFAULT_CALLBACKS
from .test_trainer import RegressionDataset, RegressionModelConfig, RegressionPreTrainedModel
class __magic_name__ ( lowerCamelCase__ ):
'''simple docstring'''
def __init__( self ):
"""simple docstring"""
lowerCamelCase = []
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_init_end""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_train_begin""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_train_end""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_epoch_begin""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_epoch_end""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_step_begin""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_step_end""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_evaluate""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_predict""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_save""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_log""" )
def _lowerCAmelCase ( self , _a , _a , _a , **_a ):
"""simple docstring"""
self.events.append("""on_prediction_step""" )
@require_torch
class __magic_name__ ( unittest.TestCase ):
'''simple docstring'''
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = tempfile.mkdtemp()
def _lowerCAmelCase ( self ):
"""simple docstring"""
shutil.rmtree(self.output_dir )
def _lowerCAmelCase ( self , _a=0 , _a=0 , _a=64 , _a=64 , _a=None , _a=False , **_a ):
"""simple docstring"""
lowerCamelCase = RegressionDataset(length=_a )
lowerCamelCase = RegressionDataset(length=_a )
lowerCamelCase = RegressionModelConfig(a=_a , b=_a )
lowerCamelCase = RegressionPreTrainedModel(_a )
lowerCamelCase = TrainingArguments(self.output_dir , disable_tqdm=_a , report_to=[] , **_a )
return Trainer(
_a , _a , train_dataset=_a , eval_dataset=_a , callbacks=_a , )
def _lowerCAmelCase ( self , _a , _a ):
"""simple docstring"""
self.assertEqual(len(_a ) , len(_a ) )
# Order doesn't matter
lowerCamelCase = sorted(_a , key=lambda _a : cb.__name__ if isinstance(_a , _a ) else cb.__class__.__name__ )
lowerCamelCase = sorted(_a , key=lambda _a : cb.__name__ if isinstance(_a , _a ) else cb.__class__.__name__ )
for cba, cba in zip(_a , _a ):
if isinstance(_a , _a ) and isinstance(_a , _a ):
self.assertEqual(_a , _a )
elif isinstance(_a , _a ) and not isinstance(_a , _a ):
self.assertEqual(_a , cba.__class__ )
elif not isinstance(_a , _a ) and isinstance(_a , _a ):
self.assertEqual(cba.__class__ , _a )
else:
self.assertEqual(_a , _a )
def _lowerCAmelCase ( self , _a ):
"""simple docstring"""
lowerCamelCase = ["""on_init_end""", """on_train_begin"""]
lowerCamelCase = 0
lowerCamelCase = len(trainer.get_eval_dataloader() )
lowerCamelCase = ["""on_prediction_step"""] * len(trainer.get_eval_dataloader() ) + ["""on_log""", """on_evaluate"""]
for _ in range(trainer.state.num_train_epochs ):
expected_events.append("""on_epoch_begin""" )
for _ in range(_a ):
step += 1
expected_events += ["on_step_begin", "on_step_end"]
if step % trainer.args.logging_steps == 0:
expected_events.append("""on_log""" )
if trainer.args.evaluation_strategy == IntervalStrategy.STEPS and step % trainer.args.eval_steps == 0:
expected_events += evaluation_events.copy()
if step % trainer.args.save_steps == 0:
expected_events.append("""on_save""" )
expected_events.append("""on_epoch_end""" )
if trainer.args.evaluation_strategy == IntervalStrategy.EPOCH:
expected_events += evaluation_events.copy()
expected_events += ["on_log", "on_train_end"]
return expected_events
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = self.get_trainer()
lowerCamelCase = DEFAULT_CALLBACKS.copy() + [ProgressCallback]
self.check_callbacks_equality(trainer.callback_handler.callbacks , _a )
# Callbacks passed at init are added to the default callbacks
lowerCamelCase = self.get_trainer(callbacks=[MyTestTrainerCallback] )
expected_callbacks.append(_a )
self.check_callbacks_equality(trainer.callback_handler.callbacks , _a )
# TrainingArguments.disable_tqdm controls if use ProgressCallback or PrinterCallback
lowerCamelCase = self.get_trainer(disable_tqdm=_a )
lowerCamelCase = DEFAULT_CALLBACKS.copy() + [PrinterCallback]
self.check_callbacks_equality(trainer.callback_handler.callbacks , _a )
def _lowerCAmelCase ( self ):
"""simple docstring"""
lowerCamelCase = DEFAULT_CALLBACKS.copy() + [ProgressCallback]
lowerCamelCase = self.get_trainer()
# We can add, pop, or remove by class name
trainer.remove_callback(_a )
expected_callbacks.remove(_a )
self.check_callbacks_equality(trainer.callback_handler.callbacks , _a )
lowerCamelCase = self.get_trainer()
lowerCamelCase = trainer.pop_callback(_a )
self.assertEqual(cb.__class__ , _a )
self.check_callbacks_equality(trainer.callback_handler.callbacks , _a )
trainer.add_callback(_a )
expected_callbacks.insert(0 , _a )
self.check_callbacks_equality(trainer.callback_handler.callbacks , _a )
# We can also add, pop, or remove by instance
lowerCamelCase = self.get_trainer()
lowerCamelCase = trainer.callback_handler.callbacks[0]
trainer.remove_callback(_a )
expected_callbacks.remove(_a )
self.check_callbacks_equality(trainer.callback_handler.callbacks , _a )
lowerCamelCase = self.get_trainer()
lowerCamelCase = trainer.callback_handler.callbacks[0]
lowerCamelCase = trainer.pop_callback(_a )
self.assertEqual(_a , _a )
self.check_callbacks_equality(trainer.callback_handler.callbacks , _a )
trainer.add_callback(_a )
expected_callbacks.insert(0 , _a )
self.check_callbacks_equality(trainer.callback_handler.callbacks , _a )
def _lowerCAmelCase ( self ):
"""simple docstring"""
import warnings
# XXX: for now ignore scatter_gather warnings in this test since it's not relevant to what's being tested
warnings.simplefilter(action="""ignore""" , category=_a )
lowerCamelCase = self.get_trainer(callbacks=[MyTestTrainerCallback] )
trainer.train()
lowerCamelCase = trainer.callback_handler.callbacks[-2].events
self.assertEqual(_a , self.get_expected_events(_a ) )
# Independent log/save/eval
lowerCamelCase = self.get_trainer(callbacks=[MyTestTrainerCallback] , logging_steps=5 )
trainer.train()
lowerCamelCase = trainer.callback_handler.callbacks[-2].events
self.assertEqual(_a , self.get_expected_events(_a ) )
lowerCamelCase = self.get_trainer(callbacks=[MyTestTrainerCallback] , save_steps=5 )
trainer.train()
lowerCamelCase = trainer.callback_handler.callbacks[-2].events
self.assertEqual(_a , self.get_expected_events(_a ) )
lowerCamelCase = self.get_trainer(callbacks=[MyTestTrainerCallback] , eval_steps=5 , evaluation_strategy="""steps""" )
trainer.train()
lowerCamelCase = trainer.callback_handler.callbacks[-2].events
self.assertEqual(_a , self.get_expected_events(_a ) )
lowerCamelCase = self.get_trainer(callbacks=[MyTestTrainerCallback] , evaluation_strategy="""epoch""" )
trainer.train()
lowerCamelCase = trainer.callback_handler.callbacks[-2].events
self.assertEqual(_a , self.get_expected_events(_a ) )
# A bit of everything
lowerCamelCase = self.get_trainer(
callbacks=[MyTestTrainerCallback] , logging_steps=3 , save_steps=10 , eval_steps=5 , evaluation_strategy="""steps""" , )
trainer.train()
lowerCamelCase = trainer.callback_handler.callbacks[-2].events
self.assertEqual(_a , self.get_expected_events(_a ) )
# warning should be emitted for duplicated callbacks
with patch("""transformers.trainer_callback.logger.warning""" ) as warn_mock:
lowerCamelCase = self.get_trainer(
callbacks=[MyTestTrainerCallback, MyTestTrainerCallback] , )
assert str(_a ) in warn_mock.call_args[0][0]
| 291 |
'''simple docstring'''
import json
import os
import shutil
import tempfile
import unittest
from multiprocessing import get_context
from pathlib import Path
import datasets
import numpy as np
from datasets import load_dataset
from parameterized import parameterized
from transformers import AutoProcessor
from transformers.models.wavaveca import WavaVecaCTCTokenizer, WavaVecaFeatureExtractor
from transformers.models.wavaveca.tokenization_wavaveca import VOCAB_FILES_NAMES
from transformers.testing_utils import require_pyctcdecode, require_torch, require_torchaudio, slow
from transformers.utils import FEATURE_EXTRACTOR_NAME, is_pyctcdecode_available, is_torch_available
from ..wavaveca.test_feature_extraction_wavaveca import floats_list
if is_pyctcdecode_available():
from huggingface_hub import snapshot_download
from pyctcdecode import BeamSearchDecoderCTC
from transformers.models.wavaveca_with_lm import WavaVecaProcessorWithLM
from transformers.models.wavaveca_with_lm.processing_wavaveca_with_lm import WavaVecaDecoderWithLMOutput
if is_torch_available():
from transformers import WavaVecaForCTC
@require_pyctcdecode
class __UpperCamelCase ( unittest.TestCase ):
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''| <pad> <unk> <s> </s> a b c d e f g h i j k'''.split()
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ ={
'''unk_token''': '''<unk>''',
'''bos_token''': '''<s>''',
'''eos_token''': '''</s>''',
}
lowerCamelCase_ ={
'''feature_size''': 1,
'''padding_value''': 0.0,
'''sampling_rate''': 16_000,
'''return_attention_mask''': False,
'''do_normalize''': True,
}
lowerCamelCase_ =tempfile.mkdtemp()
lowerCamelCase_ =os.path.join(self.tmpdirname, VOCAB_FILES_NAMES['''vocab_file'''] )
lowerCamelCase_ =os.path.join(self.tmpdirname, lowerCAmelCase )
with open(self.vocab_file, '''w''', encoding='''utf-8''' ) as fp:
fp.write(json.dumps(lowerCAmelCase ) + '''\n''' )
with open(self.feature_extraction_file, '''w''', encoding='''utf-8''' ) as fp:
fp.write(json.dumps(lowerCAmelCase ) + '''\n''' )
# load decoder from hub
lowerCamelCase_ ='''hf-internal-testing/ngram-beam-search-decoder'''
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =self.add_kwargs_tokens_map.copy()
kwargs.update(lowerCAmelCase )
return WavaVecaCTCTokenizer.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return WavaVecaFeatureExtractor.from_pretrained(self.tmpdirname, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
return BeamSearchDecoderCTC.load_from_hf_hub(self.decoder_name, **lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
shutil.rmtree(self.tmpdirname )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
processor.save_pretrained(self.tmpdirname )
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(self.tmpdirname )
# tokenizer
self.assertEqual(processor.tokenizer.get_vocab(), tokenizer.get_vocab() )
self.assertIsInstance(processor.tokenizer, lowerCAmelCase )
# feature extractor
self.assertEqual(processor.feature_extractor.to_json_string(), feature_extractor.to_json_string() )
self.assertIsInstance(processor.feature_extractor, lowerCAmelCase )
# decoder
self.assertEqual(processor.decoder._alphabet.labels, decoder._alphabet.labels )
self.assertEqual(
processor.decoder.model_container[decoder._model_key]._unigram_set, decoder.model_container[decoder._model_key]._unigram_set, )
self.assertIsInstance(processor.decoder, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM(
tokenizer=self.get_tokenizer(), feature_extractor=self.get_feature_extractor(), decoder=self.get_decoder() )
processor.save_pretrained(self.tmpdirname )
# make sure that error is thrown when decoder alphabet doesn't match
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(
self.tmpdirname, alpha=5.0, beta=3.0, score_boundary=-7.0, unk_score_offset=3 )
# decoder
self.assertEqual(processor.language_model.alpha, 5.0 )
self.assertEqual(processor.language_model.beta, 3.0 )
self.assertEqual(processor.language_model.score_boundary, -7.0 )
self.assertEqual(processor.language_model.unk_score_offset, 3 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_tokenizer()
# add token to trigger raise
tokenizer.add_tokens(['''xx'''] )
with self.assertRaisesRegex(lowerCAmelCase, '''include''' ):
WavaVecaProcessorWithLM(
tokenizer=lowerCAmelCase, feature_extractor=self.get_feature_extractor(), decoder=self.get_decoder() )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =floats_list((3, 1_000) )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' )
lowerCamelCase_ =processor(lowerCAmelCase, 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 lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ ='''This is a test string'''
lowerCamelCase_ =processor(text=lowerCAmelCase )
lowerCamelCase_ =tokenizer(lowerCAmelCase )
for key in encoded_tok.keys():
self.assertListEqual(encoded_tok[key], encoded_processor[key] )
def lowercase__ ( self, lowerCAmelCase=(2, 10, 16), lowerCAmelCase=77 ):
"""simple docstring"""
np.random.seed(lowerCAmelCase )
return np.random.rand(*lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits(shape=(10, 16), seed=13 )
lowerCamelCase_ =processor.decode(lowerCAmelCase )
lowerCamelCase_ =decoder.decode_beams(lowerCAmelCase )[0]
self.assertEqual(decoded_decoder[0], decoded_processor.text )
self.assertEqual('''</s> <s> </s>''', decoded_processor.text )
self.assertEqual(decoded_decoder[-2], decoded_processor.logit_score )
self.assertEqual(decoded_decoder[-1], decoded_processor.lm_score )
@parameterized.expand([[None], ['''fork'''], ['''spawn''']] )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
# note: pool should be instantiated *after* Wav2Vec2ProcessorWithLM.
# otherwise, the LM won't be available to the pool's sub-processes.
# manual logic used to allow parameterized test for both pool=None and pool=Pool(...)
if pool_context is None:
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase )
else:
with get_context(lowerCAmelCase ).Pool() as pool:
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase, lowerCAmelCase )
lowerCamelCase_ =list(lowerCAmelCase )
with get_context('''fork''' ).Pool() as p:
lowerCamelCase_ =decoder.decode_beams_batch(lowerCAmelCase, lowerCAmelCase )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =[], [], []
for beams in decoded_beams:
texts_decoder.append(beams[0][0] )
logit_scores_decoder.append(beams[0][-2] )
lm_scores_decoder.append(beams[0][-1] )
self.assertListEqual(lowerCAmelCase, decoded_processor.text )
self.assertListEqual(['''<s> <s> </s>''', '''<s> <s> <s>'''], decoded_processor.text )
self.assertListEqual(lowerCAmelCase, decoded_processor.logit_score )
self.assertListEqual(lowerCAmelCase, decoded_processor.lm_score )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =15
lowerCamelCase_ =-2_0.0
lowerCamelCase_ =-4.0
lowerCamelCase_ =processor.batch_decode(
lowerCAmelCase, beam_width=lowerCAmelCase, beam_prune_logp=lowerCAmelCase, token_min_logp=lowerCAmelCase, )
lowerCamelCase_ =decoded_processor_out.text
lowerCamelCase_ =list(lowerCAmelCase )
with get_context('''fork''' ).Pool() as pool:
lowerCamelCase_ =decoder.decode_beams_batch(
lowerCAmelCase, lowerCAmelCase, beam_width=lowerCAmelCase, beam_prune_logp=lowerCAmelCase, token_min_logp=lowerCAmelCase, )
lowerCamelCase_ =[d[0][0] for d in decoded_decoder_out]
lowerCamelCase_ =[d[0][2] for d in decoded_decoder_out]
lowerCamelCase_ =[d[0][3] for d in decoded_decoder_out]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(['''</s> <s> <s>''', '''<s> <s> <s>'''], lowerCAmelCase )
self.assertTrue(np.array_equal(lowerCAmelCase, decoded_processor_out.logit_score ) )
self.assertTrue(np.allclose([-2_0.0_5_4, -1_8.4_4_7], lowerCAmelCase, atol=1e-3 ) )
self.assertTrue(np.array_equal(lowerCAmelCase, decoded_processor_out.lm_score ) )
self.assertTrue(np.allclose([-1_5.5_5_4, -1_3.9_4_7_4], lowerCAmelCase, atol=1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =2.0
lowerCamelCase_ =5.0
lowerCamelCase_ =-2_0.0
lowerCamelCase_ =True
lowerCamelCase_ =processor.batch_decode(
lowerCAmelCase, alpha=lowerCAmelCase, beta=lowerCAmelCase, unk_score_offset=lowerCAmelCase, lm_score_boundary=lowerCAmelCase, )
lowerCamelCase_ =decoded_processor_out.text
lowerCamelCase_ =list(lowerCAmelCase )
decoder.reset_params(
alpha=lowerCAmelCase, beta=lowerCAmelCase, unk_score_offset=lowerCAmelCase, lm_score_boundary=lowerCAmelCase, )
with get_context('''fork''' ).Pool() as pool:
lowerCamelCase_ =decoder.decode_beams_batch(
lowerCAmelCase, lowerCAmelCase, )
lowerCamelCase_ =[d[0][0] for d in decoded_decoder_out]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(['''<s> </s> <s> </s> </s>''', '''</s> </s> <s> </s> </s>'''], lowerCAmelCase )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
self.assertEqual(lm_model.alpha, 2.0 )
self.assertEqual(lm_model.beta, 5.0 )
self.assertEqual(lm_model.unk_score_offset, -2_0.0 )
self.assertEqual(lm_model.score_boundary, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
lowerCamelCase_ =Path(language_model._kenlm_model.path.decode('''utf-8''' ) ).parent.parent.absolute()
lowerCamelCase_ =os.listdir(lowerCAmelCase )
lowerCamelCase_ =['''alphabet.json''', '''language_model''']
downloaded_decoder_files.sort()
expected_decoder_files.sort()
# test that only decoder relevant files from
# https://huggingface.co/hf-internal-testing/processor_with_lm/tree/main
# are downloaded and none of the rest (e.g. README.md, ...)
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =snapshot_download('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained(lowerCAmelCase )
lowerCamelCase_ =processor.decoder.model_container[processor.decoder._model_key]
lowerCamelCase_ =Path(language_model._kenlm_model.path.decode('''utf-8''' ) ).parent.parent.absolute()
lowerCamelCase_ =os.listdir(lowerCAmelCase )
lowerCamelCase_ =os.listdir(lowerCAmelCase )
local_decoder_files.sort()
expected_decoder_files.sort()
# test that both decoder form hub and local files in cache are the same
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =AutoProcessor.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =floats_list((3, 1_000) )
lowerCamelCase_ =processor_wavaveca(lowerCAmelCase, return_tensors='''np''' )
lowerCamelCase_ =processor_auto(lowerCAmelCase, return_tensors='''np''' )
for key in input_wavaveca.keys():
self.assertAlmostEqual(input_wavaveca[key].sum(), input_auto[key].sum(), delta=1e-2 )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =processor_wavaveca.batch_decode(lowerCAmelCase )
lowerCamelCase_ =processor_auto.batch_decode(lowerCAmelCase )
self.assertListEqual(decoded_wavaveca.text, decoded_auto.text )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_feature_extractor()
lowerCamelCase_ =self.get_tokenizer()
lowerCamelCase_ =self.get_decoder()
lowerCamelCase_ =WavaVecaProcessorWithLM(tokenizer=lowerCAmelCase, feature_extractor=lowerCAmelCase, decoder=lowerCAmelCase )
self.assertListEqual(
processor.model_input_names, feature_extractor.model_input_names, msg='''`processor` and `feature_extractor` model input names do not match''', )
@staticmethod
def lowercase__ ( lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =[d[key] for d in offsets]
return retrieved_list
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =self._get_dummy_logits()[0]
lowerCamelCase_ =processor.decode(lowerCAmelCase, output_word_offsets=lowerCAmelCase )
# check Wav2Vec2CTCTokenizerOutput keys for word
self.assertEqual(len(outputs.keys() ), 4 )
self.assertTrue('''text''' in outputs )
self.assertTrue('''word_offsets''' in outputs )
self.assertTrue(isinstance(lowerCAmelCase, lowerCAmelCase ) )
self.assertEqual(''' '''.join(self.get_from_offsets(outputs['''word_offsets'''], '''word''' ) ), outputs.text )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''word''' ), ['''<s>''', '''<s>''', '''</s>'''] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''start_offset''' ), [0, 2, 4] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''], '''end_offset''' ), [1, 3, 5] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =WavaVecaProcessorWithLM.from_pretrained('''hf-internal-testing/processor_with_lm''' )
lowerCamelCase_ =self._get_dummy_logits()
lowerCamelCase_ =processor.batch_decode(lowerCAmelCase, output_word_offsets=lowerCAmelCase )
# check Wav2Vec2CTCTokenizerOutput keys for word
self.assertEqual(len(outputs.keys() ), 4 )
self.assertTrue('''text''' in outputs )
self.assertTrue('''word_offsets''' in outputs )
self.assertTrue(isinstance(lowerCAmelCase, lowerCAmelCase ) )
self.assertListEqual(
[''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ) for o in outputs['''word_offsets''']], outputs.text )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''word''' ), ['''<s>''', '''<s>''', '''</s>'''] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''start_offset''' ), [0, 2, 4] )
self.assertListEqual(self.get_from_offsets(outputs['''word_offsets'''][0], '''end_offset''' ), [1, 3, 5] )
@slow
@require_torch
@require_torchaudio
def lowercase__ ( self ):
"""simple docstring"""
import torch
lowerCamelCase_ =load_dataset('''common_voice''', '''en''', split='''train''', streaming=lowerCAmelCase )
lowerCamelCase_ =ds.cast_column('''audio''', datasets.Audio(sampling_rate=16_000 ) )
lowerCamelCase_ =iter(lowerCAmelCase )
lowerCamelCase_ =next(lowerCAmelCase )
lowerCamelCase_ =AutoProcessor.from_pretrained('''patrickvonplaten/wav2vec2-base-100h-with-lm''' )
lowerCamelCase_ =WavaVecaForCTC.from_pretrained('''patrickvonplaten/wav2vec2-base-100h-with-lm''' )
# compare to filename `common_voice_en_100038.mp3` of dataset viewer on https://huggingface.co/datasets/common_voice/viewer/en/train
lowerCamelCase_ =processor(sample['''audio''']['''array'''], return_tensors='''pt''' ).input_values
with torch.no_grad():
lowerCamelCase_ =model(lowerCAmelCase ).logits.cpu().numpy()
lowerCamelCase_ =processor.decode(logits[0], output_word_offsets=lowerCAmelCase )
lowerCamelCase_ =model.config.inputs_to_logits_ratio / processor.feature_extractor.sampling_rate
lowerCamelCase_ =[
{
'''start_time''': d['''start_offset'''] * time_offset,
'''end_time''': d['''end_offset'''] * time_offset,
'''word''': d['''word'''],
}
for d in output['''word_offsets''']
]
lowerCamelCase_ ='''WHY DOES MILISANDRA LOOK LIKE SHE WANTS TO CONSUME JOHN SNOW ON THE RIVER AT THE WALL'''
# output words
self.assertEqual(''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ), lowerCAmelCase )
self.assertEqual(''' '''.join(self.get_from_offsets(lowerCAmelCase, '''word''' ) ), output.text )
# output times
lowerCamelCase_ =torch.tensor(self.get_from_offsets(lowerCAmelCase, '''start_time''' ) )
lowerCamelCase_ =torch.tensor(self.get_from_offsets(lowerCAmelCase, '''end_time''' ) )
# fmt: off
lowerCamelCase_ =torch.tensor([1.4_1_9_9, 1.6_5_9_9, 2.2_5_9_9, 3.0, 3.2_4, 3.5_9_9_9, 3.7_9_9_9, 4.0_9_9_9, 4.2_6, 4.9_4, 5.2_8, 5.6_5_9_9, 5.7_8, 5.9_4, 6.3_2, 6.5_3_9_9, 6.6_5_9_9] )
lowerCamelCase_ =torch.tensor([1.5_3_9_9, 1.8_9_9_9, 2.9, 3.1_6, 3.5_3_9_9, 3.7_2, 4.0_1_9_9, 4.1_7_9_9, 4.7_6, 5.1_5_9_9, 5.5_5_9_9, 5.6_9_9_9, 5.8_6, 6.1_9_9_9, 6.3_8, 6.6_1_9_9, 6.9_4] )
# fmt: on
self.assertTrue(torch.allclose(lowerCAmelCase, lowerCAmelCase, atol=0.0_1 ) )
self.assertTrue(torch.allclose(lowerCAmelCase, lowerCAmelCase, atol=0.0_1 ) )
| 75 | 0 |
"""simple docstring"""
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available
SCREAMING_SNAKE_CASE__ = {
"""configuration_clipseg""": [
"""CLIPSEG_PRETRAINED_CONFIG_ARCHIVE_MAP""",
"""CLIPSegConfig""",
"""CLIPSegTextConfig""",
"""CLIPSegVisionConfig""",
],
"""processing_clipseg""": ["""CLIPSegProcessor"""],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
SCREAMING_SNAKE_CASE__ = [
"""CLIPSEG_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""CLIPSegModel""",
"""CLIPSegPreTrainedModel""",
"""CLIPSegTextModel""",
"""CLIPSegVisionModel""",
"""CLIPSegForImageSegmentation""",
]
if TYPE_CHECKING:
from .configuration_clipseg import (
CLIPSEG_PRETRAINED_CONFIG_ARCHIVE_MAP,
CLIPSegConfig,
CLIPSegTextConfig,
CLIPSegVisionConfig,
)
from .processing_clipseg import CLIPSegProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_clipseg import (
CLIPSEG_PRETRAINED_MODEL_ARCHIVE_LIST,
CLIPSegForImageSegmentation,
CLIPSegModel,
CLIPSegPreTrainedModel,
CLIPSegTextModel,
CLIPSegVisionModel,
)
else:
import sys
SCREAMING_SNAKE_CASE__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 150 |
'''simple docstring'''
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
DDIMScheduler,
EulerAncestralDiscreteScheduler,
LMSDiscreteScheduler,
PNDMScheduler,
StableDiffusionInstructPixaPixPipeline,
UNetaDConditionModel,
)
from diffusers.image_processor import VaeImageProcessor
from diffusers.utils import floats_tensor, load_image, slow, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..pipeline_params import (
IMAGE_TO_IMAGE_IMAGE_PARAMS,
TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class __UpperCamelCase ( lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
lowercase : List[Any] =StableDiffusionInstructPixaPixPipeline
lowercase : List[Any] =TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'height', 'width', 'cross_attention_kwargs'}
lowercase : Optional[Any] =TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS
lowercase : Union[str, Any] =IMAGE_TO_IMAGE_IMAGE_PARAMS
lowercase : List[Any] =IMAGE_TO_IMAGE_IMAGE_PARAMS
def lowercase__ ( self ):
"""simple docstring"""
torch.manual_seed(0 )
lowerCamelCase_ =UNetaDConditionModel(
block_out_channels=(32, 64), layers_per_block=2, sample_size=32, in_channels=8, out_channels=4, down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D'''), up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D'''), cross_attention_dim=32, )
lowerCamelCase_ =PNDMScheduler(skip_prk_steps=lowerCAmelCase )
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-05, num_attention_heads=4, num_hidden_layers=5, pad_token_id=1, vocab_size=1_000, )
lowerCamelCase_ =CLIPTextModel(lowerCAmelCase )
lowerCamelCase_ =CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' )
lowerCamelCase_ ={
'''unet''': unet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase=0 ):
"""simple docstring"""
lowerCamelCase_ =floats_tensor((1, 3, 32, 32), rng=random.Random(lowerCAmelCase ) ).to(lowerCAmelCase )
lowerCamelCase_ =image.cpu().permute(0, 2, 3, 1 )[0]
lowerCamelCase_ =Image.fromarray(np.uinta(lowerCAmelCase ) ).convert('''RGB''' )
if str(lowerCAmelCase ).startswith('''mps''' ):
lowerCamelCase_ =torch.manual_seed(lowerCAmelCase )
else:
lowerCamelCase_ =torch.Generator(device=lowerCAmelCase ).manual_seed(lowerCAmelCase )
lowerCamelCase_ ={
'''prompt''': '''A painting of a squirrel eating a burger''',
'''image''': image,
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''image_guidance_scale''': 1,
'''output_type''': '''numpy''',
}
return inputs
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1]
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_5_2_6, 0.3_7_5_0, 0.4_5_4_7, 0.6_1_1_7, 0.5_8_6_6, 0.5_0_1_6, 0.4_3_2_7, 0.5_6_4_2, 0.4_8_1_5] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ ='''french fries'''
lowerCamelCase_ =sd_pipe(**lowerCAmelCase, negative_prompt=lowerCAmelCase )
lowerCamelCase_ =output.images
lowerCamelCase_ =image[0, -3:, -3:, -1]
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_5_1_1, 0.3_6_4_2, 0.4_5_5_3, 0.6_2_3_6, 0.5_7_9_7, 0.5_0_1_3, 0.4_3_4_3, 0.5_6_1_1, 0.4_8_3_1] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =[inputs['''prompt''']] * 2
lowerCamelCase_ =np.array(inputs['''image'''] ).astype(np.floataa ) / 2_5_5.0
lowerCamelCase_ =torch.from_numpy(lowerCAmelCase ).unsqueeze(0 ).to(lowerCAmelCase )
lowerCamelCase_ =image / 2 + 0.5
lowerCamelCase_ =image.permute(0, 3, 1, 2 )
lowerCamelCase_ =image.repeat(2, 1, 1, 1 )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[-1, -3:, -3:, -1]
assert image.shape == (2, 32, 32, 3)
lowerCamelCase_ =np.array([0.5_8_1_2, 0.5_7_4_8, 0.5_2_2_2, 0.5_9_0_8, 0.5_6_9_5, 0.7_1_7_4, 0.6_8_0_4, 0.5_5_2_3, 0.5_5_7_9] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''cpu''' # ensure determinism for the device-dependent torch.Generator
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =EulerAncestralDiscreteScheduler(
beta_start=0.0_0_0_8_5, beta_end=0.0_1_2, beta_schedule='''scaled_linear''' )
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =sd_pipe.to(lowerCAmelCase )
sd_pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =self.get_dummy_inputs(lowerCAmelCase )
lowerCamelCase_ =sd_pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1]
lowerCamelCase_ =[round(lowerCAmelCase, 4 ) for x in image_slice.flatten().tolist()]
print(''','''.join([str(lowerCAmelCase ) for x in slice] ) )
assert image.shape == (1, 32, 32, 3)
lowerCamelCase_ =np.array([0.7_4_1_7, 0.3_8_4_2, 0.4_7_3_2, 0.5_7_7_6, 0.5_8_9_1, 0.5_1_3_9, 0.4_0_5_2, 0.5_6_7_3, 0.4_9_8_6] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
super().test_inference_batch_single_identical(expected_max_diff=3e-3 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_dummy_components()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline(**lowerCAmelCase )
lowerCamelCase_ =VaeImageProcessor(do_resize=lowerCAmelCase, do_normalize=lowerCAmelCase )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
lowerCamelCase_ =pipe(**self.get_dummy_inputs_by_type(lowerCAmelCase, input_image_type='''pt''' ) )[0]
lowerCamelCase_ =components['''vae''']
lowerCamelCase_ =self.get_dummy_inputs_by_type(lowerCAmelCase, input_image_type='''pt''' )
for image_param in self.image_latents_params:
if image_param in inputs.keys():
lowerCamelCase_ =vae.encode(inputs[image_param] ).latent_dist.mode()
lowerCamelCase_ =pipe(**lowerCAmelCase )[0]
lowerCamelCase_ =np.abs(out - out_latents_inputs ).max()
self.assertLess(lowerCAmelCase, 1e-4, '''passing latents as image input generate different result from passing image''' )
@slow
@require_torch_gpu
class __UpperCamelCase ( unittest.TestCase ):
def lowercase__ ( self ):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowercase__ ( self, lowerCAmelCase=0 ):
"""simple docstring"""
lowerCamelCase_ =torch.manual_seed(lowerCAmelCase )
lowerCamelCase_ =load_image(
'''https://huggingface.co/datasets/diffusers/test-arrays/resolve/main/stable_diffusion_pix2pix/example.jpg''' )
lowerCamelCase_ ={
'''prompt''': '''turn him into a cyborg''',
'''image''': image,
'''generator''': generator,
'''num_inference_steps''': 3,
'''guidance_scale''': 7.5,
'''image_guidance_scale''': 1.0,
'''output_type''': '''numpy''',
}
return inputs
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.5_9_0_2, 0.6_0_1_5, 0.6_0_2_7, 0.5_9_8_3, 0.6_0_9_2, 0.6_0_6_1, 0.5_7_6_5, 0.5_7_8_5, 0.5_5_5_5] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
lowerCamelCase_ =LMSDiscreteScheduler.from_config(pipe.scheduler.config )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.6_5_7_8, 0.6_8_1_7, 0.6_9_7_2, 0.6_7_6_1, 0.6_8_5_6, 0.6_9_1_6, 0.6_4_2_8, 0.6_5_1_6, 0.6_3_0_1] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase )
lowerCamelCase_ =DDIMScheduler.from_config(pipe.scheduler.config )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase ).images
lowerCamelCase_ =image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
lowerCamelCase_ =np.array([0.3_8_2_8, 0.3_8_3_4, 0.3_8_1_8, 0.3_7_9_2, 0.3_8_6_5, 0.3_7_5_2, 0.3_7_9_2, 0.3_8_4_7, 0.3_7_5_3] )
assert np.abs(expected_slice - image_slice ).max() < 1e-3
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =0
def callback_fn(lowerCAmelCase, lowerCAmelCase, lowerCAmelCase ) -> None:
lowerCamelCase_ =True
nonlocal number_of_steps
number_of_steps += 1
if step == 1:
lowerCamelCase_ =latents.detach().cpu().numpy()
assert latents.shape == (1, 4, 64, 64)
lowerCamelCase_ =latents[0, -3:, -3:, -1]
lowerCamelCase_ =np.array([-0.2_4_6_3, -0.4_6_4_4, -0.9_7_5_6, 1.5_1_7_6, 1.4_4_1_4, 0.7_8_6_6, 0.9_8_9_7, 0.8_5_2_1, 0.7_9_8_3] )
assert np.abs(latents_slice.flatten() - expected_slice ).max() < 5e-2
elif step == 2:
lowerCamelCase_ =latents.detach().cpu().numpy()
assert latents.shape == (1, 4, 64, 64)
lowerCamelCase_ =latents[0, -3:, -3:, -1]
lowerCamelCase_ =np.array([-0.2_6_4_4, -0.4_6_2_6, -0.9_6_5_3, 1.5_1_7_6, 1.4_5_5_1, 0.7_6_8_6, 0.9_8_0_5, 0.8_4_5_2, 0.8_1_1_5] )
assert np.abs(latents_slice.flatten() - expected_slice ).max() < 5e-2
lowerCamelCase_ =False
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase, torch_dtype=torch.floataa )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =self.get_inputs()
pipe(**lowerCAmelCase, callback=lowerCAmelCase, callback_steps=1 )
assert callback_fn.has_been_called
assert number_of_steps == 3
def lowercase__ ( self ):
"""simple docstring"""
torch.cuda.empty_cache()
torch.cuda.reset_max_memory_allocated()
torch.cuda.reset_peak_memory_stats()
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
'''timbrooks/instruct-pix2pix''', safety_checker=lowerCAmelCase, torch_dtype=torch.floataa )
lowerCamelCase_ =pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing(1 )
pipe.enable_sequential_cpu_offload()
lowerCamelCase_ =self.get_inputs()
lowerCamelCase_ =pipe(**lowerCAmelCase )
lowerCamelCase_ =torch.cuda.max_memory_allocated()
# make sure that less than 2.2 GB is allocated
assert mem_bytes < 2.2 * 10**9
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.get_inputs()
# resize to resolution that is divisible by 8 but not 16 or 32
lowerCamelCase_ =inputs['''image'''].resize((504, 504) )
lowerCamelCase_ ='''timbrooks/instruct-pix2pix'''
lowerCamelCase_ =StableDiffusionInstructPixaPixPipeline.from_pretrained(
lowerCAmelCase, safety_checker=lowerCAmelCase, )
pipe.to(lowerCAmelCase )
pipe.set_progress_bar_config(disable=lowerCAmelCase )
pipe.enable_attention_slicing()
lowerCamelCase_ =pipe(**lowerCAmelCase )
lowerCamelCase_ =output.images[0]
lowerCamelCase_ =image[255:258, 383:386, -1]
assert image.shape == (504, 504, 3)
lowerCamelCase_ =np.array([0.2_7_2_6, 0.2_5_2_9, 0.2_6_6_4, 0.2_6_5_5, 0.2_6_4_1, 0.2_6_4_2, 0.2_5_9_1, 0.2_6_4_9, 0.2_5_9_0] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 5e-3
| 75 | 0 |
"""simple docstring"""
import doctest
import logging
import os
import unittest
from pathlib import Path
from typing import List, Union
import transformers
from transformers.testing_utils import require_tf, require_torch, slow
lowercase__ = logging.getLogger()
@unittest.skip("""Temporarily disable the doc tests.""" )
@require_torch
@require_tf
@slow
class lowerCAmelCase__ ( unittest.TestCase ):
'''simple docstring'''
def A_ ( self , lowercase , lowercase = None , lowercase = None , lowercase = None , lowercase = True , ):
_lowerCamelCase : str = [file for file in os.listdir(lowercase ) if os.path.isfile(os.path.join(lowercase , lowercase ) )]
if identifier is not None:
_lowerCamelCase : Any = [file for file in files if identifier in file]
if n_identifier is not None:
if isinstance(lowercase , lowercase ):
for n_ in n_identifier:
_lowerCamelCase : Optional[int] = [file for file in files if n_ not in file]
else:
_lowerCamelCase : List[Any] = [file for file in files if n_identifier not in file]
_lowerCamelCase : str = ignore_files or []
ignore_files.append('__init__.py' )
_lowerCamelCase : Union[str, Any] = [file for file in files if file not in ignore_files]
for file in files:
# Open all files
print('Testing' , lowercase )
if only_modules:
_lowerCamelCase : Any = file.split('.' )[0]
try:
_lowerCamelCase : Dict = getattr(lowercase , lowercase )
_lowerCamelCase : Optional[Any] = doctest.DocTestSuite(lowercase )
_lowerCamelCase : Union[str, Any] = unittest.TextTestRunner().run(lowercase )
self.assertIs(len(result.failures ) , 0 )
except AttributeError:
logger.info(F'''{module_identifier} is not a module.''' )
else:
_lowerCamelCase : Any = doctest.testfile(str('..' / directory / file ) , optionflags=doctest.ELLIPSIS )
self.assertIs(result.failed , 0 )
def A_ ( self ):
_lowerCamelCase : str = Path('src/transformers' )
_lowerCamelCase : Any = 'modeling'
_lowerCamelCase : str = [
'modeling_ctrl.py',
'modeling_tf_ctrl.py',
]
self.analyze_directory(lowercase , identifier=lowercase , ignore_files=lowercase )
def A_ ( self ):
_lowerCamelCase : str = Path('src/transformers' )
_lowerCamelCase : int = 'tokenization'
self.analyze_directory(lowercase , identifier=lowercase )
def A_ ( self ):
_lowerCamelCase : Union[str, Any] = Path('src/transformers' )
_lowerCamelCase : Union[str, Any] = 'configuration'
self.analyze_directory(lowercase , identifier=lowercase )
def A_ ( self ):
_lowerCamelCase : Union[str, Any] = Path('src/transformers' )
_lowerCamelCase : Dict = ['configuration', 'modeling', 'tokenization']
self.analyze_directory(lowercase , n_identifier=lowercase )
def A_ ( self ):
_lowerCamelCase : List[str] = Path('docs/source' )
_lowerCamelCase : Optional[Any] = ['favicon.ico']
self.analyze_directory(lowercase , ignore_files=lowercase , only_modules=lowercase ) | 96 |
'''simple docstring'''
from __future__ import annotations
import unittest
from transformers import XGLMConfig, XGLMTokenizer, is_tf_available
from transformers.testing_utils import require_tf, slow
from ...test_configuration_common import ConfigTester
from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor, random_attention_mask
from ...test_pipeline_mixin import PipelineTesterMixin
if is_tf_available():
import tensorflow as tf
from transformers.models.xglm.modeling_tf_xglm import (
TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST,
TFXGLMForCausalLM,
TFXGLMModel,
)
@require_tf
class __UpperCamelCase :
lowercase : Union[str, Any] =XGLMConfig
lowercase : Optional[Any] ={}
lowercase : Optional[int] ='gelu'
def __init__( self, lowerCAmelCase, lowerCAmelCase=14, lowerCAmelCase=7, lowerCAmelCase=True, lowerCAmelCase=True, lowerCAmelCase=True, lowerCAmelCase=99, lowerCAmelCase=32, lowerCAmelCase=2, lowerCAmelCase=4, lowerCAmelCase=37, lowerCAmelCase="gelu", lowerCAmelCase=0.1, lowerCAmelCase=0.1, lowerCAmelCase=512, lowerCAmelCase=0.0_2, ):
"""simple docstring"""
lowerCamelCase_ =parent
lowerCamelCase_ =batch_size
lowerCamelCase_ =seq_length
lowerCamelCase_ =is_training
lowerCamelCase_ =use_input_mask
lowerCamelCase_ =use_labels
lowerCamelCase_ =vocab_size
lowerCamelCase_ =d_model
lowerCamelCase_ =num_hidden_layers
lowerCamelCase_ =num_attention_heads
lowerCamelCase_ =ffn_dim
lowerCamelCase_ =activation_function
lowerCamelCase_ =activation_dropout
lowerCamelCase_ =attention_dropout
lowerCamelCase_ =max_position_embeddings
lowerCamelCase_ =initializer_range
lowerCamelCase_ =None
lowerCamelCase_ =0
lowerCamelCase_ =2
lowerCamelCase_ =1
def lowercase__ ( self ):
"""simple docstring"""
return XGLMConfig.from_pretrained('''facebook/xglm-564M''' )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =tf.clip_by_value(
ids_tensor([self.batch_size, self.seq_length], self.vocab_size ), clip_value_min=0, clip_value_max=3 )
lowerCamelCase_ =None
if self.use_input_mask:
lowerCamelCase_ =random_attention_mask([self.batch_size, self.seq_length] )
lowerCamelCase_ =self.get_config()
lowerCamelCase_ =floats_tensor([self.num_hidden_layers, self.num_attention_heads], 2 )
return (
config,
input_ids,
input_mask,
head_mask,
)
def lowercase__ ( self ):
"""simple docstring"""
return XGLMConfig(
vocab_size=self.vocab_size, d_model=self.hidden_size, num_layers=self.num_hidden_layers, attention_heads=self.num_attention_heads, ffn_dim=self.ffn_dim, activation_function=self.activation_function, activation_dropout=self.activation_dropout, attention_dropout=self.attention_dropout, max_position_embeddings=self.max_position_embeddings, initializer_range=self.initializer_range, use_cache=lowerCAmelCase, bos_token_id=self.bos_token_id, eos_token_id=self.eos_token_id, pad_token_id=self.pad_token_id, return_dict=lowerCAmelCase, )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.prepare_config_and_inputs()
(
(
lowerCamelCase_
), (
lowerCamelCase_
), (
lowerCamelCase_
), (
lowerCamelCase_
),
) =config_and_inputs
lowerCamelCase_ ={
'''input_ids''': input_ids,
'''head_mask''': head_mask,
}
return config, inputs_dict
@require_tf
class __UpperCamelCase ( lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ):
lowercase : int =(TFXGLMModel, TFXGLMForCausalLM) if is_tf_available() else ()
lowercase : Optional[Any] =(TFXGLMForCausalLM,) if is_tf_available() else ()
lowercase : Tuple =(
{'feature-extraction': TFXGLMModel, 'text-generation': TFXGLMForCausalLM} if is_tf_available() else {}
)
lowercase : Optional[Any] =False
lowercase : Optional[Any] =False
lowercase : Optional[int] =False
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMModelTester(self )
lowerCamelCase_ =ConfigTester(self, config_class=lowerCAmelCase, n_embd=37 )
def lowercase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
@slow
def lowercase__ ( self ):
"""simple docstring"""
for model_name in TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
lowerCamelCase_ =TFXGLMModel.from_pretrained(lowerCAmelCase )
self.assertIsNotNone(lowerCAmelCase )
@unittest.skip(reason='''Currently, model embeddings are going to undergo a major refactor.''' )
def lowercase__ ( self ):
"""simple docstring"""
super().test_resize_token_embeddings()
@require_tf
class __UpperCamelCase ( unittest.TestCase ):
@slow
def lowercase__ ( self, lowerCAmelCase=True ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =tf.convert_to_tensor([[2, 268, 9_865]], dtype=tf.intaa ) # The dog
# </s> The dog is a very friendly dog. He is very affectionate and loves to play with other
# fmt: off
lowerCamelCase_ =[2, 268, 9_865, 67, 11, 1_988, 57_252, 9_865, 5, 984, 67, 1_988, 213_838, 1_658, 53, 70_446, 33, 6_657, 278, 1_581]
# fmt: on
lowerCamelCase_ =model.generate(lowerCAmelCase, do_sample=lowerCAmelCase, num_beams=1 )
if verify_outputs:
self.assertListEqual(output_ids[0].numpy().tolist(), lowerCAmelCase )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =XGLMTokenizer.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
tf.random.set_seed(0 )
lowerCamelCase_ =tokenizer('''Today is a nice day and''', return_tensors='''tf''' )
lowerCamelCase_ =tokenized.input_ids
# forces the generation to happen on CPU, to avoid GPU-related quirks (and assure same output regardless of the available devices)
with tf.device(''':/CPU:0''' ):
lowerCamelCase_ =model.generate(lowerCAmelCase, do_sample=lowerCAmelCase, seed=[7, 0] )
lowerCamelCase_ =tokenizer.decode(output_ids[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =(
'''Today is a nice day and warm evening here over Southern Alberta!! Today when they closed schools due'''
)
self.assertEqual(lowerCAmelCase, lowerCAmelCase )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ =XGLMTokenizer.from_pretrained('''facebook/xglm-564M''' )
lowerCamelCase_ ='''left'''
# use different length sentences to test batching
lowerCamelCase_ =[
'''This is an extremelly long sentence that only exists to test the ability of the model to cope with '''
'''left-padding, such as in batched generation. The output for the sequence below should be the same '''
'''regardless of whether left padding is applied or not. When''',
'''Hello, my dog is a little''',
]
lowerCamelCase_ =tokenizer(lowerCAmelCase, return_tensors='''tf''', padding=lowerCAmelCase )
lowerCamelCase_ =inputs['''input_ids''']
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, attention_mask=inputs['''attention_mask'''], max_new_tokens=12 )
lowerCamelCase_ =tokenizer(sentences[0], return_tensors='''tf''' ).input_ids
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, max_new_tokens=12 )
lowerCamelCase_ =tokenizer(sentences[1], return_tensors='''tf''' ).input_ids
lowerCamelCase_ =model.generate(input_ids=lowerCAmelCase, max_new_tokens=12 )
lowerCamelCase_ =tokenizer.batch_decode(lowerCAmelCase, skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =tokenizer.decode(output_non_padded[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =tokenizer.decode(output_padded[0], skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =[
'''This is an extremelly long sentence that only exists to test the ability of the model to cope with '''
'''left-padding, such as in batched generation. The output for the sequence below should be the same '''
'''regardless of whether left padding is applied or not. When left padding is applied, the sequence will be '''
'''a single''',
'''Hello, my dog is a little bit of a shy one, but he is very friendly''',
]
self.assertListEqual(lowerCAmelCase, lowerCAmelCase )
self.assertListEqual(lowerCAmelCase, [non_padded_sentence, padded_sentence] )
| 75 | 0 |
"""simple docstring"""
import warnings
from ...utils import logging
from .image_processing_flava import FlavaImageProcessor
__SCREAMING_SNAKE_CASE : int = logging.get_logger(__name__)
class __A (lowerCamelCase__):
'''simple docstring'''
def __init__( self : Tuple , *UpperCAmelCase_ : Dict , **UpperCAmelCase_ : int ) ->Optional[int]:
"""simple docstring"""
warnings.warn(
"""The class FlavaFeatureExtractor is deprecated and will be removed in version 5 of Transformers. Please"""
""" use FlavaImageProcessor instead.""" , UpperCAmelCase_ , )
super().__init__(*UpperCAmelCase_ , **UpperCAmelCase_ )
| 347 |
'''simple docstring'''
import unittest
from transformers import MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING, is_vision_available, 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 __UpperCamelCase :
@staticmethod
def lowercase__ ( *lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
pass
@is_pipeline_test
@require_vision
@require_torch
class __UpperCamelCase ( unittest.TestCase ):
lowercase : int =MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =pipeline(
'''zero-shot-object-detection''', model='''hf-internal-testing/tiny-random-owlvit-object-detection''' )
lowerCamelCase_ =[
{
'''image''': '''./tests/fixtures/tests_samples/COCO/000000039769.png''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
}
]
return object_detector, examples
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =object_detector(examples[0], threshold=0.0 )
lowerCamelCase_ =len(lowerCAmelCase )
self.assertGreater(lowerCAmelCase, 0 )
self.assertEqual(
lowerCAmelCase, [
{
'''score''': ANY(lowerCAmelCase ),
'''label''': ANY(lowerCAmelCase ),
'''box''': {'''xmin''': ANY(lowerCAmelCase ), '''ymin''': ANY(lowerCAmelCase ), '''xmax''': ANY(lowerCAmelCase ), '''ymax''': ANY(lowerCAmelCase )},
}
for i in range(lowerCAmelCase )
], )
@require_tf
@unittest.skip('''Zero Shot Object Detection not implemented in TF''' )
def lowercase__ ( self ):
"""simple docstring"""
pass
@require_torch
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =pipeline(
'''zero-shot-object-detection''', model='''hf-internal-testing/tiny-random-owlvit-object-detection''' )
lowerCamelCase_ =object_detector(
'''./tests/fixtures/tests_samples/COCO/000000039769.png''', candidate_labels=['''cat''', '''remote''', '''couch'''], threshold=0.6_4, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.7_2_3_5, '''label''': '''cat''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_2_1_8, '''label''': '''remote''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_1_8_4, '''label''': '''couch''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.6_7_4_8, '''label''': '''remote''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_5_6, '''label''': '''cat''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_1_4, '''label''': '''couch''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_4_5_6, '''label''': '''remote''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
{'''score''': 0.6_4_2, '''label''': '''remote''', '''box''': {'''xmin''': 67, '''ymin''': 274, '''xmax''': 93, '''ymax''': 297}},
{'''score''': 0.6_4_1_9, '''label''': '''cat''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
], )
lowerCamelCase_ =object_detector(
[
{
'''image''': '''./tests/fixtures/tests_samples/COCO/000000039769.png''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
}
], threshold=0.6_4, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
[
{'''score''': 0.7_2_3_5, '''label''': '''cat''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_2_1_8, '''label''': '''remote''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.7_1_8_4, '''label''': '''couch''', '''box''': {'''xmin''': 204, '''ymin''': 167, '''xmax''': 232, '''ymax''': 190}},
{'''score''': 0.6_7_4_8, '''label''': '''remote''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_5_6, '''label''': '''cat''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_6_1_4, '''label''': '''couch''', '''box''': {'''xmin''': 571, '''ymin''': 83, '''xmax''': 598, '''ymax''': 103}},
{'''score''': 0.6_4_5_6, '''label''': '''remote''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
{'''score''': 0.6_4_2, '''label''': '''remote''', '''box''': {'''xmin''': 67, '''ymin''': 274, '''xmax''': 93, '''ymax''': 297}},
{'''score''': 0.6_4_1_9, '''label''': '''cat''', '''box''': {'''xmin''': 494, '''ymin''': 105, '''xmax''': 521, '''ymax''': 127}},
]
], )
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
], )
lowerCamelCase_ =object_detector(
[
{
'''image''': '''http://images.cocodataset.org/val2017/000000039769.jpg''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
},
{
'''image''': '''http://images.cocodataset.org/val2017/000000039769.jpg''',
'''candidate_labels''': ['''cat''', '''remote''', '''couch'''],
},
], )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
[
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
],
[
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
{'''score''': 0.1_4_7_4, '''label''': '''remote''', '''box''': {'''xmin''': 335, '''ymin''': 74, '''xmax''': 371, '''ymax''': 187}},
{'''score''': 0.1_2_0_8, '''label''': '''couch''', '''box''': {'''xmin''': 4, '''ymin''': 0, '''xmax''': 642, '''ymax''': 476}},
],
], )
@require_tf
@unittest.skip('''Zero Shot Object Detection not implemented in TF''' )
def lowercase__ ( self ):
"""simple docstring"""
pass
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =0.2
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], threshold=lowerCAmelCase, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
{'''score''': 0.2_5_3_7, '''label''': '''cat''', '''box''': {'''xmin''': 1, '''ymin''': 55, '''xmax''': 315, '''ymax''': 472}},
], )
@require_torch
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =2
lowerCamelCase_ =pipeline('''zero-shot-object-detection''' )
lowerCamelCase_ =object_detector(
'''http://images.cocodataset.org/val2017/000000039769.jpg''', candidate_labels=['''cat''', '''remote''', '''couch'''], top_k=lowerCAmelCase, )
self.assertEqual(
nested_simplify(lowerCAmelCase, decimals=4 ), [
{'''score''': 0.2_8_6_8, '''label''': '''cat''', '''box''': {'''xmin''': 324, '''ymin''': 20, '''xmax''': 640, '''ymax''': 373}},
{'''score''': 0.2_7_7, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 72, '''xmax''': 177, '''ymax''': 115}},
], )
| 75 | 0 |
"""simple docstring"""
import argparse
import json
import os
import sys
import tempfile
import unittest
from argparse import Namespace
from dataclasses import dataclass, field
from enum import Enum
from pathlib import Path
from typing import List, Literal, Optional
import yaml
from transformers import HfArgumentParser, TrainingArguments
from transformers.hf_argparser import make_choice_type_function, string_to_bool
# Since Python 3.10, we can use the builtin `|` operator for Union types
# See PEP 604: https://peps.python.org/pep-0604
__a = sys.version_info >= (3, 10)
def A_ ( _lowercase=None, _lowercase=None ):
'''simple docstring'''
return field(default_factory=lambda: default, metadata=__snake_case )
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : int
_A : float
_A : str
_A : bool
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : int = 4_2
_A : str = field(default="""toto""" , metadata={"""help""": """help message"""} )
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : bool = False
_A : bool = True
_A : Optional[bool] = None
class lowerCamelCase ( lowerCamelCase__ ):
'''simple docstring'''
_A : Union[str, Any] = 'titi'
_A : Union[str, Any] = 'toto'
class lowerCamelCase ( lowerCamelCase__ ):
'''simple docstring'''
_A : Optional[int] = 'titi'
_A : Dict = 'toto'
_A : int = 4_2
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : BasicEnum = "toto"
def lowerCAmelCase_ ( self: Dict ) -> Tuple:
snake_case_ :List[str] = BasicEnum(self.foo )
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : MixedTypeEnum = "toto"
def lowerCAmelCase_ ( self: Union[str, Any] ) -> List[str]:
snake_case_ :Tuple = MixedTypeEnum(self.foo )
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : Optional[int] = None
_A : Optional[float] = field(default=lowerCamelCase__ , metadata={"""help""": """help message"""} )
_A : Optional[str] = None
_A : Optional[List[str]] = list_field(default=[] )
_A : Optional[List[int]] = list_field(default=[] )
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : List[int] = list_field(default=[] )
_A : List[int] = list_field(default=[1, 2, 3] )
_A : List[str] = list_field(default=["""Hallo""", """Bonjour""", """Hello"""] )
_A : List[float] = list_field(default=[0.1, 0.2, 0.3] )
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : List[int] = field()
_A : str = field()
_A : BasicEnum = field()
def lowerCAmelCase_ ( self: int ) -> str:
snake_case_ :List[Any] = BasicEnum(self.required_enum )
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : int
_A : "BasicEnum" = field()
_A : "Optional[bool]" = None
_A : "str" = field(default="""toto""" , metadata={"""help""": """help message"""} )
_A : "List[str]" = list_field(default=["""Hallo""", """Bonjour""", """Hello"""] )
if is_python_no_less_than_3_10:
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : bool = False
_A : bool = True
_A : bool | None = None
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : int | None = None
_A : float | None = field(default=lowerCamelCase__ , metadata={"""help""": """help message"""} )
_A : str | None = None
_A : list[str] | None = list_field(default=[] )
_A : list[int] | None = list_field(default=[] )
class lowerCamelCase ( unittest.TestCase ):
'''simple docstring'''
def lowerCAmelCase_ ( self: int , snake_case: Optional[int] , snake_case: List[str] ) -> int:
self.assertEqual(len(a._actions ) , len(b._actions ) )
for x, y in zip(a._actions , b._actions ):
snake_case_ :Dict = {k: v for k, v in vars(snake_case ).items() if k != """container"""}
snake_case_ :Dict = {k: v for k, v in vars(snake_case ).items() if k != """container"""}
# Choices with mixed type have custom function as "type"
# So we need to compare results directly for equality
if xx.get("""choices""" , snake_case ) and yy.get("""choices""" , snake_case ):
for expected_choice in yy["choices"] + xx["choices"]:
self.assertEqual(xx["""type"""](snake_case ) , yy["""type"""](snake_case ) )
del xx["type"], yy["type"]
self.assertEqual(snake_case , snake_case )
def lowerCAmelCase_ ( self: Dict ) -> Optional[int]:
snake_case_ :Optional[int] = HfArgumentParser(snake_case )
snake_case_ :List[Any] = argparse.ArgumentParser()
expected.add_argument("""--foo""" , type=snake_case , required=snake_case )
expected.add_argument("""--bar""" , type=snake_case , required=snake_case )
expected.add_argument("""--baz""" , type=snake_case , required=snake_case )
expected.add_argument("""--flag""" , type=snake_case , default=snake_case , const=snake_case , nargs="""?""" )
self.argparsersEqual(snake_case , snake_case )
snake_case_ :Optional[int] = ["""--foo""", """1""", """--baz""", """quux""", """--bar""", """0.5"""]
((snake_case_ ), ) :Union[str, Any] = parser.parse_args_into_dataclasses(snake_case , look_for_args_file=snake_case )
self.assertFalse(example.flag )
def lowerCAmelCase_ ( self: Optional[int] ) -> Dict:
snake_case_ :List[str] = HfArgumentParser(snake_case )
snake_case_ :List[str] = argparse.ArgumentParser()
expected.add_argument("""--foo""" , default=42 , type=snake_case )
expected.add_argument("""--baz""" , default="""toto""" , type=snake_case , help="""help message""" )
self.argparsersEqual(snake_case , snake_case )
def lowerCAmelCase_ ( self: List[str] ) -> str:
snake_case_ :Optional[int] = argparse.ArgumentParser()
expected.add_argument("""--foo""" , type=snake_case , default=snake_case , const=snake_case , nargs="""?""" )
expected.add_argument("""--baz""" , type=snake_case , default=snake_case , const=snake_case , nargs="""?""" )
# A boolean no_* argument always has to come after its "default: True" regular counter-part
# and its default must be set to False
expected.add_argument("""--no_baz""" , action="""store_false""" , default=snake_case , dest="""baz""" )
expected.add_argument("""--opt""" , type=snake_case , default=snake_case )
snake_case_ :Union[str, Any] = [WithDefaultBoolExample]
if is_python_no_less_than_3_10:
dataclass_types.append(snake_case )
for dataclass_type in dataclass_types:
snake_case_ :Optional[int] = HfArgumentParser(snake_case )
self.argparsersEqual(snake_case , snake_case )
snake_case_ :Tuple = parser.parse_args([] )
self.assertEqual(snake_case , Namespace(foo=snake_case , baz=snake_case , opt=snake_case ) )
snake_case_ :Any = parser.parse_args(["""--foo""", """--no_baz"""] )
self.assertEqual(snake_case , Namespace(foo=snake_case , baz=snake_case , opt=snake_case ) )
snake_case_ :str = parser.parse_args(["""--foo""", """--baz"""] )
self.assertEqual(snake_case , Namespace(foo=snake_case , baz=snake_case , opt=snake_case ) )
snake_case_ :Union[str, Any] = parser.parse_args(["""--foo""", """True""", """--baz""", """True""", """--opt""", """True"""] )
self.assertEqual(snake_case , Namespace(foo=snake_case , baz=snake_case , opt=snake_case ) )
snake_case_ :Any = parser.parse_args(["""--foo""", """False""", """--baz""", """False""", """--opt""", """False"""] )
self.assertEqual(snake_case , Namespace(foo=snake_case , baz=snake_case , opt=snake_case ) )
def lowerCAmelCase_ ( self: Dict ) -> str:
snake_case_ :int = HfArgumentParser(snake_case )
snake_case_ :Optional[Any] = argparse.ArgumentParser()
expected.add_argument(
"""--foo""" , default="""toto""" , choices=["""titi""", """toto""", 42] , type=make_choice_type_function(["""titi""", """toto""", 42] ) , )
self.argparsersEqual(snake_case , snake_case )
snake_case_ :str = parser.parse_args([] )
self.assertEqual(args.foo , """toto""" )
snake_case_ :Any = parser.parse_args_into_dataclasses([] )[0]
self.assertEqual(enum_ex.foo , MixedTypeEnum.toto )
snake_case_ :Tuple = parser.parse_args(["""--foo""", """titi"""] )
self.assertEqual(args.foo , """titi""" )
snake_case_ :Dict = parser.parse_args_into_dataclasses(["""--foo""", """titi"""] )[0]
self.assertEqual(enum_ex.foo , MixedTypeEnum.titi )
snake_case_ :List[str] = parser.parse_args(["""--foo""", """42"""] )
self.assertEqual(args.foo , 42 )
snake_case_ :Tuple = parser.parse_args_into_dataclasses(["""--foo""", """42"""] )[0]
self.assertEqual(enum_ex.foo , MixedTypeEnum.fourtytwo )
def lowerCAmelCase_ ( self: Optional[int] ) -> List[str]:
@dataclass
class lowerCamelCase :
'''simple docstring'''
_A : Literal["titi", "toto", 4_2] = "toto"
snake_case_ :Dict = HfArgumentParser(snake_case )
snake_case_ :List[str] = argparse.ArgumentParser()
expected.add_argument(
"""--foo""" , default="""toto""" , choices=("""titi""", """toto""", 42) , type=make_choice_type_function(["""titi""", """toto""", 42] ) , )
self.argparsersEqual(snake_case , snake_case )
snake_case_ :List[str] = parser.parse_args([] )
self.assertEqual(args.foo , """toto""" )
snake_case_ :List[Any] = parser.parse_args(["""--foo""", """titi"""] )
self.assertEqual(args.foo , """titi""" )
snake_case_ :int = parser.parse_args(["""--foo""", """42"""] )
self.assertEqual(args.foo , 42 )
def lowerCAmelCase_ ( self: Optional[Any] ) -> str:
snake_case_ :Optional[int] = HfArgumentParser(snake_case )
snake_case_ :Any = argparse.ArgumentParser()
expected.add_argument("""--foo_int""" , nargs="""+""" , default=[] , type=snake_case )
expected.add_argument("""--bar_int""" , nargs="""+""" , default=[1, 2, 3] , type=snake_case )
expected.add_argument("""--foo_str""" , nargs="""+""" , default=["""Hallo""", """Bonjour""", """Hello"""] , type=snake_case )
expected.add_argument("""--foo_float""" , nargs="""+""" , default=[0.1, 0.2, 0.3] , type=snake_case )
self.argparsersEqual(snake_case , snake_case )
snake_case_ :Optional[Any] = parser.parse_args([] )
self.assertEqual(
snake_case , Namespace(foo_int=[] , bar_int=[1, 2, 3] , foo_str=["""Hallo""", """Bonjour""", """Hello"""] , foo_float=[0.1, 0.2, 0.3] ) , )
snake_case_ :int = parser.parse_args("""--foo_int 1 --bar_int 2 3 --foo_str a b c --foo_float 0.1 0.7""".split() )
self.assertEqual(snake_case , Namespace(foo_int=[1] , bar_int=[2, 3] , foo_str=["""a""", """b""", """c"""] , foo_float=[0.1, 0.7] ) )
def lowerCAmelCase_ ( self: int ) -> List[str]:
snake_case_ :Any = argparse.ArgumentParser()
expected.add_argument("""--foo""" , default=snake_case , type=snake_case )
expected.add_argument("""--bar""" , default=snake_case , type=snake_case , help="""help message""" )
expected.add_argument("""--baz""" , default=snake_case , type=snake_case )
expected.add_argument("""--ces""" , nargs="""+""" , default=[] , type=snake_case )
expected.add_argument("""--des""" , nargs="""+""" , default=[] , type=snake_case )
snake_case_ :List[Any] = [OptionalExample]
if is_python_no_less_than_3_10:
dataclass_types.append(snake_case )
for dataclass_type in dataclass_types:
snake_case_ :Dict = HfArgumentParser(snake_case )
self.argparsersEqual(snake_case , snake_case )
snake_case_ :Any = parser.parse_args([] )
self.assertEqual(snake_case , Namespace(foo=snake_case , bar=snake_case , baz=snake_case , ces=[] , des=[] ) )
snake_case_ :str = parser.parse_args("""--foo 12 --bar 3.14 --baz 42 --ces a b c --des 1 2 3""".split() )
self.assertEqual(snake_case , Namespace(foo=12 , bar=3.1_4 , baz="""42""" , ces=["""a""", """b""", """c"""] , des=[1, 2, 3] ) )
def lowerCAmelCase_ ( self: Union[str, Any] ) -> str:
snake_case_ :Optional[int] = HfArgumentParser(snake_case )
snake_case_ :Optional[Any] = argparse.ArgumentParser()
expected.add_argument("""--required_list""" , nargs="""+""" , type=snake_case , required=snake_case )
expected.add_argument("""--required_str""" , type=snake_case , required=snake_case )
expected.add_argument(
"""--required_enum""" , type=make_choice_type_function(["""titi""", """toto"""] ) , choices=["""titi""", """toto"""] , required=snake_case , )
self.argparsersEqual(snake_case , snake_case )
def lowerCAmelCase_ ( self: Any ) -> str:
snake_case_ :int = HfArgumentParser(snake_case )
snake_case_ :List[Any] = argparse.ArgumentParser()
expected.add_argument("""--foo""" , type=snake_case , required=snake_case )
expected.add_argument(
"""--required_enum""" , type=make_choice_type_function(["""titi""", """toto"""] ) , choices=["""titi""", """toto"""] , required=snake_case , )
expected.add_argument("""--opt""" , type=snake_case , default=snake_case )
expected.add_argument("""--baz""" , default="""toto""" , type=snake_case , help="""help message""" )
expected.add_argument("""--foo_str""" , nargs="""+""" , default=["""Hallo""", """Bonjour""", """Hello"""] , type=snake_case )
self.argparsersEqual(snake_case , snake_case )
def lowerCAmelCase_ ( self: List[Any] ) -> Tuple:
snake_case_ :Any = HfArgumentParser(snake_case )
snake_case_ :Optional[Any] = {
"""foo""": 12,
"""bar""": 3.1_4,
"""baz""": """42""",
"""flag""": True,
}
snake_case_ :Optional[int] = parser.parse_dict(snake_case )[0]
snake_case_ :List[Any] = BasicExample(**snake_case )
self.assertEqual(snake_case , snake_case )
def lowerCAmelCase_ ( self: Tuple ) -> Optional[Any]:
snake_case_ :List[Any] = HfArgumentParser(snake_case )
snake_case_ :Any = {
"""foo""": 12,
"""bar""": 3.1_4,
"""baz""": """42""",
"""flag""": True,
"""extra""": 42,
}
self.assertRaises(snake_case , parser.parse_dict , snake_case , allow_extra_keys=snake_case )
def lowerCAmelCase_ ( self: str ) -> Tuple:
snake_case_ :Optional[Any] = HfArgumentParser(snake_case )
snake_case_ :Tuple = {
"""foo""": 12,
"""bar""": 3.1_4,
"""baz""": """42""",
"""flag""": True,
}
with tempfile.TemporaryDirectory() as tmp_dir:
snake_case_ :List[str] = os.path.join(snake_case , """temp_json""" )
os.mkdir(snake_case )
with open(temp_local_path + """.json""" , """w+""" ) as f:
json.dump(snake_case , snake_case )
snake_case_ :Optional[int] = parser.parse_yaml_file(Path(temp_local_path + """.json""" ) )[0]
snake_case_ :Any = BasicExample(**snake_case )
self.assertEqual(snake_case , snake_case )
def lowerCAmelCase_ ( self: Union[str, Any] ) -> str:
snake_case_ :Dict = HfArgumentParser(snake_case )
snake_case_ :Tuple = {
"""foo""": 12,
"""bar""": 3.1_4,
"""baz""": """42""",
"""flag""": True,
}
with tempfile.TemporaryDirectory() as tmp_dir:
snake_case_ :Any = os.path.join(snake_case , """temp_yaml""" )
os.mkdir(snake_case )
with open(temp_local_path + """.yaml""" , """w+""" ) as f:
yaml.dump(snake_case , snake_case )
snake_case_ :Dict = parser.parse_yaml_file(Path(temp_local_path + """.yaml""" ) )[0]
snake_case_ :Optional[Any] = BasicExample(**snake_case )
self.assertEqual(snake_case , snake_case )
def lowerCAmelCase_ ( self: Optional[Any] ) -> Optional[Any]:
snake_case_ :List[str] = HfArgumentParser(snake_case )
self.assertIsNotNone(snake_case )
| 66 |
'''simple docstring'''
import json
import os
from typing import Dict, List, Optional, Tuple
import regex as re
from ...tokenization_utils import PreTrainedTokenizer
from ...utils import logging
a_ : Optional[int] = logging.get_logger(__name__)
a_ : Optional[int] = {
"""vocab_file""": """vocab.json""",
"""merges_file""": """merges.txt""",
"""tokenizer_config_file""": """tokenizer_config.json""",
}
a_ : List[Any] = {
"""vocab_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/vocab.json"""
},
"""merges_file""": {
"""facebook/blenderbot_small-90M""": """https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/merges.txt"""
},
"""tokenizer_config_file""": {
"""facebook/blenderbot_small-90M""": (
"""https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/tokenizer_config.json"""
)
},
}
a_ : Optional[int] = {"""facebook/blenderbot_small-90M""": 5_12}
def a_ ( __snake_case : List[Any] ) -> Tuple:
"""simple docstring"""
lowerCamelCase_ =set()
lowerCamelCase_ =word[0]
for char in word[1:]:
pairs.add((prev_char, char) )
lowerCamelCase_ =char
lowerCamelCase_ =set(__snake_case )
return pairs
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : Optional[int] =VOCAB_FILES_NAMES
lowercase : Tuple =PRETRAINED_VOCAB_FILES_MAP
lowercase : Tuple =PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
lowercase : Dict =['input_ids', 'attention_mask']
def __init__( self, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase="__start__", lowerCAmelCase="__end__", lowerCAmelCase="__unk__", lowerCAmelCase="__null__", **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(unk_token=lowerCAmelCase, bos_token=lowerCAmelCase, eos_token=lowerCAmelCase, pad_token=lowerCAmelCase, **lowerCAmelCase )
with open(lowerCAmelCase, encoding='''utf-8''' ) as vocab_handle:
lowerCamelCase_ =json.load(lowerCAmelCase )
lowerCamelCase_ ={v: k for k, v in self.encoder.items()}
with open(lowerCAmelCase, encoding='''utf-8''' ) as merges_handle:
lowerCamelCase_ =merges_handle.read().split('''\n''' )[1:-1]
lowerCamelCase_ =[tuple(merge.split() ) for merge in merges]
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ ={}
@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, lowerCAmelCase ):
"""simple docstring"""
if token in self.cache:
return self.cache[token]
lowerCamelCase_ =re.sub('''([.,!?()])''', R''' \1''', lowerCAmelCase )
lowerCamelCase_ =re.sub('''(\')''', R''' \1 ''', lowerCAmelCase )
lowerCamelCase_ =re.sub(R'''\s{2,}''', ''' ''', lowerCAmelCase )
if "\n" in token:
lowerCamelCase_ =token.replace('''\n''', ''' __newln__''' )
lowerCamelCase_ =token.split(''' ''' )
lowerCamelCase_ =[]
for token in tokens:
if not len(lowerCAmelCase ):
continue
lowerCamelCase_ =token.lower()
lowerCamelCase_ =tuple(lowerCAmelCase )
lowerCamelCase_ =tuple(list(word[:-1] ) + [word[-1] + '''</w>'''] )
lowerCamelCase_ =get_pairs(lowerCAmelCase )
if not pairs:
words.append(lowerCAmelCase )
continue
while True:
lowerCamelCase_ =min(lowerCAmelCase, key=lambda lowerCAmelCase : self.bpe_ranks.get(lowerCAmelCase, float('''inf''' ) ) )
if bigram not in self.bpe_ranks:
break
lowerCamelCase_, lowerCamelCase_ =bigram
lowerCamelCase_ =[]
lowerCamelCase_ =0
while i < len(lowerCAmelCase ):
try:
lowerCamelCase_ =word.index(lowerCAmelCase, lowerCAmelCase )
new_word.extend(word[i:j] )
lowerCamelCase_ =j
except ValueError:
new_word.extend(word[i:] )
break
if word[i] == first and i < len(lowerCAmelCase ) - 1 and word[i + 1] == second:
new_word.append(first + second )
i += 2
else:
new_word.append(word[i] )
i += 1
lowerCamelCase_ =tuple(lowerCAmelCase )
lowerCamelCase_ =new_word
if len(lowerCAmelCase ) == 1:
break
else:
lowerCamelCase_ =get_pairs(lowerCAmelCase )
lowerCamelCase_ ='''@@ '''.join(lowerCAmelCase )
lowerCamelCase_ =word[:-4]
lowerCamelCase_ =word
words.append(lowerCAmelCase )
return " ".join(lowerCAmelCase )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =[]
lowerCamelCase_ =re.findall(R'''\S+\n?''', lowerCAmelCase )
for token in words:
split_tokens.extend(list(self.bpe(lowerCAmelCase ).split(''' ''' ) ) )
return split_tokens
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =token.lower()
return self.encoder.get(lowerCAmelCase, self.encoder.get(self.unk_token ) )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
return self.decoder.get(lowerCAmelCase, self.unk_token )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =''' '''.join(lowerCAmelCase ).replace('''@@ ''', '''''' ).strip()
return out_string
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase = None ):
"""simple docstring"""
if not os.path.isdir(lowerCAmelCase ):
logger.error(f'''Vocabulary path ({save_directory}) should be a directory''' )
return
lowerCamelCase_ =os.path.join(
lowerCAmelCase, (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''vocab_file'''] )
lowerCamelCase_ =os.path.join(
lowerCAmelCase, (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''merges_file'''] )
with open(lowerCAmelCase, '''w''', encoding='''utf-8''' ) as f:
f.write(json.dumps(self.encoder, indent=2, sort_keys=lowerCAmelCase, ensure_ascii=lowerCAmelCase ) + '''\n''' )
lowerCamelCase_ =0
with open(lowerCAmelCase, '''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 lowerCAmelCase : 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_ =token_index
writer.write(''' '''.join(lowerCAmelCase ) + '''\n''' )
index += 1
return vocab_file, merge_file
| 75 | 0 |
'''simple docstring'''
import math
from collections.abc import Iterator
from itertools import takewhile
def __UpperCamelCase ( lowercase__ : int ):
'''simple docstring'''
if 1 < number < 4:
# 2 and 3 are primes
return True
elif number < 2 or number % 2 == 0 or number % 3 == 0:
# Negatives, 0, 1, all even numbers, all multiples of 3 are not primes
return False
# All primes number are in format of 6k +/- 1
for i in range(5, int(math.sqrt(__snake_case ) + 1 ), 6 ):
if number % i == 0 or number % (i + 2) == 0:
return False
return True
def __UpperCamelCase ( ):
'''simple docstring'''
__lowercase =2
while True:
if is_prime(__snake_case ):
yield num
num += 1
def __UpperCamelCase ( lowercase__ : int = 2_00_00_00 ):
'''simple docstring'''
return sum(takewhile(lambda lowercase__ : x < n, prime_generator() ) )
if __name__ == "__main__":
print(F'''{solution() = }''')
| 141 |
'''simple docstring'''
from typing import List
from ...configuration_utils import PretrainedConfig
from ...utils import logging
a_ : Dict = logging.get_logger(__name__)
a_ : Any = {
"""snap-research/efficientformer-l1-300""": (
"""https://huggingface.co/snap-research/efficientformer-l1-300/resolve/main/config.json"""
),
}
class __UpperCamelCase ( lowerCamelCase__ ):
lowercase : List[str] ='efficientformer'
def __init__( self, lowerCAmelCase = [3, 2, 6, 4], lowerCAmelCase = [48, 96, 224, 448], lowerCAmelCase = [True, True, True, True], lowerCAmelCase = 448, lowerCAmelCase = 32, lowerCAmelCase = 4, lowerCAmelCase = 7, lowerCAmelCase = 5, lowerCAmelCase = 8, lowerCAmelCase = 4, lowerCAmelCase = 0.0, lowerCAmelCase = 16, lowerCAmelCase = 3, lowerCAmelCase = 3, lowerCAmelCase = 3, lowerCAmelCase = 2, lowerCAmelCase = 1, lowerCAmelCase = 0.0, lowerCAmelCase = 1, lowerCAmelCase = True, lowerCAmelCase = True, lowerCAmelCase = 1e-5, lowerCAmelCase = "gelu", lowerCAmelCase = 0.0_2, lowerCAmelCase = 1e-12, lowerCAmelCase = 224, lowerCAmelCase = 1e-05, **lowerCAmelCase, ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
lowerCamelCase_ =hidden_act
lowerCamelCase_ =hidden_dropout_prob
lowerCamelCase_ =hidden_sizes
lowerCamelCase_ =num_hidden_layers
lowerCamelCase_ =num_attention_heads
lowerCamelCase_ =initializer_range
lowerCamelCase_ =layer_norm_eps
lowerCamelCase_ =patch_size
lowerCamelCase_ =num_channels
lowerCamelCase_ =depths
lowerCamelCase_ =mlp_expansion_ratio
lowerCamelCase_ =downsamples
lowerCamelCase_ =dim
lowerCamelCase_ =key_dim
lowerCamelCase_ =attention_ratio
lowerCamelCase_ =resolution
lowerCamelCase_ =pool_size
lowerCamelCase_ =downsample_patch_size
lowerCamelCase_ =downsample_stride
lowerCamelCase_ =downsample_pad
lowerCamelCase_ =drop_path_rate
lowerCamelCase_ =num_metaad_blocks
lowerCamelCase_ =distillation
lowerCamelCase_ =use_layer_scale
lowerCamelCase_ =layer_scale_init_value
lowerCamelCase_ =image_size
lowerCamelCase_ =batch_norm_eps
| 75 | 0 |
from typing import Dict
import numpy as np
from ..utils import add_end_docstrings, is_tf_available, is_torch_available, logging
from .base import PIPELINE_INIT_ARGS, GenericTensor, Pipeline, PipelineException
if is_tf_available():
import tensorflow as tf
from ..tf_utils import stable_softmax
if is_torch_available():
import torch
__lowerCamelCase : Optional[int] = logging.get_logger(__name__)
@add_end_docstrings(
lowerCamelCase__ , r'\n top_k (`int`, defaults to 5):\n The number of predictions to return.\n targets (`str` or `List[str]`, *optional*):\n When passed, the model will limit the scores to the passed targets instead of looking up in the whole\n vocab. If the provided targets are not in the model vocab, they will be tokenized and the first resulting\n token will be used (with a warning, and that might be slower).\n\n ' , )
class A__ ( lowerCamelCase__ ):
def __UpperCamelCase( self , A_ ):
'''simple docstring'''
if self.framework == "tf":
UpperCamelCase : str = tf.where(input_ids == self.tokenizer.mask_token_id ).numpy()
elif self.framework == "pt":
UpperCamelCase : List[str] = torch.nonzero(input_ids == self.tokenizer.mask_token_id , as_tuple=A_ )
else:
raise ValueError("Unsupported framework" )
return masked_index
def __UpperCamelCase( self , A_ ):
'''simple docstring'''
UpperCamelCase : Optional[int] = self.get_masked_index(A_ )
UpperCamelCase : Any = np.prod(masked_index.shape )
if numel < 1:
raise PipelineException(
"fill-mask" , self.model.base_model_prefix , F"""No mask_token ({self.tokenizer.mask_token}) found on the input""" , )
def __UpperCamelCase( self , A_ ):
'''simple docstring'''
if isinstance(A_ , A_ ):
for model_input in model_inputs:
self._ensure_exactly_one_mask_token(model_input["input_ids"][0] )
else:
for input_ids in model_inputs["input_ids"]:
self._ensure_exactly_one_mask_token(A_ )
def __UpperCamelCase( self , A_ , A_=None , **A_ ):
'''simple docstring'''
if return_tensors is None:
UpperCamelCase : Dict = self.framework
UpperCamelCase : Union[str, Any] = self.tokenizer(A_ , return_tensors=A_ )
self.ensure_exactly_one_mask_token(A_ )
return model_inputs
def __UpperCamelCase( self , A_ ):
'''simple docstring'''
UpperCamelCase : List[str] = self.model(**A_ )
UpperCamelCase : Optional[Any] = model_inputs["input_ids"]
return model_outputs
def __UpperCamelCase( self , A_ , A_=5 , A_=None ):
'''simple docstring'''
if target_ids is not None and target_ids.shape[0] < top_k:
UpperCamelCase : Tuple = target_ids.shape[0]
UpperCamelCase : Tuple = model_outputs["input_ids"][0]
UpperCamelCase : Union[str, Any] = model_outputs["logits"]
if self.framework == "tf":
UpperCamelCase : Dict = tf.where(input_ids == self.tokenizer.mask_token_id ).numpy()[:, 0]
UpperCamelCase : int = outputs.numpy()
UpperCamelCase : List[Any] = outputs[0, masked_index, :]
UpperCamelCase : Dict = stable_softmax(A_ , axis=-1 )
if target_ids is not None:
UpperCamelCase : Dict = tf.gather_nd(tf.squeeze(A_ , 0 ) , target_ids.reshape(-1 , 1 ) )
UpperCamelCase : Optional[int] = tf.expand_dims(A_ , 0 )
UpperCamelCase : Tuple = tf.math.top_k(A_ , k=A_ )
UpperCamelCase , UpperCamelCase : Optional[Any] = topk.values.numpy(), topk.indices.numpy()
else:
UpperCamelCase : Optional[Any] = torch.nonzero(input_ids == self.tokenizer.mask_token_id , as_tuple=A_ ).squeeze(-1 )
# Fill mask pipeline supports only one ${mask_token} per sample
UpperCamelCase : Tuple = outputs[0, masked_index, :]
UpperCamelCase : List[Any] = logits.softmax(dim=-1 )
if target_ids is not None:
UpperCamelCase : int = probs[..., target_ids]
UpperCamelCase , UpperCamelCase : Dict = probs.topk(A_ )
UpperCamelCase : Union[str, Any] = []
UpperCamelCase : str = values.shape[0] == 1
for i, (_values, _predictions) in enumerate(zip(values.tolist() , predictions.tolist() ) ):
UpperCamelCase : Optional[int] = []
for v, p in zip(_values , _predictions ):
# Copy is important since we're going to modify this array in place
UpperCamelCase : Optional[Any] = input_ids.numpy().copy()
if target_ids is not None:
UpperCamelCase : Dict = target_ids[p].tolist()
UpperCamelCase : List[str] = p
# Filter padding out:
UpperCamelCase : Any = tokens[np.where(tokens != self.tokenizer.pad_token_id )]
# Originally we skip special tokens to give readable output.
# For multi masks though, the other [MASK] would be removed otherwise
# making the output look odd, so we add them back
UpperCamelCase : str = self.tokenizer.decode(A_ , skip_special_tokens=A_ )
UpperCamelCase : str = {"score": v, "token": p, "token_str": self.tokenizer.decode([p] ), "sequence": sequence}
row.append(A_ )
result.append(A_ )
if single_mask:
return result[0]
return result
def __UpperCamelCase( self , A_ , A_=None ):
'''simple docstring'''
if isinstance(A_ , A_ ):
UpperCamelCase : Any = [targets]
try:
UpperCamelCase : Tuple = self.tokenizer.get_vocab()
except Exception:
UpperCamelCase : List[Any] = {}
UpperCamelCase : Dict = []
for target in targets:
UpperCamelCase : List[str] = vocab.get(A_ , A_ )
if id_ is None:
UpperCamelCase : str = self.tokenizer(
A_ , add_special_tokens=A_ , return_attention_mask=A_ , return_token_type_ids=A_ , max_length=1 , truncation=A_ , )["input_ids"]
if len(A_ ) == 0:
logger.warning(
F"""The specified target token `{target}` does not exist in the model vocabulary. """
"We cannot replace it with anything meaningful, ignoring it" )
continue
UpperCamelCase : Any = input_ids[0]
# XXX: If users encounter this pass
# it becomes pretty slow, so let's make sure
# The warning enables them to fix the input to
# get faster performance.
logger.warning(
F"""The specified target token `{target}` does not exist in the model vocabulary. """
F"""Replacing with `{self.tokenizer.convert_ids_to_tokens(id_ )}`.""" )
target_ids.append(id_ )
UpperCamelCase : List[Any] = list(set(A_ ) )
if len(A_ ) == 0:
raise ValueError("At least one target must be provided when passed." )
UpperCamelCase : Optional[Any] = np.array(A_ )
return target_ids
def __UpperCamelCase( self , A_=None , A_=None ):
'''simple docstring'''
UpperCamelCase : Optional[int] = {}
if targets is not None:
UpperCamelCase : List[str] = self.get_target_ids(A_ , A_ )
UpperCamelCase : Tuple = target_ids
if top_k is not None:
UpperCamelCase : int = top_k
if self.tokenizer.mask_token_id is None:
raise PipelineException(
"fill-mask" , self.model.base_model_prefix , "The tokenizer does not define a `mask_token`." )
return {}, {}, postprocess_params
def __call__( self , A_ , *A_ , **A_ ):
'''simple docstring'''
UpperCamelCase : Optional[Any] = super().__call__(A_ , **A_ )
if isinstance(A_ , A_ ) and len(A_ ) == 1:
return outputs[0]
return outputs
| 52 |
'''simple docstring'''
import itertools
import random
import unittest
import numpy as np
from transformers import is_speech_available
from transformers.testing_utils import require_torch, require_torchaudio
from ...test_sequence_feature_extraction_common import SequenceFeatureExtractionTestMixin
if is_speech_available():
from transformers import SpeechaTextFeatureExtractor
a_ : Union[str, Any] = random.Random()
def a_ ( __snake_case : int , __snake_case : int=1.0 , __snake_case : Tuple=None , __snake_case : Union[str, Any]=None ) -> str:
"""simple docstring"""
if rng is None:
lowerCamelCase_ =global_rng
lowerCamelCase_ =[]
for batch_idx in range(shape[0] ):
values.append([] )
for _ in range(shape[1] ):
values[-1].append(rng.random() * scale )
return values
@require_torch
@require_torchaudio
class __UpperCamelCase ( unittest.TestCase ):
def __init__( self, lowerCAmelCase, lowerCAmelCase=7, lowerCAmelCase=400, lowerCAmelCase=2_000, lowerCAmelCase=24, lowerCAmelCase=24, lowerCAmelCase=0.0, lowerCAmelCase=16_000, lowerCAmelCase=True, lowerCAmelCase=True, ):
"""simple docstring"""
lowerCamelCase_ =parent
lowerCamelCase_ =batch_size
lowerCamelCase_ =min_seq_length
lowerCamelCase_ =max_seq_length
lowerCamelCase_ =(self.max_seq_length - self.min_seq_length) // (self.batch_size - 1)
lowerCamelCase_ =feature_size
lowerCamelCase_ =num_mel_bins
lowerCamelCase_ =padding_value
lowerCamelCase_ =sampling_rate
lowerCamelCase_ =return_attention_mask
lowerCamelCase_ =do_normalize
def lowercase__ ( self ):
"""simple docstring"""
return {
"feature_size": self.feature_size,
"num_mel_bins": self.num_mel_bins,
"padding_value": self.padding_value,
"sampling_rate": self.sampling_rate,
"return_attention_mask": self.return_attention_mask,
"do_normalize": self.do_normalize,
}
def lowercase__ ( self, lowerCAmelCase=False, lowerCAmelCase=False ):
"""simple docstring"""
def _flatten(lowerCAmelCase ):
return list(itertools.chain(*lowerCAmelCase ) )
if equal_length:
lowerCamelCase_ =[floats_list((self.max_seq_length, self.feature_size) ) for _ in range(self.batch_size )]
else:
# make sure that inputs increase in size
lowerCamelCase_ =[
floats_list((x, self.feature_size) )
for x in range(self.min_seq_length, self.max_seq_length, self.seq_length_diff )
]
if numpify:
lowerCamelCase_ =[np.asarray(lowerCAmelCase ) for x in speech_inputs]
return speech_inputs
@require_torch
@require_torchaudio
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : Any =SpeechaTextFeatureExtractor if is_speech_available() else None
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextFeatureExtractionTester(self )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
self.assertTrue(np.all(np.mean(lowerCAmelCase, axis=0 ) < 1e-3 ) )
self.assertTrue(np.all(np.abs(np.var(lowerCAmelCase, axis=0 ) - 1 ) < 1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
# create three inputs of length 800, 1000, and 1200
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =[np.asarray(lowerCAmelCase ) for speech_input in speech_inputs]
# Test feature size
lowerCamelCase_ =feature_extractor(lowerCAmelCase, padding=lowerCAmelCase, return_tensors='''np''' ).input_features
self.assertTrue(input_features.ndim == 3 )
self.assertTrue(input_features.shape[-1] == feature_extractor.feature_size )
# Test not batched input
lowerCamelCase_ =feature_extractor(speech_inputs[0], return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(np_speech_inputs[0], return_tensors='''np''' ).input_features
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
# Test batched
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
for enc_seq_a, enc_seq_a in zip(lowerCAmelCase, lowerCAmelCase ):
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
# Test 2-D numpy arrays are batched.
lowerCamelCase_ =[floats_list((1, x) )[0] for x in (800, 800, 800)]
lowerCamelCase_ =np.asarray(lowerCAmelCase )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''np''' ).input_features
for enc_seq_a, enc_seq_a in zip(lowerCAmelCase, lowerCAmelCase ):
self.assertTrue(np.allclose(lowerCAmelCase, lowerCAmelCase, atol=1e-3 ) )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =['''longest''', '''max_length''', '''do_not_pad''']
lowerCamelCase_ =[None, 16, None]
for max_length, padding in zip(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding=lowerCAmelCase, max_length=lowerCAmelCase, return_attention_mask=lowerCAmelCase )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =[np.sum(lowerCAmelCase ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =['''longest''', '''max_length''', '''do_not_pad''']
lowerCamelCase_ =[None, 16, None]
for max_length, padding in zip(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, max_length=lowerCAmelCase, padding=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =[np.sum(lowerCAmelCase ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self.assertTrue(input_features[0][fbank_feat_lengths[0] :].sum() < 1e-6 )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self.assertTrue(input_features[0][fbank_feat_lengths[1] :].sum() < 1e-6 )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''max_length''', max_length=4, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1] )
self._check_zero_mean_unit_variance(input_features[2] )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''longest''', max_length=4, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape, (3, 4, 24) )
lowerCamelCase_ =[floats_list((1, x) )[0] for x in range(800, 1_400, 200 )]
lowerCamelCase_ =feature_extractor(
lowerCAmelCase, padding='''longest''', max_length=16, truncation=lowerCAmelCase, return_tensors='''np''', return_attention_mask=lowerCAmelCase, )
lowerCamelCase_ =inputs.input_features
lowerCamelCase_ =inputs.attention_mask
lowerCamelCase_ =np.sum(attention_mask == 1, axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape, (3, 6, 24) )
def lowercase__ ( self ):
"""simple docstring"""
import torch
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =np.random.rand(100, 32 ).astype(np.floataa )
lowerCamelCase_ =np_speech_inputs.tolist()
for inputs in [py_speech_inputs, np_speech_inputs]:
lowerCamelCase_ =feature_extractor.pad([{'''input_features''': inputs}], return_tensors='''np''' )
self.assertTrue(np_processed.input_features.dtype == np.floataa )
lowerCamelCase_ =feature_extractor.pad([{'''input_features''': inputs}], return_tensors='''pt''' )
self.assertTrue(pt_processed.input_features.dtype == torch.floataa )
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
from datasets import load_dataset
lowerCamelCase_ =load_dataset('''hf-internal-testing/librispeech_asr_dummy''', '''clean''', split='''validation''' )
# automatic decoding with librispeech
lowerCamelCase_ =ds.sort('''id''' ).select(range(lowerCAmelCase ) )[:num_samples]['''audio''']
return [x["array"] for x in speech_samples]
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =np.array([
-1.5_7_4_5, -1.7_7_1_3, -1.7_0_2_0, -1.6_0_6_9, -1.2_2_5_0, -1.1_1_0_5, -0.9_0_7_2, -0.8_2_4_1,
-1.2_3_1_0, -0.8_0_9_8, -0.3_3_2_0, -0.4_1_0_1, -0.7_9_8_5, -0.4_9_9_6, -0.8_2_1_3, -0.9_1_2_8,
-1.0_4_2_0, -1.1_2_8_6, -1.0_4_4_0, -0.7_9_9_9, -0.8_4_0_5, -1.2_2_7_5, -1.5_4_4_3, -1.4_6_2_5,
] )
# fmt: on
lowerCamelCase_ =self._load_datasamples(1 )
lowerCamelCase_ =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
lowerCamelCase_ =feature_extractor(lowerCAmelCase, return_tensors='''pt''' ).input_features
self.assertEquals(input_features.shape, (1, 584, 24) )
self.assertTrue(np.allclose(input_features[0, 0, :30], lowerCAmelCase, atol=1e-4 ) )
| 75 | 0 |
import argparse
import json
import requests
import torch
from huggingface_hub import hf_hub_download
from PIL import Image
from torchvision import transforms
from transformers import BitImageProcessor, FocalNetConfig, FocalNetForImageClassification
from transformers.image_utils import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD, PILImageResampling
def a ( lowerCamelCase_ ):
'''simple docstring'''
lowercase__ = [2, 2, 6, 2] if '''tiny''' in model_name else [2, 2, 18, 2]
lowercase__ = True if '''large''' in model_name or '''huge''' in model_name else False
lowercase__ = True if '''large''' in model_name or '''huge''' in model_name else False
lowercase__ = True if '''large''' in model_name or '''huge''' in model_name else False
if "large" in model_name or "xlarge" in model_name or "huge" in model_name:
if "fl3" in model_name:
lowercase__ = [3, 3, 3, 3]
lowercase__ = [5, 5, 5, 5]
elif "fl4" in model_name:
lowercase__ = [4, 4, 4, 4]
lowercase__ = [3, 3, 3, 3]
if "tiny" in model_name or "small" in model_name or "base" in model_name:
lowercase__ = [3, 3, 3, 3]
if "lrf" in model_name:
lowercase__ = [3, 3, 3, 3]
else:
lowercase__ = [2, 2, 2, 2]
if "tiny" in model_name:
lowercase__ = 96
elif "small" in model_name:
lowercase__ = 96
elif "base" in model_name:
lowercase__ = 128
elif "large" in model_name:
lowercase__ = 192
elif "xlarge" in model_name:
lowercase__ = 256
elif "huge" in model_name:
lowercase__ = 352
# set label information
lowercase__ = '''huggingface/label-files'''
if "large" in model_name or "huge" in model_name:
lowercase__ = '''imagenet-22k-id2label.json'''
else:
lowercase__ = '''imagenet-1k-id2label.json'''
lowercase__ = json.load(open(hf_hub_download(__snake_case , __snake_case , repo_type='''dataset''' ) , '''r''' ) )
lowercase__ = {int(__snake_case ): v for k, v in idalabel.items()}
lowercase__ = {v: k for k, v in idalabel.items()}
lowercase__ = FocalNetConfig(
embed_dim=__snake_case , depths=__snake_case , focal_levels=__snake_case , focal_windows=__snake_case , use_conv_embed=__snake_case , idalabel=__snake_case , labelaid=__snake_case , use_post_layernorm=__snake_case , use_layerscale=__snake_case , )
return config
def a ( lowerCamelCase_ ):
'''simple docstring'''
if "patch_embed.proj" in name:
lowercase__ = name.replace('''patch_embed.proj''' , '''embeddings.patch_embeddings.projection''' )
if "patch_embed.norm" in name:
lowercase__ = name.replace('''patch_embed.norm''' , '''embeddings.norm''' )
if "layers" in name:
lowercase__ = '''encoder.''' + name
if "encoder.layers" in name:
lowercase__ = name.replace('''encoder.layers''' , '''encoder.stages''' )
if "downsample.proj" in name:
lowercase__ = name.replace('''downsample.proj''' , '''downsample.projection''' )
if "blocks" in name:
lowercase__ = name.replace('''blocks''' , '''layers''' )
if "modulation.f.weight" in name or "modulation.f.bias" in name:
lowercase__ = name.replace('''modulation.f''' , '''modulation.projection_in''' )
if "modulation.h.weight" in name or "modulation.h.bias" in name:
lowercase__ = name.replace('''modulation.h''' , '''modulation.projection_context''' )
if "modulation.proj.weight" in name or "modulation.proj.bias" in name:
lowercase__ = name.replace('''modulation.proj''' , '''modulation.projection_out''' )
if name == "norm.weight":
lowercase__ = '''layernorm.weight'''
if name == "norm.bias":
lowercase__ = '''layernorm.bias'''
if "head" in name:
lowercase__ = name.replace('''head''' , '''classifier''' )
else:
lowercase__ = '''focalnet.''' + name
return name
def a ( lowerCamelCase_ , lowerCamelCase_ , lowerCamelCase_=False ):
'''simple docstring'''
lowercase__ = {
'''focalnet-tiny''': '''https://projects4jw.blob.core.windows.net/focalnet/release/classification/focalnet_tiny_srf.pth''',
'''focalnet-tiny-lrf''': '''https://projects4jw.blob.core.windows.net/focalnet/release/classification/focalnet_tiny_lrf.pth''',
'''focalnet-small''': '''https://projects4jw.blob.core.windows.net/focalnet/release/classification/focalnet_small_srf.pth''',
'''focalnet-small-lrf''': '''https://projects4jw.blob.core.windows.net/focalnet/release/classification/focalnet_small_lrf.pth''',
'''focalnet-base''': '''https://projects4jw.blob.core.windows.net/focalnet/release/classification/focalnet_base_srf.pth''',
'''focalnet-base-lrf''': '''https://projects4jw.blob.core.windows.net/focalnet/release/classification/focalnet_base_lrf.pth''',
'''focalnet-large-lrf-fl3''': '''https://projects4jw.blob.core.windows.net/focalnet/release/classification/focalnet_large_lrf_384.pth''',
'''focalnet-large-lrf-fl4''': '''https://projects4jw.blob.core.windows.net/focalnet/release/classification/focalnet_large_lrf_384_fl4.pth''',
'''focalnet-xlarge-lrf-fl3''': '''https://projects4jw.blob.core.windows.net/focalnet/release/classification/focalnet_xlarge_lrf_384.pth''',
'''focalnet-xlarge-lrf-fl4''': '''https://projects4jw.blob.core.windows.net/focalnet/release/classification/focalnet_xlarge_lrf_384_fl4.pth''',
}
# fmt: on
lowercase__ = model_name_to_url[model_name]
print('''Checkpoint URL: ''' , __snake_case )
lowercase__ = torch.hub.load_state_dict_from_url(__snake_case , map_location='''cpu''' )['''model''']
# rename keys
for key in state_dict.copy().keys():
lowercase__ = state_dict.pop(__snake_case )
lowercase__ = val
lowercase__ = get_focalnet_config(__snake_case )
lowercase__ = FocalNetForImageClassification(__snake_case )
model.eval()
# load state dict
model.load_state_dict(__snake_case )
# verify conversion
lowercase__ = '''http://images.cocodataset.org/val2017/000000039769.jpg'''
lowercase__ = BitImageProcessor(
do_resize=__snake_case , size={'''shortest_edge''': 256} , resample=PILImageResampling.BILINEAR , do_center_crop=__snake_case , crop_size=224 , do_normalize=__snake_case , image_mean=__snake_case , image_std=__snake_case , )
lowercase__ = Image.open(requests.get(__snake_case , stream=__snake_case ).raw )
lowercase__ = processor(images=__snake_case , return_tensors='''pt''' )
lowercase__ = transforms.Compose(
[
transforms.Resize(256 ),
transforms.CenterCrop(224 ),
transforms.ToTensor(),
transforms.Normalize(mean=[0.4_85, 0.4_56, 0.4_06] , std=[0.2_29, 0.2_24, 0.2_25] ),
] )
lowercase__ = image_transforms(__snake_case ).unsqueeze(0 )
# verify pixel_values
assert torch.allclose(inputs.pixel_values , __snake_case , atol=1e-4 )
lowercase__ = model(**__snake_case )
lowercase__ = outputs.logits.argmax(-1 ).item()
print('''Predicted class:''' , model.config.idalabel[predicted_class_idx] )
print('''First values of logits:''' , outputs.logits[0, :3] )
if model_name == "focalnet-tiny":
lowercase__ = torch.tensor([0.21_66, -0.43_68, 0.21_91] )
elif model_name == "focalnet-tiny-lrf":
lowercase__ = torch.tensor([1.16_69, 0.01_25, -0.16_95] )
elif model_name == "focalnet-small":
lowercase__ = torch.tensor([0.49_17, -0.04_30, 0.13_41] )
elif model_name == "focalnet-small-lrf":
lowercase__ = torch.tensor([-0.25_88, -0.53_42, -0.23_31] )
elif model_name == "focalnet-base":
lowercase__ = torch.tensor([-0.16_55, -0.40_90, -0.17_30] )
elif model_name == "focalnet-base-lrf":
lowercase__ = torch.tensor([0.53_06, -0.04_83, -0.39_28] )
assert torch.allclose(outputs.logits[0, :3] , __snake_case , atol=1e-4 )
print('''Looks ok!''' )
if pytorch_dump_folder_path is not None:
print(F"""Saving model and processor of {model_name} to {pytorch_dump_folder_path}""" )
model.save_pretrained(__snake_case )
processor.save_pretrained(__snake_case )
if push_to_hub:
print(F"""Pushing model and processor of {model_name} to the hub...""" )
model.push_to_hub(F"""{model_name}""" )
processor.push_to_hub(F"""{model_name}""" )
if __name__ == "__main__":
A__ : str = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'--model_name',
default='focalnet-tiny',
type=str,
help='Name of the FocalNet model you\'d like to convert.',
)
parser.add_argument(
'--pytorch_dump_folder_path', default=None, type=str, help='Path to the output PyTorch model directory.'
)
parser.add_argument(
'--push_to_hub',
action='store_true',
help='Whether to push the model and processor to the hub.',
)
A__ : int = parser.parse_args()
convert_focalnet_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.push_to_hub)
| 207 |
'''simple docstring'''
def a_ ( __snake_case : Any , __snake_case : List[str] ) -> str:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in table:
res += inp[i - 1]
return res
def a_ ( __snake_case : List[str] ) -> Optional[int]:
"""simple docstring"""
return data[1:] + data[0]
def a_ ( __snake_case : str , __snake_case : Tuple ) -> int:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in range(len(__snake_case ) ):
if a[i] == b[i]:
res += "0"
else:
res += "1"
return res
def a_ ( __snake_case : Optional[Any] , __snake_case : Tuple ) -> List[Any]:
"""simple docstring"""
lowerCamelCase_ =int('''0b''' + data[0] + data[-1] , 2 )
lowerCamelCase_ =int('''0b''' + data[1:3] , 2 )
return bin(s[row][col] )[2:]
def a_ ( __snake_case : Optional[int] , __snake_case : List[str] , __snake_case : int , __snake_case : Tuple , __snake_case : List[Any] ) -> Optional[Any]:
"""simple docstring"""
lowerCamelCase_ =message[:4]
lowerCamelCase_ =message[4:]
lowerCamelCase_ =apply_table(__snake_case , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
lowerCamelCase_ =apply_sbox(__snake_case , temp[:4] ) # noqa: E741
lowerCamelCase_ =apply_sbox(__snake_case , temp[4:] )
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + l # noqa: E741
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + r
lowerCamelCase_ =apply_table(l + r , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
return temp + right
if __name__ == "__main__":
a_ : Any = input("""Enter 10 bit key: """)
a_ : Any = input("""Enter 8 bit message: """)
a_ : str = [6, 3, 7, 4, 8, 5, 10, 9]
a_ : str = [3, 5, 2, 7, 4, 10, 1, 9, 8, 6]
a_ : str = [2, 4, 3, 1]
a_ : Optional[int] = [2, 6, 3, 1, 4, 8, 5, 7]
a_ : Optional[Any] = [4, 1, 3, 5, 7, 2, 8, 6]
a_ : Union[str, Any] = [4, 1, 2, 3, 2, 3, 4, 1]
a_ : int = [[1, 0, 3, 2], [3, 2, 1, 0], [0, 2, 1, 3], [3, 1, 3, 2]]
a_ : Any = [[0, 1, 2, 3], [2, 0, 1, 3], [3, 0, 1, 0], [2, 1, 0, 3]]
# key generation
a_ : List[Any] = apply_table(key, paa_table)
a_ : str = temp[:5]
a_ : Optional[Any] = temp[5:]
a_ : Tuple = left_shift(left)
a_ : Optional[Any] = left_shift(right)
a_ : str = apply_table(left + right, pa_table)
a_ : Optional[Any] = left_shift(left)
a_ : Tuple = left_shift(right)
a_ : Union[str, Any] = left_shift(left)
a_ : List[str] = left_shift(right)
a_ : Optional[int] = apply_table(left + right, pa_table)
# encryption
a_ : Optional[int] = apply_table(message, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : str = temp[4:] + temp[:4]
a_ : List[str] = function(expansion, sa, sa, keya, temp)
a_ : Union[str, Any] = apply_table(temp, IP_inv)
print("""Cipher text is:""", CT)
# decryption
a_ : Optional[int] = apply_table(CT, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : int = temp[4:] + temp[:4]
a_ : int = function(expansion, sa, sa, keya, temp)
a_ : Optional[int] = apply_table(temp, IP_inv)
print("""Plain text after decypting is:""", PT)
| 75 | 0 |
from math import atan, cos, radians, sin, tan
from .haversine_distance import haversine_distance
_UpperCamelCase = 637_8137.0
_UpperCamelCase = 635_6752.31_4245
_UpperCamelCase = 637_8137
def _lowercase ( lowercase__ , lowercase__ , lowercase__ , lowercase__ ):
__lowerCAmelCase : Optional[int] = (AXIS_A - AXIS_B) / AXIS_A
# Parametric latitudes
# https://en.wikipedia.org/wiki/Latitude#Parametric_(or_reduced)_latitude
__lowerCAmelCase : Optional[Any] = atan((1 - flattening) * tan(radians(__snake_case ) ) )
__lowerCAmelCase : Optional[Any] = atan((1 - flattening) * tan(radians(__snake_case ) ) )
# Compute central angle between two points
# using haversine theta. sigma = haversine_distance / equatorial radius
__lowerCAmelCase : Optional[Any] = haversine_distance(__snake_case , __snake_case , __snake_case , __snake_case ) / EQUATORIAL_RADIUS
# Intermediate P and Q values
__lowerCAmelCase : List[str] = (b_lata + b_lata) / 2
__lowerCAmelCase : Optional[int] = (b_lata - b_lata) / 2
# Intermediate X value
# X = (sigma - sin(sigma)) * sin^2Pcos^2Q / cos^2(sigma/2)
__lowerCAmelCase : int = (sin(__snake_case ) ** 2) * (cos(__snake_case ) ** 2)
__lowerCAmelCase : Optional[Any] = cos(sigma / 2 ) ** 2
__lowerCAmelCase : Optional[int] = (sigma - sin(__snake_case )) * (x_numerator / x_demonimator)
# Intermediate Y value
# Y = (sigma + sin(sigma)) * cos^2Psin^2Q / sin^2(sigma/2)
__lowerCAmelCase : Union[str, Any] = (cos(__snake_case ) ** 2) * (sin(__snake_case ) ** 2)
__lowerCAmelCase : Union[str, Any] = sin(sigma / 2 ) ** 2
__lowerCAmelCase : Dict = (sigma + sin(__snake_case )) * (y_numerator / y_denominator)
return EQUATORIAL_RADIUS * (sigma - ((flattening / 2) * (x_value + y_value)))
if __name__ == "__main__":
import doctest
doctest.testmod()
| 275 |
'''simple docstring'''
import importlib
import json
import os
from collections import OrderedDict
from typing import Dict, Optional, Union
# Build the list of all feature extractors
from ...configuration_utils import PretrainedConfig
from ...dynamic_module_utils import get_class_from_dynamic_module, resolve_trust_remote_code
from ...feature_extraction_utils import FeatureExtractionMixin
from ...utils import CONFIG_NAME, FEATURE_EXTRACTOR_NAME, get_file_from_repo, logging
from .auto_factory import _LazyAutoMapping
from .configuration_auto import (
CONFIG_MAPPING_NAMES,
AutoConfig,
model_type_to_module_name,
replace_list_option_in_docstrings,
)
a_ : List[Any] = logging.get_logger(__name__)
a_ : Tuple = OrderedDict(
[
("""audio-spectrogram-transformer""", """ASTFeatureExtractor"""),
("""beit""", """BeitFeatureExtractor"""),
("""chinese_clip""", """ChineseCLIPFeatureExtractor"""),
("""clap""", """ClapFeatureExtractor"""),
("""clip""", """CLIPFeatureExtractor"""),
("""clipseg""", """ViTFeatureExtractor"""),
("""conditional_detr""", """ConditionalDetrFeatureExtractor"""),
("""convnext""", """ConvNextFeatureExtractor"""),
("""cvt""", """ConvNextFeatureExtractor"""),
("""data2vec-audio""", """Wav2Vec2FeatureExtractor"""),
("""data2vec-vision""", """BeitFeatureExtractor"""),
("""deformable_detr""", """DeformableDetrFeatureExtractor"""),
("""deit""", """DeiTFeatureExtractor"""),
("""detr""", """DetrFeatureExtractor"""),
("""dinat""", """ViTFeatureExtractor"""),
("""donut-swin""", """DonutFeatureExtractor"""),
("""dpt""", """DPTFeatureExtractor"""),
("""encodec""", """EncodecFeatureExtractor"""),
("""flava""", """FlavaFeatureExtractor"""),
("""glpn""", """GLPNFeatureExtractor"""),
("""groupvit""", """CLIPFeatureExtractor"""),
("""hubert""", """Wav2Vec2FeatureExtractor"""),
("""imagegpt""", """ImageGPTFeatureExtractor"""),
("""layoutlmv2""", """LayoutLMv2FeatureExtractor"""),
("""layoutlmv3""", """LayoutLMv3FeatureExtractor"""),
("""levit""", """LevitFeatureExtractor"""),
("""maskformer""", """MaskFormerFeatureExtractor"""),
("""mctct""", """MCTCTFeatureExtractor"""),
("""mobilenet_v1""", """MobileNetV1FeatureExtractor"""),
("""mobilenet_v2""", """MobileNetV2FeatureExtractor"""),
("""mobilevit""", """MobileViTFeatureExtractor"""),
("""nat""", """ViTFeatureExtractor"""),
("""owlvit""", """OwlViTFeatureExtractor"""),
("""perceiver""", """PerceiverFeatureExtractor"""),
("""poolformer""", """PoolFormerFeatureExtractor"""),
("""regnet""", """ConvNextFeatureExtractor"""),
("""resnet""", """ConvNextFeatureExtractor"""),
("""segformer""", """SegformerFeatureExtractor"""),
("""sew""", """Wav2Vec2FeatureExtractor"""),
("""sew-d""", """Wav2Vec2FeatureExtractor"""),
("""speech_to_text""", """Speech2TextFeatureExtractor"""),
("""speecht5""", """SpeechT5FeatureExtractor"""),
("""swiftformer""", """ViTFeatureExtractor"""),
("""swin""", """ViTFeatureExtractor"""),
("""swinv2""", """ViTFeatureExtractor"""),
("""table-transformer""", """DetrFeatureExtractor"""),
("""timesformer""", """VideoMAEFeatureExtractor"""),
("""tvlt""", """TvltFeatureExtractor"""),
("""unispeech""", """Wav2Vec2FeatureExtractor"""),
("""unispeech-sat""", """Wav2Vec2FeatureExtractor"""),
("""van""", """ConvNextFeatureExtractor"""),
("""videomae""", """VideoMAEFeatureExtractor"""),
("""vilt""", """ViltFeatureExtractor"""),
("""vit""", """ViTFeatureExtractor"""),
("""vit_mae""", """ViTFeatureExtractor"""),
("""vit_msn""", """ViTFeatureExtractor"""),
("""wav2vec2""", """Wav2Vec2FeatureExtractor"""),
("""wav2vec2-conformer""", """Wav2Vec2FeatureExtractor"""),
("""wavlm""", """Wav2Vec2FeatureExtractor"""),
("""whisper""", """WhisperFeatureExtractor"""),
("""xclip""", """CLIPFeatureExtractor"""),
("""yolos""", """YolosFeatureExtractor"""),
]
)
a_ : Optional[Any] = _LazyAutoMapping(CONFIG_MAPPING_NAMES, FEATURE_EXTRACTOR_MAPPING_NAMES)
def a_ ( __snake_case : str ) -> Any:
"""simple docstring"""
for module_name, extractors in FEATURE_EXTRACTOR_MAPPING_NAMES.items():
if class_name in extractors:
lowerCamelCase_ =model_type_to_module_name(__snake_case )
lowerCamelCase_ =importlib.import_module(F'''.{module_name}''' , '''transformers.models''' )
try:
return getattr(__snake_case , __snake_case )
except AttributeError:
continue
for _, extractor in FEATURE_EXTRACTOR_MAPPING._extra_content.items():
if getattr(__snake_case , '''__name__''' , __snake_case ) == class_name:
return extractor
# We did not fine the class, but maybe it's because a dep is missing. In that case, the class will be in the main
# init and we return the proper dummy to get an appropriate error message.
lowerCamelCase_ =importlib.import_module('''transformers''' )
if hasattr(__snake_case , __snake_case ):
return getattr(__snake_case , __snake_case )
return None
def a_ ( __snake_case : Union[str, os.PathLike] , __snake_case : Optional[Union[str, os.PathLike]] = None , __snake_case : bool = False , __snake_case : bool = False , __snake_case : Optional[Dict[str, str]] = None , __snake_case : Optional[Union[bool, str]] = None , __snake_case : Optional[str] = None , __snake_case : bool = False , **__snake_case : Union[str, Any] , ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ =get_file_from_repo(
__snake_case , __snake_case , cache_dir=__snake_case , force_download=__snake_case , resume_download=__snake_case , proxies=__snake_case , use_auth_token=__snake_case , revision=__snake_case , local_files_only=__snake_case , )
if resolved_config_file is None:
logger.info(
'''Could not locate the feature extractor configuration file, will try to use the model config instead.''' )
return {}
with open(__snake_case , encoding='''utf-8''' ) as reader:
return json.load(__snake_case )
class __UpperCamelCase :
def __init__( self ):
"""simple docstring"""
raise EnvironmentError(
'''AutoFeatureExtractor is designed to be instantiated '''
'''using the `AutoFeatureExtractor.from_pretrained(pretrained_model_name_or_path)` method.''' )
@classmethod
@replace_list_option_in_docstrings(lowerCAmelCase )
def lowercase__ ( cls, lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =kwargs.pop('''config''', lowerCAmelCase )
lowerCamelCase_ =kwargs.pop('''trust_remote_code''', lowerCAmelCase )
lowerCamelCase_ =True
lowerCamelCase_, lowerCamelCase_ =FeatureExtractionMixin.get_feature_extractor_dict(lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ =config_dict.get('''feature_extractor_type''', lowerCAmelCase )
lowerCamelCase_ =None
if "AutoFeatureExtractor" in config_dict.get('''auto_map''', {} ):
lowerCamelCase_ =config_dict['''auto_map''']['''AutoFeatureExtractor''']
# If we don't find the feature extractor class in the feature extractor config, let's try the model config.
if feature_extractor_class is None and feature_extractor_auto_map is None:
if not isinstance(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =AutoConfig.from_pretrained(lowerCAmelCase, **lowerCAmelCase )
# It could be in `config.feature_extractor_type``
lowerCamelCase_ =getattr(lowerCAmelCase, '''feature_extractor_type''', lowerCAmelCase )
if hasattr(lowerCAmelCase, '''auto_map''' ) and "AutoFeatureExtractor" in config.auto_map:
lowerCamelCase_ =config.auto_map['''AutoFeatureExtractor''']
if feature_extractor_class is not None:
lowerCamelCase_ =feature_extractor_class_from_name(lowerCAmelCase )
lowerCamelCase_ =feature_extractor_auto_map is not None
lowerCamelCase_ =feature_extractor_class is not None or type(lowerCAmelCase ) in FEATURE_EXTRACTOR_MAPPING
lowerCamelCase_ =resolve_trust_remote_code(
lowerCAmelCase, lowerCAmelCase, lowerCAmelCase, lowerCAmelCase )
if has_remote_code and trust_remote_code:
lowerCamelCase_ =get_class_from_dynamic_module(
lowerCAmelCase, lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ =kwargs.pop('''code_revision''', lowerCAmelCase )
if os.path.isdir(lowerCAmelCase ):
feature_extractor_class.register_for_auto_class()
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
elif feature_extractor_class is not None:
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
# Last try: we use the FEATURE_EXTRACTOR_MAPPING.
elif type(lowerCAmelCase ) in FEATURE_EXTRACTOR_MAPPING:
lowerCamelCase_ =FEATURE_EXTRACTOR_MAPPING[type(lowerCAmelCase )]
return feature_extractor_class.from_dict(lowerCAmelCase, **lowerCAmelCase )
raise ValueError(
f'''Unrecognized feature extractor in {pretrained_model_name_or_path}. Should have a '''
f'''`feature_extractor_type` key in its {FEATURE_EXTRACTOR_NAME} of {CONFIG_NAME}, or one of the following '''
f'''`model_type` keys in its {CONFIG_NAME}: {', '.join(c for c in FEATURE_EXTRACTOR_MAPPING_NAMES.keys() )}''' )
@staticmethod
def lowercase__ ( lowerCAmelCase, lowerCAmelCase ):
"""simple docstring"""
FEATURE_EXTRACTOR_MAPPING.register(lowerCAmelCase, lowerCAmelCase )
| 75 | 0 |
def _a ( UpperCamelCase_ : int , UpperCamelCase_ : int ) -> int:
"""simple docstring"""
while b:
lowerCAmelCase__ , lowerCAmelCase__ = b, a % b
return a
def _a ( UpperCamelCase_ : int , UpperCamelCase_ : int ) -> int:
"""simple docstring"""
return a if b == 0 else euclidean_gcd_recursive(__snake_case , a % b )
def _a ( ) -> str:
"""simple docstring"""
print(F"euclidean_gcd(3, 5) = {euclidean_gcd(3 , 5 )}" )
print(F"euclidean_gcd(5, 3) = {euclidean_gcd(5 , 3 )}" )
print(F"euclidean_gcd(1, 3) = {euclidean_gcd(1 , 3 )}" )
print(F"euclidean_gcd(3, 6) = {euclidean_gcd(3 , 6 )}" )
print(F"euclidean_gcd(6, 3) = {euclidean_gcd(6 , 3 )}" )
print(F"euclidean_gcd_recursive(3, 5) = {euclidean_gcd_recursive(3 , 5 )}" )
print(F"euclidean_gcd_recursive(5, 3) = {euclidean_gcd_recursive(5 , 3 )}" )
print(F"euclidean_gcd_recursive(1, 3) = {euclidean_gcd_recursive(1 , 3 )}" )
print(F"euclidean_gcd_recursive(3, 6) = {euclidean_gcd_recursive(3 , 6 )}" )
print(F"euclidean_gcd_recursive(6, 3) = {euclidean_gcd_recursive(6 , 3 )}" )
if __name__ == "__main__":
main()
| 340 |
'''simple docstring'''
import argparse
import csv
import logging
import os
import random
import numpy as np
import torch
from torch.utils.data import DataLoader, RandomSampler, SequentialSampler, TensorDataset
from tqdm import tqdm, trange
from transformers import (
CONFIG_NAME,
WEIGHTS_NAME,
AdamW,
OpenAIGPTDoubleHeadsModel,
OpenAIGPTTokenizer,
get_linear_schedule_with_warmup,
)
logging.basicConfig(
format="""%(asctime)s - %(levelname)s - %(name)s - %(message)s""", datefmt="""%m/%d/%Y %H:%M:%S""", level=logging.INFO
)
a_ : Optional[int] = logging.getLogger(__name__)
def a_ ( __snake_case : Union[str, Any] , __snake_case : Union[str, Any] ) -> str:
"""simple docstring"""
lowerCamelCase_ =np.argmax(__snake_case , axis=1 )
return np.sum(outputs == labels )
def a_ ( __snake_case : List[Any] ) -> Tuple:
"""simple docstring"""
with open(__snake_case , encoding='''utf_8''' ) as f:
lowerCamelCase_ =csv.reader(__snake_case )
lowerCamelCase_ =[]
next(__snake_case ) # skip the first line
for line in tqdm(__snake_case ):
output.append((''' '''.join(line[1:5] ), line[5], line[6], int(line[-1] ) - 1) )
return output
def a_ ( __snake_case : str , __snake_case : Dict , __snake_case : List[str] , __snake_case : List[str] , __snake_case : List[Any] , __snake_case : Dict ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =[]
for dataset in encoded_datasets:
lowerCamelCase_ =len(__snake_case )
lowerCamelCase_ =np.zeros((n_batch, 2, input_len) , dtype=np.intaa )
lowerCamelCase_ =np.zeros((n_batch, 2) , dtype=np.intaa )
lowerCamelCase_ =np.full((n_batch, 2, input_len) , fill_value=-100 , dtype=np.intaa )
lowerCamelCase_ =np.zeros((n_batch,) , dtype=np.intaa )
for (
i,
(story, conta, conta, mc_label),
) in enumerate(__snake_case ):
lowerCamelCase_ =[start_token] + story[:cap_length] + [delimiter_token] + conta[:cap_length] + [clf_token]
lowerCamelCase_ =[start_token] + story[:cap_length] + [delimiter_token] + conta[:cap_length] + [clf_token]
lowerCamelCase_ =with_conta
lowerCamelCase_ =with_conta
lowerCamelCase_ =len(__snake_case ) - 1
lowerCamelCase_ =len(__snake_case ) - 1
lowerCamelCase_ =with_conta
lowerCamelCase_ =with_conta
lowerCamelCase_ =mc_label
lowerCamelCase_ =(input_ids, mc_token_ids, lm_labels, mc_labels)
tensor_datasets.append(tuple(torch.tensor(__snake_case ) for t in all_inputs ) )
return tensor_datasets
def a_ ( ) -> Optional[int]:
"""simple docstring"""
lowerCamelCase_ =argparse.ArgumentParser()
parser.add_argument('''--model_name''' , type=__snake_case , default='''openai-gpt''' , help='''pretrained model name''' )
parser.add_argument('''--do_train''' , action='''store_true''' , help='''Whether to run training.''' )
parser.add_argument('''--do_eval''' , action='''store_true''' , help='''Whether to run eval on the dev set.''' )
parser.add_argument(
'''--output_dir''' , default=__snake_case , type=__snake_case , required=__snake_case , help='''The output directory where the model predictions and checkpoints will be written.''' , )
parser.add_argument('''--train_dataset''' , type=__snake_case , default='''''' )
parser.add_argument('''--eval_dataset''' , type=__snake_case , default='''''' )
parser.add_argument('''--seed''' , type=__snake_case , default=42 )
parser.add_argument('''--num_train_epochs''' , type=__snake_case , default=3 )
parser.add_argument('''--train_batch_size''' , type=__snake_case , default=8 )
parser.add_argument('''--eval_batch_size''' , type=__snake_case , default=16 )
parser.add_argument('''--adam_epsilon''' , default=1e-8 , type=__snake_case , help='''Epsilon for Adam optimizer.''' )
parser.add_argument('''--max_grad_norm''' , type=__snake_case , default=1 )
parser.add_argument(
'''--max_steps''' , default=-1 , type=__snake_case , help=(
'''If > 0: set total number of training steps to perform. Override num_train_epochs.'''
) , )
parser.add_argument(
'''--gradient_accumulation_steps''' , type=__snake_case , default=1 , help='''Number of updates steps to accumulate before performing a backward/update pass.''' , )
parser.add_argument('''--learning_rate''' , type=__snake_case , default=6.25e-5 )
parser.add_argument('''--warmup_steps''' , default=0 , type=__snake_case , help='''Linear warmup over warmup_steps.''' )
parser.add_argument('''--lr_schedule''' , type=__snake_case , default='''warmup_linear''' )
parser.add_argument('''--weight_decay''' , type=__snake_case , default=0.0_1 )
parser.add_argument('''--lm_coef''' , type=__snake_case , default=0.9 )
parser.add_argument('''--n_valid''' , type=__snake_case , default=374 )
parser.add_argument('''--server_ip''' , type=__snake_case , default='''''' , help='''Can be used for distant debugging.''' )
parser.add_argument('''--server_port''' , type=__snake_case , default='''''' , help='''Can be used for distant debugging.''' )
lowerCamelCase_ =parser.parse_args()
print(__snake_case )
if args.server_ip and args.server_port:
# Distant debugging - see https://code.visualstudio.com/docs/python/debugging#_attach-to-a-local-script
import ptvsd
print('''Waiting for debugger attach''' )
ptvsd.enable_attach(address=(args.server_ip, args.server_port) , redirect_output=__snake_case )
ptvsd.wait_for_attach()
random.seed(args.seed )
np.random.seed(args.seed )
torch.manual_seed(args.seed )
torch.cuda.manual_seed_all(args.seed )
lowerCamelCase_ =torch.device('''cuda''' if torch.cuda.is_available() else '''cpu''' )
lowerCamelCase_ =torch.cuda.device_count()
logger.info('''device: {}, n_gpu {}'''.format(__snake_case , __snake_case ) )
if not args.do_train and not args.do_eval:
raise ValueError('''At least one of `do_train` or `do_eval` must be True.''' )
if not os.path.exists(args.output_dir ):
os.makedirs(args.output_dir )
# Load tokenizer and model
# This loading functions also add new tokens and embeddings called `special tokens`
# These new embeddings will be fine-tuned on the RocStories dataset
lowerCamelCase_ =['''_start_''', '''_delimiter_''', '''_classify_''']
lowerCamelCase_ =OpenAIGPTTokenizer.from_pretrained(args.model_name )
tokenizer.add_tokens(__snake_case )
lowerCamelCase_ =tokenizer.convert_tokens_to_ids(__snake_case )
lowerCamelCase_ =OpenAIGPTDoubleHeadsModel.from_pretrained(args.model_name )
model.resize_token_embeddings(len(__snake_case ) )
model.to(__snake_case )
# Load and encode the datasets
def tokenize_and_encode(__snake_case : Union[str, Any] ):
if isinstance(__snake_case , __snake_case ):
return tokenizer.convert_tokens_to_ids(tokenizer.tokenize(__snake_case ) )
elif isinstance(__snake_case , __snake_case ):
return obj
return [tokenize_and_encode(__snake_case ) for o in obj]
logger.info('''Encoding dataset...''' )
lowerCamelCase_ =load_rocstories_dataset(args.train_dataset )
lowerCamelCase_ =load_rocstories_dataset(args.eval_dataset )
lowerCamelCase_ =(train_dataset, eval_dataset)
lowerCamelCase_ =tokenize_and_encode(__snake_case )
# Compute the max input length for the Transformer
lowerCamelCase_ =model.config.n_positions // 2 - 2
lowerCamelCase_ =max(
len(story[:max_length] ) + max(len(conta[:max_length] ) , len(conta[:max_length] ) ) + 3
for dataset in encoded_datasets
for story, conta, conta, _ in dataset )
lowerCamelCase_ =min(__snake_case , model.config.n_positions ) # Max size of input for the pre-trained model
# Prepare inputs tensors and dataloaders
lowerCamelCase_ =pre_process_datasets(__snake_case , __snake_case , __snake_case , *__snake_case )
lowerCamelCase_, lowerCamelCase_ =tensor_datasets[0], tensor_datasets[1]
lowerCamelCase_ =TensorDataset(*__snake_case )
lowerCamelCase_ =RandomSampler(__snake_case )
lowerCamelCase_ =DataLoader(__snake_case , sampler=__snake_case , batch_size=args.train_batch_size )
lowerCamelCase_ =TensorDataset(*__snake_case )
lowerCamelCase_ =SequentialSampler(__snake_case )
lowerCamelCase_ =DataLoader(__snake_case , sampler=__snake_case , batch_size=args.eval_batch_size )
# Prepare optimizer
if args.do_train:
if args.max_steps > 0:
lowerCamelCase_ =args.max_steps
lowerCamelCase_ =args.max_steps // (len(__snake_case ) // args.gradient_accumulation_steps) + 1
else:
lowerCamelCase_ =len(__snake_case ) // args.gradient_accumulation_steps * args.num_train_epochs
lowerCamelCase_ =list(model.named_parameters() )
lowerCamelCase_ =['''bias''', '''LayerNorm.bias''', '''LayerNorm.weight''']
lowerCamelCase_ =[
{
'''params''': [p for n, p in param_optimizer if not any(nd in n for nd in no_decay )],
'''weight_decay''': args.weight_decay,
},
{'''params''': [p for n, p in param_optimizer if any(nd in n for nd in no_decay )], '''weight_decay''': 0.0},
]
lowerCamelCase_ =AdamW(__snake_case , lr=args.learning_rate , eps=args.adam_epsilon )
lowerCamelCase_ =get_linear_schedule_with_warmup(
__snake_case , num_warmup_steps=args.warmup_steps , num_training_steps=__snake_case )
if args.do_train:
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =0, 0, None
model.train()
for _ in trange(int(args.num_train_epochs ) , desc='''Epoch''' ):
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =tqdm(__snake_case , desc='''Training''' )
for step, batch in enumerate(__snake_case ):
lowerCamelCase_ =tuple(t.to(__snake_case ) for t in batch )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =batch
lowerCamelCase_ =model(__snake_case , mc_token_ids=__snake_case , lm_labels=__snake_case , mc_labels=__snake_case )
lowerCamelCase_ =args.lm_coef * losses[0] + losses[1]
loss.backward()
optimizer.step()
scheduler.step()
optimizer.zero_grad()
tr_loss += loss.item()
lowerCamelCase_ =(
loss.item() if exp_average_loss is None else 0.7 * exp_average_loss + 0.3 * loss.item()
)
nb_tr_steps += 1
lowerCamelCase_ ='''Training loss: {:.2e} lr: {:.2e}'''.format(__snake_case , scheduler.get_lr()[0] )
# Save a trained model
if args.do_train:
# Save a trained model, configuration and tokenizer
lowerCamelCase_ =model.module if hasattr(__snake_case , '''module''' ) else model # Only save the model itself
# If we save using the predefined names, we can load using `from_pretrained`
lowerCamelCase_ =os.path.join(args.output_dir , __snake_case )
lowerCamelCase_ =os.path.join(args.output_dir , __snake_case )
torch.save(model_to_save.state_dict() , __snake_case )
model_to_save.config.to_json_file(__snake_case )
tokenizer.save_vocabulary(args.output_dir )
# Load a trained model and vocabulary that you have fine-tuned
lowerCamelCase_ =OpenAIGPTDoubleHeadsModel.from_pretrained(args.output_dir )
lowerCamelCase_ =OpenAIGPTTokenizer.from_pretrained(args.output_dir )
model.to(__snake_case )
if args.do_eval:
model.eval()
lowerCamelCase_, lowerCamelCase_ =0, 0
lowerCamelCase_, lowerCamelCase_ =0, 0
for batch in tqdm(__snake_case , desc='''Evaluating''' ):
lowerCamelCase_ =tuple(t.to(__snake_case ) for t in batch )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =batch
with torch.no_grad():
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =model(
__snake_case , mc_token_ids=__snake_case , lm_labels=__snake_case , mc_labels=__snake_case )
lowerCamelCase_ =mc_logits.detach().cpu().numpy()
lowerCamelCase_ =mc_labels.to('''cpu''' ).numpy()
lowerCamelCase_ =accuracy(__snake_case , __snake_case )
eval_loss += mc_loss.mean().item()
eval_accuracy += tmp_eval_accuracy
nb_eval_examples += input_ids.size(0 )
nb_eval_steps += 1
lowerCamelCase_ =eval_loss / nb_eval_steps
lowerCamelCase_ =eval_accuracy / nb_eval_examples
lowerCamelCase_ =tr_loss / nb_tr_steps if args.do_train else None
lowerCamelCase_ ={'''eval_loss''': eval_loss, '''eval_accuracy''': eval_accuracy, '''train_loss''': train_loss}
lowerCamelCase_ =os.path.join(args.output_dir , '''eval_results.txt''' )
with open(__snake_case , '''w''' ) as writer:
logger.info('''***** Eval results *****''' )
for key in sorted(result.keys() ):
logger.info(''' %s = %s''' , __snake_case , str(result[key] ) )
writer.write('''%s = %s\n''' % (key, str(result[key] )) )
if __name__ == "__main__":
main()
| 75 | 0 |
'''simple docstring'''
from __future__ import annotations
def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase , lowerCAmelCase ):
"""simple docstring"""
if (voltage, current, resistance).count(0 ) != 1:
raise ValueError("""One and only one argument must be 0""" )
if resistance < 0:
raise ValueError("""Resistance cannot be negative""" )
if voltage == 0:
return {"voltage": float(current * resistance )}
elif current == 0:
return {"current": voltage / resistance}
elif resistance == 0:
return {"resistance": voltage / current}
else:
raise ValueError("""Exactly one argument must be 0""" )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 70 |
'''simple docstring'''
import copy
import os
import cva
import numpy as np
from matplotlib import pyplot as plt
class __UpperCamelCase :
def __init__( self ):
"""simple docstring"""
lowerCamelCase_ =''''''
lowerCamelCase_ =''''''
lowerCamelCase_ =[]
lowerCamelCase_ =0
lowerCamelCase_ =256
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =0
lowerCamelCase_ =0
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =cva.imread(lowerCAmelCase, 0 )
lowerCamelCase_ =copy.deepcopy(self.img )
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =plt.hist(self.img.ravel(), 256, [0, 256], label='''x''' )
lowerCamelCase_ =np.sum(lowerCAmelCase )
for i in range(len(lowerCAmelCase ) ):
lowerCamelCase_ =x[i] / self.k
self.sk += prk
lowerCamelCase_ =(self.L - 1) * self.sk
if self.rem != 0:
lowerCamelCase_ =int(last % last )
lowerCamelCase_ =int(last + 1 if self.rem >= 0.5 else last )
self.last_list.append(lowerCAmelCase )
lowerCamelCase_ =int(np.ma.count(self.img ) / self.img[1].size )
lowerCamelCase_ =self.img[1].size
for i in range(self.number_of_cols ):
for j in range(self.number_of_rows ):
lowerCamelCase_ =self.img[j][i]
if num != self.last_list[num]:
lowerCamelCase_ =self.last_list[num]
cva.imwrite('''output_data/output.jpg''', self.img )
def lowercase__ ( self ):
"""simple docstring"""
plt.hist(self.img.ravel(), 256, [0, 256] )
def lowercase__ ( self ):
"""simple docstring"""
cva.imshow('''Output-Image''', self.img )
cva.imshow('''Input-Image''', self.original_image )
cva.waitKey(5_000 )
cva.destroyAllWindows()
if __name__ == "__main__":
a_ : str = os.path.join(os.path.basename(__file__), """image_data/input.jpg""")
a_ : Optional[Any] = ConstantStretch()
stretcher.stretch(file_path)
stretcher.plot_histogram()
stretcher.show_image()
| 75 | 0 |
"""simple docstring"""
import inspect
import os
import re
from transformers.configuration_utils import PretrainedConfig
from transformers.utils import direct_transformers_import
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_config_docstrings.py
lowerCAmelCase : Tuple = """src/transformers"""
# This is to make sure the transformers module imported is the one in the repo.
lowerCAmelCase : Dict = direct_transformers_import(PATH_TO_TRANSFORMERS)
lowerCAmelCase : Any = transformers.models.auto.configuration_auto.CONFIG_MAPPING
lowerCAmelCase : Tuple = {
# used to compute the property `self.chunk_length`
"""EncodecConfig""": ["""overlap"""],
# used as `self.bert_model = BertModel(config, ...)`
"""DPRConfig""": True,
# not used in modeling files, but it's an important information
"""FSMTConfig""": ["""langs"""],
# used internally in the configuration class file
"""GPTNeoConfig""": ["""attention_types"""],
# used internally in the configuration class file
"""EsmConfig""": ["""is_folding_model"""],
# used during training (despite we don't have training script for these models yet)
"""Mask2FormerConfig""": ["""ignore_value"""],
# `ignore_value` used during training (despite we don't have training script for these models yet)
# `norm` used in conversion script (despite not using in the modeling file)
"""OneFormerConfig""": ["""ignore_value""", """norm"""],
# used during preprocessing and collation, see `collating_graphormer.py`
"""GraphormerConfig""": ["""spatial_pos_max"""],
# used internally in the configuration class file
"""T5Config""": ["""feed_forward_proj"""],
# used internally in the configuration class file
# `tokenizer_class` get default value `T5Tokenizer` intentionally
"""MT5Config""": ["""feed_forward_proj""", """tokenizer_class"""],
"""UMT5Config""": ["""feed_forward_proj""", """tokenizer_class"""],
# used internally in the configuration class file
"""LongT5Config""": ["""feed_forward_proj"""],
# used internally in the configuration class file
"""SwitchTransformersConfig""": ["""feed_forward_proj"""],
# having default values other than `1e-5` - we can't fix them without breaking
"""BioGptConfig""": ["""layer_norm_eps"""],
# having default values other than `1e-5` - we can't fix them without breaking
"""GLPNConfig""": ["""layer_norm_eps"""],
# having default values other than `1e-5` - we can't fix them without breaking
"""SegformerConfig""": ["""layer_norm_eps"""],
# having default values other than `1e-5` - we can't fix them without breaking
"""CvtConfig""": ["""layer_norm_eps"""],
# having default values other than `1e-5` - we can't fix them without breaking
"""PerceiverConfig""": ["""layer_norm_eps"""],
# used internally to calculate the feature size
"""InformerConfig""": ["""num_static_real_features""", """num_time_features"""],
# used internally to calculate the feature size
"""TimeSeriesTransformerConfig""": ["""num_static_real_features""", """num_time_features"""],
# used internally to calculate the feature size
"""AutoformerConfig""": ["""num_static_real_features""", """num_time_features"""],
# used internally to calculate `mlp_dim`
"""SamVisionConfig""": ["""mlp_ratio"""],
# For (head) training, but so far not implemented
"""ClapAudioConfig""": ["""num_classes"""],
# Not used, but providing useful information to users
"""SpeechT5HifiGanConfig""": ["""sampling_rate"""],
}
# TODO (ydshieh): Check the failing cases, try to fix them or move some cases to the above block once we are sure
SPECIAL_CASES_TO_ALLOW.update(
{
"""CLIPSegConfig""": True,
"""DeformableDetrConfig""": True,
"""DetaConfig""": True,
"""DinatConfig""": True,
"""DonutSwinConfig""": True,
"""EfficientFormerConfig""": True,
"""FSMTConfig""": True,
"""JukeboxConfig""": True,
"""LayoutLMv2Config""": True,
"""MaskFormerSwinConfig""": True,
"""MT5Config""": True,
"""NatConfig""": True,
"""OneFormerConfig""": True,
"""PerceiverConfig""": True,
"""RagConfig""": True,
"""SpeechT5Config""": True,
"""SwinConfig""": True,
"""Swin2SRConfig""": True,
"""Swinv2Config""": True,
"""SwitchTransformersConfig""": True,
"""TableTransformerConfig""": True,
"""TapasConfig""": True,
"""TransfoXLConfig""": True,
"""UniSpeechConfig""": True,
"""UniSpeechSatConfig""": True,
"""WavLMConfig""": True,
"""WhisperConfig""": True,
# TODO: @Arthur (for `alignment_head` and `alignment_layer`)
"""JukeboxPriorConfig""": True,
# TODO: @Younes (for `is_decoder`)
"""Pix2StructTextConfig""": True,
}
)
def a__ ( snake_case__ , snake_case__ , snake_case__ , snake_case__ ) -> Optional[Any]:
lowerCamelCase = False
for attribute in attributes:
for modeling_source in source_strings:
# check if we can find `config.xxx`, `getattr(config, "xxx", ...)` or `getattr(self.config, "xxx", ...)`
if (
F'config.{attribute}' in modeling_source
or F'getattr(config, "{attribute}"' in modeling_source
or F'getattr(self.config, "{attribute}"' in modeling_source
):
lowerCamelCase = True
# Deal with multi-line cases
elif (
re.search(
RF'getattr[ \t\v\n\r\f]*\([ \t\v\n\r\f]*(self\.)?config,[ \t\v\n\r\f]*"{attribute}"' , __snake_case , )
is not None
):
lowerCamelCase = True
# `SequenceSummary` is called with `SequenceSummary(config)`
elif attribute in [
"summary_type",
"summary_use_proj",
"summary_activation",
"summary_last_dropout",
"summary_proj_to_labels",
"summary_first_dropout",
]:
if "SequenceSummary" in modeling_source:
lowerCamelCase = True
if attribute_used:
break
if attribute_used:
break
# common and important attributes, even if they do not always appear in the modeling files
lowerCamelCase = [
"""bos_index""",
"""eos_index""",
"""pad_index""",
"""unk_index""",
"""mask_index""",
"""image_size""",
"""use_cache""",
"""out_features""",
"""out_indices""",
]
lowerCamelCase = ["""encoder_no_repeat_ngram_size"""]
# Special cases to be allowed
lowerCamelCase = True
if not attribute_used:
lowerCamelCase = False
for attribute in attributes:
# Allow if the default value in the configuration class is different from the one in `PretrainedConfig`
if attribute in ["is_encoder_decoder"] and default_value is True:
lowerCamelCase = True
elif attribute in ["tie_word_embeddings"] and default_value is False:
lowerCamelCase = True
# Allow cases without checking the default value in the configuration class
elif attribute in attributes_to_allow + attributes_used_in_generation:
lowerCamelCase = True
elif attribute.endswith("""_token_id""" ):
lowerCamelCase = True
# configuration class specific cases
if not case_allowed:
lowerCamelCase = SPECIAL_CASES_TO_ALLOW.get(config_class.__name__ , [] )
lowerCamelCase = allowed_cases is True or attribute in allowed_cases
return attribute_used or case_allowed
def a__ ( snake_case__ ) -> Optional[int]:
lowerCamelCase = dict(inspect.signature(config_class.__init__ ).parameters )
lowerCamelCase = [x for x in list(signature.keys() ) if x not in ["""self""", """kwargs"""]]
lowerCamelCase = [signature[param].default for param in parameter_names]
# If `attribute_map` exists, an attribute can have different names to be used in the modeling files, and as long
# as one variant is used, the test should pass
lowerCamelCase = {}
if len(config_class.attribute_map ) > 0:
lowerCamelCase = {v: k for k, v in config_class.attribute_map.items()}
# Get the path to modeling source files
lowerCamelCase = inspect.getsourcefile(__snake_case )
lowerCamelCase = os.path.dirname(__snake_case )
# Let's check against all frameworks: as long as one framework uses an attribute, we are good.
lowerCamelCase = [os.path.join(__snake_case , __snake_case ) for fn in os.listdir(__snake_case ) if fn.startswith("""modeling_""" )]
# Get the source code strings
lowerCamelCase = []
for path in modeling_paths:
if os.path.isfile(__snake_case ):
with open(__snake_case ) as fp:
modeling_sources.append(fp.read() )
lowerCamelCase = []
for config_param, default_value in zip(__snake_case , __snake_case ):
# `attributes` here is all the variant names for `config_param`
lowerCamelCase = [config_param]
# some configuration classes have non-empty `attribute_map`, and both names could be used in the
# corresponding modeling files. As long as one of them appears, it is fine.
if config_param in reversed_attribute_map:
attributes.append(reversed_attribute_map[config_param] )
if not check_attribute_being_used(__snake_case , __snake_case , __snake_case , __snake_case ):
unused_attributes.append(attributes[0] )
return sorted(__snake_case )
def a__ ( ) -> List[Any]:
lowerCamelCase = {}
for _config_class in list(CONFIG_MAPPING.values() ):
# Skip deprecated models
if "models.deprecated" in _config_class.__module__:
continue
# Some config classes are not in `CONFIG_MAPPING` (e.g. `CLIPVisionConfig`, `Blip2VisionConfig`, etc.)
lowerCamelCase = [
cls
for name, cls in inspect.getmembers(
inspect.getmodule(_config_class ) , lambda snake_case__ : inspect.isclass(__snake_case )
and issubclass(__snake_case , __snake_case )
and inspect.getmodule(__snake_case ) == inspect.getmodule(_config_class ) , )
]
for config_class in config_classes_in_module:
lowerCamelCase = check_config_attributes_being_used(__snake_case )
if len(__snake_case ) > 0:
lowerCamelCase = unused_attributes
if len(__snake_case ) > 0:
lowerCamelCase = """The following configuration classes contain unused attributes in the corresponding modeling files:\n"""
for name, attributes in configs_with_unused_attributes.items():
error += F'{name}: {attributes}\n'
raise ValueError(__snake_case )
if __name__ == "__main__":
check_config_attributes()
| 291 |
'''simple docstring'''
from collections import UserDict
from typing import Union
import numpy as np
import requests
from ..utils import (
add_end_docstrings,
logging,
)
from .audio_classification import ffmpeg_read
from .base import PIPELINE_INIT_ARGS, Pipeline
a_ : Any = logging.get_logger(__name__)
@add_end_docstrings(lowerCamelCase__ )
class __UpperCamelCase ( lowerCamelCase__ ):
def __init__( self, **lowerCAmelCase ):
"""simple docstring"""
super().__init__(**lowerCAmelCase )
if self.framework != "pt":
raise ValueError(f'''The {self.__class__} is only available in PyTorch.''' )
# No specific FOR_XXX available yet
def __call__( self, lowerCAmelCase, **lowerCAmelCase ):
"""simple docstring"""
return super().__call__(lowerCAmelCase, **lowerCAmelCase )
def lowercase__ ( self, **lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ ={}
if "candidate_labels" in kwargs:
lowerCamelCase_ =kwargs['''candidate_labels''']
if "hypothesis_template" in kwargs:
lowerCamelCase_ =kwargs['''hypothesis_template''']
return preprocess_params, {}, {}
def lowercase__ ( self, lowerCAmelCase, lowerCAmelCase=None, lowerCAmelCase="This is a sound of {}." ):
"""simple docstring"""
if isinstance(lowerCAmelCase, lowerCAmelCase ):
if audio.startswith('''http://''' ) or audio.startswith('''https://''' ):
# We need to actually check for a real protocol, otherwise it's impossible to use a local file
# like http_huggingface_co.png
lowerCamelCase_ =requests.get(lowerCAmelCase ).content
else:
with open(lowerCAmelCase, '''rb''' ) as f:
lowerCamelCase_ =f.read()
if isinstance(lowerCAmelCase, lowerCAmelCase ):
lowerCamelCase_ =ffmpeg_read(lowerCAmelCase, self.feature_extractor.sampling_rate )
if not isinstance(lowerCAmelCase, np.ndarray ):
raise ValueError('''We expect a numpy ndarray as input''' )
if len(audio.shape ) != 1:
raise ValueError('''We expect a single channel audio input for ZeroShotAudioClassificationPipeline''' )
lowerCamelCase_ =self.feature_extractor(
[audio], sampling_rate=self.feature_extractor.sampling_rate, return_tensors='''pt''' )
lowerCamelCase_ =candidate_labels
lowerCamelCase_ =[hypothesis_template.format(lowerCAmelCase ) for x in candidate_labels]
lowerCamelCase_ =self.tokenizer(lowerCAmelCase, return_tensors=self.framework, padding=lowerCAmelCase )
lowerCamelCase_ =[text_inputs]
return inputs
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =model_inputs.pop('''candidate_labels''' )
lowerCamelCase_ =model_inputs.pop('''text_inputs''' )
if isinstance(text_inputs[0], lowerCAmelCase ):
lowerCamelCase_ =text_inputs[0]
else:
# Batching case.
lowerCamelCase_ =text_inputs[0][0]
lowerCamelCase_ =self.model(**lowerCAmelCase, **lowerCAmelCase )
lowerCamelCase_ ={
'''candidate_labels''': candidate_labels,
'''logits''': outputs.logits_per_audio,
}
return model_outputs
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
lowerCamelCase_ =model_outputs.pop('''candidate_labels''' )
lowerCamelCase_ =model_outputs['''logits'''][0]
if self.framework == "pt":
lowerCamelCase_ =logits.softmax(dim=0 )
lowerCamelCase_ =probs.tolist()
else:
raise ValueError('''`tf` framework not supported.''' )
lowerCamelCase_ =[
{'''score''': score, '''label''': candidate_label}
for score, candidate_label in sorted(zip(lowerCAmelCase, lowerCAmelCase ), key=lambda lowerCAmelCase : -x[0] )
]
return result
| 75 | 0 |
"""simple docstring"""
from __future__ import annotations
def lowerCAmelCase__ ( _UpperCamelCase : str , _UpperCamelCase : list[str] | None = None , _UpperCamelCase : dict[str, float] | None = None , _UpperCamelCase : bool = False , ) -> tuple[int, float, str]:
"""simple docstring"""
snake_case = cipher_alphabet or [chr(__snake_case ) for i in range(9_7 , 1_2_3 )]
# If the argument is None or the user provided an empty dictionary
if not frequencies_dict:
# Frequencies of letters in the english language (how much they show up)
snake_case = {
'a': 0.0_84_97,
'b': 0.0_14_92,
'c': 0.0_22_02,
'd': 0.0_42_53,
'e': 0.1_11_62,
'f': 0.0_22_28,
'g': 0.0_20_15,
'h': 0.0_60_94,
'i': 0.0_75_46,
'j': 0.0_01_53,
'k': 0.0_12_92,
'l': 0.0_40_25,
'm': 0.0_24_06,
'n': 0.0_67_49,
'o': 0.0_75_07,
'p': 0.0_19_29,
'q': 0.0_00_95,
'r': 0.0_75_87,
's': 0.0_63_27,
't': 0.0_93_56,
'u': 0.0_27_58,
'v': 0.0_09_78,
'w': 0.0_25_60,
'x': 0.0_01_50,
'y': 0.0_19_94,
'z': 0.0_00_77,
}
else:
# Custom frequencies dictionary
snake_case = frequencies_dict
if not case_sensitive:
snake_case = ciphertext.lower()
# Chi squared statistic values
snake_case = {}
# cycle through all of the shifts
for shift in range(len(__snake_case ) ):
snake_case = ''
# decrypt the message with the shift
for letter in ciphertext:
try:
# Try to index the letter in the alphabet
snake_case = (alphabet_letters.index(letter.lower() ) - shift) % len(
__snake_case )
decrypted_with_shift += (
alphabet_letters[new_key].upper()
if case_sensitive and letter.isupper()
else alphabet_letters[new_key]
)
except ValueError:
# Append the character if it isn't in the alphabet
decrypted_with_shift += letter
snake_case = 0.0
# Loop through each letter in the decoded message with the shift
for letter in decrypted_with_shift:
if case_sensitive:
snake_case = letter.lower()
if letter in frequencies:
# Get the amount of times the letter occurs in the message
snake_case = decrypted_with_shift.lower().count(__snake_case )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
snake_case = frequencies[letter] * occurrences
# Complete the chi squared statistic formula
snake_case = ((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
else:
if letter.lower() in frequencies:
# Get the amount of times the letter occurs in the message
snake_case = decrypted_with_shift.count(__snake_case )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
snake_case = frequencies[letter] * occurrences
# Complete the chi squared statistic formula
snake_case = ((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
# Add the data to the chi_squared_statistic_values dictionary
snake_case = (
chi_squared_statistic,
decrypted_with_shift,
)
# Get the most likely cipher by finding the cipher with the smallest chi squared
# statistic
def chi_squared_statistic_values_sorting_key(_UpperCamelCase : int ) -> tuple[float, str]:
return chi_squared_statistic_values[key]
snake_case = min(
__snake_case , key=__snake_case , )
# Get all the data from the most likely cipher (key, decoded message)
(
(
snake_case
) ,(
snake_case
) ,
) = chi_squared_statistic_values[most_likely_cipher]
# Return the data on the most likely shift
return (
most_likely_cipher,
most_likely_cipher_chi_squared_value,
decoded_most_likely_cipher,
)
| 150 |
'''simple docstring'''
import unittest
from pathlib import Path
from shutil import copyfile
from transformers import SPIECE_UNDERLINE, is_sentencepiece_available
from transformers.models.speech_to_text import SpeechaTextTokenizer
from transformers.models.speech_to_text.tokenization_speech_to_text import VOCAB_FILES_NAMES, save_json
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
a_ : str = get_tests_dir("""fixtures/test_sentencepiece.model""")
if is_sentencepiece_available():
import sentencepiece as sp
a_ : Optional[Any] = 5
a_ : str = 10
@require_sentencepiece
@require_tokenizers
class __UpperCamelCase ( lowerCamelCase__ , unittest.TestCase ):
lowercase : int =SpeechaTextTokenizer
lowercase : int =False
lowercase : List[str] =True
def lowercase__ ( self ):
"""simple docstring"""
super().setUp()
lowerCamelCase_ =sp.SentencePieceProcessor()
spm_model.Load(lowerCAmelCase )
lowerCamelCase_ =['''<s>''', '''<pad>''', '''</s>''', '''<unk>''']
vocab += [spm_model.IdToPiece(id_ ) for id_ in range(len(lowerCAmelCase ) )]
lowerCamelCase_ =dict(zip(lowerCAmelCase, range(len(lowerCAmelCase ) ) ) )
lowerCamelCase_ =Path(self.tmpdirname )
save_json(lowerCAmelCase, save_dir / VOCAB_FILES_NAMES['''vocab_file'''] )
if not (save_dir / VOCAB_FILES_NAMES["spm_file"]).exists():
copyfile(lowerCAmelCase, save_dir / VOCAB_FILES_NAMES['''spm_file'''] )
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(self.tmpdirname )
tokenizer.save_pretrained(self.tmpdirname )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''<pad>'''
lowerCamelCase_ =1
self.assertEqual(self.get_tokenizer()._convert_token_to_id(lowerCAmelCase ), lowerCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(lowerCAmelCase ), lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0], '''<s>''' )
self.assertEqual(vocab_keys[1], '''<pad>''' )
self.assertEqual(vocab_keys[-1], '''j''' )
self.assertEqual(len(lowerCAmelCase ), 1_001 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size, 1_001 )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(self.tmpdirname )
lowerCamelCase_ =tokenizer.tokenize('''This is a test''' )
self.assertListEqual(lowerCAmelCase, ['''▁This''', '''▁is''', '''▁a''', '''▁t''', '''est'''] )
self.assertListEqual(
tokenizer.convert_tokens_to_ids(lowerCAmelCase ), [289, 50, 14, 174, 386], )
lowerCamelCase_ =tokenizer.tokenize('''I was born in 92000, and this is falsé.''' )
self.assertListEqual(
lowerCAmelCase, [SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''9''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''é''', '''.'''], )
lowerCamelCase_ =tokenizer.convert_tokens_to_ids(lowerCAmelCase )
self.assertListEqual(lowerCAmelCase, [12, 25, 88, 59, 28, 23, 11, 4, 606, 351, 351, 351, 7, 16, 70, 50, 76, 84, 10, 4, 8] )
lowerCamelCase_ =tokenizer.convert_ids_to_tokens(lowerCAmelCase )
self.assertListEqual(
lowerCAmelCase, [SPIECE_UNDERLINE + '''I''', SPIECE_UNDERLINE + '''was''', SPIECE_UNDERLINE + '''b''', '''or''', '''n''', SPIECE_UNDERLINE + '''in''', SPIECE_UNDERLINE + '''''', '''<unk>''', '''2''', '''0''', '''0''', '''0''', ''',''', SPIECE_UNDERLINE + '''and''', SPIECE_UNDERLINE + '''this''', SPIECE_UNDERLINE + '''is''', SPIECE_UNDERLINE + '''f''', '''al''', '''s''', '''<unk>''', '''.'''], )
@slow
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ={'''input_ids''': [[3_791, 797, 31, 11, 64, 797, 31, 2_429, 433, 12, 1_176, 12, 20, 786, 915, 142, 2_413, 240, 37, 3_238, 797, 31, 11, 35, 93, 915, 142, 2_413, 240, 37, 5_540, 567, 1_276, 93, 37, 610, 40, 62, 455, 657, 1_042, 123, 780, 177, 37, 309, 241, 1_298, 514, 20, 292, 2_737, 114, 2_469, 241, 85, 64, 302, 548, 528, 423, 4, 509, 406, 423, 37, 601, 4, 777, 302, 548, 528, 423, 284, 4, 3_388, 511, 459, 4, 3_555, 40, 321, 302, 705, 4, 3_388, 511, 583, 326, 5, 5, 5, 62, 3_310, 560, 177, 2_680, 217, 1_508, 32, 31, 853, 418, 64, 583, 511, 1_605, 62, 35, 93, 560, 177, 2_680, 217, 1_508, 1_521, 64, 583, 511, 519, 62, 20, 1_515, 764, 20, 149, 261, 5_625, 7_972, 20, 5_540, 567, 1_276, 93, 3_925, 1_675, 11, 15, 802, 7_972, 576, 217, 1_508, 11, 35, 93, 1_253, 2_441, 15, 289, 652, 31, 416, 321, 3_842, 115, 40, 911, 8, 476, 619, 4, 380, 142, 423, 335, 240, 35, 93, 264, 8, 11, 335, 569, 420, 163, 5, 2], [260, 548, 528, 423, 20, 451, 20, 2_681, 1_153, 3_434, 20, 5_540, 37, 567, 126, 1_253, 2_441, 3_376, 449, 210, 431, 1_563, 177, 767, 5_540, 11, 1_203, 472, 11, 2_953, 685, 285, 364, 706, 1_153, 20, 6_799, 20, 2_869, 20, 4_464, 126, 40, 2_429, 20, 1_040, 866, 2_664, 418, 20, 318, 20, 1_726, 186, 20, 265, 522, 35, 93, 2_191, 4_634, 20, 1_040, 12, 6_799, 15, 228, 2_356, 142, 31, 11, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [2_575, 2_666, 684, 1_582, 1_176, 12, 627, 149, 619, 20, 4_902, 563, 11, 20, 149, 261, 3_420, 2_356, 174, 142, 4_714, 131, 5, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]], '''attention_mask''': [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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=lowerCAmelCase, model_name='''facebook/s2t-small-mustc-en-de-st''', revision='''a14f04cf0776c02f62a8cb800cf7909e15ea23ad''', )
@require_sentencepiece
class __UpperCamelCase ( unittest.TestCase ):
lowercase : Tuple ='valhalla/s2t_mustc_multilinguial_medium'
lowercase : Dict ='C\'est trop cool'
lowercase : str ='Esto es genial'
@classmethod
def lowercase__ ( cls ):
"""simple docstring"""
lowerCamelCase_ =SpeechaTextTokenizer.from_pretrained(cls.checkpoint_name )
return cls
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.tokenizer.lang_code_to_id['''pt'''], 4 )
self.assertEqual(self.tokenizer.lang_code_to_id['''ru'''], 6 )
self.assertEqual(self.tokenizer.lang_code_to_id['''it'''], 9 )
self.assertEqual(self.tokenizer.lang_code_to_id['''de'''], 11 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertEqual(self.tokenizer.vocab_size, 10_000 )
def lowercase__ ( self ):
"""simple docstring"""
self.assertIn(lowerCAmelCase, self.tokenizer.all_special_ids )
lowerCamelCase_ =[ES_CODE, 4, 1_601, 47, 7_647, 2]
lowerCamelCase_ =self.tokenizer.decode(lowerCAmelCase, skip_special_tokens=lowerCAmelCase )
lowerCamelCase_ =self.tokenizer.decode(generated_ids[1:], skip_special_tokens=lowerCAmelCase )
self.assertEqual(lowerCAmelCase, lowerCAmelCase )
self.assertNotIn(self.tokenizer.eos_token, lowerCAmelCase )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''fr'''
lowerCamelCase_ =self.tokenizer(self.french_text ).input_ids
self.assertEqual(encoded[0], lowerCAmelCase )
self.assertEqual(encoded[-1], self.tokenizer.eos_token_id )
def lowercase__ ( self ):
"""simple docstring"""
lowerCamelCase_ ='''fr'''
self.assertListEqual(self.tokenizer.prefix_tokens, [FR_CODE] )
lowerCamelCase_ ='''es'''
self.assertListEqual(self.tokenizer.prefix_tokens, [ES_CODE] )
| 75 | 0 |
"""simple docstring"""
from queue import PriorityQueue
from typing import Any
import numpy as np
def _snake_case ( lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ , ):
for nxt, d in graph[v]:
if nxt in visited_forward:
continue
_lowerCamelCase : Optional[int] = cst_fwd.get(__snake_case , np.inf )
_lowerCamelCase : Dict = cst_fwd[v] + d
if new_cost_f < old_cost_f:
queue.put((new_cost_f, nxt) )
_lowerCamelCase : Dict = new_cost_f
_lowerCamelCase : Any = v
if nxt in visited_backward:
if cst_fwd[v] + d + cst_bwd[nxt] < shortest_distance:
_lowerCamelCase : str = cst_fwd[v] + d + cst_bwd[nxt]
return shortest_distance
def _snake_case ( lowercase__ , lowercase__ , lowercase__ , lowercase__ ):
_lowerCamelCase : Tuple = -1
_lowerCamelCase : Optional[int] = set()
_lowerCamelCase : Optional[Any] = set()
_lowerCamelCase : Optional[int] = {source: 0}
_lowerCamelCase : Tuple = {destination: 0}
_lowerCamelCase : Tuple = {source: None}
_lowerCamelCase : List[Any] = {destination: None}
_lowerCamelCase : str = PriorityQueue()
_lowerCamelCase : int = PriorityQueue()
_lowerCamelCase : Tuple = np.inf
queue_forward.put((0, source) )
queue_backward.put((0, destination) )
if source == destination:
return 0
while not queue_forward.empty() and not queue_backward.empty():
_lowerCamelCase, _lowerCamelCase : Dict = queue_forward.get()
visited_forward.add(__snake_case )
_lowerCamelCase, _lowerCamelCase : Dict = queue_backward.get()
visited_backward.add(__snake_case )
_lowerCamelCase : Tuple = pass_and_relaxation(
__snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , )
_lowerCamelCase : Optional[Any] = pass_and_relaxation(
__snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case , )
if cst_fwd[v_fwd] + cst_bwd[v_bwd] >= shortest_distance:
break
if shortest_distance != np.inf:
_lowerCamelCase : Union[str, Any] = shortest_distance
return shortest_path_distance
lowercase__ = {
"""B""": [["""C""", 1]],
"""C""": [["""D""", 1]],
"""D""": [["""F""", 1]],
"""E""": [["""B""", 1], ["""G""", 2]],
"""F""": [],
"""G""": [["""F""", 1]],
}
lowercase__ = {
"""B""": [["""E""", 1]],
"""C""": [["""B""", 1]],
"""D""": [["""C""", 1]],
"""F""": [["""D""", 1], ["""G""", 1]],
"""E""": [[None, np.inf]],
"""G""": [["""E""", 2]],
}
if __name__ == "__main__":
import doctest
doctest.testmod() | 96 |
'''simple docstring'''
import argparse
import requests
import torch
# pip3 install salesforce-lavis
# I'm actually installing a slightly modified version: pip3 install git+https://github.com/nielsrogge/LAVIS.git@fix_lavis_float32 (there's also the fix_lavis branch)
# also note: to convert Vicuna checkpoints, we had to include /home/niels/python_projects/checkpoints/FastChat/vicuna-7b in lavis/configs/models/blip2/blip2_instruct_vicuna7b.yaml
# same for Vicuna-13b
from lavis.models import load_model_and_preprocess
from PIL import Image
from transformers import (
AutoTokenizer,
BlipImageProcessor,
InstructBlipConfig,
InstructBlipForConditionalGeneration,
InstructBlipProcessor,
InstructBlipQFormerConfig,
InstructBlipVisionConfig,
LlamaConfig,
LlamaTokenizerFast,
TaConfig,
TaTokenizerFast,
)
from transformers.utils.constants import OPENAI_CLIP_MEAN, OPENAI_CLIP_STD
def a_ ( ) -> Dict:
"""simple docstring"""
lowerCamelCase_ ='''https://raw.githubusercontent.com/salesforce/LAVIS/main/docs/_static/Confusing-Pictures.jpg'''
lowerCamelCase_ =Image.open(requests.get(__snake_case , stream=__snake_case ).raw ).convert('''RGB''' )
return image
def a_ ( __snake_case : Tuple ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =[]
# fmt: off
# vision encoder
rename_keys.append(('''visual_encoder.cls_token''', '''vision_model.embeddings.class_embedding''') )
rename_keys.append(('''visual_encoder.pos_embed''', '''vision_model.embeddings.position_embedding''') )
rename_keys.append(('''visual_encoder.patch_embed.proj.weight''', '''vision_model.embeddings.patch_embedding.weight''') )
rename_keys.append(('''visual_encoder.patch_embed.proj.bias''', '''vision_model.embeddings.patch_embedding.bias''') )
rename_keys.append(('''ln_vision.weight''', '''vision_model.post_layernorm.weight''') )
rename_keys.append(('''ln_vision.bias''', '''vision_model.post_layernorm.bias''') )
for i in range(config.vision_config.num_hidden_layers ):
rename_keys.append((F'''visual_encoder.blocks.{i}.norm1.weight''', F'''vision_model.encoder.layers.{i}.layer_norm1.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm1.bias''', F'''vision_model.encoder.layers.{i}.layer_norm1.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm2.weight''', F'''vision_model.encoder.layers.{i}.layer_norm2.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.norm2.bias''', F'''vision_model.encoder.layers.{i}.layer_norm2.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.qkv.weight''', F'''vision_model.encoder.layers.{i}.self_attn.qkv.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.proj.weight''', F'''vision_model.encoder.layers.{i}.self_attn.projection.weight''',) )
rename_keys.append((F'''visual_encoder.blocks.{i}.attn.proj.bias''', F'''vision_model.encoder.layers.{i}.self_attn.projection.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc1.weight''', F'''vision_model.encoder.layers.{i}.mlp.fc1.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc1.bias''', F'''vision_model.encoder.layers.{i}.mlp.fc1.bias''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc2.weight''', F'''vision_model.encoder.layers.{i}.mlp.fc2.weight''') )
rename_keys.append((F'''visual_encoder.blocks.{i}.mlp.fc2.bias''', F'''vision_model.encoder.layers.{i}.mlp.fc2.bias''') )
# QFormer
rename_keys.append(('''Qformer.bert.embeddings.LayerNorm.weight''', '''qformer.embeddings.layernorm.weight''') )
rename_keys.append(('''Qformer.bert.embeddings.LayerNorm.bias''', '''qformer.embeddings.layernorm.bias''') )
# fmt: on
return rename_keys
def a_ ( __snake_case : Optional[Any] , __snake_case : List[str] , __snake_case : List[Any] ) -> Dict:
"""simple docstring"""
lowerCamelCase_ =dct.pop(__snake_case )
lowerCamelCase_ =val
def a_ ( __snake_case : str , __snake_case : Optional[Any] ) -> Any:
"""simple docstring"""
for i in range(config.vision_config.num_hidden_layers ):
# read in original q and v biases
lowerCamelCase_ =state_dict.pop(F'''visual_encoder.blocks.{i}.attn.q_bias''' )
lowerCamelCase_ =state_dict.pop(F'''visual_encoder.blocks.{i}.attn.v_bias''' )
# next, set bias in the state dict
lowerCamelCase_ =torch.cat((q_bias, torch.zeros_like(__snake_case , requires_grad=__snake_case ), v_bias) )
lowerCamelCase_ =qkv_bias
def a_ ( __snake_case : List[str] ) -> Any:
"""simple docstring"""
lowerCamelCase_ =364 if '''coco''' in model_name else 224
lowerCamelCase_ =InstructBlipVisionConfig(image_size=__snake_case ).to_dict()
# make sure the models have proper bos_token_id and eos_token_id set (important for generation)
# seems like flan-T5 models don't have bos_token_id properly set?
if "t5-xl" in model_name:
lowerCamelCase_ =TaConfig.from_pretrained('''google/flan-t5-xl''' , dense_act_fn='''gelu''' , bos_token_id=1 ).to_dict()
elif "t5-xxl" in model_name:
lowerCamelCase_ =TaConfig.from_pretrained('''google/flan-t5-xxl''' , dense_act_fn='''gelu''' , bos_token_id=1 ).to_dict()
elif "vicuna-7b" in model_name:
lowerCamelCase_ =LlamaConfig.from_pretrained('''decapoda-research/llama-7b-hf''' , vocab_size=3_2001 ).to_dict()
elif "vicuna-13b" in model_name:
lowerCamelCase_ =LlamaConfig.from_pretrained('''decapoda-research/llama-13b-hf''' , vocab_size=3_2001 ).to_dict()
else:
raise ValueError('''Model name not supported''' )
# the authors add one special "[DEC]" token to the vocab of Q-Former, hence vocab size = 30522 + 1
lowerCamelCase_ =InstructBlipQFormerConfig(vocab_size=3_0523 ).to_dict()
lowerCamelCase_ =InstructBlipConfig(vision_config=__snake_case , text_config=__snake_case , qformer_config=__snake_case )
return config, image_size
@torch.no_grad()
def a_ ( __snake_case : Optional[int] , __snake_case : str=None , __snake_case : List[Any]=False ) -> List[str]:
"""simple docstring"""
lowerCamelCase_ =AutoTokenizer.from_pretrained('''bert-base-uncased''' , truncation_side='''left''' )
qformer_tokenizer.add_special_tokens({'''bos_token''': '''[DEC]'''} )
if "t5" in model_name:
lowerCamelCase_ =TaTokenizerFast.from_pretrained('''google/flan-t5-xl''' , truncation_side='''left''' )
elif "vicuna" in model_name:
# the following was used in the original implementation:
# tokenizer = LlamaTokenizer.from_pretrained("huggyllama/llama-7b", use_fast=False, truncation_side="left")
# tokenizer.add_special_tokens({"pad_token": "[PAD]"})
# tokenizer.add_special_tokens({"bos_token": "</s>"})
# tokenizer.add_special_tokens({"eos_token": "</s>"})
# tokenizer.add_special_tokens({"unk_token": "</s>"})
lowerCamelCase_ =LlamaTokenizerFast.from_pretrained(
'''huggyllama/llama-7b''' , truncation_side='''left''' , bos_token='''</s>''' , unk_token='''</s>''' )
tokenizer.add_special_tokens({'''pad_token''': '''[PAD]'''} )
lowerCamelCase_, lowerCamelCase_ =get_blipa_config(__snake_case )
lowerCamelCase_ =InstructBlipForConditionalGeneration(__snake_case ).eval()
lowerCamelCase_ ={
'''instructblip-vicuna-7b''': ('''blip2_vicuna_instruct''', '''vicuna7b'''),
'''instructblip-vicuna-13b''': ('''blip2_vicuna_instruct''', '''vicuna13b'''),
'''instructblip-flan-t5-xl''': ('''blip2_t5_instruct''', '''flant5xl'''),
'''instructblip-flan-t5-xxl''': ('''blip2_t5_instruct''', '''flant5xxl'''),
}
lowerCamelCase_, lowerCamelCase_ =model_name_to_original[model_name]
# load original model
print('''Loading original model...''' )
lowerCamelCase_ ='''cuda:1''' if torch.cuda.is_available() else '''cpu'''
lowerCamelCase_ ='''cuda:2''' if torch.cuda.is_available() else '''cpu'''
lowerCamelCase_, lowerCamelCase_, lowerCamelCase_ =load_model_and_preprocess(
name=__snake_case , model_type=__snake_case , is_eval=__snake_case , device=__snake_case )
original_model.eval()
print('''Done!''' )
# update state dict keys
lowerCamelCase_ =original_model.state_dict()
lowerCamelCase_ =create_rename_keys(__snake_case )
for src, dest in rename_keys:
rename_key(__snake_case , __snake_case , __snake_case )
# some keys can be renamed efficiently
for key, val in state_dict.copy().items():
lowerCamelCase_ =state_dict.pop(__snake_case )
if key.startswith('''Qformer.bert''' ):
lowerCamelCase_ =key.replace('''Qformer.bert''' , '''qformer''' )
if "attention.self" in key:
lowerCamelCase_ =key.replace('''self''' , '''attention''' )
if "llm_proj" in key:
lowerCamelCase_ =key.replace('''llm_proj''' , '''language_projection''' )
if "t5_proj" in key:
lowerCamelCase_ =key.replace('''t5_proj''' , '''language_projection''' )
if key.startswith('''llm_model''' ):
lowerCamelCase_ =key.replace('''llm_model''' , '''language_model''' )
if key.startswith('''t5''' ):
lowerCamelCase_ =key.replace('''t5''' , '''language''' )
lowerCamelCase_ =val
# read in qv biases
read_in_q_v_bias(__snake_case , __snake_case )
# note: weights get loaded in torch.float32 by default
hf_model.load_state_dict(__snake_case , strict=__snake_case )
lowerCamelCase_ =load_demo_image()
lowerCamelCase_ ='''What is unusual about this image?'''
# create processor
lowerCamelCase_ =BlipImageProcessor(
size={'''height''': image_size, '''width''': image_size} , image_mean=__snake_case , image_std=__snake_case )
lowerCamelCase_ =InstructBlipProcessor(
image_processor=__snake_case , tokenizer=__snake_case , qformer_tokenizer=__snake_case , )
lowerCamelCase_ =processor(images=__snake_case , text=__snake_case , return_tensors='''pt''' ).to(__snake_case )
# make sure processor creates exact same pixel values
lowerCamelCase_ =vis_processors['''eval'''](__snake_case ).unsqueeze(0 ).to(__snake_case )
lowerCamelCase_ =inputs.pixel_values
assert torch.allclose(original_pixel_values.to(pixel_values.device ) , __snake_case )
original_model.to(__snake_case )
hf_model.to(__snake_case )
with torch.no_grad():
if "vicuna" in model_name:
lowerCamelCase_ =original_model({'''image''': original_pixel_values, '''text_input''': [prompt]} ).logits
lowerCamelCase_ =hf_model(**__snake_case ).logits
else:
lowerCamelCase_ =original_model(
{'''image''': original_pixel_values, '''text_input''': [prompt], '''text_output''': ['''\n''']} ).logits
lowerCamelCase_ =tokenizer('''\n''' , return_tensors='''pt''' ).input_ids.to(__snake_case )
lowerCamelCase_ =label_input_ids.masked_fill(label_input_ids == tokenizer.pad_token_id , -100 )
lowerCamelCase_ =hf_model(**__snake_case , labels=__snake_case ).logits
print('''First values of original logits:''' , original_logits[0, :3, :3] )
print('''First values of HF logits:''' , logits[0, :3, :3] )
# assert values
assert original_logits.shape == logits.shape
lowerCamelCase_ =1e-4 if '''vicuna''' in model_name else 1e-5
assert torch.allclose(original_logits.to(logits.device ) , __snake_case , atol=__snake_case )
print('''Looks ok!''' )
print('''Generating with original model...''' )
lowerCamelCase_ =original_model.generate({'''image''': original_pixel_values, '''prompt''': prompt} , num_beams=5 )
# important: we need to cast the weights of the HF model to the appropriate type
print('''Generating with HF model...''' )
lowerCamelCase_ =hf_model.generate(
**__snake_case , do_sample=__snake_case , num_beams=5 , max_length=256 , min_length=1 , top_p=0.9 , repetition_penalty=1.5 , length_penalty=1.0 , temperature=1 , )
if "vicuna" in model_name:
# convert output id 0 to 2 (eos_token_id)
# TODO add this in the generate method?
lowerCamelCase_ =2
print('''Original generation:''' , __snake_case )
lowerCamelCase_ =processor.batch_decode(__snake_case , skip_special_tokens=__snake_case )
lowerCamelCase_ =[text.strip() for text in output_text]
print('''HF generation:''' , __snake_case )
if pytorch_dump_folder_path is not None:
processor.save_pretrained(__snake_case )
hf_model.save_pretrained(__snake_case )
if push_to_hub:
processor.push_to_hub(F'''Salesforce/{model_name}''' )
hf_model.push_to_hub(F'''Salesforce/{model_name}''' )
if __name__ == "__main__":
a_ : Any = argparse.ArgumentParser()
a_ : Any = [
"""instructblip-vicuna-7b""",
"""instructblip-vicuna-13b""",
"""instructblip-flan-t5-xl""",
"""instructblip-flan-t5-xxl""",
]
parser.add_argument(
"""--model_name""",
default="""instructblip-flan-t5-xl""",
choices=choices,
type=str,
help="""Path to hf config.json of model to convert""",
)
parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""")
parser.add_argument(
"""--push_to_hub""",
action="""store_true""",
help="""Whether to push the model and processor to the hub after converting""",
)
a_ : str = parser.parse_args()
convert_blipa_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.push_to_hub)
| 75 | 0 |
"""simple docstring"""
import argparse
import torch
from transformers import BlenderbotConfig, BlenderbotForConditionalGeneration
from transformers.utils import logging
logging.set_verbosity_info()
__SCREAMING_SNAKE_CASE : Tuple = logging.get_logger(__name__)
__SCREAMING_SNAKE_CASE : List[Any] = [
["""attention""", """attn"""],
["""encoder_attention""", """encoder_attn"""],
["""q_lin""", """q_proj"""],
["""k_lin""", """k_proj"""],
["""v_lin""", """v_proj"""],
["""out_lin""", """out_proj"""],
["""norm_embeddings""", """layernorm_embedding"""],
["""position_embeddings""", """embed_positions"""],
["""embeddings""", """embed_tokens"""],
["""ffn.lin""", """fc"""],
]
def _a ( _SCREAMING_SNAKE_CASE ) -> Optional[int]:
if k == "embeddings.weight":
return "shared.weight"
for parlai_name, hf_name in PATTERNS:
snake_case_ = k.replace(__snake_case , __snake_case )
if k.startswith("""encoder""" ):
snake_case_ = k.replace(""".attn""" , """.self_attn""" )
snake_case_ = k.replace("""norm1""" , """self_attn_layer_norm""" )
snake_case_ = k.replace("""norm2""" , """final_layer_norm""" )
elif k.startswith("""decoder""" ):
snake_case_ = k.replace("""norm1""" , """self_attn_layer_norm""" )
snake_case_ = k.replace("""norm2""" , """encoder_attn_layer_norm""" )
snake_case_ = k.replace("""norm3""" , """final_layer_norm""" )
return k
def _a ( _SCREAMING_SNAKE_CASE ) -> int:
snake_case_ = [
"""model.encoder.layernorm_embedding.weight""",
"""model.encoder.layernorm_embedding.bias""",
"""model.decoder.layernorm_embedding.weight""",
"""model.decoder.layernorm_embedding.bias""",
]
for k in keys:
snake_case_ = sd.pop(__snake_case )
snake_case_ = k.replace("""layernorm_embedding""" , """layer_norm""" )
assert new_k not in sd
snake_case_ = v
__SCREAMING_SNAKE_CASE : Union[str, Any] = ["""START"""]
@torch.no_grad()
def _a ( _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) -> Dict:
snake_case_ = torch.load(__snake_case , map_location="""cpu""" )
snake_case_ = model["""model"""]
snake_case_ = BlenderbotConfig.from_json_file(__snake_case )
snake_case_ = BlenderbotForConditionalGeneration(__snake_case )
snake_case_ = m.model.state_dict().keys()
snake_case_ = []
snake_case_ = {}
for k, v in sd.items():
if k in IGNORE_KEYS:
continue
snake_case_ = rename_state_dict_key(__snake_case )
if new_k not in valid_keys:
failures.append([k, new_k] )
else:
snake_case_ = v
if cfg.normalize_before: # Blenderbot-3B checkpoints. Rename layernorm_embedding -> layer_norm
rename_layernorm_keys(__snake_case )
m.model.load_state_dict(__snake_case , strict=__snake_case )
m.half()
m.save_pretrained(__snake_case )
if __name__ == "__main__":
__SCREAMING_SNAKE_CASE : Optional[Any] = argparse.ArgumentParser()
# Required parameters
parser.add_argument('--src_path', type=str, help='like blenderbot-model.bin')
parser.add_argument('--save_dir', default='hf_blenderbot', type=str, help='Where to save converted model.')
parser.add_argument(
'--hf_config_json', default='blenderbot-3b-config.json', type=str, help='Path to config to use'
)
__SCREAMING_SNAKE_CASE : Optional[int] = parser.parse_args()
convert_parlai_checkpoint(args.src_path, args.save_dir, args.hf_config_json)
| 347 |
'''simple docstring'''
from __future__ import annotations
from math import pi
from typing import Protocol
import matplotlib.pyplot as plt
import numpy as np
class __UpperCamelCase ( lowerCamelCase__ ):
def lowercase__ ( self, lowerCAmelCase ):
"""simple docstring"""
return 0.0
def a_ ( __snake_case : np.ndarray , __snake_case : int ) -> tuple[int | float, int | float]:
"""simple docstring"""
lowerCamelCase_ =min([-20, np.min(fft_results[1 : samplerate // 2 - 1] )] )
lowerCamelCase_ =max([20, np.max(fft_results[1 : samplerate // 2 - 1] )] )
return lowest, highest
def a_ ( __snake_case : FilterType , __snake_case : int ) -> None:
"""simple docstring"""
lowerCamelCase_ =512
lowerCamelCase_ =[1] + [0] * (size - 1)
lowerCamelCase_ =[filter_type.process(__snake_case ) for item in inputs]
lowerCamelCase_ =[0] * (samplerate - size) # zero-padding
outputs += filler
lowerCamelCase_ =np.abs(np.fft.fft(__snake_case ) )
lowerCamelCase_ =20 * np.logaa(__snake_case )
# Frequencies on log scale from 24 to nyquist frequency
plt.xlim(24 , samplerate / 2 - 1 )
plt.xlabel('''Frequency (Hz)''' )
plt.xscale('''log''' )
# Display within reasonable bounds
lowerCamelCase_ =get_bounds(__snake_case , __snake_case )
plt.ylim(max([-80, bounds[0]] ) , min([80, bounds[1]] ) )
plt.ylabel('''Gain (dB)''' )
plt.plot(__snake_case )
plt.show()
def a_ ( __snake_case : FilterType , __snake_case : int ) -> None:
"""simple docstring"""
lowerCamelCase_ =512
lowerCamelCase_ =[1] + [0] * (size - 1)
lowerCamelCase_ =[filter_type.process(__snake_case ) for item in inputs]
lowerCamelCase_ =[0] * (samplerate - size) # zero-padding
outputs += filler
lowerCamelCase_ =np.angle(np.fft.fft(__snake_case ) )
# Frequencies on log scale from 24 to nyquist frequency
plt.xlim(24 , samplerate / 2 - 1 )
plt.xlabel('''Frequency (Hz)''' )
plt.xscale('''log''' )
plt.ylim(-2 * pi , 2 * pi )
plt.ylabel('''Phase shift (Radians)''' )
plt.plot(np.unwrap(__snake_case , -2 * pi ) )
plt.show()
| 75 | 0 |
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