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
|
|---|---|---|---|---|
import itertools
import random
import unittest
import numpy as np
from transformers import ASTFeatureExtractor
from transformers.testing_utils import require_torch, require_torchaudio
from transformers.utils.import_utils import is_torch_available
from ...test_sequence_feature_extraction_common import SequenceFeatureExtractionTestMixin
_a = random.Random()
if is_torch_available():
import torch
def __A ( __lowerCAmelCase , __lowerCAmelCase=1.0 , __lowerCAmelCase=None , __lowerCAmelCase=None )-> Union[str, Any]:
"""simple docstring"""
if rng is None:
_UpperCAmelCase = global_rng
_UpperCAmelCase = []
for batch_idx in range(shape[0] ):
values.append([] )
for _ in range(shape[1] ):
values[-1].append(rng.random() * scale )
return values
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=7 , UpperCAmelCase=400 , UpperCAmelCase=2000 , UpperCAmelCase=1 , UpperCAmelCase=0.0 , UpperCAmelCase=1_6000 , UpperCAmelCase=True , UpperCAmelCase=True , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = min_seq_length
_UpperCAmelCase = max_seq_length
_UpperCAmelCase = (self.max_seq_length - self.min_seq_length) // (self.batch_size - 1)
_UpperCAmelCase = feature_size
_UpperCAmelCase = padding_value
_UpperCAmelCase = sampling_rate
_UpperCAmelCase = return_attention_mask
_UpperCAmelCase = do_normalize
def UpperCamelCase ( self ):
"""simple docstring"""
return {
"feature_size": self.feature_size,
"padding_value": self.padding_value,
"sampling_rate": self.sampling_rate,
"return_attention_mask": self.return_attention_mask,
"do_normalize": self.do_normalize,
}
def UpperCamelCase ( self , UpperCAmelCase=False , UpperCAmelCase=False ):
"""simple docstring"""
def _flatten(UpperCAmelCase ):
return list(itertools.chain(*UpperCAmelCase ) )
if equal_length:
_UpperCAmelCase = floats_list((self.batch_size, self.max_seq_length) )
else:
# make sure that inputs increase in size
_UpperCAmelCase = [
_flatten(floats_list((x, self.feature_size) ) )
for x in range(self.min_seq_length , self.max_seq_length , self.seq_length_diff )
]
if numpify:
_UpperCAmelCase = [np.asarray(UpperCAmelCase ) for x in speech_inputs]
return speech_inputs
@require_torch
@require_torchaudio
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = ASTFeatureExtractor
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = ASTFeatureExtractionTester(self )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
# create three inputs of length 800, 1000, and 1200
_UpperCAmelCase = [floats_list((1, x) )[0] for x in range(800 , 1400 , 200 )]
_UpperCAmelCase = [np.asarray(UpperCAmelCase ) for speech_input in speech_inputs]
# Test not batched input
_UpperCAmelCase = feat_extract(speech_inputs[0] , return_tensors='np' ).input_values
_UpperCAmelCase = feat_extract(np_speech_inputs[0] , return_tensors='np' ).input_values
self.assertTrue(np.allclose(UpperCAmelCase , UpperCAmelCase , atol=1e-3 ) )
# Test batched
_UpperCAmelCase = feat_extract(UpperCAmelCase , padding=UpperCAmelCase , return_tensors='np' ).input_values
_UpperCAmelCase = feat_extract(UpperCAmelCase , padding=UpperCAmelCase , return_tensors='np' ).input_values
for enc_seq_a, enc_seq_a in zip(UpperCAmelCase , UpperCAmelCase ):
self.assertTrue(np.allclose(UpperCAmelCase , UpperCAmelCase , atol=1e-3 ) )
# Test 2-D numpy arrays are batched.
_UpperCAmelCase = [floats_list((1, x) )[0] for x in (800, 800, 800)]
_UpperCAmelCase = np.asarray(UpperCAmelCase )
_UpperCAmelCase = feat_extract(UpperCAmelCase , return_tensors='np' ).input_values
_UpperCAmelCase = feat_extract(UpperCAmelCase , return_tensors='np' ).input_values
for enc_seq_a, enc_seq_a in zip(UpperCAmelCase , UpperCAmelCase ):
self.assertTrue(np.allclose(UpperCAmelCase , UpperCAmelCase , atol=1e-3 ) )
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
import torch
_UpperCAmelCase = self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
_UpperCAmelCase = np.random.rand(100 ).astype(np.floataa )
_UpperCAmelCase = np_speech_inputs.tolist()
for inputs in [py_speech_inputs, np_speech_inputs]:
_UpperCAmelCase = feature_extractor.pad([{'input_values': inputs}] , return_tensors='np' )
self.assertTrue(np_processed.input_values.dtype == np.floataa )
_UpperCAmelCase = feature_extractor.pad([{'input_values': inputs}] , return_tensors='pt' )
self.assertTrue(pt_processed.input_values.dtype == torch.floataa )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
from datasets import load_dataset
_UpperCAmelCase = load_dataset('hf-internal-testing/librispeech_asr_dummy' , 'clean' , split='validation' )
# automatic decoding with librispeech
_UpperCAmelCase = ds.sort('id' ).select(range(UpperCAmelCase ) )[:num_samples]['audio']
return [x["array"] for x in speech_samples]
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = torch.tensor(
[-0.98_94, -1.27_76, -0.90_66, -1.27_76, -0.93_49, -1.26_09, -1.03_86, -1.27_76,
-1.15_61, -1.27_76, -1.20_52, -1.27_23, -1.21_90, -1.21_32, -1.27_76, -1.11_33,
-1.19_53, -1.13_43, -1.15_84, -1.22_03, -1.17_70, -1.24_74, -1.23_81, -1.19_36,
-0.92_70, -0.83_17, -0.80_49, -0.77_06, -0.75_65, -0.78_69] )
# fmt: on
_UpperCAmelCase = self._load_datasamples(1 )
_UpperCAmelCase = ASTFeatureExtractor()
_UpperCAmelCase = feature_extractor(UpperCAmelCase , return_tensors='pt' ).input_values
self.assertEquals(input_values.shape , (1, 1024, 128) )
self.assertTrue(torch.allclose(input_values[0, 0, :30] , UpperCAmelCase , atol=1e-4 ) )
| 39
|
def __A ( __lowerCAmelCase )-> list:
"""simple docstring"""
if len(__lowerCAmelCase ) < 2:
return collection
def circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) -> bool:
_UpperCAmelCase = False
if low == high:
return swapped
_UpperCAmelCase = low
_UpperCAmelCase = high
while left < right:
if collection[left] > collection[right]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right],
collection[left],
)
_UpperCAmelCase = True
left += 1
right -= 1
if left == right and collection[left] > collection[right + 1]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right + 1],
collection[left],
)
_UpperCAmelCase = True
_UpperCAmelCase = low + int((high - low) / 2 )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , mid + 1 , __lowerCAmelCase )
return swapped or left_swap or right_swap
_UpperCAmelCase = True
while is_not_sorted is True:
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , 0 , len(__lowerCAmelCase ) - 1 )
return collection
if __name__ == "__main__":
_a = input('''Enter numbers separated by a comma:\n''').strip()
_a = [int(item) for item in user_input.split(''',''')]
print(circle_sort(unsorted))
| 39
| 1
|
from collections import Counter
from timeit import timeit
def __A ( __lowerCAmelCase = "" , )-> bool:
"""simple docstring"""
return sum(c % 2 for c in Counter(input_str.replace(' ' , '' ).lower() ).values() ) < 2
def __A ( __lowerCAmelCase = "" )-> bool:
"""simple docstring"""
if len(__lowerCAmelCase ) == 0:
return True
_UpperCAmelCase = input_str.replace(' ' , '' ).lower()
# character_freq_dict: Stores the frequency of every character in the input string
_UpperCAmelCase = {}
for character in lower_case_input_str:
_UpperCAmelCase = character_freq_dict.get(__lowerCAmelCase , 0 ) + 1
_UpperCAmelCase = 0
for character_count in character_freq_dict.values():
if character_count % 2:
odd_char += 1
if odd_char > 1:
return False
return True
def __A ( __lowerCAmelCase = "" )-> None:
"""simple docstring"""
print('\nFor string = ' , __lowerCAmelCase , ':' )
print(
'> can_string_be_rearranged_as_palindrome_counter()' , '\tans =' , can_string_be_rearranged_as_palindrome_counter(__lowerCAmelCase ) , '\ttime =' , timeit(
'z.can_string_be_rearranged_as_palindrome_counter(z.check_str)' , setup='import __main__ as z' , ) , 'seconds' , )
print(
'> can_string_be_rearranged_as_palindrome()' , '\tans =' , can_string_be_rearranged_as_palindrome(__lowerCAmelCase ) , '\ttime =' , timeit(
'z.can_string_be_rearranged_as_palindrome(z.check_str)' , setup='import __main__ as z' , ) , 'seconds' , )
if __name__ == "__main__":
_a = input(
'''Enter string to determine if it can be rearranged as a palindrome or not: '''
).strip()
benchmark(check_str)
_a = can_string_be_rearranged_as_palindrome_counter(check_str)
print(F'''{check_str} can {'' if status else 'not '}be rearranged as a palindrome''')
| 39
|
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["image_processor", "tokenizer"]
UpperCamelCase__ = "Pix2StructImageProcessor"
UpperCamelCase__ = ("T5Tokenizer", "T5TokenizerFast")
def __init__( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = False
super().__init__(UpperCAmelCase , UpperCAmelCase )
def __call__( self , UpperCAmelCase=None , UpperCAmelCase = None , UpperCAmelCase = True , UpperCAmelCase = False , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = 2048 , UpperCAmelCase = 0 , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = True , UpperCAmelCase = None , **UpperCAmelCase , ):
"""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 and not self.image_processor.is_vqa:
_UpperCAmelCase = self.tokenizer
_UpperCAmelCase = self.tokenizer(
text=UpperCAmelCase , add_special_tokens=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , max_length=UpperCAmelCase , stride=UpperCAmelCase , pad_to_multiple_of=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_overflowing_tokens=UpperCAmelCase , return_special_tokens_mask=UpperCAmelCase , return_offsets_mapping=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , return_length=UpperCAmelCase , verbose=UpperCAmelCase , return_tensors=UpperCAmelCase , **UpperCAmelCase , )
return text_encoding
if not self.image_processor.is_vqa:
# add pixel_values
_UpperCAmelCase = self.image_processor(
UpperCAmelCase , return_tensors=UpperCAmelCase , max_patches=UpperCAmelCase , **UpperCAmelCase )
else:
# add pixel_values and bbox
_UpperCAmelCase = self.image_processor(
UpperCAmelCase , return_tensors=UpperCAmelCase , max_patches=UpperCAmelCase , header_text=UpperCAmelCase , **UpperCAmelCase )
if text is not None and not self.image_processor.is_vqa:
_UpperCAmelCase = self.tokenizer(
text=UpperCAmelCase , add_special_tokens=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , max_length=UpperCAmelCase , stride=UpperCAmelCase , pad_to_multiple_of=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_overflowing_tokens=UpperCAmelCase , return_special_tokens_mask=UpperCAmelCase , return_offsets_mapping=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , return_length=UpperCAmelCase , verbose=UpperCAmelCase , return_tensors=UpperCAmelCase , **UpperCAmelCase , )
if "attention_mask" in text_encoding:
_UpperCAmelCase = text_encoding.pop('attention_mask' )
if "input_ids" in text_encoding:
_UpperCAmelCase = text_encoding.pop('input_ids' )
else:
_UpperCAmelCase = None
if text_encoding is not None:
encoding_image_processor.update(UpperCAmelCase )
return encoding_image_processor
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.batch_decode(*UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.decode(*UpperCAmelCase , **UpperCAmelCase )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.tokenizer.model_input_names
_UpperCAmelCase = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )
| 39
| 1
|
from queue import PriorityQueue
from typing import Any
import numpy as np
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , )-> float | int:
"""simple docstring"""
for nxt, d in graph[v]:
if nxt in visited_forward:
continue
_UpperCAmelCase = cst_fwd.get(__lowerCAmelCase , np.inf )
_UpperCAmelCase = cst_fwd[v] + d
if new_cost_f < old_cost_f:
queue.put((new_cost_f, nxt) )
_UpperCAmelCase = new_cost_f
_UpperCAmelCase = v
if nxt in visited_backward:
if cst_fwd[v] + d + cst_bwd[nxt] < shortest_distance:
_UpperCAmelCase = cst_fwd[v] + d + cst_bwd[nxt]
return shortest_distance
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
_UpperCAmelCase = -1
_UpperCAmelCase = set()
_UpperCAmelCase = set()
_UpperCAmelCase = {source: 0}
_UpperCAmelCase = {destination: 0}
_UpperCAmelCase = {source: None}
_UpperCAmelCase = {destination: None}
_UpperCAmelCase = PriorityQueue()
_UpperCAmelCase = PriorityQueue()
_UpperCAmelCase = 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():
_UpperCAmelCase , _UpperCAmelCase = queue_forward.get()
visited_forward.add(__lowerCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = queue_backward.get()
visited_backward.add(__lowerCAmelCase )
_UpperCAmelCase = pass_and_relaxation(
__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , )
_UpperCAmelCase = pass_and_relaxation(
__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , )
if cst_fwd[v_fwd] + cst_bwd[v_bwd] >= shortest_distance:
break
if shortest_distance != np.inf:
_UpperCAmelCase = shortest_distance
return shortest_path_distance
_a = {
'''B''': [['''C''', 1]],
'''C''': [['''D''', 1]],
'''D''': [['''F''', 1]],
'''E''': [['''B''', 1], ['''G''', 2]],
'''F''': [],
'''G''': [['''F''', 1]],
}
_a = {
'''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()
| 39
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase = "" , UpperCAmelCase = False ):
"""simple docstring"""
_UpperCAmelCase = {}
# A node will be a leaf if the tree contains its word
_UpperCAmelCase = is_leaf
_UpperCAmelCase = prefix
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 0
for q, w in zip(self.prefix , UpperCAmelCase ):
if q != w:
break
x += 1
return self.prefix[:x], self.prefix[x:], word[x:]
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for word in words:
self.insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if self.prefix == word:
_UpperCAmelCase = True
# Case 2: The node has no edges that have a prefix to the word
# Solution: We create an edge from the current node to a new one
# containing the word
elif word[0] not in self.nodes:
_UpperCAmelCase = RadixNode(prefix=UpperCAmelCase , is_leaf=UpperCAmelCase )
else:
_UpperCAmelCase = self.nodes[word[0]]
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# Case 3: The node prefix is equal to the matching
# Solution: We insert remaining word on the next node
if remaining_prefix == "":
self.nodes[matching_string[0]].insert(UpperCAmelCase )
# Case 4: The word is greater equal to the matching
# Solution: Create a node in between both nodes, change
# prefixes and add the new node for the remaining word
else:
_UpperCAmelCase = remaining_prefix
_UpperCAmelCase = self.nodes[matching_string[0]]
_UpperCAmelCase = RadixNode(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = aux_node
if remaining_word == "":
_UpperCAmelCase = True
else:
self.nodes[matching_string[0]].insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.nodes.get(word[0] , UpperCAmelCase )
if not incoming_node:
return False
else:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# This applies when the word and the prefix are equal
elif remaining_word == "":
return incoming_node.is_leaf
# We have word remaining so we check the next node
else:
return incoming_node.find(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.nodes.get(word[0] , UpperCAmelCase )
if not incoming_node:
return False
else:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# We have word remaining so we check the next node
elif remaining_word != "":
return incoming_node.delete(UpperCAmelCase )
else:
# If it is not a leaf, we don't have to delete
if not incoming_node.is_leaf:
return False
else:
# We delete the nodes if no edges go from it
if len(incoming_node.nodes ) == 0:
del self.nodes[word[0]]
# We merge the current node with its only child
if len(self.nodes ) == 1 and not self.is_leaf:
_UpperCAmelCase = list(self.nodes.values() )[0]
_UpperCAmelCase = merging_node.is_leaf
self.prefix += merging_node.prefix
_UpperCAmelCase = merging_node.nodes
# If there is more than 1 edge, we just mark it as non-leaf
elif len(incoming_node.nodes ) > 1:
_UpperCAmelCase = False
# If there is 1 edge, we merge it with its child
else:
_UpperCAmelCase = list(incoming_node.nodes.values() )[0]
_UpperCAmelCase = merging_node.is_leaf
incoming_node.prefix += merging_node.prefix
_UpperCAmelCase = merging_node.nodes
return True
def UpperCamelCase ( self , UpperCAmelCase = 0 ):
"""simple docstring"""
if self.prefix != "":
print('-' * height , self.prefix , ' (leaf)' if self.is_leaf else '' )
for value in self.nodes.values():
value.print_tree(height + 1 )
def __A ( )-> bool:
"""simple docstring"""
_UpperCAmelCase = 'banana bananas bandana band apple all beast'.split()
_UpperCAmelCase = RadixNode()
root.insert_many(__lowerCAmelCase )
assert all(root.find(__lowerCAmelCase ) for word in words )
assert not root.find('bandanas' )
assert not root.find('apps' )
root.delete('all' )
assert not root.find('all' )
root.delete('banana' )
assert not root.find('banana' )
assert root.find('bananas' )
return True
def __A ( )-> None:
"""simple docstring"""
assert test_trie()
def __A ( )-> None:
"""simple docstring"""
_UpperCAmelCase = RadixNode()
_UpperCAmelCase = 'banana bananas bandanas bandana band apple all beast'.split()
root.insert_many(__lowerCAmelCase )
print('Words:' , __lowerCAmelCase )
print('Tree:' )
root.print_tree()
if __name__ == "__main__":
main()
| 39
| 1
|
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'''junnyu/roformer_chinese_small''': '''https://huggingface.co/junnyu/roformer_chinese_small/resolve/main/config.json''',
'''junnyu/roformer_chinese_base''': '''https://huggingface.co/junnyu/roformer_chinese_base/resolve/main/config.json''',
'''junnyu/roformer_chinese_char_small''': (
'''https://huggingface.co/junnyu/roformer_chinese_char_small/resolve/main/config.json'''
),
'''junnyu/roformer_chinese_char_base''': (
'''https://huggingface.co/junnyu/roformer_chinese_char_base/resolve/main/config.json'''
),
'''junnyu/roformer_small_discriminator''': (
'''https://huggingface.co/junnyu/roformer_small_discriminator/resolve/main/config.json'''
),
'''junnyu/roformer_small_generator''': (
'''https://huggingface.co/junnyu/roformer_small_generator/resolve/main/config.json'''
),
# See all RoFormer models at https://huggingface.co/models?filter=roformer
}
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "roformer"
def __init__( self , UpperCAmelCase=5_0000 , UpperCAmelCase=None , UpperCAmelCase=768 , UpperCAmelCase=12 , UpperCAmelCase=12 , UpperCAmelCase=3072 , UpperCAmelCase="gelu" , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase=1536 , UpperCAmelCase=2 , UpperCAmelCase=0.02 , UpperCAmelCase=1e-12 , UpperCAmelCase=0 , UpperCAmelCase=False , UpperCAmelCase=True , **UpperCAmelCase , ):
"""simple docstring"""
super().__init__(pad_token_id=UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = vocab_size
_UpperCAmelCase = hidden_size if embedding_size is None else embedding_size
_UpperCAmelCase = hidden_size
_UpperCAmelCase = num_hidden_layers
_UpperCAmelCase = num_attention_heads
_UpperCAmelCase = hidden_act
_UpperCAmelCase = intermediate_size
_UpperCAmelCase = hidden_dropout_prob
_UpperCAmelCase = attention_probs_dropout_prob
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = type_vocab_size
_UpperCAmelCase = initializer_range
_UpperCAmelCase = layer_norm_eps
_UpperCAmelCase = rotary_value
_UpperCAmelCase = use_cache
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
_UpperCAmelCase = {0: 'batch', 1: 'choice', 2: 'sequence'}
else:
_UpperCAmelCase = {0: 'batch', 1: 'sequence'}
_UpperCAmelCase = {0: 'batch', 1: 'sequence'}
return OrderedDict(
[
('input_ids', dynamic_axis),
('attention_mask', dynamic_axis),
('token_type_ids', dynamic_axis),
] )
| 39
|
import argparse
import json
import os
import re
import shutil
import torch
from transformers import BioGptConfig, BioGptForCausalLM
from transformers.models.biogpt.tokenization_biogpt import VOCAB_FILES_NAMES
from transformers.tokenization_utils_base import TOKENIZER_CONFIG_FILE
from transformers.utils import WEIGHTS_NAME, logging
logging.set_verbosity_warning()
_a = 2
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , *, # begin keyword-only arguments
UpperCAmelCase="<s>" , UpperCAmelCase="<pad>" , UpperCAmelCase="</s>" , UpperCAmelCase="<unk>" , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = bos, unk, pad, eos
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = {}
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
if extra_special_symbols:
for s in extra_special_symbols:
self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = len(self.symbols )
def __eq__( self , UpperCAmelCase ):
"""simple docstring"""
return self.indices == other.indices
def __getitem__( self , UpperCAmelCase ):
"""simple docstring"""
if idx < len(self.symbols ):
return self.symbols[idx]
return self.unk_word
def __len__( self ):
"""simple docstring"""
return len(self.symbols )
def __contains__( self , UpperCAmelCase ):
"""simple docstring"""
return sym in self.indices
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = cls()
d.add_from_file(UpperCAmelCase )
return d
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=1 , UpperCAmelCase=False ):
"""simple docstring"""
if word in self.indices and not overwrite:
_UpperCAmelCase = self.indices[word]
_UpperCAmelCase = self.count[idx] + n
return idx
else:
_UpperCAmelCase = len(self.symbols )
_UpperCAmelCase = idx
self.symbols.append(UpperCAmelCase )
self.count.append(UpperCAmelCase )
return idx
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return 0
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if isinstance(UpperCAmelCase , UpperCAmelCase ):
try:
with open(UpperCAmelCase , 'r' , encoding='utf-8' ) as fd:
self.add_from_file(UpperCAmelCase )
except FileNotFoundError as fnfe:
raise fnfe
except UnicodeError:
raise Exception('Incorrect encoding detected in {}, please rebuild the dataset'.format(UpperCAmelCase ) )
return
_UpperCAmelCase = f.readlines()
_UpperCAmelCase = self._load_meta(UpperCAmelCase )
for line in lines[indices_start_line:]:
try:
_UpperCAmelCase , _UpperCAmelCase = line.rstrip().rsplit(' ' , 1 )
if field == "#fairseq:overwrite":
_UpperCAmelCase = True
_UpperCAmelCase , _UpperCAmelCase = line.rsplit(' ' , 1 )
else:
_UpperCAmelCase = False
_UpperCAmelCase = int(UpperCAmelCase )
_UpperCAmelCase = line
if word in self and not overwrite:
raise RuntimeError(
'Duplicate word found when loading Dictionary: \'{}\'. '
'Duplicate words can overwrite earlier ones by adding the '
'#fairseq:overwrite flag at the end of the corresponding row '
'in the dictionary file. If using the Camembert model, please '
'download an updated copy of the model file.'.format(UpperCAmelCase ) )
self.add_symbol(UpperCAmelCase , n=UpperCAmelCase , overwrite=UpperCAmelCase )
except ValueError:
raise ValueError('Incorrect dictionary format, expected \'<token> <cnt> [flags]\'' )
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = dict((re.sub(R'@@$' , '' , __lowerCAmelCase ), v) if k.endswith('@@' ) else (re.sub(R'$' , '</w>' , __lowerCAmelCase ), v) for k, v in d.items() )
_UpperCAmelCase = '<s> <pad> </s> <unk>'.split()
# restore the special tokens
for k in keep_keys:
del da[F"""{k}</w>"""]
_UpperCAmelCase = d[k] # restore
return da
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> str:
"""simple docstring"""
if not os.path.exists(__lowerCAmelCase ):
raise ValueError(F"""path {biogpt_checkpoint_path} does not exist!""" )
os.makedirs(__lowerCAmelCase , exist_ok=__lowerCAmelCase )
print(F"""Writing results to {pytorch_dump_folder_path}""" )
# handle various types of models
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'checkpoint.pt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {checkpoint_file} does not exist!""" )
_UpperCAmelCase = torch.load(__lowerCAmelCase , map_location='cpu' )
_UpperCAmelCase = chkpt['cfg']['model']
# dicts
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'dict.txt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {dict_file} does not exist!""" )
_UpperCAmelCase = Dictionary.load(__lowerCAmelCase )
_UpperCAmelCase = rewrite_dict_keys(src_dict.indices )
_UpperCAmelCase = len(__lowerCAmelCase )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['vocab_file'] )
print(F"""Generating {src_vocab_file} of {src_vocab_size} records""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# merges_file (bpecodes)
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'bpecodes' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {bpecodes_file} does not exist!""" )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['merges_file'] )
shutil.copyfile(__lowerCAmelCase , __lowerCAmelCase )
# model config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'config.json' )
_UpperCAmelCase = {
'activation_dropout': args['activation_dropout'],
'architectures': ['BioGptForCausalLM'],
'attention_probs_dropout_prob': args['attention_dropout'],
'bos_token_id': 0,
'eos_token_id': 2,
'hidden_act': args['activation_fn'],
'hidden_dropout_prob': args['dropout'],
'hidden_size': args['decoder_embed_dim'],
'initializer_range': 0.02,
'intermediate_size': args['decoder_ffn_embed_dim'],
'layer_norm_eps': 1E-12,
'layerdrop': args['decoder_layerdrop'],
'max_position_embeddings': args['max_target_positions'],
'model_type': 'biogpt',
'num_attention_heads': args['decoder_attention_heads'],
'num_hidden_layers': args['decoder_layers'],
'pad_token_id': 1,
'scale_embedding': not args['no_scale_embedding'],
'tie_word_embeddings': args['share_decoder_input_output_embed'],
'vocab_size': src_vocab_size,
}
# good hparam defaults to start with
print(F"""Generating {biogpt_model_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# tokenizer config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = {
'bos_token': '<s>',
'eos_token': '</s>',
'model_max_length': 1_024,
'pad_token': '<pad>',
'special_tokens_map_file': None,
'tokenizer_class': 'BioGptTokenizer',
'unk_token': '<unk>',
}
print(F"""Generating {biogpt_tokenizer_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# model
_UpperCAmelCase = chkpt['model']
# remove unneeded keys
_UpperCAmelCase = [
'decoder.version',
]
for k in ignore_keys:
model_state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = list(model_state_dict.keys() )
for layer_name in layer_names:
if layer_name.endswith('output_projection.weight' ):
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
else:
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
_UpperCAmelCase = BioGptConfig.from_pretrained(__lowerCAmelCase )
_UpperCAmelCase = BioGptForCausalLM(__lowerCAmelCase )
# check that it loads ok
model_new.load_state_dict(__lowerCAmelCase )
# save
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
print(F"""Generating {pytorch_weights_dump_path}""" )
torch.save(__lowerCAmelCase , __lowerCAmelCase )
print('Conversion is done!' )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--biogpt_checkpoint_path''',
default=None,
type=str,
required=True,
help=(
'''Path to the official PyTorch checkpoint file which is expected to reside in the dump dir with dicts,'''
''' bpecodes, etc.'''
),
)
parser.add_argument(
'''--pytorch_dump_folder_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
_a = parser.parse_args()
convert_biogpt_checkpoint_to_pytorch(args.biogpt_checkpoint_path, args.pytorch_dump_folder_path)
| 39
| 1
|
import logging
import torch
from torch import nn
from torch.nn import CrossEntropyLoss, MSELoss
from transformers.file_utils import add_start_docstrings, add_start_docstrings_to_model_forward
from transformers.models.bert.modeling_bert import (
BERT_INPUTS_DOCSTRING,
BERT_START_DOCSTRING,
BertEncoder,
BertModel,
BertPreTrainedModel,
)
_a = logging.getLogger(__name__)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=None , UpperCAmelCase=None ):
"""simple docstring"""
_UpperCAmelCase = self.layer[current_layer](UpperCAmelCase , UpperCAmelCase , head_mask[current_layer] )
_UpperCAmelCase = layer_outputs[0]
return hidden_states
@add_start_docstrings(
"The bare Bert Model transformer with PABEE outputting raw hidden-states without any specific head on top." , snake_case__ , )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , UpperCAmelCase ):
"""simple docstring"""
super().__init__(UpperCAmelCase )
_UpperCAmelCase = BertEncoderWithPabee(UpperCAmelCase )
self.init_weights()
_UpperCAmelCase = 0
_UpperCAmelCase = 0
_UpperCAmelCase = 0
_UpperCAmelCase = 0
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = threshold
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = patience
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = 0
_UpperCAmelCase = 0
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.inference_layers_num / self.inference_instances_num
_UpperCAmelCase = (
F"""*** Patience = {self.patience} Avg. Inference Layers = {avg_inf_layers:.2f} Speed Up ="""
F""" {1 - avg_inf_layers / self.config.num_hidden_layers:.2f} ***"""
)
print(UpperCAmelCase )
@add_start_docstrings_to_model_forward(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=False , ):
"""simple docstring"""
if input_ids is not None and inputs_embeds is not None:
raise ValueError('You cannot specify both input_ids and inputs_embeds at the same time' )
elif input_ids is not None:
_UpperCAmelCase = input_ids.size()
elif inputs_embeds is not None:
_UpperCAmelCase = inputs_embeds.size()[:-1]
else:
raise ValueError('You have to specify either input_ids or inputs_embeds' )
_UpperCAmelCase = input_ids.device if input_ids is not None else inputs_embeds.device
if attention_mask is None:
_UpperCAmelCase = torch.ones(UpperCAmelCase , device=UpperCAmelCase )
if token_type_ids is None:
_UpperCAmelCase = torch.zeros(UpperCAmelCase , dtype=torch.long , device=UpperCAmelCase )
# We can provide a self-attention mask of dimensions [batch_size, from_seq_length, to_seq_length]
# ourselves in which case we just need to make it broadcastable to all heads.
_UpperCAmelCase = self.get_extended_attention_mask(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# If a 2D ou 3D attention mask is provided for the cross-attention
# we need to make broadcastable to [batch_size, num_heads, seq_length, seq_length]
if self.config.is_decoder and encoder_hidden_states is not None:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = encoder_hidden_states.size()
_UpperCAmelCase = (encoder_batch_size, encoder_sequence_length)
if encoder_attention_mask is None:
_UpperCAmelCase = torch.ones(UpperCAmelCase , device=UpperCAmelCase )
_UpperCAmelCase = self.invert_attention_mask(UpperCAmelCase )
else:
_UpperCAmelCase = None
# Prepare head mask if needed
# 1.0 in head_mask indicate we keep the head
# attention_probs has shape bsz x n_heads x N x N
# input head_mask has shape [num_heads] or [num_hidden_layers x num_heads]
# and head_mask is converted to shape [num_hidden_layers x batch x num_heads x seq_length x seq_length]
_UpperCAmelCase = self.get_head_mask(UpperCAmelCase , self.config.num_hidden_layers )
_UpperCAmelCase = self.embeddings(
input_ids=UpperCAmelCase , position_ids=UpperCAmelCase , token_type_ids=UpperCAmelCase , inputs_embeds=UpperCAmelCase )
_UpperCAmelCase = embedding_output
if self.training:
_UpperCAmelCase = []
for i in range(self.config.num_hidden_layers ):
_UpperCAmelCase = self.encoder.adaptive_forward(
UpperCAmelCase , current_layer=UpperCAmelCase , attention_mask=UpperCAmelCase , head_mask=UpperCAmelCase )
_UpperCAmelCase = self.pooler(UpperCAmelCase )
_UpperCAmelCase = output_layers[i](output_dropout(UpperCAmelCase ) )
res.append(UpperCAmelCase )
elif self.patience == 0: # Use all layers for inference
_UpperCAmelCase = self.encoder(
UpperCAmelCase , attention_mask=UpperCAmelCase , head_mask=UpperCAmelCase , encoder_hidden_states=UpperCAmelCase , encoder_attention_mask=UpperCAmelCase , )
_UpperCAmelCase = self.pooler(encoder_outputs[0] )
_UpperCAmelCase = [output_layers[self.config.num_hidden_layers - 1](UpperCAmelCase )]
else:
_UpperCAmelCase = 0
_UpperCAmelCase = None
_UpperCAmelCase = 0
for i in range(self.config.num_hidden_layers ):
calculated_layer_num += 1
_UpperCAmelCase = self.encoder.adaptive_forward(
UpperCAmelCase , current_layer=UpperCAmelCase , attention_mask=UpperCAmelCase , head_mask=UpperCAmelCase )
_UpperCAmelCase = self.pooler(UpperCAmelCase )
_UpperCAmelCase = output_layers[i](UpperCAmelCase )
if regression:
_UpperCAmelCase = logits.detach()
if patient_result is not None:
_UpperCAmelCase = patient_result.detach()
if (patient_result is not None) and torch.abs(patient_result - labels ) < self.regression_threshold:
patient_counter += 1
else:
_UpperCAmelCase = 0
else:
_UpperCAmelCase = logits.detach().argmax(dim=1 )
if patient_result is not None:
_UpperCAmelCase = patient_result.detach().argmax(dim=1 )
if (patient_result is not None) and torch.all(labels.eq(UpperCAmelCase ) ):
patient_counter += 1
else:
_UpperCAmelCase = 0
_UpperCAmelCase = logits
if patient_counter == self.patience:
break
_UpperCAmelCase = [patient_result]
self.inference_layers_num += calculated_layer_num
self.inference_instances_num += 1
return res
@add_start_docstrings(
"Bert Model transformer with PABEE and a sequence classification/regression head on top (a linear layer on top of\n the pooled output) e.g. for GLUE tasks. " , snake_case__ , )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , UpperCAmelCase ):
"""simple docstring"""
super().__init__(UpperCAmelCase )
_UpperCAmelCase = config.num_labels
_UpperCAmelCase = BertModelWithPabee(UpperCAmelCase )
_UpperCAmelCase = nn.Dropout(config.hidden_dropout_prob )
_UpperCAmelCase = nn.ModuleList(
[nn.Linear(config.hidden_size , self.config.num_labels ) for _ in range(config.num_hidden_layers )] )
self.init_weights()
@add_start_docstrings_to_model_forward(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase = self.bert(
input_ids=UpperCAmelCase , attention_mask=UpperCAmelCase , token_type_ids=UpperCAmelCase , position_ids=UpperCAmelCase , head_mask=UpperCAmelCase , inputs_embeds=UpperCAmelCase , output_dropout=self.dropout , output_layers=self.classifiers , regression=self.num_labels == 1 , )
_UpperCAmelCase = (logits[-1],)
if labels is not None:
_UpperCAmelCase = None
_UpperCAmelCase = 0
for ix, logits_item in enumerate(UpperCAmelCase ):
if self.num_labels == 1:
# We are doing regression
_UpperCAmelCase = MSELoss()
_UpperCAmelCase = loss_fct(logits_item.view(-1 ) , labels.view(-1 ) )
else:
_UpperCAmelCase = CrossEntropyLoss()
_UpperCAmelCase = loss_fct(logits_item.view(-1 , self.num_labels ) , labels.view(-1 ) )
if total_loss is None:
_UpperCAmelCase = loss
else:
total_loss += loss * (ix + 1)
total_weights += ix + 1
_UpperCAmelCase = (total_loss / total_weights,) + outputs
return outputs
| 39
|
from __future__ import annotations
import collections
import pprint
from pathlib import Path
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
return "".join(sorted(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase )-> list[str]:
"""simple docstring"""
return word_by_signature[signature(__lowerCAmelCase )]
_a = Path(__file__).parent.joinpath('''words.txt''').read_text(encoding='''utf-8''')
_a = sorted({word.strip().lower() for word in data.splitlines()})
_a = collections.defaultdict(list)
for word in word_list:
word_by_signature[signature(word)].append(word)
if __name__ == "__main__":
_a = {word: anagram(word) for word in word_list if len(anagram(word)) > 1}
with open('''anagrams.txt''', '''w''') as file:
file.write('''all_anagrams = \n ''')
file.write(pprint.pformat(all_anagrams))
| 39
| 1
|
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
if isinstance(__lowerCAmelCase , __lowerCAmelCase ):
raise TypeError('\'float\' object cannot be interpreted as an integer' )
if isinstance(__lowerCAmelCase , __lowerCAmelCase ):
raise TypeError('\'str\' object cannot be interpreted as an integer' )
if num == 0:
return "0b0"
_UpperCAmelCase = False
if num < 0:
_UpperCAmelCase = True
_UpperCAmelCase = -num
_UpperCAmelCase = []
while num > 0:
binary.insert(0 , num % 2 )
num >>= 1
if negative:
return "-0b" + "".join(str(__lowerCAmelCase ) for e in binary )
return "0b" + "".join(str(__lowerCAmelCase ) for e in binary )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
|
from __future__ import annotations
def __A ( __lowerCAmelCase )-> list[int]:
"""simple docstring"""
_UpperCAmelCase = 2
_UpperCAmelCase = []
while i * i <= n:
if n % i:
i += 1
else:
n //= i
factors.append(__lowerCAmelCase )
if n > 1:
factors.append(__lowerCAmelCase )
return factors
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
| 1
|
import os
import sys
_a = os.path.join(os.path.dirname(__file__), '''src''')
sys.path.append(SRC_DIR)
from transformers import (
AutoConfig,
AutoModel,
AutoModelForCausalLM,
AutoModelForMaskedLM,
AutoModelForQuestionAnswering,
AutoModelForSequenceClassification,
AutoTokenizer,
add_start_docstrings,
)
_a = [
'''torch''',
'''numpy''',
'''tokenizers''',
'''filelock''',
'''requests''',
'''tqdm''',
'''regex''',
'''sentencepiece''',
'''sacremoses''',
'''importlib_metadata''',
'''huggingface_hub''',
]
@add_start_docstrings(AutoConfig.__doc__ )
def __A ( *__lowerCAmelCase , **__lowerCAmelCase )-> str:
"""simple docstring"""
return AutoConfig.from_pretrained(*__lowerCAmelCase , **__lowerCAmelCase )
@add_start_docstrings(AutoTokenizer.__doc__ )
def __A ( *__lowerCAmelCase , **__lowerCAmelCase )-> Optional[int]:
"""simple docstring"""
return AutoTokenizer.from_pretrained(*__lowerCAmelCase , **__lowerCAmelCase )
@add_start_docstrings(AutoModel.__doc__ )
def __A ( *__lowerCAmelCase , **__lowerCAmelCase )-> int:
"""simple docstring"""
return AutoModel.from_pretrained(*__lowerCAmelCase , **__lowerCAmelCase )
@add_start_docstrings(AutoModelForCausalLM.__doc__ )
def __A ( *__lowerCAmelCase , **__lowerCAmelCase )-> Union[str, Any]:
"""simple docstring"""
return AutoModelForCausalLM.from_pretrained(*__lowerCAmelCase , **__lowerCAmelCase )
@add_start_docstrings(AutoModelForMaskedLM.__doc__ )
def __A ( *__lowerCAmelCase , **__lowerCAmelCase )-> List[Any]:
"""simple docstring"""
return AutoModelForMaskedLM.from_pretrained(*__lowerCAmelCase , **__lowerCAmelCase )
@add_start_docstrings(AutoModelForSequenceClassification.__doc__ )
def __A ( *__lowerCAmelCase , **__lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
return AutoModelForSequenceClassification.from_pretrained(*__lowerCAmelCase , **__lowerCAmelCase )
@add_start_docstrings(AutoModelForQuestionAnswering.__doc__ )
def __A ( *__lowerCAmelCase , **__lowerCAmelCase )-> Tuple:
"""simple docstring"""
return AutoModelForQuestionAnswering.from_pretrained(*__lowerCAmelCase , **__lowerCAmelCase )
| 39
|
from __future__ import annotations
from itertools import permutations
from random import randint
from timeit import repeat
def __A ( )-> tuple[list[int], int]:
"""simple docstring"""
_UpperCAmelCase = [randint(-1_000 , 1_000 ) for i in range(10 )]
_UpperCAmelCase = randint(-5_000 , 5_000 )
return (arr, r)
_a = make_dataset()
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> tuple[int, ...]:
"""simple docstring"""
for triplet in permutations(__lowerCAmelCase , 3 ):
if sum(__lowerCAmelCase ) == target:
return tuple(sorted(__lowerCAmelCase ) )
return (0, 0, 0)
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> tuple[int, int, int]:
"""simple docstring"""
arr.sort()
_UpperCAmelCase = len(__lowerCAmelCase )
for i in range(n - 1 ):
_UpperCAmelCase , _UpperCAmelCase = i + 1, n - 1
while left < right:
if arr[i] + arr[left] + arr[right] == target:
return (arr[i], arr[left], arr[right])
elif arr[i] + arr[left] + arr[right] < target:
left += 1
elif arr[i] + arr[left] + arr[right] > target:
right -= 1
return (0, 0, 0)
def __A ( )-> tuple[float, float]:
"""simple docstring"""
_UpperCAmelCase = '\nfrom __main__ import dataset, triplet_sum1, triplet_sum2\n'
_UpperCAmelCase = '\ntriplet_sum1(*dataset)\n'
_UpperCAmelCase = '\ntriplet_sum2(*dataset)\n'
_UpperCAmelCase = repeat(setup=__lowerCAmelCase , stmt=__lowerCAmelCase , repeat=5 , number=10_000 )
_UpperCAmelCase = repeat(setup=__lowerCAmelCase , stmt=__lowerCAmelCase , repeat=5 , number=10_000 )
return (min(__lowerCAmelCase ), min(__lowerCAmelCase ))
if __name__ == "__main__":
from doctest import testmod
testmod()
_a = solution_times()
print(F'''The time for naive implementation is {times[0]}.''')
print(F'''The time for optimized implementation is {times[1]}.''')
| 39
| 1
|
from math import factorial
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> 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(__lowerCAmelCase , __lowerCAmelCase ) or not isinstance(__lowerCAmelCase , __lowerCAmelCase ):
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' )
_UpperCAmelCase = (prob**successes) * ((1 - prob) ** (trials - successes))
# Calculate the binomial coefficient: n! / k!(n-k)!
_UpperCAmelCase = float(factorial(__lowerCAmelCase ) )
coefficient /= factorial(__lowerCAmelCase ) * 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, 0.75))
| 39
|
import os
import tempfile
import unittest
import numpy as np
from diffusers.utils import is_flax_available
from diffusers.utils.testing_utils import require_flax, slow
if is_flax_available():
import jax
import jax.numpy as jnp
from flax.jax_utils import replicate
from flax.training.common_utils import shard
from diffusers import FlaxDDIMScheduler, FlaxDiffusionPipeline, FlaxStableDiffusionPipeline
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmpdirname:
# pipeline has Flax weights
_UpperCAmelCase = FlaxDiffusionPipeline.from_pretrained(
'hf-internal-testing/tiny-stable-diffusion-pipe' , safety_checker=UpperCAmelCase , cache_dir=UpperCAmelCase )
_UpperCAmelCase = [t[-1] for t in os.walk(os.path.join(UpperCAmelCase , os.listdir(UpperCAmelCase )[0] , 'snapshots' ) )]
_UpperCAmelCase = [item for sublist in all_root_files for item in sublist]
# None of the downloaded files should be a PyTorch file even if we have some here:
# https://huggingface.co/hf-internal-testing/tiny-stable-diffusion-pipe/blob/main/unet/diffusion_pytorch_model.bin
assert not any(f.endswith('.bin' ) for f in files )
@slow
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'hf-internal-testing/tiny-stable-diffusion-pipe' , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 4
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 64, 64, 3)
if jax.device_count() == 8:
assert np.abs(np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 4.1_51_47_45 ) < 1e-3
assert np.abs(np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 4_99_47.8_75 ) < 5e-1
_UpperCAmelCase = pipeline.numpy_to_pil(np.asarray(images.reshape((num_samples,) + images.shape[-3:] ) ) )
assert len(UpperCAmelCase ) == num_samples
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='flax' , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.05_65_24_01) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_38_38_08.2) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.04_00_39_06) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_37_35_16.75) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.04_00_39_06) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_37_35_16.75) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = FlaxDDIMScheduler(
beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule='scaled_linear' , set_alpha_to_one=UpperCAmelCase , steps_offset=1 , )
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , scheduler=UpperCAmelCase , safety_checker=UpperCAmelCase , )
_UpperCAmelCase = scheduler.create_state()
_UpperCAmelCase = scheduler_state
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.0_45_04_39_45) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_34_76_93.5) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = jax.random.split(jax.random.PRNGKey(0 ) , UpperCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase , )
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
_UpperCAmelCase = images[2, 0, 256, 10:17, 1]
# With memory efficient attention
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase , use_memory_efficient_attention=UpperCAmelCase , )
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images_eff.shape == (num_samples, 1, 512, 512, 3)
_UpperCAmelCase = images[2, 0, 256, 10:17, 1]
# I checked the results visually and they are very similar. However, I saw that the max diff is `1` and the `sum`
# over the 8 images is exactly `256`, which is very suspicious. Testing a random slice for now.
assert abs(slice_eff - slice ).max() < 1e-2
| 39
| 1
|
# Copyright 2023 The HuggingFace Inc. 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.
import re
from ..utils import cached_file
# docstyle-ignore
_a = '''
Human: <<task>>
Assistant: '''
_a = '''huggingface-tools/default-prompts'''
_a = {'''chat''': '''chat_prompt_template.txt''', '''run''': '''run_prompt_template.txt'''}
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase="run" )-> Dict:
"""simple docstring"""
if prompt_or_repo_id is None:
_UpperCAmelCase = DEFAULT_PROMPTS_REPO
# prompt is considered a repo ID when it does not contain any kind of space
if re.search('\\s' , __lowerCAmelCase ) is not None:
return prompt_or_repo_id
_UpperCAmelCase = cached_file(
__lowerCAmelCase , PROMPT_FILES[mode] , repo_type='dataset' , user_agent={'agent': agent_name} )
with open(__lowerCAmelCase , 'r' , encoding='utf-8' ) as f:
return f.read()
| 39
|
import unittest
from transformers import AlbertTokenizer, AlbertTokenizerFast
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
_a = get_tests_dir('''fixtures/spiece.model''')
@require_sentencepiece
@require_tokenizers
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = AlbertTokenizer
UpperCamelCase__ = AlbertTokenizerFast
UpperCamelCase__ = True
UpperCamelCase__ = True
UpperCamelCase__ = True
def UpperCamelCase ( self ):
"""simple docstring"""
super().setUp()
# We have a SentencePiece fixture for testing
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase )
tokenizer.save_pretrained(self.tmpdirname )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 'this is a test'
_UpperCAmelCase = 'this is a test'
return input_text, output_text
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = '<pad>'
_UpperCAmelCase = 0
self.assertEqual(self.get_tokenizer()._convert_token_to_id(UpperCAmelCase ) , UpperCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(UpperCAmelCase ) , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0] , '<pad>' )
self.assertEqual(vocab_keys[1] , '<unk>' )
self.assertEqual(vocab_keys[-1] , '▁eloquent' )
self.assertEqual(len(UpperCAmelCase ) , 3_0000 )
def UpperCamelCase ( self ):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size , 3_0000 )
def UpperCamelCase ( self ):
"""simple docstring"""
if not self.test_rust_tokenizer:
return
_UpperCAmelCase = self.get_tokenizer()
_UpperCAmelCase = self.get_rust_tokenizer()
_UpperCAmelCase = 'I was born in 92000, and this is falsé.'
_UpperCAmelCase = tokenizer.tokenize(UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.tokenize(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self.get_rust_tokenizer()
_UpperCAmelCase = tokenizer.encode(UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.encode(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase , keep_accents=UpperCAmelCase )
_UpperCAmelCase = tokenizer.tokenize('This is a test' )
self.assertListEqual(UpperCAmelCase , ['▁this', '▁is', '▁a', '▁test'] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase ) , [48, 25, 21, 1289] )
_UpperCAmelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' )
self.assertListEqual(
UpperCAmelCase , ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', 'é', '.'] )
_UpperCAmelCase = tokenizer.convert_tokens_to_ids(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , [31, 23, 386, 19, 561, 3050, 15, 17, 48, 25, 8256, 18, 1, 9] )
_UpperCAmelCase = tokenizer.convert_ids_to_tokens(UpperCAmelCase )
self.assertListEqual(
UpperCAmelCase , ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', '<unk>', '.'] , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase )
_UpperCAmelCase = tokenizer.encode('sequence builders' )
_UpperCAmelCase = tokenizer.encode('multi-sequence build' )
_UpperCAmelCase = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase )
_UpperCAmelCase = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase , UpperCAmelCase )
assert encoded_sentence == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id]
assert encoded_pair == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] + text_a + [
tokenizer.sep_token_id
]
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = {'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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'input_ids': [[2, 2_1970, 13, 5, 6092, 167, 28, 7103, 2153, 673, 8, 7028, 1_2051, 18, 17, 7103, 2153, 673, 8, 3515, 1_8684, 8, 4461, 6, 1927, 297, 8, 1_2060, 2607, 18, 13, 5, 4461, 15, 1_0538, 38, 8, 135, 15, 822, 58, 15, 993, 1_0363, 15, 1460, 8005, 4461, 15, 993, 255, 2328, 9, 9, 9, 6, 26, 1112, 816, 3260, 13, 5, 103, 2377, 6, 17, 1112, 816, 2782, 13, 5, 103, 1_0641, 6, 29, 84, 2512, 2430, 782, 1_8684, 2761, 19, 808, 2430, 2556, 17, 855, 1480, 9477, 4091, 128, 1_1712, 15, 7103, 2153, 673, 17, 2_4883, 9990, 9, 3], [2, 1_1502, 25, 1006, 20, 782, 8, 1_1809, 855, 1732, 1_9393, 1_8667, 37, 367, 2_1018, 69, 1854, 34, 1_1860, 1_9124, 27, 156, 225, 17, 193, 4141, 19, 65, 9124, 9, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [2, 14, 2231, 886, 2385, 1_7659, 84, 14, 1_6792, 1952, 9, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'token_type_ids': [[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]]} # noqa: E501
# fmt: on
self.tokenizer_integration_test_util(
expected_encoding=UpperCAmelCase , model_name='albert-base-v2' , revision='6b6560eaf5ff2e250b00c50f380c5389a9c2d82e' , )
| 39
| 1
|
import importlib.metadata
import operator
import re
import sys
from typing import Optional
from packaging import version
_a = {
'''<''': operator.lt,
'''<=''': operator.le,
'''==''': operator.eq,
'''!=''': operator.ne,
'''>=''': operator.ge,
'''>''': operator.gt,
}
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
if got_ver is None or want_ver is None:
raise ValueError(
F"""Unable to compare versions for {requirement}: need={want_ver} found={got_ver}. This is unusual. Consider"""
F""" reinstalling {pkg}.""" )
if not ops[op](version.parse(__lowerCAmelCase ) , version.parse(__lowerCAmelCase ) ):
raise ImportError(
F"""{requirement} is required for a normal functioning of this module, but found {pkg}=={got_ver}.{hint}""" )
def __A ( __lowerCAmelCase , __lowerCAmelCase = None )-> None:
"""simple docstring"""
_UpperCAmelCase = F"""\n{hint}""" if hint is not None else ''
# non-versioned check
if re.match(R'^[\w_\-\d]+$' , __lowerCAmelCase ):
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = requirement, None, None
else:
_UpperCAmelCase = re.findall(R'^([^!=<>\s]+)([\s!=<>]{1,2}.+)' , __lowerCAmelCase )
if not match:
raise ValueError(
'requirement needs to be in the pip package format, .e.g., package_a==1.23, or package_b>=1.23, but'
F""" got {requirement}""" )
_UpperCAmelCase , _UpperCAmelCase = match[0]
_UpperCAmelCase = want_full.split(',' ) # there could be multiple requirements
_UpperCAmelCase = {}
for w in want_range:
_UpperCAmelCase = re.findall(R'^([\s!=<>]{1,2})(.+)' , __lowerCAmelCase )
if not match:
raise ValueError(
'requirement needs to be in the pip package format, .e.g., package_a==1.23, or package_b>=1.23,'
F""" but got {requirement}""" )
_UpperCAmelCase , _UpperCAmelCase = match[0]
_UpperCAmelCase = want_ver
if op not in ops:
raise ValueError(F"""{requirement}: need one of {list(ops.keys() )}, but got {op}""" )
# special case
if pkg == "python":
_UpperCAmelCase = '.'.join([str(__lowerCAmelCase ) for x in sys.version_info[:3]] )
for op, want_ver in wanted.items():
_compare_versions(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
return
# check if any version is installed
try:
_UpperCAmelCase = importlib.metadata.version(__lowerCAmelCase )
except importlib.metadata.PackageNotFoundError:
raise importlib.metadata.PackageNotFoundError(
F"""The '{requirement}' distribution was not found and is required by this application. {hint}""" )
# check that the right version is installed if version number or a range was provided
if want_ver is not None:
for op, want_ver in wanted.items():
_compare_versions(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
def __A ( __lowerCAmelCase )-> Tuple:
"""simple docstring"""
_UpperCAmelCase = 'Try: pip install transformers -U or pip install -e \'.[dev]\' if you\'re working with git main'
return require_version(__lowerCAmelCase , __lowerCAmelCase )
| 39
|
import json
import os
from typing import Optional
import numpy as np
from ...feature_extraction_utils import BatchFeature
from ...processing_utils import ProcessorMixin
from ...utils import logging
from ...utils.hub import get_file_from_repo
from ..auto import AutoTokenizer
_a = logging.get_logger(__name__)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "AutoTokenizer"
UpperCamelCase__ = ["tokenizer"]
UpperCamelCase__ = {
"semantic_prompt": 1,
"coarse_prompt": 2,
"fine_prompt": 2,
}
def __init__( self , UpperCAmelCase , UpperCAmelCase=None ):
"""simple docstring"""
super().__init__(UpperCAmelCase )
_UpperCAmelCase = speaker_embeddings
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase , UpperCAmelCase="speaker_embeddings_path.json" , **UpperCAmelCase ):
"""simple docstring"""
if speaker_embeddings_dict_path is not None:
_UpperCAmelCase = get_file_from_repo(
UpperCAmelCase , UpperCAmelCase , subfolder=kwargs.pop('subfolder' , UpperCAmelCase ) , cache_dir=kwargs.pop('cache_dir' , UpperCAmelCase ) , force_download=kwargs.pop('force_download' , UpperCAmelCase ) , proxies=kwargs.pop('proxies' , UpperCAmelCase ) , resume_download=kwargs.pop('resume_download' , UpperCAmelCase ) , local_files_only=kwargs.pop('local_files_only' , UpperCAmelCase ) , use_auth_token=kwargs.pop('use_auth_token' , UpperCAmelCase ) , revision=kwargs.pop('revision' , UpperCAmelCase ) , )
if speaker_embeddings_path is None:
logger.warning(
F"""`{os.path.join(UpperCAmelCase , UpperCAmelCase )}` does not exists
, no preloaded speaker embeddings will be used - Make sure to provide a correct path to the json
dictionnary if wanted, otherwise set `speaker_embeddings_dict_path=None`.""" )
_UpperCAmelCase = None
else:
with open(UpperCAmelCase ) as speaker_embeddings_json:
_UpperCAmelCase = json.load(UpperCAmelCase )
else:
_UpperCAmelCase = None
_UpperCAmelCase = AutoTokenizer.from_pretrained(UpperCAmelCase , **UpperCAmelCase )
return cls(tokenizer=UpperCAmelCase , speaker_embeddings=UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase="speaker_embeddings_path.json" , UpperCAmelCase="speaker_embeddings" , UpperCAmelCase = False , **UpperCAmelCase , ):
"""simple docstring"""
if self.speaker_embeddings is not None:
os.makedirs(os.path.join(UpperCAmelCase , UpperCAmelCase , 'v2' ) , exist_ok=UpperCAmelCase )
_UpperCAmelCase = {}
_UpperCAmelCase = save_directory
for prompt_key in self.speaker_embeddings:
if prompt_key != "repo_or_path":
_UpperCAmelCase = self._load_voice_preset(UpperCAmelCase )
_UpperCAmelCase = {}
for key in self.speaker_embeddings[prompt_key]:
np.save(
os.path.join(
embeddings_dict['repo_or_path'] , UpperCAmelCase , F"""{prompt_key}_{key}""" ) , voice_preset[key] , allow_pickle=UpperCAmelCase , )
_UpperCAmelCase = os.path.join(UpperCAmelCase , F"""{prompt_key}_{key}.npy""" )
_UpperCAmelCase = tmp_dict
with open(os.path.join(UpperCAmelCase , UpperCAmelCase ) , 'w' ) as fp:
json.dump(UpperCAmelCase , UpperCAmelCase )
super().save_pretrained(UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase = None , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.speaker_embeddings[voice_preset]
_UpperCAmelCase = {}
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset_paths:
raise ValueError(
F"""Voice preset unrecognized, missing {key} as a key in self.speaker_embeddings[{voice_preset}].""" )
_UpperCAmelCase = get_file_from_repo(
self.speaker_embeddings.get('repo_or_path' , '/' ) , voice_preset_paths[key] , subfolder=kwargs.pop('subfolder' , UpperCAmelCase ) , cache_dir=kwargs.pop('cache_dir' , UpperCAmelCase ) , force_download=kwargs.pop('force_download' , UpperCAmelCase ) , proxies=kwargs.pop('proxies' , UpperCAmelCase ) , resume_download=kwargs.pop('resume_download' , UpperCAmelCase ) , local_files_only=kwargs.pop('local_files_only' , UpperCAmelCase ) , use_auth_token=kwargs.pop('use_auth_token' , UpperCAmelCase ) , revision=kwargs.pop('revision' , UpperCAmelCase ) , )
if path is None:
raise ValueError(
F"""`{os.path.join(self.speaker_embeddings.get("repo_or_path" , "/" ) , voice_preset_paths[key] )}` does not exists
, no preloaded voice preset will be used - Make sure to provide correct paths to the {voice_preset}
embeddings.""" )
_UpperCAmelCase = np.load(UpperCAmelCase )
return voice_preset_dict
def UpperCamelCase ( self , UpperCAmelCase = None ):
"""simple docstring"""
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset:
raise ValueError(F"""Voice preset unrecognized, missing {key} as a key.""" )
if not isinstance(voice_preset[key] , np.ndarray ):
raise ValueError(F"""{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.""" )
if len(voice_preset[key].shape ) != self.preset_shape[key]:
raise ValueError(F"""{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.""" )
def __call__( self , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase="pt" , UpperCAmelCase=256 , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=False , **UpperCAmelCase , ):
"""simple docstring"""
if voice_preset is not None and not isinstance(UpperCAmelCase , UpperCAmelCase ):
if (
isinstance(UpperCAmelCase , UpperCAmelCase )
and self.speaker_embeddings is not None
and voice_preset in self.speaker_embeddings
):
_UpperCAmelCase = self._load_voice_preset(UpperCAmelCase )
else:
if isinstance(UpperCAmelCase , UpperCAmelCase ) and not voice_preset.endswith('.npz' ):
_UpperCAmelCase = voice_preset + '.npz'
_UpperCAmelCase = np.load(UpperCAmelCase )
if voice_preset is not None:
self._validate_voice_preset_dict(UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = BatchFeature(data=UpperCAmelCase , tensor_type=UpperCAmelCase )
_UpperCAmelCase = self.tokenizer(
UpperCAmelCase , return_tensors=UpperCAmelCase , padding='max_length' , max_length=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , add_special_tokens=UpperCAmelCase , **UpperCAmelCase , )
if voice_preset is not None:
_UpperCAmelCase = voice_preset
return encoded_text
| 39
| 1
|
import unittest
from transformers import TrOCRConfig
from transformers.testing_utils import is_torch_available, require_torch, torch_device
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.models.trocr.modeling_trocr import TrOCRDecoder, TrOCRForCausalLM
@require_torch
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=99 , UpperCAmelCase=13 , UpperCAmelCase=16 , UpperCAmelCase=7 , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=2 , UpperCAmelCase=32 , UpperCAmelCase=4 , UpperCAmelCase=4 , UpperCAmelCase=30 , UpperCAmelCase=0 , UpperCAmelCase=1 , UpperCAmelCase=2 , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = decoder_seq_length
# For common tests
_UpperCAmelCase = self.decoder_seq_length
_UpperCAmelCase = is_training
_UpperCAmelCase = use_attention_mask
_UpperCAmelCase = use_labels
_UpperCAmelCase = vocab_size
_UpperCAmelCase = d_model
_UpperCAmelCase = d_model
_UpperCAmelCase = decoder_layers
_UpperCAmelCase = decoder_layers
_UpperCAmelCase = decoder_ffn_dim
_UpperCAmelCase = decoder_attention_heads
_UpperCAmelCase = decoder_attention_heads
_UpperCAmelCase = eos_token_id
_UpperCAmelCase = bos_token_id
_UpperCAmelCase = pad_token_id
_UpperCAmelCase = decoder_start_token_id
_UpperCAmelCase = use_cache
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = None
_UpperCAmelCase = decoder_seq_length
_UpperCAmelCase = 2
_UpperCAmelCase = 1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = ids_tensor([self.batch_size, self.decoder_seq_length] , self.vocab_size )
_UpperCAmelCase = None
if self.use_attention_mask:
_UpperCAmelCase = ids_tensor([self.batch_size, self.decoder_seq_length] , vocab_size=2 )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size, self.decoder_seq_length] , self.vocab_size )
_UpperCAmelCase = TrOCRConfig(
vocab_size=self.vocab_size , d_model=self.d_model , decoder_layers=self.decoder_layers , decoder_ffn_dim=self.decoder_ffn_dim , decoder_attention_heads=self.decoder_attention_heads , eos_token_id=self.eos_token_id , bos_token_id=self.bos_token_id , use_cache=self.use_cache , pad_token_id=self.pad_token_id , decoder_start_token_id=self.decoder_start_token_id , max_position_embeddings=self.max_position_embeddings , )
return (config, input_ids, attention_mask, lm_labels)
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = True
_UpperCAmelCase = TrOCRDecoder(config=UpperCAmelCase ).to(UpperCAmelCase ).eval()
_UpperCAmelCase = input_ids[:2]
input_ids[input_ids == 0] += 1
# first forward pass
_UpperCAmelCase = model(UpperCAmelCase , use_cache=UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase , use_cache=UpperCAmelCase )
self.parent.assertTrue(len(UpperCAmelCase ) == len(UpperCAmelCase ) )
self.parent.assertTrue(len(UpperCAmelCase ) == len(UpperCAmelCase ) + 1 )
_UpperCAmelCase = outputs['past_key_values']
# create hypothetical next token and extent to next_input_ids
_UpperCAmelCase = ids_tensor((2, 1) , config.vocab_size - 1 ) + 1
# append to next input_ids and
_UpperCAmelCase = torch.cat([input_ids, next_tokens] , dim=-1 )
_UpperCAmelCase = model(UpperCAmelCase )['last_hidden_state']
_UpperCAmelCase = model(UpperCAmelCase , past_key_values=UpperCAmelCase )['last_hidden_state']
# select random slice
_UpperCAmelCase = ids_tensor((1,) , output_from_past.shape[-1] ).item()
_UpperCAmelCase = output_from_no_past[:, next_input_ids.shape[-1] - 1, random_slice_idx].detach()
_UpperCAmelCase = output_from_past[:, 0, random_slice_idx].detach()
# test that outputs are equal for slice
assert torch.allclose(UpperCAmelCase , UpperCAmelCase , atol=1e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'input_ids': input_ids, 'attention_mask': attention_mask}
return config, inputs_dict
@require_torch
class __lowerCamelCase ( snake_case__ , snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (TrOCRDecoder, TrOCRForCausalLM) if is_torch_available() else ()
UpperCamelCase__ = (TrOCRForCausalLM,) if is_torch_available() else ()
UpperCamelCase__ = {"text-generation": TrOCRForCausalLM} if is_torch_available() else {}
UpperCamelCase__ = True
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TrOCRStandaloneDecoderModelTester(self , is_training=UpperCAmelCase )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_decoder_model_past(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
return
@unittest.skip('The model doesn\'t support left padding' ) # and it's not used enough to be worth fixing :)
def UpperCamelCase ( self ):
"""simple docstring"""
pass
| 39
|
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'''distilbert-base-uncased''': '''https://huggingface.co/distilbert-base-uncased/resolve/main/config.json''',
'''distilbert-base-uncased-distilled-squad''': (
'''https://huggingface.co/distilbert-base-uncased-distilled-squad/resolve/main/config.json'''
),
'''distilbert-base-cased''': '''https://huggingface.co/distilbert-base-cased/resolve/main/config.json''',
'''distilbert-base-cased-distilled-squad''': (
'''https://huggingface.co/distilbert-base-cased-distilled-squad/resolve/main/config.json'''
),
'''distilbert-base-german-cased''': '''https://huggingface.co/distilbert-base-german-cased/resolve/main/config.json''',
'''distilbert-base-multilingual-cased''': (
'''https://huggingface.co/distilbert-base-multilingual-cased/resolve/main/config.json'''
),
'''distilbert-base-uncased-finetuned-sst-2-english''': (
'''https://huggingface.co/distilbert-base-uncased-finetuned-sst-2-english/resolve/main/config.json'''
),
}
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "distilbert"
UpperCamelCase__ = {
"hidden_size": "dim",
"num_attention_heads": "n_heads",
"num_hidden_layers": "n_layers",
}
def __init__( self , UpperCAmelCase=3_0522 , UpperCAmelCase=512 , UpperCAmelCase=False , UpperCAmelCase=6 , UpperCAmelCase=12 , UpperCAmelCase=768 , UpperCAmelCase=4 * 768 , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=0.02 , UpperCAmelCase=0.1 , UpperCAmelCase=0.2 , UpperCAmelCase=0 , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = vocab_size
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = sinusoidal_pos_embds
_UpperCAmelCase = n_layers
_UpperCAmelCase = n_heads
_UpperCAmelCase = dim
_UpperCAmelCase = hidden_dim
_UpperCAmelCase = dropout
_UpperCAmelCase = attention_dropout
_UpperCAmelCase = activation
_UpperCAmelCase = initializer_range
_UpperCAmelCase = qa_dropout
_UpperCAmelCase = seq_classif_dropout
super().__init__(**UpperCAmelCase , pad_token_id=UpperCAmelCase )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
_UpperCAmelCase = {0: 'batch', 1: 'choice', 2: 'sequence'}
else:
_UpperCAmelCase = {0: 'batch', 1: 'sequence'}
return OrderedDict(
[
('input_ids', dynamic_axis),
('attention_mask', dynamic_axis),
] )
| 39
| 1
|
from .configuration_bert_masked import MaskedBertConfig
from .modeling_bert_masked import (
MaskedBertForMultipleChoice,
MaskedBertForQuestionAnswering,
MaskedBertForSequenceClassification,
MaskedBertForTokenClassification,
MaskedBertModel,
)
from .modules import *
| 39
|
import json
import logging
import os
import sys
from pathlib import Path
import finetune_rag
from transformers.file_utils import is_apex_available
from transformers.testing_utils import (
TestCasePlus,
execute_subprocess_async,
require_ray,
require_torch_gpu,
require_torch_multi_gpu,
)
logging.basicConfig(level=logging.DEBUG)
_a = logging.getLogger()
_a = logging.StreamHandler(sys.stdout)
logger.addHandler(stream_handler)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
os.makedirs(UpperCAmelCase , exist_ok=UpperCAmelCase )
_UpperCAmelCase = {'source': 'What is love ?', 'target': 'life'}
_UpperCAmelCase = {'train': 12, 'val': 2, 'test': 2}
for split in ["train", "test", "val"]:
for field in ["source", "target"]:
_UpperCAmelCase = '\n'.join([contents[field]] * n_lines[split] )
with open(os.path.join(UpperCAmelCase , F"""{split}.{field}""" ) , 'w' ) as f:
f.write(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase = "pytorch" ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'output' )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'data' )
self._create_dummy_data(data_dir=UpperCAmelCase )
_UpperCAmelCase = F"""
--data_dir {data_dir} \
--output_dir {output_dir} \
--model_name_or_path facebook/rag-sequence-base \
--model_type rag_sequence \
--do_train \
--do_predict \
--n_val -1 \
--val_check_interval 1.0 \
--train_batch_size 2 \
--eval_batch_size 1 \
--max_source_length 25 \
--max_target_length 25 \
--val_max_target_length 25 \
--test_max_target_length 25 \
--label_smoothing 0.1 \
--dropout 0.1 \
--attention_dropout 0.1 \
--weight_decay 0.001 \
--adam_epsilon 1e-08 \
--max_grad_norm 0.1 \
--lr_scheduler polynomial \
--learning_rate 3e-04 \
--num_train_epochs 1 \
--warmup_steps 4 \
--gradient_accumulation_steps 1 \
--distributed-port 8787 \
--use_dummy_dataset 1 \
--distributed_retriever {distributed_retriever} \
""".split()
if gpus > 0:
testargs.append(F"""--gpus={gpus}""" )
if is_apex_available():
testargs.append('--fp16' )
else:
testargs.append('--gpus=0' )
testargs.append('--distributed_backend=ddp_cpu' )
testargs.append('--num_processes=2' )
_UpperCAmelCase = [sys.executable, str(Path(finetune_rag.__file__ ).resolve() )] + testargs
execute_subprocess_async(UpperCAmelCase , env=self.get_env() )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'metrics.json' )
with open(UpperCAmelCase ) as f:
_UpperCAmelCase = json.load(UpperCAmelCase )
return result
@require_torch_gpu
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_multi_gpu
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=2 )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_gpu
@require_ray
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 , distributed_retriever='ray' )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_multi_gpu
@require_ray
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 , distributed_retriever='ray' )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
| 39
| 1
|
import unittest
import numpy as np
from diffusers import LMSDiscreteScheduler, OnnxStableDiffusionInpaintPipeline
from diffusers.utils.testing_utils import (
is_onnx_available,
load_image,
nightly,
require_onnxruntime,
require_torch_gpu,
)
from ..test_pipelines_onnx_common import OnnxPipelineTesterMixin
if is_onnx_available():
import onnxruntime as ort
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
pass
@nightly
@require_onnxruntime
@require_torch_gpu
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return (
"CUDAExecutionProvider",
{
"gpu_mem_limit": "15000000000", # 15GB
"arena_extend_strategy": "kSameAsRequested",
},
)
@property
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = ort.SessionOptions()
_UpperCAmelCase = False
return options
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = load_image(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main'
'/in_paint/overture-creations-5sI6fQgYIuo.png' )
_UpperCAmelCase = load_image(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main'
'/in_paint/overture-creations-5sI6fQgYIuo_mask.png' )
_UpperCAmelCase = OnnxStableDiffusionInpaintPipeline.from_pretrained(
'runwayml/stable-diffusion-inpainting' , revision='onnx' , safety_checker=UpperCAmelCase , feature_extractor=UpperCAmelCase , provider=self.gpu_provider , sess_options=self.gpu_options , )
pipe.set_progress_bar_config(disable=UpperCAmelCase )
_UpperCAmelCase = 'A red cat sitting on a park bench'
_UpperCAmelCase = np.random.RandomState(0 )
_UpperCAmelCase = pipe(
prompt=UpperCAmelCase , image=UpperCAmelCase , mask_image=UpperCAmelCase , guidance_scale=7.5 , num_inference_steps=10 , generator=UpperCAmelCase , output_type='np' , )
_UpperCAmelCase = output.images
_UpperCAmelCase = images[0, 255:258, 255:258, -1]
assert images.shape == (1, 512, 512, 3)
_UpperCAmelCase = np.array([0.25_14, 0.30_07, 0.35_17, 0.17_90, 0.23_82, 0.31_67, 0.19_44, 0.22_73, 0.24_64] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = load_image(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main'
'/in_paint/overture-creations-5sI6fQgYIuo.png' )
_UpperCAmelCase = load_image(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main'
'/in_paint/overture-creations-5sI6fQgYIuo_mask.png' )
_UpperCAmelCase = LMSDiscreteScheduler.from_pretrained(
'runwayml/stable-diffusion-inpainting' , subfolder='scheduler' , revision='onnx' )
_UpperCAmelCase = OnnxStableDiffusionInpaintPipeline.from_pretrained(
'runwayml/stable-diffusion-inpainting' , revision='onnx' , scheduler=UpperCAmelCase , safety_checker=UpperCAmelCase , feature_extractor=UpperCAmelCase , provider=self.gpu_provider , sess_options=self.gpu_options , )
pipe.set_progress_bar_config(disable=UpperCAmelCase )
_UpperCAmelCase = 'A red cat sitting on a park bench'
_UpperCAmelCase = np.random.RandomState(0 )
_UpperCAmelCase = pipe(
prompt=UpperCAmelCase , image=UpperCAmelCase , mask_image=UpperCAmelCase , guidance_scale=7.5 , num_inference_steps=20 , generator=UpperCAmelCase , output_type='np' , )
_UpperCAmelCase = output.images
_UpperCAmelCase = images[0, 255:258, 255:258, -1]
assert images.shape == (1, 512, 512, 3)
_UpperCAmelCase = np.array([0.00_86, 0.00_77, 0.00_83, 0.00_93, 0.01_07, 0.01_39, 0.00_94, 0.00_97, 0.01_25] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-3
| 39
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
_UpperCAmelCase = {} # Mapping from char to TrieNode
_UpperCAmelCase = False
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for word in words:
self.insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self
for char in word:
if char not in curr.nodes:
_UpperCAmelCase = TrieNode()
_UpperCAmelCase = curr.nodes[char]
_UpperCAmelCase = True
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self
for char in word:
if char not in curr.nodes:
return False
_UpperCAmelCase = curr.nodes[char]
return curr.is_leaf
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
def _delete(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) -> bool:
if index == len(UpperCAmelCase ):
# If word does not exist
if not curr.is_leaf:
return False
_UpperCAmelCase = False
return len(curr.nodes ) == 0
_UpperCAmelCase = word[index]
_UpperCAmelCase = curr.nodes.get(UpperCAmelCase )
# If char not in current trie node
if not char_node:
return False
# Flag to check if node can be deleted
_UpperCAmelCase = _delete(UpperCAmelCase , UpperCAmelCase , index + 1 )
if delete_curr:
del curr.nodes[char]
return len(curr.nodes ) == 0
return delete_curr
_delete(self , UpperCAmelCase , 0 )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
if node.is_leaf:
print(__lowerCAmelCase , end=' ' )
for key, value in node.nodes.items():
print_words(__lowerCAmelCase , word + key )
def __A ( )-> bool:
"""simple docstring"""
_UpperCAmelCase = 'banana bananas bandana band apple all beast'.split()
_UpperCAmelCase = TrieNode()
root.insert_many(__lowerCAmelCase )
# print_words(root, "")
assert all(root.find(__lowerCAmelCase ) for word in words )
assert root.find('banana' )
assert not root.find('bandanas' )
assert not root.find('apps' )
assert root.find('apple' )
assert root.find('all' )
root.delete('all' )
assert not root.find('all' )
root.delete('banana' )
assert not root.find('banana' )
assert root.find('bananas' )
return True
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
print(str(__lowerCAmelCase ) , 'works!' if passes else 'doesn\'t work :(' )
def __A ( )-> None:
"""simple docstring"""
assert test_trie()
def __A ( )-> None:
"""simple docstring"""
print_results('Testing trie functionality' , test_trie() )
if __name__ == "__main__":
main()
| 39
| 1
|
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> float:
"""simple docstring"""
return base * power(__lowerCAmelCase , (exponent - 1) ) if exponent else 1
if __name__ == "__main__":
print('''Raise base to the power of exponent using recursion...''')
_a = int(input('''Enter the base: ''').strip())
_a = int(input('''Enter the exponent: ''').strip())
_a = power(base, abs(exponent))
if exponent < 0: # power() does not properly deal w/ negative exponents
_a = 1 / result
print(F'''{base} to the power of {exponent} is {result}''')
| 39
|
import unittest
from transformers import (
MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
Pipeline,
ZeroShotClassificationPipeline,
pipeline,
)
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_tf, require_torch, slow
from .test_pipelines_common import ANY
# These 2 model types require different inputs than those of the usual text models.
_a = {'''LayoutLMv2Config''', '''LayoutLMv3Config'''}
@is_pipeline_test
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
UpperCamelCase__ = TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
if model_mapping is not None:
UpperCamelCase__ = {config: model for config, model in model_mapping.items() if config.__name__ not in _TO_SKIP}
if tf_model_mapping is not None:
UpperCamelCase__ = {
config: model for config, model in tf_model_mapping.items() if config.__name__ not in _TO_SKIP
}
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = ZeroShotClassificationPipeline(
model=UpperCAmelCase , tokenizer=UpperCAmelCase , candidate_labels=['polics', 'health'] )
return classifier, ["Who are you voting for in 2020?", "My stomach hurts."]
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels='politics' )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
# No kwarg
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , ['politics'] )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels=['politics'] )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels='politics, public health' )
self.assertEqual(
UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]} )
self.assertAlmostEqual(sum(nested_simplify(outputs['scores'] ) ) , 1.0 )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels=['politics', 'public health'] )
self.assertEqual(
UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]} )
self.assertAlmostEqual(sum(nested_simplify(outputs['scores'] ) ) , 1.0 )
_UpperCAmelCase = classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template='This text is about {}' )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
# https://github.com/huggingface/transformers/issues/13846
_UpperCAmelCase = classifier(['I am happy'] , ['positive', 'negative'] )
self.assertEqual(
UpperCAmelCase , [
{'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]}
for i in range(1 )
] , )
_UpperCAmelCase = classifier(['I am happy', 'I am sad'] , ['positive', 'negative'] )
self.assertEqual(
UpperCAmelCase , [
{'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]}
for i in range(2 )
] , )
with self.assertRaises(UpperCAmelCase ):
classifier('' , candidate_labels='politics' )
with self.assertRaises(UpperCAmelCase ):
classifier(UpperCAmelCase , candidate_labels='politics' )
with self.assertRaises(UpperCAmelCase ):
classifier('Who are you voting for in 2020?' , candidate_labels='' )
with self.assertRaises(UpperCAmelCase ):
classifier('Who are you voting for in 2020?' , candidate_labels=UpperCAmelCase )
with self.assertRaises(UpperCAmelCase ):
classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template='Not formatting template' , )
with self.assertRaises(UpperCAmelCase ):
classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template=UpperCAmelCase , )
self.run_entailment_id(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = zero_shot_classifier.model.config
_UpperCAmelCase = config.labelaid
_UpperCAmelCase = zero_shot_classifier.entailment_id
_UpperCAmelCase = {'LABEL_0': 0, 'LABEL_1': 1, 'LABEL_2': 2}
self.assertEqual(zero_shot_classifier.entailment_id , -1 )
_UpperCAmelCase = {'entailment': 0, 'neutral': 1, 'contradiction': 2}
self.assertEqual(zero_shot_classifier.entailment_id , 0 )
_UpperCAmelCase = {'ENTAIL': 0, 'NON-ENTAIL': 1}
self.assertEqual(zero_shot_classifier.entailment_id , 0 )
_UpperCAmelCase = {'ENTAIL': 2, 'NEUTRAL': 1, 'CONTR': 0}
self.assertEqual(zero_shot_classifier.entailment_id , 2 )
_UpperCAmelCase = original_labelaid
self.assertEqual(UpperCAmelCase , zero_shot_classifier.entailment_id )
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='pt' , )
# There was a regression in 4.10 for this
# Adding a test so we don't make the mistake again.
# https://github.com/huggingface/transformers/issues/13381#issuecomment-912343499
zero_shot_classifier(
'Who are you voting for in 2020?' * 100 , candidate_labels=['politics', 'public health', 'science'] )
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='pt' , )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['science', 'public health', 'politics'],
'scores': [0.3_33, 0.3_33, 0.3_33],
} , )
@require_tf
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='tf' , )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['science', 'public health', 'politics'],
'scores': [0.3_33, 0.3_33, 0.3_33],
} , )
@slow
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline('zero-shot-classification' , model='roberta-large-mnli' , framework='pt' )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['politics', 'public health', 'science'],
'scores': [0.9_76, 0.0_15, 0.0_09],
} , )
_UpperCAmelCase = zero_shot_classifier(
'The dominant sequence transduction models are based on complex recurrent or convolutional neural networks'
' in an encoder-decoder configuration. The best performing models also connect the encoder and decoder'
' through an attention mechanism. We propose a new simple network architecture, the Transformer, based'
' solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two'
' machine translation tasks show these models to be superior in quality while being more parallelizable'
' and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014'
' English-to-German translation task, improving over the existing best results, including ensembles by'
' over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new'
' single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small'
' fraction of the training costs of the best models from the literature. We show that the Transformer'
' generalizes well to other tasks by applying it successfully to English constituency parsing both with'
' large and limited training data.' , candidate_labels=['machine learning', 'statistics', 'translation', 'vision'] , multi_label=UpperCAmelCase , )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': (
'The dominant sequence transduction models are based on complex recurrent or convolutional neural'
' networks in an encoder-decoder configuration. The best performing models also connect the'
' encoder and decoder through an attention mechanism. We propose a new simple network'
' architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence'
' and convolutions entirely. Experiments on two machine translation tasks show these models to be'
' superior in quality while being more parallelizable and requiring significantly less time to'
' train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task,'
' improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014'
' English-to-French translation task, our model establishes a new single-model state-of-the-art'
' BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training'
' costs of the best models from the literature. We show that the Transformer generalizes well to'
' other tasks by applying it successfully to English constituency parsing both with large and'
' limited training data.'
),
'labels': ['translation', 'machine learning', 'vision', 'statistics'],
'scores': [0.8_17, 0.7_13, 0.0_18, 0.0_18],
} , )
@slow
@require_tf
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline('zero-shot-classification' , model='roberta-large-mnli' , framework='tf' )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['politics', 'public health', 'science'],
'scores': [0.9_76, 0.0_15, 0.0_09],
} , )
_UpperCAmelCase = zero_shot_classifier(
'The dominant sequence transduction models are based on complex recurrent or convolutional neural networks'
' in an encoder-decoder configuration. The best performing models also connect the encoder and decoder'
' through an attention mechanism. We propose a new simple network architecture, the Transformer, based'
' solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two'
' machine translation tasks show these models to be superior in quality while being more parallelizable'
' and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014'
' English-to-German translation task, improving over the existing best results, including ensembles by'
' over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new'
' single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small'
' fraction of the training costs of the best models from the literature. We show that the Transformer'
' generalizes well to other tasks by applying it successfully to English constituency parsing both with'
' large and limited training data.' , candidate_labels=['machine learning', 'statistics', 'translation', 'vision'] , multi_label=UpperCAmelCase , )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': (
'The dominant sequence transduction models are based on complex recurrent or convolutional neural'
' networks in an encoder-decoder configuration. The best performing models also connect the'
' encoder and decoder through an attention mechanism. We propose a new simple network'
' architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence'
' and convolutions entirely. Experiments on two machine translation tasks show these models to be'
' superior in quality while being more parallelizable and requiring significantly less time to'
' train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task,'
' improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014'
' English-to-French translation task, our model establishes a new single-model state-of-the-art'
' BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training'
' costs of the best models from the literature. We show that the Transformer generalizes well to'
' other tasks by applying it successfully to English constituency parsing both with large and'
' limited training data.'
),
'labels': ['translation', 'machine learning', 'vision', 'statistics'],
'scores': [0.8_17, 0.7_13, 0.0_18, 0.0_18],
} , )
| 39
| 1
|
from __future__ import annotations
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = text, pattern
_UpperCAmelCase , _UpperCAmelCase = len(UpperCAmelCase ), len(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for i in range(self.patLen - 1 , -1 , -1 ):
if char == self.pattern[i]:
return i
return -1
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for i in range(self.patLen - 1 , -1 , -1 ):
if self.pattern[i] != self.text[current_pos + i]:
return current_pos + i
return -1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
for i in range(self.textLen - self.patLen + 1 ):
_UpperCAmelCase = self.mismatch_in_text(UpperCAmelCase )
if mismatch_index == -1:
positions.append(UpperCAmelCase )
else:
_UpperCAmelCase = self.match_in_pattern(self.text[mismatch_index] )
_UpperCAmelCase = (
mismatch_index - match_index
) # shifting index lgtm [py/multiple-definition]
return positions
_a = '''ABAABA'''
_a = '''AB'''
_a = BoyerMooreSearch(text, pattern)
_a = bms.bad_character_heuristic()
if len(positions) == 0:
print('''No match found''')
else:
print('''Pattern found in following positions: ''')
print(positions)
| 39
|
import enum
import os
from hashlib import shaaaa
from typing import Optional
from .. import config
from .logging import get_logger
_a = get_logger(__name__)
class __lowerCamelCase ( enum.Enum):
"""simple docstring"""
UpperCamelCase__ = "all_checks"
UpperCamelCase__ = "basic_checks"
UpperCamelCase__ = "no_checks"
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=None )-> str:
"""simple docstring"""
if expected_checksums is None:
logger.info('Unable to verify checksums.' )
return
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise ExpectedMoreDownloadedFiles(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise UnexpectedDownloadedFile(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
_UpperCAmelCase = [url for url in expected_checksums if expected_checksums[url] != recorded_checksums[url]]
_UpperCAmelCase = ' for ' + verification_name if verification_name is not None else ''
if len(__lowerCAmelCase ) > 0:
raise NonMatchingChecksumError(
F"""Checksums didn't match{for_verification_name}:\n"""
F"""{bad_urls}\n"""
'Set `verification_mode=\'no_checks\'` to skip checksums verification and ignore this error' )
logger.info('All the checksums matched successfully' + for_verification_name )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
if expected_splits is None:
logger.info('Unable to verify splits sizes.' )
return
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise ExpectedMoreSplits(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise UnexpectedSplits(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
_UpperCAmelCase = [
{'expected': expected_splits[name], 'recorded': recorded_splits[name]}
for name in expected_splits
if expected_splits[name].num_examples != recorded_splits[name].num_examples
]
if len(__lowerCAmelCase ) > 0:
raise NonMatchingSplitsSizesError(str(__lowerCAmelCase ) )
logger.info('All the splits matched successfully.' )
def __A ( __lowerCAmelCase , __lowerCAmelCase = True )-> dict:
"""simple docstring"""
if record_checksum:
_UpperCAmelCase = shaaaa()
with open(__lowerCAmelCase , 'rb' ) as f:
for chunk in iter(lambda: f.read(1 << 20 ) , b'' ):
m.update(__lowerCAmelCase )
_UpperCAmelCase = m.hexdigest()
else:
_UpperCAmelCase = None
return {"num_bytes": os.path.getsize(__lowerCAmelCase ), "checksum": checksum}
def __A ( __lowerCAmelCase )-> List[str]:
"""simple docstring"""
if dataset_size and config.IN_MEMORY_MAX_SIZE:
return dataset_size < config.IN_MEMORY_MAX_SIZE
else:
return False
| 39
| 1
|
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
if not all(char in '01' for char in bin_string ):
raise ValueError('Non-binary value was passed to the function' )
if not bin_string:
raise ValueError('Empty string was passed to the function' )
_UpperCAmelCase = ''
while len(__lowerCAmelCase ) % 3 != 0:
_UpperCAmelCase = '0' + bin_string
_UpperCAmelCase = [
bin_string[index : index + 3]
for index in range(len(__lowerCAmelCase ) )
if index % 3 == 0
]
for bin_group in bin_string_in_3_list:
_UpperCAmelCase = 0
for index, val in enumerate(__lowerCAmelCase ):
oct_val += int(2 ** (2 - index) * int(__lowerCAmelCase ) )
oct_string += str(__lowerCAmelCase )
return oct_string
if __name__ == "__main__":
from doctest import testmod
testmod()
| 39
|
import collections
import inspect
import unittest
from typing import Dict, List, Tuple
from transformers import MaskFormerSwinConfig
from transformers.testing_utils import require_torch, require_torch_multi_gpu, torch_device
from transformers.utils import is_torch_available
from ...test_backbone_common import BackboneTesterMixin
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from torch import nn
from transformers import MaskFormerSwinBackbone
from transformers.models.maskformer import MaskFormerSwinModel
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=13 , UpperCAmelCase=32 , UpperCAmelCase=2 , UpperCAmelCase=3 , UpperCAmelCase=16 , UpperCAmelCase=[1, 2, 1] , UpperCAmelCase=[2, 2, 4] , UpperCAmelCase=2 , UpperCAmelCase=2.0 , UpperCAmelCase=True , UpperCAmelCase=0.0 , UpperCAmelCase=0.0 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=0.02 , UpperCAmelCase=1e-5 , UpperCAmelCase=True , UpperCAmelCase=None , UpperCAmelCase=True , UpperCAmelCase=10 , UpperCAmelCase=8 , UpperCAmelCase=["stage1", "stage2", "stage3"] , UpperCAmelCase=[1, 2, 3] , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = image_size
_UpperCAmelCase = patch_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embed_dim
_UpperCAmelCase = depths
_UpperCAmelCase = num_heads
_UpperCAmelCase = window_size
_UpperCAmelCase = mlp_ratio
_UpperCAmelCase = qkv_bias
_UpperCAmelCase = hidden_dropout_prob
_UpperCAmelCase = attention_probs_dropout_prob
_UpperCAmelCase = drop_path_rate
_UpperCAmelCase = hidden_act
_UpperCAmelCase = use_absolute_embeddings
_UpperCAmelCase = patch_norm
_UpperCAmelCase = layer_norm_eps
_UpperCAmelCase = initializer_range
_UpperCAmelCase = is_training
_UpperCAmelCase = scope
_UpperCAmelCase = use_labels
_UpperCAmelCase = type_sequence_label_size
_UpperCAmelCase = encoder_stride
_UpperCAmelCase = out_features
_UpperCAmelCase = out_indices
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.type_sequence_label_size )
_UpperCAmelCase = self.get_config()
return config, pixel_values, labels
def UpperCamelCase ( self ):
"""simple docstring"""
return MaskFormerSwinConfig(
image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , embed_dim=self.embed_dim , depths=self.depths , num_heads=self.num_heads , window_size=self.window_size , mlp_ratio=self.mlp_ratio , qkv_bias=self.qkv_bias , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , drop_path_rate=self.drop_path_rate , hidden_act=self.hidden_act , use_absolute_embeddings=self.use_absolute_embeddings , path_norm=self.patch_norm , layer_norm_eps=self.layer_norm_eps , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , out_features=self.out_features , out_indices=self.out_indices , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModel(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase )
_UpperCAmelCase = ((config.image_size // config.patch_size) ** 2) // (4 ** (len(config.depths ) - 1))
_UpperCAmelCase = int(config.embed_dim * 2 ** (len(config.depths ) - 1) )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, expected_seq_len, expected_dim) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinBackbone(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase )
# verify feature maps
self.parent.assertEqual(len(result.feature_maps ) , len(config.out_features ) )
self.parent.assertListEqual(list(result.feature_maps[0].shape ) , [13, 16, 16, 16] )
# verify channels
self.parent.assertEqual(len(model.channels ) , len(config.out_features ) )
self.parent.assertListEqual(model.channels , [16, 32, 64] )
# verify ValueError
with self.parent.assertRaises(UpperCAmelCase ):
_UpperCAmelCase = ['stem']
_UpperCAmelCase = MaskFormerSwinBackbone(config=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'pixel_values': pixel_values}
return config, inputs_dict
@require_torch
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (
(
MaskFormerSwinModel,
MaskFormerSwinBackbone,
)
if is_torch_available()
else ()
)
UpperCamelCase__ = {"feature-extraction": MaskFormerSwinModel} if is_torch_available() else {}
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , embed_dim=37 )
@require_torch_multi_gpu
@unittest.skip(
reason=(
'`MaskFormerSwinModel` outputs `hidden_states_spatial_dimensions` which doesn\'t work well with'
' `nn.DataParallel`'
) )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCamelCase ( self ):
"""simple docstring"""
return
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_backbone(*UpperCAmelCase )
@unittest.skip('Swin does not use inputs_embeds' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip('Swin does not support feedforward chunking' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
self.assertIsInstance(model.get_input_embeddings() , (nn.Module) )
_UpperCAmelCase = model.get_output_embeddings()
self.assertTrue(x is None or isinstance(UpperCAmelCase , nn.Linear ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
_UpperCAmelCase = [*signature.parameters.keys()]
_UpperCAmelCase = ['pixel_values']
self.assertListEqual(arg_names[:1] , UpperCAmelCase )
@unittest.skip(reason='MaskFormerSwin is only used as backbone and doesn\'t support output_attentions' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='MaskFormerSwin is only used as an internal backbone' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = model_class(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
with torch.no_grad():
_UpperCAmelCase = model(**self._prepare_for_class(UpperCAmelCase , UpperCAmelCase ) )
_UpperCAmelCase = outputs.hidden_states
_UpperCAmelCase = getattr(
self.model_tester , 'expected_num_hidden_layers' , len(self.model_tester.depths ) + 1 )
self.assertEqual(len(UpperCAmelCase ) , UpperCAmelCase )
# Swin has a different seq_length
_UpperCAmelCase = (
config.patch_size
if isinstance(config.patch_size , collections.abc.Iterable )
else (config.patch_size, config.patch_size)
)
_UpperCAmelCase = (image_size[1] // patch_size[1]) * (image_size[0] // patch_size[0])
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) , [num_patches, self.model_tester.embed_dim] , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = (
self.model_tester.image_size
if isinstance(self.model_tester.image_size , collections.abc.Iterable )
else (self.model_tester.image_size, self.model_tester.image_size)
)
for model_class in self.all_model_classes:
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = 3
_UpperCAmelCase = (
self.model_tester.image_size
if isinstance(self.model_tester.image_size , collections.abc.Iterable )
else (self.model_tester.image_size, self.model_tester.image_size)
)
_UpperCAmelCase = (
config.patch_size
if isinstance(config.patch_size , collections.abc.Iterable )
else (config.patch_size, config.patch_size)
)
_UpperCAmelCase = image_size[0] + patch_size[0] - (image_size[0] % patch_size[0])
_UpperCAmelCase = image_size[1] + patch_size[1] - (image_size[1] % patch_size[1])
for model_class in self.all_model_classes:
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , (padded_height, padded_width) )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , (padded_height, padded_width) )
@unittest.skip(reason='MaskFormerSwin doesn\'t have pretrained checkpoints' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='This will be fixed once MaskFormerSwin is replaced by native Swin' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='This will be fixed once MaskFormerSwin is replaced by native Swin' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
def set_nan_tensor_to_zero(UpperCAmelCase ):
_UpperCAmelCase = 0
return t
def check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase={} ):
with torch.no_grad():
_UpperCAmelCase = model(**UpperCAmelCase , return_dict=UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = model(**UpperCAmelCase , return_dict=UpperCAmelCase , **UpperCAmelCase ).to_tuple()
def recursive_check(UpperCAmelCase , UpperCAmelCase ):
if isinstance(UpperCAmelCase , (List, Tuple) ):
for tuple_iterable_value, dict_iterable_value in zip(UpperCAmelCase , UpperCAmelCase ):
recursive_check(UpperCAmelCase , UpperCAmelCase )
elif isinstance(UpperCAmelCase , UpperCAmelCase ):
for tuple_iterable_value, dict_iterable_value in zip(
tuple_object.values() , dict_object.values() ):
recursive_check(UpperCAmelCase , UpperCAmelCase )
elif tuple_object is None:
return
else:
self.assertTrue(
torch.allclose(
set_nan_tensor_to_zero(UpperCAmelCase ) , set_nan_tensor_to_zero(UpperCAmelCase ) , atol=1e-5 ) , msg=(
'Tuple and dict output are not equal. Difference:'
F""" {torch.max(torch.abs(tuple_object - dict_object ) )}. Tuple has `nan`:"""
F""" {torch.isnan(UpperCAmelCase ).any()} and `inf`: {torch.isinf(UpperCAmelCase )}. Dict has"""
F""" `nan`: {torch.isnan(UpperCAmelCase ).any()} and `inf`: {torch.isinf(UpperCAmelCase )}."""
) , )
recursive_check(UpperCAmelCase , UpperCAmelCase )
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , {'output_hidden_states': True} )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , {'output_hidden_states': True} )
@require_torch
class __lowerCamelCase ( unittest.TestCase , snake_case__):
"""simple docstring"""
UpperCamelCase__ = (MaskFormerSwinBackbone,) if is_torch_available() else ()
UpperCamelCase__ = MaskFormerSwinConfig
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModelTester(self )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = inputs_dict['pixel_values'].shape[0]
for backbone_class in self.all_model_classes:
_UpperCAmelCase = backbone_class(UpperCAmelCase )
backbone.to(UpperCAmelCase )
backbone.eval()
_UpperCAmelCase = backbone(**UpperCAmelCase )
# Test default outputs and verify feature maps
self.assertIsInstance(outputs.feature_maps , UpperCAmelCase )
self.assertTrue(len(outputs.feature_maps ) == len(backbone.channels ) )
for feature_map, n_channels in zip(outputs.feature_maps , backbone.channels ):
self.assertTrue(feature_map.shape[:2] , (batch_size, n_channels) )
self.assertIsNone(outputs.hidden_states )
self.assertIsNone(outputs.attentions )
# Test output_hidden_states=True
_UpperCAmelCase = backbone(**UpperCAmelCase , output_hidden_states=UpperCAmelCase )
self.assertIsNotNone(outputs.hidden_states )
self.assertTrue(len(outputs.hidden_states ) , len(backbone.stage_names ) )
# We skip the stem layer
for hidden_states, n_channels in zip(outputs.hidden_states[1:] , backbone.channels ):
for hidden_state in hidden_states:
# Hidden states are in the format (batch_size, (height * width), n_channels)
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = hidden_state.shape
self.assertTrue((h_batch_size, h_n_channels) , (batch_size, n_channels) )
# Test output_attentions=True
if self.has_attentions:
_UpperCAmelCase = backbone(**UpperCAmelCase , output_attentions=UpperCAmelCase )
self.assertIsNotNone(outputs.attentions )
| 39
| 1
|
def __A ( __lowerCAmelCase )-> list:
"""simple docstring"""
if len(__lowerCAmelCase ) < 2:
return collection
def circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) -> bool:
_UpperCAmelCase = False
if low == high:
return swapped
_UpperCAmelCase = low
_UpperCAmelCase = high
while left < right:
if collection[left] > collection[right]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right],
collection[left],
)
_UpperCAmelCase = True
left += 1
right -= 1
if left == right and collection[left] > collection[right + 1]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right + 1],
collection[left],
)
_UpperCAmelCase = True
_UpperCAmelCase = low + int((high - low) / 2 )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , mid + 1 , __lowerCAmelCase )
return swapped or left_swap or right_swap
_UpperCAmelCase = True
while is_not_sorted is True:
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , 0 , len(__lowerCAmelCase ) - 1 )
return collection
if __name__ == "__main__":
_a = input('''Enter numbers separated by a comma:\n''').strip()
_a = [int(item) for item in user_input.split(''',''')]
print(circle_sort(unsorted))
| 39
|
import os
import unittest
from transformers.models.transfo_xl.tokenization_transfo_xl import VOCAB_FILES_NAMES, TransfoXLTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = TransfoXLTokenizer
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
super().setUp()
_UpperCAmelCase = [
'<unk>',
'[CLS]',
'[SEP]',
'want',
'unwanted',
'wa',
'un',
'running',
',',
'low',
'l',
]
_UpperCAmelCase = 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 UpperCamelCase ( self , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = True
return TransfoXLTokenizer.from_pretrained(self.tmpdirname , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = '<unk> UNwanted , running'
_UpperCAmelCase = '<unk> unwanted, running'
return input_text, output_text
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(vocab_file=self.vocab_file , lower_case=UpperCAmelCase )
_UpperCAmelCase = tokenizer.tokenize('<unk> UNwanted , running' )
self.assertListEqual(UpperCAmelCase , ['<unk>', 'unwanted', ',', 'running'] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase ) , [0, 4, 8, 7] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
self.assertListEqual(
tokenizer.tokenize(' \tHeLLo ! how \n Are yoU ? ' ) , ['hello', '!', 'how', 'are', 'you', '?'] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
self.assertListEqual(
tokenizer.tokenize(' \tHeLLo ! how \n Are yoU ? ' ) , ['HeLLo', '!', 'how', 'Are', 'yoU', '?'] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
_UpperCAmelCase = 'Hello (bracket) and side-scrolled [and] Henry\'s $5,000 with 3.34 m. What\'s up!?'
_UpperCAmelCase = [
'Hello',
'(',
'bracket',
')',
'and',
'side',
'@-@',
'scrolled',
'[',
'and',
']',
'Henry',
'\'s',
'$',
'5',
'@,@',
'000',
'with',
'3',
'@.@',
'34',
'm',
'.',
'What',
'\'s',
'up',
'!',
'?',
]
self.assertListEqual(tokenizer.tokenize(UpperCAmelCase ) , UpperCAmelCase )
self.assertEqual(tokenizer.convert_tokens_to_string(UpperCAmelCase ) , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_tokenizer()
_UpperCAmelCase = len(UpperCAmelCase )
tokenizer.add_tokens(['new1', 'new2'] )
tokenizer.move_added_token('new1' , 1 )
# Check that moved token is not copied (duplicate)
self.assertEqual(len(UpperCAmelCase ) , original_len + 2 )
# Check that token is moved to specified id
self.assertEqual(tokenizer.encode('new1' ) , [1] )
self.assertEqual(tokenizer.decode([1] ) , 'new1' )
| 39
| 1
|
from __future__ import annotations
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> list:
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase , _UpperCAmelCase = input_list[low:mid], input_list[mid : high + 1]
while left and right:
result.append((left if left[0] <= right[0] else right).pop(0 ) )
_UpperCAmelCase = result + left + right
return input_list
def __A ( __lowerCAmelCase )-> list:
"""simple docstring"""
if len(__lowerCAmelCase ) <= 1:
return input_list
_UpperCAmelCase = list(__lowerCAmelCase )
# iteration for two-way merging
_UpperCAmelCase = 2
while p <= len(__lowerCAmelCase ):
# getting low, high and middle value for merge-sort of single list
for i in range(0 , len(__lowerCAmelCase ) , __lowerCAmelCase ):
_UpperCAmelCase = i
_UpperCAmelCase = i + p - 1
_UpperCAmelCase = (low + high + 1) // 2
_UpperCAmelCase = merge(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
# final merge of last two parts
if p * 2 >= len(__lowerCAmelCase ):
_UpperCAmelCase = i
_UpperCAmelCase = merge(__lowerCAmelCase , 0 , __lowerCAmelCase , len(__lowerCAmelCase ) - 1 )
break
p *= 2
return input_list
if __name__ == "__main__":
_a = input('''Enter numbers separated by a comma:\n''').strip()
if user_input == "":
_a = []
else:
_a = [int(item.strip()) for item in user_input.split(''',''')]
print(iter_merge_sort(unsorted))
| 39
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
_a = {'''configuration_opt''': ['''OPT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''OPTConfig''']}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''OPT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''OPTForCausalLM''',
'''OPTModel''',
'''OPTPreTrainedModel''',
'''OPTForSequenceClassification''',
'''OPTForQuestionAnswering''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['''TFOPTForCausalLM''', '''TFOPTModel''', '''TFOPTPreTrainedModel''']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''FlaxOPTForCausalLM''',
'''FlaxOPTModel''',
'''FlaxOPTPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_opt import OPT_PRETRAINED_CONFIG_ARCHIVE_MAP, OPTConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_opt import (
OPT_PRETRAINED_MODEL_ARCHIVE_LIST,
OPTForCausalLM,
OPTForQuestionAnswering,
OPTForSequenceClassification,
OPTModel,
OPTPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_opt import TFOPTForCausalLM, TFOPTModel, TFOPTPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_opt import FlaxOPTForCausalLM, FlaxOPTModel, FlaxOPTPreTrainedModel
else:
import sys
_a = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 39
| 1
|
import unittest
import numpy as np
from transformers.testing_utils import is_flaky, require_torch, require_vision
from transformers.utils import is_torch_available, is_vision_available
from ...test_image_processing_common import ImageProcessingSavingTestMixin, prepare_image_inputs
if is_torch_available():
import torch
if is_vision_available():
from PIL import Image
from transformers import DonutImageProcessor
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=7 , UpperCAmelCase=3 , UpperCAmelCase=18 , UpperCAmelCase=30 , UpperCAmelCase=400 , UpperCAmelCase=True , UpperCAmelCase=None , UpperCAmelCase=True , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase=[0.5, 0.5, 0.5] , UpperCAmelCase=[0.5, 0.5, 0.5] , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = image_size
_UpperCAmelCase = min_resolution
_UpperCAmelCase = max_resolution
_UpperCAmelCase = do_resize
_UpperCAmelCase = size if size is not None else {'height': 18, 'width': 20}
_UpperCAmelCase = do_thumbnail
_UpperCAmelCase = do_align_axis
_UpperCAmelCase = do_pad
_UpperCAmelCase = do_normalize
_UpperCAmelCase = image_mean
_UpperCAmelCase = image_std
def UpperCamelCase ( self ):
"""simple docstring"""
return {
"do_resize": self.do_resize,
"size": self.size,
"do_thumbnail": self.do_thumbnail,
"do_align_long_axis": self.do_align_axis,
"do_pad": self.do_pad,
"do_normalize": self.do_normalize,
"image_mean": self.image_mean,
"image_std": self.image_std,
}
@require_torch
@require_vision
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = DonutImageProcessor if is_vision_available() else None
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = DonutImageProcessingTester(self )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return self.image_processor_tester.prepare_image_processor_dict()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.image_processing_class(**self.image_processor_dict )
self.assertTrue(hasattr(UpperCAmelCase , 'do_resize' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'size' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'do_thumbnail' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'do_align_long_axis' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'do_pad' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'do_normalize' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'image_mean' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'image_std' ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.image_processing_class.from_dict(self.image_processor_dict )
self.assertEqual(image_processor.size , {'height': 18, 'width': 20} )
_UpperCAmelCase = self.image_processing_class.from_dict(self.image_processor_dict , size=42 )
self.assertEqual(image_processor.size , {'height': 42, 'width': 42} )
# Previous config had dimensions in (width, height) order
_UpperCAmelCase = self.image_processing_class.from_dict(self.image_processor_dict , size=(42, 84) )
self.assertEqual(image_processor.size , {'height': 84, 'width': 42} )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@is_flaky()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.image_processing_class(**self.image_processor_dict )
# create random PIL images
_UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=UpperCAmelCase )
for image in image_inputs:
self.assertIsInstance(UpperCAmelCase , Image.Image )
# Test not batched input
_UpperCAmelCase = image_processing(image_inputs[0] , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.size['height'],
self.image_processor_tester.size['width'],
) , )
# Test batched
_UpperCAmelCase = image_processing(UpperCAmelCase , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
self.image_processor_tester.batch_size,
self.image_processor_tester.num_channels,
self.image_processor_tester.size['height'],
self.image_processor_tester.size['width'],
) , )
@is_flaky()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.image_processing_class(**self.image_processor_dict )
# create random numpy tensors
_UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=UpperCAmelCase , numpify=UpperCAmelCase )
for image in image_inputs:
self.assertIsInstance(UpperCAmelCase , np.ndarray )
# Test not batched input
_UpperCAmelCase = image_processing(image_inputs[0] , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.size['height'],
self.image_processor_tester.size['width'],
) , )
# Test batched
_UpperCAmelCase = image_processing(UpperCAmelCase , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
self.image_processor_tester.batch_size,
self.image_processor_tester.num_channels,
self.image_processor_tester.size['height'],
self.image_processor_tester.size['width'],
) , )
@is_flaky()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.image_processing_class(**self.image_processor_dict )
# create random PyTorch tensors
_UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=UpperCAmelCase , torchify=UpperCAmelCase )
for image in image_inputs:
self.assertIsInstance(UpperCAmelCase , torch.Tensor )
# Test not batched input
_UpperCAmelCase = image_processing(image_inputs[0] , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.size['height'],
self.image_processor_tester.size['width'],
) , )
# Test batched
_UpperCAmelCase = image_processing(UpperCAmelCase , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
self.image_processor_tester.batch_size,
self.image_processor_tester.num_channels,
self.image_processor_tester.size['height'],
self.image_processor_tester.size['width'],
) , )
| 39
|
import warnings
from pathlib import Path
from typing import List, Tuple, Union
import fire
from torch import nn
from transformers import AutoModelForSeqaSeqLM, AutoTokenizer, PreTrainedModel
from transformers.utils import logging
_a = logging.get_logger(__name__)
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
_UpperCAmelCase = nn.ModuleList([src_layers[i] for i in layers_to_copy] )
assert len(__lowerCAmelCase ) == len(__lowerCAmelCase ), F"""{len(__lowerCAmelCase )} != {len(__lowerCAmelCase )}"""
dest_layers.load_state_dict(layers_to_copy.state_dict() )
_a = {
# maps num layers in teacher -> num_layers in student -> which teacher layers to copy.
# 12: bart, 16: pegasus, 6: marian/Helsinki-NLP
12: {
1: [0], # This says that if the teacher has 12 layers and the student has 1, copy layer 0 of the teacher
2: [0, 6],
3: [0, 6, 11],
4: [0, 4, 8, 11],
6: [0, 2, 4, 7, 9, 11],
9: [0, 1, 2, 4, 5, 7, 9, 10, 11],
12: list(range(12)),
},
16: { # maps num layers in student -> which teacher layers to copy
1: [0],
2: [0, 15],
3: [0, 8, 15],
4: [0, 5, 10, 15],
6: [0, 3, 6, 9, 12, 15],
8: [0, 2, 4, 6, 8, 10, 12, 15],
9: [0, 1, 3, 5, 7, 9, 11, 13, 15],
12: [0, 1, 2, 3, 4, 5, 6, 7, 9, 11, 13, 15],
16: list(range(16)),
},
6: {1: [0], 2: [0, 5], 3: [0, 2, 5], 4: [0, 1, 3, 5], 6: list(range(6))},
}
_a = {
# maps num layers in student -> which teacher layers to copy.
6: {1: [5], 2: [3, 5], 3: [1, 4, 5], 4: [1, 2, 4, 5]},
12: {1: [11], 2: [5, 11], 3: [3, 7, 11], 6: [1, 3, 5, 8, 10, 11]},
16: {1: [15], 4: [4, 9, 12, 15], 8: [1, 3, 5, 7, 9, 11, 13, 15]},
}
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Dict:
"""simple docstring"""
try:
_UpperCAmelCase = LAYERS_TO_COPY[n_teacher][n_student]
return val
except KeyError:
if n_student != n_teacher:
warnings.warn(
F"""no hardcoded layers to copy for teacher {n_teacher} -> student {n_student}, defaulting to first"""
F""" {n_student}""" )
return list(range(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[int]:
"""simple docstring"""
if n_student > n_teacher:
raise ValueError(F"""Cannot perform intermediate supervision for student {n_student} > teacher {n_teacher}""" )
elif n_teacher == n_student:
return list(range(__lowerCAmelCase ) )
elif n_student == 1:
return [n_teacher - 1]
else:
return LAYERS_TO_SUPERVISE[n_teacher][n_student]
def __A ( __lowerCAmelCase , __lowerCAmelCase = "student" , __lowerCAmelCase = None , __lowerCAmelCase = None , __lowerCAmelCase=False , __lowerCAmelCase=None , __lowerCAmelCase=None , **__lowerCAmelCase , )-> Tuple[PreTrainedModel, List[int], List[int]]:
"""simple docstring"""
_UpperCAmelCase = 'encoder_layers and decoder_layers cannot be both None-- you would just have an identical teacher.'
assert (e is not None) or (d is not None), _msg
if isinstance(__lowerCAmelCase , __lowerCAmelCase ):
AutoTokenizer.from_pretrained(__lowerCAmelCase ).save_pretrained(__lowerCAmelCase ) # purely for convenience
_UpperCAmelCase = AutoModelForSeqaSeqLM.from_pretrained(__lowerCAmelCase ).eval()
else:
assert isinstance(__lowerCAmelCase , __lowerCAmelCase ), F"""teacher must be a model or string got type {type(__lowerCAmelCase )}"""
_UpperCAmelCase = teacher.config.to_diff_dict()
try:
_UpperCAmelCase , _UpperCAmelCase = teacher.config.encoder_layers, teacher.config.decoder_layers
if e is None:
_UpperCAmelCase = teacher_e
if d is None:
_UpperCAmelCase = teacher_d
init_kwargs.update({'encoder_layers': e, 'decoder_layers': d} )
except AttributeError: # T5
if hasattr(teacher.config , 'num_encoder_layers' ):
_UpperCAmelCase , _UpperCAmelCase = teacher.config.num_encoder_layers, teacher.config.num_decoder_layers
else:
_UpperCAmelCase , _UpperCAmelCase = teacher.config.num_layers, teacher.config.num_decoder_layers
if e is None:
_UpperCAmelCase = teacher_e
if d is None:
_UpperCAmelCase = teacher_d
if hasattr(teacher.config , 'num_encoder_layers' ):
init_kwargs.update({'num_encoder_layers': e, 'num_decoder_layers': d} )
else:
init_kwargs.update({'num_layers': e, 'num_decoder_layers': d} )
# Kwargs to instantiate student: teacher kwargs with updated layer numbers + **extra_config_kwargs
init_kwargs.update(__lowerCAmelCase )
# Copy weights
_UpperCAmelCase = teacher.config_class(**__lowerCAmelCase )
_UpperCAmelCase = AutoModelForSeqaSeqLM.from_config(__lowerCAmelCase )
# Start by copying the full teacher state dict this will copy the first N teacher layers to the student.
_UpperCAmelCase = student.load_state_dict(teacher.state_dict() , strict=__lowerCAmelCase )
assert info.missing_keys == [], info.missing_keys # every student key should have a teacher keys.
if copy_first_teacher_layers: # Our copying is done. We just log and save
_UpperCAmelCase , _UpperCAmelCase = list(range(__lowerCAmelCase ) ), list(range(__lowerCAmelCase ) )
logger.info(
F"""Copied encoder layers {e_layers_to_copy} and decoder layers {d_layers_to_copy}. Saving them to"""
F""" {save_path}""" )
student.save_pretrained(__lowerCAmelCase )
return student, e_layers_to_copy, d_layers_to_copy
# Decide which layers of the teacher to copy. Not exactly alternating -- we try to keep first and last layer.
if e_layers_to_copy is None:
_UpperCAmelCase = pick_layers_to_copy(__lowerCAmelCase , __lowerCAmelCase )
if d_layers_to_copy is None:
_UpperCAmelCase = pick_layers_to_copy(__lowerCAmelCase , __lowerCAmelCase )
try:
if hasattr(
__lowerCAmelCase , 'prophetnet' ): # For ProphetNet, student.model.encoder.layers is called student.prophetnet.encoder.layers
copy_layers(teacher.prophetnet.encoder.layers , student.prophetnet.encoder.layers , __lowerCAmelCase )
copy_layers(teacher.prophetnet.decoder.layers , student.prophetnet.decoder.layers , __lowerCAmelCase )
else:
copy_layers(teacher.model.encoder.layers , student.model.encoder.layers , __lowerCAmelCase )
copy_layers(teacher.model.decoder.layers , student.model.decoder.layers , __lowerCAmelCase )
except AttributeError: # For t5, student.model.encoder.layers is called student.encoder.block
copy_layers(teacher.encoder.block , student.encoder.block , __lowerCAmelCase )
copy_layers(teacher.decoder.block , student.decoder.block , __lowerCAmelCase )
logger.info(
F"""Copied encoder layers {e_layers_to_copy} and decoder layers {d_layers_to_copy}. Saving them to {save_path}""" )
_UpperCAmelCase = {
'teacher_type': teacher.config.model_type,
'copied_encoder_layers': e_layers_to_copy,
'copied_decoder_layers': d_layers_to_copy,
}
student.save_pretrained(__lowerCAmelCase )
# Save information about copying for easier reproducibility
return student, e_layers_to_copy, d_layers_to_copy
if __name__ == "__main__":
fire.Fire(create_student_by_copying_alternating_layers)
| 39
| 1
|
import json
import logging
import os
import sys
from time import time
from unittest.mock import patch
from transformers.testing_utils import TestCasePlus, require_torch_tpu
logging.basicConfig(level=logging.DEBUG)
_a = logging.getLogger()
def __A ( __lowerCAmelCase )-> List[Any]:
"""simple docstring"""
_UpperCAmelCase = {}
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'all_results.json' )
if os.path.exists(__lowerCAmelCase ):
with open(__lowerCAmelCase , 'r' ) as f:
_UpperCAmelCase = json.load(__lowerCAmelCase )
else:
raise ValueError(F"""can't find {path}""" )
return results
_a = logging.StreamHandler(sys.stdout)
logger.addHandler(stream_handler)
@require_torch_tpu
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
import xla_spawn
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
./examples/pytorch/text-classification/run_glue.py
--num_cores=8
./examples/pytorch/text-classification/run_glue.py
--model_name_or_path distilbert-base-uncased
--output_dir {tmp_dir}
--overwrite_output_dir
--train_file ./tests/fixtures/tests_samples/MRPC/train.csv
--validation_file ./tests/fixtures/tests_samples/MRPC/dev.csv
--do_train
--do_eval
--debug tpu_metrics_debug
--per_device_train_batch_size=2
--per_device_eval_batch_size=1
--learning_rate=1e-4
--max_steps=10
--warmup_steps=2
--seed=42
--max_seq_length=128
""".split()
with patch.object(UpperCAmelCase , 'argv' , UpperCAmelCase ):
_UpperCAmelCase = time()
xla_spawn.main()
_UpperCAmelCase = time()
_UpperCAmelCase = get_results(UpperCAmelCase )
self.assertGreaterEqual(result['eval_accuracy'] , 0.75 )
# Assert that the script takes less than 500 seconds to make sure it doesn't hang.
self.assertLess(end - start , 500 )
def UpperCamelCase ( self ):
"""simple docstring"""
import xla_spawn
_UpperCAmelCase = '\n ./tests/test_trainer_tpu.py\n --num_cores=8\n ./tests/test_trainer_tpu.py\n '.split()
with patch.object(UpperCAmelCase , 'argv' , UpperCAmelCase ):
xla_spawn.main()
| 39
|
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 ViTConfig, ViTForImageClassification, ViTImageProcessor, ViTModel
from transformers.utils import logging
logging.set_verbosity_info()
_a = logging.get_logger(__name__)
def __A ( __lowerCAmelCase , __lowerCAmelCase=False )-> Union[str, Any]:
"""simple docstring"""
_UpperCAmelCase = []
for i in range(config.num_hidden_layers ):
# encoder layers: output projection, 2 feedforward neural networks and 2 layernorms
rename_keys.append((F"""blocks.{i}.norm1.weight""", F"""vit.encoder.layer.{i}.layernorm_before.weight""") )
rename_keys.append((F"""blocks.{i}.norm1.bias""", F"""vit.encoder.layer.{i}.layernorm_before.bias""") )
rename_keys.append((F"""blocks.{i}.attn.proj.weight""", F"""vit.encoder.layer.{i}.attention.output.dense.weight""") )
rename_keys.append((F"""blocks.{i}.attn.proj.bias""", F"""vit.encoder.layer.{i}.attention.output.dense.bias""") )
rename_keys.append((F"""blocks.{i}.norm2.weight""", F"""vit.encoder.layer.{i}.layernorm_after.weight""") )
rename_keys.append((F"""blocks.{i}.norm2.bias""", F"""vit.encoder.layer.{i}.layernorm_after.bias""") )
rename_keys.append((F"""blocks.{i}.mlp.fc1.weight""", F"""vit.encoder.layer.{i}.intermediate.dense.weight""") )
rename_keys.append((F"""blocks.{i}.mlp.fc1.bias""", F"""vit.encoder.layer.{i}.intermediate.dense.bias""") )
rename_keys.append((F"""blocks.{i}.mlp.fc2.weight""", F"""vit.encoder.layer.{i}.output.dense.weight""") )
rename_keys.append((F"""blocks.{i}.mlp.fc2.bias""", F"""vit.encoder.layer.{i}.output.dense.bias""") )
# projection layer + position embeddings
rename_keys.extend(
[
('cls_token', 'vit.embeddings.cls_token'),
('patch_embed.proj.weight', 'vit.embeddings.patch_embeddings.projection.weight'),
('patch_embed.proj.bias', 'vit.embeddings.patch_embeddings.projection.bias'),
('pos_embed', 'vit.embeddings.position_embeddings'),
] )
if base_model:
# layernorm + pooler
rename_keys.extend(
[
('norm.weight', 'layernorm.weight'),
('norm.bias', 'layernorm.bias'),
] )
# if just the base model, we should remove "vit" from all keys that start with "vit"
_UpperCAmelCase = [(pair[0], pair[1][4:]) if pair[1].startswith('vit' ) else pair for pair in rename_keys]
else:
# layernorm + classification head
rename_keys.extend(
[
('norm.weight', 'vit.layernorm.weight'),
('norm.bias', 'vit.layernorm.bias'),
('head.weight', 'classifier.weight'),
('head.bias', 'classifier.bias'),
] )
return rename_keys
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=False )-> List[str]:
"""simple docstring"""
for i in range(config.num_hidden_layers ):
if base_model:
_UpperCAmelCase = ''
else:
_UpperCAmelCase = 'vit.'
# read in weights + bias of input projection layer (in timm, this is a single matrix + bias)
_UpperCAmelCase = state_dict.pop(F"""blocks.{i}.attn.qkv.weight""" )
_UpperCAmelCase = state_dict.pop(F"""blocks.{i}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
_UpperCAmelCase = in_proj_weight[
: config.hidden_size, :
]
_UpperCAmelCase = in_proj_bias[: config.hidden_size]
_UpperCAmelCase = in_proj_weight[
config.hidden_size : config.hidden_size * 2, :
]
_UpperCAmelCase = in_proj_bias[
config.hidden_size : config.hidden_size * 2
]
_UpperCAmelCase = in_proj_weight[
-config.hidden_size :, :
]
_UpperCAmelCase = in_proj_bias[-config.hidden_size :]
def __A ( __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = ['head.weight', 'head.bias']
for k in ignore_keys:
state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
_UpperCAmelCase = dct.pop(__lowerCAmelCase )
_UpperCAmelCase = val
def __A ( )-> str:
"""simple docstring"""
_UpperCAmelCase = 'http://images.cocodataset.org/val2017/000000039769.jpg'
_UpperCAmelCase = Image.open(requests.get(__lowerCAmelCase , stream=__lowerCAmelCase ).raw )
return im
@torch.no_grad()
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=True )-> List[str]:
"""simple docstring"""
_UpperCAmelCase = ViTConfig()
# patch_size
if model_name[-1] == "8":
_UpperCAmelCase = 8
# set labels if required
if not base_model:
_UpperCAmelCase = 1_000
_UpperCAmelCase = 'huggingface/label-files'
_UpperCAmelCase = 'imagenet-1k-id2label.json'
_UpperCAmelCase = json.load(open(hf_hub_download(__lowerCAmelCase , __lowerCAmelCase , repo_type='dataset' ) , 'r' ) )
_UpperCAmelCase = {int(__lowerCAmelCase ): v for k, v in idalabel.items()}
_UpperCAmelCase = idalabel
_UpperCAmelCase = {v: k for k, v in idalabel.items()}
# size of the architecture
if model_name in ["dino_vits8", "dino_vits16"]:
_UpperCAmelCase = 384
_UpperCAmelCase = 1_536
_UpperCAmelCase = 12
_UpperCAmelCase = 6
# load original model from torch hub
_UpperCAmelCase = torch.hub.load('facebookresearch/dino:main' , __lowerCAmelCase )
original_model.eval()
# load state_dict of original model, remove and rename some keys
_UpperCAmelCase = original_model.state_dict()
if base_model:
remove_classification_head_(__lowerCAmelCase )
_UpperCAmelCase = create_rename_keys(__lowerCAmelCase , base_model=__lowerCAmelCase )
for src, dest in rename_keys:
rename_key(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
read_in_q_k_v(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
# load HuggingFace model
if base_model:
_UpperCAmelCase = ViTModel(__lowerCAmelCase , add_pooling_layer=__lowerCAmelCase ).eval()
else:
_UpperCAmelCase = ViTForImageClassification(__lowerCAmelCase ).eval()
model.load_state_dict(__lowerCAmelCase )
# Check outputs on an image, prepared by ViTImageProcessor
_UpperCAmelCase = ViTImageProcessor()
_UpperCAmelCase = image_processor(images=prepare_img() , return_tensors='pt' )
_UpperCAmelCase = encoding['pixel_values']
_UpperCAmelCase = model(__lowerCAmelCase )
if base_model:
_UpperCAmelCase = original_model(__lowerCAmelCase )
assert torch.allclose(__lowerCAmelCase , outputs.last_hidden_state[:, 0, :] , atol=1E-1 )
else:
_UpperCAmelCase = original_model(__lowerCAmelCase )
assert logits.shape == outputs.logits.shape
assert torch.allclose(__lowerCAmelCase , outputs.logits , atol=1E-3 )
Path(__lowerCAmelCase ).mkdir(exist_ok=__lowerCAmelCase )
print(F"""Saving model {model_name} to {pytorch_dump_folder_path}""" )
model.save_pretrained(__lowerCAmelCase )
print(F"""Saving image processor to {pytorch_dump_folder_path}""" )
image_processor.save_pretrained(__lowerCAmelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--model_name''',
default='''dino_vitb16''',
type=str,
help='''Name of the model trained with DINO 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(
'''--base_model''',
action='''store_true''',
help='''Whether to only convert the base model (no projection head weights).''',
)
parser.set_defaults(base_model=True)
_a = parser.parse_args()
convert_vit_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.base_model)
| 39
| 1
|
import argparse
import json
import os
import re
import shutil
import torch
from transformers import BioGptConfig, BioGptForCausalLM
from transformers.models.biogpt.tokenization_biogpt import VOCAB_FILES_NAMES
from transformers.tokenization_utils_base import TOKENIZER_CONFIG_FILE
from transformers.utils import WEIGHTS_NAME, logging
logging.set_verbosity_warning()
_a = 2
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , *, # begin keyword-only arguments
UpperCAmelCase="<s>" , UpperCAmelCase="<pad>" , UpperCAmelCase="</s>" , UpperCAmelCase="<unk>" , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = bos, unk, pad, eos
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = {}
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
if extra_special_symbols:
for s in extra_special_symbols:
self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = len(self.symbols )
def __eq__( self , UpperCAmelCase ):
"""simple docstring"""
return self.indices == other.indices
def __getitem__( self , UpperCAmelCase ):
"""simple docstring"""
if idx < len(self.symbols ):
return self.symbols[idx]
return self.unk_word
def __len__( self ):
"""simple docstring"""
return len(self.symbols )
def __contains__( self , UpperCAmelCase ):
"""simple docstring"""
return sym in self.indices
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = cls()
d.add_from_file(UpperCAmelCase )
return d
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=1 , UpperCAmelCase=False ):
"""simple docstring"""
if word in self.indices and not overwrite:
_UpperCAmelCase = self.indices[word]
_UpperCAmelCase = self.count[idx] + n
return idx
else:
_UpperCAmelCase = len(self.symbols )
_UpperCAmelCase = idx
self.symbols.append(UpperCAmelCase )
self.count.append(UpperCAmelCase )
return idx
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return 0
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if isinstance(UpperCAmelCase , UpperCAmelCase ):
try:
with open(UpperCAmelCase , 'r' , encoding='utf-8' ) as fd:
self.add_from_file(UpperCAmelCase )
except FileNotFoundError as fnfe:
raise fnfe
except UnicodeError:
raise Exception('Incorrect encoding detected in {}, please rebuild the dataset'.format(UpperCAmelCase ) )
return
_UpperCAmelCase = f.readlines()
_UpperCAmelCase = self._load_meta(UpperCAmelCase )
for line in lines[indices_start_line:]:
try:
_UpperCAmelCase , _UpperCAmelCase = line.rstrip().rsplit(' ' , 1 )
if field == "#fairseq:overwrite":
_UpperCAmelCase = True
_UpperCAmelCase , _UpperCAmelCase = line.rsplit(' ' , 1 )
else:
_UpperCAmelCase = False
_UpperCAmelCase = int(UpperCAmelCase )
_UpperCAmelCase = line
if word in self and not overwrite:
raise RuntimeError(
'Duplicate word found when loading Dictionary: \'{}\'. '
'Duplicate words can overwrite earlier ones by adding the '
'#fairseq:overwrite flag at the end of the corresponding row '
'in the dictionary file. If using the Camembert model, please '
'download an updated copy of the model file.'.format(UpperCAmelCase ) )
self.add_symbol(UpperCAmelCase , n=UpperCAmelCase , overwrite=UpperCAmelCase )
except ValueError:
raise ValueError('Incorrect dictionary format, expected \'<token> <cnt> [flags]\'' )
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = dict((re.sub(R'@@$' , '' , __lowerCAmelCase ), v) if k.endswith('@@' ) else (re.sub(R'$' , '</w>' , __lowerCAmelCase ), v) for k, v in d.items() )
_UpperCAmelCase = '<s> <pad> </s> <unk>'.split()
# restore the special tokens
for k in keep_keys:
del da[F"""{k}</w>"""]
_UpperCAmelCase = d[k] # restore
return da
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> str:
"""simple docstring"""
if not os.path.exists(__lowerCAmelCase ):
raise ValueError(F"""path {biogpt_checkpoint_path} does not exist!""" )
os.makedirs(__lowerCAmelCase , exist_ok=__lowerCAmelCase )
print(F"""Writing results to {pytorch_dump_folder_path}""" )
# handle various types of models
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'checkpoint.pt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {checkpoint_file} does not exist!""" )
_UpperCAmelCase = torch.load(__lowerCAmelCase , map_location='cpu' )
_UpperCAmelCase = chkpt['cfg']['model']
# dicts
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'dict.txt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {dict_file} does not exist!""" )
_UpperCAmelCase = Dictionary.load(__lowerCAmelCase )
_UpperCAmelCase = rewrite_dict_keys(src_dict.indices )
_UpperCAmelCase = len(__lowerCAmelCase )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['vocab_file'] )
print(F"""Generating {src_vocab_file} of {src_vocab_size} records""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# merges_file (bpecodes)
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'bpecodes' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {bpecodes_file} does not exist!""" )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['merges_file'] )
shutil.copyfile(__lowerCAmelCase , __lowerCAmelCase )
# model config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'config.json' )
_UpperCAmelCase = {
'activation_dropout': args['activation_dropout'],
'architectures': ['BioGptForCausalLM'],
'attention_probs_dropout_prob': args['attention_dropout'],
'bos_token_id': 0,
'eos_token_id': 2,
'hidden_act': args['activation_fn'],
'hidden_dropout_prob': args['dropout'],
'hidden_size': args['decoder_embed_dim'],
'initializer_range': 0.02,
'intermediate_size': args['decoder_ffn_embed_dim'],
'layer_norm_eps': 1E-12,
'layerdrop': args['decoder_layerdrop'],
'max_position_embeddings': args['max_target_positions'],
'model_type': 'biogpt',
'num_attention_heads': args['decoder_attention_heads'],
'num_hidden_layers': args['decoder_layers'],
'pad_token_id': 1,
'scale_embedding': not args['no_scale_embedding'],
'tie_word_embeddings': args['share_decoder_input_output_embed'],
'vocab_size': src_vocab_size,
}
# good hparam defaults to start with
print(F"""Generating {biogpt_model_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# tokenizer config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = {
'bos_token': '<s>',
'eos_token': '</s>',
'model_max_length': 1_024,
'pad_token': '<pad>',
'special_tokens_map_file': None,
'tokenizer_class': 'BioGptTokenizer',
'unk_token': '<unk>',
}
print(F"""Generating {biogpt_tokenizer_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# model
_UpperCAmelCase = chkpt['model']
# remove unneeded keys
_UpperCAmelCase = [
'decoder.version',
]
for k in ignore_keys:
model_state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = list(model_state_dict.keys() )
for layer_name in layer_names:
if layer_name.endswith('output_projection.weight' ):
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
else:
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
_UpperCAmelCase = BioGptConfig.from_pretrained(__lowerCAmelCase )
_UpperCAmelCase = BioGptForCausalLM(__lowerCAmelCase )
# check that it loads ok
model_new.load_state_dict(__lowerCAmelCase )
# save
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
print(F"""Generating {pytorch_weights_dump_path}""" )
torch.save(__lowerCAmelCase , __lowerCAmelCase )
print('Conversion is done!' )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--biogpt_checkpoint_path''',
default=None,
type=str,
required=True,
help=(
'''Path to the official PyTorch checkpoint file which is expected to reside in the dump dir with dicts,'''
''' bpecodes, etc.'''
),
)
parser.add_argument(
'''--pytorch_dump_folder_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
_a = parser.parse_args()
convert_biogpt_checkpoint_to_pytorch(args.biogpt_checkpoint_path, args.pytorch_dump_folder_path)
| 39
|
import unittest
import torch
from torch import nn
from accelerate.test_utils import require_cuda
from accelerate.utils.memory import find_executable_batch_size, release_memory
def __A ( )-> Tuple:
"""simple docstring"""
raise RuntimeError('CUDA out of memory.' )
class __lowerCamelCase ( nn.Module):
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
super().__init__()
_UpperCAmelCase = nn.Linear(3 , 4 )
_UpperCAmelCase = nn.BatchNormad(4 )
_UpperCAmelCase = nn.Linear(4 , 5 )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return self.lineara(self.batchnorm(self.lineara(UpperCAmelCase ) ) )
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase ):
nonlocal batch_sizes
batch_sizes.append(UpperCAmelCase )
if batch_size != 8:
raise_fake_out_of_memory()
mock_training_loop_function()
self.assertListEqual(UpperCAmelCase , [128, 64, 32, 16, 8] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase , UpperCAmelCase ):
nonlocal batch_sizes
batch_sizes.append(UpperCAmelCase )
if batch_size != 8:
raise_fake_out_of_memory()
return batch_size, arga
_UpperCAmelCase , _UpperCAmelCase = mock_training_loop_function('hello' )
self.assertListEqual(UpperCAmelCase , [128, 64, 32, 16, 8] )
self.assertListEqual([bs, arga] , [8, 'hello'] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=0 )
def mock_training_loop_function(UpperCAmelCase ):
pass
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('No executable batch size found, reached zero.' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=16 )
def mock_training_loop_function(UpperCAmelCase ):
if batch_size > 0:
raise_fake_out_of_memory()
pass
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('No executable batch size found, reached zero.' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
if batch_size != 8:
raise raise_fake_out_of_memory()
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function(128 , 'hello' , 'world' )
self.assertIn('Batch size was passed into `f`' , cm.exception.args[0] )
self.assertIn('`f(arg1=\'hello\', arg2=\'world\')' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=16 )
def mock_training_loop_function(UpperCAmelCase ):
raise ValueError('Oops, we had an error!' )
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('Oops, we had an error!' , cm.exception.args[0] )
@require_cuda
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = torch.cuda.memory_allocated()
_UpperCAmelCase = ModelForTest()
model.cuda()
self.assertGreater(torch.cuda.memory_allocated() , UpperCAmelCase )
_UpperCAmelCase = release_memory(UpperCAmelCase )
self.assertEqual(torch.cuda.memory_allocated() , UpperCAmelCase )
| 39
| 1
|
from ..utils import DummyObject, requires_backends
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
class __lowerCamelCase ( metaclass=snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["sentencepiece"]
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
requires_backends(self , ['sentencepiece'] )
| 39
|
from __future__ import annotations
import inspect
import unittest
import numpy as np
from transformers import ResNetConfig
from transformers.testing_utils import require_tf, require_vision, slow
from transformers.utils import cached_property, is_tf_available, is_vision_available
from ...test_configuration_common import ConfigTester
from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_tf_available():
import tensorflow as tf
from transformers import TFResNetForImageClassification, TFResNetModel
from transformers.models.resnet.modeling_tf_resnet import TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST
if is_vision_available():
from PIL import Image
from transformers import AutoImageProcessor
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=3 , UpperCAmelCase=32 , UpperCAmelCase=3 , UpperCAmelCase=10 , UpperCAmelCase=[10, 20, 30, 40] , UpperCAmelCase=[1, 1, 2, 1] , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase="relu" , UpperCAmelCase=3 , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = image_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embeddings_size
_UpperCAmelCase = hidden_sizes
_UpperCAmelCase = depths
_UpperCAmelCase = is_training
_UpperCAmelCase = use_labels
_UpperCAmelCase = hidden_act
_UpperCAmelCase = num_labels
_UpperCAmelCase = scope
_UpperCAmelCase = len(UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.num_labels )
_UpperCAmelCase = self.get_config()
return config, pixel_values, labels
def UpperCamelCase ( self ):
"""simple docstring"""
return ResNetConfig(
num_channels=self.num_channels , embeddings_size=self.embeddings_size , hidden_sizes=self.hidden_sizes , depths=self.depths , hidden_act=self.hidden_act , num_labels=self.num_labels , image_size=self.image_size , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = TFResNetModel(config=UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase )
# expected last hidden states: B, C, H // 32, W // 32
self.parent.assertEqual(
result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], self.image_size // 32, self.image_size // 32) , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.num_labels
_UpperCAmelCase = TFResNetForImageClassification(UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase , labels=UpperCAmelCase )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'pixel_values': pixel_values}
return config, inputs_dict
@require_tf
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (TFResNetModel, TFResNetForImageClassification) if is_tf_available() else ()
UpperCamelCase__ = (
{"feature-extraction": TFResNetModel, "image-classification": TFResNetForImageClassification}
if is_tf_available()
else {}
)
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFResNetModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , has_text_modality=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCamelCase ( self ):
"""simple docstring"""
return
@unittest.skip(reason='ResNet does not use inputs_embeds' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='ResNet does not support input and output embeddings' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = inspect.signature(model.call )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
_UpperCAmelCase = [*signature.parameters.keys()]
_UpperCAmelCase = ['pixel_values']
self.assertListEqual(arg_names[:1] , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
def check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = model(**self._prepare_for_class(UpperCAmelCase , UpperCAmelCase ) )
_UpperCAmelCase = outputs.encoder_hidden_states if config.is_encoder_decoder else outputs.hidden_states
_UpperCAmelCase = self.model_tester.num_stages
self.assertEqual(len(UpperCAmelCase ) , expected_num_stages + 1 )
# ResNet's feature maps are of shape (batch_size, num_channels, height, width)
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) , [self.model_tester.image_size // 4, self.model_tester.image_size // 4] , )
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = ['basic', 'bottleneck']
for model_class in self.all_model_classes:
for layer_type in layers_type:
_UpperCAmelCase = layer_type
_UpperCAmelCase = True
check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*UpperCAmelCase )
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
for model_name in TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
_UpperCAmelCase = TFResNetModel.from_pretrained(UpperCAmelCase )
self.assertIsNotNone(UpperCAmelCase )
def __A ( )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = Image.open('./tests/fixtures/tests_samples/COCO/000000039769.png' )
return image
@require_tf
@require_vision
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@cached_property
def UpperCamelCase ( self ):
"""simple docstring"""
return (
AutoImageProcessor.from_pretrained(TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[0] )
if is_vision_available()
else None
)
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFResNetForImageClassification.from_pretrained(TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[0] )
_UpperCAmelCase = self.default_image_processor
_UpperCAmelCase = prepare_img()
_UpperCAmelCase = image_processor(images=UpperCAmelCase , return_tensors='tf' )
# forward pass
_UpperCAmelCase = model(**UpperCAmelCase )
# verify the logits
_UpperCAmelCase = tf.TensorShape((1, 1000) )
self.assertEqual(outputs.logits.shape , UpperCAmelCase )
_UpperCAmelCase = tf.constant([-11.10_69, -9.78_77, -8.37_77] )
self.assertTrue(np.allclose(outputs.logits[0, :3].numpy() , UpperCAmelCase , atol=1e-4 ) )
| 39
| 1
|
from __future__ import annotations
import time
import numpy as np
_a = [8, 5, 9, 7]
_a = [
[2, 0, 1, 1],
[0, 1, 2, 1],
[4, 0, 0, 3],
[0, 2, 1, 0],
[1, 0, 3, 0],
]
_a = [
[3, 2, 1, 4],
[0, 2, 5, 2],
[5, 1, 0, 5],
[1, 5, 3, 0],
[3, 0, 3, 3],
]
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = claim_vector
_UpperCAmelCase = allocated_resources_table
_UpperCAmelCase = maximum_claim_table
def UpperCamelCase ( self ):
"""simple docstring"""
return [
sum(p_item[i] for p_item in self.__allocated_resources_table )
for i in range(len(self.__allocated_resources_table[0] ) )
]
def UpperCamelCase ( self ):
"""simple docstring"""
return np.array(self.__claim_vector ) - np.array(
self.__processes_resource_summation() )
def UpperCamelCase ( self ):
"""simple docstring"""
return [
list(np.array(self.__maximum_claim_table[i] ) - np.array(UpperCAmelCase ) )
for i, allocated_resource in enumerate(self.__allocated_resources_table )
]
def UpperCamelCase ( self ):
"""simple docstring"""
return {self.__need().index(UpperCAmelCase ): i for i in self.__need()}
def UpperCamelCase ( self , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.__need()
_UpperCAmelCase = self.__allocated_resources_table
_UpperCAmelCase = self.__available_resources()
_UpperCAmelCase = self.__need_index_manager()
for kw, val in kwargs.items():
if kw and val is True:
self.__pretty_data()
print('_' * 50 + '\n' )
while need_list:
_UpperCAmelCase = False
for each_need in need_list:
_UpperCAmelCase = True
for index, need in enumerate(UpperCAmelCase ):
if need > available_resources[index]:
_UpperCAmelCase = False
break
if execution:
_UpperCAmelCase = True
# get the original index of the process from ind_ctrl db
for original_need_index, need_clone in need_index_manager.items():
if each_need == need_clone:
_UpperCAmelCase = original_need_index
print(F"""Process {process_number + 1} is executing.""" )
# remove the process run from stack
need_list.remove(UpperCAmelCase )
# update available/freed resources stack
_UpperCAmelCase = np.array(UpperCAmelCase ) + np.array(
alloc_resources_table[process_number] )
print(
'Updated available resource stack for processes: '
+ ' '.join([str(UpperCAmelCase ) for x in available_resources] ) )
break
if safe:
print('The process is in a safe state.\n' )
else:
print('System in unsafe state. Aborting...\n' )
break
def UpperCamelCase ( self ):
"""simple docstring"""
print(' ' * 9 + 'Allocated Resource Table' )
for item in self.__allocated_resources_table:
print(
F"""P{self.__allocated_resources_table.index(UpperCAmelCase ) + 1}"""
+ ' '.join(F"""{it:>8}""" for it in item )
+ '\n' )
print(' ' * 9 + 'System Resource Table' )
for item in self.__maximum_claim_table:
print(
F"""P{self.__maximum_claim_table.index(UpperCAmelCase ) + 1}"""
+ ' '.join(F"""{it:>8}""" for it in item )
+ '\n' )
print(
'Current Usage by Active Processes: '
+ ' '.join(str(UpperCAmelCase ) for x in self.__claim_vector ) )
print(
'Initial Available Resources: '
+ ' '.join(str(UpperCAmelCase ) for x in self.__available_resources() ) )
time.sleep(1 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
|
def __A ( __lowerCAmelCase )-> list:
"""simple docstring"""
if len(__lowerCAmelCase ) < 2:
return collection
def circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) -> bool:
_UpperCAmelCase = False
if low == high:
return swapped
_UpperCAmelCase = low
_UpperCAmelCase = high
while left < right:
if collection[left] > collection[right]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right],
collection[left],
)
_UpperCAmelCase = True
left += 1
right -= 1
if left == right and collection[left] > collection[right + 1]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right + 1],
collection[left],
)
_UpperCAmelCase = True
_UpperCAmelCase = low + int((high - low) / 2 )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , mid + 1 , __lowerCAmelCase )
return swapped or left_swap or right_swap
_UpperCAmelCase = True
while is_not_sorted is True:
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , 0 , len(__lowerCAmelCase ) - 1 )
return collection
if __name__ == "__main__":
_a = input('''Enter numbers separated by a comma:\n''').strip()
_a = [int(item) for item in user_input.split(''',''')]
print(circle_sort(unsorted))
| 39
| 1
|
import math
from typing import Callable, List, Optional, Union
import numpy as np
import PIL
import torch
from PIL import Image
from transformers import CLIPTextModel, CLIPTokenizer
from diffusers.models import AutoencoderKL, UNetaDConditionModel
from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_upscale import StableDiffusionUpscalePipeline
from diffusers.schedulers import DDIMScheduler, DDPMScheduler, LMSDiscreteScheduler, PNDMScheduler
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=[] )-> Tuple:
"""simple docstring"""
_UpperCAmelCase = size[0] - overlap_pixels * 2
_UpperCAmelCase = size[1] - overlap_pixels * 2
for letter in ["l", "r"]:
if letter in remove_borders:
size_x += overlap_pixels
for letter in ["t", "b"]:
if letter in remove_borders:
size_y += overlap_pixels
_UpperCAmelCase = np.ones((size_y, size_x) , dtype=np.uinta ) * 255
_UpperCAmelCase = np.pad(__lowerCAmelCase , mode='linear_ramp' , pad_width=__lowerCAmelCase , end_values=0 )
if "l" in remove_borders:
_UpperCAmelCase = mask[:, overlap_pixels : mask.shape[1]]
if "r" in remove_borders:
_UpperCAmelCase = mask[:, 0 : mask.shape[1] - overlap_pixels]
if "t" in remove_borders:
_UpperCAmelCase = mask[overlap_pixels : mask.shape[0], :]
if "b" in remove_borders:
_UpperCAmelCase = mask[0 : mask.shape[0] - overlap_pixels, :]
return mask
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> Any:
"""simple docstring"""
return max(__lowerCAmelCase , min(__lowerCAmelCase , __lowerCAmelCase ) )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
return (
clamp(rect[0] , min[0] , max[0] ),
clamp(rect[1] , min[1] , max[1] ),
clamp(rect[2] , min[0] , max[0] ),
clamp(rect[3] , min[1] , max[1] ),
)
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = list(__lowerCAmelCase )
rect[0] -= overlap
rect[1] -= overlap
rect[2] += overlap
rect[3] += overlap
_UpperCAmelCase = clamp_rect(__lowerCAmelCase , [0, 0] , [image_size[0], image_size[1]] )
return rect
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> List[Any]:
"""simple docstring"""
_UpperCAmelCase = Image.new('RGB' , (tile.size[0] + original_slice, tile.size[1]) )
result.paste(
original_image.resize((tile.size[0], tile.size[1]) , Image.BICUBIC ).crop(
(slice_x, 0, slice_x + original_slice, tile.size[1]) ) , (0, 0) , )
result.paste(__lowerCAmelCase , (original_slice, 0) )
return result
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Any:
"""simple docstring"""
_UpperCAmelCase = (original_image_slice * 4, 0, tile.size[0], tile.size[1])
_UpperCAmelCase = tile.crop(__lowerCAmelCase )
return tile
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = n % d
return n - divisor
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase = 350 , ):
"""simple docstring"""
super().__init__(
vae=UpperCAmelCase , text_encoder=UpperCAmelCase , tokenizer=UpperCAmelCase , unet=UpperCAmelCase , low_res_scheduler=UpperCAmelCase , scheduler=UpperCAmelCase , max_noise_level=UpperCAmelCase , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
torch.manual_seed(0 )
_UpperCAmelCase = (
min(image.size[0] - (tile_size + original_image_slice) , x * tile_size ),
min(image.size[1] - (tile_size + original_image_slice) , y * tile_size ),
min(image.size[0] , (x + 1) * tile_size ),
min(image.size[1] , (y + 1) * tile_size ),
)
_UpperCAmelCase = add_overlap_rect(UpperCAmelCase , UpperCAmelCase , image.size )
_UpperCAmelCase = image.crop(UpperCAmelCase )
_UpperCAmelCase = ((crop_rect[0] + ((crop_rect[2] - crop_rect[0]) / 2)) / image.size[0]) * tile.size[0]
_UpperCAmelCase = translated_slice_x - (original_image_slice / 2)
_UpperCAmelCase = max(0 , UpperCAmelCase )
_UpperCAmelCase = squeeze_tile(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = to_input.size
_UpperCAmelCase = to_input.resize((tile_size, tile_size) , Image.BICUBIC )
_UpperCAmelCase = super(UpperCAmelCase , self ).__call__(image=UpperCAmelCase , **UpperCAmelCase ).images[0]
_UpperCAmelCase = upscaled_tile.resize((orig_input_size[0] * 4, orig_input_size[1] * 4) , Image.BICUBIC )
_UpperCAmelCase = unsqueeze_tile(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = upscaled_tile.resize((tile.size[0] * 4, tile.size[1] * 4) , Image.BICUBIC )
_UpperCAmelCase = []
if x == 0:
remove_borders.append('l' )
elif crop_rect[2] == image.size[0]:
remove_borders.append('r' )
if y == 0:
remove_borders.append('t' )
elif crop_rect[3] == image.size[1]:
remove_borders.append('b' )
_UpperCAmelCase = Image.fromarray(
make_transparency_mask(
(upscaled_tile.size[0], upscaled_tile.size[1]) , tile_border * 4 , remove_borders=UpperCAmelCase ) , mode='L' , )
final_image.paste(
UpperCAmelCase , (crop_rect_with_overlap[0] * 4, crop_rect_with_overlap[1] * 4) , UpperCAmelCase )
@torch.no_grad()
def __call__( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase = 75 , UpperCAmelCase = 9.0 , UpperCAmelCase = 50 , UpperCAmelCase = None , UpperCAmelCase = 1 , UpperCAmelCase = 0.0 , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = 1 , UpperCAmelCase = 128 , UpperCAmelCase = 32 , UpperCAmelCase = 32 , ):
"""simple docstring"""
_UpperCAmelCase = Image.new('RGB' , (image.size[0] * 4, image.size[1] * 4) )
_UpperCAmelCase = math.ceil(image.size[0] / tile_size )
_UpperCAmelCase = math.ceil(image.size[1] / tile_size )
_UpperCAmelCase = tcx * tcy
_UpperCAmelCase = 0
for y in range(UpperCAmelCase ):
for x in range(UpperCAmelCase ):
self._process_tile(
UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , prompt=UpperCAmelCase , num_inference_steps=UpperCAmelCase , guidance_scale=UpperCAmelCase , noise_level=UpperCAmelCase , negative_prompt=UpperCAmelCase , num_images_per_prompt=UpperCAmelCase , eta=UpperCAmelCase , generator=UpperCAmelCase , latents=UpperCAmelCase , )
current_count += 1
if callback is not None:
callback({'progress': current_count / total_tile_count, 'image': final_image} )
return final_image
def __A ( )-> int:
"""simple docstring"""
_UpperCAmelCase = 'stabilityai/stable-diffusion-x4-upscaler'
_UpperCAmelCase = StableDiffusionTiledUpscalePipeline.from_pretrained(__lowerCAmelCase , revision='fp16' , torch_dtype=torch.floataa )
_UpperCAmelCase = pipe.to('cuda' )
_UpperCAmelCase = Image.open('../../docs/source/imgs/diffusers_library.jpg' )
def callback(__lowerCAmelCase ):
print(F"""progress: {obj["progress"]:.4f}""" )
obj["image"].save('diffusers_library_progress.jpg' )
_UpperCAmelCase = pipe(image=__lowerCAmelCase , prompt='Black font, white background, vector' , noise_level=40 , callback=__lowerCAmelCase )
final_image.save('diffusers_library.jpg' )
if __name__ == "__main__":
main()
| 39
|
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["image_processor", "tokenizer"]
UpperCamelCase__ = "Pix2StructImageProcessor"
UpperCamelCase__ = ("T5Tokenizer", "T5TokenizerFast")
def __init__( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = False
super().__init__(UpperCAmelCase , UpperCAmelCase )
def __call__( self , UpperCAmelCase=None , UpperCAmelCase = None , UpperCAmelCase = True , UpperCAmelCase = False , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = 2048 , UpperCAmelCase = 0 , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = True , UpperCAmelCase = None , **UpperCAmelCase , ):
"""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 and not self.image_processor.is_vqa:
_UpperCAmelCase = self.tokenizer
_UpperCAmelCase = self.tokenizer(
text=UpperCAmelCase , add_special_tokens=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , max_length=UpperCAmelCase , stride=UpperCAmelCase , pad_to_multiple_of=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_overflowing_tokens=UpperCAmelCase , return_special_tokens_mask=UpperCAmelCase , return_offsets_mapping=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , return_length=UpperCAmelCase , verbose=UpperCAmelCase , return_tensors=UpperCAmelCase , **UpperCAmelCase , )
return text_encoding
if not self.image_processor.is_vqa:
# add pixel_values
_UpperCAmelCase = self.image_processor(
UpperCAmelCase , return_tensors=UpperCAmelCase , max_patches=UpperCAmelCase , **UpperCAmelCase )
else:
# add pixel_values and bbox
_UpperCAmelCase = self.image_processor(
UpperCAmelCase , return_tensors=UpperCAmelCase , max_patches=UpperCAmelCase , header_text=UpperCAmelCase , **UpperCAmelCase )
if text is not None and not self.image_processor.is_vqa:
_UpperCAmelCase = self.tokenizer(
text=UpperCAmelCase , add_special_tokens=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , max_length=UpperCAmelCase , stride=UpperCAmelCase , pad_to_multiple_of=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_overflowing_tokens=UpperCAmelCase , return_special_tokens_mask=UpperCAmelCase , return_offsets_mapping=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , return_length=UpperCAmelCase , verbose=UpperCAmelCase , return_tensors=UpperCAmelCase , **UpperCAmelCase , )
if "attention_mask" in text_encoding:
_UpperCAmelCase = text_encoding.pop('attention_mask' )
if "input_ids" in text_encoding:
_UpperCAmelCase = text_encoding.pop('input_ids' )
else:
_UpperCAmelCase = None
if text_encoding is not None:
encoding_image_processor.update(UpperCAmelCase )
return encoding_image_processor
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.batch_decode(*UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.decode(*UpperCAmelCase , **UpperCAmelCase )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.tokenizer.model_input_names
_UpperCAmelCase = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )
| 39
| 1
|
from collections import deque
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = len(__lowerCAmelCase )
_UpperCAmelCase = deque()
_UpperCAmelCase = [False for _ in range(__lowerCAmelCase )]
_UpperCAmelCase = [-1 for _ in range(__lowerCAmelCase )]
_UpperCAmelCase = index_of[:]
def strong_connect(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ):
_UpperCAmelCase = index # the number when this node is seen
_UpperCAmelCase = index # lowest rank node reachable from here
index += 1
stack.append(__lowerCAmelCase )
_UpperCAmelCase = True
for w in g[v]:
if index_of[w] == -1:
_UpperCAmelCase = strong_connect(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = (
lowlink_of[w] if lowlink_of[w] < lowlink_of[v] else lowlink_of[v]
)
elif on_stack[w]:
_UpperCAmelCase = (
lowlink_of[w] if lowlink_of[w] < lowlink_of[v] else lowlink_of[v]
)
if lowlink_of[v] == index_of[v]:
_UpperCAmelCase = []
_UpperCAmelCase = stack.pop()
_UpperCAmelCase = False
component.append(__lowerCAmelCase )
while w != v:
_UpperCAmelCase = stack.pop()
_UpperCAmelCase = False
component.append(__lowerCAmelCase )
components.append(__lowerCAmelCase )
return index
_UpperCAmelCase = []
for v in range(__lowerCAmelCase ):
if index_of[v] == -1:
strong_connect(__lowerCAmelCase , 0 , __lowerCAmelCase )
return components
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[str]:
"""simple docstring"""
_UpperCAmelCase = [[] for _ in range(__lowerCAmelCase )]
for u, v in edges:
g[u].append(__lowerCAmelCase )
return g
if __name__ == "__main__":
# Test
_a = 7
_a = [0, 0, 1, 2, 3, 3, 4, 4, 6]
_a = [1, 3, 2, 0, 1, 4, 5, 6, 5]
_a = [(u, v) for u, v in zip(source, target)]
_a = create_graph(n_vertices, edges)
assert [[5], [6], [4], [3, 2, 1, 0]] == tarjan(g)
| 39
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase = "" , UpperCAmelCase = False ):
"""simple docstring"""
_UpperCAmelCase = {}
# A node will be a leaf if the tree contains its word
_UpperCAmelCase = is_leaf
_UpperCAmelCase = prefix
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 0
for q, w in zip(self.prefix , UpperCAmelCase ):
if q != w:
break
x += 1
return self.prefix[:x], self.prefix[x:], word[x:]
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for word in words:
self.insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if self.prefix == word:
_UpperCAmelCase = True
# Case 2: The node has no edges that have a prefix to the word
# Solution: We create an edge from the current node to a new one
# containing the word
elif word[0] not in self.nodes:
_UpperCAmelCase = RadixNode(prefix=UpperCAmelCase , is_leaf=UpperCAmelCase )
else:
_UpperCAmelCase = self.nodes[word[0]]
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# Case 3: The node prefix is equal to the matching
# Solution: We insert remaining word on the next node
if remaining_prefix == "":
self.nodes[matching_string[0]].insert(UpperCAmelCase )
# Case 4: The word is greater equal to the matching
# Solution: Create a node in between both nodes, change
# prefixes and add the new node for the remaining word
else:
_UpperCAmelCase = remaining_prefix
_UpperCAmelCase = self.nodes[matching_string[0]]
_UpperCAmelCase = RadixNode(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = aux_node
if remaining_word == "":
_UpperCAmelCase = True
else:
self.nodes[matching_string[0]].insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.nodes.get(word[0] , UpperCAmelCase )
if not incoming_node:
return False
else:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# This applies when the word and the prefix are equal
elif remaining_word == "":
return incoming_node.is_leaf
# We have word remaining so we check the next node
else:
return incoming_node.find(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.nodes.get(word[0] , UpperCAmelCase )
if not incoming_node:
return False
else:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# We have word remaining so we check the next node
elif remaining_word != "":
return incoming_node.delete(UpperCAmelCase )
else:
# If it is not a leaf, we don't have to delete
if not incoming_node.is_leaf:
return False
else:
# We delete the nodes if no edges go from it
if len(incoming_node.nodes ) == 0:
del self.nodes[word[0]]
# We merge the current node with its only child
if len(self.nodes ) == 1 and not self.is_leaf:
_UpperCAmelCase = list(self.nodes.values() )[0]
_UpperCAmelCase = merging_node.is_leaf
self.prefix += merging_node.prefix
_UpperCAmelCase = merging_node.nodes
# If there is more than 1 edge, we just mark it as non-leaf
elif len(incoming_node.nodes ) > 1:
_UpperCAmelCase = False
# If there is 1 edge, we merge it with its child
else:
_UpperCAmelCase = list(incoming_node.nodes.values() )[0]
_UpperCAmelCase = merging_node.is_leaf
incoming_node.prefix += merging_node.prefix
_UpperCAmelCase = merging_node.nodes
return True
def UpperCamelCase ( self , UpperCAmelCase = 0 ):
"""simple docstring"""
if self.prefix != "":
print('-' * height , self.prefix , ' (leaf)' if self.is_leaf else '' )
for value in self.nodes.values():
value.print_tree(height + 1 )
def __A ( )-> bool:
"""simple docstring"""
_UpperCAmelCase = 'banana bananas bandana band apple all beast'.split()
_UpperCAmelCase = RadixNode()
root.insert_many(__lowerCAmelCase )
assert all(root.find(__lowerCAmelCase ) for word in words )
assert not root.find('bandanas' )
assert not root.find('apps' )
root.delete('all' )
assert not root.find('all' )
root.delete('banana' )
assert not root.find('banana' )
assert root.find('bananas' )
return True
def __A ( )-> None:
"""simple docstring"""
assert test_trie()
def __A ( )-> None:
"""simple docstring"""
_UpperCAmelCase = RadixNode()
_UpperCAmelCase = 'banana bananas bandanas bandana band apple all beast'.split()
root.insert_many(__lowerCAmelCase )
print('Words:' , __lowerCAmelCase )
print('Tree:' )
root.print_tree()
if __name__ == "__main__":
main()
| 39
| 1
|
import unittest
import torch
from torch import nn
from accelerate.test_utils import require_cuda
from accelerate.utils.memory import find_executable_batch_size, release_memory
def __A ( )-> Tuple:
"""simple docstring"""
raise RuntimeError('CUDA out of memory.' )
class __lowerCamelCase ( nn.Module):
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
super().__init__()
_UpperCAmelCase = nn.Linear(3 , 4 )
_UpperCAmelCase = nn.BatchNormad(4 )
_UpperCAmelCase = nn.Linear(4 , 5 )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return self.lineara(self.batchnorm(self.lineara(UpperCAmelCase ) ) )
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase ):
nonlocal batch_sizes
batch_sizes.append(UpperCAmelCase )
if batch_size != 8:
raise_fake_out_of_memory()
mock_training_loop_function()
self.assertListEqual(UpperCAmelCase , [128, 64, 32, 16, 8] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase , UpperCAmelCase ):
nonlocal batch_sizes
batch_sizes.append(UpperCAmelCase )
if batch_size != 8:
raise_fake_out_of_memory()
return batch_size, arga
_UpperCAmelCase , _UpperCAmelCase = mock_training_loop_function('hello' )
self.assertListEqual(UpperCAmelCase , [128, 64, 32, 16, 8] )
self.assertListEqual([bs, arga] , [8, 'hello'] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=0 )
def mock_training_loop_function(UpperCAmelCase ):
pass
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('No executable batch size found, reached zero.' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=16 )
def mock_training_loop_function(UpperCAmelCase ):
if batch_size > 0:
raise_fake_out_of_memory()
pass
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('No executable batch size found, reached zero.' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
if batch_size != 8:
raise raise_fake_out_of_memory()
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function(128 , 'hello' , 'world' )
self.assertIn('Batch size was passed into `f`' , cm.exception.args[0] )
self.assertIn('`f(arg1=\'hello\', arg2=\'world\')' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=16 )
def mock_training_loop_function(UpperCAmelCase ):
raise ValueError('Oops, we had an error!' )
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('Oops, we had an error!' , cm.exception.args[0] )
@require_cuda
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = torch.cuda.memory_allocated()
_UpperCAmelCase = ModelForTest()
model.cuda()
self.assertGreater(torch.cuda.memory_allocated() , UpperCAmelCase )
_UpperCAmelCase = release_memory(UpperCAmelCase )
self.assertEqual(torch.cuda.memory_allocated() , UpperCAmelCase )
| 39
|
import argparse
import json
import os
import re
import shutil
import torch
from transformers import BioGptConfig, BioGptForCausalLM
from transformers.models.biogpt.tokenization_biogpt import VOCAB_FILES_NAMES
from transformers.tokenization_utils_base import TOKENIZER_CONFIG_FILE
from transformers.utils import WEIGHTS_NAME, logging
logging.set_verbosity_warning()
_a = 2
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , *, # begin keyword-only arguments
UpperCAmelCase="<s>" , UpperCAmelCase="<pad>" , UpperCAmelCase="</s>" , UpperCAmelCase="<unk>" , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = bos, unk, pad, eos
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = {}
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
if extra_special_symbols:
for s in extra_special_symbols:
self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = len(self.symbols )
def __eq__( self , UpperCAmelCase ):
"""simple docstring"""
return self.indices == other.indices
def __getitem__( self , UpperCAmelCase ):
"""simple docstring"""
if idx < len(self.symbols ):
return self.symbols[idx]
return self.unk_word
def __len__( self ):
"""simple docstring"""
return len(self.symbols )
def __contains__( self , UpperCAmelCase ):
"""simple docstring"""
return sym in self.indices
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = cls()
d.add_from_file(UpperCAmelCase )
return d
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=1 , UpperCAmelCase=False ):
"""simple docstring"""
if word in self.indices and not overwrite:
_UpperCAmelCase = self.indices[word]
_UpperCAmelCase = self.count[idx] + n
return idx
else:
_UpperCAmelCase = len(self.symbols )
_UpperCAmelCase = idx
self.symbols.append(UpperCAmelCase )
self.count.append(UpperCAmelCase )
return idx
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return 0
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if isinstance(UpperCAmelCase , UpperCAmelCase ):
try:
with open(UpperCAmelCase , 'r' , encoding='utf-8' ) as fd:
self.add_from_file(UpperCAmelCase )
except FileNotFoundError as fnfe:
raise fnfe
except UnicodeError:
raise Exception('Incorrect encoding detected in {}, please rebuild the dataset'.format(UpperCAmelCase ) )
return
_UpperCAmelCase = f.readlines()
_UpperCAmelCase = self._load_meta(UpperCAmelCase )
for line in lines[indices_start_line:]:
try:
_UpperCAmelCase , _UpperCAmelCase = line.rstrip().rsplit(' ' , 1 )
if field == "#fairseq:overwrite":
_UpperCAmelCase = True
_UpperCAmelCase , _UpperCAmelCase = line.rsplit(' ' , 1 )
else:
_UpperCAmelCase = False
_UpperCAmelCase = int(UpperCAmelCase )
_UpperCAmelCase = line
if word in self and not overwrite:
raise RuntimeError(
'Duplicate word found when loading Dictionary: \'{}\'. '
'Duplicate words can overwrite earlier ones by adding the '
'#fairseq:overwrite flag at the end of the corresponding row '
'in the dictionary file. If using the Camembert model, please '
'download an updated copy of the model file.'.format(UpperCAmelCase ) )
self.add_symbol(UpperCAmelCase , n=UpperCAmelCase , overwrite=UpperCAmelCase )
except ValueError:
raise ValueError('Incorrect dictionary format, expected \'<token> <cnt> [flags]\'' )
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = dict((re.sub(R'@@$' , '' , __lowerCAmelCase ), v) if k.endswith('@@' ) else (re.sub(R'$' , '</w>' , __lowerCAmelCase ), v) for k, v in d.items() )
_UpperCAmelCase = '<s> <pad> </s> <unk>'.split()
# restore the special tokens
for k in keep_keys:
del da[F"""{k}</w>"""]
_UpperCAmelCase = d[k] # restore
return da
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> str:
"""simple docstring"""
if not os.path.exists(__lowerCAmelCase ):
raise ValueError(F"""path {biogpt_checkpoint_path} does not exist!""" )
os.makedirs(__lowerCAmelCase , exist_ok=__lowerCAmelCase )
print(F"""Writing results to {pytorch_dump_folder_path}""" )
# handle various types of models
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'checkpoint.pt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {checkpoint_file} does not exist!""" )
_UpperCAmelCase = torch.load(__lowerCAmelCase , map_location='cpu' )
_UpperCAmelCase = chkpt['cfg']['model']
# dicts
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'dict.txt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {dict_file} does not exist!""" )
_UpperCAmelCase = Dictionary.load(__lowerCAmelCase )
_UpperCAmelCase = rewrite_dict_keys(src_dict.indices )
_UpperCAmelCase = len(__lowerCAmelCase )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['vocab_file'] )
print(F"""Generating {src_vocab_file} of {src_vocab_size} records""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# merges_file (bpecodes)
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'bpecodes' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {bpecodes_file} does not exist!""" )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['merges_file'] )
shutil.copyfile(__lowerCAmelCase , __lowerCAmelCase )
# model config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'config.json' )
_UpperCAmelCase = {
'activation_dropout': args['activation_dropout'],
'architectures': ['BioGptForCausalLM'],
'attention_probs_dropout_prob': args['attention_dropout'],
'bos_token_id': 0,
'eos_token_id': 2,
'hidden_act': args['activation_fn'],
'hidden_dropout_prob': args['dropout'],
'hidden_size': args['decoder_embed_dim'],
'initializer_range': 0.02,
'intermediate_size': args['decoder_ffn_embed_dim'],
'layer_norm_eps': 1E-12,
'layerdrop': args['decoder_layerdrop'],
'max_position_embeddings': args['max_target_positions'],
'model_type': 'biogpt',
'num_attention_heads': args['decoder_attention_heads'],
'num_hidden_layers': args['decoder_layers'],
'pad_token_id': 1,
'scale_embedding': not args['no_scale_embedding'],
'tie_word_embeddings': args['share_decoder_input_output_embed'],
'vocab_size': src_vocab_size,
}
# good hparam defaults to start with
print(F"""Generating {biogpt_model_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# tokenizer config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = {
'bos_token': '<s>',
'eos_token': '</s>',
'model_max_length': 1_024,
'pad_token': '<pad>',
'special_tokens_map_file': None,
'tokenizer_class': 'BioGptTokenizer',
'unk_token': '<unk>',
}
print(F"""Generating {biogpt_tokenizer_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# model
_UpperCAmelCase = chkpt['model']
# remove unneeded keys
_UpperCAmelCase = [
'decoder.version',
]
for k in ignore_keys:
model_state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = list(model_state_dict.keys() )
for layer_name in layer_names:
if layer_name.endswith('output_projection.weight' ):
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
else:
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
_UpperCAmelCase = BioGptConfig.from_pretrained(__lowerCAmelCase )
_UpperCAmelCase = BioGptForCausalLM(__lowerCAmelCase )
# check that it loads ok
model_new.load_state_dict(__lowerCAmelCase )
# save
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
print(F"""Generating {pytorch_weights_dump_path}""" )
torch.save(__lowerCAmelCase , __lowerCAmelCase )
print('Conversion is done!' )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--biogpt_checkpoint_path''',
default=None,
type=str,
required=True,
help=(
'''Path to the official PyTorch checkpoint file which is expected to reside in the dump dir with dicts,'''
''' bpecodes, etc.'''
),
)
parser.add_argument(
'''--pytorch_dump_folder_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
_a = parser.parse_args()
convert_biogpt_checkpoint_to_pytorch(args.biogpt_checkpoint_path, args.pytorch_dump_folder_path)
| 39
| 1
|
from __future__ import annotations
from typing import Any
def __A ( __lowerCAmelCase )-> int:
"""simple docstring"""
if not postfix_notation:
return 0
_UpperCAmelCase = {'+', '-', '*', '/'}
_UpperCAmelCase = []
for token in postfix_notation:
if token in operations:
_UpperCAmelCase , _UpperCAmelCase = stack.pop(), stack.pop()
if token == "+":
stack.append(a + b )
elif token == "-":
stack.append(a - b )
elif token == "*":
stack.append(a * b )
else:
if a * b < 0 and a % b != 0:
stack.append(a // b + 1 )
else:
stack.append(a // b )
else:
stack.append(int(__lowerCAmelCase ) )
return stack.pop()
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
|
from __future__ import annotations
import collections
import pprint
from pathlib import Path
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
return "".join(sorted(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase )-> list[str]:
"""simple docstring"""
return word_by_signature[signature(__lowerCAmelCase )]
_a = Path(__file__).parent.joinpath('''words.txt''').read_text(encoding='''utf-8''')
_a = sorted({word.strip().lower() for word in data.splitlines()})
_a = collections.defaultdict(list)
for word in word_list:
word_by_signature[signature(word)].append(word)
if __name__ == "__main__":
_a = {word: anagram(word) for word in word_list if len(anagram(word)) > 1}
with open('''anagrams.txt''', '''w''') as file:
file.write('''all_anagrams = \n ''')
file.write(pprint.pformat(all_anagrams))
| 39
| 1
|
from __future__ import annotations
from fractions import Fraction
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> bool:
"""simple docstring"""
return (
num != den and num % 10 == den // 10 and (num // 10) / (den % 10) == num / den
)
def __A ( __lowerCAmelCase )-> list[str]:
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase = 11
_UpperCAmelCase = int('1' + '0' * digit_len )
for num in range(__lowerCAmelCase , __lowerCAmelCase ):
while den <= 99:
if (num != den) and (num % 10 == den // 10) and (den % 10 != 0):
if is_digit_cancelling(__lowerCAmelCase , __lowerCAmelCase ):
solutions.append(F"""{num}/{den}""" )
den += 1
num += 1
_UpperCAmelCase = 10
return solutions
def __A ( __lowerCAmelCase = 2 )-> int:
"""simple docstring"""
_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())
| 39
|
from __future__ import annotations
def __A ( __lowerCAmelCase )-> list[int]:
"""simple docstring"""
_UpperCAmelCase = 2
_UpperCAmelCase = []
while i * i <= n:
if n % i:
i += 1
else:
n //= i
factors.append(__lowerCAmelCase )
if n > 1:
factors.append(__lowerCAmelCase )
return factors
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
| 1
|
from typing import Optional
import pyspark
from .. import Features, NamedSplit
from ..download import DownloadMode
from ..packaged_modules.spark.spark import Spark
from .abc import AbstractDatasetReader
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = True , UpperCAmelCase = None , UpperCAmelCase = False , UpperCAmelCase = None , UpperCAmelCase = True , UpperCAmelCase = "arrow" , **UpperCAmelCase , ):
"""simple docstring"""
super().__init__(
split=UpperCAmelCase , features=UpperCAmelCase , cache_dir=UpperCAmelCase , keep_in_memory=UpperCAmelCase , streaming=UpperCAmelCase , **UpperCAmelCase , )
_UpperCAmelCase = load_from_cache_file
_UpperCAmelCase = file_format
_UpperCAmelCase = Spark(
df=UpperCAmelCase , features=UpperCAmelCase , cache_dir=UpperCAmelCase , working_dir=UpperCAmelCase , **UpperCAmelCase , )
def UpperCamelCase ( self ):
"""simple docstring"""
if self.streaming:
return self.builder.as_streaming_dataset(split=self.split )
_UpperCAmelCase = None if self._load_from_cache_file else DownloadMode.FORCE_REDOWNLOAD
self.builder.download_and_prepare(
download_mode=UpperCAmelCase , file_format=self._file_format , )
return self.builder.as_dataset(split=self.split )
| 39
|
from __future__ import annotations
from itertools import permutations
from random import randint
from timeit import repeat
def __A ( )-> tuple[list[int], int]:
"""simple docstring"""
_UpperCAmelCase = [randint(-1_000 , 1_000 ) for i in range(10 )]
_UpperCAmelCase = randint(-5_000 , 5_000 )
return (arr, r)
_a = make_dataset()
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> tuple[int, ...]:
"""simple docstring"""
for triplet in permutations(__lowerCAmelCase , 3 ):
if sum(__lowerCAmelCase ) == target:
return tuple(sorted(__lowerCAmelCase ) )
return (0, 0, 0)
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> tuple[int, int, int]:
"""simple docstring"""
arr.sort()
_UpperCAmelCase = len(__lowerCAmelCase )
for i in range(n - 1 ):
_UpperCAmelCase , _UpperCAmelCase = i + 1, n - 1
while left < right:
if arr[i] + arr[left] + arr[right] == target:
return (arr[i], arr[left], arr[right])
elif arr[i] + arr[left] + arr[right] < target:
left += 1
elif arr[i] + arr[left] + arr[right] > target:
right -= 1
return (0, 0, 0)
def __A ( )-> tuple[float, float]:
"""simple docstring"""
_UpperCAmelCase = '\nfrom __main__ import dataset, triplet_sum1, triplet_sum2\n'
_UpperCAmelCase = '\ntriplet_sum1(*dataset)\n'
_UpperCAmelCase = '\ntriplet_sum2(*dataset)\n'
_UpperCAmelCase = repeat(setup=__lowerCAmelCase , stmt=__lowerCAmelCase , repeat=5 , number=10_000 )
_UpperCAmelCase = repeat(setup=__lowerCAmelCase , stmt=__lowerCAmelCase , repeat=5 , number=10_000 )
return (min(__lowerCAmelCase ), min(__lowerCAmelCase ))
if __name__ == "__main__":
from doctest import testmod
testmod()
_a = solution_times()
print(F'''The time for naive implementation is {times[0]}.''')
print(F'''The time for optimized implementation is {times[1]}.''')
| 39
| 1
|
from collections import deque
from math import floor
from random import random
from time import time
class __lowerCamelCase :
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
_UpperCAmelCase = {}
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=1 ):
"""simple docstring"""
if self.graph.get(UpperCAmelCase ):
if self.graph[u].count([w, v] ) == 0:
self.graph[u].append([w, v] )
else:
_UpperCAmelCase = [[w, v]]
if not self.graph.get(UpperCAmelCase ):
_UpperCAmelCase = []
def UpperCamelCase ( self ):
"""simple docstring"""
return list(self.graph )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
if self.graph.get(UpperCAmelCase ):
for _ in self.graph[u]:
if _[1] == v:
self.graph[u].remove(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase=-2 , UpperCAmelCase=-1 ):
"""simple docstring"""
if s == d:
return []
_UpperCAmelCase = []
_UpperCAmelCase = []
if s == -2:
_UpperCAmelCase = list(self.graph )[0]
stack.append(UpperCAmelCase )
visited.append(UpperCAmelCase )
_UpperCAmelCase = s
while True:
# check if there is any non isolated nodes
if len(self.graph[s] ) != 0:
_UpperCAmelCase = s
for node in self.graph[s]:
if visited.count(node[1] ) < 1:
if node[1] == d:
visited.append(UpperCAmelCase )
return visited
else:
stack.append(node[1] )
visited.append(node[1] )
_UpperCAmelCase = node[1]
break
# check if all the children are visited
if s == ss:
stack.pop()
if len(UpperCAmelCase ) != 0:
_UpperCAmelCase = stack[len(UpperCAmelCase ) - 1]
else:
_UpperCAmelCase = ss
# check if se have reached the starting point
if len(UpperCAmelCase ) == 0:
return visited
def UpperCamelCase ( self , UpperCAmelCase=-1 ):
"""simple docstring"""
if c == -1:
_UpperCAmelCase = floor(random() * 1_0000 ) + 10
for i in range(UpperCAmelCase ):
# every vertex has max 100 edges
for _ in range(floor(random() * 102 ) + 1 ):
_UpperCAmelCase = floor(random() * c ) + 1
if n != i:
self.add_pair(UpperCAmelCase , UpperCAmelCase , 1 )
def UpperCamelCase ( self , UpperCAmelCase=-2 ):
"""simple docstring"""
_UpperCAmelCase = deque()
_UpperCAmelCase = []
if s == -2:
_UpperCAmelCase = list(self.graph )[0]
d.append(UpperCAmelCase )
visited.append(UpperCAmelCase )
while d:
_UpperCAmelCase = d.popleft()
if len(self.graph[s] ) != 0:
for node in self.graph[s]:
if visited.count(node[1] ) < 1:
d.append(node[1] )
visited.append(node[1] )
return visited
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 0
for x in self.graph:
for y in self.graph[x]:
if y[1] == u:
count += 1
return count
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return len(self.graph[u] )
def UpperCamelCase ( self , UpperCAmelCase=-2 ):
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase = []
if s == -2:
_UpperCAmelCase = list(self.graph )[0]
stack.append(UpperCAmelCase )
visited.append(UpperCAmelCase )
_UpperCAmelCase = s
_UpperCAmelCase = []
while True:
# check if there is any non isolated nodes
if len(self.graph[s] ) != 0:
_UpperCAmelCase = s
for node in self.graph[s]:
if visited.count(node[1] ) < 1:
stack.append(node[1] )
visited.append(node[1] )
_UpperCAmelCase = node[1]
break
# check if all the children are visited
if s == ss:
sorted_nodes.append(stack.pop() )
if len(UpperCAmelCase ) != 0:
_UpperCAmelCase = stack[len(UpperCAmelCase ) - 1]
else:
_UpperCAmelCase = ss
# check if se have reached the starting point
if len(UpperCAmelCase ) == 0:
return sorted_nodes
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = list(self.graph )[0]
stack.append(UpperCAmelCase )
visited.append(UpperCAmelCase )
_UpperCAmelCase = -2
_UpperCAmelCase = []
_UpperCAmelCase = s
_UpperCAmelCase = False
_UpperCAmelCase = set()
while True:
# check if there is any non isolated nodes
if len(self.graph[s] ) != 0:
_UpperCAmelCase = s
for node in self.graph[s]:
if (
visited.count(node[1] ) > 0
and node[1] != parent
and indirect_parents.count(node[1] ) > 0
and not on_the_way_back
):
_UpperCAmelCase = len(UpperCAmelCase ) - 1
while len_stack >= 0:
if stack[len_stack] == node[1]:
anticipating_nodes.add(node[1] )
break
else:
anticipating_nodes.add(stack[len_stack] )
len_stack -= 1
if visited.count(node[1] ) < 1:
stack.append(node[1] )
visited.append(node[1] )
_UpperCAmelCase = node[1]
break
# check if all the children are visited
if s == ss:
stack.pop()
_UpperCAmelCase = True
if len(UpperCAmelCase ) != 0:
_UpperCAmelCase = stack[len(UpperCAmelCase ) - 1]
else:
_UpperCAmelCase = False
indirect_parents.append(UpperCAmelCase )
_UpperCAmelCase = s
_UpperCAmelCase = ss
# check if se have reached the starting point
if len(UpperCAmelCase ) == 0:
return list(UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = list(self.graph )[0]
stack.append(UpperCAmelCase )
visited.append(UpperCAmelCase )
_UpperCAmelCase = -2
_UpperCAmelCase = []
_UpperCAmelCase = s
_UpperCAmelCase = False
_UpperCAmelCase = set()
while True:
# check if there is any non isolated nodes
if len(self.graph[s] ) != 0:
_UpperCAmelCase = s
for node in self.graph[s]:
if (
visited.count(node[1] ) > 0
and node[1] != parent
and indirect_parents.count(node[1] ) > 0
and not on_the_way_back
):
_UpperCAmelCase = len(UpperCAmelCase ) - 1
while len_stack_minus_one >= 0:
if stack[len_stack_minus_one] == node[1]:
anticipating_nodes.add(node[1] )
break
else:
return True
if visited.count(node[1] ) < 1:
stack.append(node[1] )
visited.append(node[1] )
_UpperCAmelCase = node[1]
break
# check if all the children are visited
if s == ss:
stack.pop()
_UpperCAmelCase = True
if len(UpperCAmelCase ) != 0:
_UpperCAmelCase = stack[len(UpperCAmelCase ) - 1]
else:
_UpperCAmelCase = False
indirect_parents.append(UpperCAmelCase )
_UpperCAmelCase = s
_UpperCAmelCase = ss
# check if se have reached the starting point
if len(UpperCAmelCase ) == 0:
return False
def UpperCamelCase ( self , UpperCAmelCase=-2 , UpperCAmelCase=-1 ):
"""simple docstring"""
_UpperCAmelCase = time()
self.dfs(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = time()
return end - begin
def UpperCamelCase ( self , UpperCAmelCase=-2 ):
"""simple docstring"""
_UpperCAmelCase = time()
self.bfs(UpperCAmelCase )
_UpperCAmelCase = time()
return end - begin
class __lowerCamelCase :
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
_UpperCAmelCase = {}
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=1 ):
"""simple docstring"""
if self.graph.get(UpperCAmelCase ):
# if there already is a edge
if self.graph[u].count([w, v] ) == 0:
self.graph[u].append([w, v] )
else:
# if u does not exist
_UpperCAmelCase = [[w, v]]
# add the other way
if self.graph.get(UpperCAmelCase ):
# if there already is a edge
if self.graph[v].count([w, u] ) == 0:
self.graph[v].append([w, u] )
else:
# if u does not exist
_UpperCAmelCase = [[w, u]]
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
if self.graph.get(UpperCAmelCase ):
for _ in self.graph[u]:
if _[1] == v:
self.graph[u].remove(UpperCAmelCase )
# the other way round
if self.graph.get(UpperCAmelCase ):
for _ in self.graph[v]:
if _[1] == u:
self.graph[v].remove(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase=-2 , UpperCAmelCase=-1 ):
"""simple docstring"""
if s == d:
return []
_UpperCAmelCase = []
_UpperCAmelCase = []
if s == -2:
_UpperCAmelCase = list(self.graph )[0]
stack.append(UpperCAmelCase )
visited.append(UpperCAmelCase )
_UpperCAmelCase = s
while True:
# check if there is any non isolated nodes
if len(self.graph[s] ) != 0:
_UpperCAmelCase = s
for node in self.graph[s]:
if visited.count(node[1] ) < 1:
if node[1] == d:
visited.append(UpperCAmelCase )
return visited
else:
stack.append(node[1] )
visited.append(node[1] )
_UpperCAmelCase = node[1]
break
# check if all the children are visited
if s == ss:
stack.pop()
if len(UpperCAmelCase ) != 0:
_UpperCAmelCase = stack[len(UpperCAmelCase ) - 1]
else:
_UpperCAmelCase = ss
# check if se have reached the starting point
if len(UpperCAmelCase ) == 0:
return visited
def UpperCamelCase ( self , UpperCAmelCase=-1 ):
"""simple docstring"""
if c == -1:
_UpperCAmelCase = floor(random() * 1_0000 ) + 10
for i in range(UpperCAmelCase ):
# every vertex has max 100 edges
for _ in range(floor(random() * 102 ) + 1 ):
_UpperCAmelCase = floor(random() * c ) + 1
if n != i:
self.add_pair(UpperCAmelCase , UpperCAmelCase , 1 )
def UpperCamelCase ( self , UpperCAmelCase=-2 ):
"""simple docstring"""
_UpperCAmelCase = deque()
_UpperCAmelCase = []
if s == -2:
_UpperCAmelCase = list(self.graph )[0]
d.append(UpperCAmelCase )
visited.append(UpperCAmelCase )
while d:
_UpperCAmelCase = d.popleft()
if len(self.graph[s] ) != 0:
for node in self.graph[s]:
if visited.count(node[1] ) < 1:
d.append(node[1] )
visited.append(node[1] )
return visited
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return len(self.graph[u] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = list(self.graph )[0]
stack.append(UpperCAmelCase )
visited.append(UpperCAmelCase )
_UpperCAmelCase = -2
_UpperCAmelCase = []
_UpperCAmelCase = s
_UpperCAmelCase = False
_UpperCAmelCase = set()
while True:
# check if there is any non isolated nodes
if len(self.graph[s] ) != 0:
_UpperCAmelCase = s
for node in self.graph[s]:
if (
visited.count(node[1] ) > 0
and node[1] != parent
and indirect_parents.count(node[1] ) > 0
and not on_the_way_back
):
_UpperCAmelCase = len(UpperCAmelCase ) - 1
while len_stack >= 0:
if stack[len_stack] == node[1]:
anticipating_nodes.add(node[1] )
break
else:
anticipating_nodes.add(stack[len_stack] )
len_stack -= 1
if visited.count(node[1] ) < 1:
stack.append(node[1] )
visited.append(node[1] )
_UpperCAmelCase = node[1]
break
# check if all the children are visited
if s == ss:
stack.pop()
_UpperCAmelCase = True
if len(UpperCAmelCase ) != 0:
_UpperCAmelCase = stack[len(UpperCAmelCase ) - 1]
else:
_UpperCAmelCase = False
indirect_parents.append(UpperCAmelCase )
_UpperCAmelCase = s
_UpperCAmelCase = ss
# check if se have reached the starting point
if len(UpperCAmelCase ) == 0:
return list(UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = list(self.graph )[0]
stack.append(UpperCAmelCase )
visited.append(UpperCAmelCase )
_UpperCAmelCase = -2
_UpperCAmelCase = []
_UpperCAmelCase = s
_UpperCAmelCase = False
_UpperCAmelCase = set()
while True:
# check if there is any non isolated nodes
if len(self.graph[s] ) != 0:
_UpperCAmelCase = s
for node in self.graph[s]:
if (
visited.count(node[1] ) > 0
and node[1] != parent
and indirect_parents.count(node[1] ) > 0
and not on_the_way_back
):
_UpperCAmelCase = len(UpperCAmelCase ) - 1
while len_stack_minus_one >= 0:
if stack[len_stack_minus_one] == node[1]:
anticipating_nodes.add(node[1] )
break
else:
return True
if visited.count(node[1] ) < 1:
stack.append(node[1] )
visited.append(node[1] )
_UpperCAmelCase = node[1]
break
# check if all the children are visited
if s == ss:
stack.pop()
_UpperCAmelCase = True
if len(UpperCAmelCase ) != 0:
_UpperCAmelCase = stack[len(UpperCAmelCase ) - 1]
else:
_UpperCAmelCase = False
indirect_parents.append(UpperCAmelCase )
_UpperCAmelCase = s
_UpperCAmelCase = ss
# check if se have reached the starting point
if len(UpperCAmelCase ) == 0:
return False
def UpperCamelCase ( self ):
"""simple docstring"""
return list(self.graph )
def UpperCamelCase ( self , UpperCAmelCase=-2 , UpperCAmelCase=-1 ):
"""simple docstring"""
_UpperCAmelCase = time()
self.dfs(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = time()
return end - begin
def UpperCamelCase ( self , UpperCAmelCase=-2 ):
"""simple docstring"""
_UpperCAmelCase = time()
self.bfs(UpperCAmelCase )
_UpperCAmelCase = time()
return end - begin
| 39
|
import os
import tempfile
import unittest
import numpy as np
from diffusers.utils import is_flax_available
from diffusers.utils.testing_utils import require_flax, slow
if is_flax_available():
import jax
import jax.numpy as jnp
from flax.jax_utils import replicate
from flax.training.common_utils import shard
from diffusers import FlaxDDIMScheduler, FlaxDiffusionPipeline, FlaxStableDiffusionPipeline
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmpdirname:
# pipeline has Flax weights
_UpperCAmelCase = FlaxDiffusionPipeline.from_pretrained(
'hf-internal-testing/tiny-stable-diffusion-pipe' , safety_checker=UpperCAmelCase , cache_dir=UpperCAmelCase )
_UpperCAmelCase = [t[-1] for t in os.walk(os.path.join(UpperCAmelCase , os.listdir(UpperCAmelCase )[0] , 'snapshots' ) )]
_UpperCAmelCase = [item for sublist in all_root_files for item in sublist]
# None of the downloaded files should be a PyTorch file even if we have some here:
# https://huggingface.co/hf-internal-testing/tiny-stable-diffusion-pipe/blob/main/unet/diffusion_pytorch_model.bin
assert not any(f.endswith('.bin' ) for f in files )
@slow
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'hf-internal-testing/tiny-stable-diffusion-pipe' , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 4
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 64, 64, 3)
if jax.device_count() == 8:
assert np.abs(np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 4.1_51_47_45 ) < 1e-3
assert np.abs(np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 4_99_47.8_75 ) < 5e-1
_UpperCAmelCase = pipeline.numpy_to_pil(np.asarray(images.reshape((num_samples,) + images.shape[-3:] ) ) )
assert len(UpperCAmelCase ) == num_samples
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='flax' , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.05_65_24_01) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_38_38_08.2) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.04_00_39_06) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_37_35_16.75) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.04_00_39_06) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_37_35_16.75) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = FlaxDDIMScheduler(
beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule='scaled_linear' , set_alpha_to_one=UpperCAmelCase , steps_offset=1 , )
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , scheduler=UpperCAmelCase , safety_checker=UpperCAmelCase , )
_UpperCAmelCase = scheduler.create_state()
_UpperCAmelCase = scheduler_state
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.0_45_04_39_45) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_34_76_93.5) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = jax.random.split(jax.random.PRNGKey(0 ) , UpperCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase , )
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
_UpperCAmelCase = images[2, 0, 256, 10:17, 1]
# With memory efficient attention
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase , use_memory_efficient_attention=UpperCAmelCase , )
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images_eff.shape == (num_samples, 1, 512, 512, 3)
_UpperCAmelCase = images[2, 0, 256, 10:17, 1]
# I checked the results visually and they are very similar. However, I saw that the max diff is `1` and the `sum`
# over the 8 images is exactly `256`, which is very suspicious. Testing a random slice for now.
assert abs(slice_eff - slice ).max() < 1e-2
| 39
| 1
|
from __future__ import annotations
import collections
import pprint
from pathlib import Path
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
return "".join(sorted(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase )-> list[str]:
"""simple docstring"""
return word_by_signature[signature(__lowerCAmelCase )]
_a = Path(__file__).parent.joinpath('''words.txt''').read_text(encoding='''utf-8''')
_a = sorted({word.strip().lower() for word in data.splitlines()})
_a = collections.defaultdict(list)
for word in word_list:
word_by_signature[signature(word)].append(word)
if __name__ == "__main__":
_a = {word: anagram(word) for word in word_list if len(anagram(word)) > 1}
with open('''anagrams.txt''', '''w''') as file:
file.write('''all_anagrams = \n ''')
file.write(pprint.pformat(all_anagrams))
| 39
|
import unittest
from transformers import AlbertTokenizer, AlbertTokenizerFast
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
_a = get_tests_dir('''fixtures/spiece.model''')
@require_sentencepiece
@require_tokenizers
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = AlbertTokenizer
UpperCamelCase__ = AlbertTokenizerFast
UpperCamelCase__ = True
UpperCamelCase__ = True
UpperCamelCase__ = True
def UpperCamelCase ( self ):
"""simple docstring"""
super().setUp()
# We have a SentencePiece fixture for testing
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase )
tokenizer.save_pretrained(self.tmpdirname )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 'this is a test'
_UpperCAmelCase = 'this is a test'
return input_text, output_text
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = '<pad>'
_UpperCAmelCase = 0
self.assertEqual(self.get_tokenizer()._convert_token_to_id(UpperCAmelCase ) , UpperCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(UpperCAmelCase ) , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0] , '<pad>' )
self.assertEqual(vocab_keys[1] , '<unk>' )
self.assertEqual(vocab_keys[-1] , '▁eloquent' )
self.assertEqual(len(UpperCAmelCase ) , 3_0000 )
def UpperCamelCase ( self ):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size , 3_0000 )
def UpperCamelCase ( self ):
"""simple docstring"""
if not self.test_rust_tokenizer:
return
_UpperCAmelCase = self.get_tokenizer()
_UpperCAmelCase = self.get_rust_tokenizer()
_UpperCAmelCase = 'I was born in 92000, and this is falsé.'
_UpperCAmelCase = tokenizer.tokenize(UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.tokenize(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self.get_rust_tokenizer()
_UpperCAmelCase = tokenizer.encode(UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.encode(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase , keep_accents=UpperCAmelCase )
_UpperCAmelCase = tokenizer.tokenize('This is a test' )
self.assertListEqual(UpperCAmelCase , ['▁this', '▁is', '▁a', '▁test'] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase ) , [48, 25, 21, 1289] )
_UpperCAmelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' )
self.assertListEqual(
UpperCAmelCase , ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', 'é', '.'] )
_UpperCAmelCase = tokenizer.convert_tokens_to_ids(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , [31, 23, 386, 19, 561, 3050, 15, 17, 48, 25, 8256, 18, 1, 9] )
_UpperCAmelCase = tokenizer.convert_ids_to_tokens(UpperCAmelCase )
self.assertListEqual(
UpperCAmelCase , ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', '<unk>', '.'] , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase )
_UpperCAmelCase = tokenizer.encode('sequence builders' )
_UpperCAmelCase = tokenizer.encode('multi-sequence build' )
_UpperCAmelCase = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase )
_UpperCAmelCase = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase , UpperCAmelCase )
assert encoded_sentence == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id]
assert encoded_pair == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] + text_a + [
tokenizer.sep_token_id
]
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = {'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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'input_ids': [[2, 2_1970, 13, 5, 6092, 167, 28, 7103, 2153, 673, 8, 7028, 1_2051, 18, 17, 7103, 2153, 673, 8, 3515, 1_8684, 8, 4461, 6, 1927, 297, 8, 1_2060, 2607, 18, 13, 5, 4461, 15, 1_0538, 38, 8, 135, 15, 822, 58, 15, 993, 1_0363, 15, 1460, 8005, 4461, 15, 993, 255, 2328, 9, 9, 9, 6, 26, 1112, 816, 3260, 13, 5, 103, 2377, 6, 17, 1112, 816, 2782, 13, 5, 103, 1_0641, 6, 29, 84, 2512, 2430, 782, 1_8684, 2761, 19, 808, 2430, 2556, 17, 855, 1480, 9477, 4091, 128, 1_1712, 15, 7103, 2153, 673, 17, 2_4883, 9990, 9, 3], [2, 1_1502, 25, 1006, 20, 782, 8, 1_1809, 855, 1732, 1_9393, 1_8667, 37, 367, 2_1018, 69, 1854, 34, 1_1860, 1_9124, 27, 156, 225, 17, 193, 4141, 19, 65, 9124, 9, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [2, 14, 2231, 886, 2385, 1_7659, 84, 14, 1_6792, 1952, 9, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'token_type_ids': [[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]]} # noqa: E501
# fmt: on
self.tokenizer_integration_test_util(
expected_encoding=UpperCAmelCase , model_name='albert-base-v2' , revision='6b6560eaf5ff2e250b00c50f380c5389a9c2d82e' , )
| 39
| 1
|
from sklearn.metrics import recall_score
import datasets
_a = '''
Recall is the fraction of the positive examples that were correctly labeled by the model as positive. It can be computed with the equation:
Recall = TP / (TP + FN)
Where TP is the true positives and FN is the false negatives.
'''
_a = '''
Args:
- **predictions** (`list` of `int`): The predicted labels.
- **references** (`list` of `int`): The ground truth labels.
- **labels** (`list` of `int`): The set of labels to include when `average` is not set to `binary`, and their order when average is `None`. Labels present in the data can be excluded in this input, for example to calculate a multiclass average ignoring a majority negative class, while labels not present in the data will result in 0 components in a macro average. For multilabel targets, labels are column indices. By default, all labels in y_true and y_pred are used in sorted order. Defaults to None.
- **pos_label** (`int`): The class label to use as the \'positive class\' when calculating the recall. Defaults to `1`.
- **average** (`string`): This parameter is required for multiclass/multilabel targets. If None, the scores for each class are returned. Otherwise, this determines the type of averaging performed on the data. Defaults to `\'binary\'`.
- `\'binary\'`: Only report results for the class specified by `pos_label`. This is applicable only if the target labels and predictions are binary.
- `\'micro\'`: Calculate metrics globally by counting the total true positives, false negatives, and false positives.
- `\'macro\'`: Calculate metrics for each label, and find their unweighted mean. This does not take label imbalance into account.
- `\'weighted\'`: Calculate metrics for each label, and find their average weighted by support (the number of true instances for each label). This alters `\'macro\'` to account for label imbalance. Note that it can result in an F-score that is not between precision and recall.
- `\'samples\'`: Calculate metrics for each instance, and find their average (only meaningful for multilabel classification).
- **sample_weight** (`list` of `float`): Sample weights Defaults to `None`.
- **zero_division** (): Sets the value to return when there is a zero division. Defaults to .
- `\'warn\'`: If there is a zero division, the return value is `0`, but warnings are also raised.
- `0`: If there is a zero division, the return value is `0`.
- `1`: If there is a zero division, the return value is `1`.
Returns:
- **recall** (`float`, or `array` of `float`): Either the general recall score, or the recall scores for individual classes, depending on the values input to `labels` and `average`. Minimum possible value is 0. Maximum possible value is 1. A higher recall means that more of the positive examples have been labeled correctly. Therefore, a higher recall is generally considered better.
Examples:
Example 1-A simple example with some errors
>>> recall_metric = datasets.load_metric(\'recall\')
>>> results = recall_metric.compute(references=[0, 0, 1, 1, 1], predictions=[0, 1, 0, 1, 1])
>>> print(results)
{\'recall\': 0.6666666666666666}
Example 2-The same example as Example 1, but with `pos_label=0` instead of the default `pos_label=1`.
>>> recall_metric = datasets.load_metric(\'recall\')
>>> results = recall_metric.compute(references=[0, 0, 1, 1, 1], predictions=[0, 1, 0, 1, 1], pos_label=0)
>>> print(results)
{\'recall\': 0.5}
Example 3-The same example as Example 1, but with `sample_weight` included.
>>> recall_metric = datasets.load_metric(\'recall\')
>>> sample_weight = [0.9, 0.2, 0.9, 0.3, 0.8]
>>> results = recall_metric.compute(references=[0, 0, 1, 1, 1], predictions=[0, 1, 0, 1, 1], sample_weight=sample_weight)
>>> print(results)
{\'recall\': 0.55}
Example 4-A multiclass example, using different averages.
>>> recall_metric = datasets.load_metric(\'recall\')
>>> predictions = [0, 2, 1, 0, 0, 1]
>>> references = [0, 1, 2, 0, 1, 2]
>>> results = recall_metric.compute(predictions=predictions, references=references, average=\'macro\')
>>> print(results)
{\'recall\': 0.3333333333333333}
>>> results = recall_metric.compute(predictions=predictions, references=references, average=\'micro\')
>>> print(results)
{\'recall\': 0.3333333333333333}
>>> results = recall_metric.compute(predictions=predictions, references=references, average=\'weighted\')
>>> print(results)
{\'recall\': 0.3333333333333333}
>>> results = recall_metric.compute(predictions=predictions, references=references, average=None)
>>> print(results)
{\'recall\': array([1., 0., 0.])}
'''
_a = '''
@article{scikit-learn, title={Scikit-learn: Machine Learning in {P}ython}, author={Pedregosa, F. and Varoquaux, G. and Gramfort, A. and Michel, V. and Thirion, B. and Grisel, O. and Blondel, M. and Prettenhofer, P. and Weiss, R. and Dubourg, V. and Vanderplas, J. and Passos, A. and Cournapeau, D. and Brucher, M. and Perrot, M. and Duchesnay, E.}, journal={Journal of Machine Learning Research}, volume={12}, pages={2825--2830}, year={2011}
'''
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION)
class __lowerCamelCase ( datasets.Metric):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
'predictions': datasets.Sequence(datasets.Value('int32' ) ),
'references': datasets.Sequence(datasets.Value('int32' ) ),
}
if self.config_name == 'multilabel'
else {
'predictions': datasets.Value('int32' ),
'references': datasets.Value('int32' ),
} ) , reference_urls=['https://scikit-learn.org/stable/modules/generated/sklearn.metrics.recall_score.html'] , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=None , UpperCAmelCase=1 , UpperCAmelCase="binary" , UpperCAmelCase=None , UpperCAmelCase="warn" , ):
"""simple docstring"""
_UpperCAmelCase = recall_score(
UpperCAmelCase , UpperCAmelCase , labels=UpperCAmelCase , pos_label=UpperCAmelCase , average=UpperCAmelCase , sample_weight=UpperCAmelCase , zero_division=UpperCAmelCase , )
return {"recall": float(UpperCAmelCase ) if score.size == 1 else score}
| 39
|
import json
import os
from typing import Optional
import numpy as np
from ...feature_extraction_utils import BatchFeature
from ...processing_utils import ProcessorMixin
from ...utils import logging
from ...utils.hub import get_file_from_repo
from ..auto import AutoTokenizer
_a = logging.get_logger(__name__)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "AutoTokenizer"
UpperCamelCase__ = ["tokenizer"]
UpperCamelCase__ = {
"semantic_prompt": 1,
"coarse_prompt": 2,
"fine_prompt": 2,
}
def __init__( self , UpperCAmelCase , UpperCAmelCase=None ):
"""simple docstring"""
super().__init__(UpperCAmelCase )
_UpperCAmelCase = speaker_embeddings
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase , UpperCAmelCase="speaker_embeddings_path.json" , **UpperCAmelCase ):
"""simple docstring"""
if speaker_embeddings_dict_path is not None:
_UpperCAmelCase = get_file_from_repo(
UpperCAmelCase , UpperCAmelCase , subfolder=kwargs.pop('subfolder' , UpperCAmelCase ) , cache_dir=kwargs.pop('cache_dir' , UpperCAmelCase ) , force_download=kwargs.pop('force_download' , UpperCAmelCase ) , proxies=kwargs.pop('proxies' , UpperCAmelCase ) , resume_download=kwargs.pop('resume_download' , UpperCAmelCase ) , local_files_only=kwargs.pop('local_files_only' , UpperCAmelCase ) , use_auth_token=kwargs.pop('use_auth_token' , UpperCAmelCase ) , revision=kwargs.pop('revision' , UpperCAmelCase ) , )
if speaker_embeddings_path is None:
logger.warning(
F"""`{os.path.join(UpperCAmelCase , UpperCAmelCase )}` does not exists
, no preloaded speaker embeddings will be used - Make sure to provide a correct path to the json
dictionnary if wanted, otherwise set `speaker_embeddings_dict_path=None`.""" )
_UpperCAmelCase = None
else:
with open(UpperCAmelCase ) as speaker_embeddings_json:
_UpperCAmelCase = json.load(UpperCAmelCase )
else:
_UpperCAmelCase = None
_UpperCAmelCase = AutoTokenizer.from_pretrained(UpperCAmelCase , **UpperCAmelCase )
return cls(tokenizer=UpperCAmelCase , speaker_embeddings=UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase="speaker_embeddings_path.json" , UpperCAmelCase="speaker_embeddings" , UpperCAmelCase = False , **UpperCAmelCase , ):
"""simple docstring"""
if self.speaker_embeddings is not None:
os.makedirs(os.path.join(UpperCAmelCase , UpperCAmelCase , 'v2' ) , exist_ok=UpperCAmelCase )
_UpperCAmelCase = {}
_UpperCAmelCase = save_directory
for prompt_key in self.speaker_embeddings:
if prompt_key != "repo_or_path":
_UpperCAmelCase = self._load_voice_preset(UpperCAmelCase )
_UpperCAmelCase = {}
for key in self.speaker_embeddings[prompt_key]:
np.save(
os.path.join(
embeddings_dict['repo_or_path'] , UpperCAmelCase , F"""{prompt_key}_{key}""" ) , voice_preset[key] , allow_pickle=UpperCAmelCase , )
_UpperCAmelCase = os.path.join(UpperCAmelCase , F"""{prompt_key}_{key}.npy""" )
_UpperCAmelCase = tmp_dict
with open(os.path.join(UpperCAmelCase , UpperCAmelCase ) , 'w' ) as fp:
json.dump(UpperCAmelCase , UpperCAmelCase )
super().save_pretrained(UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase = None , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.speaker_embeddings[voice_preset]
_UpperCAmelCase = {}
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset_paths:
raise ValueError(
F"""Voice preset unrecognized, missing {key} as a key in self.speaker_embeddings[{voice_preset}].""" )
_UpperCAmelCase = get_file_from_repo(
self.speaker_embeddings.get('repo_or_path' , '/' ) , voice_preset_paths[key] , subfolder=kwargs.pop('subfolder' , UpperCAmelCase ) , cache_dir=kwargs.pop('cache_dir' , UpperCAmelCase ) , force_download=kwargs.pop('force_download' , UpperCAmelCase ) , proxies=kwargs.pop('proxies' , UpperCAmelCase ) , resume_download=kwargs.pop('resume_download' , UpperCAmelCase ) , local_files_only=kwargs.pop('local_files_only' , UpperCAmelCase ) , use_auth_token=kwargs.pop('use_auth_token' , UpperCAmelCase ) , revision=kwargs.pop('revision' , UpperCAmelCase ) , )
if path is None:
raise ValueError(
F"""`{os.path.join(self.speaker_embeddings.get("repo_or_path" , "/" ) , voice_preset_paths[key] )}` does not exists
, no preloaded voice preset will be used - Make sure to provide correct paths to the {voice_preset}
embeddings.""" )
_UpperCAmelCase = np.load(UpperCAmelCase )
return voice_preset_dict
def UpperCamelCase ( self , UpperCAmelCase = None ):
"""simple docstring"""
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset:
raise ValueError(F"""Voice preset unrecognized, missing {key} as a key.""" )
if not isinstance(voice_preset[key] , np.ndarray ):
raise ValueError(F"""{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.""" )
if len(voice_preset[key].shape ) != self.preset_shape[key]:
raise ValueError(F"""{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.""" )
def __call__( self , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase="pt" , UpperCAmelCase=256 , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=False , **UpperCAmelCase , ):
"""simple docstring"""
if voice_preset is not None and not isinstance(UpperCAmelCase , UpperCAmelCase ):
if (
isinstance(UpperCAmelCase , UpperCAmelCase )
and self.speaker_embeddings is not None
and voice_preset in self.speaker_embeddings
):
_UpperCAmelCase = self._load_voice_preset(UpperCAmelCase )
else:
if isinstance(UpperCAmelCase , UpperCAmelCase ) and not voice_preset.endswith('.npz' ):
_UpperCAmelCase = voice_preset + '.npz'
_UpperCAmelCase = np.load(UpperCAmelCase )
if voice_preset is not None:
self._validate_voice_preset_dict(UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = BatchFeature(data=UpperCAmelCase , tensor_type=UpperCAmelCase )
_UpperCAmelCase = self.tokenizer(
UpperCAmelCase , return_tensors=UpperCAmelCase , padding='max_length' , max_length=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , add_special_tokens=UpperCAmelCase , **UpperCAmelCase , )
if voice_preset is not None:
_UpperCAmelCase = voice_preset
return encoded_text
| 39
| 1
|
def __A ( __lowerCAmelCase )-> bool:
"""simple docstring"""
if not all(x.isalpha() for x in string ):
raise ValueError('String must only contain alphabetic characters.' )
_UpperCAmelCase = sorted(string.lower() )
return len(__lowerCAmelCase ) == len(set(__lowerCAmelCase ) )
if __name__ == "__main__":
_a = input('''Enter a string ''').strip()
_a = is_isogram(input_str)
print(F'''{input_str} is {'an' if isogram else 'not an'} isogram.''')
| 39
|
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'''distilbert-base-uncased''': '''https://huggingface.co/distilbert-base-uncased/resolve/main/config.json''',
'''distilbert-base-uncased-distilled-squad''': (
'''https://huggingface.co/distilbert-base-uncased-distilled-squad/resolve/main/config.json'''
),
'''distilbert-base-cased''': '''https://huggingface.co/distilbert-base-cased/resolve/main/config.json''',
'''distilbert-base-cased-distilled-squad''': (
'''https://huggingface.co/distilbert-base-cased-distilled-squad/resolve/main/config.json'''
),
'''distilbert-base-german-cased''': '''https://huggingface.co/distilbert-base-german-cased/resolve/main/config.json''',
'''distilbert-base-multilingual-cased''': (
'''https://huggingface.co/distilbert-base-multilingual-cased/resolve/main/config.json'''
),
'''distilbert-base-uncased-finetuned-sst-2-english''': (
'''https://huggingface.co/distilbert-base-uncased-finetuned-sst-2-english/resolve/main/config.json'''
),
}
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "distilbert"
UpperCamelCase__ = {
"hidden_size": "dim",
"num_attention_heads": "n_heads",
"num_hidden_layers": "n_layers",
}
def __init__( self , UpperCAmelCase=3_0522 , UpperCAmelCase=512 , UpperCAmelCase=False , UpperCAmelCase=6 , UpperCAmelCase=12 , UpperCAmelCase=768 , UpperCAmelCase=4 * 768 , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=0.02 , UpperCAmelCase=0.1 , UpperCAmelCase=0.2 , UpperCAmelCase=0 , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = vocab_size
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = sinusoidal_pos_embds
_UpperCAmelCase = n_layers
_UpperCAmelCase = n_heads
_UpperCAmelCase = dim
_UpperCAmelCase = hidden_dim
_UpperCAmelCase = dropout
_UpperCAmelCase = attention_dropout
_UpperCAmelCase = activation
_UpperCAmelCase = initializer_range
_UpperCAmelCase = qa_dropout
_UpperCAmelCase = seq_classif_dropout
super().__init__(**UpperCAmelCase , pad_token_id=UpperCAmelCase )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
_UpperCAmelCase = {0: 'batch', 1: 'choice', 2: 'sequence'}
else:
_UpperCAmelCase = {0: 'batch', 1: 'sequence'}
return OrderedDict(
[
('input_ids', dynamic_axis),
('attention_mask', dynamic_axis),
] )
| 39
| 1
|
import gc
import random
import unittest
import numpy as np
import torch
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
import diffusers
from diffusers import (
AutoencoderKL,
EulerDiscreteScheduler,
StableDiffusionLatentUpscalePipeline,
StableDiffusionPipeline,
UNetaDConditionModel,
)
from diffusers.schedulers import KarrasDiffusionSchedulers
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 ..pipeline_params import TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS, TEXT_GUIDED_IMAGE_VARIATION_PARAMS
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
def __A ( __lowerCAmelCase )-> Union[str, Any]:
"""simple docstring"""
_UpperCAmelCase = [tensor.shape for tensor in tensor_list]
return all(shape == shapes[0] for shape in shapes[1:] )
class __lowerCamelCase ( snake_case__ , snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = StableDiffusionLatentUpscalePipeline
UpperCamelCase__ = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {
"height",
"width",
"cross_attention_kwargs",
"negative_prompt_embeds",
"prompt_embeds",
}
UpperCamelCase__ = PipelineTesterMixin.required_optional_params - {"num_images_per_prompt"}
UpperCamelCase__ = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCamelCase__ = frozenset(
[]) # TO-DO: update image_params once pipeline is refactored with VaeImageProcessor.preprocess
UpperCamelCase__ = frozenset([])
UpperCamelCase__ = True
@property
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = 1
_UpperCAmelCase = 4
_UpperCAmelCase = (16, 16)
_UpperCAmelCase = floats_tensor((batch_size, num_channels) + sizes , rng=random.Random(0 ) ).to(UpperCAmelCase )
return image
def UpperCamelCase ( self ):
"""simple docstring"""
torch.manual_seed(0 )
_UpperCAmelCase = UNetaDConditionModel(
act_fn='gelu' , attention_head_dim=8 , norm_num_groups=UpperCAmelCase , block_out_channels=[32, 32, 64, 64] , time_cond_proj_dim=160 , conv_in_kernel=1 , conv_out_kernel=1 , cross_attention_dim=32 , down_block_types=(
'KDownBlock2D',
'KCrossAttnDownBlock2D',
'KCrossAttnDownBlock2D',
'KCrossAttnDownBlock2D',
) , in_channels=8 , mid_block_type=UpperCAmelCase , only_cross_attention=UpperCAmelCase , out_channels=5 , resnet_time_scale_shift='scale_shift' , time_embedding_type='fourier' , timestep_post_act='gelu' , up_block_types=('KCrossAttnUpBlock2D', 'KCrossAttnUpBlock2D', 'KCrossAttnUpBlock2D', 'KUpBlock2D') , )
_UpperCAmelCase = AutoencoderKL(
block_out_channels=[32, 32, 64, 64] , in_channels=3 , out_channels=3 , down_block_types=[
'DownEncoderBlock2D',
'DownEncoderBlock2D',
'DownEncoderBlock2D',
'DownEncoderBlock2D',
] , up_block_types=['UpDecoderBlock2D', 'UpDecoderBlock2D', 'UpDecoderBlock2D', 'UpDecoderBlock2D'] , latent_channels=4 , )
_UpperCAmelCase = EulerDiscreteScheduler(prediction_type='sample' )
_UpperCAmelCase = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , hidden_act='quick_gelu' , projection_dim=512 , )
_UpperCAmelCase = CLIPTextModel(UpperCAmelCase )
_UpperCAmelCase = CLIPTokenizer.from_pretrained('hf-internal-testing/tiny-random-clip' )
_UpperCAmelCase = {
'unet': model.eval(),
'vae': vae.eval(),
'scheduler': scheduler,
'text_encoder': text_encoder,
'tokenizer': tokenizer,
}
return components
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=0 ):
"""simple docstring"""
if str(UpperCAmelCase ).startswith('mps' ):
_UpperCAmelCase = torch.manual_seed(UpperCAmelCase )
else:
_UpperCAmelCase = torch.Generator(device=UpperCAmelCase ).manual_seed(UpperCAmelCase )
_UpperCAmelCase = {
'prompt': 'A painting of a squirrel eating a burger',
'image': self.dummy_image.cpu(),
'generator': generator,
'num_inference_steps': 2,
'output_type': 'numpy',
}
return inputs
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = 'cpu'
_UpperCAmelCase = self.get_dummy_components()
_UpperCAmelCase = self.pipeline_class(**UpperCAmelCase )
pipe.to(UpperCAmelCase )
pipe.set_progress_bar_config(disable=UpperCAmelCase )
_UpperCAmelCase = self.get_dummy_inputs(UpperCAmelCase )
_UpperCAmelCase = pipe(**UpperCAmelCase ).images
_UpperCAmelCase = image[0, -3:, -3:, -1]
self.assertEqual(image.shape , (1, 256, 256, 3) )
_UpperCAmelCase = np.array(
[0.47_22_24_12, 0.41_92_16_33, 0.44_71_74_34, 0.46_87_41_92, 0.42_58_82_58, 0.46_15_07_26, 0.4_67_75_34, 0.45_58_38_32, 0.48_57_90_55] )
_UpperCAmelCase = np.abs(image_slice.flatten() - expected_slice ).max()
self.assertLessEqual(UpperCAmelCase , 1e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
super().test_attention_slicing_forward_pass(expected_max_diff=7e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
super().test_cpu_offload_forward_pass(expected_max_diff=3e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
super().test_dict_tuple_outputs_equivalent(expected_max_difference=3e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
super().test_inference_batch_single_identical(expected_max_diff=7e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
super().test_pt_np_pil_outputs_equivalent(expected_max_diff=3e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
super().test_save_load_local(expected_max_difference=3e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
super().test_save_load_optional_components(expected_max_difference=3e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = [
'DDIMScheduler',
'DDPMScheduler',
'PNDMScheduler',
'HeunDiscreteScheduler',
'EulerAncestralDiscreteScheduler',
'KDPM2DiscreteScheduler',
'KDPM2AncestralDiscreteScheduler',
'DPMSolverSDEScheduler',
]
_UpperCAmelCase = self.get_dummy_components()
_UpperCAmelCase = self.pipeline_class(**UpperCAmelCase )
# make sure that PNDM does not need warm-up
pipe.scheduler.register_to_config(skip_prk_steps=UpperCAmelCase )
pipe.to(UpperCAmelCase )
pipe.set_progress_bar_config(disable=UpperCAmelCase )
_UpperCAmelCase = self.get_dummy_inputs(UpperCAmelCase )
_UpperCAmelCase = 2
_UpperCAmelCase = []
for scheduler_enum in KarrasDiffusionSchedulers:
if scheduler_enum.name in skip_schedulers:
# no sigma schedulers are not supported
# no schedulers
continue
_UpperCAmelCase = getattr(UpperCAmelCase , scheduler_enum.name )
_UpperCAmelCase = scheduler_cls.from_config(pipe.scheduler.config )
_UpperCAmelCase = pipe(**UpperCAmelCase )[0]
outputs.append(UpperCAmelCase )
assert check_same_shape(UpperCAmelCase )
@require_torch_gpu
@slow
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = torch.manual_seed(33 )
_UpperCAmelCase = StableDiffusionPipeline.from_pretrained('CompVis/stable-diffusion-v1-4' , torch_dtype=torch.floataa )
pipe.to('cuda' )
_UpperCAmelCase = StableDiffusionLatentUpscalePipeline.from_pretrained(
'stabilityai/sd-x2-latent-upscaler' , torch_dtype=torch.floataa )
upscaler.to('cuda' )
_UpperCAmelCase = 'a photo of an astronaut high resolution, unreal engine, ultra realistic'
_UpperCAmelCase = pipe(UpperCAmelCase , generator=UpperCAmelCase , output_type='latent' ).images
_UpperCAmelCase = upscaler(
prompt=UpperCAmelCase , image=UpperCAmelCase , num_inference_steps=20 , guidance_scale=0 , generator=UpperCAmelCase , output_type='np' , ).images[0]
_UpperCAmelCase = load_numpy(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/latent-upscaler/astronaut_1024.npy' )
assert np.abs((expected_image - image).mean() ) < 5e-2
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = torch.manual_seed(33 )
_UpperCAmelCase = StableDiffusionLatentUpscalePipeline.from_pretrained(
'stabilityai/sd-x2-latent-upscaler' , torch_dtype=torch.floataa )
upscaler.to('cuda' )
_UpperCAmelCase = 'the temple of fire by Ross Tran and Gerardo Dottori, oil on canvas'
_UpperCAmelCase = load_image(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/latent-upscaler/fire_temple_512.png' )
_UpperCAmelCase = upscaler(
prompt=UpperCAmelCase , image=UpperCAmelCase , num_inference_steps=20 , guidance_scale=0 , generator=UpperCAmelCase , output_type='np' , ).images[0]
_UpperCAmelCase = load_numpy(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/latent-upscaler/fire_temple_1024.npy' )
assert np.abs((expected_image - image).max() ) < 5e-2
| 39
|
import json
import logging
import os
import sys
from pathlib import Path
import finetune_rag
from transformers.file_utils import is_apex_available
from transformers.testing_utils import (
TestCasePlus,
execute_subprocess_async,
require_ray,
require_torch_gpu,
require_torch_multi_gpu,
)
logging.basicConfig(level=logging.DEBUG)
_a = logging.getLogger()
_a = logging.StreamHandler(sys.stdout)
logger.addHandler(stream_handler)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
os.makedirs(UpperCAmelCase , exist_ok=UpperCAmelCase )
_UpperCAmelCase = {'source': 'What is love ?', 'target': 'life'}
_UpperCAmelCase = {'train': 12, 'val': 2, 'test': 2}
for split in ["train", "test", "val"]:
for field in ["source", "target"]:
_UpperCAmelCase = '\n'.join([contents[field]] * n_lines[split] )
with open(os.path.join(UpperCAmelCase , F"""{split}.{field}""" ) , 'w' ) as f:
f.write(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase = "pytorch" ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'output' )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'data' )
self._create_dummy_data(data_dir=UpperCAmelCase )
_UpperCAmelCase = F"""
--data_dir {data_dir} \
--output_dir {output_dir} \
--model_name_or_path facebook/rag-sequence-base \
--model_type rag_sequence \
--do_train \
--do_predict \
--n_val -1 \
--val_check_interval 1.0 \
--train_batch_size 2 \
--eval_batch_size 1 \
--max_source_length 25 \
--max_target_length 25 \
--val_max_target_length 25 \
--test_max_target_length 25 \
--label_smoothing 0.1 \
--dropout 0.1 \
--attention_dropout 0.1 \
--weight_decay 0.001 \
--adam_epsilon 1e-08 \
--max_grad_norm 0.1 \
--lr_scheduler polynomial \
--learning_rate 3e-04 \
--num_train_epochs 1 \
--warmup_steps 4 \
--gradient_accumulation_steps 1 \
--distributed-port 8787 \
--use_dummy_dataset 1 \
--distributed_retriever {distributed_retriever} \
""".split()
if gpus > 0:
testargs.append(F"""--gpus={gpus}""" )
if is_apex_available():
testargs.append('--fp16' )
else:
testargs.append('--gpus=0' )
testargs.append('--distributed_backend=ddp_cpu' )
testargs.append('--num_processes=2' )
_UpperCAmelCase = [sys.executable, str(Path(finetune_rag.__file__ ).resolve() )] + testargs
execute_subprocess_async(UpperCAmelCase , env=self.get_env() )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'metrics.json' )
with open(UpperCAmelCase ) as f:
_UpperCAmelCase = json.load(UpperCAmelCase )
return result
@require_torch_gpu
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_multi_gpu
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=2 )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_gpu
@require_ray
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 , distributed_retriever='ray' )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_multi_gpu
@require_ray
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 , distributed_retriever='ray' )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
| 39
| 1
|
import copy
import os
import tempfile
from unittest import TestCase
from unittest.mock import patch
import numpy as np
import pyarrow as pa
import pyarrow.parquet as pq
import pytest
from datasets.arrow_writer import ArrowWriter, OptimizedTypedSequence, ParquetWriter, TypedSequence
from datasets.features import ArrayaD, ClassLabel, Features, Image, Value
from datasets.features.features import ArrayaDExtensionType, cast_to_python_objects
from datasets.keyhash import DuplicatedKeysError, InvalidKeyError
from .utils import require_pil
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pa.array(TypedSequence([1, 2, 3] ) )
self.assertEqual(arr.type , pa.intaa() )
def UpperCamelCase ( self ):
"""simple docstring"""
with self.assertRaises(UpperCAmelCase ):
_UpperCAmelCase = pa.array(TypedSequence([1, 2, 3] ) , type=pa.intaa() )
def UpperCamelCase ( self ):
"""simple docstring"""
with self.assertRaises(UpperCAmelCase ):
_UpperCAmelCase = pa.array(TypedSequence([1, 2, 3] , try_type=Value('bool' ) , type=Value('int64' ) ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pa.array(TypedSequence([1, 2, 3] , type=Value('int32' ) ) )
self.assertEqual(arr.type , pa.intaa() )
def UpperCamelCase ( self ):
"""simple docstring"""
with self.assertRaises((TypeError, pa.lib.ArrowInvalid) ):
_UpperCAmelCase = pa.array(TypedSequence(['foo', 'bar'] , type=Value('int64' ) ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pa.array(TypedSequence([1, 2, 3] , try_type=Value('int32' ) ) )
self.assertEqual(arr.type , pa.intaa() )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pa.array(TypedSequence(['foo', 'bar'] , try_type=Value('int64' ) ) )
self.assertEqual(arr.type , pa.string() )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pa.array(TypedSequence([[[1, 2, 3]]] , type=ArrayaD((1, 3) , 'int64' ) ) )
self.assertEqual(arr.type , ArrayaDExtensionType((1, 3) , 'int64' ) )
def UpperCamelCase ( self ):
"""simple docstring"""
with self.assertRaises((TypeError, pa.lib.ArrowInvalid) ):
_UpperCAmelCase = pa.array(TypedSequence(['foo', 'bar'] , type=ArrayaD((1, 3) , 'int64' ) ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pa.array(TypedSequence([[[1, 2, 3]]] , try_type=ArrayaD((1, 3) , 'int64' ) ) )
self.assertEqual(arr.type , ArrayaDExtensionType((1, 3) , 'int64' ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pa.array(TypedSequence(['foo', 'bar'] , try_type=ArrayaD((1, 3) , 'int64' ) ) )
self.assertEqual(arr.type , pa.string() )
@require_pil
def UpperCamelCase ( self ):
"""simple docstring"""
import PIL.Image
_UpperCAmelCase = PIL.Image.fromarray(np.arange(10 , dtype=np.uinta ).reshape(2 , 5 ) )
with patch(
'datasets.arrow_writer.cast_to_python_objects' , side_effect=UpperCAmelCase ) as mock_cast_to_python_objects:
_UpperCAmelCase = pa.array(TypedSequence([{'path': None, 'bytes': b'image_bytes'}, pil_image] , type=Image() ) )
_UpperCAmelCase , _UpperCAmelCase = mock_cast_to_python_objects.call_args_list[-1]
self.assertIn('optimize_list_casting' , UpperCAmelCase )
self.assertFalse(kwargs['optimize_list_casting'] )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[str]:
"""simple docstring"""
_UpperCAmelCase = pa.BufferReader(__lowerCAmelCase ) if isinstance(__lowerCAmelCase , pa.Buffer ) else pa.memory_map(__lowerCAmelCase )
_UpperCAmelCase = pa.ipc.open_stream(__lowerCAmelCase )
_UpperCAmelCase = f.read_all()
assert len(pa_table.to_batches() ) == expected_num_chunks
assert pa_table.to_pydict() == {"col_1": ["foo", "bar"], "col_2": [1, 2]}
del pa_table
@pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] )
@pytest.mark.parametrize(
'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[str]:
"""simple docstring"""
_UpperCAmelCase = pa.BufferOutputStream()
_UpperCAmelCase = pa.schema(__lowerCAmelCase ) if fields else None
with ArrowWriter(stream=__lowerCAmelCase , schema=__lowerCAmelCase , writer_batch_size=__lowerCAmelCase ) as writer:
writer.write({'col_1': 'foo', 'col_2': 1} )
writer.write({'col_1': 'bar', 'col_2': 2} )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
assert num_examples == 2
assert num_bytes > 0
if not fields:
_UpperCAmelCase = {'col_1': pa.string(), 'col_2': pa.intaa()}
assert writer._schema == pa.schema(__lowerCAmelCase , metadata=writer._schema.metadata )
_check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 )
def __A ( )-> Union[str, Any]:
"""simple docstring"""
_UpperCAmelCase = pa.BufferOutputStream()
_UpperCAmelCase = Features({'labels': ClassLabel(names=['neg', 'pos'] )} )
with ArrowWriter(stream=__lowerCAmelCase , features=__lowerCAmelCase ) as writer:
writer.write({'labels': 0} )
writer.write({'labels': 1} )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
assert num_examples == 2
assert num_bytes > 0
assert writer._schema == features.arrow_schema
assert writer._schema.metadata == features.arrow_schema.metadata
_UpperCAmelCase = pa.BufferReader(output.getvalue() )
_UpperCAmelCase = pa.ipc.open_stream(__lowerCAmelCase )
_UpperCAmelCase = f.read_all()
_UpperCAmelCase = pa_table.schema
assert pa_table.num_rows == 2
assert schema == features.arrow_schema
assert schema.metadata == features.arrow_schema.metadata
assert features == Features.from_arrow_schema(__lowerCAmelCase )
@pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] )
def __A ( __lowerCAmelCase )-> Dict:
"""simple docstring"""
_UpperCAmelCase = pa.BufferOutputStream()
with ArrowWriter(
stream=__lowerCAmelCase , writer_batch_size=__lowerCAmelCase , hash_salt='split_name' , check_duplicates=__lowerCAmelCase , ) as writer:
with pytest.raises(__lowerCAmelCase ):
writer.write({'col_1': 'foo', 'col_2': 1} , key=[1, 2] )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
@pytest.mark.parametrize('writer_batch_size' , [None, 2, 10] )
def __A ( __lowerCAmelCase )-> Any:
"""simple docstring"""
_UpperCAmelCase = pa.BufferOutputStream()
with ArrowWriter(
stream=__lowerCAmelCase , writer_batch_size=__lowerCAmelCase , hash_salt='split_name' , check_duplicates=__lowerCAmelCase , ) as writer:
with pytest.raises(__lowerCAmelCase ):
writer.write({'col_1': 'foo', 'col_2': 1} , key=10 )
writer.write({'col_1': 'bar', 'col_2': 2} , key=10 )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
@pytest.mark.parametrize('writer_batch_size' , [None, 2, 10] )
def __A ( __lowerCAmelCase )-> Any:
"""simple docstring"""
_UpperCAmelCase = pa.BufferOutputStream()
with ArrowWriter(
stream=__lowerCAmelCase , writer_batch_size=__lowerCAmelCase , hash_salt='split_name' , check_duplicates=__lowerCAmelCase , ) as writer:
writer.write({'col_1': 'foo', 'col_2': 1} , key=1 )
writer.write({'col_1': 'bar', 'col_2': 2} , key=2 )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
assert num_examples == 2
assert num_bytes > 0
_check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 )
@pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] )
@pytest.mark.parametrize(
'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Optional[int]:
"""simple docstring"""
_UpperCAmelCase = pa.BufferOutputStream()
_UpperCAmelCase = pa.schema(__lowerCAmelCase ) if fields else None
with ArrowWriter(stream=__lowerCAmelCase , schema=__lowerCAmelCase , writer_batch_size=__lowerCAmelCase ) as writer:
writer.write_batch({'col_1': ['foo', 'bar'], 'col_2': [1, 2]} )
writer.write_batch({'col_1': [], 'col_2': []} )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
assert num_examples == 2
assert num_bytes > 0
if not fields:
_UpperCAmelCase = {'col_1': pa.string(), 'col_2': pa.intaa()}
assert writer._schema == pa.schema(__lowerCAmelCase , metadata=writer._schema.metadata )
_check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 )
@pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] )
@pytest.mark.parametrize(
'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = pa.BufferOutputStream()
_UpperCAmelCase = pa.schema(__lowerCAmelCase ) if fields else None
with ArrowWriter(stream=__lowerCAmelCase , schema=__lowerCAmelCase , writer_batch_size=__lowerCAmelCase ) as writer:
writer.write_table(pa.Table.from_pydict({'col_1': ['foo', 'bar'], 'col_2': [1, 2]} ) )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
assert num_examples == 2
assert num_bytes > 0
if not fields:
_UpperCAmelCase = {'col_1': pa.string(), 'col_2': pa.intaa()}
assert writer._schema == pa.schema(__lowerCAmelCase , metadata=writer._schema.metadata )
_check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 )
@pytest.mark.parametrize('writer_batch_size' , [None, 1, 10] )
@pytest.mark.parametrize(
'fields' , [None, {'col_1': pa.string(), 'col_2': pa.intaa()}, {'col_1': pa.string(), 'col_2': pa.intaa()}] )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[str]:
"""simple docstring"""
_UpperCAmelCase = pa.BufferOutputStream()
_UpperCAmelCase = pa.schema(__lowerCAmelCase ) if fields else None
with ArrowWriter(stream=__lowerCAmelCase , schema=__lowerCAmelCase , writer_batch_size=__lowerCAmelCase ) as writer:
writer.write_row(pa.Table.from_pydict({'col_1': ['foo'], 'col_2': [1]} ) )
writer.write_row(pa.Table.from_pydict({'col_1': ['bar'], 'col_2': [2]} ) )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
assert num_examples == 2
assert num_bytes > 0
if not fields:
_UpperCAmelCase = {'col_1': pa.string(), 'col_2': pa.intaa()}
assert writer._schema == pa.schema(__lowerCAmelCase , metadata=writer._schema.metadata )
_check_output(output.getvalue() , expected_num_chunks=num_examples if writer_batch_size == 1 else 1 )
def __A ( )-> int:
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmp_dir:
_UpperCAmelCase = {'col_1': pa.string(), 'col_2': pa.intaa()}
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'test.arrow' )
with ArrowWriter(path=__lowerCAmelCase , schema=pa.schema(__lowerCAmelCase ) ) as writer:
writer.write_batch({'col_1': ['foo', 'bar'], 'col_2': [1, 2]} )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
assert num_examples == 2
assert num_bytes > 0
assert writer._schema == pa.schema(__lowerCAmelCase , metadata=writer._schema.metadata )
_check_output(__lowerCAmelCase , 1 )
def __A ( __lowerCAmelCase )-> Tuple:
"""simple docstring"""
if pa.types.is_list(__lowerCAmelCase ):
return get_base_dtype(arr_type.value_type )
else:
return arr_type
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Dict:
"""simple docstring"""
if isinstance(lst[0] , __lowerCAmelCase ):
change_first_primitive_element_in_list(lst[0] , __lowerCAmelCase )
else:
_UpperCAmelCase = value
@pytest.mark.parametrize('optimized_int_type, expected_dtype' , [(None, pa.intaa()), (Value('int32' ), pa.intaa())] )
@pytest.mark.parametrize('sequence' , [[1, 2, 3], [[1, 2, 3]], [[[1, 2, 3]]]] )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
_UpperCAmelCase = pa.array(TypedSequence(__lowerCAmelCase , optimized_int_type=__lowerCAmelCase ) )
assert get_base_dtype(arr.type ) == expected_dtype
@pytest.mark.parametrize(
'col, expected_dtype' , [
('attention_mask', pa.inta()),
('special_tokens_mask', pa.inta()),
('token_type_ids', pa.inta()),
('input_ids', pa.intaa()),
('other', pa.intaa()),
] , )
@pytest.mark.parametrize('sequence' , [[1, 2, 3], [[1, 2, 3]], [[[1, 2, 3]]]] )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> Any:
"""simple docstring"""
_UpperCAmelCase = pa.array(OptimizedTypedSequence(__lowerCAmelCase , col=__lowerCAmelCase ) )
assert get_base_dtype(arr.type ) == expected_dtype
# not in range
if col != "other":
# avoids errors due to in-place modifications
_UpperCAmelCase = copy.deepcopy(__lowerCAmelCase )
_UpperCAmelCase = np.iinfo(expected_dtype.to_pandas_dtype() ).max + 1
change_first_primitive_element_in_list(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = pa.array(OptimizedTypedSequence(__lowerCAmelCase , col=__lowerCAmelCase ) )
assert get_base_dtype(arr.type ) == pa.intaa()
@pytest.mark.parametrize('raise_exception' , [False, True] )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = str(tmp_path / 'dataset-train.arrow' )
try:
with ArrowWriter(path=__lowerCAmelCase ) as writer:
if raise_exception:
raise pa.lib.ArrowInvalid()
else:
writer.stream.close()
except pa.lib.ArrowInvalid:
pass
finally:
assert writer.stream.closed
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = 'mock://dataset-train.arrow'
with ArrowWriter(path=__lowerCAmelCase , storage_options=mockfs.storage_options ) as writer:
assert isinstance(writer._fs , type(__lowerCAmelCase ) )
assert writer._fs.storage_options == mockfs.storage_options
writer.write({'col_1': 'foo', 'col_2': 1} )
writer.write({'col_1': 'bar', 'col_2': 2} )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
assert num_examples == 2
assert num_bytes > 0
assert mockfs.exists(__lowerCAmelCase )
def __A ( )-> Any:
"""simple docstring"""
_UpperCAmelCase = pa.BufferOutputStream()
with ParquetWriter(stream=__lowerCAmelCase ) as writer:
writer.write({'col_1': 'foo', 'col_2': 1} )
writer.write({'col_1': 'bar', 'col_2': 2} )
_UpperCAmelCase , _UpperCAmelCase = writer.finalize()
assert num_examples == 2
assert num_bytes > 0
_UpperCAmelCase = pa.BufferReader(output.getvalue() )
_UpperCAmelCase = pq.read_table(__lowerCAmelCase )
assert pa_table.to_pydict() == {"col_1": ["foo", "bar"], "col_2": [1, 2]}
@require_pil
@pytest.mark.parametrize('embed_local_files' , [False, True] )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> str:
"""simple docstring"""
import PIL.Image
_UpperCAmelCase = str(tmp_path / 'test_image_rgb.jpg' )
PIL.Image.fromarray(np.zeros((5, 5) , dtype=np.uinta ) ).save(__lowerCAmelCase , format='png' )
_UpperCAmelCase = pa.BufferOutputStream()
with ParquetWriter(
stream=__lowerCAmelCase , features=Features({'image': Image()} ) , embed_local_files=__lowerCAmelCase ) as writer:
writer.write({'image': image_path} )
writer.finalize()
_UpperCAmelCase = pa.BufferReader(output.getvalue() )
_UpperCAmelCase = pq.read_table(__lowerCAmelCase )
_UpperCAmelCase = pa_table.to_pydict()
if embed_local_files:
assert isinstance(out['image'][0]['path'] , __lowerCAmelCase )
with open(__lowerCAmelCase , 'rb' ) as f:
assert out["image"][0]["bytes"] == f.read()
else:
assert out["image"][0]["path"] == image_path
assert out["image"][0]["bytes"] is None
def __A ( )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = pa.schema([pa.field('col_1' , pa.string() , nullable=__lowerCAmelCase )] )
_UpperCAmelCase = pa.BufferOutputStream()
with ArrowWriter(stream=__lowerCAmelCase ) as writer:
writer._build_writer(inferred_schema=__lowerCAmelCase )
assert writer._schema == pa.schema([pa.field('col_1' , pa.string() )] )
| 39
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
_UpperCAmelCase = {} # Mapping from char to TrieNode
_UpperCAmelCase = False
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for word in words:
self.insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self
for char in word:
if char not in curr.nodes:
_UpperCAmelCase = TrieNode()
_UpperCAmelCase = curr.nodes[char]
_UpperCAmelCase = True
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self
for char in word:
if char not in curr.nodes:
return False
_UpperCAmelCase = curr.nodes[char]
return curr.is_leaf
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
def _delete(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) -> bool:
if index == len(UpperCAmelCase ):
# If word does not exist
if not curr.is_leaf:
return False
_UpperCAmelCase = False
return len(curr.nodes ) == 0
_UpperCAmelCase = word[index]
_UpperCAmelCase = curr.nodes.get(UpperCAmelCase )
# If char not in current trie node
if not char_node:
return False
# Flag to check if node can be deleted
_UpperCAmelCase = _delete(UpperCAmelCase , UpperCAmelCase , index + 1 )
if delete_curr:
del curr.nodes[char]
return len(curr.nodes ) == 0
return delete_curr
_delete(self , UpperCAmelCase , 0 )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
if node.is_leaf:
print(__lowerCAmelCase , end=' ' )
for key, value in node.nodes.items():
print_words(__lowerCAmelCase , word + key )
def __A ( )-> bool:
"""simple docstring"""
_UpperCAmelCase = 'banana bananas bandana band apple all beast'.split()
_UpperCAmelCase = TrieNode()
root.insert_many(__lowerCAmelCase )
# print_words(root, "")
assert all(root.find(__lowerCAmelCase ) for word in words )
assert root.find('banana' )
assert not root.find('bandanas' )
assert not root.find('apps' )
assert root.find('apple' )
assert root.find('all' )
root.delete('all' )
assert not root.find('all' )
root.delete('banana' )
assert not root.find('banana' )
assert root.find('bananas' )
return True
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
print(str(__lowerCAmelCase ) , 'works!' if passes else 'doesn\'t work :(' )
def __A ( )-> None:
"""simple docstring"""
assert test_trie()
def __A ( )-> None:
"""simple docstring"""
print_results('Testing trie functionality' , test_trie() )
if __name__ == "__main__":
main()
| 39
| 1
|
import warnings
from contextlib import contextmanager
from ....processing_utils import ProcessorMixin
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "MCTCTFeatureExtractor"
UpperCamelCase__ = "AutoTokenizer"
def __init__( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
super().__init__(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self.feature_extractor
_UpperCAmelCase = False
def __call__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
if self._in_target_context_manager:
return self.current_processor(*UpperCAmelCase , **UpperCAmelCase )
if "raw_speech" in kwargs:
warnings.warn('Using `raw_speech` as a keyword argument is deprecated. Use `audio` instead.' )
_UpperCAmelCase = kwargs.pop('raw_speech' )
else:
_UpperCAmelCase = kwargs.pop('audio' , UpperCAmelCase )
_UpperCAmelCase = kwargs.pop('sampling_rate' , UpperCAmelCase )
_UpperCAmelCase = kwargs.pop('text' , UpperCAmelCase )
if len(UpperCAmelCase ) > 0:
_UpperCAmelCase = args[0]
_UpperCAmelCase = args[1:]
if audio is None and text is None:
raise ValueError('You need to specify either an `audio` or `text` input to process.' )
if audio is not None:
_UpperCAmelCase = self.feature_extractor(UpperCAmelCase , *UpperCAmelCase , sampling_rate=UpperCAmelCase , **UpperCAmelCase )
if text is not None:
_UpperCAmelCase = self.tokenizer(UpperCAmelCase , **UpperCAmelCase )
if text is None:
return inputs
elif audio is None:
return encodings
else:
_UpperCAmelCase = encodings['input_ids']
return inputs
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.batch_decode(*UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
if self._in_target_context_manager:
return self.current_processor.pad(*UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = kwargs.pop('input_features' , UpperCAmelCase )
_UpperCAmelCase = kwargs.pop('labels' , UpperCAmelCase )
if len(UpperCAmelCase ) > 0:
_UpperCAmelCase = args[0]
_UpperCAmelCase = args[1:]
if input_features is not None:
_UpperCAmelCase = self.feature_extractor.pad(UpperCAmelCase , *UpperCAmelCase , **UpperCAmelCase )
if labels is not None:
_UpperCAmelCase = self.tokenizer.pad(UpperCAmelCase , **UpperCAmelCase )
if labels is None:
return input_features
elif input_features is None:
return labels
else:
_UpperCAmelCase = labels['input_ids']
return input_features
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.decode(*UpperCAmelCase , **UpperCAmelCase )
@contextmanager
def UpperCamelCase ( self ):
"""simple docstring"""
warnings.warn(
'`as_target_processor` is deprecated and will be removed in v5 of Transformers. You can process your '
'labels by using the argument `text` of the regular `__call__` method (either in the same call as '
'your audio inputs, or in a separate call.' )
_UpperCAmelCase = True
_UpperCAmelCase = self.tokenizer
yield
_UpperCAmelCase = self.feature_extractor
_UpperCAmelCase = False
| 39
|
import unittest
from transformers import (
MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
Pipeline,
ZeroShotClassificationPipeline,
pipeline,
)
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_tf, require_torch, slow
from .test_pipelines_common import ANY
# These 2 model types require different inputs than those of the usual text models.
_a = {'''LayoutLMv2Config''', '''LayoutLMv3Config'''}
@is_pipeline_test
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
UpperCamelCase__ = TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
if model_mapping is not None:
UpperCamelCase__ = {config: model for config, model in model_mapping.items() if config.__name__ not in _TO_SKIP}
if tf_model_mapping is not None:
UpperCamelCase__ = {
config: model for config, model in tf_model_mapping.items() if config.__name__ not in _TO_SKIP
}
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = ZeroShotClassificationPipeline(
model=UpperCAmelCase , tokenizer=UpperCAmelCase , candidate_labels=['polics', 'health'] )
return classifier, ["Who are you voting for in 2020?", "My stomach hurts."]
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels='politics' )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
# No kwarg
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , ['politics'] )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels=['politics'] )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels='politics, public health' )
self.assertEqual(
UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]} )
self.assertAlmostEqual(sum(nested_simplify(outputs['scores'] ) ) , 1.0 )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels=['politics', 'public health'] )
self.assertEqual(
UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]} )
self.assertAlmostEqual(sum(nested_simplify(outputs['scores'] ) ) , 1.0 )
_UpperCAmelCase = classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template='This text is about {}' )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
# https://github.com/huggingface/transformers/issues/13846
_UpperCAmelCase = classifier(['I am happy'] , ['positive', 'negative'] )
self.assertEqual(
UpperCAmelCase , [
{'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]}
for i in range(1 )
] , )
_UpperCAmelCase = classifier(['I am happy', 'I am sad'] , ['positive', 'negative'] )
self.assertEqual(
UpperCAmelCase , [
{'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]}
for i in range(2 )
] , )
with self.assertRaises(UpperCAmelCase ):
classifier('' , candidate_labels='politics' )
with self.assertRaises(UpperCAmelCase ):
classifier(UpperCAmelCase , candidate_labels='politics' )
with self.assertRaises(UpperCAmelCase ):
classifier('Who are you voting for in 2020?' , candidate_labels='' )
with self.assertRaises(UpperCAmelCase ):
classifier('Who are you voting for in 2020?' , candidate_labels=UpperCAmelCase )
with self.assertRaises(UpperCAmelCase ):
classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template='Not formatting template' , )
with self.assertRaises(UpperCAmelCase ):
classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template=UpperCAmelCase , )
self.run_entailment_id(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = zero_shot_classifier.model.config
_UpperCAmelCase = config.labelaid
_UpperCAmelCase = zero_shot_classifier.entailment_id
_UpperCAmelCase = {'LABEL_0': 0, 'LABEL_1': 1, 'LABEL_2': 2}
self.assertEqual(zero_shot_classifier.entailment_id , -1 )
_UpperCAmelCase = {'entailment': 0, 'neutral': 1, 'contradiction': 2}
self.assertEqual(zero_shot_classifier.entailment_id , 0 )
_UpperCAmelCase = {'ENTAIL': 0, 'NON-ENTAIL': 1}
self.assertEqual(zero_shot_classifier.entailment_id , 0 )
_UpperCAmelCase = {'ENTAIL': 2, 'NEUTRAL': 1, 'CONTR': 0}
self.assertEqual(zero_shot_classifier.entailment_id , 2 )
_UpperCAmelCase = original_labelaid
self.assertEqual(UpperCAmelCase , zero_shot_classifier.entailment_id )
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='pt' , )
# There was a regression in 4.10 for this
# Adding a test so we don't make the mistake again.
# https://github.com/huggingface/transformers/issues/13381#issuecomment-912343499
zero_shot_classifier(
'Who are you voting for in 2020?' * 100 , candidate_labels=['politics', 'public health', 'science'] )
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='pt' , )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['science', 'public health', 'politics'],
'scores': [0.3_33, 0.3_33, 0.3_33],
} , )
@require_tf
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='tf' , )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['science', 'public health', 'politics'],
'scores': [0.3_33, 0.3_33, 0.3_33],
} , )
@slow
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline('zero-shot-classification' , model='roberta-large-mnli' , framework='pt' )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['politics', 'public health', 'science'],
'scores': [0.9_76, 0.0_15, 0.0_09],
} , )
_UpperCAmelCase = zero_shot_classifier(
'The dominant sequence transduction models are based on complex recurrent or convolutional neural networks'
' in an encoder-decoder configuration. The best performing models also connect the encoder and decoder'
' through an attention mechanism. We propose a new simple network architecture, the Transformer, based'
' solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two'
' machine translation tasks show these models to be superior in quality while being more parallelizable'
' and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014'
' English-to-German translation task, improving over the existing best results, including ensembles by'
' over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new'
' single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small'
' fraction of the training costs of the best models from the literature. We show that the Transformer'
' generalizes well to other tasks by applying it successfully to English constituency parsing both with'
' large and limited training data.' , candidate_labels=['machine learning', 'statistics', 'translation', 'vision'] , multi_label=UpperCAmelCase , )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': (
'The dominant sequence transduction models are based on complex recurrent or convolutional neural'
' networks in an encoder-decoder configuration. The best performing models also connect the'
' encoder and decoder through an attention mechanism. We propose a new simple network'
' architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence'
' and convolutions entirely. Experiments on two machine translation tasks show these models to be'
' superior in quality while being more parallelizable and requiring significantly less time to'
' train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task,'
' improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014'
' English-to-French translation task, our model establishes a new single-model state-of-the-art'
' BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training'
' costs of the best models from the literature. We show that the Transformer generalizes well to'
' other tasks by applying it successfully to English constituency parsing both with large and'
' limited training data.'
),
'labels': ['translation', 'machine learning', 'vision', 'statistics'],
'scores': [0.8_17, 0.7_13, 0.0_18, 0.0_18],
} , )
@slow
@require_tf
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline('zero-shot-classification' , model='roberta-large-mnli' , framework='tf' )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['politics', 'public health', 'science'],
'scores': [0.9_76, 0.0_15, 0.0_09],
} , )
_UpperCAmelCase = zero_shot_classifier(
'The dominant sequence transduction models are based on complex recurrent or convolutional neural networks'
' in an encoder-decoder configuration. The best performing models also connect the encoder and decoder'
' through an attention mechanism. We propose a new simple network architecture, the Transformer, based'
' solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two'
' machine translation tasks show these models to be superior in quality while being more parallelizable'
' and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014'
' English-to-German translation task, improving over the existing best results, including ensembles by'
' over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new'
' single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small'
' fraction of the training costs of the best models from the literature. We show that the Transformer'
' generalizes well to other tasks by applying it successfully to English constituency parsing both with'
' large and limited training data.' , candidate_labels=['machine learning', 'statistics', 'translation', 'vision'] , multi_label=UpperCAmelCase , )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': (
'The dominant sequence transduction models are based on complex recurrent or convolutional neural'
' networks in an encoder-decoder configuration. The best performing models also connect the'
' encoder and decoder through an attention mechanism. We propose a new simple network'
' architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence'
' and convolutions entirely. Experiments on two machine translation tasks show these models to be'
' superior in quality while being more parallelizable and requiring significantly less time to'
' train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task,'
' improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014'
' English-to-French translation task, our model establishes a new single-model state-of-the-art'
' BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training'
' costs of the best models from the literature. We show that the Transformer generalizes well to'
' other tasks by applying it successfully to English constituency parsing both with large and'
' limited training data.'
),
'labels': ['translation', 'machine learning', 'vision', 'statistics'],
'scores': [0.8_17, 0.7_13, 0.0_18, 0.0_18],
} , )
| 39
| 1
|
import copy
import random
from transformers import CLIPTokenizer
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
super().__init__(*UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = {}
def UpperCamelCase ( self , UpperCAmelCase , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = super().add_tokens(UpperCAmelCase , *UpperCAmelCase , **UpperCAmelCase )
if num_added_tokens == 0:
raise ValueError(
F"""The tokenizer already contains the token {placeholder_token}. Please pass a different"""
' `placeholder_token` that is not already in the tokenizer.' )
def UpperCamelCase ( self , UpperCAmelCase , *UpperCAmelCase , UpperCAmelCase=1 , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = []
if num_vec_per_token == 1:
self.try_adding_tokens(UpperCAmelCase , *UpperCAmelCase , **UpperCAmelCase )
output.append(UpperCAmelCase )
else:
_UpperCAmelCase = []
for i in range(UpperCAmelCase ):
_UpperCAmelCase = placeholder_token + F"""_{i}"""
self.try_adding_tokens(UpperCAmelCase , *UpperCAmelCase , **UpperCAmelCase )
output.append(UpperCAmelCase )
# handle cases where there is a new placeholder token that contains the current placeholder token but is larger
for token in self.token_map:
if token in placeholder_token:
raise ValueError(
F"""The tokenizer already has placeholder token {token} that can get confused with"""
F""" {placeholder_token}keep placeholder tokens independent""" )
_UpperCAmelCase = output
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=False , UpperCAmelCase=1.0 ):
"""simple docstring"""
if isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = []
for i in range(len(UpperCAmelCase ) ):
output.append(self.replace_placeholder_tokens_in_text(text[i] , vector_shuffle=UpperCAmelCase ) )
return output
for placeholder_token in self.token_map:
if placeholder_token in text:
_UpperCAmelCase = self.token_map[placeholder_token]
_UpperCAmelCase = tokens[: 1 + int(len(UpperCAmelCase ) * prop_tokens_to_load )]
if vector_shuffle:
_UpperCAmelCase = copy.copy(UpperCAmelCase )
random.shuffle(UpperCAmelCase )
_UpperCAmelCase = text.replace(UpperCAmelCase , ' '.join(UpperCAmelCase ) )
return text
def __call__( self , UpperCAmelCase , *UpperCAmelCase , UpperCAmelCase=False , UpperCAmelCase=1.0 , **UpperCAmelCase ):
"""simple docstring"""
return super().__call__(
self.replace_placeholder_tokens_in_text(
UpperCAmelCase , vector_shuffle=UpperCAmelCase , prop_tokens_to_load=UpperCAmelCase ) , *UpperCAmelCase , **UpperCAmelCase , )
def UpperCamelCase ( self , UpperCAmelCase , *UpperCAmelCase , UpperCAmelCase=False , UpperCAmelCase=1.0 , **UpperCAmelCase ):
"""simple docstring"""
return super().encode(
self.replace_placeholder_tokens_in_text(
UpperCAmelCase , vector_shuffle=UpperCAmelCase , prop_tokens_to_load=UpperCAmelCase ) , *UpperCAmelCase , **UpperCAmelCase , )
| 39
|
import enum
import os
from hashlib import shaaaa
from typing import Optional
from .. import config
from .logging import get_logger
_a = get_logger(__name__)
class __lowerCamelCase ( enum.Enum):
"""simple docstring"""
UpperCamelCase__ = "all_checks"
UpperCamelCase__ = "basic_checks"
UpperCamelCase__ = "no_checks"
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=None )-> str:
"""simple docstring"""
if expected_checksums is None:
logger.info('Unable to verify checksums.' )
return
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise ExpectedMoreDownloadedFiles(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise UnexpectedDownloadedFile(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
_UpperCAmelCase = [url for url in expected_checksums if expected_checksums[url] != recorded_checksums[url]]
_UpperCAmelCase = ' for ' + verification_name if verification_name is not None else ''
if len(__lowerCAmelCase ) > 0:
raise NonMatchingChecksumError(
F"""Checksums didn't match{for_verification_name}:\n"""
F"""{bad_urls}\n"""
'Set `verification_mode=\'no_checks\'` to skip checksums verification and ignore this error' )
logger.info('All the checksums matched successfully' + for_verification_name )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
if expected_splits is None:
logger.info('Unable to verify splits sizes.' )
return
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise ExpectedMoreSplits(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise UnexpectedSplits(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
_UpperCAmelCase = [
{'expected': expected_splits[name], 'recorded': recorded_splits[name]}
for name in expected_splits
if expected_splits[name].num_examples != recorded_splits[name].num_examples
]
if len(__lowerCAmelCase ) > 0:
raise NonMatchingSplitsSizesError(str(__lowerCAmelCase ) )
logger.info('All the splits matched successfully.' )
def __A ( __lowerCAmelCase , __lowerCAmelCase = True )-> dict:
"""simple docstring"""
if record_checksum:
_UpperCAmelCase = shaaaa()
with open(__lowerCAmelCase , 'rb' ) as f:
for chunk in iter(lambda: f.read(1 << 20 ) , b'' ):
m.update(__lowerCAmelCase )
_UpperCAmelCase = m.hexdigest()
else:
_UpperCAmelCase = None
return {"num_bytes": os.path.getsize(__lowerCAmelCase ), "checksum": checksum}
def __A ( __lowerCAmelCase )-> List[str]:
"""simple docstring"""
if dataset_size and config.IN_MEMORY_MAX_SIZE:
return dataset_size < config.IN_MEMORY_MAX_SIZE
else:
return False
| 39
| 1
|
import enum
import os
from hashlib import shaaaa
from typing import Optional
from .. import config
from .logging import get_logger
_a = get_logger(__name__)
class __lowerCamelCase ( enum.Enum):
"""simple docstring"""
UpperCamelCase__ = "all_checks"
UpperCamelCase__ = "basic_checks"
UpperCamelCase__ = "no_checks"
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=None )-> str:
"""simple docstring"""
if expected_checksums is None:
logger.info('Unable to verify checksums.' )
return
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise ExpectedMoreDownloadedFiles(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise UnexpectedDownloadedFile(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
_UpperCAmelCase = [url for url in expected_checksums if expected_checksums[url] != recorded_checksums[url]]
_UpperCAmelCase = ' for ' + verification_name if verification_name is not None else ''
if len(__lowerCAmelCase ) > 0:
raise NonMatchingChecksumError(
F"""Checksums didn't match{for_verification_name}:\n"""
F"""{bad_urls}\n"""
'Set `verification_mode=\'no_checks\'` to skip checksums verification and ignore this error' )
logger.info('All the checksums matched successfully' + for_verification_name )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
if expected_splits is None:
logger.info('Unable to verify splits sizes.' )
return
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise ExpectedMoreSplits(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise UnexpectedSplits(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
_UpperCAmelCase = [
{'expected': expected_splits[name], 'recorded': recorded_splits[name]}
for name in expected_splits
if expected_splits[name].num_examples != recorded_splits[name].num_examples
]
if len(__lowerCAmelCase ) > 0:
raise NonMatchingSplitsSizesError(str(__lowerCAmelCase ) )
logger.info('All the splits matched successfully.' )
def __A ( __lowerCAmelCase , __lowerCAmelCase = True )-> dict:
"""simple docstring"""
if record_checksum:
_UpperCAmelCase = shaaaa()
with open(__lowerCAmelCase , 'rb' ) as f:
for chunk in iter(lambda: f.read(1 << 20 ) , b'' ):
m.update(__lowerCAmelCase )
_UpperCAmelCase = m.hexdigest()
else:
_UpperCAmelCase = None
return {"num_bytes": os.path.getsize(__lowerCAmelCase ), "checksum": checksum}
def __A ( __lowerCAmelCase )-> List[str]:
"""simple docstring"""
if dataset_size and config.IN_MEMORY_MAX_SIZE:
return dataset_size < config.IN_MEMORY_MAX_SIZE
else:
return False
| 39
|
import collections
import inspect
import unittest
from typing import Dict, List, Tuple
from transformers import MaskFormerSwinConfig
from transformers.testing_utils import require_torch, require_torch_multi_gpu, torch_device
from transformers.utils import is_torch_available
from ...test_backbone_common import BackboneTesterMixin
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from torch import nn
from transformers import MaskFormerSwinBackbone
from transformers.models.maskformer import MaskFormerSwinModel
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=13 , UpperCAmelCase=32 , UpperCAmelCase=2 , UpperCAmelCase=3 , UpperCAmelCase=16 , UpperCAmelCase=[1, 2, 1] , UpperCAmelCase=[2, 2, 4] , UpperCAmelCase=2 , UpperCAmelCase=2.0 , UpperCAmelCase=True , UpperCAmelCase=0.0 , UpperCAmelCase=0.0 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=0.02 , UpperCAmelCase=1e-5 , UpperCAmelCase=True , UpperCAmelCase=None , UpperCAmelCase=True , UpperCAmelCase=10 , UpperCAmelCase=8 , UpperCAmelCase=["stage1", "stage2", "stage3"] , UpperCAmelCase=[1, 2, 3] , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = image_size
_UpperCAmelCase = patch_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embed_dim
_UpperCAmelCase = depths
_UpperCAmelCase = num_heads
_UpperCAmelCase = window_size
_UpperCAmelCase = mlp_ratio
_UpperCAmelCase = qkv_bias
_UpperCAmelCase = hidden_dropout_prob
_UpperCAmelCase = attention_probs_dropout_prob
_UpperCAmelCase = drop_path_rate
_UpperCAmelCase = hidden_act
_UpperCAmelCase = use_absolute_embeddings
_UpperCAmelCase = patch_norm
_UpperCAmelCase = layer_norm_eps
_UpperCAmelCase = initializer_range
_UpperCAmelCase = is_training
_UpperCAmelCase = scope
_UpperCAmelCase = use_labels
_UpperCAmelCase = type_sequence_label_size
_UpperCAmelCase = encoder_stride
_UpperCAmelCase = out_features
_UpperCAmelCase = out_indices
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.type_sequence_label_size )
_UpperCAmelCase = self.get_config()
return config, pixel_values, labels
def UpperCamelCase ( self ):
"""simple docstring"""
return MaskFormerSwinConfig(
image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , embed_dim=self.embed_dim , depths=self.depths , num_heads=self.num_heads , window_size=self.window_size , mlp_ratio=self.mlp_ratio , qkv_bias=self.qkv_bias , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , drop_path_rate=self.drop_path_rate , hidden_act=self.hidden_act , use_absolute_embeddings=self.use_absolute_embeddings , path_norm=self.patch_norm , layer_norm_eps=self.layer_norm_eps , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , out_features=self.out_features , out_indices=self.out_indices , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModel(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase )
_UpperCAmelCase = ((config.image_size // config.patch_size) ** 2) // (4 ** (len(config.depths ) - 1))
_UpperCAmelCase = int(config.embed_dim * 2 ** (len(config.depths ) - 1) )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, expected_seq_len, expected_dim) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinBackbone(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase )
# verify feature maps
self.parent.assertEqual(len(result.feature_maps ) , len(config.out_features ) )
self.parent.assertListEqual(list(result.feature_maps[0].shape ) , [13, 16, 16, 16] )
# verify channels
self.parent.assertEqual(len(model.channels ) , len(config.out_features ) )
self.parent.assertListEqual(model.channels , [16, 32, 64] )
# verify ValueError
with self.parent.assertRaises(UpperCAmelCase ):
_UpperCAmelCase = ['stem']
_UpperCAmelCase = MaskFormerSwinBackbone(config=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'pixel_values': pixel_values}
return config, inputs_dict
@require_torch
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (
(
MaskFormerSwinModel,
MaskFormerSwinBackbone,
)
if is_torch_available()
else ()
)
UpperCamelCase__ = {"feature-extraction": MaskFormerSwinModel} if is_torch_available() else {}
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , embed_dim=37 )
@require_torch_multi_gpu
@unittest.skip(
reason=(
'`MaskFormerSwinModel` outputs `hidden_states_spatial_dimensions` which doesn\'t work well with'
' `nn.DataParallel`'
) )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCamelCase ( self ):
"""simple docstring"""
return
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_backbone(*UpperCAmelCase )
@unittest.skip('Swin does not use inputs_embeds' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip('Swin does not support feedforward chunking' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
self.assertIsInstance(model.get_input_embeddings() , (nn.Module) )
_UpperCAmelCase = model.get_output_embeddings()
self.assertTrue(x is None or isinstance(UpperCAmelCase , nn.Linear ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
_UpperCAmelCase = [*signature.parameters.keys()]
_UpperCAmelCase = ['pixel_values']
self.assertListEqual(arg_names[:1] , UpperCAmelCase )
@unittest.skip(reason='MaskFormerSwin is only used as backbone and doesn\'t support output_attentions' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='MaskFormerSwin is only used as an internal backbone' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = model_class(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
with torch.no_grad():
_UpperCAmelCase = model(**self._prepare_for_class(UpperCAmelCase , UpperCAmelCase ) )
_UpperCAmelCase = outputs.hidden_states
_UpperCAmelCase = getattr(
self.model_tester , 'expected_num_hidden_layers' , len(self.model_tester.depths ) + 1 )
self.assertEqual(len(UpperCAmelCase ) , UpperCAmelCase )
# Swin has a different seq_length
_UpperCAmelCase = (
config.patch_size
if isinstance(config.patch_size , collections.abc.Iterable )
else (config.patch_size, config.patch_size)
)
_UpperCAmelCase = (image_size[1] // patch_size[1]) * (image_size[0] // patch_size[0])
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) , [num_patches, self.model_tester.embed_dim] , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = (
self.model_tester.image_size
if isinstance(self.model_tester.image_size , collections.abc.Iterable )
else (self.model_tester.image_size, self.model_tester.image_size)
)
for model_class in self.all_model_classes:
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = 3
_UpperCAmelCase = (
self.model_tester.image_size
if isinstance(self.model_tester.image_size , collections.abc.Iterable )
else (self.model_tester.image_size, self.model_tester.image_size)
)
_UpperCAmelCase = (
config.patch_size
if isinstance(config.patch_size , collections.abc.Iterable )
else (config.patch_size, config.patch_size)
)
_UpperCAmelCase = image_size[0] + patch_size[0] - (image_size[0] % patch_size[0])
_UpperCAmelCase = image_size[1] + patch_size[1] - (image_size[1] % patch_size[1])
for model_class in self.all_model_classes:
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , (padded_height, padded_width) )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , (padded_height, padded_width) )
@unittest.skip(reason='MaskFormerSwin doesn\'t have pretrained checkpoints' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='This will be fixed once MaskFormerSwin is replaced by native Swin' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='This will be fixed once MaskFormerSwin is replaced by native Swin' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
def set_nan_tensor_to_zero(UpperCAmelCase ):
_UpperCAmelCase = 0
return t
def check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase={} ):
with torch.no_grad():
_UpperCAmelCase = model(**UpperCAmelCase , return_dict=UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = model(**UpperCAmelCase , return_dict=UpperCAmelCase , **UpperCAmelCase ).to_tuple()
def recursive_check(UpperCAmelCase , UpperCAmelCase ):
if isinstance(UpperCAmelCase , (List, Tuple) ):
for tuple_iterable_value, dict_iterable_value in zip(UpperCAmelCase , UpperCAmelCase ):
recursive_check(UpperCAmelCase , UpperCAmelCase )
elif isinstance(UpperCAmelCase , UpperCAmelCase ):
for tuple_iterable_value, dict_iterable_value in zip(
tuple_object.values() , dict_object.values() ):
recursive_check(UpperCAmelCase , UpperCAmelCase )
elif tuple_object is None:
return
else:
self.assertTrue(
torch.allclose(
set_nan_tensor_to_zero(UpperCAmelCase ) , set_nan_tensor_to_zero(UpperCAmelCase ) , atol=1e-5 ) , msg=(
'Tuple and dict output are not equal. Difference:'
F""" {torch.max(torch.abs(tuple_object - dict_object ) )}. Tuple has `nan`:"""
F""" {torch.isnan(UpperCAmelCase ).any()} and `inf`: {torch.isinf(UpperCAmelCase )}. Dict has"""
F""" `nan`: {torch.isnan(UpperCAmelCase ).any()} and `inf`: {torch.isinf(UpperCAmelCase )}."""
) , )
recursive_check(UpperCAmelCase , UpperCAmelCase )
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , {'output_hidden_states': True} )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , {'output_hidden_states': True} )
@require_torch
class __lowerCamelCase ( unittest.TestCase , snake_case__):
"""simple docstring"""
UpperCamelCase__ = (MaskFormerSwinBackbone,) if is_torch_available() else ()
UpperCamelCase__ = MaskFormerSwinConfig
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModelTester(self )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = inputs_dict['pixel_values'].shape[0]
for backbone_class in self.all_model_classes:
_UpperCAmelCase = backbone_class(UpperCAmelCase )
backbone.to(UpperCAmelCase )
backbone.eval()
_UpperCAmelCase = backbone(**UpperCAmelCase )
# Test default outputs and verify feature maps
self.assertIsInstance(outputs.feature_maps , UpperCAmelCase )
self.assertTrue(len(outputs.feature_maps ) == len(backbone.channels ) )
for feature_map, n_channels in zip(outputs.feature_maps , backbone.channels ):
self.assertTrue(feature_map.shape[:2] , (batch_size, n_channels) )
self.assertIsNone(outputs.hidden_states )
self.assertIsNone(outputs.attentions )
# Test output_hidden_states=True
_UpperCAmelCase = backbone(**UpperCAmelCase , output_hidden_states=UpperCAmelCase )
self.assertIsNotNone(outputs.hidden_states )
self.assertTrue(len(outputs.hidden_states ) , len(backbone.stage_names ) )
# We skip the stem layer
for hidden_states, n_channels in zip(outputs.hidden_states[1:] , backbone.channels ):
for hidden_state in hidden_states:
# Hidden states are in the format (batch_size, (height * width), n_channels)
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = hidden_state.shape
self.assertTrue((h_batch_size, h_n_channels) , (batch_size, n_channels) )
# Test output_attentions=True
if self.has_attentions:
_UpperCAmelCase = backbone(**UpperCAmelCase , output_attentions=UpperCAmelCase )
self.assertIsNotNone(outputs.attentions )
| 39
| 1
|
def __A ( __lowerCAmelCase )-> int:
"""simple docstring"""
_UpperCAmelCase = abs(__lowerCAmelCase )
_UpperCAmelCase = 0
while n > 0:
res += n % 10
n //= 10
return res
def __A ( __lowerCAmelCase )-> int:
"""simple docstring"""
_UpperCAmelCase = abs(__lowerCAmelCase )
return n if n < 10 else n % 10 + sum_of_digits(n // 10 )
def __A ( __lowerCAmelCase )-> int:
"""simple docstring"""
return sum(int(__lowerCAmelCase ) for c in str(abs(__lowerCAmelCase ) ) )
def __A ( )-> None:
"""simple docstring"""
from collections.abc import Callable
from timeit import timeit
def benchmark_a_function(__lowerCAmelCase , __lowerCAmelCase ) -> None:
_UpperCAmelCase = F"""{func.__name__}({value})"""
_UpperCAmelCase = timeit(F"""__main__.{call}""" , setup='import __main__' )
print(F"""{call:56} = {func(__lowerCAmelCase )} -- {timing:.4f} seconds""" )
for value in (262_144, 1_125_899_906_842_624, 1_267_650_600_228_229_401_496_703_205_376):
for func in (sum_of_digits, sum_of_digits_recursion, sum_of_digits_compact):
benchmark_a_function(__lowerCAmelCase , __lowerCAmelCase )
print()
if __name__ == "__main__":
import doctest
doctest.testmod()
benchmark()
| 39
|
import os
import unittest
from transformers.models.transfo_xl.tokenization_transfo_xl import VOCAB_FILES_NAMES, TransfoXLTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = TransfoXLTokenizer
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
super().setUp()
_UpperCAmelCase = [
'<unk>',
'[CLS]',
'[SEP]',
'want',
'unwanted',
'wa',
'un',
'running',
',',
'low',
'l',
]
_UpperCAmelCase = 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 UpperCamelCase ( self , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = True
return TransfoXLTokenizer.from_pretrained(self.tmpdirname , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = '<unk> UNwanted , running'
_UpperCAmelCase = '<unk> unwanted, running'
return input_text, output_text
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(vocab_file=self.vocab_file , lower_case=UpperCAmelCase )
_UpperCAmelCase = tokenizer.tokenize('<unk> UNwanted , running' )
self.assertListEqual(UpperCAmelCase , ['<unk>', 'unwanted', ',', 'running'] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase ) , [0, 4, 8, 7] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
self.assertListEqual(
tokenizer.tokenize(' \tHeLLo ! how \n Are yoU ? ' ) , ['hello', '!', 'how', 'are', 'you', '?'] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
self.assertListEqual(
tokenizer.tokenize(' \tHeLLo ! how \n Are yoU ? ' ) , ['HeLLo', '!', 'how', 'Are', 'yoU', '?'] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
_UpperCAmelCase = 'Hello (bracket) and side-scrolled [and] Henry\'s $5,000 with 3.34 m. What\'s up!?'
_UpperCAmelCase = [
'Hello',
'(',
'bracket',
')',
'and',
'side',
'@-@',
'scrolled',
'[',
'and',
']',
'Henry',
'\'s',
'$',
'5',
'@,@',
'000',
'with',
'3',
'@.@',
'34',
'm',
'.',
'What',
'\'s',
'up',
'!',
'?',
]
self.assertListEqual(tokenizer.tokenize(UpperCAmelCase ) , UpperCAmelCase )
self.assertEqual(tokenizer.convert_tokens_to_string(UpperCAmelCase ) , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_tokenizer()
_UpperCAmelCase = len(UpperCAmelCase )
tokenizer.add_tokens(['new1', 'new2'] )
tokenizer.move_added_token('new1' , 1 )
# Check that moved token is not copied (duplicate)
self.assertEqual(len(UpperCAmelCase ) , original_len + 2 )
# Check that token is moved to specified id
self.assertEqual(tokenizer.encode('new1' ) , [1] )
self.assertEqual(tokenizer.decode([1] ) , 'new1' )
| 39
| 1
|
import functools
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
_UpperCAmelCase = len(__lowerCAmelCase )
_UpperCAmelCase = len(__lowerCAmelCase )
@functools.cache
def min_distance(__lowerCAmelCase , __lowerCAmelCase ) -> 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 = int(worda[indexa] != worda[indexa] ) # current letters not identical
return min(
1 + min_distance(indexa + 1 , __lowerCAmelCase ) , 1 + min_distance(__lowerCAmelCase , indexa + 1 ) , diff + min_distance(indexa + 1 , indexa + 1 ) , )
return min_distance(0 , 0 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
_a = {'''configuration_opt''': ['''OPT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''OPTConfig''']}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''OPT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''OPTForCausalLM''',
'''OPTModel''',
'''OPTPreTrainedModel''',
'''OPTForSequenceClassification''',
'''OPTForQuestionAnswering''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['''TFOPTForCausalLM''', '''TFOPTModel''', '''TFOPTPreTrainedModel''']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''FlaxOPTForCausalLM''',
'''FlaxOPTModel''',
'''FlaxOPTPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_opt import OPT_PRETRAINED_CONFIG_ARCHIVE_MAP, OPTConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_opt import (
OPT_PRETRAINED_MODEL_ARCHIVE_LIST,
OPTForCausalLM,
OPTForQuestionAnswering,
OPTForSequenceClassification,
OPTModel,
OPTPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_opt import TFOPTForCausalLM, TFOPTModel, TFOPTPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_opt import FlaxOPTForCausalLM, FlaxOPTModel, FlaxOPTPreTrainedModel
else:
import sys
_a = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 39
| 1
|
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 )-> Optional[int]:
"""simple docstring"""
assert torch_layer.weight.shape == weight.shape, F"""{torch_layer} layer.weight does not match"""
_UpperCAmelCase = nn.Parameter(__lowerCAmelCase )
if bias is not None:
assert torch_layer.bias.shape == bias.shape, F"""{torch_layer} layer.bias does not match"""
_UpperCAmelCase = nn.Parameter(__lowerCAmelCase )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> List[Any]:
"""simple docstring"""
_UpperCAmelCase = np.asarray(weights[0] )
_UpperCAmelCase = np.asarray(weights[1] )
_UpperCAmelCase = np.asarray(weights[2] )
set_param(
torch_layer.self_attention.query_key , torch.tensor(__lowerCAmelCase ).transpose(1 , 2 ).contiguous().view(-1 , __lowerCAmelCase ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__lowerCAmelCase ).transpose(1 , 2 ).contiguous().view(-1 , __lowerCAmelCase ) , )
set_param(
torch_layer.output.dense , torch.tensor(__lowerCAmelCase ).view(-1 , __lowerCAmelCase ).contiguous().transpose(0 , 1 ) , )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
_UpperCAmelCase = np.asarray(weights[0] )
_UpperCAmelCase = np.asarray(weights[1] )
_UpperCAmelCase = np.asarray(weights[2] )
_UpperCAmelCase = np.asarray(weights[3] )
set_param(
torch_layer.self_attention.query , torch.tensor(__lowerCAmelCase ).transpose(1 , 2 ).contiguous().view(-1 , __lowerCAmelCase ) , )
set_param(
torch_layer.self_attention.key , torch.tensor(__lowerCAmelCase ).transpose(1 , 2 ).contiguous().view(-1 , __lowerCAmelCase ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__lowerCAmelCase ).transpose(1 , 2 ).contiguous().view(-1 , __lowerCAmelCase ) , )
set_param(
torch_layer.output.dense , torch.tensor(__lowerCAmelCase ).view(-1 , __lowerCAmelCase ).contiguous().transpose(0 , 1 ) , )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = weights[0][0][0]
_UpperCAmelCase = np.asarray(layer_norm_a[0] )
_UpperCAmelCase = np.asarray(layer_norm_a[1] )
set_param(
torch_block.attention.layer_norm , torch.tensor(__lowerCAmelCase ) , torch.tensor(__lowerCAmelCase ) , )
# lsh weights + output
_UpperCAmelCase = weights[0][1]
if len(__lowerCAmelCase ) < 4:
set_layer_weights_in_torch_lsh(__lowerCAmelCase , torch_block.attention , __lowerCAmelCase )
else:
set_layer_weights_in_torch_local(__lowerCAmelCase , torch_block.attention , __lowerCAmelCase )
# intermediate weighs
_UpperCAmelCase = weights[2][0][1][2]
# Chunked Feed Forward
if len(__lowerCAmelCase ) == 4:
_UpperCAmelCase = intermediate_weights[2]
# layernorm 2
_UpperCAmelCase = np.asarray(intermediate_weights[0][0] )
_UpperCAmelCase = np.asarray(intermediate_weights[0][1] )
set_param(
torch_block.feed_forward.layer_norm , torch.tensor(__lowerCAmelCase ) , torch.tensor(__lowerCAmelCase ) , )
# intermediate dense
_UpperCAmelCase = np.asarray(intermediate_weights[1][0] )
_UpperCAmelCase = np.asarray(intermediate_weights[1][1] )
set_param(
torch_block.feed_forward.dense.dense , torch.tensor(__lowerCAmelCase ).transpose(0 , 1 ).contiguous() , torch.tensor(__lowerCAmelCase ) , )
# intermediate out
_UpperCAmelCase = np.asarray(intermediate_weights[4][0] )
_UpperCAmelCase = np.asarray(intermediate_weights[4][1] )
set_param(
torch_block.feed_forward.output.dense , torch.tensor(__lowerCAmelCase ).transpose(0 , 1 ).contiguous() , torch.tensor(__lowerCAmelCase ) , )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> Any:
"""simple docstring"""
_UpperCAmelCase = torch_model.reformer
# word embeds
_UpperCAmelCase = np.asarray(weights[1] )
set_param(
torch_model_reformer.embeddings.word_embeddings , torch.tensor(__lowerCAmelCase ) , )
if isinstance(weights[3] , __lowerCAmelCase ):
_UpperCAmelCase = torch_model_reformer.embeddings.position_embeddings
for emb_idx in range(len(position_embeddings.weights ) ):
_UpperCAmelCase = 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 = nn.Parameter(torch.tensor(__lowerCAmelCase ) )
_UpperCAmelCase = weights[5]
assert len(torch_model_reformer.encoder.layers ) * 4 == len(
__lowerCAmelCase ), "HF and trax model do not have the same number of layers"
for layer_idx, layer in enumerate(torch_model_reformer.encoder.layers ):
_UpperCAmelCase = trax_layer_weights[4 * layer_idx : 4 * (layer_idx + 1)]
set_block_weights_in_torch(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
# output layer norm
_UpperCAmelCase = np.asarray(weights[7][0] )
_UpperCAmelCase = np.asarray(weights[7][1] )
set_param(
torch_model_reformer.encoder.layer_norm , torch.tensor(__lowerCAmelCase ) , torch.tensor(__lowerCAmelCase ) , )
# output embeddings
_UpperCAmelCase = np.asarray(weights[9][0] )
_UpperCAmelCase = np.asarray(weights[9][1] )
set_param(
torch_model.lm_head.decoder , torch.tensor(__lowerCAmelCase ).transpose(0 , 1 ).contiguous() , torch.tensor(__lowerCAmelCase ) , )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = ReformerConfig.from_json_file(__lowerCAmelCase )
print(F"""Building PyTorch model from configuration: {config}""" )
_UpperCAmelCase = ReformerModelWithLMHead(__lowerCAmelCase )
with open(__lowerCAmelCase , 'rb' ) as f:
_UpperCAmelCase = pickle.load(__lowerCAmelCase )['weights']
set_model_weights_in_torch(__lowerCAmelCase , __lowerCAmelCase , config.hidden_size )
# Save pytorch-model
print(F"""Save PyTorch model to {pytorch_dump_path}""" )
torch.save(model.state_dict() , __lowerCAmelCase )
if __name__ == "__main__":
_a = 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.'''
)
_a = parser.parse_args()
convert_trax_checkpoint_to_pytorch(args.trax_model_pkl_path, args.config_file, args.pytorch_dump_path)
| 39
|
import warnings
from pathlib import Path
from typing import List, Tuple, Union
import fire
from torch import nn
from transformers import AutoModelForSeqaSeqLM, AutoTokenizer, PreTrainedModel
from transformers.utils import logging
_a = logging.get_logger(__name__)
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
_UpperCAmelCase = nn.ModuleList([src_layers[i] for i in layers_to_copy] )
assert len(__lowerCAmelCase ) == len(__lowerCAmelCase ), F"""{len(__lowerCAmelCase )} != {len(__lowerCAmelCase )}"""
dest_layers.load_state_dict(layers_to_copy.state_dict() )
_a = {
# maps num layers in teacher -> num_layers in student -> which teacher layers to copy.
# 12: bart, 16: pegasus, 6: marian/Helsinki-NLP
12: {
1: [0], # This says that if the teacher has 12 layers and the student has 1, copy layer 0 of the teacher
2: [0, 6],
3: [0, 6, 11],
4: [0, 4, 8, 11],
6: [0, 2, 4, 7, 9, 11],
9: [0, 1, 2, 4, 5, 7, 9, 10, 11],
12: list(range(12)),
},
16: { # maps num layers in student -> which teacher layers to copy
1: [0],
2: [0, 15],
3: [0, 8, 15],
4: [0, 5, 10, 15],
6: [0, 3, 6, 9, 12, 15],
8: [0, 2, 4, 6, 8, 10, 12, 15],
9: [0, 1, 3, 5, 7, 9, 11, 13, 15],
12: [0, 1, 2, 3, 4, 5, 6, 7, 9, 11, 13, 15],
16: list(range(16)),
},
6: {1: [0], 2: [0, 5], 3: [0, 2, 5], 4: [0, 1, 3, 5], 6: list(range(6))},
}
_a = {
# maps num layers in student -> which teacher layers to copy.
6: {1: [5], 2: [3, 5], 3: [1, 4, 5], 4: [1, 2, 4, 5]},
12: {1: [11], 2: [5, 11], 3: [3, 7, 11], 6: [1, 3, 5, 8, 10, 11]},
16: {1: [15], 4: [4, 9, 12, 15], 8: [1, 3, 5, 7, 9, 11, 13, 15]},
}
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Dict:
"""simple docstring"""
try:
_UpperCAmelCase = LAYERS_TO_COPY[n_teacher][n_student]
return val
except KeyError:
if n_student != n_teacher:
warnings.warn(
F"""no hardcoded layers to copy for teacher {n_teacher} -> student {n_student}, defaulting to first"""
F""" {n_student}""" )
return list(range(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[int]:
"""simple docstring"""
if n_student > n_teacher:
raise ValueError(F"""Cannot perform intermediate supervision for student {n_student} > teacher {n_teacher}""" )
elif n_teacher == n_student:
return list(range(__lowerCAmelCase ) )
elif n_student == 1:
return [n_teacher - 1]
else:
return LAYERS_TO_SUPERVISE[n_teacher][n_student]
def __A ( __lowerCAmelCase , __lowerCAmelCase = "student" , __lowerCAmelCase = None , __lowerCAmelCase = None , __lowerCAmelCase=False , __lowerCAmelCase=None , __lowerCAmelCase=None , **__lowerCAmelCase , )-> Tuple[PreTrainedModel, List[int], List[int]]:
"""simple docstring"""
_UpperCAmelCase = 'encoder_layers and decoder_layers cannot be both None-- you would just have an identical teacher.'
assert (e is not None) or (d is not None), _msg
if isinstance(__lowerCAmelCase , __lowerCAmelCase ):
AutoTokenizer.from_pretrained(__lowerCAmelCase ).save_pretrained(__lowerCAmelCase ) # purely for convenience
_UpperCAmelCase = AutoModelForSeqaSeqLM.from_pretrained(__lowerCAmelCase ).eval()
else:
assert isinstance(__lowerCAmelCase , __lowerCAmelCase ), F"""teacher must be a model or string got type {type(__lowerCAmelCase )}"""
_UpperCAmelCase = teacher.config.to_diff_dict()
try:
_UpperCAmelCase , _UpperCAmelCase = teacher.config.encoder_layers, teacher.config.decoder_layers
if e is None:
_UpperCAmelCase = teacher_e
if d is None:
_UpperCAmelCase = teacher_d
init_kwargs.update({'encoder_layers': e, 'decoder_layers': d} )
except AttributeError: # T5
if hasattr(teacher.config , 'num_encoder_layers' ):
_UpperCAmelCase , _UpperCAmelCase = teacher.config.num_encoder_layers, teacher.config.num_decoder_layers
else:
_UpperCAmelCase , _UpperCAmelCase = teacher.config.num_layers, teacher.config.num_decoder_layers
if e is None:
_UpperCAmelCase = teacher_e
if d is None:
_UpperCAmelCase = teacher_d
if hasattr(teacher.config , 'num_encoder_layers' ):
init_kwargs.update({'num_encoder_layers': e, 'num_decoder_layers': d} )
else:
init_kwargs.update({'num_layers': e, 'num_decoder_layers': d} )
# Kwargs to instantiate student: teacher kwargs with updated layer numbers + **extra_config_kwargs
init_kwargs.update(__lowerCAmelCase )
# Copy weights
_UpperCAmelCase = teacher.config_class(**__lowerCAmelCase )
_UpperCAmelCase = AutoModelForSeqaSeqLM.from_config(__lowerCAmelCase )
# Start by copying the full teacher state dict this will copy the first N teacher layers to the student.
_UpperCAmelCase = student.load_state_dict(teacher.state_dict() , strict=__lowerCAmelCase )
assert info.missing_keys == [], info.missing_keys # every student key should have a teacher keys.
if copy_first_teacher_layers: # Our copying is done. We just log and save
_UpperCAmelCase , _UpperCAmelCase = list(range(__lowerCAmelCase ) ), list(range(__lowerCAmelCase ) )
logger.info(
F"""Copied encoder layers {e_layers_to_copy} and decoder layers {d_layers_to_copy}. Saving them to"""
F""" {save_path}""" )
student.save_pretrained(__lowerCAmelCase )
return student, e_layers_to_copy, d_layers_to_copy
# Decide which layers of the teacher to copy. Not exactly alternating -- we try to keep first and last layer.
if e_layers_to_copy is None:
_UpperCAmelCase = pick_layers_to_copy(__lowerCAmelCase , __lowerCAmelCase )
if d_layers_to_copy is None:
_UpperCAmelCase = pick_layers_to_copy(__lowerCAmelCase , __lowerCAmelCase )
try:
if hasattr(
__lowerCAmelCase , 'prophetnet' ): # For ProphetNet, student.model.encoder.layers is called student.prophetnet.encoder.layers
copy_layers(teacher.prophetnet.encoder.layers , student.prophetnet.encoder.layers , __lowerCAmelCase )
copy_layers(teacher.prophetnet.decoder.layers , student.prophetnet.decoder.layers , __lowerCAmelCase )
else:
copy_layers(teacher.model.encoder.layers , student.model.encoder.layers , __lowerCAmelCase )
copy_layers(teacher.model.decoder.layers , student.model.decoder.layers , __lowerCAmelCase )
except AttributeError: # For t5, student.model.encoder.layers is called student.encoder.block
copy_layers(teacher.encoder.block , student.encoder.block , __lowerCAmelCase )
copy_layers(teacher.decoder.block , student.decoder.block , __lowerCAmelCase )
logger.info(
F"""Copied encoder layers {e_layers_to_copy} and decoder layers {d_layers_to_copy}. Saving them to {save_path}""" )
_UpperCAmelCase = {
'teacher_type': teacher.config.model_type,
'copied_encoder_layers': e_layers_to_copy,
'copied_decoder_layers': d_layers_to_copy,
}
student.save_pretrained(__lowerCAmelCase )
# Save information about copying for easier reproducibility
return student, e_layers_to_copy, d_layers_to_copy
if __name__ == "__main__":
fire.Fire(create_student_by_copying_alternating_layers)
| 39
| 1
|
import warnings
from pathlib import Path
from typing import List, Tuple, Union
import fire
from torch import nn
from transformers import AutoModelForSeqaSeqLM, AutoTokenizer, PreTrainedModel
from transformers.utils import logging
_a = logging.get_logger(__name__)
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
_UpperCAmelCase = nn.ModuleList([src_layers[i] for i in layers_to_copy] )
assert len(__lowerCAmelCase ) == len(__lowerCAmelCase ), F"""{len(__lowerCAmelCase )} != {len(__lowerCAmelCase )}"""
dest_layers.load_state_dict(layers_to_copy.state_dict() )
_a = {
# maps num layers in teacher -> num_layers in student -> which teacher layers to copy.
# 12: bart, 16: pegasus, 6: marian/Helsinki-NLP
12: {
1: [0], # This says that if the teacher has 12 layers and the student has 1, copy layer 0 of the teacher
2: [0, 6],
3: [0, 6, 11],
4: [0, 4, 8, 11],
6: [0, 2, 4, 7, 9, 11],
9: [0, 1, 2, 4, 5, 7, 9, 10, 11],
12: list(range(12)),
},
16: { # maps num layers in student -> which teacher layers to copy
1: [0],
2: [0, 15],
3: [0, 8, 15],
4: [0, 5, 10, 15],
6: [0, 3, 6, 9, 12, 15],
8: [0, 2, 4, 6, 8, 10, 12, 15],
9: [0, 1, 3, 5, 7, 9, 11, 13, 15],
12: [0, 1, 2, 3, 4, 5, 6, 7, 9, 11, 13, 15],
16: list(range(16)),
},
6: {1: [0], 2: [0, 5], 3: [0, 2, 5], 4: [0, 1, 3, 5], 6: list(range(6))},
}
_a = {
# maps num layers in student -> which teacher layers to copy.
6: {1: [5], 2: [3, 5], 3: [1, 4, 5], 4: [1, 2, 4, 5]},
12: {1: [11], 2: [5, 11], 3: [3, 7, 11], 6: [1, 3, 5, 8, 10, 11]},
16: {1: [15], 4: [4, 9, 12, 15], 8: [1, 3, 5, 7, 9, 11, 13, 15]},
}
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Dict:
"""simple docstring"""
try:
_UpperCAmelCase = LAYERS_TO_COPY[n_teacher][n_student]
return val
except KeyError:
if n_student != n_teacher:
warnings.warn(
F"""no hardcoded layers to copy for teacher {n_teacher} -> student {n_student}, defaulting to first"""
F""" {n_student}""" )
return list(range(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[int]:
"""simple docstring"""
if n_student > n_teacher:
raise ValueError(F"""Cannot perform intermediate supervision for student {n_student} > teacher {n_teacher}""" )
elif n_teacher == n_student:
return list(range(__lowerCAmelCase ) )
elif n_student == 1:
return [n_teacher - 1]
else:
return LAYERS_TO_SUPERVISE[n_teacher][n_student]
def __A ( __lowerCAmelCase , __lowerCAmelCase = "student" , __lowerCAmelCase = None , __lowerCAmelCase = None , __lowerCAmelCase=False , __lowerCAmelCase=None , __lowerCAmelCase=None , **__lowerCAmelCase , )-> Tuple[PreTrainedModel, List[int], List[int]]:
"""simple docstring"""
_UpperCAmelCase = 'encoder_layers and decoder_layers cannot be both None-- you would just have an identical teacher.'
assert (e is not None) or (d is not None), _msg
if isinstance(__lowerCAmelCase , __lowerCAmelCase ):
AutoTokenizer.from_pretrained(__lowerCAmelCase ).save_pretrained(__lowerCAmelCase ) # purely for convenience
_UpperCAmelCase = AutoModelForSeqaSeqLM.from_pretrained(__lowerCAmelCase ).eval()
else:
assert isinstance(__lowerCAmelCase , __lowerCAmelCase ), F"""teacher must be a model or string got type {type(__lowerCAmelCase )}"""
_UpperCAmelCase = teacher.config.to_diff_dict()
try:
_UpperCAmelCase , _UpperCAmelCase = teacher.config.encoder_layers, teacher.config.decoder_layers
if e is None:
_UpperCAmelCase = teacher_e
if d is None:
_UpperCAmelCase = teacher_d
init_kwargs.update({'encoder_layers': e, 'decoder_layers': d} )
except AttributeError: # T5
if hasattr(teacher.config , 'num_encoder_layers' ):
_UpperCAmelCase , _UpperCAmelCase = teacher.config.num_encoder_layers, teacher.config.num_decoder_layers
else:
_UpperCAmelCase , _UpperCAmelCase = teacher.config.num_layers, teacher.config.num_decoder_layers
if e is None:
_UpperCAmelCase = teacher_e
if d is None:
_UpperCAmelCase = teacher_d
if hasattr(teacher.config , 'num_encoder_layers' ):
init_kwargs.update({'num_encoder_layers': e, 'num_decoder_layers': d} )
else:
init_kwargs.update({'num_layers': e, 'num_decoder_layers': d} )
# Kwargs to instantiate student: teacher kwargs with updated layer numbers + **extra_config_kwargs
init_kwargs.update(__lowerCAmelCase )
# Copy weights
_UpperCAmelCase = teacher.config_class(**__lowerCAmelCase )
_UpperCAmelCase = AutoModelForSeqaSeqLM.from_config(__lowerCAmelCase )
# Start by copying the full teacher state dict this will copy the first N teacher layers to the student.
_UpperCAmelCase = student.load_state_dict(teacher.state_dict() , strict=__lowerCAmelCase )
assert info.missing_keys == [], info.missing_keys # every student key should have a teacher keys.
if copy_first_teacher_layers: # Our copying is done. We just log and save
_UpperCAmelCase , _UpperCAmelCase = list(range(__lowerCAmelCase ) ), list(range(__lowerCAmelCase ) )
logger.info(
F"""Copied encoder layers {e_layers_to_copy} and decoder layers {d_layers_to_copy}. Saving them to"""
F""" {save_path}""" )
student.save_pretrained(__lowerCAmelCase )
return student, e_layers_to_copy, d_layers_to_copy
# Decide which layers of the teacher to copy. Not exactly alternating -- we try to keep first and last layer.
if e_layers_to_copy is None:
_UpperCAmelCase = pick_layers_to_copy(__lowerCAmelCase , __lowerCAmelCase )
if d_layers_to_copy is None:
_UpperCAmelCase = pick_layers_to_copy(__lowerCAmelCase , __lowerCAmelCase )
try:
if hasattr(
__lowerCAmelCase , 'prophetnet' ): # For ProphetNet, student.model.encoder.layers is called student.prophetnet.encoder.layers
copy_layers(teacher.prophetnet.encoder.layers , student.prophetnet.encoder.layers , __lowerCAmelCase )
copy_layers(teacher.prophetnet.decoder.layers , student.prophetnet.decoder.layers , __lowerCAmelCase )
else:
copy_layers(teacher.model.encoder.layers , student.model.encoder.layers , __lowerCAmelCase )
copy_layers(teacher.model.decoder.layers , student.model.decoder.layers , __lowerCAmelCase )
except AttributeError: # For t5, student.model.encoder.layers is called student.encoder.block
copy_layers(teacher.encoder.block , student.encoder.block , __lowerCAmelCase )
copy_layers(teacher.decoder.block , student.decoder.block , __lowerCAmelCase )
logger.info(
F"""Copied encoder layers {e_layers_to_copy} and decoder layers {d_layers_to_copy}. Saving them to {save_path}""" )
_UpperCAmelCase = {
'teacher_type': teacher.config.model_type,
'copied_encoder_layers': e_layers_to_copy,
'copied_decoder_layers': d_layers_to_copy,
}
student.save_pretrained(__lowerCAmelCase )
# Save information about copying for easier reproducibility
return student, e_layers_to_copy, d_layers_to_copy
if __name__ == "__main__":
fire.Fire(create_student_by_copying_alternating_layers)
| 39
|
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 ViTConfig, ViTForImageClassification, ViTImageProcessor, ViTModel
from transformers.utils import logging
logging.set_verbosity_info()
_a = logging.get_logger(__name__)
def __A ( __lowerCAmelCase , __lowerCAmelCase=False )-> Union[str, Any]:
"""simple docstring"""
_UpperCAmelCase = []
for i in range(config.num_hidden_layers ):
# encoder layers: output projection, 2 feedforward neural networks and 2 layernorms
rename_keys.append((F"""blocks.{i}.norm1.weight""", F"""vit.encoder.layer.{i}.layernorm_before.weight""") )
rename_keys.append((F"""blocks.{i}.norm1.bias""", F"""vit.encoder.layer.{i}.layernorm_before.bias""") )
rename_keys.append((F"""blocks.{i}.attn.proj.weight""", F"""vit.encoder.layer.{i}.attention.output.dense.weight""") )
rename_keys.append((F"""blocks.{i}.attn.proj.bias""", F"""vit.encoder.layer.{i}.attention.output.dense.bias""") )
rename_keys.append((F"""blocks.{i}.norm2.weight""", F"""vit.encoder.layer.{i}.layernorm_after.weight""") )
rename_keys.append((F"""blocks.{i}.norm2.bias""", F"""vit.encoder.layer.{i}.layernorm_after.bias""") )
rename_keys.append((F"""blocks.{i}.mlp.fc1.weight""", F"""vit.encoder.layer.{i}.intermediate.dense.weight""") )
rename_keys.append((F"""blocks.{i}.mlp.fc1.bias""", F"""vit.encoder.layer.{i}.intermediate.dense.bias""") )
rename_keys.append((F"""blocks.{i}.mlp.fc2.weight""", F"""vit.encoder.layer.{i}.output.dense.weight""") )
rename_keys.append((F"""blocks.{i}.mlp.fc2.bias""", F"""vit.encoder.layer.{i}.output.dense.bias""") )
# projection layer + position embeddings
rename_keys.extend(
[
('cls_token', 'vit.embeddings.cls_token'),
('patch_embed.proj.weight', 'vit.embeddings.patch_embeddings.projection.weight'),
('patch_embed.proj.bias', 'vit.embeddings.patch_embeddings.projection.bias'),
('pos_embed', 'vit.embeddings.position_embeddings'),
] )
if base_model:
# layernorm + pooler
rename_keys.extend(
[
('norm.weight', 'layernorm.weight'),
('norm.bias', 'layernorm.bias'),
] )
# if just the base model, we should remove "vit" from all keys that start with "vit"
_UpperCAmelCase = [(pair[0], pair[1][4:]) if pair[1].startswith('vit' ) else pair for pair in rename_keys]
else:
# layernorm + classification head
rename_keys.extend(
[
('norm.weight', 'vit.layernorm.weight'),
('norm.bias', 'vit.layernorm.bias'),
('head.weight', 'classifier.weight'),
('head.bias', 'classifier.bias'),
] )
return rename_keys
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=False )-> List[str]:
"""simple docstring"""
for i in range(config.num_hidden_layers ):
if base_model:
_UpperCAmelCase = ''
else:
_UpperCAmelCase = 'vit.'
# read in weights + bias of input projection layer (in timm, this is a single matrix + bias)
_UpperCAmelCase = state_dict.pop(F"""blocks.{i}.attn.qkv.weight""" )
_UpperCAmelCase = state_dict.pop(F"""blocks.{i}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
_UpperCAmelCase = in_proj_weight[
: config.hidden_size, :
]
_UpperCAmelCase = in_proj_bias[: config.hidden_size]
_UpperCAmelCase = in_proj_weight[
config.hidden_size : config.hidden_size * 2, :
]
_UpperCAmelCase = in_proj_bias[
config.hidden_size : config.hidden_size * 2
]
_UpperCAmelCase = in_proj_weight[
-config.hidden_size :, :
]
_UpperCAmelCase = in_proj_bias[-config.hidden_size :]
def __A ( __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = ['head.weight', 'head.bias']
for k in ignore_keys:
state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
_UpperCAmelCase = dct.pop(__lowerCAmelCase )
_UpperCAmelCase = val
def __A ( )-> str:
"""simple docstring"""
_UpperCAmelCase = 'http://images.cocodataset.org/val2017/000000039769.jpg'
_UpperCAmelCase = Image.open(requests.get(__lowerCAmelCase , stream=__lowerCAmelCase ).raw )
return im
@torch.no_grad()
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=True )-> List[str]:
"""simple docstring"""
_UpperCAmelCase = ViTConfig()
# patch_size
if model_name[-1] == "8":
_UpperCAmelCase = 8
# set labels if required
if not base_model:
_UpperCAmelCase = 1_000
_UpperCAmelCase = 'huggingface/label-files'
_UpperCAmelCase = 'imagenet-1k-id2label.json'
_UpperCAmelCase = json.load(open(hf_hub_download(__lowerCAmelCase , __lowerCAmelCase , repo_type='dataset' ) , 'r' ) )
_UpperCAmelCase = {int(__lowerCAmelCase ): v for k, v in idalabel.items()}
_UpperCAmelCase = idalabel
_UpperCAmelCase = {v: k for k, v in idalabel.items()}
# size of the architecture
if model_name in ["dino_vits8", "dino_vits16"]:
_UpperCAmelCase = 384
_UpperCAmelCase = 1_536
_UpperCAmelCase = 12
_UpperCAmelCase = 6
# load original model from torch hub
_UpperCAmelCase = torch.hub.load('facebookresearch/dino:main' , __lowerCAmelCase )
original_model.eval()
# load state_dict of original model, remove and rename some keys
_UpperCAmelCase = original_model.state_dict()
if base_model:
remove_classification_head_(__lowerCAmelCase )
_UpperCAmelCase = create_rename_keys(__lowerCAmelCase , base_model=__lowerCAmelCase )
for src, dest in rename_keys:
rename_key(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
read_in_q_k_v(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
# load HuggingFace model
if base_model:
_UpperCAmelCase = ViTModel(__lowerCAmelCase , add_pooling_layer=__lowerCAmelCase ).eval()
else:
_UpperCAmelCase = ViTForImageClassification(__lowerCAmelCase ).eval()
model.load_state_dict(__lowerCAmelCase )
# Check outputs on an image, prepared by ViTImageProcessor
_UpperCAmelCase = ViTImageProcessor()
_UpperCAmelCase = image_processor(images=prepare_img() , return_tensors='pt' )
_UpperCAmelCase = encoding['pixel_values']
_UpperCAmelCase = model(__lowerCAmelCase )
if base_model:
_UpperCAmelCase = original_model(__lowerCAmelCase )
assert torch.allclose(__lowerCAmelCase , outputs.last_hidden_state[:, 0, :] , atol=1E-1 )
else:
_UpperCAmelCase = original_model(__lowerCAmelCase )
assert logits.shape == outputs.logits.shape
assert torch.allclose(__lowerCAmelCase , outputs.logits , atol=1E-3 )
Path(__lowerCAmelCase ).mkdir(exist_ok=__lowerCAmelCase )
print(F"""Saving model {model_name} to {pytorch_dump_folder_path}""" )
model.save_pretrained(__lowerCAmelCase )
print(F"""Saving image processor to {pytorch_dump_folder_path}""" )
image_processor.save_pretrained(__lowerCAmelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--model_name''',
default='''dino_vitb16''',
type=str,
help='''Name of the model trained with DINO 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(
'''--base_model''',
action='''store_true''',
help='''Whether to only convert the base model (no projection head weights).''',
)
parser.set_defaults(base_model=True)
_a = parser.parse_args()
convert_vit_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.base_model)
| 39
| 1
|
import os
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_doctest_list.py
_a = '''.'''
if __name__ == "__main__":
_a = os.path.join(REPO_PATH, '''utils/documentation_tests.txt''')
_a = []
_a = []
with open(doctest_file_path) as fp:
for line in fp:
_a = line.strip()
_a = os.path.join(REPO_PATH, line)
if not (os.path.isfile(path) or os.path.isdir(path)):
non_existent_paths.append(line)
all_paths.append(path)
if len(non_existent_paths) > 0:
_a = '''\n'''.join(non_existent_paths)
raise ValueError(F'''`utils/documentation_tests.txt` contains non-existent paths:\n{non_existent_paths}''')
if all_paths != sorted(all_paths):
raise ValueError('''Files in `utils/documentation_tests.txt` are not in alphabetical order.''')
| 39
|
import unittest
import torch
from torch import nn
from accelerate.test_utils import require_cuda
from accelerate.utils.memory import find_executable_batch_size, release_memory
def __A ( )-> Tuple:
"""simple docstring"""
raise RuntimeError('CUDA out of memory.' )
class __lowerCamelCase ( nn.Module):
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
super().__init__()
_UpperCAmelCase = nn.Linear(3 , 4 )
_UpperCAmelCase = nn.BatchNormad(4 )
_UpperCAmelCase = nn.Linear(4 , 5 )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return self.lineara(self.batchnorm(self.lineara(UpperCAmelCase ) ) )
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase ):
nonlocal batch_sizes
batch_sizes.append(UpperCAmelCase )
if batch_size != 8:
raise_fake_out_of_memory()
mock_training_loop_function()
self.assertListEqual(UpperCAmelCase , [128, 64, 32, 16, 8] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase , UpperCAmelCase ):
nonlocal batch_sizes
batch_sizes.append(UpperCAmelCase )
if batch_size != 8:
raise_fake_out_of_memory()
return batch_size, arga
_UpperCAmelCase , _UpperCAmelCase = mock_training_loop_function('hello' )
self.assertListEqual(UpperCAmelCase , [128, 64, 32, 16, 8] )
self.assertListEqual([bs, arga] , [8, 'hello'] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=0 )
def mock_training_loop_function(UpperCAmelCase ):
pass
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('No executable batch size found, reached zero.' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=16 )
def mock_training_loop_function(UpperCAmelCase ):
if batch_size > 0:
raise_fake_out_of_memory()
pass
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('No executable batch size found, reached zero.' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
if batch_size != 8:
raise raise_fake_out_of_memory()
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function(128 , 'hello' , 'world' )
self.assertIn('Batch size was passed into `f`' , cm.exception.args[0] )
self.assertIn('`f(arg1=\'hello\', arg2=\'world\')' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=16 )
def mock_training_loop_function(UpperCAmelCase ):
raise ValueError('Oops, we had an error!' )
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('Oops, we had an error!' , cm.exception.args[0] )
@require_cuda
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = torch.cuda.memory_allocated()
_UpperCAmelCase = ModelForTest()
model.cuda()
self.assertGreater(torch.cuda.memory_allocated() , UpperCAmelCase )
_UpperCAmelCase = release_memory(UpperCAmelCase )
self.assertEqual(torch.cuda.memory_allocated() , UpperCAmelCase )
| 39
| 1
|
from __future__ import annotations
_a = []
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> bool:
"""simple docstring"""
for i in range(len(__lowerCAmelCase ) ):
if board[row][i] == 1:
return False
for i in range(len(__lowerCAmelCase ) ):
if board[i][column] == 1:
return False
for i, j in zip(range(__lowerCAmelCase , -1 , -1 ) , range(__lowerCAmelCase , -1 , -1 ) ):
if board[i][j] == 1:
return False
for i, j in zip(range(__lowerCAmelCase , -1 , -1 ) , range(__lowerCAmelCase , len(__lowerCAmelCase ) ) ):
if board[i][j] == 1:
return False
return True
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> bool:
"""simple docstring"""
if row >= len(__lowerCAmelCase ):
solution.append(__lowerCAmelCase )
printboard(__lowerCAmelCase )
print()
return True
for i in range(len(__lowerCAmelCase ) ):
if is_safe(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ):
_UpperCAmelCase = 1
solve(__lowerCAmelCase , row + 1 )
_UpperCAmelCase = 0
return False
def __A ( __lowerCAmelCase )-> None:
"""simple docstring"""
for i in range(len(__lowerCAmelCase ) ):
for j in range(len(__lowerCAmelCase ) ):
if board[i][j] == 1:
print('Q' , end=' ' )
else:
print('.' , end=' ' )
print()
# n=int(input("The no. of queens"))
_a = 8
_a = [[0 for i in range(n)] for j in range(n)]
solve(board, 0)
print('''The total no. of solutions are :''', len(solution))
| 39
|
from __future__ import annotations
import inspect
import unittest
import numpy as np
from transformers import ResNetConfig
from transformers.testing_utils import require_tf, require_vision, slow
from transformers.utils import cached_property, is_tf_available, is_vision_available
from ...test_configuration_common import ConfigTester
from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_tf_available():
import tensorflow as tf
from transformers import TFResNetForImageClassification, TFResNetModel
from transformers.models.resnet.modeling_tf_resnet import TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST
if is_vision_available():
from PIL import Image
from transformers import AutoImageProcessor
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=3 , UpperCAmelCase=32 , UpperCAmelCase=3 , UpperCAmelCase=10 , UpperCAmelCase=[10, 20, 30, 40] , UpperCAmelCase=[1, 1, 2, 1] , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase="relu" , UpperCAmelCase=3 , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = image_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embeddings_size
_UpperCAmelCase = hidden_sizes
_UpperCAmelCase = depths
_UpperCAmelCase = is_training
_UpperCAmelCase = use_labels
_UpperCAmelCase = hidden_act
_UpperCAmelCase = num_labels
_UpperCAmelCase = scope
_UpperCAmelCase = len(UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.num_labels )
_UpperCAmelCase = self.get_config()
return config, pixel_values, labels
def UpperCamelCase ( self ):
"""simple docstring"""
return ResNetConfig(
num_channels=self.num_channels , embeddings_size=self.embeddings_size , hidden_sizes=self.hidden_sizes , depths=self.depths , hidden_act=self.hidden_act , num_labels=self.num_labels , image_size=self.image_size , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = TFResNetModel(config=UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase )
# expected last hidden states: B, C, H // 32, W // 32
self.parent.assertEqual(
result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], self.image_size // 32, self.image_size // 32) , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.num_labels
_UpperCAmelCase = TFResNetForImageClassification(UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase , labels=UpperCAmelCase )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'pixel_values': pixel_values}
return config, inputs_dict
@require_tf
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (TFResNetModel, TFResNetForImageClassification) if is_tf_available() else ()
UpperCamelCase__ = (
{"feature-extraction": TFResNetModel, "image-classification": TFResNetForImageClassification}
if is_tf_available()
else {}
)
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFResNetModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , has_text_modality=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCamelCase ( self ):
"""simple docstring"""
return
@unittest.skip(reason='ResNet does not use inputs_embeds' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='ResNet does not support input and output embeddings' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = inspect.signature(model.call )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
_UpperCAmelCase = [*signature.parameters.keys()]
_UpperCAmelCase = ['pixel_values']
self.assertListEqual(arg_names[:1] , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
def check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = model(**self._prepare_for_class(UpperCAmelCase , UpperCAmelCase ) )
_UpperCAmelCase = outputs.encoder_hidden_states if config.is_encoder_decoder else outputs.hidden_states
_UpperCAmelCase = self.model_tester.num_stages
self.assertEqual(len(UpperCAmelCase ) , expected_num_stages + 1 )
# ResNet's feature maps are of shape (batch_size, num_channels, height, width)
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) , [self.model_tester.image_size // 4, self.model_tester.image_size // 4] , )
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = ['basic', 'bottleneck']
for model_class in self.all_model_classes:
for layer_type in layers_type:
_UpperCAmelCase = layer_type
_UpperCAmelCase = True
check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*UpperCAmelCase )
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
for model_name in TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
_UpperCAmelCase = TFResNetModel.from_pretrained(UpperCAmelCase )
self.assertIsNotNone(UpperCAmelCase )
def __A ( )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = Image.open('./tests/fixtures/tests_samples/COCO/000000039769.png' )
return image
@require_tf
@require_vision
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@cached_property
def UpperCamelCase ( self ):
"""simple docstring"""
return (
AutoImageProcessor.from_pretrained(TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[0] )
if is_vision_available()
else None
)
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFResNetForImageClassification.from_pretrained(TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[0] )
_UpperCAmelCase = self.default_image_processor
_UpperCAmelCase = prepare_img()
_UpperCAmelCase = image_processor(images=UpperCAmelCase , return_tensors='tf' )
# forward pass
_UpperCAmelCase = model(**UpperCAmelCase )
# verify the logits
_UpperCAmelCase = tf.TensorShape((1, 1000) )
self.assertEqual(outputs.logits.shape , UpperCAmelCase )
_UpperCAmelCase = tf.constant([-11.10_69, -9.78_77, -8.37_77] )
self.assertTrue(np.allclose(outputs.logits[0, :3].numpy() , UpperCAmelCase , atol=1e-4 ) )
| 39
| 1
|
import re
import tempfile
from pathlib import Path
import pytest
import yaml
from datasets.utils.readme import ReadMe
# @pytest.fixture
# def example_yaml_structure():
_a = yaml.safe_load(
'''\
name: ""
allow_empty: false
allow_empty_text: true
subsections:
- name: "Dataset Card for X" # First-level markdown heading
allow_empty: false
allow_empty_text: true
subsections:
- name: "Table of Contents"
allow_empty: false
allow_empty_text: false
subsections: null
- name: "Dataset Description"
allow_empty: false
allow_empty_text: false
subsections:
- name: "Dataset Summary"
allow_empty: false
allow_empty_text: false
subsections: null
- name: "Supported Tasks and Leaderboards"
allow_empty: true
allow_empty_text: true
subsections: null
- name: Languages
allow_empty: false
allow_empty_text: true
subsections: null
'''
)
_a = {
'''name''': '''root''',
'''text''': '''''',
'''is_empty_text''': True,
'''subsections''': [
{
'''name''': '''Dataset Card for My Dataset''',
'''text''': '''''',
'''is_empty_text''': True,
'''subsections''': [
{'''name''': '''Table of Contents''', '''text''': '''Some text here.''', '''is_empty_text''': False, '''subsections''': []},
{
'''name''': '''Dataset Description''',
'''text''': '''Some text here.''',
'''is_empty_text''': False,
'''subsections''': [
{
'''name''': '''Dataset Summary''',
'''text''': '''Some text here.''',
'''is_empty_text''': False,
'''subsections''': [],
},
{
'''name''': '''Supported Tasks and Leaderboards''',
'''text''': '''''',
'''is_empty_text''': True,
'''subsections''': [],
},
{'''name''': '''Languages''', '''text''': '''Language Text''', '''is_empty_text''': False, '''subsections''': []},
],
},
],
}
],
}
_a = '''\
---
language:
- zh
- en
---
# Dataset Card for My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
### Supported Tasks and Leaderboards
### Languages
Language Text
'''
_a = '''\
---
language:
- zh
- en
---
# Dataset Card for My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
#### Extra Ignored Subsection
### Supported Tasks and Leaderboards
### Languages
Language Text
'''
_a = {
'''name''': '''root''',
'''text''': '''''',
'''is_empty_text''': True,
'''subsections''': [
{
'''name''': '''Dataset Card for My Dataset''',
'''text''': '''''',
'''is_empty_text''': True,
'''subsections''': [
{'''name''': '''Table of Contents''', '''text''': '''Some text here.''', '''is_empty_text''': False, '''subsections''': []},
{
'''name''': '''Dataset Description''',
'''text''': '''Some text here.''',
'''is_empty_text''': False,
'''subsections''': [
{
'''name''': '''Dataset Summary''',
'''text''': '''Some text here.''',
'''is_empty_text''': False,
'''subsections''': [
{
'''name''': '''Extra Ignored Subsection''',
'''text''': '''''',
'''is_empty_text''': True,
'''subsections''': [],
}
],
},
{
'''name''': '''Supported Tasks and Leaderboards''',
'''text''': '''''',
'''is_empty_text''': True,
'''subsections''': [],
},
{'''name''': '''Languages''', '''text''': '''Language Text''', '''is_empty_text''': False, '''subsections''': []},
],
},
],
}
],
}
_a = '''\
---
---
# Dataset Card for My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
### Supported Tasks and Leaderboards
### Languages
Language Text
'''
_a = (
'''The following issues were found for the README at `{path}`:\n-\tEmpty YAML markers are present in the README.'''
)
_a = '''\
# Dataset Card for My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
### Supported Tasks and Leaderboards
### Languages
Language Text
'''
_a = (
'''The following issues were found for the README at `{path}`:\n-\tNo YAML markers are present in the README.'''
)
_a = '''\
---
# Dataset Card for My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
### Supported Tasks and Leaderboards
### Languages
Language Text
'''
_a = '''The following issues were found for the README at `{path}`:\n-\tOnly the start of YAML tags present in the README.'''
_a = '''\
---
language:
- zh
- en
---
# Dataset Card for My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
### Supported Tasks and Leaderboards
### Languages
Language Text
'''
_a = '''The following issues were found for the README at `{path}`:\n-\tExpected some content in section `Dataset Summary` but it is empty.\n-\tExpected some text in section `Dataset Summary` but it is empty (text in subsections are ignored).'''
_a = '''\
---
language:
- zh
- en
---
# Dataset Card for My Dataset
'''
_a = '''The following issues were found for the README at `{path}`:\n-\tExpected some content in section `Dataset Card for My Dataset` but it is empty.\n-\tSection `Dataset Card for My Dataset` expected the following subsections: `Table of Contents`, `Dataset Description`. Found \'None\'.'''
_a = '''\
---
language:
- zh
- en
---
# Dataset Card for My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
### Languages
Language Text
'''
_a = '''The following issues were found for the README at `{path}`:\n-\tSection `Dataset Description` is missing subsection: `Supported Tasks and Leaderboards`.'''
_a = '''\
---
language:
- zh
- en
---
# Dataset Card for My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
### Supported Tasks and Leaderboards
### Languages
'''
_a = '''The following issues were found for the README at `{path}`:\n-\tExpected some content in section `Languages` but it is empty.'''
_a = '''\
---
language:
- zh
- en
---
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
### Supported Tasks and Leaderboards
### Languages
Language Text
'''
_a = '''The following issues were found for the README at `{path}`:\n-\tThe README has no first-level headings. One heading is expected. Skipping further validation for this README.'''
_a = '''\
---
language:
- zh
- en
---
# Dataset Card for My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
### Supported Tasks and Leaderboards
### Languages
Language Text
# Dataset Card My Dataset
'''
_a = '''The following issues were found for the README at `{path}`:\n-\tThe README has several first-level headings: `Dataset Card for My Dataset`, `Dataset Card My Dataset`. Only one heading is expected. Skipping further validation for this README.'''
_a = '''\
---
language:
- zh
- en
---
# Dataset Card My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
### Supported Tasks and Leaderboards
### Languages
Language Text
'''
_a = '''The following issues were found for the README at `{path}`:\n-\tNo first-level heading starting with `Dataset Card for` found in README. Skipping further validation for this README.'''
_a = ''''''
_a = '''The following issues were found for the README at `{path}`:\n-\tThe README has no first-level headings. One heading is expected. Skipping further validation for this README.\n-\tNo YAML markers are present in the README.'''
_a = '''\
---
language:
- zh
- en
---
# Dataset Card for My Dataset
# Dataset Card for My Dataset
## Table of Contents
Some text here.
## Dataset Description
Some text here.
### Dataset Summary
Some text here.
### Supported Tasks and Leaderboards
### Languages
Language Text
'''
_a = '''The following issues were found while parsing the README at `{path}`:\n-\tMultiple sections with the same heading `Dataset Card for My Dataset` have been found. Please keep only one of these sections.'''
@pytest.mark.parametrize(
'readme_md, expected_dict' , [
(README_CORRECT, CORRECT_DICT),
(README_CORRECT_FOUR_LEVEL, CORRECT_DICT_FOUR_LEVEL),
] , )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[str]:
"""simple docstring"""
assert ReadMe.from_string(__lowerCAmelCase , __lowerCAmelCase ).to_dict() == expected_dict
@pytest.mark.parametrize(
'readme_md, expected_error' , [
(README_NO_YAML, EXPECTED_ERROR_README_NO_YAML),
(README_EMPTY_YAML, EXPECTED_ERROR_README_EMPTY_YAML),
(README_INCORRECT_YAML, EXPECTED_ERROR_README_INCORRECT_YAML),
(README_EMPTY, EXPECTED_ERROR_README_EMPTY),
(README_NONE_SUBSECTION, EXPECTED_ERROR_README_NONE_SUBSECTION),
(README_MISSING_FIRST_LEVEL, EXPECTED_ERROR_README_MISSING_FIRST_LEVEL),
(README_MISSING_SUBSECTION, EXPECTED_ERROR_README_MISSING_SUBSECTION),
(README_MISSING_TEXT, EXPECTED_ERROR_README_MISSING_TEXT),
(README_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_WRONG_FIRST_LEVEL),
(README_MULTIPLE_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_MULTIPLE_WRONG_FIRST_LEVEL),
(README_MISSING_CONTENT, EXPECTED_ERROR_README_MISSING_CONTENT),
] , )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Any:
"""simple docstring"""
with pytest.raises(__lowerCAmelCase , match=re.escape(expected_error.format(path='root' ) ) ):
_UpperCAmelCase = ReadMe.from_string(__lowerCAmelCase , __lowerCAmelCase )
readme.validate()
@pytest.mark.parametrize(
'readme_md, expected_error' , [
(README_MULTIPLE_SAME_HEADING_1, EXPECTED_ERROR_README_MULTIPLE_SAME_HEADING_1),
] , )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Union[str, Any]:
"""simple docstring"""
with pytest.raises(__lowerCAmelCase , match=re.escape(expected_error.format(path='root' ) ) ):
ReadMe.from_string(__lowerCAmelCase , __lowerCAmelCase )
@pytest.mark.parametrize(
'readme_md,' , [
(README_MULTIPLE_SAME_HEADING_1),
] , )
def __A ( __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
ReadMe.from_string(__lowerCAmelCase , __lowerCAmelCase , suppress_parsing_errors=__lowerCAmelCase )
@pytest.mark.parametrize(
'readme_md, expected_dict' , [
(README_CORRECT, CORRECT_DICT),
(README_CORRECT_FOUR_LEVEL, CORRECT_DICT_FOUR_LEVEL),
] , )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmp_dir:
_UpperCAmelCase = Path(__lowerCAmelCase ) / 'README.md'
with open(__lowerCAmelCase , 'w+' ) as readme_file:
readme_file.write(__lowerCAmelCase )
_UpperCAmelCase = ReadMe.from_readme(__lowerCAmelCase , __lowerCAmelCase ).to_dict()
assert out["name"] == path
assert out["text"] == ""
assert out["is_empty_text"]
assert out["subsections"] == expected_dict["subsections"]
@pytest.mark.parametrize(
'readme_md, expected_error' , [
(README_NO_YAML, EXPECTED_ERROR_README_NO_YAML),
(README_EMPTY_YAML, EXPECTED_ERROR_README_EMPTY_YAML),
(README_INCORRECT_YAML, EXPECTED_ERROR_README_INCORRECT_YAML),
(README_EMPTY, EXPECTED_ERROR_README_EMPTY),
(README_NONE_SUBSECTION, EXPECTED_ERROR_README_NONE_SUBSECTION),
(README_MISSING_FIRST_LEVEL, EXPECTED_ERROR_README_MISSING_FIRST_LEVEL),
(README_MISSING_SUBSECTION, EXPECTED_ERROR_README_MISSING_SUBSECTION),
(README_MISSING_TEXT, EXPECTED_ERROR_README_MISSING_TEXT),
(README_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_WRONG_FIRST_LEVEL),
(README_MULTIPLE_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_MULTIPLE_WRONG_FIRST_LEVEL),
(README_MISSING_CONTENT, EXPECTED_ERROR_README_MISSING_CONTENT),
] , )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmp_dir:
_UpperCAmelCase = Path(__lowerCAmelCase ) / 'README.md'
with open(__lowerCAmelCase , 'w+' ) as readme_file:
readme_file.write(__lowerCAmelCase )
_UpperCAmelCase = expected_error.format(path=__lowerCAmelCase )
with pytest.raises(__lowerCAmelCase , match=re.escape(__lowerCAmelCase ) ):
_UpperCAmelCase = ReadMe.from_readme(__lowerCAmelCase , __lowerCAmelCase )
readme.validate()
@pytest.mark.parametrize(
'readme_md, expected_error' , [
(README_MULTIPLE_SAME_HEADING_1, EXPECTED_ERROR_README_MULTIPLE_SAME_HEADING_1),
] , )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Union[str, Any]:
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmp_dir:
_UpperCAmelCase = Path(__lowerCAmelCase ) / 'README.md'
with open(__lowerCAmelCase , 'w+' ) as readme_file:
readme_file.write(__lowerCAmelCase )
_UpperCAmelCase = expected_error.format(path=__lowerCAmelCase )
with pytest.raises(__lowerCAmelCase , match=re.escape(__lowerCAmelCase ) ):
ReadMe.from_readme(__lowerCAmelCase , __lowerCAmelCase )
@pytest.mark.parametrize(
'readme_md,' , [
(README_MULTIPLE_SAME_HEADING_1),
] , )
def __A ( __lowerCAmelCase )-> Union[str, Any]:
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmp_dir:
_UpperCAmelCase = Path(__lowerCAmelCase ) / 'README.md'
with open(__lowerCAmelCase , 'w+' ) as readme_file:
readme_file.write(__lowerCAmelCase )
ReadMe.from_readme(__lowerCAmelCase , __lowerCAmelCase , suppress_parsing_errors=__lowerCAmelCase )
| 39
|
def __A ( __lowerCAmelCase )-> list:
"""simple docstring"""
if len(__lowerCAmelCase ) < 2:
return collection
def circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) -> bool:
_UpperCAmelCase = False
if low == high:
return swapped
_UpperCAmelCase = low
_UpperCAmelCase = high
while left < right:
if collection[left] > collection[right]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right],
collection[left],
)
_UpperCAmelCase = True
left += 1
right -= 1
if left == right and collection[left] > collection[right + 1]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right + 1],
collection[left],
)
_UpperCAmelCase = True
_UpperCAmelCase = low + int((high - low) / 2 )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , mid + 1 , __lowerCAmelCase )
return swapped or left_swap or right_swap
_UpperCAmelCase = True
while is_not_sorted is True:
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , 0 , len(__lowerCAmelCase ) - 1 )
return collection
if __name__ == "__main__":
_a = input('''Enter numbers separated by a comma:\n''').strip()
_a = [int(item) for item in user_input.split(''',''')]
print(circle_sort(unsorted))
| 39
| 1
|
def __A ( )-> int:
"""simple docstring"""
_UpperCAmelCase = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]
_UpperCAmelCase = 6
_UpperCAmelCase = 1
_UpperCAmelCase = 1_901
_UpperCAmelCase = 0
while year < 2_001:
day += 7
if (year % 4 == 0 and year % 100 != 0) or (year % 400 == 0):
if day > days_per_month[month - 1] and month != 2:
month += 1
_UpperCAmelCase = day - days_per_month[month - 2]
elif day > 29 and month == 2:
month += 1
_UpperCAmelCase = day - 29
else:
if day > days_per_month[month - 1]:
month += 1
_UpperCAmelCase = day - days_per_month[month - 2]
if month > 12:
year += 1
_UpperCAmelCase = 1
if year < 2_001 and day == 1:
sundays += 1
return sundays
if __name__ == "__main__":
print(solution())
| 39
|
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["image_processor", "tokenizer"]
UpperCamelCase__ = "Pix2StructImageProcessor"
UpperCamelCase__ = ("T5Tokenizer", "T5TokenizerFast")
def __init__( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = False
super().__init__(UpperCAmelCase , UpperCAmelCase )
def __call__( self , UpperCAmelCase=None , UpperCAmelCase = None , UpperCAmelCase = True , UpperCAmelCase = False , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = 2048 , UpperCAmelCase = 0 , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = True , UpperCAmelCase = None , **UpperCAmelCase , ):
"""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 and not self.image_processor.is_vqa:
_UpperCAmelCase = self.tokenizer
_UpperCAmelCase = self.tokenizer(
text=UpperCAmelCase , add_special_tokens=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , max_length=UpperCAmelCase , stride=UpperCAmelCase , pad_to_multiple_of=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_overflowing_tokens=UpperCAmelCase , return_special_tokens_mask=UpperCAmelCase , return_offsets_mapping=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , return_length=UpperCAmelCase , verbose=UpperCAmelCase , return_tensors=UpperCAmelCase , **UpperCAmelCase , )
return text_encoding
if not self.image_processor.is_vqa:
# add pixel_values
_UpperCAmelCase = self.image_processor(
UpperCAmelCase , return_tensors=UpperCAmelCase , max_patches=UpperCAmelCase , **UpperCAmelCase )
else:
# add pixel_values and bbox
_UpperCAmelCase = self.image_processor(
UpperCAmelCase , return_tensors=UpperCAmelCase , max_patches=UpperCAmelCase , header_text=UpperCAmelCase , **UpperCAmelCase )
if text is not None and not self.image_processor.is_vqa:
_UpperCAmelCase = self.tokenizer(
text=UpperCAmelCase , add_special_tokens=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , max_length=UpperCAmelCase , stride=UpperCAmelCase , pad_to_multiple_of=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_overflowing_tokens=UpperCAmelCase , return_special_tokens_mask=UpperCAmelCase , return_offsets_mapping=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , return_length=UpperCAmelCase , verbose=UpperCAmelCase , return_tensors=UpperCAmelCase , **UpperCAmelCase , )
if "attention_mask" in text_encoding:
_UpperCAmelCase = text_encoding.pop('attention_mask' )
if "input_ids" in text_encoding:
_UpperCAmelCase = text_encoding.pop('input_ids' )
else:
_UpperCAmelCase = None
if text_encoding is not None:
encoding_image_processor.update(UpperCAmelCase )
return encoding_image_processor
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.batch_decode(*UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.decode(*UpperCAmelCase , **UpperCAmelCase )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.tokenizer.model_input_names
_UpperCAmelCase = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )
| 39
| 1
|
from __future__ import annotations
_a = {
'''A''': ['''B''', '''C''', '''E'''],
'''B''': ['''A''', '''D''', '''E'''],
'''C''': ['''A''', '''F''', '''G'''],
'''D''': ['''B'''],
'''E''': ['''A''', '''B''', '''D'''],
'''F''': ['''C'''],
'''G''': ['''C'''],
}
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = graph
# mapping node to its parent in resulting breadth first tree
_UpperCAmelCase = {}
_UpperCAmelCase = source_vertex
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = {self.source_vertex}
_UpperCAmelCase = None
_UpperCAmelCase = [self.source_vertex] # first in first out queue
while queue:
_UpperCAmelCase = queue.pop(0 )
for adjacent_vertex in self.graph[vertex]:
if adjacent_vertex not in visited:
visited.add(UpperCAmelCase )
_UpperCAmelCase = vertex
queue.append(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if target_vertex == self.source_vertex:
return self.source_vertex
_UpperCAmelCase = self.parent.get(UpperCAmelCase )
if target_vertex_parent is None:
_UpperCAmelCase = (
F"""No path from vertex: {self.source_vertex} to vertex: {target_vertex}"""
)
raise ValueError(UpperCAmelCase )
return self.shortest_path(UpperCAmelCase ) + F"""->{target_vertex}"""
if __name__ == "__main__":
_a = Graph(graph, '''G''')
g.breath_first_search()
print(g.shortest_path('''D'''))
print(g.shortest_path('''G'''))
print(g.shortest_path('''Foo'''))
| 39
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase = "" , UpperCAmelCase = False ):
"""simple docstring"""
_UpperCAmelCase = {}
# A node will be a leaf if the tree contains its word
_UpperCAmelCase = is_leaf
_UpperCAmelCase = prefix
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 0
for q, w in zip(self.prefix , UpperCAmelCase ):
if q != w:
break
x += 1
return self.prefix[:x], self.prefix[x:], word[x:]
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for word in words:
self.insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if self.prefix == word:
_UpperCAmelCase = True
# Case 2: The node has no edges that have a prefix to the word
# Solution: We create an edge from the current node to a new one
# containing the word
elif word[0] not in self.nodes:
_UpperCAmelCase = RadixNode(prefix=UpperCAmelCase , is_leaf=UpperCAmelCase )
else:
_UpperCAmelCase = self.nodes[word[0]]
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# Case 3: The node prefix is equal to the matching
# Solution: We insert remaining word on the next node
if remaining_prefix == "":
self.nodes[matching_string[0]].insert(UpperCAmelCase )
# Case 4: The word is greater equal to the matching
# Solution: Create a node in between both nodes, change
# prefixes and add the new node for the remaining word
else:
_UpperCAmelCase = remaining_prefix
_UpperCAmelCase = self.nodes[matching_string[0]]
_UpperCAmelCase = RadixNode(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = aux_node
if remaining_word == "":
_UpperCAmelCase = True
else:
self.nodes[matching_string[0]].insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.nodes.get(word[0] , UpperCAmelCase )
if not incoming_node:
return False
else:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# This applies when the word and the prefix are equal
elif remaining_word == "":
return incoming_node.is_leaf
# We have word remaining so we check the next node
else:
return incoming_node.find(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.nodes.get(word[0] , UpperCAmelCase )
if not incoming_node:
return False
else:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# We have word remaining so we check the next node
elif remaining_word != "":
return incoming_node.delete(UpperCAmelCase )
else:
# If it is not a leaf, we don't have to delete
if not incoming_node.is_leaf:
return False
else:
# We delete the nodes if no edges go from it
if len(incoming_node.nodes ) == 0:
del self.nodes[word[0]]
# We merge the current node with its only child
if len(self.nodes ) == 1 and not self.is_leaf:
_UpperCAmelCase = list(self.nodes.values() )[0]
_UpperCAmelCase = merging_node.is_leaf
self.prefix += merging_node.prefix
_UpperCAmelCase = merging_node.nodes
# If there is more than 1 edge, we just mark it as non-leaf
elif len(incoming_node.nodes ) > 1:
_UpperCAmelCase = False
# If there is 1 edge, we merge it with its child
else:
_UpperCAmelCase = list(incoming_node.nodes.values() )[0]
_UpperCAmelCase = merging_node.is_leaf
incoming_node.prefix += merging_node.prefix
_UpperCAmelCase = merging_node.nodes
return True
def UpperCamelCase ( self , UpperCAmelCase = 0 ):
"""simple docstring"""
if self.prefix != "":
print('-' * height , self.prefix , ' (leaf)' if self.is_leaf else '' )
for value in self.nodes.values():
value.print_tree(height + 1 )
def __A ( )-> bool:
"""simple docstring"""
_UpperCAmelCase = 'banana bananas bandana band apple all beast'.split()
_UpperCAmelCase = RadixNode()
root.insert_many(__lowerCAmelCase )
assert all(root.find(__lowerCAmelCase ) for word in words )
assert not root.find('bandanas' )
assert not root.find('apps' )
root.delete('all' )
assert not root.find('all' )
root.delete('banana' )
assert not root.find('banana' )
assert root.find('bananas' )
return True
def __A ( )-> None:
"""simple docstring"""
assert test_trie()
def __A ( )-> None:
"""simple docstring"""
_UpperCAmelCase = RadixNode()
_UpperCAmelCase = 'banana bananas bandanas bandana band apple all beast'.split()
root.insert_many(__lowerCAmelCase )
print('Words:' , __lowerCAmelCase )
print('Tree:' )
root.print_tree()
if __name__ == "__main__":
main()
| 39
| 1
|
from typing import List, Optional, Union
import torch
from transformers import (
XLMRobertaTokenizer,
)
from ...models import UNetaDConditionModel, VQModel
from ...pipelines import DiffusionPipeline
from ...pipelines.pipeline_utils import ImagePipelineOutput
from ...schedulers import DDIMScheduler, DDPMScheduler
from ...utils import (
is_accelerate_available,
is_accelerate_version,
logging,
randn_tensor,
replace_example_docstring,
)
from .text_encoder import MultilingualCLIP
_a = logging.get_logger(__name__) # pylint: disable=invalid-name
_a = '''
Examples:
```py
>>> from diffusers import KandinskyPipeline, KandinskyPriorPipeline
>>> import torch
>>> pipe_prior = KandinskyPriorPipeline.from_pretrained("kandinsky-community/Kandinsky-2-1-prior")
>>> pipe_prior.to("cuda")
>>> prompt = "red cat, 4k photo"
>>> out = pipe_prior(prompt)
>>> image_emb = out.image_embeds
>>> negative_image_emb = out.negative_image_embeds
>>> pipe = KandinskyPipeline.from_pretrained("kandinsky-community/kandinsky-2-1")
>>> pipe.to("cuda")
>>> image = pipe(
... prompt,
... image_embeds=image_emb,
... negative_image_embeds=negative_image_emb,
... height=768,
... width=768,
... num_inference_steps=100,
... ).images
>>> image[0].save("cat.png")
```
'''
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=8 )-> str:
"""simple docstring"""
_UpperCAmelCase = h // scale_factor**2
if h % scale_factor**2 != 0:
new_h += 1
_UpperCAmelCase = w // scale_factor**2
if w % scale_factor**2 != 0:
new_w += 1
return new_h * scale_factor, new_w * scale_factor
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , ):
"""simple docstring"""
super().__init__()
self.register_modules(
text_encoder=UpperCAmelCase , tokenizer=UpperCAmelCase , unet=UpperCAmelCase , scheduler=UpperCAmelCase , movq=UpperCAmelCase , )
_UpperCAmelCase = 2 ** (len(self.movq.config.block_out_channels ) - 1)
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
if latents is None:
_UpperCAmelCase = randn_tensor(UpperCAmelCase , generator=UpperCAmelCase , device=UpperCAmelCase , dtype=UpperCAmelCase )
else:
if latents.shape != shape:
raise ValueError(F"""Unexpected latents shape, got {latents.shape}, expected {shape}""" )
_UpperCAmelCase = latents.to(UpperCAmelCase )
_UpperCAmelCase = latents * scheduler.init_noise_sigma
return latents
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase = len(UpperCAmelCase ) if isinstance(UpperCAmelCase , UpperCAmelCase ) else 1
# get prompt text embeddings
_UpperCAmelCase = self.tokenizer(
UpperCAmelCase , padding='max_length' , truncation=UpperCAmelCase , max_length=77 , return_attention_mask=UpperCAmelCase , add_special_tokens=UpperCAmelCase , return_tensors='pt' , )
_UpperCAmelCase = text_inputs.input_ids
_UpperCAmelCase = self.tokenizer(UpperCAmelCase , padding='longest' , return_tensors='pt' ).input_ids
if untruncated_ids.shape[-1] >= text_input_ids.shape[-1] and not torch.equal(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = self.tokenizer.batch_decode(untruncated_ids[:, self.tokenizer.model_max_length - 1 : -1] )
logger.warning(
'The following part of your input was truncated because CLIP can only handle sequences up to'
F""" {self.tokenizer.model_max_length} tokens: {removed_text}""" )
_UpperCAmelCase = text_input_ids.to(UpperCAmelCase )
_UpperCAmelCase = text_inputs.attention_mask.to(UpperCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = self.text_encoder(
input_ids=UpperCAmelCase , attention_mask=UpperCAmelCase )
_UpperCAmelCase = prompt_embeds.repeat_interleave(UpperCAmelCase , dim=0 )
_UpperCAmelCase = text_encoder_hidden_states.repeat_interleave(UpperCAmelCase , dim=0 )
_UpperCAmelCase = text_mask.repeat_interleave(UpperCAmelCase , dim=0 )
if do_classifier_free_guidance:
_UpperCAmelCase = 42
if negative_prompt is None:
_UpperCAmelCase = [''] * batch_size
elif type(UpperCAmelCase ) is not type(UpperCAmelCase ):
raise TypeError(
F"""`negative_prompt` should be the same type to `prompt`, but got {type(UpperCAmelCase )} !="""
F""" {type(UpperCAmelCase )}.""" )
elif isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = [negative_prompt]
elif batch_size != len(UpperCAmelCase ):
raise ValueError(
F"""`negative_prompt`: {negative_prompt} has batch size {len(UpperCAmelCase )}, but `prompt`:"""
F""" {prompt} has batch size {batch_size}. Please make sure that passed `negative_prompt` matches"""
' the batch size of `prompt`.' )
else:
_UpperCAmelCase = negative_prompt
_UpperCAmelCase = self.tokenizer(
UpperCAmelCase , padding='max_length' , max_length=77 , truncation=UpperCAmelCase , return_attention_mask=UpperCAmelCase , add_special_tokens=UpperCAmelCase , return_tensors='pt' , )
_UpperCAmelCase = uncond_input.input_ids.to(UpperCAmelCase )
_UpperCAmelCase = uncond_input.attention_mask.to(UpperCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = self.text_encoder(
input_ids=UpperCAmelCase , attention_mask=UpperCAmelCase )
# duplicate unconditional embeddings for each generation per prompt, using mps friendly method
_UpperCAmelCase = negative_prompt_embeds.shape[1]
_UpperCAmelCase = negative_prompt_embeds.repeat(1 , UpperCAmelCase )
_UpperCAmelCase = negative_prompt_embeds.view(batch_size * num_images_per_prompt , UpperCAmelCase )
_UpperCAmelCase = uncond_text_encoder_hidden_states.shape[1]
_UpperCAmelCase = uncond_text_encoder_hidden_states.repeat(1 , UpperCAmelCase , 1 )
_UpperCAmelCase = uncond_text_encoder_hidden_states.view(
batch_size * num_images_per_prompt , UpperCAmelCase , -1 )
_UpperCAmelCase = uncond_text_mask.repeat_interleave(UpperCAmelCase , dim=0 )
# done duplicates
# For classifier free guidance, we need to do two forward passes.
# Here we concatenate the unconditional and text embeddings into a single batch
# to avoid doing two forward passes
_UpperCAmelCase = torch.cat([negative_prompt_embeds, prompt_embeds] )
_UpperCAmelCase = torch.cat([uncond_text_encoder_hidden_states, text_encoder_hidden_states] )
_UpperCAmelCase = torch.cat([uncond_text_mask, text_mask] )
return prompt_embeds, text_encoder_hidden_states, text_mask
def UpperCamelCase ( self , UpperCAmelCase=0 ):
"""simple docstring"""
if is_accelerate_available():
from accelerate import cpu_offload
else:
raise ImportError('Please install accelerate via `pip install accelerate`' )
_UpperCAmelCase = torch.device(F"""cuda:{gpu_id}""" )
_UpperCAmelCase = [
self.unet,
self.text_encoder,
self.movq,
]
for cpu_offloaded_model in models:
if cpu_offloaded_model is not None:
cpu_offload(UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase=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.' )
_UpperCAmelCase = torch.device(F"""cuda:{gpu_id}""" )
if self.device.type != "cpu":
self.to('cpu' , silence_dtype_warnings=UpperCAmelCase )
torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist)
_UpperCAmelCase = None
for cpu_offloaded_model in [self.text_encoder, self.unet, self.movq]:
_UpperCAmelCase , _UpperCAmelCase = cpu_offload_with_hook(UpperCAmelCase , UpperCAmelCase , prev_module_hook=UpperCAmelCase )
if self.safety_checker is not None:
_UpperCAmelCase , _UpperCAmelCase = cpu_offload_with_hook(self.safety_checker , UpperCAmelCase , prev_module_hook=UpperCAmelCase )
# We'll offload the last model manually.
_UpperCAmelCase = hook
@property
# Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device
def UpperCamelCase ( self ):
"""simple docstring"""
if not hasattr(self.unet , '_hf_hook' ):
return self.device
for module in self.unet.modules():
if (
hasattr(UpperCAmelCase , '_hf_hook' )
and hasattr(module._hf_hook , 'execution_device' )
and module._hf_hook.execution_device is not None
):
return torch.device(module._hf_hook.execution_device )
return self.device
@torch.no_grad()
@replace_example_docstring(UpperCAmelCase )
def __call__( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase = None , UpperCAmelCase = 512 , UpperCAmelCase = 512 , UpperCAmelCase = 100 , UpperCAmelCase = 4.0 , UpperCAmelCase = 1 , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = "pil" , UpperCAmelCase = True , ):
"""simple docstring"""
if isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = 1
elif isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = len(UpperCAmelCase )
else:
raise ValueError(F"""`prompt` has to be of type `str` or `list` but is {type(UpperCAmelCase )}""" )
_UpperCAmelCase = self._execution_device
_UpperCAmelCase = batch_size * num_images_per_prompt
_UpperCAmelCase = guidance_scale > 1.0
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = self._encode_prompt(
UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
if isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = torch.cat(UpperCAmelCase , dim=0 )
if isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = torch.cat(UpperCAmelCase , dim=0 )
if do_classifier_free_guidance:
_UpperCAmelCase = image_embeds.repeat_interleave(UpperCAmelCase , dim=0 )
_UpperCAmelCase = negative_image_embeds.repeat_interleave(UpperCAmelCase , dim=0 )
_UpperCAmelCase = torch.cat([negative_image_embeds, image_embeds] , dim=0 ).to(
dtype=prompt_embeds.dtype , device=UpperCAmelCase )
self.scheduler.set_timesteps(UpperCAmelCase , device=UpperCAmelCase )
_UpperCAmelCase = self.scheduler.timesteps
_UpperCAmelCase = self.unet.config.in_channels
_UpperCAmelCase , _UpperCAmelCase = get_new_h_w(UpperCAmelCase , UpperCAmelCase , self.movq_scale_factor )
# create initial latent
_UpperCAmelCase = self.prepare_latents(
(batch_size, num_channels_latents, height, width) , text_encoder_hidden_states.dtype , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , self.scheduler , )
for i, t in enumerate(self.progress_bar(UpperCAmelCase ) ):
# expand the latents if we are doing classifier free guidance
_UpperCAmelCase = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents
_UpperCAmelCase = {'text_embeds': prompt_embeds, 'image_embeds': image_embeds}
_UpperCAmelCase = self.unet(
sample=UpperCAmelCase , timestep=UpperCAmelCase , encoder_hidden_states=UpperCAmelCase , added_cond_kwargs=UpperCAmelCase , return_dict=UpperCAmelCase , )[0]
if do_classifier_free_guidance:
_UpperCAmelCase , _UpperCAmelCase = noise_pred.split(latents.shape[1] , dim=1 )
_UpperCAmelCase , _UpperCAmelCase = noise_pred.chunk(2 )
_UpperCAmelCase , _UpperCAmelCase = variance_pred.chunk(2 )
_UpperCAmelCase = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
_UpperCAmelCase = 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"]
):
_UpperCAmelCase , _UpperCAmelCase = noise_pred.split(latents.shape[1] , dim=1 )
# compute the previous noisy sample x_t -> x_t-1
_UpperCAmelCase = self.scheduler.step(
UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , generator=UpperCAmelCase , ).prev_sample
# post-processing
_UpperCAmelCase = self.movq.decode(UpperCAmelCase , force_not_quantize=UpperCAmelCase )['sample']
if output_type not in ["pt", "np", "pil"]:
raise ValueError(F"""Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}""" )
if output_type in ["np", "pil"]:
_UpperCAmelCase = image * 0.5 + 0.5
_UpperCAmelCase = image.clamp(0 , 1 )
_UpperCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy()
if output_type == "pil":
_UpperCAmelCase = self.numpy_to_pil(UpperCAmelCase )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=UpperCAmelCase )
| 39
|
import argparse
import json
import os
import re
import shutil
import torch
from transformers import BioGptConfig, BioGptForCausalLM
from transformers.models.biogpt.tokenization_biogpt import VOCAB_FILES_NAMES
from transformers.tokenization_utils_base import TOKENIZER_CONFIG_FILE
from transformers.utils import WEIGHTS_NAME, logging
logging.set_verbosity_warning()
_a = 2
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , *, # begin keyword-only arguments
UpperCAmelCase="<s>" , UpperCAmelCase="<pad>" , UpperCAmelCase="</s>" , UpperCAmelCase="<unk>" , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = bos, unk, pad, eos
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = {}
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
if extra_special_symbols:
for s in extra_special_symbols:
self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = len(self.symbols )
def __eq__( self , UpperCAmelCase ):
"""simple docstring"""
return self.indices == other.indices
def __getitem__( self , UpperCAmelCase ):
"""simple docstring"""
if idx < len(self.symbols ):
return self.symbols[idx]
return self.unk_word
def __len__( self ):
"""simple docstring"""
return len(self.symbols )
def __contains__( self , UpperCAmelCase ):
"""simple docstring"""
return sym in self.indices
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = cls()
d.add_from_file(UpperCAmelCase )
return d
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=1 , UpperCAmelCase=False ):
"""simple docstring"""
if word in self.indices and not overwrite:
_UpperCAmelCase = self.indices[word]
_UpperCAmelCase = self.count[idx] + n
return idx
else:
_UpperCAmelCase = len(self.symbols )
_UpperCAmelCase = idx
self.symbols.append(UpperCAmelCase )
self.count.append(UpperCAmelCase )
return idx
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return 0
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if isinstance(UpperCAmelCase , UpperCAmelCase ):
try:
with open(UpperCAmelCase , 'r' , encoding='utf-8' ) as fd:
self.add_from_file(UpperCAmelCase )
except FileNotFoundError as fnfe:
raise fnfe
except UnicodeError:
raise Exception('Incorrect encoding detected in {}, please rebuild the dataset'.format(UpperCAmelCase ) )
return
_UpperCAmelCase = f.readlines()
_UpperCAmelCase = self._load_meta(UpperCAmelCase )
for line in lines[indices_start_line:]:
try:
_UpperCAmelCase , _UpperCAmelCase = line.rstrip().rsplit(' ' , 1 )
if field == "#fairseq:overwrite":
_UpperCAmelCase = True
_UpperCAmelCase , _UpperCAmelCase = line.rsplit(' ' , 1 )
else:
_UpperCAmelCase = False
_UpperCAmelCase = int(UpperCAmelCase )
_UpperCAmelCase = line
if word in self and not overwrite:
raise RuntimeError(
'Duplicate word found when loading Dictionary: \'{}\'. '
'Duplicate words can overwrite earlier ones by adding the '
'#fairseq:overwrite flag at the end of the corresponding row '
'in the dictionary file. If using the Camembert model, please '
'download an updated copy of the model file.'.format(UpperCAmelCase ) )
self.add_symbol(UpperCAmelCase , n=UpperCAmelCase , overwrite=UpperCAmelCase )
except ValueError:
raise ValueError('Incorrect dictionary format, expected \'<token> <cnt> [flags]\'' )
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = dict((re.sub(R'@@$' , '' , __lowerCAmelCase ), v) if k.endswith('@@' ) else (re.sub(R'$' , '</w>' , __lowerCAmelCase ), v) for k, v in d.items() )
_UpperCAmelCase = '<s> <pad> </s> <unk>'.split()
# restore the special tokens
for k in keep_keys:
del da[F"""{k}</w>"""]
_UpperCAmelCase = d[k] # restore
return da
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> str:
"""simple docstring"""
if not os.path.exists(__lowerCAmelCase ):
raise ValueError(F"""path {biogpt_checkpoint_path} does not exist!""" )
os.makedirs(__lowerCAmelCase , exist_ok=__lowerCAmelCase )
print(F"""Writing results to {pytorch_dump_folder_path}""" )
# handle various types of models
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'checkpoint.pt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {checkpoint_file} does not exist!""" )
_UpperCAmelCase = torch.load(__lowerCAmelCase , map_location='cpu' )
_UpperCAmelCase = chkpt['cfg']['model']
# dicts
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'dict.txt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {dict_file} does not exist!""" )
_UpperCAmelCase = Dictionary.load(__lowerCAmelCase )
_UpperCAmelCase = rewrite_dict_keys(src_dict.indices )
_UpperCAmelCase = len(__lowerCAmelCase )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['vocab_file'] )
print(F"""Generating {src_vocab_file} of {src_vocab_size} records""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# merges_file (bpecodes)
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'bpecodes' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {bpecodes_file} does not exist!""" )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['merges_file'] )
shutil.copyfile(__lowerCAmelCase , __lowerCAmelCase )
# model config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'config.json' )
_UpperCAmelCase = {
'activation_dropout': args['activation_dropout'],
'architectures': ['BioGptForCausalLM'],
'attention_probs_dropout_prob': args['attention_dropout'],
'bos_token_id': 0,
'eos_token_id': 2,
'hidden_act': args['activation_fn'],
'hidden_dropout_prob': args['dropout'],
'hidden_size': args['decoder_embed_dim'],
'initializer_range': 0.02,
'intermediate_size': args['decoder_ffn_embed_dim'],
'layer_norm_eps': 1E-12,
'layerdrop': args['decoder_layerdrop'],
'max_position_embeddings': args['max_target_positions'],
'model_type': 'biogpt',
'num_attention_heads': args['decoder_attention_heads'],
'num_hidden_layers': args['decoder_layers'],
'pad_token_id': 1,
'scale_embedding': not args['no_scale_embedding'],
'tie_word_embeddings': args['share_decoder_input_output_embed'],
'vocab_size': src_vocab_size,
}
# good hparam defaults to start with
print(F"""Generating {biogpt_model_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# tokenizer config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = {
'bos_token': '<s>',
'eos_token': '</s>',
'model_max_length': 1_024,
'pad_token': '<pad>',
'special_tokens_map_file': None,
'tokenizer_class': 'BioGptTokenizer',
'unk_token': '<unk>',
}
print(F"""Generating {biogpt_tokenizer_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# model
_UpperCAmelCase = chkpt['model']
# remove unneeded keys
_UpperCAmelCase = [
'decoder.version',
]
for k in ignore_keys:
model_state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = list(model_state_dict.keys() )
for layer_name in layer_names:
if layer_name.endswith('output_projection.weight' ):
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
else:
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
_UpperCAmelCase = BioGptConfig.from_pretrained(__lowerCAmelCase )
_UpperCAmelCase = BioGptForCausalLM(__lowerCAmelCase )
# check that it loads ok
model_new.load_state_dict(__lowerCAmelCase )
# save
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
print(F"""Generating {pytorch_weights_dump_path}""" )
torch.save(__lowerCAmelCase , __lowerCAmelCase )
print('Conversion is done!' )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--biogpt_checkpoint_path''',
default=None,
type=str,
required=True,
help=(
'''Path to the official PyTorch checkpoint file which is expected to reside in the dump dir with dicts,'''
''' bpecodes, etc.'''
),
)
parser.add_argument(
'''--pytorch_dump_folder_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
_a = parser.parse_args()
convert_biogpt_checkpoint_to_pytorch(args.biogpt_checkpoint_path, args.pytorch_dump_folder_path)
| 39
| 1
|
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 __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = None , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = path_or_paths
_UpperCAmelCase = split if split or isinstance(UpperCAmelCase , UpperCAmelCase ) else 'train'
_UpperCAmelCase = features
_UpperCAmelCase = cache_dir
_UpperCAmelCase = keep_in_memory
_UpperCAmelCase = streaming
_UpperCAmelCase = num_proc
_UpperCAmelCase = kwargs
@abstractmethod
def UpperCamelCase ( self ):
"""simple docstring"""
pass
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = None , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = features
_UpperCAmelCase = cache_dir
_UpperCAmelCase = keep_in_memory
_UpperCAmelCase = streaming
_UpperCAmelCase = num_proc
_UpperCAmelCase = kwargs
@abstractmethod
def UpperCamelCase ( self ):
"""simple docstring"""
pass
| 39
|
from __future__ import annotations
import collections
import pprint
from pathlib import Path
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
return "".join(sorted(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase )-> list[str]:
"""simple docstring"""
return word_by_signature[signature(__lowerCAmelCase )]
_a = Path(__file__).parent.joinpath('''words.txt''').read_text(encoding='''utf-8''')
_a = sorted({word.strip().lower() for word in data.splitlines()})
_a = collections.defaultdict(list)
for word in word_list:
word_by_signature[signature(word)].append(word)
if __name__ == "__main__":
_a = {word: anagram(word) for word in word_list if len(anagram(word)) > 1}
with open('''anagrams.txt''', '''w''') as file:
file.write('''all_anagrams = \n ''')
file.write(pprint.pformat(all_anagrams))
| 39
| 1
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
from ...utils.backbone_utils import BackboneConfigMixin, get_aligned_output_features_output_indices
_a = logging.get_logger(__name__)
_a = {
'''shi-labs/nat-mini-in1k-224''': '''https://huggingface.co/shi-labs/nat-mini-in1k-224/resolve/main/config.json''',
# See all Nat models at https://huggingface.co/models?filter=nat
}
class __lowerCamelCase ( snake_case__ , snake_case__):
"""simple docstring"""
UpperCamelCase__ = "nat"
UpperCamelCase__ = {
"num_attention_heads": "num_heads",
"num_hidden_layers": "num_layers",
}
def __init__( self , UpperCAmelCase=4 , UpperCAmelCase=3 , UpperCAmelCase=64 , UpperCAmelCase=[3, 4, 6, 5] , UpperCAmelCase=[2, 4, 8, 16] , UpperCAmelCase=7 , UpperCAmelCase=3.0 , UpperCAmelCase=True , UpperCAmelCase=0.0 , UpperCAmelCase=0.0 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=0.02 , UpperCAmelCase=1e-5 , UpperCAmelCase=0.0 , UpperCAmelCase=None , UpperCAmelCase=None , **UpperCAmelCase , ):
"""simple docstring"""
super().__init__(**UpperCAmelCase )
_UpperCAmelCase = patch_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embed_dim
_UpperCAmelCase = depths
_UpperCAmelCase = len(UpperCAmelCase )
_UpperCAmelCase = num_heads
_UpperCAmelCase = kernel_size
_UpperCAmelCase = mlp_ratio
_UpperCAmelCase = qkv_bias
_UpperCAmelCase = hidden_dropout_prob
_UpperCAmelCase = attention_probs_dropout_prob
_UpperCAmelCase = drop_path_rate
_UpperCAmelCase = hidden_act
_UpperCAmelCase = layer_norm_eps
_UpperCAmelCase = initializer_range
# we set the hidden_size attribute in order to make Nat work with VisionEncoderDecoderModel
# this indicates the channel dimension after the last stage of the model
_UpperCAmelCase = int(embed_dim * 2 ** (len(UpperCAmelCase ) - 1) )
_UpperCAmelCase = layer_scale_init_value
_UpperCAmelCase = ['stem'] + [F"""stage{idx}""" for idx in range(1 , len(UpperCAmelCase ) + 1 )]
_UpperCAmelCase , _UpperCAmelCase = get_aligned_output_features_output_indices(
out_features=UpperCAmelCase , out_indices=UpperCAmelCase , stage_names=self.stage_names )
| 39
|
from __future__ import annotations
def __A ( __lowerCAmelCase )-> list[int]:
"""simple docstring"""
_UpperCAmelCase = 2
_UpperCAmelCase = []
while i * i <= n:
if n % i:
i += 1
else:
n //= i
factors.append(__lowerCAmelCase )
if n > 1:
factors.append(__lowerCAmelCase )
return factors
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
| 1
|
from collections import defaultdict
from typing import Optional
from ..image_utils import load_image
from ..utils import (
add_end_docstrings,
is_torch_available,
logging,
requires_backends,
)
from .base import PIPELINE_INIT_ARGS, ChunkPipeline
if is_torch_available():
import torch
from ..models.auto.modeling_auto import MODEL_FOR_MASK_GENERATION_MAPPING
_a = logging.get_logger(__name__)
@add_end_docstrings(snake_case__)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , **UpperCAmelCase ):
"""simple docstring"""
super().__init__(**UpperCAmelCase )
requires_backends(self , 'vision' )
requires_backends(self , 'torch' )
if self.framework != "pt":
raise ValueError(F"""The {self.__class__} is only available in PyTorch.""" )
self.check_model_type(UpperCAmelCase )
def UpperCamelCase ( self , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = {}
_UpperCAmelCase = {}
_UpperCAmelCase = {}
# preprocess args
if "points_per_batch" in kwargs:
_UpperCAmelCase = kwargs['points_per_batch']
if "points_per_crop" in kwargs:
_UpperCAmelCase = kwargs['points_per_crop']
if "crops_n_layers" in kwargs:
_UpperCAmelCase = kwargs['crops_n_layers']
if "crop_overlap_ratio" in kwargs:
_UpperCAmelCase = kwargs['crop_overlap_ratio']
if "crop_n_points_downscale_factor" in kwargs:
_UpperCAmelCase = kwargs['crop_n_points_downscale_factor']
# postprocess args
if "pred_iou_thresh" in kwargs:
_UpperCAmelCase = kwargs['pred_iou_thresh']
if "stability_score_offset" in kwargs:
_UpperCAmelCase = kwargs['stability_score_offset']
if "mask_threshold" in kwargs:
_UpperCAmelCase = kwargs['mask_threshold']
if "stability_score_thresh" in kwargs:
_UpperCAmelCase = kwargs['stability_score_thresh']
if "crops_nms_thresh" in kwargs:
_UpperCAmelCase = kwargs['crops_nms_thresh']
if "output_rle_mask" in kwargs:
_UpperCAmelCase = kwargs['output_rle_mask']
if "output_bboxes_mask" in kwargs:
_UpperCAmelCase = kwargs['output_bboxes_mask']
return preprocess_kwargs, forward_params, postprocess_kwargs
def __call__( self , UpperCAmelCase , *UpperCAmelCase , UpperCAmelCase=None , UpperCAmelCase=None , **UpperCAmelCase ):
"""simple docstring"""
return super().__call__(UpperCAmelCase , *UpperCAmelCase , num_workers=UpperCAmelCase , batch_size=UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=64 , UpperCAmelCase = 0 , UpperCAmelCase = 512 / 1500 , UpperCAmelCase = 32 , UpperCAmelCase = 1 , ):
"""simple docstring"""
_UpperCAmelCase = load_image(UpperCAmelCase )
_UpperCAmelCase = self.image_processor.size['longest_edge']
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = self.image_processor.generate_crop_boxes(
UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self.image_processor(images=UpperCAmelCase , return_tensors='pt' )
with self.device_placement():
if self.framework == "pt":
_UpperCAmelCase = self.get_inference_context()
with inference_context():
_UpperCAmelCase = self._ensure_tensor_on_device(UpperCAmelCase , device=self.device )
_UpperCAmelCase = self.model.get_image_embeddings(model_inputs.pop('pixel_values' ) )
_UpperCAmelCase = image_embeddings
_UpperCAmelCase = grid_points.shape[1]
_UpperCAmelCase = points_per_batch if points_per_batch is not None else n_points
if points_per_batch <= 0:
raise ValueError(
'Cannot have points_per_batch<=0. Must be >=1 to returned batched outputs. '
'To return all points at once, set points_per_batch to None' )
for i in range(0 , UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = grid_points[:, i : i + points_per_batch, :, :]
_UpperCAmelCase = input_labels[:, i : i + points_per_batch]
_UpperCAmelCase = i == n_points - points_per_batch
yield {
"input_points": batched_points,
"input_labels": labels,
"input_boxes": crop_boxes,
"is_last": is_last,
**model_inputs,
}
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=0.88 , UpperCAmelCase=0.95 , UpperCAmelCase=0 , UpperCAmelCase=1 , ):
"""simple docstring"""
_UpperCAmelCase = model_inputs.pop('input_boxes' )
_UpperCAmelCase = model_inputs.pop('is_last' )
_UpperCAmelCase = model_inputs.pop('original_sizes' ).tolist()
_UpperCAmelCase = model_inputs.pop('reshaped_input_sizes' ).tolist()
_UpperCAmelCase = self.model(**UpperCAmelCase )
# post processing happens here in order to avoid CPU GPU copies of ALL the masks
_UpperCAmelCase = model_outputs['pred_masks']
_UpperCAmelCase = self.image_processor.post_process_masks(
UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , binarize=UpperCAmelCase )
_UpperCAmelCase = model_outputs['iou_scores']
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = self.image_processor.filter_masks(
masks[0] , iou_scores[0] , original_sizes[0] , input_boxes[0] , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , )
return {
"masks": masks,
"is_last": is_last,
"boxes": boxes,
"iou_scores": iou_scores,
}
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=False , UpperCAmelCase=False , UpperCAmelCase=0.7 , ):
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = []
for model_output in model_outputs:
all_scores.append(model_output.pop('iou_scores' ) )
all_masks.extend(model_output.pop('masks' ) )
all_boxes.append(model_output.pop('boxes' ) )
_UpperCAmelCase = torch.cat(UpperCAmelCase )
_UpperCAmelCase = torch.cat(UpperCAmelCase )
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = self.image_processor.post_process_for_mask_generation(
UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = defaultdict(UpperCAmelCase )
for output in model_outputs:
for k, v in output.items():
extra[k].append(UpperCAmelCase )
_UpperCAmelCase = {}
if output_rle_mask:
_UpperCAmelCase = rle_mask
if output_bboxes_mask:
_UpperCAmelCase = bounding_boxes
return {"masks": output_masks, "scores": iou_scores, **optional, **extra}
| 39
|
from __future__ import annotations
from itertools import permutations
from random import randint
from timeit import repeat
def __A ( )-> tuple[list[int], int]:
"""simple docstring"""
_UpperCAmelCase = [randint(-1_000 , 1_000 ) for i in range(10 )]
_UpperCAmelCase = randint(-5_000 , 5_000 )
return (arr, r)
_a = make_dataset()
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> tuple[int, ...]:
"""simple docstring"""
for triplet in permutations(__lowerCAmelCase , 3 ):
if sum(__lowerCAmelCase ) == target:
return tuple(sorted(__lowerCAmelCase ) )
return (0, 0, 0)
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> tuple[int, int, int]:
"""simple docstring"""
arr.sort()
_UpperCAmelCase = len(__lowerCAmelCase )
for i in range(n - 1 ):
_UpperCAmelCase , _UpperCAmelCase = i + 1, n - 1
while left < right:
if arr[i] + arr[left] + arr[right] == target:
return (arr[i], arr[left], arr[right])
elif arr[i] + arr[left] + arr[right] < target:
left += 1
elif arr[i] + arr[left] + arr[right] > target:
right -= 1
return (0, 0, 0)
def __A ( )-> tuple[float, float]:
"""simple docstring"""
_UpperCAmelCase = '\nfrom __main__ import dataset, triplet_sum1, triplet_sum2\n'
_UpperCAmelCase = '\ntriplet_sum1(*dataset)\n'
_UpperCAmelCase = '\ntriplet_sum2(*dataset)\n'
_UpperCAmelCase = repeat(setup=__lowerCAmelCase , stmt=__lowerCAmelCase , repeat=5 , number=10_000 )
_UpperCAmelCase = repeat(setup=__lowerCAmelCase , stmt=__lowerCAmelCase , repeat=5 , number=10_000 )
return (min(__lowerCAmelCase ), min(__lowerCAmelCase ))
if __name__ == "__main__":
from doctest import testmod
testmod()
_a = solution_times()
print(F'''The time for naive implementation is {times[0]}.''')
print(F'''The time for optimized implementation is {times[1]}.''')
| 39
| 1
|
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
while a != 0:
_UpperCAmelCase , _UpperCAmelCase = b % a, a
return b
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
if gcd(__lowerCAmelCase , __lowerCAmelCase ) != 1:
_UpperCAmelCase = F"""mod inverse of {a!r} and {m!r} does not exist"""
raise ValueError(__lowerCAmelCase )
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = 1, 0, a
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = 0, 1, m
while va != 0:
_UpperCAmelCase = ua // va
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = (ua - q * va), (ua - q * va), (ua - q * va), va, va, va
return ua % m
| 39
|
import os
import tempfile
import unittest
import numpy as np
from diffusers.utils import is_flax_available
from diffusers.utils.testing_utils import require_flax, slow
if is_flax_available():
import jax
import jax.numpy as jnp
from flax.jax_utils import replicate
from flax.training.common_utils import shard
from diffusers import FlaxDDIMScheduler, FlaxDiffusionPipeline, FlaxStableDiffusionPipeline
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmpdirname:
# pipeline has Flax weights
_UpperCAmelCase = FlaxDiffusionPipeline.from_pretrained(
'hf-internal-testing/tiny-stable-diffusion-pipe' , safety_checker=UpperCAmelCase , cache_dir=UpperCAmelCase )
_UpperCAmelCase = [t[-1] for t in os.walk(os.path.join(UpperCAmelCase , os.listdir(UpperCAmelCase )[0] , 'snapshots' ) )]
_UpperCAmelCase = [item for sublist in all_root_files for item in sublist]
# None of the downloaded files should be a PyTorch file even if we have some here:
# https://huggingface.co/hf-internal-testing/tiny-stable-diffusion-pipe/blob/main/unet/diffusion_pytorch_model.bin
assert not any(f.endswith('.bin' ) for f in files )
@slow
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'hf-internal-testing/tiny-stable-diffusion-pipe' , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 4
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 64, 64, 3)
if jax.device_count() == 8:
assert np.abs(np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 4.1_51_47_45 ) < 1e-3
assert np.abs(np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 4_99_47.8_75 ) < 5e-1
_UpperCAmelCase = pipeline.numpy_to_pil(np.asarray(images.reshape((num_samples,) + images.shape[-3:] ) ) )
assert len(UpperCAmelCase ) == num_samples
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='flax' , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.05_65_24_01) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_38_38_08.2) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.04_00_39_06) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_37_35_16.75) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.04_00_39_06) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_37_35_16.75) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = FlaxDDIMScheduler(
beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule='scaled_linear' , set_alpha_to_one=UpperCAmelCase , steps_offset=1 , )
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , scheduler=UpperCAmelCase , safety_checker=UpperCAmelCase , )
_UpperCAmelCase = scheduler.create_state()
_UpperCAmelCase = scheduler_state
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.0_45_04_39_45) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_34_76_93.5) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = jax.random.split(jax.random.PRNGKey(0 ) , UpperCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase , )
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
_UpperCAmelCase = images[2, 0, 256, 10:17, 1]
# With memory efficient attention
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase , use_memory_efficient_attention=UpperCAmelCase , )
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images_eff.shape == (num_samples, 1, 512, 512, 3)
_UpperCAmelCase = images[2, 0, 256, 10:17, 1]
# I checked the results visually and they are very similar. However, I saw that the max diff is `1` and the `sum`
# over the 8 images is exactly `256`, which is very suspicious. Testing a random slice for now.
assert abs(slice_eff - slice ).max() < 1e-2
| 39
| 1
|
def __A ( __lowerCAmelCase = 1_000 )-> int:
"""simple docstring"""
_UpperCAmelCase = 2**power
_UpperCAmelCase = str(__lowerCAmelCase )
_UpperCAmelCase = list(__lowerCAmelCase )
_UpperCAmelCase = 0
for i in list_num:
sum_of_num += int(__lowerCAmelCase )
return sum_of_num
if __name__ == "__main__":
_a = int(input('''Enter the power of 2: ''').strip())
print('''2 ^ ''', power, ''' = ''', 2**power)
_a = solution(power)
print('''Sum of the digits is: ''', result)
| 39
|
import unittest
from transformers import AlbertTokenizer, AlbertTokenizerFast
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
_a = get_tests_dir('''fixtures/spiece.model''')
@require_sentencepiece
@require_tokenizers
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = AlbertTokenizer
UpperCamelCase__ = AlbertTokenizerFast
UpperCamelCase__ = True
UpperCamelCase__ = True
UpperCamelCase__ = True
def UpperCamelCase ( self ):
"""simple docstring"""
super().setUp()
# We have a SentencePiece fixture for testing
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase )
tokenizer.save_pretrained(self.tmpdirname )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 'this is a test'
_UpperCAmelCase = 'this is a test'
return input_text, output_text
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = '<pad>'
_UpperCAmelCase = 0
self.assertEqual(self.get_tokenizer()._convert_token_to_id(UpperCAmelCase ) , UpperCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(UpperCAmelCase ) , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0] , '<pad>' )
self.assertEqual(vocab_keys[1] , '<unk>' )
self.assertEqual(vocab_keys[-1] , '▁eloquent' )
self.assertEqual(len(UpperCAmelCase ) , 3_0000 )
def UpperCamelCase ( self ):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size , 3_0000 )
def UpperCamelCase ( self ):
"""simple docstring"""
if not self.test_rust_tokenizer:
return
_UpperCAmelCase = self.get_tokenizer()
_UpperCAmelCase = self.get_rust_tokenizer()
_UpperCAmelCase = 'I was born in 92000, and this is falsé.'
_UpperCAmelCase = tokenizer.tokenize(UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.tokenize(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self.get_rust_tokenizer()
_UpperCAmelCase = tokenizer.encode(UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.encode(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase , keep_accents=UpperCAmelCase )
_UpperCAmelCase = tokenizer.tokenize('This is a test' )
self.assertListEqual(UpperCAmelCase , ['▁this', '▁is', '▁a', '▁test'] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase ) , [48, 25, 21, 1289] )
_UpperCAmelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' )
self.assertListEqual(
UpperCAmelCase , ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', 'é', '.'] )
_UpperCAmelCase = tokenizer.convert_tokens_to_ids(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , [31, 23, 386, 19, 561, 3050, 15, 17, 48, 25, 8256, 18, 1, 9] )
_UpperCAmelCase = tokenizer.convert_ids_to_tokens(UpperCAmelCase )
self.assertListEqual(
UpperCAmelCase , ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', '<unk>', '.'] , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase )
_UpperCAmelCase = tokenizer.encode('sequence builders' )
_UpperCAmelCase = tokenizer.encode('multi-sequence build' )
_UpperCAmelCase = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase )
_UpperCAmelCase = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase , UpperCAmelCase )
assert encoded_sentence == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id]
assert encoded_pair == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] + text_a + [
tokenizer.sep_token_id
]
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = {'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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'input_ids': [[2, 2_1970, 13, 5, 6092, 167, 28, 7103, 2153, 673, 8, 7028, 1_2051, 18, 17, 7103, 2153, 673, 8, 3515, 1_8684, 8, 4461, 6, 1927, 297, 8, 1_2060, 2607, 18, 13, 5, 4461, 15, 1_0538, 38, 8, 135, 15, 822, 58, 15, 993, 1_0363, 15, 1460, 8005, 4461, 15, 993, 255, 2328, 9, 9, 9, 6, 26, 1112, 816, 3260, 13, 5, 103, 2377, 6, 17, 1112, 816, 2782, 13, 5, 103, 1_0641, 6, 29, 84, 2512, 2430, 782, 1_8684, 2761, 19, 808, 2430, 2556, 17, 855, 1480, 9477, 4091, 128, 1_1712, 15, 7103, 2153, 673, 17, 2_4883, 9990, 9, 3], [2, 1_1502, 25, 1006, 20, 782, 8, 1_1809, 855, 1732, 1_9393, 1_8667, 37, 367, 2_1018, 69, 1854, 34, 1_1860, 1_9124, 27, 156, 225, 17, 193, 4141, 19, 65, 9124, 9, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [2, 14, 2231, 886, 2385, 1_7659, 84, 14, 1_6792, 1952, 9, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'token_type_ids': [[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]]} # noqa: E501
# fmt: on
self.tokenizer_integration_test_util(
expected_encoding=UpperCAmelCase , model_name='albert-base-v2' , revision='6b6560eaf5ff2e250b00c50f380c5389a9c2d82e' , )
| 39
| 1
|
# using dfs for finding eulerian path traversal
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=None )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = (path or []) + [u]
for v in graph[u]:
if visited_edge[u][v] is False:
_UpperCAmelCase , _UpperCAmelCase = True, True
_UpperCAmelCase = dfs(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
return path
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[Any]:
"""simple docstring"""
_UpperCAmelCase = 0
_UpperCAmelCase = -1
for i in range(__lowerCAmelCase ):
if i not in graph.keys():
continue
if len(graph[i] ) % 2 == 1:
odd_degree_nodes += 1
_UpperCAmelCase = i
if odd_degree_nodes == 0:
return 1, odd_node
if odd_degree_nodes == 2:
return 2, odd_node
return 3, odd_node
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = [[False for _ in range(max_node + 1 )] for _ in range(max_node + 1 )]
_UpperCAmelCase , _UpperCAmelCase = check_circuit_or_path(__lowerCAmelCase , __lowerCAmelCase )
if check == 3:
print('graph is not Eulerian' )
print('no path' )
return
_UpperCAmelCase = 1
if check == 2:
_UpperCAmelCase = odd_node
print('graph has a Euler path' )
if check == 1:
print('graph has a Euler cycle' )
_UpperCAmelCase = dfs(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
print(__lowerCAmelCase )
def __A ( )-> List[Any]:
"""simple docstring"""
_UpperCAmelCase = {1: [2, 3, 4], 2: [1, 3], 3: [1, 2], 4: [1, 5], 5: [4]}
_UpperCAmelCase = {1: [2, 3, 4, 5], 2: [1, 3], 3: [1, 2], 4: [1, 5], 5: [1, 4]}
_UpperCAmelCase = {1: [2, 3, 4], 2: [1, 3, 4], 3: [1, 2], 4: [1, 2, 5], 5: [4]}
_UpperCAmelCase = {1: [2, 3], 2: [1, 3], 3: [1, 2]}
_UpperCAmelCase = {
1: [],
2: []
# all degree is zero
}
_UpperCAmelCase = 10
check_euler(__lowerCAmelCase , __lowerCAmelCase )
check_euler(__lowerCAmelCase , __lowerCAmelCase )
check_euler(__lowerCAmelCase , __lowerCAmelCase )
check_euler(__lowerCAmelCase , __lowerCAmelCase )
check_euler(__lowerCAmelCase , __lowerCAmelCase )
if __name__ == "__main__":
main()
| 39
|
import json
import os
from typing import Optional
import numpy as np
from ...feature_extraction_utils import BatchFeature
from ...processing_utils import ProcessorMixin
from ...utils import logging
from ...utils.hub import get_file_from_repo
from ..auto import AutoTokenizer
_a = logging.get_logger(__name__)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "AutoTokenizer"
UpperCamelCase__ = ["tokenizer"]
UpperCamelCase__ = {
"semantic_prompt": 1,
"coarse_prompt": 2,
"fine_prompt": 2,
}
def __init__( self , UpperCAmelCase , UpperCAmelCase=None ):
"""simple docstring"""
super().__init__(UpperCAmelCase )
_UpperCAmelCase = speaker_embeddings
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase , UpperCAmelCase="speaker_embeddings_path.json" , **UpperCAmelCase ):
"""simple docstring"""
if speaker_embeddings_dict_path is not None:
_UpperCAmelCase = get_file_from_repo(
UpperCAmelCase , UpperCAmelCase , subfolder=kwargs.pop('subfolder' , UpperCAmelCase ) , cache_dir=kwargs.pop('cache_dir' , UpperCAmelCase ) , force_download=kwargs.pop('force_download' , UpperCAmelCase ) , proxies=kwargs.pop('proxies' , UpperCAmelCase ) , resume_download=kwargs.pop('resume_download' , UpperCAmelCase ) , local_files_only=kwargs.pop('local_files_only' , UpperCAmelCase ) , use_auth_token=kwargs.pop('use_auth_token' , UpperCAmelCase ) , revision=kwargs.pop('revision' , UpperCAmelCase ) , )
if speaker_embeddings_path is None:
logger.warning(
F"""`{os.path.join(UpperCAmelCase , UpperCAmelCase )}` does not exists
, no preloaded speaker embeddings will be used - Make sure to provide a correct path to the json
dictionnary if wanted, otherwise set `speaker_embeddings_dict_path=None`.""" )
_UpperCAmelCase = None
else:
with open(UpperCAmelCase ) as speaker_embeddings_json:
_UpperCAmelCase = json.load(UpperCAmelCase )
else:
_UpperCAmelCase = None
_UpperCAmelCase = AutoTokenizer.from_pretrained(UpperCAmelCase , **UpperCAmelCase )
return cls(tokenizer=UpperCAmelCase , speaker_embeddings=UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase="speaker_embeddings_path.json" , UpperCAmelCase="speaker_embeddings" , UpperCAmelCase = False , **UpperCAmelCase , ):
"""simple docstring"""
if self.speaker_embeddings is not None:
os.makedirs(os.path.join(UpperCAmelCase , UpperCAmelCase , 'v2' ) , exist_ok=UpperCAmelCase )
_UpperCAmelCase = {}
_UpperCAmelCase = save_directory
for prompt_key in self.speaker_embeddings:
if prompt_key != "repo_or_path":
_UpperCAmelCase = self._load_voice_preset(UpperCAmelCase )
_UpperCAmelCase = {}
for key in self.speaker_embeddings[prompt_key]:
np.save(
os.path.join(
embeddings_dict['repo_or_path'] , UpperCAmelCase , F"""{prompt_key}_{key}""" ) , voice_preset[key] , allow_pickle=UpperCAmelCase , )
_UpperCAmelCase = os.path.join(UpperCAmelCase , F"""{prompt_key}_{key}.npy""" )
_UpperCAmelCase = tmp_dict
with open(os.path.join(UpperCAmelCase , UpperCAmelCase ) , 'w' ) as fp:
json.dump(UpperCAmelCase , UpperCAmelCase )
super().save_pretrained(UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase = None , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.speaker_embeddings[voice_preset]
_UpperCAmelCase = {}
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset_paths:
raise ValueError(
F"""Voice preset unrecognized, missing {key} as a key in self.speaker_embeddings[{voice_preset}].""" )
_UpperCAmelCase = get_file_from_repo(
self.speaker_embeddings.get('repo_or_path' , '/' ) , voice_preset_paths[key] , subfolder=kwargs.pop('subfolder' , UpperCAmelCase ) , cache_dir=kwargs.pop('cache_dir' , UpperCAmelCase ) , force_download=kwargs.pop('force_download' , UpperCAmelCase ) , proxies=kwargs.pop('proxies' , UpperCAmelCase ) , resume_download=kwargs.pop('resume_download' , UpperCAmelCase ) , local_files_only=kwargs.pop('local_files_only' , UpperCAmelCase ) , use_auth_token=kwargs.pop('use_auth_token' , UpperCAmelCase ) , revision=kwargs.pop('revision' , UpperCAmelCase ) , )
if path is None:
raise ValueError(
F"""`{os.path.join(self.speaker_embeddings.get("repo_or_path" , "/" ) , voice_preset_paths[key] )}` does not exists
, no preloaded voice preset will be used - Make sure to provide correct paths to the {voice_preset}
embeddings.""" )
_UpperCAmelCase = np.load(UpperCAmelCase )
return voice_preset_dict
def UpperCamelCase ( self , UpperCAmelCase = None ):
"""simple docstring"""
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset:
raise ValueError(F"""Voice preset unrecognized, missing {key} as a key.""" )
if not isinstance(voice_preset[key] , np.ndarray ):
raise ValueError(F"""{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.""" )
if len(voice_preset[key].shape ) != self.preset_shape[key]:
raise ValueError(F"""{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.""" )
def __call__( self , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase="pt" , UpperCAmelCase=256 , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=False , **UpperCAmelCase , ):
"""simple docstring"""
if voice_preset is not None and not isinstance(UpperCAmelCase , UpperCAmelCase ):
if (
isinstance(UpperCAmelCase , UpperCAmelCase )
and self.speaker_embeddings is not None
and voice_preset in self.speaker_embeddings
):
_UpperCAmelCase = self._load_voice_preset(UpperCAmelCase )
else:
if isinstance(UpperCAmelCase , UpperCAmelCase ) and not voice_preset.endswith('.npz' ):
_UpperCAmelCase = voice_preset + '.npz'
_UpperCAmelCase = np.load(UpperCAmelCase )
if voice_preset is not None:
self._validate_voice_preset_dict(UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = BatchFeature(data=UpperCAmelCase , tensor_type=UpperCAmelCase )
_UpperCAmelCase = self.tokenizer(
UpperCAmelCase , return_tensors=UpperCAmelCase , padding='max_length' , max_length=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , add_special_tokens=UpperCAmelCase , **UpperCAmelCase , )
if voice_preset is not None:
_UpperCAmelCase = voice_preset
return encoded_text
| 39
| 1
|
import copy
import re
class __lowerCamelCase :
"""simple docstring"""
UpperCamelCase__ = "hp"
UpperCamelCase__ = {}
UpperCamelCase__ = None
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = prefix
_UpperCAmelCase = defaults
cls.build_naming_info()
@staticmethod
def UpperCamelCase ( UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
if len(UpperCAmelCase ) == 0:
return ""
_UpperCAmelCase = None
if any(char.isdigit() for char in word ):
raise Exception(F"""Parameters should not contain numbers: '{word}' contains a number""" )
if word in info["short_word"]:
return info["short_word"][word]
for prefix_len in range(1 , len(UpperCAmelCase ) + 1 ):
_UpperCAmelCase = word[:prefix_len]
if prefix in info["reverse_short_word"]:
continue
else:
_UpperCAmelCase = prefix
break
if short_word is None:
# Paranoid fallback
def int_to_alphabetic(UpperCAmelCase ):
_UpperCAmelCase = ''
while integer != 0:
_UpperCAmelCase = chr(ord('A' ) + integer % 10 ) + s
integer //= 10
return s
_UpperCAmelCase = 0
while True:
_UpperCAmelCase = word + '#' + int_to_alphabetic(UpperCAmelCase )
if sword in info["reverse_short_word"]:
continue
else:
_UpperCAmelCase = sword
break
_UpperCAmelCase = short_word
_UpperCAmelCase = word
return short_word
@staticmethod
def UpperCamelCase ( UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = param_name.split('_' )
_UpperCAmelCase = [TrialShortNamer.shortname_for_word(UpperCAmelCase , UpperCAmelCase ) for word in words]
# We try to create a separatorless short name, but if there is a collision we have to fallback
# to a separated short name
_UpperCAmelCase = ['', '_']
for separator in separators:
_UpperCAmelCase = separator.join(UpperCAmelCase )
if shortname not in info["reverse_short_param"]:
_UpperCAmelCase = shortname
_UpperCAmelCase = param_name
return shortname
return param_name
@staticmethod
def UpperCamelCase ( UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = TrialShortNamer.shortname_for_key(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = short_name
_UpperCAmelCase = param_name
@classmethod
def UpperCamelCase ( cls ):
"""simple docstring"""
if cls.NAMING_INFO is not None:
return
_UpperCAmelCase = {
'short_word': {},
'reverse_short_word': {},
'short_param': {},
'reverse_short_param': {},
}
_UpperCAmelCase = list(cls.DEFAULTS.keys() )
for k in field_keys:
cls.add_new_param_name(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = info
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase ):
"""simple docstring"""
cls.build_naming_info()
assert cls.PREFIX is not None
_UpperCAmelCase = [copy.copy(cls.PREFIX )]
for k, v in params.items():
if k not in cls.DEFAULTS:
raise Exception(F"""You should provide a default value for the param name {k} with value {v}""" )
if v == cls.DEFAULTS[k]:
# The default value is not added to the name
continue
_UpperCAmelCase = cls.NAMING_INFO['short_param'][k]
if isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = 1 if v else 0
_UpperCAmelCase = '' if isinstance(UpperCAmelCase , (int, float) ) else '-'
_UpperCAmelCase = F"""{key}{sep}{v}"""
name.append(UpperCAmelCase )
return "_".join(UpperCAmelCase )
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = repr[len(cls.PREFIX ) + 1 :]
if repr == "":
_UpperCAmelCase = []
else:
_UpperCAmelCase = repr.split('_' )
_UpperCAmelCase = {}
for value in values:
if "-" in value:
_UpperCAmelCase , _UpperCAmelCase = value.split('-' )
else:
_UpperCAmelCase = re.sub('[0-9.]' , '' , UpperCAmelCase )
_UpperCAmelCase = float(re.sub('[^0-9.]' , '' , UpperCAmelCase ) )
_UpperCAmelCase = cls.NAMING_INFO['reverse_short_param'][p_k]
_UpperCAmelCase = p_v
for k in cls.DEFAULTS:
if k not in parameters:
_UpperCAmelCase = cls.DEFAULTS[k]
return parameters
| 39
|
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'''distilbert-base-uncased''': '''https://huggingface.co/distilbert-base-uncased/resolve/main/config.json''',
'''distilbert-base-uncased-distilled-squad''': (
'''https://huggingface.co/distilbert-base-uncased-distilled-squad/resolve/main/config.json'''
),
'''distilbert-base-cased''': '''https://huggingface.co/distilbert-base-cased/resolve/main/config.json''',
'''distilbert-base-cased-distilled-squad''': (
'''https://huggingface.co/distilbert-base-cased-distilled-squad/resolve/main/config.json'''
),
'''distilbert-base-german-cased''': '''https://huggingface.co/distilbert-base-german-cased/resolve/main/config.json''',
'''distilbert-base-multilingual-cased''': (
'''https://huggingface.co/distilbert-base-multilingual-cased/resolve/main/config.json'''
),
'''distilbert-base-uncased-finetuned-sst-2-english''': (
'''https://huggingface.co/distilbert-base-uncased-finetuned-sst-2-english/resolve/main/config.json'''
),
}
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "distilbert"
UpperCamelCase__ = {
"hidden_size": "dim",
"num_attention_heads": "n_heads",
"num_hidden_layers": "n_layers",
}
def __init__( self , UpperCAmelCase=3_0522 , UpperCAmelCase=512 , UpperCAmelCase=False , UpperCAmelCase=6 , UpperCAmelCase=12 , UpperCAmelCase=768 , UpperCAmelCase=4 * 768 , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=0.02 , UpperCAmelCase=0.1 , UpperCAmelCase=0.2 , UpperCAmelCase=0 , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = vocab_size
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = sinusoidal_pos_embds
_UpperCAmelCase = n_layers
_UpperCAmelCase = n_heads
_UpperCAmelCase = dim
_UpperCAmelCase = hidden_dim
_UpperCAmelCase = dropout
_UpperCAmelCase = attention_dropout
_UpperCAmelCase = activation
_UpperCAmelCase = initializer_range
_UpperCAmelCase = qa_dropout
_UpperCAmelCase = seq_classif_dropout
super().__init__(**UpperCAmelCase , pad_token_id=UpperCAmelCase )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
_UpperCAmelCase = {0: 'batch', 1: 'choice', 2: 'sequence'}
else:
_UpperCAmelCase = {0: 'batch', 1: 'sequence'}
return OrderedDict(
[
('input_ids', dynamic_axis),
('attention_mask', dynamic_axis),
] )
| 39
| 1
|
import os
import pytest
from attr import dataclass
_a = '''us-east-1''' # defaults region
@dataclass
class __lowerCamelCase :
"""simple docstring"""
UpperCamelCase__ = 42
UpperCamelCase__ = "arn:aws:iam::558105141721:role/sagemaker_execution_role"
UpperCamelCase__ = {
"task_name": "mnli",
"per_device_train_batch_size": 16,
"per_device_eval_batch_size": 16,
"do_train": True,
"do_eval": True,
"do_predict": True,
"output_dir": "/opt/ml/model",
"overwrite_output_dir": True,
"max_steps": 500,
"save_steps": 5500,
}
UpperCamelCase__ = {**hyperparameters, "max_steps": 1000}
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.framework == "pytorch":
return [
{"Name": "train_runtime", "Regex": r"train_runtime.*=\D*(.*?)$"},
{"Name": "eval_accuracy", "Regex": r"eval_accuracy.*=\D*(.*?)$"},
{"Name": "eval_loss", "Regex": r"eval_loss.*=\D*(.*?)$"},
]
else:
return [
{"Name": "train_runtime", "Regex": r"train_runtime.*=\D*(.*?)$"},
{"Name": "eval_accuracy", "Regex": r"loss.*=\D*(.*?)]?$"},
{"Name": "eval_loss", "Regex": r"sparse_categorical_accuracy.*=\D*(.*?)]?$"},
]
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return F"""{self.framework}-transfromers-test"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return F"""./tests/sagemaker/scripts/{self.framework}"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.framework == "pytorch":
return "763104351884.dkr.ecr.us-east-1.amazonaws.com/huggingface-pytorch-training:1.7.1-transformers4.6.1-gpu-py36-cu110-ubuntu18.04"
else:
return "763104351884.dkr.ecr.us-east-1.amazonaws.com/huggingface-tensorflow-training:2.4.1-transformers4.6.1-gpu-py37-cu110-ubuntu18.04"
@pytest.fixture(scope='class' )
def __A ( __lowerCAmelCase )-> List[Any]:
"""simple docstring"""
_UpperCAmelCase = SageMakerTestEnvironment(framework=request.cls.framework )
| 39
|
import json
import logging
import os
import sys
from pathlib import Path
import finetune_rag
from transformers.file_utils import is_apex_available
from transformers.testing_utils import (
TestCasePlus,
execute_subprocess_async,
require_ray,
require_torch_gpu,
require_torch_multi_gpu,
)
logging.basicConfig(level=logging.DEBUG)
_a = logging.getLogger()
_a = logging.StreamHandler(sys.stdout)
logger.addHandler(stream_handler)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
os.makedirs(UpperCAmelCase , exist_ok=UpperCAmelCase )
_UpperCAmelCase = {'source': 'What is love ?', 'target': 'life'}
_UpperCAmelCase = {'train': 12, 'val': 2, 'test': 2}
for split in ["train", "test", "val"]:
for field in ["source", "target"]:
_UpperCAmelCase = '\n'.join([contents[field]] * n_lines[split] )
with open(os.path.join(UpperCAmelCase , F"""{split}.{field}""" ) , 'w' ) as f:
f.write(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase = "pytorch" ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'output' )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'data' )
self._create_dummy_data(data_dir=UpperCAmelCase )
_UpperCAmelCase = F"""
--data_dir {data_dir} \
--output_dir {output_dir} \
--model_name_or_path facebook/rag-sequence-base \
--model_type rag_sequence \
--do_train \
--do_predict \
--n_val -1 \
--val_check_interval 1.0 \
--train_batch_size 2 \
--eval_batch_size 1 \
--max_source_length 25 \
--max_target_length 25 \
--val_max_target_length 25 \
--test_max_target_length 25 \
--label_smoothing 0.1 \
--dropout 0.1 \
--attention_dropout 0.1 \
--weight_decay 0.001 \
--adam_epsilon 1e-08 \
--max_grad_norm 0.1 \
--lr_scheduler polynomial \
--learning_rate 3e-04 \
--num_train_epochs 1 \
--warmup_steps 4 \
--gradient_accumulation_steps 1 \
--distributed-port 8787 \
--use_dummy_dataset 1 \
--distributed_retriever {distributed_retriever} \
""".split()
if gpus > 0:
testargs.append(F"""--gpus={gpus}""" )
if is_apex_available():
testargs.append('--fp16' )
else:
testargs.append('--gpus=0' )
testargs.append('--distributed_backend=ddp_cpu' )
testargs.append('--num_processes=2' )
_UpperCAmelCase = [sys.executable, str(Path(finetune_rag.__file__ ).resolve() )] + testargs
execute_subprocess_async(UpperCAmelCase , env=self.get_env() )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'metrics.json' )
with open(UpperCAmelCase ) as f:
_UpperCAmelCase = json.load(UpperCAmelCase )
return result
@require_torch_gpu
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_multi_gpu
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=2 )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_gpu
@require_ray
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 , distributed_retriever='ray' )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_multi_gpu
@require_ray
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 , distributed_retriever='ray' )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
| 39
| 1
|
from __future__ import annotations
import math
def __A ( __lowerCAmelCase )-> bool:
"""simple docstring"""
if 1 < number < 4:
# 2 and 3 are primes
return True
elif number < 2 or number % 2 == 0 or number % 3 == 0:
# Negatives, 0, 1, all even numbers, all multiples of 3 are not primes
return False
# All primes number are in format of 6k +/- 1
for i in range(5 , int(math.sqrt(__lowerCAmelCase ) + 1 ) , 6 ):
if number % i == 0 or number % (i + 2) == 0:
return False
return True
def __A ( __lowerCAmelCase )-> list[int]:
"""simple docstring"""
_UpperCAmelCase = str(__lowerCAmelCase )
_UpperCAmelCase = [n]
for i in range(1 , len(__lowerCAmelCase ) ):
list_nums.append(int(str_num[i:] ) )
list_nums.append(int(str_num[:-i] ) )
return list_nums
def __A ( __lowerCAmelCase )-> bool:
"""simple docstring"""
if len(str(__lowerCAmelCase ) ) > 3:
if not is_prime(int(str(__lowerCAmelCase )[-3:] ) ) or not is_prime(int(str(__lowerCAmelCase )[:3] ) ):
return False
return True
def __A ( __lowerCAmelCase = 11 )-> list[int]:
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase = 13
while len(__lowerCAmelCase ) != count:
if validate(__lowerCAmelCase ):
_UpperCAmelCase = list_truncated_nums(__lowerCAmelCase )
if all(is_prime(__lowerCAmelCase ) for i in list_nums ):
list_truncated_primes.append(__lowerCAmelCase )
num += 2
return list_truncated_primes
def __A ( )-> int:
"""simple docstring"""
return sum(compute_truncated_primes(11 ) )
if __name__ == "__main__":
print(F'''{sum(compute_truncated_primes(11)) = }''')
| 39
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
_UpperCAmelCase = {} # Mapping from char to TrieNode
_UpperCAmelCase = False
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for word in words:
self.insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self
for char in word:
if char not in curr.nodes:
_UpperCAmelCase = TrieNode()
_UpperCAmelCase = curr.nodes[char]
_UpperCAmelCase = True
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self
for char in word:
if char not in curr.nodes:
return False
_UpperCAmelCase = curr.nodes[char]
return curr.is_leaf
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
def _delete(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) -> bool:
if index == len(UpperCAmelCase ):
# If word does not exist
if not curr.is_leaf:
return False
_UpperCAmelCase = False
return len(curr.nodes ) == 0
_UpperCAmelCase = word[index]
_UpperCAmelCase = curr.nodes.get(UpperCAmelCase )
# If char not in current trie node
if not char_node:
return False
# Flag to check if node can be deleted
_UpperCAmelCase = _delete(UpperCAmelCase , UpperCAmelCase , index + 1 )
if delete_curr:
del curr.nodes[char]
return len(curr.nodes ) == 0
return delete_curr
_delete(self , UpperCAmelCase , 0 )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
if node.is_leaf:
print(__lowerCAmelCase , end=' ' )
for key, value in node.nodes.items():
print_words(__lowerCAmelCase , word + key )
def __A ( )-> bool:
"""simple docstring"""
_UpperCAmelCase = 'banana bananas bandana band apple all beast'.split()
_UpperCAmelCase = TrieNode()
root.insert_many(__lowerCAmelCase )
# print_words(root, "")
assert all(root.find(__lowerCAmelCase ) for word in words )
assert root.find('banana' )
assert not root.find('bandanas' )
assert not root.find('apps' )
assert root.find('apple' )
assert root.find('all' )
root.delete('all' )
assert not root.find('all' )
root.delete('banana' )
assert not root.find('banana' )
assert root.find('bananas' )
return True
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
print(str(__lowerCAmelCase ) , 'works!' if passes else 'doesn\'t work :(' )
def __A ( )-> None:
"""simple docstring"""
assert test_trie()
def __A ( )-> None:
"""simple docstring"""
print_results('Testing trie functionality' , test_trie() )
if __name__ == "__main__":
main()
| 39
| 1
|
def __A ( __lowerCAmelCase = 600_851_475_143 )-> int:
"""simple docstring"""
try:
_UpperCAmelCase = int(__lowerCAmelCase )
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.' )
_UpperCAmelCase = 2
_UpperCAmelCase = 0
if n == 2:
return 2
while n > 2:
while n % i != 0:
i += 1
_UpperCAmelCase = i
while n % i == 0:
_UpperCAmelCase = n // i
i += 1
return int(__lowerCAmelCase )
if __name__ == "__main__":
print(F'''{solution() = }''')
| 39
|
import unittest
from transformers import (
MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
Pipeline,
ZeroShotClassificationPipeline,
pipeline,
)
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_tf, require_torch, slow
from .test_pipelines_common import ANY
# These 2 model types require different inputs than those of the usual text models.
_a = {'''LayoutLMv2Config''', '''LayoutLMv3Config'''}
@is_pipeline_test
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
UpperCamelCase__ = TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
if model_mapping is not None:
UpperCamelCase__ = {config: model for config, model in model_mapping.items() if config.__name__ not in _TO_SKIP}
if tf_model_mapping is not None:
UpperCamelCase__ = {
config: model for config, model in tf_model_mapping.items() if config.__name__ not in _TO_SKIP
}
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = ZeroShotClassificationPipeline(
model=UpperCAmelCase , tokenizer=UpperCAmelCase , candidate_labels=['polics', 'health'] )
return classifier, ["Who are you voting for in 2020?", "My stomach hurts."]
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels='politics' )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
# No kwarg
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , ['politics'] )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels=['politics'] )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels='politics, public health' )
self.assertEqual(
UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]} )
self.assertAlmostEqual(sum(nested_simplify(outputs['scores'] ) ) , 1.0 )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels=['politics', 'public health'] )
self.assertEqual(
UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]} )
self.assertAlmostEqual(sum(nested_simplify(outputs['scores'] ) ) , 1.0 )
_UpperCAmelCase = classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template='This text is about {}' )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
# https://github.com/huggingface/transformers/issues/13846
_UpperCAmelCase = classifier(['I am happy'] , ['positive', 'negative'] )
self.assertEqual(
UpperCAmelCase , [
{'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]}
for i in range(1 )
] , )
_UpperCAmelCase = classifier(['I am happy', 'I am sad'] , ['positive', 'negative'] )
self.assertEqual(
UpperCAmelCase , [
{'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]}
for i in range(2 )
] , )
with self.assertRaises(UpperCAmelCase ):
classifier('' , candidate_labels='politics' )
with self.assertRaises(UpperCAmelCase ):
classifier(UpperCAmelCase , candidate_labels='politics' )
with self.assertRaises(UpperCAmelCase ):
classifier('Who are you voting for in 2020?' , candidate_labels='' )
with self.assertRaises(UpperCAmelCase ):
classifier('Who are you voting for in 2020?' , candidate_labels=UpperCAmelCase )
with self.assertRaises(UpperCAmelCase ):
classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template='Not formatting template' , )
with self.assertRaises(UpperCAmelCase ):
classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template=UpperCAmelCase , )
self.run_entailment_id(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = zero_shot_classifier.model.config
_UpperCAmelCase = config.labelaid
_UpperCAmelCase = zero_shot_classifier.entailment_id
_UpperCAmelCase = {'LABEL_0': 0, 'LABEL_1': 1, 'LABEL_2': 2}
self.assertEqual(zero_shot_classifier.entailment_id , -1 )
_UpperCAmelCase = {'entailment': 0, 'neutral': 1, 'contradiction': 2}
self.assertEqual(zero_shot_classifier.entailment_id , 0 )
_UpperCAmelCase = {'ENTAIL': 0, 'NON-ENTAIL': 1}
self.assertEqual(zero_shot_classifier.entailment_id , 0 )
_UpperCAmelCase = {'ENTAIL': 2, 'NEUTRAL': 1, 'CONTR': 0}
self.assertEqual(zero_shot_classifier.entailment_id , 2 )
_UpperCAmelCase = original_labelaid
self.assertEqual(UpperCAmelCase , zero_shot_classifier.entailment_id )
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='pt' , )
# There was a regression in 4.10 for this
# Adding a test so we don't make the mistake again.
# https://github.com/huggingface/transformers/issues/13381#issuecomment-912343499
zero_shot_classifier(
'Who are you voting for in 2020?' * 100 , candidate_labels=['politics', 'public health', 'science'] )
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='pt' , )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['science', 'public health', 'politics'],
'scores': [0.3_33, 0.3_33, 0.3_33],
} , )
@require_tf
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='tf' , )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['science', 'public health', 'politics'],
'scores': [0.3_33, 0.3_33, 0.3_33],
} , )
@slow
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline('zero-shot-classification' , model='roberta-large-mnli' , framework='pt' )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['politics', 'public health', 'science'],
'scores': [0.9_76, 0.0_15, 0.0_09],
} , )
_UpperCAmelCase = zero_shot_classifier(
'The dominant sequence transduction models are based on complex recurrent or convolutional neural networks'
' in an encoder-decoder configuration. The best performing models also connect the encoder and decoder'
' through an attention mechanism. We propose a new simple network architecture, the Transformer, based'
' solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two'
' machine translation tasks show these models to be superior in quality while being more parallelizable'
' and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014'
' English-to-German translation task, improving over the existing best results, including ensembles by'
' over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new'
' single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small'
' fraction of the training costs of the best models from the literature. We show that the Transformer'
' generalizes well to other tasks by applying it successfully to English constituency parsing both with'
' large and limited training data.' , candidate_labels=['machine learning', 'statistics', 'translation', 'vision'] , multi_label=UpperCAmelCase , )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': (
'The dominant sequence transduction models are based on complex recurrent or convolutional neural'
' networks in an encoder-decoder configuration. The best performing models also connect the'
' encoder and decoder through an attention mechanism. We propose a new simple network'
' architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence'
' and convolutions entirely. Experiments on two machine translation tasks show these models to be'
' superior in quality while being more parallelizable and requiring significantly less time to'
' train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task,'
' improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014'
' English-to-French translation task, our model establishes a new single-model state-of-the-art'
' BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training'
' costs of the best models from the literature. We show that the Transformer generalizes well to'
' other tasks by applying it successfully to English constituency parsing both with large and'
' limited training data.'
),
'labels': ['translation', 'machine learning', 'vision', 'statistics'],
'scores': [0.8_17, 0.7_13, 0.0_18, 0.0_18],
} , )
@slow
@require_tf
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline('zero-shot-classification' , model='roberta-large-mnli' , framework='tf' )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['politics', 'public health', 'science'],
'scores': [0.9_76, 0.0_15, 0.0_09],
} , )
_UpperCAmelCase = zero_shot_classifier(
'The dominant sequence transduction models are based on complex recurrent or convolutional neural networks'
' in an encoder-decoder configuration. The best performing models also connect the encoder and decoder'
' through an attention mechanism. We propose a new simple network architecture, the Transformer, based'
' solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two'
' machine translation tasks show these models to be superior in quality while being more parallelizable'
' and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014'
' English-to-German translation task, improving over the existing best results, including ensembles by'
' over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new'
' single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small'
' fraction of the training costs of the best models from the literature. We show that the Transformer'
' generalizes well to other tasks by applying it successfully to English constituency parsing both with'
' large and limited training data.' , candidate_labels=['machine learning', 'statistics', 'translation', 'vision'] , multi_label=UpperCAmelCase , )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': (
'The dominant sequence transduction models are based on complex recurrent or convolutional neural'
' networks in an encoder-decoder configuration. The best performing models also connect the'
' encoder and decoder through an attention mechanism. We propose a new simple network'
' architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence'
' and convolutions entirely. Experiments on two machine translation tasks show these models to be'
' superior in quality while being more parallelizable and requiring significantly less time to'
' train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task,'
' improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014'
' English-to-French translation task, our model establishes a new single-model state-of-the-art'
' BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training'
' costs of the best models from the literature. We show that the Transformer generalizes well to'
' other tasks by applying it successfully to English constituency parsing both with large and'
' limited training data.'
),
'labels': ['translation', 'machine learning', 'vision', 'statistics'],
'scores': [0.8_17, 0.7_13, 0.0_18, 0.0_18],
} , )
| 39
| 1
|
_a = {
"km/h": 1.0,
"m/s": 3.6,
"mph": 1.60_93_44,
"knot": 1.8_52,
}
_a = {
"km/h": 1.0,
"m/s": 0.2_77_77_77_78,
"mph": 0.6_21_37_11_92,
"knot": 0.5_39_95_68_03,
}
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> float:
"""simple docstring"""
if unit_to not in speed_chart or unit_from not in speed_chart_inverse:
_UpperCAmelCase = (
F"""Incorrect 'from_type' or 'to_type' value: {unit_from!r}, {unit_to!r}\n"""
F"""Valid values are: {", ".join(__lowerCAmelCase )}"""
)
raise ValueError(__lowerCAmelCase )
return round(speed * speed_chart[unit_from] * speed_chart_inverse[unit_to] , 3 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
|
import enum
import os
from hashlib import shaaaa
from typing import Optional
from .. import config
from .logging import get_logger
_a = get_logger(__name__)
class __lowerCamelCase ( enum.Enum):
"""simple docstring"""
UpperCamelCase__ = "all_checks"
UpperCamelCase__ = "basic_checks"
UpperCamelCase__ = "no_checks"
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=None )-> str:
"""simple docstring"""
if expected_checksums is None:
logger.info('Unable to verify checksums.' )
return
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise ExpectedMoreDownloadedFiles(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise UnexpectedDownloadedFile(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
_UpperCAmelCase = [url for url in expected_checksums if expected_checksums[url] != recorded_checksums[url]]
_UpperCAmelCase = ' for ' + verification_name if verification_name is not None else ''
if len(__lowerCAmelCase ) > 0:
raise NonMatchingChecksumError(
F"""Checksums didn't match{for_verification_name}:\n"""
F"""{bad_urls}\n"""
'Set `verification_mode=\'no_checks\'` to skip checksums verification and ignore this error' )
logger.info('All the checksums matched successfully' + for_verification_name )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
if expected_splits is None:
logger.info('Unable to verify splits sizes.' )
return
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise ExpectedMoreSplits(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise UnexpectedSplits(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
_UpperCAmelCase = [
{'expected': expected_splits[name], 'recorded': recorded_splits[name]}
for name in expected_splits
if expected_splits[name].num_examples != recorded_splits[name].num_examples
]
if len(__lowerCAmelCase ) > 0:
raise NonMatchingSplitsSizesError(str(__lowerCAmelCase ) )
logger.info('All the splits matched successfully.' )
def __A ( __lowerCAmelCase , __lowerCAmelCase = True )-> dict:
"""simple docstring"""
if record_checksum:
_UpperCAmelCase = shaaaa()
with open(__lowerCAmelCase , 'rb' ) as f:
for chunk in iter(lambda: f.read(1 << 20 ) , b'' ):
m.update(__lowerCAmelCase )
_UpperCAmelCase = m.hexdigest()
else:
_UpperCAmelCase = None
return {"num_bytes": os.path.getsize(__lowerCAmelCase ), "checksum": checksum}
def __A ( __lowerCAmelCase )-> List[str]:
"""simple docstring"""
if dataset_size and config.IN_MEMORY_MAX_SIZE:
return dataset_size < config.IN_MEMORY_MAX_SIZE
else:
return False
| 39
| 1
|
from __future__ import annotations
import inspect
import unittest
import numpy as np
from transformers import ResNetConfig
from transformers.testing_utils import require_tf, require_vision, slow
from transformers.utils import cached_property, is_tf_available, is_vision_available
from ...test_configuration_common import ConfigTester
from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_tf_available():
import tensorflow as tf
from transformers import TFResNetForImageClassification, TFResNetModel
from transformers.models.resnet.modeling_tf_resnet import TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST
if is_vision_available():
from PIL import Image
from transformers import AutoImageProcessor
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=3 , UpperCAmelCase=32 , UpperCAmelCase=3 , UpperCAmelCase=10 , UpperCAmelCase=[10, 20, 30, 40] , UpperCAmelCase=[1, 1, 2, 1] , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase="relu" , UpperCAmelCase=3 , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = image_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embeddings_size
_UpperCAmelCase = hidden_sizes
_UpperCAmelCase = depths
_UpperCAmelCase = is_training
_UpperCAmelCase = use_labels
_UpperCAmelCase = hidden_act
_UpperCAmelCase = num_labels
_UpperCAmelCase = scope
_UpperCAmelCase = len(UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.num_labels )
_UpperCAmelCase = self.get_config()
return config, pixel_values, labels
def UpperCamelCase ( self ):
"""simple docstring"""
return ResNetConfig(
num_channels=self.num_channels , embeddings_size=self.embeddings_size , hidden_sizes=self.hidden_sizes , depths=self.depths , hidden_act=self.hidden_act , num_labels=self.num_labels , image_size=self.image_size , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = TFResNetModel(config=UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase )
# expected last hidden states: B, C, H // 32, W // 32
self.parent.assertEqual(
result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], self.image_size // 32, self.image_size // 32) , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.num_labels
_UpperCAmelCase = TFResNetForImageClassification(UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase , labels=UpperCAmelCase )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'pixel_values': pixel_values}
return config, inputs_dict
@require_tf
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (TFResNetModel, TFResNetForImageClassification) if is_tf_available() else ()
UpperCamelCase__ = (
{"feature-extraction": TFResNetModel, "image-classification": TFResNetForImageClassification}
if is_tf_available()
else {}
)
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFResNetModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , has_text_modality=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCamelCase ( self ):
"""simple docstring"""
return
@unittest.skip(reason='ResNet does not use inputs_embeds' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='ResNet does not support input and output embeddings' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = inspect.signature(model.call )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
_UpperCAmelCase = [*signature.parameters.keys()]
_UpperCAmelCase = ['pixel_values']
self.assertListEqual(arg_names[:1] , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
def check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = model(**self._prepare_for_class(UpperCAmelCase , UpperCAmelCase ) )
_UpperCAmelCase = outputs.encoder_hidden_states if config.is_encoder_decoder else outputs.hidden_states
_UpperCAmelCase = self.model_tester.num_stages
self.assertEqual(len(UpperCAmelCase ) , expected_num_stages + 1 )
# ResNet's feature maps are of shape (batch_size, num_channels, height, width)
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) , [self.model_tester.image_size // 4, self.model_tester.image_size // 4] , )
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = ['basic', 'bottleneck']
for model_class in self.all_model_classes:
for layer_type in layers_type:
_UpperCAmelCase = layer_type
_UpperCAmelCase = True
check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*UpperCAmelCase )
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
for model_name in TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
_UpperCAmelCase = TFResNetModel.from_pretrained(UpperCAmelCase )
self.assertIsNotNone(UpperCAmelCase )
def __A ( )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = Image.open('./tests/fixtures/tests_samples/COCO/000000039769.png' )
return image
@require_tf
@require_vision
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@cached_property
def UpperCamelCase ( self ):
"""simple docstring"""
return (
AutoImageProcessor.from_pretrained(TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[0] )
if is_vision_available()
else None
)
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFResNetForImageClassification.from_pretrained(TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[0] )
_UpperCAmelCase = self.default_image_processor
_UpperCAmelCase = prepare_img()
_UpperCAmelCase = image_processor(images=UpperCAmelCase , return_tensors='tf' )
# forward pass
_UpperCAmelCase = model(**UpperCAmelCase )
# verify the logits
_UpperCAmelCase = tf.TensorShape((1, 1000) )
self.assertEqual(outputs.logits.shape , UpperCAmelCase )
_UpperCAmelCase = tf.constant([-11.10_69, -9.78_77, -8.37_77] )
self.assertTrue(np.allclose(outputs.logits[0, :3].numpy() , UpperCAmelCase , atol=1e-4 ) )
| 39
|
import collections
import inspect
import unittest
from typing import Dict, List, Tuple
from transformers import MaskFormerSwinConfig
from transformers.testing_utils import require_torch, require_torch_multi_gpu, torch_device
from transformers.utils import is_torch_available
from ...test_backbone_common import BackboneTesterMixin
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from torch import nn
from transformers import MaskFormerSwinBackbone
from transformers.models.maskformer import MaskFormerSwinModel
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=13 , UpperCAmelCase=32 , UpperCAmelCase=2 , UpperCAmelCase=3 , UpperCAmelCase=16 , UpperCAmelCase=[1, 2, 1] , UpperCAmelCase=[2, 2, 4] , UpperCAmelCase=2 , UpperCAmelCase=2.0 , UpperCAmelCase=True , UpperCAmelCase=0.0 , UpperCAmelCase=0.0 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=0.02 , UpperCAmelCase=1e-5 , UpperCAmelCase=True , UpperCAmelCase=None , UpperCAmelCase=True , UpperCAmelCase=10 , UpperCAmelCase=8 , UpperCAmelCase=["stage1", "stage2", "stage3"] , UpperCAmelCase=[1, 2, 3] , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = image_size
_UpperCAmelCase = patch_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embed_dim
_UpperCAmelCase = depths
_UpperCAmelCase = num_heads
_UpperCAmelCase = window_size
_UpperCAmelCase = mlp_ratio
_UpperCAmelCase = qkv_bias
_UpperCAmelCase = hidden_dropout_prob
_UpperCAmelCase = attention_probs_dropout_prob
_UpperCAmelCase = drop_path_rate
_UpperCAmelCase = hidden_act
_UpperCAmelCase = use_absolute_embeddings
_UpperCAmelCase = patch_norm
_UpperCAmelCase = layer_norm_eps
_UpperCAmelCase = initializer_range
_UpperCAmelCase = is_training
_UpperCAmelCase = scope
_UpperCAmelCase = use_labels
_UpperCAmelCase = type_sequence_label_size
_UpperCAmelCase = encoder_stride
_UpperCAmelCase = out_features
_UpperCAmelCase = out_indices
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.type_sequence_label_size )
_UpperCAmelCase = self.get_config()
return config, pixel_values, labels
def UpperCamelCase ( self ):
"""simple docstring"""
return MaskFormerSwinConfig(
image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , embed_dim=self.embed_dim , depths=self.depths , num_heads=self.num_heads , window_size=self.window_size , mlp_ratio=self.mlp_ratio , qkv_bias=self.qkv_bias , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , drop_path_rate=self.drop_path_rate , hidden_act=self.hidden_act , use_absolute_embeddings=self.use_absolute_embeddings , path_norm=self.patch_norm , layer_norm_eps=self.layer_norm_eps , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , out_features=self.out_features , out_indices=self.out_indices , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModel(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase )
_UpperCAmelCase = ((config.image_size // config.patch_size) ** 2) // (4 ** (len(config.depths ) - 1))
_UpperCAmelCase = int(config.embed_dim * 2 ** (len(config.depths ) - 1) )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, expected_seq_len, expected_dim) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinBackbone(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase )
# verify feature maps
self.parent.assertEqual(len(result.feature_maps ) , len(config.out_features ) )
self.parent.assertListEqual(list(result.feature_maps[0].shape ) , [13, 16, 16, 16] )
# verify channels
self.parent.assertEqual(len(model.channels ) , len(config.out_features ) )
self.parent.assertListEqual(model.channels , [16, 32, 64] )
# verify ValueError
with self.parent.assertRaises(UpperCAmelCase ):
_UpperCAmelCase = ['stem']
_UpperCAmelCase = MaskFormerSwinBackbone(config=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'pixel_values': pixel_values}
return config, inputs_dict
@require_torch
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (
(
MaskFormerSwinModel,
MaskFormerSwinBackbone,
)
if is_torch_available()
else ()
)
UpperCamelCase__ = {"feature-extraction": MaskFormerSwinModel} if is_torch_available() else {}
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , embed_dim=37 )
@require_torch_multi_gpu
@unittest.skip(
reason=(
'`MaskFormerSwinModel` outputs `hidden_states_spatial_dimensions` which doesn\'t work well with'
' `nn.DataParallel`'
) )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCamelCase ( self ):
"""simple docstring"""
return
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_backbone(*UpperCAmelCase )
@unittest.skip('Swin does not use inputs_embeds' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip('Swin does not support feedforward chunking' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
self.assertIsInstance(model.get_input_embeddings() , (nn.Module) )
_UpperCAmelCase = model.get_output_embeddings()
self.assertTrue(x is None or isinstance(UpperCAmelCase , nn.Linear ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
_UpperCAmelCase = [*signature.parameters.keys()]
_UpperCAmelCase = ['pixel_values']
self.assertListEqual(arg_names[:1] , UpperCAmelCase )
@unittest.skip(reason='MaskFormerSwin is only used as backbone and doesn\'t support output_attentions' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='MaskFormerSwin is only used as an internal backbone' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = model_class(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
with torch.no_grad():
_UpperCAmelCase = model(**self._prepare_for_class(UpperCAmelCase , UpperCAmelCase ) )
_UpperCAmelCase = outputs.hidden_states
_UpperCAmelCase = getattr(
self.model_tester , 'expected_num_hidden_layers' , len(self.model_tester.depths ) + 1 )
self.assertEqual(len(UpperCAmelCase ) , UpperCAmelCase )
# Swin has a different seq_length
_UpperCAmelCase = (
config.patch_size
if isinstance(config.patch_size , collections.abc.Iterable )
else (config.patch_size, config.patch_size)
)
_UpperCAmelCase = (image_size[1] // patch_size[1]) * (image_size[0] // patch_size[0])
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) , [num_patches, self.model_tester.embed_dim] , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = (
self.model_tester.image_size
if isinstance(self.model_tester.image_size , collections.abc.Iterable )
else (self.model_tester.image_size, self.model_tester.image_size)
)
for model_class in self.all_model_classes:
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = 3
_UpperCAmelCase = (
self.model_tester.image_size
if isinstance(self.model_tester.image_size , collections.abc.Iterable )
else (self.model_tester.image_size, self.model_tester.image_size)
)
_UpperCAmelCase = (
config.patch_size
if isinstance(config.patch_size , collections.abc.Iterable )
else (config.patch_size, config.patch_size)
)
_UpperCAmelCase = image_size[0] + patch_size[0] - (image_size[0] % patch_size[0])
_UpperCAmelCase = image_size[1] + patch_size[1] - (image_size[1] % patch_size[1])
for model_class in self.all_model_classes:
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , (padded_height, padded_width) )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , (padded_height, padded_width) )
@unittest.skip(reason='MaskFormerSwin doesn\'t have pretrained checkpoints' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='This will be fixed once MaskFormerSwin is replaced by native Swin' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='This will be fixed once MaskFormerSwin is replaced by native Swin' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
def set_nan_tensor_to_zero(UpperCAmelCase ):
_UpperCAmelCase = 0
return t
def check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase={} ):
with torch.no_grad():
_UpperCAmelCase = model(**UpperCAmelCase , return_dict=UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = model(**UpperCAmelCase , return_dict=UpperCAmelCase , **UpperCAmelCase ).to_tuple()
def recursive_check(UpperCAmelCase , UpperCAmelCase ):
if isinstance(UpperCAmelCase , (List, Tuple) ):
for tuple_iterable_value, dict_iterable_value in zip(UpperCAmelCase , UpperCAmelCase ):
recursive_check(UpperCAmelCase , UpperCAmelCase )
elif isinstance(UpperCAmelCase , UpperCAmelCase ):
for tuple_iterable_value, dict_iterable_value in zip(
tuple_object.values() , dict_object.values() ):
recursive_check(UpperCAmelCase , UpperCAmelCase )
elif tuple_object is None:
return
else:
self.assertTrue(
torch.allclose(
set_nan_tensor_to_zero(UpperCAmelCase ) , set_nan_tensor_to_zero(UpperCAmelCase ) , atol=1e-5 ) , msg=(
'Tuple and dict output are not equal. Difference:'
F""" {torch.max(torch.abs(tuple_object - dict_object ) )}. Tuple has `nan`:"""
F""" {torch.isnan(UpperCAmelCase ).any()} and `inf`: {torch.isinf(UpperCAmelCase )}. Dict has"""
F""" `nan`: {torch.isnan(UpperCAmelCase ).any()} and `inf`: {torch.isinf(UpperCAmelCase )}."""
) , )
recursive_check(UpperCAmelCase , UpperCAmelCase )
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , {'output_hidden_states': True} )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , {'output_hidden_states': True} )
@require_torch
class __lowerCamelCase ( unittest.TestCase , snake_case__):
"""simple docstring"""
UpperCamelCase__ = (MaskFormerSwinBackbone,) if is_torch_available() else ()
UpperCamelCase__ = MaskFormerSwinConfig
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModelTester(self )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = inputs_dict['pixel_values'].shape[0]
for backbone_class in self.all_model_classes:
_UpperCAmelCase = backbone_class(UpperCAmelCase )
backbone.to(UpperCAmelCase )
backbone.eval()
_UpperCAmelCase = backbone(**UpperCAmelCase )
# Test default outputs and verify feature maps
self.assertIsInstance(outputs.feature_maps , UpperCAmelCase )
self.assertTrue(len(outputs.feature_maps ) == len(backbone.channels ) )
for feature_map, n_channels in zip(outputs.feature_maps , backbone.channels ):
self.assertTrue(feature_map.shape[:2] , (batch_size, n_channels) )
self.assertIsNone(outputs.hidden_states )
self.assertIsNone(outputs.attentions )
# Test output_hidden_states=True
_UpperCAmelCase = backbone(**UpperCAmelCase , output_hidden_states=UpperCAmelCase )
self.assertIsNotNone(outputs.hidden_states )
self.assertTrue(len(outputs.hidden_states ) , len(backbone.stage_names ) )
# We skip the stem layer
for hidden_states, n_channels in zip(outputs.hidden_states[1:] , backbone.channels ):
for hidden_state in hidden_states:
# Hidden states are in the format (batch_size, (height * width), n_channels)
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = hidden_state.shape
self.assertTrue((h_batch_size, h_n_channels) , (batch_size, n_channels) )
# Test output_attentions=True
if self.has_attentions:
_UpperCAmelCase = backbone(**UpperCAmelCase , output_attentions=UpperCAmelCase )
self.assertIsNotNone(outputs.attentions )
| 39
| 1
|
def __A ( __lowerCAmelCase )-> int:
"""simple docstring"""
if not isinstance(__lowerCAmelCase , __lowerCAmelCase ):
raise ValueError('multiplicative_persistence() only accepts integral values' )
if num < 0:
raise ValueError('multiplicative_persistence() does not accept negative values' )
_UpperCAmelCase = 0
_UpperCAmelCase = str(__lowerCAmelCase )
while len(__lowerCAmelCase ) != 1:
_UpperCAmelCase = [int(__lowerCAmelCase ) for i in num_string]
_UpperCAmelCase = 1
for i in range(0 , len(__lowerCAmelCase ) ):
total *= numbers[i]
_UpperCAmelCase = str(__lowerCAmelCase )
steps += 1
return steps
def __A ( __lowerCAmelCase )-> int:
"""simple docstring"""
if not isinstance(__lowerCAmelCase , __lowerCAmelCase ):
raise ValueError('additive_persistence() only accepts integral values' )
if num < 0:
raise ValueError('additive_persistence() does not accept negative values' )
_UpperCAmelCase = 0
_UpperCAmelCase = str(__lowerCAmelCase )
while len(__lowerCAmelCase ) != 1:
_UpperCAmelCase = [int(__lowerCAmelCase ) for i in num_string]
_UpperCAmelCase = 0
for i in range(0 , len(__lowerCAmelCase ) ):
total += numbers[i]
_UpperCAmelCase = str(__lowerCAmelCase )
steps += 1
return steps
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
|
import os
import unittest
from transformers.models.transfo_xl.tokenization_transfo_xl import VOCAB_FILES_NAMES, TransfoXLTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = TransfoXLTokenizer
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
super().setUp()
_UpperCAmelCase = [
'<unk>',
'[CLS]',
'[SEP]',
'want',
'unwanted',
'wa',
'un',
'running',
',',
'low',
'l',
]
_UpperCAmelCase = 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 UpperCamelCase ( self , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = True
return TransfoXLTokenizer.from_pretrained(self.tmpdirname , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = '<unk> UNwanted , running'
_UpperCAmelCase = '<unk> unwanted, running'
return input_text, output_text
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(vocab_file=self.vocab_file , lower_case=UpperCAmelCase )
_UpperCAmelCase = tokenizer.tokenize('<unk> UNwanted , running' )
self.assertListEqual(UpperCAmelCase , ['<unk>', 'unwanted', ',', 'running'] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase ) , [0, 4, 8, 7] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
self.assertListEqual(
tokenizer.tokenize(' \tHeLLo ! how \n Are yoU ? ' ) , ['hello', '!', 'how', 'are', 'you', '?'] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
self.assertListEqual(
tokenizer.tokenize(' \tHeLLo ! how \n Are yoU ? ' ) , ['HeLLo', '!', 'how', 'Are', 'yoU', '?'] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
_UpperCAmelCase = 'Hello (bracket) and side-scrolled [and] Henry\'s $5,000 with 3.34 m. What\'s up!?'
_UpperCAmelCase = [
'Hello',
'(',
'bracket',
')',
'and',
'side',
'@-@',
'scrolled',
'[',
'and',
']',
'Henry',
'\'s',
'$',
'5',
'@,@',
'000',
'with',
'3',
'@.@',
'34',
'm',
'.',
'What',
'\'s',
'up',
'!',
'?',
]
self.assertListEqual(tokenizer.tokenize(UpperCAmelCase ) , UpperCAmelCase )
self.assertEqual(tokenizer.convert_tokens_to_string(UpperCAmelCase ) , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_tokenizer()
_UpperCAmelCase = len(UpperCAmelCase )
tokenizer.add_tokens(['new1', 'new2'] )
tokenizer.move_added_token('new1' , 1 )
# Check that moved token is not copied (duplicate)
self.assertEqual(len(UpperCAmelCase ) , original_len + 2 )
# Check that token is moved to specified id
self.assertEqual(tokenizer.encode('new1' ) , [1] )
self.assertEqual(tokenizer.decode([1] ) , 'new1' )
| 39
| 1
|
def __A ( __lowerCAmelCase )-> List[str]:
"""simple docstring"""
if not head:
return True
# split the list to two parts
_UpperCAmelCase , _UpperCAmelCase = head.next, head
while fast and fast.next:
_UpperCAmelCase = fast.next.next
_UpperCAmelCase = slow.next
_UpperCAmelCase = slow.next
_UpperCAmelCase = None # Don't forget here! But forget still works!
# reverse the second part
_UpperCAmelCase = None
while second:
_UpperCAmelCase = second.next
_UpperCAmelCase = node
_UpperCAmelCase = second
_UpperCAmelCase = nxt
# compare two parts
# second part has the same or one less node
while node:
if node.val != head.val:
return False
_UpperCAmelCase = node.next
_UpperCAmelCase = head.next
return True
def __A ( __lowerCAmelCase )-> List[Any]:
"""simple docstring"""
if not head or not head.next:
return True
# 1. Get the midpoint (slow)
_UpperCAmelCase = _UpperCAmelCase = _UpperCAmelCase = head
while fast and fast.next:
_UpperCAmelCase , _UpperCAmelCase = fast.next.next, slow.next
# 2. Push the second half into the stack
_UpperCAmelCase = [slow.val]
while slow.next:
_UpperCAmelCase = slow.next
stack.append(slow.val )
# 3. Comparison
while stack:
if stack.pop() != cur.val:
return False
_UpperCAmelCase = cur.next
return True
def __A ( __lowerCAmelCase )-> int:
"""simple docstring"""
if not head or not head.next:
return True
_UpperCAmelCase = {}
_UpperCAmelCase = 0
while head:
if head.val in d:
d[head.val].append(__lowerCAmelCase )
else:
_UpperCAmelCase = [pos]
_UpperCAmelCase = head.next
pos += 1
_UpperCAmelCase = pos - 1
_UpperCAmelCase = 0
for v in d.values():
if len(__lowerCAmelCase ) % 2 != 0:
middle += 1
else:
_UpperCAmelCase = 0
for i in range(0 , len(__lowerCAmelCase ) ):
if v[i] + v[len(__lowerCAmelCase ) - 1 - step] != checksum:
return False
step += 1
if middle > 1:
return False
return True
| 39
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
_a = {'''configuration_opt''': ['''OPT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''OPTConfig''']}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''OPT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''OPTForCausalLM''',
'''OPTModel''',
'''OPTPreTrainedModel''',
'''OPTForSequenceClassification''',
'''OPTForQuestionAnswering''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['''TFOPTForCausalLM''', '''TFOPTModel''', '''TFOPTPreTrainedModel''']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''FlaxOPTForCausalLM''',
'''FlaxOPTModel''',
'''FlaxOPTPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_opt import OPT_PRETRAINED_CONFIG_ARCHIVE_MAP, OPTConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_opt import (
OPT_PRETRAINED_MODEL_ARCHIVE_LIST,
OPTForCausalLM,
OPTForQuestionAnswering,
OPTForSequenceClassification,
OPTModel,
OPTPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_opt import TFOPTForCausalLM, TFOPTModel, TFOPTPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_opt import FlaxOPTForCausalLM, FlaxOPTModel, FlaxOPTPreTrainedModel
else:
import sys
_a = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 39
| 1
|
def __A ( __lowerCAmelCase )-> int:
"""simple docstring"""
if not grid or not grid[0]:
raise TypeError('The grid does not contain the appropriate information' )
for cell_n in range(1 , len(grid[0] ) ):
grid[0][cell_n] += grid[0][cell_n - 1]
_UpperCAmelCase = grid[0]
for row_n in range(1 , len(__lowerCAmelCase ) ):
_UpperCAmelCase = grid[row_n]
_UpperCAmelCase = fill_row(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = grid[row_n]
return grid[-1][-1]
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> list:
"""simple docstring"""
current_row[0] += row_above[0]
for cell_n in range(1 , len(__lowerCAmelCase ) ):
current_row[cell_n] += min(current_row[cell_n - 1] , row_above[cell_n] )
return current_row
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
|
import warnings
from pathlib import Path
from typing import List, Tuple, Union
import fire
from torch import nn
from transformers import AutoModelForSeqaSeqLM, AutoTokenizer, PreTrainedModel
from transformers.utils import logging
_a = logging.get_logger(__name__)
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
_UpperCAmelCase = nn.ModuleList([src_layers[i] for i in layers_to_copy] )
assert len(__lowerCAmelCase ) == len(__lowerCAmelCase ), F"""{len(__lowerCAmelCase )} != {len(__lowerCAmelCase )}"""
dest_layers.load_state_dict(layers_to_copy.state_dict() )
_a = {
# maps num layers in teacher -> num_layers in student -> which teacher layers to copy.
# 12: bart, 16: pegasus, 6: marian/Helsinki-NLP
12: {
1: [0], # This says that if the teacher has 12 layers and the student has 1, copy layer 0 of the teacher
2: [0, 6],
3: [0, 6, 11],
4: [0, 4, 8, 11],
6: [0, 2, 4, 7, 9, 11],
9: [0, 1, 2, 4, 5, 7, 9, 10, 11],
12: list(range(12)),
},
16: { # maps num layers in student -> which teacher layers to copy
1: [0],
2: [0, 15],
3: [0, 8, 15],
4: [0, 5, 10, 15],
6: [0, 3, 6, 9, 12, 15],
8: [0, 2, 4, 6, 8, 10, 12, 15],
9: [0, 1, 3, 5, 7, 9, 11, 13, 15],
12: [0, 1, 2, 3, 4, 5, 6, 7, 9, 11, 13, 15],
16: list(range(16)),
},
6: {1: [0], 2: [0, 5], 3: [0, 2, 5], 4: [0, 1, 3, 5], 6: list(range(6))},
}
_a = {
# maps num layers in student -> which teacher layers to copy.
6: {1: [5], 2: [3, 5], 3: [1, 4, 5], 4: [1, 2, 4, 5]},
12: {1: [11], 2: [5, 11], 3: [3, 7, 11], 6: [1, 3, 5, 8, 10, 11]},
16: {1: [15], 4: [4, 9, 12, 15], 8: [1, 3, 5, 7, 9, 11, 13, 15]},
}
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Dict:
"""simple docstring"""
try:
_UpperCAmelCase = LAYERS_TO_COPY[n_teacher][n_student]
return val
except KeyError:
if n_student != n_teacher:
warnings.warn(
F"""no hardcoded layers to copy for teacher {n_teacher} -> student {n_student}, defaulting to first"""
F""" {n_student}""" )
return list(range(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[int]:
"""simple docstring"""
if n_student > n_teacher:
raise ValueError(F"""Cannot perform intermediate supervision for student {n_student} > teacher {n_teacher}""" )
elif n_teacher == n_student:
return list(range(__lowerCAmelCase ) )
elif n_student == 1:
return [n_teacher - 1]
else:
return LAYERS_TO_SUPERVISE[n_teacher][n_student]
def __A ( __lowerCAmelCase , __lowerCAmelCase = "student" , __lowerCAmelCase = None , __lowerCAmelCase = None , __lowerCAmelCase=False , __lowerCAmelCase=None , __lowerCAmelCase=None , **__lowerCAmelCase , )-> Tuple[PreTrainedModel, List[int], List[int]]:
"""simple docstring"""
_UpperCAmelCase = 'encoder_layers and decoder_layers cannot be both None-- you would just have an identical teacher.'
assert (e is not None) or (d is not None), _msg
if isinstance(__lowerCAmelCase , __lowerCAmelCase ):
AutoTokenizer.from_pretrained(__lowerCAmelCase ).save_pretrained(__lowerCAmelCase ) # purely for convenience
_UpperCAmelCase = AutoModelForSeqaSeqLM.from_pretrained(__lowerCAmelCase ).eval()
else:
assert isinstance(__lowerCAmelCase , __lowerCAmelCase ), F"""teacher must be a model or string got type {type(__lowerCAmelCase )}"""
_UpperCAmelCase = teacher.config.to_diff_dict()
try:
_UpperCAmelCase , _UpperCAmelCase = teacher.config.encoder_layers, teacher.config.decoder_layers
if e is None:
_UpperCAmelCase = teacher_e
if d is None:
_UpperCAmelCase = teacher_d
init_kwargs.update({'encoder_layers': e, 'decoder_layers': d} )
except AttributeError: # T5
if hasattr(teacher.config , 'num_encoder_layers' ):
_UpperCAmelCase , _UpperCAmelCase = teacher.config.num_encoder_layers, teacher.config.num_decoder_layers
else:
_UpperCAmelCase , _UpperCAmelCase = teacher.config.num_layers, teacher.config.num_decoder_layers
if e is None:
_UpperCAmelCase = teacher_e
if d is None:
_UpperCAmelCase = teacher_d
if hasattr(teacher.config , 'num_encoder_layers' ):
init_kwargs.update({'num_encoder_layers': e, 'num_decoder_layers': d} )
else:
init_kwargs.update({'num_layers': e, 'num_decoder_layers': d} )
# Kwargs to instantiate student: teacher kwargs with updated layer numbers + **extra_config_kwargs
init_kwargs.update(__lowerCAmelCase )
# Copy weights
_UpperCAmelCase = teacher.config_class(**__lowerCAmelCase )
_UpperCAmelCase = AutoModelForSeqaSeqLM.from_config(__lowerCAmelCase )
# Start by copying the full teacher state dict this will copy the first N teacher layers to the student.
_UpperCAmelCase = student.load_state_dict(teacher.state_dict() , strict=__lowerCAmelCase )
assert info.missing_keys == [], info.missing_keys # every student key should have a teacher keys.
if copy_first_teacher_layers: # Our copying is done. We just log and save
_UpperCAmelCase , _UpperCAmelCase = list(range(__lowerCAmelCase ) ), list(range(__lowerCAmelCase ) )
logger.info(
F"""Copied encoder layers {e_layers_to_copy} and decoder layers {d_layers_to_copy}. Saving them to"""
F""" {save_path}""" )
student.save_pretrained(__lowerCAmelCase )
return student, e_layers_to_copy, d_layers_to_copy
# Decide which layers of the teacher to copy. Not exactly alternating -- we try to keep first and last layer.
if e_layers_to_copy is None:
_UpperCAmelCase = pick_layers_to_copy(__lowerCAmelCase , __lowerCAmelCase )
if d_layers_to_copy is None:
_UpperCAmelCase = pick_layers_to_copy(__lowerCAmelCase , __lowerCAmelCase )
try:
if hasattr(
__lowerCAmelCase , 'prophetnet' ): # For ProphetNet, student.model.encoder.layers is called student.prophetnet.encoder.layers
copy_layers(teacher.prophetnet.encoder.layers , student.prophetnet.encoder.layers , __lowerCAmelCase )
copy_layers(teacher.prophetnet.decoder.layers , student.prophetnet.decoder.layers , __lowerCAmelCase )
else:
copy_layers(teacher.model.encoder.layers , student.model.encoder.layers , __lowerCAmelCase )
copy_layers(teacher.model.decoder.layers , student.model.decoder.layers , __lowerCAmelCase )
except AttributeError: # For t5, student.model.encoder.layers is called student.encoder.block
copy_layers(teacher.encoder.block , student.encoder.block , __lowerCAmelCase )
copy_layers(teacher.decoder.block , student.decoder.block , __lowerCAmelCase )
logger.info(
F"""Copied encoder layers {e_layers_to_copy} and decoder layers {d_layers_to_copy}. Saving them to {save_path}""" )
_UpperCAmelCase = {
'teacher_type': teacher.config.model_type,
'copied_encoder_layers': e_layers_to_copy,
'copied_decoder_layers': d_layers_to_copy,
}
student.save_pretrained(__lowerCAmelCase )
# Save information about copying for easier reproducibility
return student, e_layers_to_copy, d_layers_to_copy
if __name__ == "__main__":
fire.Fire(create_student_by_copying_alternating_layers)
| 39
| 1
|
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from diffusers import (
DDIMScheduler,
KandinskyVaaInpaintPipeline,
KandinskyVaaPriorPipeline,
UNetaDConditionModel,
VQModel,
)
from diffusers.utils import floats_tensor, load_image, load_numpy, slow, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference
enable_full_determinism()
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = KandinskyVaaInpaintPipeline
UpperCamelCase__ = ["image_embeds", "negative_image_embeds", "image", "mask_image"]
UpperCamelCase__ = [
"image_embeds",
"negative_image_embeds",
"image",
"mask_image",
]
UpperCamelCase__ = [
"generator",
"height",
"width",
"latents",
"guidance_scale",
"num_inference_steps",
"return_dict",
"guidance_scale",
"num_images_per_prompt",
"output_type",
"return_dict",
]
UpperCamelCase__ = False
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return 32
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return 32
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return self.time_input_dim
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return self.time_input_dim * 4
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return 100
@property
def UpperCamelCase ( self ):
"""simple docstring"""
torch.manual_seed(0 )
_UpperCAmelCase = {
'in_channels': 9,
# 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,
}
_UpperCAmelCase = UNetaDConditionModel(**UpperCAmelCase )
return model
@property
def UpperCamelCase ( self ):
"""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 UpperCamelCase ( self ):
"""simple docstring"""
torch.manual_seed(0 )
_UpperCAmelCase = VQModel(**self.dummy_movq_kwargs )
return model
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.dummy_unet
_UpperCAmelCase = self.dummy_movq
_UpperCAmelCase = DDIMScheduler(
num_train_timesteps=1000 , beta_schedule='linear' , beta_start=0.0_00_85 , beta_end=0.0_12 , clip_sample=UpperCAmelCase , set_alpha_to_one=UpperCAmelCase , steps_offset=1 , prediction_type='epsilon' , thresholding=UpperCAmelCase , )
_UpperCAmelCase = {
'unet': unet,
'scheduler': scheduler,
'movq': movq,
}
return components
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=0 ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(UpperCAmelCase ) ).to(UpperCAmelCase )
_UpperCAmelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(seed + 1 ) ).to(
UpperCAmelCase )
# create init_image
_UpperCAmelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(UpperCAmelCase ) ).to(UpperCAmelCase )
_UpperCAmelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0]
_UpperCAmelCase = Image.fromarray(np.uinta(UpperCAmelCase ) ).convert('RGB' ).resize((256, 256) )
# create mask
_UpperCAmelCase = np.ones((64, 64) , dtype=np.floataa )
_UpperCAmelCase = 0
if str(UpperCAmelCase ).startswith('mps' ):
_UpperCAmelCase = torch.manual_seed(UpperCAmelCase )
else:
_UpperCAmelCase = torch.Generator(device=UpperCAmelCase ).manual_seed(UpperCAmelCase )
_UpperCAmelCase = {
'image': init_image,
'mask_image': mask,
'image_embeds': image_embeds,
'negative_image_embeds': negative_image_embeds,
'generator': generator,
'height': 64,
'width': 64,
'num_inference_steps': 2,
'guidance_scale': 4.0,
'output_type': 'np',
}
return inputs
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = 'cpu'
_UpperCAmelCase = self.get_dummy_components()
_UpperCAmelCase = self.pipeline_class(**UpperCAmelCase )
_UpperCAmelCase = pipe.to(UpperCAmelCase )
pipe.set_progress_bar_config(disable=UpperCAmelCase )
_UpperCAmelCase = pipe(**self.get_dummy_inputs(UpperCAmelCase ) )
_UpperCAmelCase = output.images
_UpperCAmelCase = pipe(
**self.get_dummy_inputs(UpperCAmelCase ) , return_dict=UpperCAmelCase , )[0]
_UpperCAmelCase = image[0, -3:, -3:, -1]
_UpperCAmelCase = image_from_tuple[0, -3:, -3:, -1]
print(F"""image.shape {image.shape}""" )
assert image.shape == (1, 64, 64, 3)
_UpperCAmelCase = np.array(
[0.50_77_59_03, 0.49_52_71_95, 0.48_82_45_43, 0.50_19_22_37, 0.48_64_49_06, 0.49_37_38_14, 0.4_78_05_98, 0.47_23_48_27, 0.48_32_78_48] )
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()}"""
def UpperCamelCase ( self ):
"""simple docstring"""
super().test_inference_batch_single_identical(expected_max_diff=3e-3 )
@slow
@require_torch_gpu
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = load_numpy(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main'
'/kandinskyv22/kandinskyv22_inpaint_cat_with_hat_fp16.npy' )
_UpperCAmelCase = load_image(
'https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main' '/kandinsky/cat.png' )
_UpperCAmelCase = np.ones((768, 768) , dtype=np.floataa )
_UpperCAmelCase = 0
_UpperCAmelCase = 'a hat'
_UpperCAmelCase = KandinskyVaaPriorPipeline.from_pretrained(
'kandinsky-community/kandinsky-2-2-prior' , torch_dtype=torch.floataa )
pipe_prior.to(UpperCAmelCase )
_UpperCAmelCase = KandinskyVaaInpaintPipeline.from_pretrained(
'kandinsky-community/kandinsky-2-2-decoder-inpaint' , torch_dtype=torch.floataa )
_UpperCAmelCase = pipeline.to(UpperCAmelCase )
pipeline.set_progress_bar_config(disable=UpperCAmelCase )
_UpperCAmelCase = torch.Generator(device='cpu' ).manual_seed(0 )
_UpperCAmelCase , _UpperCAmelCase = pipe_prior(
UpperCAmelCase , generator=UpperCAmelCase , num_inference_steps=5 , negative_prompt='' , ).to_tuple()
_UpperCAmelCase = pipeline(
image=UpperCAmelCase , mask_image=UpperCAmelCase , image_embeds=UpperCAmelCase , negative_image_embeds=UpperCAmelCase , generator=UpperCAmelCase , num_inference_steps=100 , height=768 , width=768 , output_type='np' , )
_UpperCAmelCase = output.images[0]
assert image.shape == (768, 768, 3)
assert_mean_pixel_difference(UpperCAmelCase , UpperCAmelCase )
| 39
|
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 ViTConfig, ViTForImageClassification, ViTImageProcessor, ViTModel
from transformers.utils import logging
logging.set_verbosity_info()
_a = logging.get_logger(__name__)
def __A ( __lowerCAmelCase , __lowerCAmelCase=False )-> Union[str, Any]:
"""simple docstring"""
_UpperCAmelCase = []
for i in range(config.num_hidden_layers ):
# encoder layers: output projection, 2 feedforward neural networks and 2 layernorms
rename_keys.append((F"""blocks.{i}.norm1.weight""", F"""vit.encoder.layer.{i}.layernorm_before.weight""") )
rename_keys.append((F"""blocks.{i}.norm1.bias""", F"""vit.encoder.layer.{i}.layernorm_before.bias""") )
rename_keys.append((F"""blocks.{i}.attn.proj.weight""", F"""vit.encoder.layer.{i}.attention.output.dense.weight""") )
rename_keys.append((F"""blocks.{i}.attn.proj.bias""", F"""vit.encoder.layer.{i}.attention.output.dense.bias""") )
rename_keys.append((F"""blocks.{i}.norm2.weight""", F"""vit.encoder.layer.{i}.layernorm_after.weight""") )
rename_keys.append((F"""blocks.{i}.norm2.bias""", F"""vit.encoder.layer.{i}.layernorm_after.bias""") )
rename_keys.append((F"""blocks.{i}.mlp.fc1.weight""", F"""vit.encoder.layer.{i}.intermediate.dense.weight""") )
rename_keys.append((F"""blocks.{i}.mlp.fc1.bias""", F"""vit.encoder.layer.{i}.intermediate.dense.bias""") )
rename_keys.append((F"""blocks.{i}.mlp.fc2.weight""", F"""vit.encoder.layer.{i}.output.dense.weight""") )
rename_keys.append((F"""blocks.{i}.mlp.fc2.bias""", F"""vit.encoder.layer.{i}.output.dense.bias""") )
# projection layer + position embeddings
rename_keys.extend(
[
('cls_token', 'vit.embeddings.cls_token'),
('patch_embed.proj.weight', 'vit.embeddings.patch_embeddings.projection.weight'),
('patch_embed.proj.bias', 'vit.embeddings.patch_embeddings.projection.bias'),
('pos_embed', 'vit.embeddings.position_embeddings'),
] )
if base_model:
# layernorm + pooler
rename_keys.extend(
[
('norm.weight', 'layernorm.weight'),
('norm.bias', 'layernorm.bias'),
] )
# if just the base model, we should remove "vit" from all keys that start with "vit"
_UpperCAmelCase = [(pair[0], pair[1][4:]) if pair[1].startswith('vit' ) else pair for pair in rename_keys]
else:
# layernorm + classification head
rename_keys.extend(
[
('norm.weight', 'vit.layernorm.weight'),
('norm.bias', 'vit.layernorm.bias'),
('head.weight', 'classifier.weight'),
('head.bias', 'classifier.bias'),
] )
return rename_keys
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=False )-> List[str]:
"""simple docstring"""
for i in range(config.num_hidden_layers ):
if base_model:
_UpperCAmelCase = ''
else:
_UpperCAmelCase = 'vit.'
# read in weights + bias of input projection layer (in timm, this is a single matrix + bias)
_UpperCAmelCase = state_dict.pop(F"""blocks.{i}.attn.qkv.weight""" )
_UpperCAmelCase = state_dict.pop(F"""blocks.{i}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
_UpperCAmelCase = in_proj_weight[
: config.hidden_size, :
]
_UpperCAmelCase = in_proj_bias[: config.hidden_size]
_UpperCAmelCase = in_proj_weight[
config.hidden_size : config.hidden_size * 2, :
]
_UpperCAmelCase = in_proj_bias[
config.hidden_size : config.hidden_size * 2
]
_UpperCAmelCase = in_proj_weight[
-config.hidden_size :, :
]
_UpperCAmelCase = in_proj_bias[-config.hidden_size :]
def __A ( __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = ['head.weight', 'head.bias']
for k in ignore_keys:
state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
_UpperCAmelCase = dct.pop(__lowerCAmelCase )
_UpperCAmelCase = val
def __A ( )-> str:
"""simple docstring"""
_UpperCAmelCase = 'http://images.cocodataset.org/val2017/000000039769.jpg'
_UpperCAmelCase = Image.open(requests.get(__lowerCAmelCase , stream=__lowerCAmelCase ).raw )
return im
@torch.no_grad()
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=True )-> List[str]:
"""simple docstring"""
_UpperCAmelCase = ViTConfig()
# patch_size
if model_name[-1] == "8":
_UpperCAmelCase = 8
# set labels if required
if not base_model:
_UpperCAmelCase = 1_000
_UpperCAmelCase = 'huggingface/label-files'
_UpperCAmelCase = 'imagenet-1k-id2label.json'
_UpperCAmelCase = json.load(open(hf_hub_download(__lowerCAmelCase , __lowerCAmelCase , repo_type='dataset' ) , 'r' ) )
_UpperCAmelCase = {int(__lowerCAmelCase ): v for k, v in idalabel.items()}
_UpperCAmelCase = idalabel
_UpperCAmelCase = {v: k for k, v in idalabel.items()}
# size of the architecture
if model_name in ["dino_vits8", "dino_vits16"]:
_UpperCAmelCase = 384
_UpperCAmelCase = 1_536
_UpperCAmelCase = 12
_UpperCAmelCase = 6
# load original model from torch hub
_UpperCAmelCase = torch.hub.load('facebookresearch/dino:main' , __lowerCAmelCase )
original_model.eval()
# load state_dict of original model, remove and rename some keys
_UpperCAmelCase = original_model.state_dict()
if base_model:
remove_classification_head_(__lowerCAmelCase )
_UpperCAmelCase = create_rename_keys(__lowerCAmelCase , base_model=__lowerCAmelCase )
for src, dest in rename_keys:
rename_key(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
read_in_q_k_v(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
# load HuggingFace model
if base_model:
_UpperCAmelCase = ViTModel(__lowerCAmelCase , add_pooling_layer=__lowerCAmelCase ).eval()
else:
_UpperCAmelCase = ViTForImageClassification(__lowerCAmelCase ).eval()
model.load_state_dict(__lowerCAmelCase )
# Check outputs on an image, prepared by ViTImageProcessor
_UpperCAmelCase = ViTImageProcessor()
_UpperCAmelCase = image_processor(images=prepare_img() , return_tensors='pt' )
_UpperCAmelCase = encoding['pixel_values']
_UpperCAmelCase = model(__lowerCAmelCase )
if base_model:
_UpperCAmelCase = original_model(__lowerCAmelCase )
assert torch.allclose(__lowerCAmelCase , outputs.last_hidden_state[:, 0, :] , atol=1E-1 )
else:
_UpperCAmelCase = original_model(__lowerCAmelCase )
assert logits.shape == outputs.logits.shape
assert torch.allclose(__lowerCAmelCase , outputs.logits , atol=1E-3 )
Path(__lowerCAmelCase ).mkdir(exist_ok=__lowerCAmelCase )
print(F"""Saving model {model_name} to {pytorch_dump_folder_path}""" )
model.save_pretrained(__lowerCAmelCase )
print(F"""Saving image processor to {pytorch_dump_folder_path}""" )
image_processor.save_pretrained(__lowerCAmelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--model_name''',
default='''dino_vitb16''',
type=str,
help='''Name of the model trained with DINO 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(
'''--base_model''',
action='''store_true''',
help='''Whether to only convert the base model (no projection head weights).''',
)
parser.set_defaults(base_model=True)
_a = parser.parse_args()
convert_vit_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.base_model)
| 39
| 1
|
import argparse
import os
import numpy as np
import tensorflow as tf
import torch
from transformers import BertModel
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> List[str]:
"""simple docstring"""
_UpperCAmelCase = ('dense.weight', 'attention.self.query', 'attention.self.key', 'attention.self.value')
_UpperCAmelCase = (
('layer.', 'layer_'),
('word_embeddings.weight', 'word_embeddings'),
('position_embeddings.weight', 'position_embeddings'),
('token_type_embeddings.weight', 'token_type_embeddings'),
('.', '/'),
('LayerNorm/weight', 'LayerNorm/gamma'),
('LayerNorm/bias', 'LayerNorm/beta'),
('weight', 'kernel'),
)
if not os.path.isdir(__lowerCAmelCase ):
os.makedirs(__lowerCAmelCase )
_UpperCAmelCase = model.state_dict()
def to_tf_var_name(__lowerCAmelCase ):
for patt, repl in iter(__lowerCAmelCase ):
_UpperCAmelCase = name.replace(__lowerCAmelCase , __lowerCAmelCase )
return F"""bert/{name}"""
def create_tf_var(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ):
_UpperCAmelCase = tf.dtypes.as_dtype(tensor.dtype )
_UpperCAmelCase = tf.get_variable(dtype=__lowerCAmelCase , shape=tensor.shape , name=__lowerCAmelCase , initializer=tf.zeros_initializer() )
session.run(tf.variables_initializer([tf_var] ) )
session.run(__lowerCAmelCase )
return tf_var
tf.reset_default_graph()
with tf.Session() as session:
for var_name in state_dict:
_UpperCAmelCase = to_tf_var_name(__lowerCAmelCase )
_UpperCAmelCase = state_dict[var_name].numpy()
if any(x in var_name for x in tensors_to_transpose ):
_UpperCAmelCase = torch_tensor.T
_UpperCAmelCase = create_tf_var(tensor=__lowerCAmelCase , name=__lowerCAmelCase , session=__lowerCAmelCase )
tf.keras.backend.set_value(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = session.run(__lowerCAmelCase )
print(F"""Successfully created {tf_name}: {np.allclose(__lowerCAmelCase , __lowerCAmelCase )}""" )
_UpperCAmelCase = tf.train.Saver(tf.trainable_variables() )
saver.save(__lowerCAmelCase , os.path.join(__lowerCAmelCase , model_name.replace('-' , '_' ) + '.ckpt' ) )
def __A ( __lowerCAmelCase=None )-> Any:
"""simple docstring"""
_UpperCAmelCase = argparse.ArgumentParser()
parser.add_argument('--model_name' , type=__lowerCAmelCase , required=__lowerCAmelCase , help='model name e.g. bert-base-uncased' )
parser.add_argument(
'--cache_dir' , type=__lowerCAmelCase , default=__lowerCAmelCase , required=__lowerCAmelCase , help='Directory containing pytorch model' )
parser.add_argument('--pytorch_model_path' , type=__lowerCAmelCase , required=__lowerCAmelCase , help='/path/to/<pytorch-model-name>.bin' )
parser.add_argument('--tf_cache_dir' , type=__lowerCAmelCase , required=__lowerCAmelCase , help='Directory in which to save tensorflow model' )
_UpperCAmelCase = parser.parse_args(__lowerCAmelCase )
_UpperCAmelCase = BertModel.from_pretrained(
pretrained_model_name_or_path=args.model_name , state_dict=torch.load(args.pytorch_model_path ) , cache_dir=args.cache_dir , )
convert_pytorch_checkpoint_to_tf(model=__lowerCAmelCase , ckpt_dir=args.tf_cache_dir , model_name=args.model_name )
if __name__ == "__main__":
main()
| 39
|
import unittest
import torch
from torch import nn
from accelerate.test_utils import require_cuda
from accelerate.utils.memory import find_executable_batch_size, release_memory
def __A ( )-> Tuple:
"""simple docstring"""
raise RuntimeError('CUDA out of memory.' )
class __lowerCamelCase ( nn.Module):
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
super().__init__()
_UpperCAmelCase = nn.Linear(3 , 4 )
_UpperCAmelCase = nn.BatchNormad(4 )
_UpperCAmelCase = nn.Linear(4 , 5 )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return self.lineara(self.batchnorm(self.lineara(UpperCAmelCase ) ) )
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase ):
nonlocal batch_sizes
batch_sizes.append(UpperCAmelCase )
if batch_size != 8:
raise_fake_out_of_memory()
mock_training_loop_function()
self.assertListEqual(UpperCAmelCase , [128, 64, 32, 16, 8] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase , UpperCAmelCase ):
nonlocal batch_sizes
batch_sizes.append(UpperCAmelCase )
if batch_size != 8:
raise_fake_out_of_memory()
return batch_size, arga
_UpperCAmelCase , _UpperCAmelCase = mock_training_loop_function('hello' )
self.assertListEqual(UpperCAmelCase , [128, 64, 32, 16, 8] )
self.assertListEqual([bs, arga] , [8, 'hello'] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=0 )
def mock_training_loop_function(UpperCAmelCase ):
pass
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('No executable batch size found, reached zero.' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=16 )
def mock_training_loop_function(UpperCAmelCase ):
if batch_size > 0:
raise_fake_out_of_memory()
pass
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('No executable batch size found, reached zero.' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
if batch_size != 8:
raise raise_fake_out_of_memory()
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function(128 , 'hello' , 'world' )
self.assertIn('Batch size was passed into `f`' , cm.exception.args[0] )
self.assertIn('`f(arg1=\'hello\', arg2=\'world\')' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=16 )
def mock_training_loop_function(UpperCAmelCase ):
raise ValueError('Oops, we had an error!' )
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('Oops, we had an error!' , cm.exception.args[0] )
@require_cuda
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = torch.cuda.memory_allocated()
_UpperCAmelCase = ModelForTest()
model.cuda()
self.assertGreater(torch.cuda.memory_allocated() , UpperCAmelCase )
_UpperCAmelCase = release_memory(UpperCAmelCase )
self.assertEqual(torch.cuda.memory_allocated() , UpperCAmelCase )
| 39
| 1
|
import baseaa
import io
import json
import os
from copy import deepcopy
from ..optimizer import AcceleratedOptimizer
from ..scheduler import AcceleratedScheduler
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase ):
"""simple docstring"""
if isinstance(UpperCAmelCase , UpperCAmelCase ):
# Don't modify user's data should they want to reuse it (e.g. in tests), because once we
# modified it, it will not be accepted here again, since `auto` values would have been overridden
_UpperCAmelCase = deepcopy(UpperCAmelCase )
elif os.path.exists(UpperCAmelCase ):
with io.open(UpperCAmelCase , 'r' , encoding='utf-8' ) as f:
_UpperCAmelCase = json.load(UpperCAmelCase )
else:
try:
_UpperCAmelCase = baseaa.urlsafe_baadecode(UpperCAmelCase ).decode('utf-8' )
_UpperCAmelCase = json.loads(UpperCAmelCase )
except (UnicodeDecodeError, AttributeError, ValueError):
raise ValueError(
F"""Expected a string path to an existing deepspeed config, or a dictionary, or a base64 encoded string. Received: {config_file_or_dict}""" )
_UpperCAmelCase = config
self.set_stage_and_offload()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_value('zero_optimization.stage' , -1 )
# offload
_UpperCAmelCase = False
if self.is_zeroa() or self.is_zeroa():
_UpperCAmelCase = set(['cpu', 'nvme'] )
_UpperCAmelCase = set(
[
self.get_value('zero_optimization.offload_optimizer.device' ),
self.get_value('zero_optimization.offload_param.device' ),
] )
if len(offload_devices & offload_devices_valid ) > 0:
_UpperCAmelCase = True
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.config
# find the config node of interest if it exists
_UpperCAmelCase = ds_key_long.split('.' )
_UpperCAmelCase = nodes.pop()
for node in nodes:
_UpperCAmelCase = config.get(UpperCAmelCase )
if config is None:
return None, ds_key
return config, ds_key
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=None ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.find_config_node(UpperCAmelCase )
if config is None:
return default
return config.get(UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=False ):
"""simple docstring"""
_UpperCAmelCase = self.config
# find the config node of interest if it exists
_UpperCAmelCase = ds_key_long.split('.' )
for node in nodes:
_UpperCAmelCase = config
_UpperCAmelCase = config.get(UpperCAmelCase )
if config is None:
if must_exist:
raise ValueError(F"""Can't find {ds_key_long} entry in the config: {self.config}""" )
else:
return
# if found remove it
if parent_config is not None:
parent_config.pop(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.get_value(UpperCAmelCase )
return False if value is None else bool(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.get_value(UpperCAmelCase )
return False if value is None else not bool(UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
return self._stage == 2
def UpperCamelCase ( self ):
"""simple docstring"""
return self._stage == 3
def UpperCamelCase ( self ):
"""simple docstring"""
return self._offload
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = engine
def UpperCamelCase ( self , UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
self.engine.backward(UpperCAmelCase , **UpperCAmelCase )
# Deepspeed's `engine.step` performs the following operations:
# - gradient accumulation check
# - gradient clipping
# - optimizer step
# - zero grad
# - checking overflow
# - lr_scheduler step (only if engine.lr_scheduler is not None)
self.engine.step()
# and this plugin overrides the above calls with no-ops when Accelerate runs under
# Deepspeed, but allows normal functionality for non-Deepspeed cases thus enabling a simple
# training loop that works transparently under many training regimes.
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , UpperCAmelCase ):
"""simple docstring"""
super().__init__(UpperCAmelCase , device_placement=UpperCAmelCase , scaler=UpperCAmelCase )
_UpperCAmelCase = hasattr(self.optimizer , 'overflow' )
def UpperCamelCase ( self , UpperCAmelCase=None ):
"""simple docstring"""
pass # `accelerator.backward(loss)` is doing that automatically. Therefore, its implementation is not needed
def UpperCamelCase ( self ):
"""simple docstring"""
pass # `accelerator.backward(loss)` is doing that automatically. Therefore, its implementation is not needed
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.__has_overflow__:
return self.optimizer.overflow
return False
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
super().__init__(UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
pass # `accelerator.backward(loss)` is doing that automatically. Therefore, its implementation is not needed
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=0.0_01 , UpperCAmelCase=0 , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = params
_UpperCAmelCase = lr
_UpperCAmelCase = weight_decay
_UpperCAmelCase = kwargs
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=None , UpperCAmelCase=0 , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = optimizer
_UpperCAmelCase = total_num_steps
_UpperCAmelCase = warmup_num_steps
_UpperCAmelCase = kwargs
| 39
|
from __future__ import annotations
import inspect
import unittest
import numpy as np
from transformers import ResNetConfig
from transformers.testing_utils import require_tf, require_vision, slow
from transformers.utils import cached_property, is_tf_available, is_vision_available
from ...test_configuration_common import ConfigTester
from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_tf_available():
import tensorflow as tf
from transformers import TFResNetForImageClassification, TFResNetModel
from transformers.models.resnet.modeling_tf_resnet import TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST
if is_vision_available():
from PIL import Image
from transformers import AutoImageProcessor
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=3 , UpperCAmelCase=32 , UpperCAmelCase=3 , UpperCAmelCase=10 , UpperCAmelCase=[10, 20, 30, 40] , UpperCAmelCase=[1, 1, 2, 1] , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase="relu" , UpperCAmelCase=3 , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = image_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embeddings_size
_UpperCAmelCase = hidden_sizes
_UpperCAmelCase = depths
_UpperCAmelCase = is_training
_UpperCAmelCase = use_labels
_UpperCAmelCase = hidden_act
_UpperCAmelCase = num_labels
_UpperCAmelCase = scope
_UpperCAmelCase = len(UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.num_labels )
_UpperCAmelCase = self.get_config()
return config, pixel_values, labels
def UpperCamelCase ( self ):
"""simple docstring"""
return ResNetConfig(
num_channels=self.num_channels , embeddings_size=self.embeddings_size , hidden_sizes=self.hidden_sizes , depths=self.depths , hidden_act=self.hidden_act , num_labels=self.num_labels , image_size=self.image_size , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = TFResNetModel(config=UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase )
# expected last hidden states: B, C, H // 32, W // 32
self.parent.assertEqual(
result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], self.image_size // 32, self.image_size // 32) , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.num_labels
_UpperCAmelCase = TFResNetForImageClassification(UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase , labels=UpperCAmelCase )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'pixel_values': pixel_values}
return config, inputs_dict
@require_tf
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (TFResNetModel, TFResNetForImageClassification) if is_tf_available() else ()
UpperCamelCase__ = (
{"feature-extraction": TFResNetModel, "image-classification": TFResNetForImageClassification}
if is_tf_available()
else {}
)
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFResNetModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , has_text_modality=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCamelCase ( self ):
"""simple docstring"""
return
@unittest.skip(reason='ResNet does not use inputs_embeds' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='ResNet does not support input and output embeddings' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = inspect.signature(model.call )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
_UpperCAmelCase = [*signature.parameters.keys()]
_UpperCAmelCase = ['pixel_values']
self.assertListEqual(arg_names[:1] , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
def check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = model(**self._prepare_for_class(UpperCAmelCase , UpperCAmelCase ) )
_UpperCAmelCase = outputs.encoder_hidden_states if config.is_encoder_decoder else outputs.hidden_states
_UpperCAmelCase = self.model_tester.num_stages
self.assertEqual(len(UpperCAmelCase ) , expected_num_stages + 1 )
# ResNet's feature maps are of shape (batch_size, num_channels, height, width)
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) , [self.model_tester.image_size // 4, self.model_tester.image_size // 4] , )
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = ['basic', 'bottleneck']
for model_class in self.all_model_classes:
for layer_type in layers_type:
_UpperCAmelCase = layer_type
_UpperCAmelCase = True
check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*UpperCAmelCase )
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
for model_name in TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
_UpperCAmelCase = TFResNetModel.from_pretrained(UpperCAmelCase )
self.assertIsNotNone(UpperCAmelCase )
def __A ( )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = Image.open('./tests/fixtures/tests_samples/COCO/000000039769.png' )
return image
@require_tf
@require_vision
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@cached_property
def UpperCamelCase ( self ):
"""simple docstring"""
return (
AutoImageProcessor.from_pretrained(TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[0] )
if is_vision_available()
else None
)
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFResNetForImageClassification.from_pretrained(TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[0] )
_UpperCAmelCase = self.default_image_processor
_UpperCAmelCase = prepare_img()
_UpperCAmelCase = image_processor(images=UpperCAmelCase , return_tensors='tf' )
# forward pass
_UpperCAmelCase = model(**UpperCAmelCase )
# verify the logits
_UpperCAmelCase = tf.TensorShape((1, 1000) )
self.assertEqual(outputs.logits.shape , UpperCAmelCase )
_UpperCAmelCase = tf.constant([-11.10_69, -9.78_77, -8.37_77] )
self.assertTrue(np.allclose(outputs.logits[0, :3].numpy() , UpperCAmelCase , atol=1e-4 ) )
| 39
| 1
|
import unittest
from transformers import MobileBertConfig, is_torch_available
from transformers.models.auto import get_values
from transformers.testing_utils import require_sentencepiece, require_tokenizers, require_torch, slow, torch_device
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, ids_tensor, random_attention_mask
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import (
MODEL_FOR_PRETRAINING_MAPPING,
MobileBertForMaskedLM,
MobileBertForMultipleChoice,
MobileBertForNextSentencePrediction,
MobileBertForPreTraining,
MobileBertForQuestionAnswering,
MobileBertForSequenceClassification,
MobileBertForTokenClassification,
MobileBertModel,
)
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=13 , UpperCAmelCase=7 , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase=99 , UpperCAmelCase=64 , UpperCAmelCase=32 , UpperCAmelCase=5 , UpperCAmelCase=4 , UpperCAmelCase=37 , UpperCAmelCase="gelu" , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase=512 , UpperCAmelCase=16 , UpperCAmelCase=2 , UpperCAmelCase=0.02 , UpperCAmelCase=3 , UpperCAmelCase=4 , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = seq_length
_UpperCAmelCase = is_training
_UpperCAmelCase = use_input_mask
_UpperCAmelCase = use_token_type_ids
_UpperCAmelCase = use_labels
_UpperCAmelCase = vocab_size
_UpperCAmelCase = hidden_size
_UpperCAmelCase = embedding_size
_UpperCAmelCase = num_hidden_layers
_UpperCAmelCase = num_attention_heads
_UpperCAmelCase = intermediate_size
_UpperCAmelCase = hidden_act
_UpperCAmelCase = hidden_dropout_prob
_UpperCAmelCase = attention_probs_dropout_prob
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = type_vocab_size
_UpperCAmelCase = type_sequence_label_size
_UpperCAmelCase = initializer_range
_UpperCAmelCase = num_labels
_UpperCAmelCase = num_choices
_UpperCAmelCase = scope
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
_UpperCAmelCase = None
if self.use_input_mask:
_UpperCAmelCase = random_attention_mask([self.batch_size, self.seq_length] )
_UpperCAmelCase = None
if self.use_token_type_ids:
_UpperCAmelCase = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
_UpperCAmelCase = None
_UpperCAmelCase = None
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.type_sequence_label_size )
_UpperCAmelCase = ids_tensor([self.batch_size, self.seq_length] , self.num_labels )
_UpperCAmelCase = ids_tensor([self.batch_size] , self.num_choices )
_UpperCAmelCase = self.get_config()
return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels
def UpperCamelCase ( self ):
"""simple docstring"""
return MobileBertConfig(
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 , embedding_size=self.embedding_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=UpperCAmelCase , initializer_range=self.initializer_range , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MobileBertModel(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase , attention_mask=UpperCAmelCase , token_type_ids=UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase , token_type_ids=UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.hidden_size) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MobileBertForMaskedLM(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase , attention_mask=UpperCAmelCase , token_type_ids=UpperCAmelCase , labels=UpperCAmelCase )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MobileBertForNextSentencePrediction(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(
UpperCAmelCase , attention_mask=UpperCAmelCase , token_type_ids=UpperCAmelCase , labels=UpperCAmelCase , )
self.parent.assertEqual(result.logits.shape , (self.batch_size, 2) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MobileBertForPreTraining(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(
UpperCAmelCase , attention_mask=UpperCAmelCase , token_type_ids=UpperCAmelCase , labels=UpperCAmelCase , next_sentence_label=UpperCAmelCase , )
self.parent.assertEqual(result.prediction_logits.shape , (self.batch_size, self.seq_length, self.vocab_size) )
self.parent.assertEqual(result.seq_relationship_logits.shape , (self.batch_size, 2) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MobileBertForQuestionAnswering(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(
UpperCAmelCase , attention_mask=UpperCAmelCase , token_type_ids=UpperCAmelCase , start_positions=UpperCAmelCase , end_positions=UpperCAmelCase , )
self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length) )
self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.num_labels
_UpperCAmelCase = MobileBertForSequenceClassification(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase , attention_mask=UpperCAmelCase , token_type_ids=UpperCAmelCase , labels=UpperCAmelCase )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.num_labels
_UpperCAmelCase = MobileBertForTokenClassification(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase , attention_mask=UpperCAmelCase , token_type_ids=UpperCAmelCase , labels=UpperCAmelCase )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.num_choices
_UpperCAmelCase = MobileBertForMultipleChoice(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = input_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous()
_UpperCAmelCase = token_type_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous()
_UpperCAmelCase = input_mask.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous()
_UpperCAmelCase = model(
UpperCAmelCase , attention_mask=UpperCAmelCase , token_type_ids=UpperCAmelCase , labels=UpperCAmelCase , )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_choices) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
(
(
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) ,
) = config_and_inputs
_UpperCAmelCase = {'input_ids': input_ids, 'token_type_ids': token_type_ids, 'attention_mask': input_mask}
return config, inputs_dict
@require_torch
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (
(
MobileBertModel,
MobileBertForMaskedLM,
MobileBertForMultipleChoice,
MobileBertForNextSentencePrediction,
MobileBertForPreTraining,
MobileBertForQuestionAnswering,
MobileBertForSequenceClassification,
MobileBertForTokenClassification,
)
if is_torch_available()
else ()
)
UpperCamelCase__ = (
{
"feature-extraction": MobileBertModel,
"fill-mask": MobileBertForMaskedLM,
"question-answering": MobileBertForQuestionAnswering,
"text-classification": MobileBertForSequenceClassification,
"token-classification": MobileBertForTokenClassification,
"zero-shot": MobileBertForSequenceClassification,
}
if is_torch_available()
else {}
)
UpperCamelCase__ = True
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=False ):
"""simple docstring"""
_UpperCAmelCase = super()._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
if return_labels:
if model_class in get_values(UpperCAmelCase ):
_UpperCAmelCase = torch.zeros(
(self.model_tester.batch_size, self.model_tester.seq_length) , dtype=torch.long , device=UpperCAmelCase )
_UpperCAmelCase = torch.zeros(
self.model_tester.batch_size , dtype=torch.long , device=UpperCAmelCase )
return inputs_dict
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MobileBertModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , hidden_size=37 )
def UpperCamelCase ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_mobilebert_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_mobilebert_for_masked_lm(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_mobilebert_for_multiple_choice(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_mobilebert_for_next_sequence_prediction(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_mobilebert_for_pretraining(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_mobilebert_for_question_answering(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_mobilebert_for_sequence_classification(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_mobilebert_for_token_classification(*UpperCAmelCase )
def __A ( __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
return torch.tensor(
__lowerCAmelCase , dtype=torch.long , device=__lowerCAmelCase , )
_a = 1e-3
@require_torch
@require_sentencepiece
@require_tokenizers
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MobileBertModel.from_pretrained('google/mobilebert-uncased' ).to(UpperCAmelCase )
_UpperCAmelCase = _long_tensor([[101, 7110, 1005, 1056, 2023, 1_1333, 1_7413, 1029, 102]] )
with torch.no_grad():
_UpperCAmelCase = model(UpperCAmelCase )[0]
_UpperCAmelCase = torch.Size((1, 9, 512) )
self.assertEqual(output.shape , UpperCAmelCase )
_UpperCAmelCase = torch.tensor(
[
[
[-2.4736526e07, 8.2691656e04, 1.6521838e05],
[-5.7541704e-01, 3.9056022e00, 4.4011507e00],
[2.6047359e00, 1.5677652e00, -1.7324188e-01],
]
] , device=UpperCAmelCase , )
# MobileBERT results range from 10e0 to 10e8. Even a 0.0000001% difference with a value of 10e8 results in a
# ~1 difference, it's therefore not a good idea to measure using addition.
# Here, we instead divide the expected result with the result in order to obtain ~1. We then check that the
# result is held between bounds: 1 - TOLERANCE < expected_result / result < 1 + TOLERANCE
_UpperCAmelCase = torch.all((expected_slice / output[..., :3, :3]) >= 1 - TOLERANCE )
_UpperCAmelCase = torch.all((expected_slice / output[..., :3, :3]) <= 1 + TOLERANCE )
self.assertTrue(lower_bound and upper_bound )
| 39
|
def __A ( __lowerCAmelCase )-> list:
"""simple docstring"""
if len(__lowerCAmelCase ) < 2:
return collection
def circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) -> bool:
_UpperCAmelCase = False
if low == high:
return swapped
_UpperCAmelCase = low
_UpperCAmelCase = high
while left < right:
if collection[left] > collection[right]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right],
collection[left],
)
_UpperCAmelCase = True
left += 1
right -= 1
if left == right and collection[left] > collection[right + 1]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right + 1],
collection[left],
)
_UpperCAmelCase = True
_UpperCAmelCase = low + int((high - low) / 2 )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , mid + 1 , __lowerCAmelCase )
return swapped or left_swap or right_swap
_UpperCAmelCase = True
while is_not_sorted is True:
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , 0 , len(__lowerCAmelCase ) - 1 )
return collection
if __name__ == "__main__":
_a = input('''Enter numbers separated by a comma:\n''').strip()
_a = [int(item) for item in user_input.split(''',''')]
print(circle_sort(unsorted))
| 39
| 1
|
import copy
import tempfile
import unittest
from huggingface_hub import HfFolder, delete_repo
from parameterized import parameterized
from requests.exceptions import HTTPError
from transformers import AutoConfig, GenerationConfig
from transformers.testing_utils import TOKEN, USER, is_staging_test
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@parameterized.expand([(None,), ('foo.json',)] )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = GenerationConfig(
do_sample=UpperCAmelCase , temperature=0.7 , length_penalty=1.0 , bad_words_ids=[[1, 2, 3], [4, 5]] , )
with tempfile.TemporaryDirectory() as tmp_dir:
config.save_pretrained(UpperCAmelCase , config_name=UpperCAmelCase )
_UpperCAmelCase = GenerationConfig.from_pretrained(UpperCAmelCase , config_name=UpperCAmelCase )
# Checks parameters that were specified
self.assertEqual(loaded_config.do_sample , UpperCAmelCase )
self.assertEqual(loaded_config.temperature , 0.7 )
self.assertEqual(loaded_config.length_penalty , 1.0 )
self.assertEqual(loaded_config.bad_words_ids , [[1, 2, 3], [4, 5]] )
# Checks parameters that were not specified (defaults)
self.assertEqual(loaded_config.top_k , 50 )
self.assertEqual(loaded_config.max_length , 20 )
self.assertEqual(loaded_config.max_time , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AutoConfig.from_pretrained('gpt2' )
_UpperCAmelCase = GenerationConfig.from_model_config(UpperCAmelCase )
_UpperCAmelCase = GenerationConfig()
# The generation config has loaded a few non-default parameters from the model config
self.assertNotEqual(UpperCAmelCase , UpperCAmelCase )
# One of those parameters is eos_token_id -- check if it matches
self.assertNotEqual(generation_config_from_model.eos_token_id , default_generation_config.eos_token_id )
self.assertEqual(generation_config_from_model.eos_token_id , model_config.eos_token_id )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = GenerationConfig()
_UpperCAmelCase = {
'max_new_tokens': 1024,
'foo': 'bar',
}
_UpperCAmelCase = copy.deepcopy(UpperCAmelCase )
_UpperCAmelCase = generation_config.update(**UpperCAmelCase )
# update_kwargs was not modified (no side effects)
self.assertEqual(UpperCAmelCase , UpperCAmelCase )
# update_kwargs was used to update the config on valid attributes
self.assertEqual(generation_config.max_new_tokens , 1024 )
# `.update()` returns a dictionary of unused kwargs
self.assertEqual(UpperCAmelCase , {'foo': 'bar'} )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = GenerationConfig()
_UpperCAmelCase = 'bar'
with tempfile.TemporaryDirectory('test-generation-config' ) as tmp_dir:
generation_config.save_pretrained(UpperCAmelCase )
_UpperCAmelCase = GenerationConfig.from_pretrained(UpperCAmelCase )
# update_kwargs was used to update the config on valid attributes
self.assertEqual(new_config.foo , 'bar' )
_UpperCAmelCase = GenerationConfig.from_model_config(UpperCAmelCase )
assert not hasattr(UpperCAmelCase , 'foo' ) # no new kwargs should be initialized if from config
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = GenerationConfig()
self.assertEqual(default_config.temperature , 1.0 )
self.assertEqual(default_config.do_sample , UpperCAmelCase )
self.assertEqual(default_config.num_beams , 1 )
_UpperCAmelCase = GenerationConfig(
do_sample=UpperCAmelCase , temperature=0.7 , length_penalty=1.0 , bad_words_ids=[[1, 2, 3], [4, 5]] , )
self.assertEqual(config.temperature , 0.7 )
self.assertEqual(config.do_sample , UpperCAmelCase )
self.assertEqual(config.num_beams , 1 )
with tempfile.TemporaryDirectory() as tmp_dir:
config.save_pretrained(UpperCAmelCase )
_UpperCAmelCase = GenerationConfig.from_pretrained(UpperCAmelCase , temperature=1.0 )
self.assertEqual(loaded_config.temperature , 1.0 )
self.assertEqual(loaded_config.do_sample , UpperCAmelCase )
self.assertEqual(loaded_config.num_beams , 1 ) # default value
@is_staging_test
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@classmethod
def UpperCamelCase ( cls ):
"""simple docstring"""
_UpperCAmelCase = TOKEN
HfFolder.save_token(UpperCAmelCase )
@classmethod
def UpperCamelCase ( cls ):
"""simple docstring"""
try:
delete_repo(token=cls._token , repo_id='test-generation-config' )
except HTTPError:
pass
try:
delete_repo(token=cls._token , repo_id='valid_org/test-generation-config-org' )
except HTTPError:
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = GenerationConfig(
do_sample=UpperCAmelCase , temperature=0.7 , length_penalty=1.0 , )
config.push_to_hub('test-generation-config' , use_auth_token=self._token )
_UpperCAmelCase = GenerationConfig.from_pretrained(F"""{USER}/test-generation-config""" )
for k, v in config.to_dict().items():
if k != "transformers_version":
self.assertEqual(UpperCAmelCase , getattr(UpperCAmelCase , UpperCAmelCase ) )
# Reset repo
delete_repo(token=self._token , repo_id='test-generation-config' )
# Push to hub via save_pretrained
with tempfile.TemporaryDirectory() as tmp_dir:
config.save_pretrained(
UpperCAmelCase , repo_id='test-generation-config' , push_to_hub=UpperCAmelCase , use_auth_token=self._token )
_UpperCAmelCase = GenerationConfig.from_pretrained(F"""{USER}/test-generation-config""" )
for k, v in config.to_dict().items():
if k != "transformers_version":
self.assertEqual(UpperCAmelCase , getattr(UpperCAmelCase , UpperCAmelCase ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = GenerationConfig(
do_sample=UpperCAmelCase , temperature=0.7 , length_penalty=1.0 , )
config.push_to_hub('valid_org/test-generation-config-org' , use_auth_token=self._token )
_UpperCAmelCase = GenerationConfig.from_pretrained('valid_org/test-generation-config-org' )
for k, v in config.to_dict().items():
if k != "transformers_version":
self.assertEqual(UpperCAmelCase , getattr(UpperCAmelCase , UpperCAmelCase ) )
# Reset repo
delete_repo(token=self._token , repo_id='valid_org/test-generation-config-org' )
# Push to hub via save_pretrained
with tempfile.TemporaryDirectory() as tmp_dir:
config.save_pretrained(
UpperCAmelCase , repo_id='valid_org/test-generation-config-org' , push_to_hub=UpperCAmelCase , use_auth_token=self._token )
_UpperCAmelCase = GenerationConfig.from_pretrained('valid_org/test-generation-config-org' )
for k, v in config.to_dict().items():
if k != "transformers_version":
self.assertEqual(UpperCAmelCase , getattr(UpperCAmelCase , UpperCAmelCase ) )
| 39
|
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["image_processor", "tokenizer"]
UpperCamelCase__ = "Pix2StructImageProcessor"
UpperCamelCase__ = ("T5Tokenizer", "T5TokenizerFast")
def __init__( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = False
super().__init__(UpperCAmelCase , UpperCAmelCase )
def __call__( self , UpperCAmelCase=None , UpperCAmelCase = None , UpperCAmelCase = True , UpperCAmelCase = False , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = 2048 , UpperCAmelCase = 0 , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = True , UpperCAmelCase = None , **UpperCAmelCase , ):
"""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 and not self.image_processor.is_vqa:
_UpperCAmelCase = self.tokenizer
_UpperCAmelCase = self.tokenizer(
text=UpperCAmelCase , add_special_tokens=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , max_length=UpperCAmelCase , stride=UpperCAmelCase , pad_to_multiple_of=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_overflowing_tokens=UpperCAmelCase , return_special_tokens_mask=UpperCAmelCase , return_offsets_mapping=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , return_length=UpperCAmelCase , verbose=UpperCAmelCase , return_tensors=UpperCAmelCase , **UpperCAmelCase , )
return text_encoding
if not self.image_processor.is_vqa:
# add pixel_values
_UpperCAmelCase = self.image_processor(
UpperCAmelCase , return_tensors=UpperCAmelCase , max_patches=UpperCAmelCase , **UpperCAmelCase )
else:
# add pixel_values and bbox
_UpperCAmelCase = self.image_processor(
UpperCAmelCase , return_tensors=UpperCAmelCase , max_patches=UpperCAmelCase , header_text=UpperCAmelCase , **UpperCAmelCase )
if text is not None and not self.image_processor.is_vqa:
_UpperCAmelCase = self.tokenizer(
text=UpperCAmelCase , add_special_tokens=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , max_length=UpperCAmelCase , stride=UpperCAmelCase , pad_to_multiple_of=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_overflowing_tokens=UpperCAmelCase , return_special_tokens_mask=UpperCAmelCase , return_offsets_mapping=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , return_length=UpperCAmelCase , verbose=UpperCAmelCase , return_tensors=UpperCAmelCase , **UpperCAmelCase , )
if "attention_mask" in text_encoding:
_UpperCAmelCase = text_encoding.pop('attention_mask' )
if "input_ids" in text_encoding:
_UpperCAmelCase = text_encoding.pop('input_ids' )
else:
_UpperCAmelCase = None
if text_encoding is not None:
encoding_image_processor.update(UpperCAmelCase )
return encoding_image_processor
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.batch_decode(*UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.decode(*UpperCAmelCase , **UpperCAmelCase )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.tokenizer.model_input_names
_UpperCAmelCase = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )
| 39
| 1
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'''funnel-transformer/small''': '''https://huggingface.co/funnel-transformer/small/resolve/main/config.json''',
'''funnel-transformer/small-base''': '''https://huggingface.co/funnel-transformer/small-base/resolve/main/config.json''',
'''funnel-transformer/medium''': '''https://huggingface.co/funnel-transformer/medium/resolve/main/config.json''',
'''funnel-transformer/medium-base''': '''https://huggingface.co/funnel-transformer/medium-base/resolve/main/config.json''',
'''funnel-transformer/intermediate''': (
'''https://huggingface.co/funnel-transformer/intermediate/resolve/main/config.json'''
),
'''funnel-transformer/intermediate-base''': (
'''https://huggingface.co/funnel-transformer/intermediate-base/resolve/main/config.json'''
),
'''funnel-transformer/large''': '''https://huggingface.co/funnel-transformer/large/resolve/main/config.json''',
'''funnel-transformer/large-base''': '''https://huggingface.co/funnel-transformer/large-base/resolve/main/config.json''',
'''funnel-transformer/xlarge''': '''https://huggingface.co/funnel-transformer/xlarge/resolve/main/config.json''',
'''funnel-transformer/xlarge-base''': '''https://huggingface.co/funnel-transformer/xlarge-base/resolve/main/config.json''',
}
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "funnel"
UpperCamelCase__ = {
"hidden_size": "d_model",
"num_attention_heads": "n_head",
}
def __init__( self , UpperCAmelCase=3_0522 , UpperCAmelCase=[4, 4, 4] , UpperCAmelCase=None , UpperCAmelCase=2 , UpperCAmelCase=768 , UpperCAmelCase=12 , UpperCAmelCase=64 , UpperCAmelCase=3072 , UpperCAmelCase="gelu_new" , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase=0.0 , UpperCAmelCase=0.1 , UpperCAmelCase=None , UpperCAmelCase=1e-9 , UpperCAmelCase="mean" , UpperCAmelCase="relative_shift" , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase=True , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = vocab_size
_UpperCAmelCase = block_sizes
_UpperCAmelCase = [1] * len(UpperCAmelCase ) if block_repeats is None else block_repeats
assert len(UpperCAmelCase ) == len(
self.block_repeats ), "`block_sizes` and `block_repeats` should have the same length."
_UpperCAmelCase = num_decoder_layers
_UpperCAmelCase = d_model
_UpperCAmelCase = n_head
_UpperCAmelCase = d_head
_UpperCAmelCase = d_inner
_UpperCAmelCase = hidden_act
_UpperCAmelCase = hidden_dropout
_UpperCAmelCase = attention_dropout
_UpperCAmelCase = activation_dropout
_UpperCAmelCase = initializer_range
_UpperCAmelCase = initializer_std
_UpperCAmelCase = layer_norm_eps
assert pooling_type in [
"mean",
"max",
], F"""Got {pooling_type} for `pooling_type` but only 'mean' and 'max' are supported."""
_UpperCAmelCase = pooling_type
assert attention_type in [
"relative_shift",
"factorized",
], F"""Got {attention_type} for `attention_type` but only 'relative_shift' and 'factorized' are supported."""
_UpperCAmelCase = attention_type
_UpperCAmelCase = separate_cls
_UpperCAmelCase = truncate_seq
_UpperCAmelCase = pool_q_only
super().__init__(**UpperCAmelCase )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return sum(self.block_sizes )
@num_hidden_layers.setter
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
raise NotImplementedError(
'This model does not support the setting of `num_hidden_layers`. Please set `block_sizes`.' )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return len(self.block_sizes )
@num_blocks.setter
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
raise NotImplementedError('This model does not support the setting of `num_blocks`. Please set `block_sizes`.' )
| 39
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase = "" , UpperCAmelCase = False ):
"""simple docstring"""
_UpperCAmelCase = {}
# A node will be a leaf if the tree contains its word
_UpperCAmelCase = is_leaf
_UpperCAmelCase = prefix
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 0
for q, w in zip(self.prefix , UpperCAmelCase ):
if q != w:
break
x += 1
return self.prefix[:x], self.prefix[x:], word[x:]
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for word in words:
self.insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if self.prefix == word:
_UpperCAmelCase = True
# Case 2: The node has no edges that have a prefix to the word
# Solution: We create an edge from the current node to a new one
# containing the word
elif word[0] not in self.nodes:
_UpperCAmelCase = RadixNode(prefix=UpperCAmelCase , is_leaf=UpperCAmelCase )
else:
_UpperCAmelCase = self.nodes[word[0]]
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# Case 3: The node prefix is equal to the matching
# Solution: We insert remaining word on the next node
if remaining_prefix == "":
self.nodes[matching_string[0]].insert(UpperCAmelCase )
# Case 4: The word is greater equal to the matching
# Solution: Create a node in between both nodes, change
# prefixes and add the new node for the remaining word
else:
_UpperCAmelCase = remaining_prefix
_UpperCAmelCase = self.nodes[matching_string[0]]
_UpperCAmelCase = RadixNode(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = aux_node
if remaining_word == "":
_UpperCAmelCase = True
else:
self.nodes[matching_string[0]].insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.nodes.get(word[0] , UpperCAmelCase )
if not incoming_node:
return False
else:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# This applies when the word and the prefix are equal
elif remaining_word == "":
return incoming_node.is_leaf
# We have word remaining so we check the next node
else:
return incoming_node.find(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.nodes.get(word[0] , UpperCAmelCase )
if not incoming_node:
return False
else:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# We have word remaining so we check the next node
elif remaining_word != "":
return incoming_node.delete(UpperCAmelCase )
else:
# If it is not a leaf, we don't have to delete
if not incoming_node.is_leaf:
return False
else:
# We delete the nodes if no edges go from it
if len(incoming_node.nodes ) == 0:
del self.nodes[word[0]]
# We merge the current node with its only child
if len(self.nodes ) == 1 and not self.is_leaf:
_UpperCAmelCase = list(self.nodes.values() )[0]
_UpperCAmelCase = merging_node.is_leaf
self.prefix += merging_node.prefix
_UpperCAmelCase = merging_node.nodes
# If there is more than 1 edge, we just mark it as non-leaf
elif len(incoming_node.nodes ) > 1:
_UpperCAmelCase = False
# If there is 1 edge, we merge it with its child
else:
_UpperCAmelCase = list(incoming_node.nodes.values() )[0]
_UpperCAmelCase = merging_node.is_leaf
incoming_node.prefix += merging_node.prefix
_UpperCAmelCase = merging_node.nodes
return True
def UpperCamelCase ( self , UpperCAmelCase = 0 ):
"""simple docstring"""
if self.prefix != "":
print('-' * height , self.prefix , ' (leaf)' if self.is_leaf else '' )
for value in self.nodes.values():
value.print_tree(height + 1 )
def __A ( )-> bool:
"""simple docstring"""
_UpperCAmelCase = 'banana bananas bandana band apple all beast'.split()
_UpperCAmelCase = RadixNode()
root.insert_many(__lowerCAmelCase )
assert all(root.find(__lowerCAmelCase ) for word in words )
assert not root.find('bandanas' )
assert not root.find('apps' )
root.delete('all' )
assert not root.find('all' )
root.delete('banana' )
assert not root.find('banana' )
assert root.find('bananas' )
return True
def __A ( )-> None:
"""simple docstring"""
assert test_trie()
def __A ( )-> None:
"""simple docstring"""
_UpperCAmelCase = RadixNode()
_UpperCAmelCase = 'banana bananas bandanas bandana band apple all beast'.split()
root.insert_many(__lowerCAmelCase )
print('Words:' , __lowerCAmelCase )
print('Tree:' )
root.print_tree()
if __name__ == "__main__":
main()
| 39
| 1
|
import unittest
from transformers import AutoConfig, AutoTokenizer, BertConfig, TensorType, is_flax_available
from transformers.testing_utils import DUMMY_UNKNOWN_IDENTIFIER, require_flax, slow
if is_flax_available():
import jax
from transformers.models.auto.modeling_flax_auto import FlaxAutoModel
from transformers.models.bert.modeling_flax_bert import FlaxBertModel
from transformers.models.roberta.modeling_flax_roberta import FlaxRobertaModel
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
for model_name in ["bert-base-cased", "bert-large-uncased"]:
with self.subTest(UpperCAmelCase ):
_UpperCAmelCase = AutoConfig.from_pretrained(UpperCAmelCase )
self.assertIsNotNone(UpperCAmelCase )
self.assertIsInstance(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = FlaxAutoModel.from_pretrained(UpperCAmelCase )
self.assertIsNotNone(UpperCAmelCase )
self.assertIsInstance(UpperCAmelCase , UpperCAmelCase )
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
for model_name in ["roberta-base", "roberta-large"]:
with self.subTest(UpperCAmelCase ):
_UpperCAmelCase = AutoConfig.from_pretrained(UpperCAmelCase )
self.assertIsNotNone(UpperCAmelCase )
self.assertIsInstance(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = FlaxAutoModel.from_pretrained(UpperCAmelCase )
self.assertIsNotNone(UpperCAmelCase )
self.assertIsInstance(UpperCAmelCase , UpperCAmelCase )
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
for model_name in ["bert-base-cased", "bert-large-uncased"]:
_UpperCAmelCase = AutoTokenizer.from_pretrained(UpperCAmelCase )
_UpperCAmelCase = FlaxBertModel.from_pretrained(UpperCAmelCase )
_UpperCAmelCase = tokenizer('Do you support jax jitted function?' , return_tensors=TensorType.JAX )
@jax.jit
def eval(**UpperCAmelCase ):
return model(**UpperCAmelCase )
eval(**UpperCAmelCase ).block_until_ready()
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
for model_name in ["roberta-base", "roberta-large"]:
_UpperCAmelCase = AutoTokenizer.from_pretrained(UpperCAmelCase )
_UpperCAmelCase = FlaxRobertaModel.from_pretrained(UpperCAmelCase )
_UpperCAmelCase = tokenizer('Do you support jax jitted function?' , return_tensors=TensorType.JAX )
@jax.jit
def eval(**UpperCAmelCase ):
return model(**UpperCAmelCase )
eval(**UpperCAmelCase ).block_until_ready()
def UpperCamelCase ( self ):
"""simple docstring"""
with self.assertRaisesRegex(
UpperCAmelCase , 'bert-base is not a local folder and is not a valid model identifier' ):
_UpperCAmelCase = FlaxAutoModel.from_pretrained('bert-base' )
def UpperCamelCase ( self ):
"""simple docstring"""
with self.assertRaisesRegex(
UpperCAmelCase , R'aaaaaa is not a valid git identifier \(branch name, tag name or commit id\)' ):
_UpperCAmelCase = FlaxAutoModel.from_pretrained(UpperCAmelCase , revision='aaaaaa' )
def UpperCamelCase ( self ):
"""simple docstring"""
with self.assertRaisesRegex(
UpperCAmelCase , 'hf-internal-testing/config-no-model does not appear to have a file named flax_model.msgpack' , ):
_UpperCAmelCase = FlaxAutoModel.from_pretrained('hf-internal-testing/config-no-model' )
def UpperCamelCase ( self ):
"""simple docstring"""
with self.assertRaisesRegex(UpperCAmelCase , 'Use `from_pt=True` to load this model' ):
_UpperCAmelCase = FlaxAutoModel.from_pretrained('hf-internal-testing/tiny-bert-pt-only' )
| 39
|
import argparse
import json
import os
import re
import shutil
import torch
from transformers import BioGptConfig, BioGptForCausalLM
from transformers.models.biogpt.tokenization_biogpt import VOCAB_FILES_NAMES
from transformers.tokenization_utils_base import TOKENIZER_CONFIG_FILE
from transformers.utils import WEIGHTS_NAME, logging
logging.set_verbosity_warning()
_a = 2
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , *, # begin keyword-only arguments
UpperCAmelCase="<s>" , UpperCAmelCase="<pad>" , UpperCAmelCase="</s>" , UpperCAmelCase="<unk>" , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = bos, unk, pad, eos
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = {}
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
if extra_special_symbols:
for s in extra_special_symbols:
self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = len(self.symbols )
def __eq__( self , UpperCAmelCase ):
"""simple docstring"""
return self.indices == other.indices
def __getitem__( self , UpperCAmelCase ):
"""simple docstring"""
if idx < len(self.symbols ):
return self.symbols[idx]
return self.unk_word
def __len__( self ):
"""simple docstring"""
return len(self.symbols )
def __contains__( self , UpperCAmelCase ):
"""simple docstring"""
return sym in self.indices
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = cls()
d.add_from_file(UpperCAmelCase )
return d
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=1 , UpperCAmelCase=False ):
"""simple docstring"""
if word in self.indices and not overwrite:
_UpperCAmelCase = self.indices[word]
_UpperCAmelCase = self.count[idx] + n
return idx
else:
_UpperCAmelCase = len(self.symbols )
_UpperCAmelCase = idx
self.symbols.append(UpperCAmelCase )
self.count.append(UpperCAmelCase )
return idx
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return 0
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if isinstance(UpperCAmelCase , UpperCAmelCase ):
try:
with open(UpperCAmelCase , 'r' , encoding='utf-8' ) as fd:
self.add_from_file(UpperCAmelCase )
except FileNotFoundError as fnfe:
raise fnfe
except UnicodeError:
raise Exception('Incorrect encoding detected in {}, please rebuild the dataset'.format(UpperCAmelCase ) )
return
_UpperCAmelCase = f.readlines()
_UpperCAmelCase = self._load_meta(UpperCAmelCase )
for line in lines[indices_start_line:]:
try:
_UpperCAmelCase , _UpperCAmelCase = line.rstrip().rsplit(' ' , 1 )
if field == "#fairseq:overwrite":
_UpperCAmelCase = True
_UpperCAmelCase , _UpperCAmelCase = line.rsplit(' ' , 1 )
else:
_UpperCAmelCase = False
_UpperCAmelCase = int(UpperCAmelCase )
_UpperCAmelCase = line
if word in self and not overwrite:
raise RuntimeError(
'Duplicate word found when loading Dictionary: \'{}\'. '
'Duplicate words can overwrite earlier ones by adding the '
'#fairseq:overwrite flag at the end of the corresponding row '
'in the dictionary file. If using the Camembert model, please '
'download an updated copy of the model file.'.format(UpperCAmelCase ) )
self.add_symbol(UpperCAmelCase , n=UpperCAmelCase , overwrite=UpperCAmelCase )
except ValueError:
raise ValueError('Incorrect dictionary format, expected \'<token> <cnt> [flags]\'' )
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = dict((re.sub(R'@@$' , '' , __lowerCAmelCase ), v) if k.endswith('@@' ) else (re.sub(R'$' , '</w>' , __lowerCAmelCase ), v) for k, v in d.items() )
_UpperCAmelCase = '<s> <pad> </s> <unk>'.split()
# restore the special tokens
for k in keep_keys:
del da[F"""{k}</w>"""]
_UpperCAmelCase = d[k] # restore
return da
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> str:
"""simple docstring"""
if not os.path.exists(__lowerCAmelCase ):
raise ValueError(F"""path {biogpt_checkpoint_path} does not exist!""" )
os.makedirs(__lowerCAmelCase , exist_ok=__lowerCAmelCase )
print(F"""Writing results to {pytorch_dump_folder_path}""" )
# handle various types of models
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'checkpoint.pt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {checkpoint_file} does not exist!""" )
_UpperCAmelCase = torch.load(__lowerCAmelCase , map_location='cpu' )
_UpperCAmelCase = chkpt['cfg']['model']
# dicts
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'dict.txt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {dict_file} does not exist!""" )
_UpperCAmelCase = Dictionary.load(__lowerCAmelCase )
_UpperCAmelCase = rewrite_dict_keys(src_dict.indices )
_UpperCAmelCase = len(__lowerCAmelCase )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['vocab_file'] )
print(F"""Generating {src_vocab_file} of {src_vocab_size} records""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# merges_file (bpecodes)
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'bpecodes' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {bpecodes_file} does not exist!""" )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['merges_file'] )
shutil.copyfile(__lowerCAmelCase , __lowerCAmelCase )
# model config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'config.json' )
_UpperCAmelCase = {
'activation_dropout': args['activation_dropout'],
'architectures': ['BioGptForCausalLM'],
'attention_probs_dropout_prob': args['attention_dropout'],
'bos_token_id': 0,
'eos_token_id': 2,
'hidden_act': args['activation_fn'],
'hidden_dropout_prob': args['dropout'],
'hidden_size': args['decoder_embed_dim'],
'initializer_range': 0.02,
'intermediate_size': args['decoder_ffn_embed_dim'],
'layer_norm_eps': 1E-12,
'layerdrop': args['decoder_layerdrop'],
'max_position_embeddings': args['max_target_positions'],
'model_type': 'biogpt',
'num_attention_heads': args['decoder_attention_heads'],
'num_hidden_layers': args['decoder_layers'],
'pad_token_id': 1,
'scale_embedding': not args['no_scale_embedding'],
'tie_word_embeddings': args['share_decoder_input_output_embed'],
'vocab_size': src_vocab_size,
}
# good hparam defaults to start with
print(F"""Generating {biogpt_model_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# tokenizer config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = {
'bos_token': '<s>',
'eos_token': '</s>',
'model_max_length': 1_024,
'pad_token': '<pad>',
'special_tokens_map_file': None,
'tokenizer_class': 'BioGptTokenizer',
'unk_token': '<unk>',
}
print(F"""Generating {biogpt_tokenizer_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# model
_UpperCAmelCase = chkpt['model']
# remove unneeded keys
_UpperCAmelCase = [
'decoder.version',
]
for k in ignore_keys:
model_state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = list(model_state_dict.keys() )
for layer_name in layer_names:
if layer_name.endswith('output_projection.weight' ):
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
else:
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
_UpperCAmelCase = BioGptConfig.from_pretrained(__lowerCAmelCase )
_UpperCAmelCase = BioGptForCausalLM(__lowerCAmelCase )
# check that it loads ok
model_new.load_state_dict(__lowerCAmelCase )
# save
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
print(F"""Generating {pytorch_weights_dump_path}""" )
torch.save(__lowerCAmelCase , __lowerCAmelCase )
print('Conversion is done!' )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--biogpt_checkpoint_path''',
default=None,
type=str,
required=True,
help=(
'''Path to the official PyTorch checkpoint file which is expected to reside in the dump dir with dicts,'''
''' bpecodes, etc.'''
),
)
parser.add_argument(
'''--pytorch_dump_folder_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
_a = parser.parse_args()
convert_biogpt_checkpoint_to_pytorch(args.biogpt_checkpoint_path, args.pytorch_dump_folder_path)
| 39
| 1
|
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, ChunkPipeline
if is_vision_available():
from PIL import Image
from ..image_utils import load_image
if is_torch_available():
import torch
from transformers.modeling_outputs import BaseModelOutput
from ..models.auto.modeling_auto import MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING
_a = logging.get_logger(__name__)
@add_end_docstrings(snake_case__)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , **UpperCAmelCase ):
"""simple docstring"""
super().__init__(**UpperCAmelCase )
if self.framework == "tf":
raise ValueError(F"""The {self.__class__} is only available in PyTorch.""" )
requires_backends(self , 'vision' )
self.check_model_type(UpperCAmelCase )
def __call__( self , UpperCAmelCase , UpperCAmelCase = None , **UpperCAmelCase , ):
"""simple docstring"""
if "text_queries" in kwargs:
_UpperCAmelCase = kwargs.pop('text_queries' )
if isinstance(UpperCAmelCase , (str, Image.Image) ):
_UpperCAmelCase = {'image': image, 'candidate_labels': candidate_labels}
else:
_UpperCAmelCase = image
_UpperCAmelCase = super().__call__(UpperCAmelCase , **UpperCAmelCase )
return results
def UpperCamelCase ( self , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = {}
if "threshold" in kwargs:
_UpperCAmelCase = kwargs['threshold']
if "top_k" in kwargs:
_UpperCAmelCase = kwargs['top_k']
return {}, {}, postprocess_params
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = load_image(inputs['image'] )
_UpperCAmelCase = inputs['candidate_labels']
if isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = candidate_labels.split(',' )
_UpperCAmelCase = torch.tensor([[image.height, image.width]] , dtype=torch.intaa )
for i, candidate_label in enumerate(UpperCAmelCase ):
_UpperCAmelCase = self.tokenizer(UpperCAmelCase , return_tensors=self.framework )
_UpperCAmelCase = self.image_processor(UpperCAmelCase , return_tensors=self.framework )
yield {
"is_last": i == len(UpperCAmelCase ) - 1,
"target_size": target_size,
"candidate_label": candidate_label,
**text_inputs,
**image_features,
}
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = model_inputs.pop('target_size' )
_UpperCAmelCase = model_inputs.pop('candidate_label' )
_UpperCAmelCase = model_inputs.pop('is_last' )
_UpperCAmelCase = self.model(**UpperCAmelCase )
_UpperCAmelCase = {'target_size': target_size, 'candidate_label': candidate_label, 'is_last': is_last, **outputs}
return model_outputs
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=0.1 , UpperCAmelCase=None ):
"""simple docstring"""
_UpperCAmelCase = []
for model_output in model_outputs:
_UpperCAmelCase = model_output['candidate_label']
_UpperCAmelCase = BaseModelOutput(UpperCAmelCase )
_UpperCAmelCase = self.image_processor.post_process_object_detection(
outputs=UpperCAmelCase , threshold=UpperCAmelCase , target_sizes=model_output['target_size'] )[0]
for index in outputs["scores"].nonzero():
_UpperCAmelCase = outputs['scores'][index].item()
_UpperCAmelCase = self._get_bounding_box(outputs['boxes'][index][0] )
_UpperCAmelCase = {'score': score, 'label': label, 'box': box}
results.append(UpperCAmelCase )
_UpperCAmelCase = sorted(UpperCAmelCase , key=lambda UpperCAmelCase : x["score"] , reverse=UpperCAmelCase )
if top_k:
_UpperCAmelCase = results[:top_k]
return results
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if self.framework != "pt":
raise ValueError('The ZeroShotObjectDetectionPipeline is only available in PyTorch.' )
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = box.int().tolist()
_UpperCAmelCase = {
'xmin': xmin,
'ymin': ymin,
'xmax': xmax,
'ymax': ymax,
}
return bbox
| 39
|
from __future__ import annotations
import collections
import pprint
from pathlib import Path
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
return "".join(sorted(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase )-> list[str]:
"""simple docstring"""
return word_by_signature[signature(__lowerCAmelCase )]
_a = Path(__file__).parent.joinpath('''words.txt''').read_text(encoding='''utf-8''')
_a = sorted({word.strip().lower() for word in data.splitlines()})
_a = collections.defaultdict(list)
for word in word_list:
word_by_signature[signature(word)].append(word)
if __name__ == "__main__":
_a = {word: anagram(word) for word in word_list if len(anagram(word)) > 1}
with open('''anagrams.txt''', '''w''') as file:
file.write('''all_anagrams = \n ''')
file.write(pprint.pformat(all_anagrams))
| 39
| 1
|
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)
_a = logging.getLogger()
def __A ( )-> Dict:
"""simple docstring"""
_UpperCAmelCase = argparse.ArgumentParser()
parser.add_argument('-f' )
_UpperCAmelCase = parser.parse_args()
return args.f
def __A ( __lowerCAmelCase )-> Dict:
"""simple docstring"""
_UpperCAmelCase = {}
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'all_results.json' )
if os.path.exists(__lowerCAmelCase ):
with open(__lowerCAmelCase , 'r' ) as f:
_UpperCAmelCase = json.load(__lowerCAmelCase )
else:
raise ValueError(F"""can't find {path}""" )
return results
def __A ( )-> str:
"""simple docstring"""
_UpperCAmelCase = torch.cuda.is_available() and torch_device == 'cuda'
return is_using_cuda and is_apex_available()
_a = logging.StreamHandler(sys.stdout)
logger.addHandler(stream_handler)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
@classmethod
def UpperCamelCase ( cls ):
"""simple docstring"""
_UpperCAmelCase = tempfile.mkdtemp()
_UpperCAmelCase = os.path.join(cls.tmpdir , 'default_config.yml' )
write_basic_config(save_location=cls.configPath )
_UpperCAmelCase = ['accelerate', 'launch', '--config_file', cls.configPath]
@classmethod
def UpperCamelCase ( cls ):
"""simple docstring"""
shutil.rmtree(cls.tmpdir )
@mock.patch.dict(os.environ , {'WANDB_MODE': 'offline'} )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
{self.examples_dir}/pytorch/text-classification/run_glue_no_trainer.py
--model_name_or_path distilbert-base-uncased
--output_dir {tmp_dir}
--train_file ./tests/fixtures/tests_samples/MRPC/train.csv
--validation_file ./tests/fixtures/tests_samples/MRPC/dev.csv
--per_device_train_batch_size=2
--per_device_eval_batch_size=1
--learning_rate=1e-4
--seed=42
--checkpointing_steps epoch
--with_tracking
""".split()
if is_cuda_and_apex_available():
testargs.append('--fp16' )
run_command(self._launch_args + testargs )
_UpperCAmelCase = get_results(UpperCAmelCase )
self.assertGreaterEqual(result['eval_accuracy'] , 0.75 )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'epoch_0' ) ) )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'glue_no_trainer' ) ) )
@mock.patch.dict(os.environ , {'WANDB_MODE': 'offline'} )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
{self.examples_dir}/pytorch/language-modeling/run_clm_no_trainer.py
--model_name_or_path distilgpt2
--train_file ./tests/fixtures/sample_text.txt
--validation_file ./tests/fixtures/sample_text.txt
--block_size 128
--per_device_train_batch_size 5
--per_device_eval_batch_size 5
--num_train_epochs 2
--output_dir {tmp_dir}
--checkpointing_steps epoch
--with_tracking
""".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 )
_UpperCAmelCase = get_results(UpperCAmelCase )
self.assertLess(result['perplexity'] , 100 )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'epoch_0' ) ) )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'clm_no_trainer' ) ) )
@mock.patch.dict(os.environ , {'WANDB_MODE': 'offline'} )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
{self.examples_dir}/pytorch/language-modeling/run_mlm_no_trainer.py
--model_name_or_path distilroberta-base
--train_file ./tests/fixtures/sample_text.txt
--validation_file ./tests/fixtures/sample_text.txt
--output_dir {tmp_dir}
--num_train_epochs=1
--checkpointing_steps epoch
--with_tracking
""".split()
run_command(self._launch_args + testargs )
_UpperCAmelCase = get_results(UpperCAmelCase )
self.assertLess(result['perplexity'] , 42 )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'epoch_0' ) ) )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'mlm_no_trainer' ) ) )
@mock.patch.dict(os.environ , {'WANDB_MODE': 'offline'} )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = 7 if get_gpu_count() > 1 else 2
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
{self.examples_dir}/pytorch/token-classification/run_ner_no_trainer.py
--model_name_or_path bert-base-uncased
--train_file tests/fixtures/tests_samples/conll/sample.json
--validation_file tests/fixtures/tests_samples/conll/sample.json
--output_dir {tmp_dir}
--learning_rate=2e-4
--per_device_train_batch_size=2
--per_device_eval_batch_size=2
--num_train_epochs={epochs}
--seed 7
--checkpointing_steps epoch
--with_tracking
""".split()
run_command(self._launch_args + testargs )
_UpperCAmelCase = get_results(UpperCAmelCase )
self.assertGreaterEqual(result['eval_accuracy'] , 0.75 )
self.assertLess(result['train_loss'] , 0.5 )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'epoch_0' ) ) )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'ner_no_trainer' ) ) )
@unittest.skip(reason='Fix me @muellerzr' )
@mock.patch.dict(os.environ , {'WANDB_MODE': 'offline'} )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
{self.examples_dir}/pytorch/question-answering/run_qa_no_trainer.py
--model_name_or_path bert-base-uncased
--version_2_with_negative
--train_file tests/fixtures/tests_samples/SQUAD/sample.json
--validation_file tests/fixtures/tests_samples/SQUAD/sample.json
--output_dir {tmp_dir}
--seed=42
--max_train_steps=10
--num_warmup_steps=2
--learning_rate=2e-4
--per_device_train_batch_size=2
--per_device_eval_batch_size=1
--checkpointing_steps epoch
--with_tracking
""".split()
run_command(self._launch_args + testargs )
_UpperCAmelCase = get_results(UpperCAmelCase )
# Because we use --version_2_with_negative the testing script uses SQuAD v2 metrics.
self.assertGreaterEqual(result['eval_f1'] , 28 )
self.assertGreaterEqual(result['eval_exact'] , 28 )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'epoch_0' ) ) )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'qa_no_trainer' ) ) )
@mock.patch.dict(os.environ , {'WANDB_MODE': 'offline'} )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
{self.examples_dir}/pytorch/multiple-choice/run_swag_no_trainer.py
--model_name_or_path bert-base-uncased
--train_file tests/fixtures/tests_samples/swag/sample.json
--validation_file tests/fixtures/tests_samples/swag/sample.json
--output_dir {tmp_dir}
--max_train_steps=20
--num_warmup_steps=2
--learning_rate=2e-4
--per_device_train_batch_size=2
--per_device_eval_batch_size=1
--with_tracking
""".split()
run_command(self._launch_args + testargs )
_UpperCAmelCase = get_results(UpperCAmelCase )
self.assertGreaterEqual(result['eval_accuracy'] , 0.8 )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'swag_no_trainer' ) ) )
@slow
@mock.patch.dict(os.environ , {'WANDB_MODE': 'offline'} )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
{self.examples_dir}/pytorch/summarization/run_summarization_no_trainer.py
--model_name_or_path t5-small
--train_file tests/fixtures/tests_samples/xsum/sample.json
--validation_file tests/fixtures/tests_samples/xsum/sample.json
--output_dir {tmp_dir}
--max_train_steps=50
--num_warmup_steps=8
--learning_rate=2e-4
--per_device_train_batch_size=2
--per_device_eval_batch_size=1
--checkpointing_steps epoch
--with_tracking
""".split()
run_command(self._launch_args + testargs )
_UpperCAmelCase = get_results(UpperCAmelCase )
self.assertGreaterEqual(result['eval_rouge1'] , 10 )
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(UpperCAmelCase , 'epoch_0' ) ) )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'summarization_no_trainer' ) ) )
@slow
@mock.patch.dict(os.environ , {'WANDB_MODE': 'offline'} )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
{self.examples_dir}/pytorch/translation/run_translation_no_trainer.py
--model_name_or_path sshleifer/student_marian_en_ro_6_1
--source_lang en
--target_lang ro
--train_file tests/fixtures/tests_samples/wmt16/sample.json
--validation_file tests/fixtures/tests_samples/wmt16/sample.json
--output_dir {tmp_dir}
--max_train_steps=50
--num_warmup_steps=8
--num_beams=6
--learning_rate=3e-3
--per_device_train_batch_size=2
--per_device_eval_batch_size=1
--source_lang en_XX
--target_lang ro_RO
--checkpointing_steps epoch
--with_tracking
""".split()
run_command(self._launch_args + testargs )
_UpperCAmelCase = get_results(UpperCAmelCase )
self.assertGreaterEqual(result['eval_bleu'] , 30 )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'epoch_0' ) ) )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'translation_no_trainer' ) ) )
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = logging.StreamHandler(sys.stdout )
logger.addHandler(UpperCAmelCase )
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
{self.examples_dir}/pytorch/semantic-segmentation/run_semantic_segmentation_no_trainer.py
--dataset_name huggingface/semantic-segmentation-test-sample
--output_dir {tmp_dir}
--max_train_steps=10
--num_warmup_steps=2
--learning_rate=2e-4
--per_device_train_batch_size=2
--per_device_eval_batch_size=1
--checkpointing_steps epoch
""".split()
run_command(self._launch_args + testargs )
_UpperCAmelCase = get_results(UpperCAmelCase )
self.assertGreaterEqual(result['eval_overall_accuracy'] , 0.10 )
@mock.patch.dict(os.environ , {'WANDB_MODE': 'offline'} )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = F"""
{self.examples_dir}/pytorch/image-classification/run_image_classification_no_trainer.py
--model_name_or_path google/vit-base-patch16-224-in21k
--dataset_name hf-internal-testing/cats_vs_dogs_sample
--learning_rate 1e-4
--per_device_train_batch_size 2
--per_device_eval_batch_size 1
--max_train_steps 2
--train_val_split 0.1
--seed 42
--output_dir {tmp_dir}
--with_tracking
--checkpointing_steps 1
""".split()
if is_cuda_and_apex_available():
testargs.append('--fp16' )
run_command(self._launch_args + testargs )
_UpperCAmelCase = get_results(UpperCAmelCase )
# The base model scores a 25%
self.assertGreaterEqual(result['eval_accuracy'] , 0.6 )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'step_1' ) ) )
self.assertTrue(os.path.exists(os.path.join(UpperCAmelCase , 'image_classification_no_trainer' ) ) )
| 39
|
from __future__ import annotations
def __A ( __lowerCAmelCase )-> list[int]:
"""simple docstring"""
_UpperCAmelCase = 2
_UpperCAmelCase = []
while i * i <= n:
if n % i:
i += 1
else:
n //= i
factors.append(__lowerCAmelCase )
if n > 1:
factors.append(__lowerCAmelCase )
return factors
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
| 1
|
import argparse
import hashlib
import os
import urllib
import warnings
import torch
from torch import nn
from tqdm import tqdm
from transformers import WhisperConfig, WhisperForConditionalGeneration
_a = {
'''tiny.en''': '''https://openaipublic.azureedge.net/main/whisper/models/d3dd57d32accea0b295c96e26691aa14d8822fac7d9d27d5dc00b4ca2826dd03/tiny.en.pt''',
'''tiny''': '''https://openaipublic.azureedge.net/main/whisper/models/65147644a518d12f04e32d6f3b26facc3f8dd46e5390956a9424a650c0ce22b9/tiny.pt''',
'''base.en''': '''https://openaipublic.azureedge.net/main/whisper/models/25a8566e1d0c1e2231d1c762132cd20e0f96a85d16145c3a00adf5d1ac670ead/base.en.pt''',
'''base''': '''https://openaipublic.azureedge.net/main/whisper/models/ed3a0b6b1c0edf879ad9b11b1af5a0e6ab5db9205f891f668f8b0e6c6326e34e/base.pt''',
'''small.en''': '''https://openaipublic.azureedge.net/main/whisper/models/f953ad0fd29cacd07d5a9eda5624af0f6bcf2258be67c92b79389873d91e0872/small.en.pt''',
'''small''': '''https://openaipublic.azureedge.net/main/whisper/models/9ecf779972d90ba49c06d968637d720dd632c55bbf19d441fb42bf17a411e794/small.pt''',
'''medium.en''': '''https://openaipublic.azureedge.net/main/whisper/models/d7440d1dc186f76616474e0ff0b3b6b879abc9d1a4926b7adfa41db2d497ab4f/medium.en.pt''',
'''medium''': '''https://openaipublic.azureedge.net/main/whisper/models/345ae4da62f9b3d59415adc60127b97c714f32e89e936602e85993674d08dcb1/medium.pt''',
'''large''': '''https://openaipublic.azureedge.net/main/whisper/models/e4b87e7e0bf463eb8e6956e646f1e277e901512310def2c24bf0e11bd3c28e9a/large.pt''',
'''large-v2''': '''https://openaipublic.azureedge.net/main/whisper/models/81f7c96c852ee8fc832187b0132e569d6c3065a3252ed18e56effd0b6a73e524/large-v2.pt''',
}
def __A ( __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = ['layers', 'blocks']
for k in ignore_keys:
state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
_a = {
'''blocks''': '''layers''',
'''mlp.0''': '''fc1''',
'''mlp.2''': '''fc2''',
'''mlp_ln''': '''final_layer_norm''',
'''.attn.query''': '''.self_attn.q_proj''',
'''.attn.key''': '''.self_attn.k_proj''',
'''.attn.value''': '''.self_attn.v_proj''',
'''.attn_ln''': '''.self_attn_layer_norm''',
'''.attn.out''': '''.self_attn.out_proj''',
'''.cross_attn.query''': '''.encoder_attn.q_proj''',
'''.cross_attn.key''': '''.encoder_attn.k_proj''',
'''.cross_attn.value''': '''.encoder_attn.v_proj''',
'''.cross_attn_ln''': '''.encoder_attn_layer_norm''',
'''.cross_attn.out''': '''.encoder_attn.out_proj''',
'''decoder.ln.''': '''decoder.layer_norm.''',
'''encoder.ln.''': '''encoder.layer_norm.''',
'''token_embedding''': '''embed_tokens''',
'''encoder.positional_embedding''': '''encoder.embed_positions.weight''',
'''decoder.positional_embedding''': '''decoder.embed_positions.weight''',
'''ln_post''': '''layer_norm''',
}
def __A ( __lowerCAmelCase )-> Any:
"""simple docstring"""
_UpperCAmelCase = list(s_dict.keys() )
for key in keys:
_UpperCAmelCase = key
for k, v in WHISPER_MAPPING.items():
if k in key:
_UpperCAmelCase = new_key.replace(__lowerCAmelCase , __lowerCAmelCase )
print(F"""{key} -> {new_key}""" )
_UpperCAmelCase = s_dict.pop(__lowerCAmelCase )
return s_dict
def __A ( __lowerCAmelCase )-> List[str]:
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = emb.weight.shape
_UpperCAmelCase = nn.Linear(__lowerCAmelCase , __lowerCAmelCase , bias=__lowerCAmelCase )
_UpperCAmelCase = emb.weight.data
return lin_layer
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> bytes:
"""simple docstring"""
os.makedirs(__lowerCAmelCase , exist_ok=__lowerCAmelCase )
_UpperCAmelCase = os.path.basename(__lowerCAmelCase )
_UpperCAmelCase = url.split('/' )[-2]
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
if os.path.exists(__lowerCAmelCase ) and not os.path.isfile(__lowerCAmelCase ):
raise RuntimeError(F"""{download_target} exists and is not a regular file""" )
if os.path.isfile(__lowerCAmelCase ):
_UpperCAmelCase = open(__lowerCAmelCase , 'rb' ).read()
if hashlib.shaaaa(__lowerCAmelCase ).hexdigest() == expected_shaaaa:
return model_bytes
else:
warnings.warn(F"""{download_target} exists, but the SHA256 checksum does not match; re-downloading the file""" )
with urllib.request.urlopen(__lowerCAmelCase ) as source, open(__lowerCAmelCase , 'wb' ) as output:
with tqdm(
total=int(source.info().get('Content-Length' ) ) , ncols=80 , unit='iB' , unit_scale=__lowerCAmelCase , unit_divisor=1_024 ) as loop:
while True:
_UpperCAmelCase = source.read(8_192 )
if not buffer:
break
output.write(__lowerCAmelCase )
loop.update(len(__lowerCAmelCase ) )
_UpperCAmelCase = open(__lowerCAmelCase , 'rb' ).read()
if hashlib.shaaaa(__lowerCAmelCase ).hexdigest() != expected_shaaaa:
raise RuntimeError(
'Model has been downloaded but the SHA256 checksum does not not match. Please retry loading the model.' )
return model_bytes
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Optional[int]:
"""simple docstring"""
if ".pt" not in checkpoint_path:
_UpperCAmelCase = _download(_MODELS[checkpoint_path] )
else:
_UpperCAmelCase = torch.load(__lowerCAmelCase , map_location='cpu' )
_UpperCAmelCase = original_checkpoint['dims']
_UpperCAmelCase = original_checkpoint['model_state_dict']
_UpperCAmelCase = state_dict['decoder.token_embedding.weight']
remove_ignore_keys_(__lowerCAmelCase )
rename_keys(__lowerCAmelCase )
_UpperCAmelCase = True
_UpperCAmelCase = state_dict['decoder.layers.0.fc1.weight'].shape[0]
_UpperCAmelCase = WhisperConfig(
vocab_size=dimensions['n_vocab'] , encoder_ffn_dim=__lowerCAmelCase , decoder_ffn_dim=__lowerCAmelCase , num_mel_bins=dimensions['n_mels'] , d_model=dimensions['n_audio_state'] , max_target_positions=dimensions['n_text_ctx'] , encoder_layers=dimensions['n_audio_layer'] , encoder_attention_heads=dimensions['n_audio_head'] , decoder_layers=dimensions['n_text_layer'] , decoder_attention_heads=dimensions['n_text_state'] , max_source_positions=dimensions['n_audio_ctx'] , )
_UpperCAmelCase = WhisperForConditionalGeneration(__lowerCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = model.model.load_state_dict(__lowerCAmelCase , strict=__lowerCAmelCase )
if len(__lowerCAmelCase ) > 0 and not set(__lowerCAmelCase ) <= {
"encoder.embed_positions.weights",
"decoder.embed_positions.weights",
}:
raise ValueError(
'Only `encoder.embed_positions.weights` and `decoder.embed_positions.weights` are allowed to be missing,'
F""" but all the following weights are missing {missing}""" )
if tie_embeds:
_UpperCAmelCase = make_linear_from_emb(model.model.decoder.embed_tokens )
else:
_UpperCAmelCase = proj_out_weights
model.save_pretrained(__lowerCAmelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# # Required parameters
parser.add_argument('''--checkpoint_path''', type=str, help='''Patht to the downloaded checkpoints''')
parser.add_argument('''--pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model.''')
_a = parser.parse_args()
convert_openai_whisper_to_tfms(args.checkpoint_path, args.pytorch_dump_folder_path)
| 39
|
from __future__ import annotations
from itertools import permutations
from random import randint
from timeit import repeat
def __A ( )-> tuple[list[int], int]:
"""simple docstring"""
_UpperCAmelCase = [randint(-1_000 , 1_000 ) for i in range(10 )]
_UpperCAmelCase = randint(-5_000 , 5_000 )
return (arr, r)
_a = make_dataset()
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> tuple[int, ...]:
"""simple docstring"""
for triplet in permutations(__lowerCAmelCase , 3 ):
if sum(__lowerCAmelCase ) == target:
return tuple(sorted(__lowerCAmelCase ) )
return (0, 0, 0)
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> tuple[int, int, int]:
"""simple docstring"""
arr.sort()
_UpperCAmelCase = len(__lowerCAmelCase )
for i in range(n - 1 ):
_UpperCAmelCase , _UpperCAmelCase = i + 1, n - 1
while left < right:
if arr[i] + arr[left] + arr[right] == target:
return (arr[i], arr[left], arr[right])
elif arr[i] + arr[left] + arr[right] < target:
left += 1
elif arr[i] + arr[left] + arr[right] > target:
right -= 1
return (0, 0, 0)
def __A ( )-> tuple[float, float]:
"""simple docstring"""
_UpperCAmelCase = '\nfrom __main__ import dataset, triplet_sum1, triplet_sum2\n'
_UpperCAmelCase = '\ntriplet_sum1(*dataset)\n'
_UpperCAmelCase = '\ntriplet_sum2(*dataset)\n'
_UpperCAmelCase = repeat(setup=__lowerCAmelCase , stmt=__lowerCAmelCase , repeat=5 , number=10_000 )
_UpperCAmelCase = repeat(setup=__lowerCAmelCase , stmt=__lowerCAmelCase , repeat=5 , number=10_000 )
return (min(__lowerCAmelCase ), min(__lowerCAmelCase ))
if __name__ == "__main__":
from doctest import testmod
testmod()
_a = solution_times()
print(F'''The time for naive implementation is {times[0]}.''')
print(F'''The time for optimized implementation is {times[1]}.''')
| 39
| 1
|
import unittest
from transformers import BertGenerationConfig, is_torch_available
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, floats_tensor, ids_tensor, random_attention_mask
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import BertGenerationDecoder, BertGenerationEncoder
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=13 , UpperCAmelCase=7 , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase=99 , UpperCAmelCase=32 , UpperCAmelCase=5 , UpperCAmelCase=4 , UpperCAmelCase=37 , UpperCAmelCase="gelu" , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase=50 , UpperCAmelCase=0.02 , UpperCAmelCase=True , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = seq_length
_UpperCAmelCase = is_training
_UpperCAmelCase = use_input_mask
_UpperCAmelCase = vocab_size
_UpperCAmelCase = hidden_size
_UpperCAmelCase = num_hidden_layers
_UpperCAmelCase = num_attention_heads
_UpperCAmelCase = intermediate_size
_UpperCAmelCase = hidden_act
_UpperCAmelCase = hidden_dropout_prob
_UpperCAmelCase = attention_probs_dropout_prob
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = initializer_range
_UpperCAmelCase = use_labels
_UpperCAmelCase = scope
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
_UpperCAmelCase = None
if self.use_input_mask:
_UpperCAmelCase = random_attention_mask([self.batch_size, self.seq_length] )
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
_UpperCAmelCase = self.get_config()
return config, input_ids, input_mask, token_labels
def UpperCamelCase ( self ):
"""simple docstring"""
return BertGenerationConfig(
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 , is_decoder=UpperCAmelCase , initializer_range=self.initializer_range , )
def UpperCamelCase ( self ):
"""simple docstring"""
(
(
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) ,
) = self.prepare_config_and_inputs()
_UpperCAmelCase = True
_UpperCAmelCase = floats_tensor([self.batch_size, self.seq_length, self.hidden_size] )
_UpperCAmelCase = ids_tensor([self.batch_size, self.seq_length] , vocab_size=2 )
return (
config,
input_ids,
input_mask,
token_labels,
encoder_hidden_states,
encoder_attention_mask,
)
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = BertGenerationEncoder(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase , attention_mask=UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = True
_UpperCAmelCase = BertGenerationEncoder(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(
UpperCAmelCase , attention_mask=UpperCAmelCase , encoder_hidden_states=UpperCAmelCase , encoder_attention_mask=UpperCAmelCase , )
_UpperCAmelCase = model(
UpperCAmelCase , attention_mask=UpperCAmelCase , encoder_hidden_states=UpperCAmelCase , )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = True
_UpperCAmelCase = True
_UpperCAmelCase = BertGenerationDecoder(config=UpperCAmelCase ).to(UpperCAmelCase ).eval()
# first forward pass
_UpperCAmelCase = model(
UpperCAmelCase , attention_mask=UpperCAmelCase , encoder_hidden_states=UpperCAmelCase , encoder_attention_mask=UpperCAmelCase , use_cache=UpperCAmelCase , )
_UpperCAmelCase = outputs.past_key_values
# create hypothetical multiple next token and extent to next_input_ids
_UpperCAmelCase = ids_tensor((self.batch_size, 3) , config.vocab_size )
_UpperCAmelCase = ids_tensor((self.batch_size, 3) , vocab_size=2 )
# append to next input_ids and
_UpperCAmelCase = torch.cat([input_ids, next_tokens] , dim=-1 )
_UpperCAmelCase = torch.cat([input_mask, next_mask] , dim=-1 )
_UpperCAmelCase = model(
UpperCAmelCase , attention_mask=UpperCAmelCase , encoder_hidden_states=UpperCAmelCase , encoder_attention_mask=UpperCAmelCase , output_hidden_states=UpperCAmelCase , )['hidden_states'][0]
_UpperCAmelCase = model(
UpperCAmelCase , attention_mask=UpperCAmelCase , encoder_hidden_states=UpperCAmelCase , encoder_attention_mask=UpperCAmelCase , past_key_values=UpperCAmelCase , output_hidden_states=UpperCAmelCase , )['hidden_states'][0]
# select random slice
_UpperCAmelCase = ids_tensor((1,) , output_from_past.shape[-1] ).item()
_UpperCAmelCase = output_from_no_past[:, -3:, random_slice_idx].detach()
_UpperCAmelCase = 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(UpperCAmelCase , UpperCAmelCase , atol=1e-3 ) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , *UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = BertGenerationDecoder(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase , attention_mask=UpperCAmelCase , labels=UpperCAmelCase )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase = {'input_ids': input_ids, 'attention_mask': input_mask}
return config, inputs_dict
@require_torch
class __lowerCamelCase ( snake_case__ , snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (BertGenerationEncoder, BertGenerationDecoder) if is_torch_available() else ()
UpperCamelCase__ = (BertGenerationDecoder,) if is_torch_available() else ()
UpperCamelCase__ = (
{"feature-extraction": BertGenerationEncoder, "text-generation": BertGenerationDecoder}
if is_torch_available()
else {}
)
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = BertGenerationEncoderTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , hidden_size=37 )
def UpperCamelCase ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
_UpperCAmelCase = 'bert'
self.model_tester.create_and_check_model(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_decoder()
self.model_tester.create_and_check_model_as_decoder(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_decoder()
self.model_tester.create_and_check_decoder_model_past_large_inputs(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
(
(
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) ,
) = self.model_tester.prepare_config_and_inputs_for_decoder()
_UpperCAmelCase = None
self.model_tester.create_and_check_model_as_decoder(
UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_decoder()
self.model_tester.create_and_check_for_causal_lm(*UpperCAmelCase )
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = BertGenerationEncoder.from_pretrained('google/bert_for_seq_generation_L-24_bbc_encoder' )
self.assertIsNotNone(UpperCAmelCase )
@require_torch
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = BertGenerationEncoder.from_pretrained('google/bert_for_seq_generation_L-24_bbc_encoder' )
_UpperCAmelCase = torch.tensor([[101, 7592, 1010, 2026, 3899, 2003, 1_0140, 102]] )
with torch.no_grad():
_UpperCAmelCase = model(UpperCAmelCase )[0]
_UpperCAmelCase = torch.Size([1, 8, 1024] )
self.assertEqual(output.shape , UpperCAmelCase )
_UpperCAmelCase = torch.tensor(
[[[0.17_75, 0.00_83, -0.03_21], [1.60_02, 0.12_87, 0.39_12], [2.14_73, 0.57_91, 0.60_66]]] )
self.assertTrue(torch.allclose(output[:, :3, :3] , UpperCAmelCase , atol=1e-4 ) )
@require_torch
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = BertGenerationDecoder.from_pretrained('google/bert_for_seq_generation_L-24_bbc_encoder' )
_UpperCAmelCase = torch.tensor([[101, 7592, 1010, 2026, 3899, 2003, 1_0140, 102]] )
with torch.no_grad():
_UpperCAmelCase = model(UpperCAmelCase )[0]
_UpperCAmelCase = torch.Size([1, 8, 5_0358] )
self.assertEqual(output.shape , UpperCAmelCase )
_UpperCAmelCase = torch.tensor(
[[[-0.57_88, -2.59_94, -3.70_54], [0.04_38, 4.79_97, 1.87_95], [1.58_62, 6.64_09, 4.46_38]]] )
self.assertTrue(torch.allclose(output[:, :3, :3] , UpperCAmelCase , atol=1e-4 ) )
| 39
|
import os
import tempfile
import unittest
import numpy as np
from diffusers.utils import is_flax_available
from diffusers.utils.testing_utils import require_flax, slow
if is_flax_available():
import jax
import jax.numpy as jnp
from flax.jax_utils import replicate
from flax.training.common_utils import shard
from diffusers import FlaxDDIMScheduler, FlaxDiffusionPipeline, FlaxStableDiffusionPipeline
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmpdirname:
# pipeline has Flax weights
_UpperCAmelCase = FlaxDiffusionPipeline.from_pretrained(
'hf-internal-testing/tiny-stable-diffusion-pipe' , safety_checker=UpperCAmelCase , cache_dir=UpperCAmelCase )
_UpperCAmelCase = [t[-1] for t in os.walk(os.path.join(UpperCAmelCase , os.listdir(UpperCAmelCase )[0] , 'snapshots' ) )]
_UpperCAmelCase = [item for sublist in all_root_files for item in sublist]
# None of the downloaded files should be a PyTorch file even if we have some here:
# https://huggingface.co/hf-internal-testing/tiny-stable-diffusion-pipe/blob/main/unet/diffusion_pytorch_model.bin
assert not any(f.endswith('.bin' ) for f in files )
@slow
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'hf-internal-testing/tiny-stable-diffusion-pipe' , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 4
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 64, 64, 3)
if jax.device_count() == 8:
assert np.abs(np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 4.1_51_47_45 ) < 1e-3
assert np.abs(np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 4_99_47.8_75 ) < 5e-1
_UpperCAmelCase = pipeline.numpy_to_pil(np.asarray(images.reshape((num_samples,) + images.shape[-3:] ) ) )
assert len(UpperCAmelCase ) == num_samples
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='flax' , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.05_65_24_01) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_38_38_08.2) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.04_00_39_06) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_37_35_16.75) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.04_00_39_06) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_37_35_16.75) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = FlaxDDIMScheduler(
beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule='scaled_linear' , set_alpha_to_one=UpperCAmelCase , steps_offset=1 , )
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , scheduler=UpperCAmelCase , safety_checker=UpperCAmelCase , )
_UpperCAmelCase = scheduler.create_state()
_UpperCAmelCase = scheduler_state
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.0_45_04_39_45) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_34_76_93.5) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = jax.random.split(jax.random.PRNGKey(0 ) , UpperCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase , )
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
_UpperCAmelCase = images[2, 0, 256, 10:17, 1]
# With memory efficient attention
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase , use_memory_efficient_attention=UpperCAmelCase , )
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images_eff.shape == (num_samples, 1, 512, 512, 3)
_UpperCAmelCase = images[2, 0, 256, 10:17, 1]
# I checked the results visually and they are very similar. However, I saw that the max diff is `1` and the `sum`
# over the 8 images is exactly `256`, which is very suspicious. Testing a random slice for now.
assert abs(slice_eff - slice ).max() < 1e-2
| 39
| 1
|
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'''xlm-mlm-en-2048''': '''https://huggingface.co/xlm-mlm-en-2048/resolve/main/config.json''',
'''xlm-mlm-ende-1024''': '''https://huggingface.co/xlm-mlm-ende-1024/resolve/main/config.json''',
'''xlm-mlm-enfr-1024''': '''https://huggingface.co/xlm-mlm-enfr-1024/resolve/main/config.json''',
'''xlm-mlm-enro-1024''': '''https://huggingface.co/xlm-mlm-enro-1024/resolve/main/config.json''',
'''xlm-mlm-tlm-xnli15-1024''': '''https://huggingface.co/xlm-mlm-tlm-xnli15-1024/resolve/main/config.json''',
'''xlm-mlm-xnli15-1024''': '''https://huggingface.co/xlm-mlm-xnli15-1024/resolve/main/config.json''',
'''xlm-clm-enfr-1024''': '''https://huggingface.co/xlm-clm-enfr-1024/resolve/main/config.json''',
'''xlm-clm-ende-1024''': '''https://huggingface.co/xlm-clm-ende-1024/resolve/main/config.json''',
'''xlm-mlm-17-1280''': '''https://huggingface.co/xlm-mlm-17-1280/resolve/main/config.json''',
'''xlm-mlm-100-1280''': '''https://huggingface.co/xlm-mlm-100-1280/resolve/main/config.json''',
}
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "xlm"
UpperCamelCase__ = {
"hidden_size": "emb_dim",
"num_attention_heads": "n_heads",
"num_hidden_layers": "n_layers",
"n_words": "vocab_size", # For backward compatibility
}
def __init__( self , UpperCAmelCase=3_0145 , UpperCAmelCase=2048 , UpperCAmelCase=12 , UpperCAmelCase=16 , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase=True , UpperCAmelCase=False , UpperCAmelCase=False , UpperCAmelCase=False , UpperCAmelCase=1 , UpperCAmelCase=True , UpperCAmelCase=512 , UpperCAmelCase=2048**-0.5 , UpperCAmelCase=1e-12 , UpperCAmelCase=0.02 , UpperCAmelCase=0 , UpperCAmelCase=1 , UpperCAmelCase=2 , UpperCAmelCase=3 , UpperCAmelCase=5 , UpperCAmelCase=True , UpperCAmelCase="first" , UpperCAmelCase=True , UpperCAmelCase=None , UpperCAmelCase=True , UpperCAmelCase=0.1 , UpperCAmelCase=5 , UpperCAmelCase=5 , UpperCAmelCase=0 , UpperCAmelCase=0 , UpperCAmelCase=2 , UpperCAmelCase=0 , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = vocab_size
_UpperCAmelCase = emb_dim
_UpperCAmelCase = n_layers
_UpperCAmelCase = n_heads
_UpperCAmelCase = dropout
_UpperCAmelCase = attention_dropout
_UpperCAmelCase = gelu_activation
_UpperCAmelCase = sinusoidal_embeddings
_UpperCAmelCase = causal
_UpperCAmelCase = asm
_UpperCAmelCase = n_langs
_UpperCAmelCase = use_lang_emb
_UpperCAmelCase = layer_norm_eps
_UpperCAmelCase = bos_index
_UpperCAmelCase = eos_index
_UpperCAmelCase = pad_index
_UpperCAmelCase = unk_index
_UpperCAmelCase = mask_index
_UpperCAmelCase = is_encoder
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = embed_init_std
_UpperCAmelCase = init_std
_UpperCAmelCase = summary_type
_UpperCAmelCase = summary_use_proj
_UpperCAmelCase = summary_activation
_UpperCAmelCase = summary_proj_to_labels
_UpperCAmelCase = summary_first_dropout
_UpperCAmelCase = start_n_top
_UpperCAmelCase = end_n_top
_UpperCAmelCase = mask_token_id
_UpperCAmelCase = lang_id
if "n_words" in kwargs:
_UpperCAmelCase = kwargs['n_words']
super().__init__(pad_token_id=UpperCAmelCase , bos_token_id=UpperCAmelCase , **UpperCAmelCase )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
_UpperCAmelCase = {0: 'batch', 1: 'choice', 2: 'sequence'}
else:
_UpperCAmelCase = {0: 'batch', 1: 'sequence'}
return OrderedDict(
[
('input_ids', dynamic_axis),
('attention_mask', dynamic_axis),
('token_type_ids', dynamic_axis),
] )
| 39
|
import unittest
from transformers import AlbertTokenizer, AlbertTokenizerFast
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
_a = get_tests_dir('''fixtures/spiece.model''')
@require_sentencepiece
@require_tokenizers
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = AlbertTokenizer
UpperCamelCase__ = AlbertTokenizerFast
UpperCamelCase__ = True
UpperCamelCase__ = True
UpperCamelCase__ = True
def UpperCamelCase ( self ):
"""simple docstring"""
super().setUp()
# We have a SentencePiece fixture for testing
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase )
tokenizer.save_pretrained(self.tmpdirname )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 'this is a test'
_UpperCAmelCase = 'this is a test'
return input_text, output_text
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = '<pad>'
_UpperCAmelCase = 0
self.assertEqual(self.get_tokenizer()._convert_token_to_id(UpperCAmelCase ) , UpperCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(UpperCAmelCase ) , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0] , '<pad>' )
self.assertEqual(vocab_keys[1] , '<unk>' )
self.assertEqual(vocab_keys[-1] , '▁eloquent' )
self.assertEqual(len(UpperCAmelCase ) , 3_0000 )
def UpperCamelCase ( self ):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size , 3_0000 )
def UpperCamelCase ( self ):
"""simple docstring"""
if not self.test_rust_tokenizer:
return
_UpperCAmelCase = self.get_tokenizer()
_UpperCAmelCase = self.get_rust_tokenizer()
_UpperCAmelCase = 'I was born in 92000, and this is falsé.'
_UpperCAmelCase = tokenizer.tokenize(UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.tokenize(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self.get_rust_tokenizer()
_UpperCAmelCase = tokenizer.encode(UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.encode(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase , keep_accents=UpperCAmelCase )
_UpperCAmelCase = tokenizer.tokenize('This is a test' )
self.assertListEqual(UpperCAmelCase , ['▁this', '▁is', '▁a', '▁test'] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase ) , [48, 25, 21, 1289] )
_UpperCAmelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' )
self.assertListEqual(
UpperCAmelCase , ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', 'é', '.'] )
_UpperCAmelCase = tokenizer.convert_tokens_to_ids(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , [31, 23, 386, 19, 561, 3050, 15, 17, 48, 25, 8256, 18, 1, 9] )
_UpperCAmelCase = tokenizer.convert_ids_to_tokens(UpperCAmelCase )
self.assertListEqual(
UpperCAmelCase , ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', '<unk>', '.'] , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase )
_UpperCAmelCase = tokenizer.encode('sequence builders' )
_UpperCAmelCase = tokenizer.encode('multi-sequence build' )
_UpperCAmelCase = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase )
_UpperCAmelCase = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase , UpperCAmelCase )
assert encoded_sentence == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id]
assert encoded_pair == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] + text_a + [
tokenizer.sep_token_id
]
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = {'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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'input_ids': [[2, 2_1970, 13, 5, 6092, 167, 28, 7103, 2153, 673, 8, 7028, 1_2051, 18, 17, 7103, 2153, 673, 8, 3515, 1_8684, 8, 4461, 6, 1927, 297, 8, 1_2060, 2607, 18, 13, 5, 4461, 15, 1_0538, 38, 8, 135, 15, 822, 58, 15, 993, 1_0363, 15, 1460, 8005, 4461, 15, 993, 255, 2328, 9, 9, 9, 6, 26, 1112, 816, 3260, 13, 5, 103, 2377, 6, 17, 1112, 816, 2782, 13, 5, 103, 1_0641, 6, 29, 84, 2512, 2430, 782, 1_8684, 2761, 19, 808, 2430, 2556, 17, 855, 1480, 9477, 4091, 128, 1_1712, 15, 7103, 2153, 673, 17, 2_4883, 9990, 9, 3], [2, 1_1502, 25, 1006, 20, 782, 8, 1_1809, 855, 1732, 1_9393, 1_8667, 37, 367, 2_1018, 69, 1854, 34, 1_1860, 1_9124, 27, 156, 225, 17, 193, 4141, 19, 65, 9124, 9, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [2, 14, 2231, 886, 2385, 1_7659, 84, 14, 1_6792, 1952, 9, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'token_type_ids': [[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]]} # noqa: E501
# fmt: on
self.tokenizer_integration_test_util(
expected_encoding=UpperCAmelCase , model_name='albert-base-v2' , revision='6b6560eaf5ff2e250b00c50f380c5389a9c2d82e' , )
| 39
| 1
|
import collections
import inspect
import unittest
from typing import Dict, List, Tuple
from transformers import MaskFormerSwinConfig
from transformers.testing_utils import require_torch, require_torch_multi_gpu, torch_device
from transformers.utils import is_torch_available
from ...test_backbone_common import BackboneTesterMixin
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from torch import nn
from transformers import MaskFormerSwinBackbone
from transformers.models.maskformer import MaskFormerSwinModel
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=13 , UpperCAmelCase=32 , UpperCAmelCase=2 , UpperCAmelCase=3 , UpperCAmelCase=16 , UpperCAmelCase=[1, 2, 1] , UpperCAmelCase=[2, 2, 4] , UpperCAmelCase=2 , UpperCAmelCase=2.0 , UpperCAmelCase=True , UpperCAmelCase=0.0 , UpperCAmelCase=0.0 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=0.02 , UpperCAmelCase=1e-5 , UpperCAmelCase=True , UpperCAmelCase=None , UpperCAmelCase=True , UpperCAmelCase=10 , UpperCAmelCase=8 , UpperCAmelCase=["stage1", "stage2", "stage3"] , UpperCAmelCase=[1, 2, 3] , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = image_size
_UpperCAmelCase = patch_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embed_dim
_UpperCAmelCase = depths
_UpperCAmelCase = num_heads
_UpperCAmelCase = window_size
_UpperCAmelCase = mlp_ratio
_UpperCAmelCase = qkv_bias
_UpperCAmelCase = hidden_dropout_prob
_UpperCAmelCase = attention_probs_dropout_prob
_UpperCAmelCase = drop_path_rate
_UpperCAmelCase = hidden_act
_UpperCAmelCase = use_absolute_embeddings
_UpperCAmelCase = patch_norm
_UpperCAmelCase = layer_norm_eps
_UpperCAmelCase = initializer_range
_UpperCAmelCase = is_training
_UpperCAmelCase = scope
_UpperCAmelCase = use_labels
_UpperCAmelCase = type_sequence_label_size
_UpperCAmelCase = encoder_stride
_UpperCAmelCase = out_features
_UpperCAmelCase = out_indices
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.type_sequence_label_size )
_UpperCAmelCase = self.get_config()
return config, pixel_values, labels
def UpperCamelCase ( self ):
"""simple docstring"""
return MaskFormerSwinConfig(
image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , embed_dim=self.embed_dim , depths=self.depths , num_heads=self.num_heads , window_size=self.window_size , mlp_ratio=self.mlp_ratio , qkv_bias=self.qkv_bias , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , drop_path_rate=self.drop_path_rate , hidden_act=self.hidden_act , use_absolute_embeddings=self.use_absolute_embeddings , path_norm=self.patch_norm , layer_norm_eps=self.layer_norm_eps , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , out_features=self.out_features , out_indices=self.out_indices , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModel(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase )
_UpperCAmelCase = ((config.image_size // config.patch_size) ** 2) // (4 ** (len(config.depths ) - 1))
_UpperCAmelCase = int(config.embed_dim * 2 ** (len(config.depths ) - 1) )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, expected_seq_len, expected_dim) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinBackbone(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase )
# verify feature maps
self.parent.assertEqual(len(result.feature_maps ) , len(config.out_features ) )
self.parent.assertListEqual(list(result.feature_maps[0].shape ) , [13, 16, 16, 16] )
# verify channels
self.parent.assertEqual(len(model.channels ) , len(config.out_features ) )
self.parent.assertListEqual(model.channels , [16, 32, 64] )
# verify ValueError
with self.parent.assertRaises(UpperCAmelCase ):
_UpperCAmelCase = ['stem']
_UpperCAmelCase = MaskFormerSwinBackbone(config=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'pixel_values': pixel_values}
return config, inputs_dict
@require_torch
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (
(
MaskFormerSwinModel,
MaskFormerSwinBackbone,
)
if is_torch_available()
else ()
)
UpperCamelCase__ = {"feature-extraction": MaskFormerSwinModel} if is_torch_available() else {}
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , embed_dim=37 )
@require_torch_multi_gpu
@unittest.skip(
reason=(
'`MaskFormerSwinModel` outputs `hidden_states_spatial_dimensions` which doesn\'t work well with'
' `nn.DataParallel`'
) )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCamelCase ( self ):
"""simple docstring"""
return
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_backbone(*UpperCAmelCase )
@unittest.skip('Swin does not use inputs_embeds' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip('Swin does not support feedforward chunking' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
self.assertIsInstance(model.get_input_embeddings() , (nn.Module) )
_UpperCAmelCase = model.get_output_embeddings()
self.assertTrue(x is None or isinstance(UpperCAmelCase , nn.Linear ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
_UpperCAmelCase = [*signature.parameters.keys()]
_UpperCAmelCase = ['pixel_values']
self.assertListEqual(arg_names[:1] , UpperCAmelCase )
@unittest.skip(reason='MaskFormerSwin is only used as backbone and doesn\'t support output_attentions' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='MaskFormerSwin is only used as an internal backbone' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = model_class(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
with torch.no_grad():
_UpperCAmelCase = model(**self._prepare_for_class(UpperCAmelCase , UpperCAmelCase ) )
_UpperCAmelCase = outputs.hidden_states
_UpperCAmelCase = getattr(
self.model_tester , 'expected_num_hidden_layers' , len(self.model_tester.depths ) + 1 )
self.assertEqual(len(UpperCAmelCase ) , UpperCAmelCase )
# Swin has a different seq_length
_UpperCAmelCase = (
config.patch_size
if isinstance(config.patch_size , collections.abc.Iterable )
else (config.patch_size, config.patch_size)
)
_UpperCAmelCase = (image_size[1] // patch_size[1]) * (image_size[0] // patch_size[0])
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) , [num_patches, self.model_tester.embed_dim] , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = (
self.model_tester.image_size
if isinstance(self.model_tester.image_size , collections.abc.Iterable )
else (self.model_tester.image_size, self.model_tester.image_size)
)
for model_class in self.all_model_classes:
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = 3
_UpperCAmelCase = (
self.model_tester.image_size
if isinstance(self.model_tester.image_size , collections.abc.Iterable )
else (self.model_tester.image_size, self.model_tester.image_size)
)
_UpperCAmelCase = (
config.patch_size
if isinstance(config.patch_size , collections.abc.Iterable )
else (config.patch_size, config.patch_size)
)
_UpperCAmelCase = image_size[0] + patch_size[0] - (image_size[0] % patch_size[0])
_UpperCAmelCase = image_size[1] + patch_size[1] - (image_size[1] % patch_size[1])
for model_class in self.all_model_classes:
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , (padded_height, padded_width) )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , (padded_height, padded_width) )
@unittest.skip(reason='MaskFormerSwin doesn\'t have pretrained checkpoints' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='This will be fixed once MaskFormerSwin is replaced by native Swin' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='This will be fixed once MaskFormerSwin is replaced by native Swin' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
def set_nan_tensor_to_zero(UpperCAmelCase ):
_UpperCAmelCase = 0
return t
def check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase={} ):
with torch.no_grad():
_UpperCAmelCase = model(**UpperCAmelCase , return_dict=UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = model(**UpperCAmelCase , return_dict=UpperCAmelCase , **UpperCAmelCase ).to_tuple()
def recursive_check(UpperCAmelCase , UpperCAmelCase ):
if isinstance(UpperCAmelCase , (List, Tuple) ):
for tuple_iterable_value, dict_iterable_value in zip(UpperCAmelCase , UpperCAmelCase ):
recursive_check(UpperCAmelCase , UpperCAmelCase )
elif isinstance(UpperCAmelCase , UpperCAmelCase ):
for tuple_iterable_value, dict_iterable_value in zip(
tuple_object.values() , dict_object.values() ):
recursive_check(UpperCAmelCase , UpperCAmelCase )
elif tuple_object is None:
return
else:
self.assertTrue(
torch.allclose(
set_nan_tensor_to_zero(UpperCAmelCase ) , set_nan_tensor_to_zero(UpperCAmelCase ) , atol=1e-5 ) , msg=(
'Tuple and dict output are not equal. Difference:'
F""" {torch.max(torch.abs(tuple_object - dict_object ) )}. Tuple has `nan`:"""
F""" {torch.isnan(UpperCAmelCase ).any()} and `inf`: {torch.isinf(UpperCAmelCase )}. Dict has"""
F""" `nan`: {torch.isnan(UpperCAmelCase ).any()} and `inf`: {torch.isinf(UpperCAmelCase )}."""
) , )
recursive_check(UpperCAmelCase , UpperCAmelCase )
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , {'output_hidden_states': True} )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , {'output_hidden_states': True} )
@require_torch
class __lowerCamelCase ( unittest.TestCase , snake_case__):
"""simple docstring"""
UpperCamelCase__ = (MaskFormerSwinBackbone,) if is_torch_available() else ()
UpperCamelCase__ = MaskFormerSwinConfig
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModelTester(self )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = inputs_dict['pixel_values'].shape[0]
for backbone_class in self.all_model_classes:
_UpperCAmelCase = backbone_class(UpperCAmelCase )
backbone.to(UpperCAmelCase )
backbone.eval()
_UpperCAmelCase = backbone(**UpperCAmelCase )
# Test default outputs and verify feature maps
self.assertIsInstance(outputs.feature_maps , UpperCAmelCase )
self.assertTrue(len(outputs.feature_maps ) == len(backbone.channels ) )
for feature_map, n_channels in zip(outputs.feature_maps , backbone.channels ):
self.assertTrue(feature_map.shape[:2] , (batch_size, n_channels) )
self.assertIsNone(outputs.hidden_states )
self.assertIsNone(outputs.attentions )
# Test output_hidden_states=True
_UpperCAmelCase = backbone(**UpperCAmelCase , output_hidden_states=UpperCAmelCase )
self.assertIsNotNone(outputs.hidden_states )
self.assertTrue(len(outputs.hidden_states ) , len(backbone.stage_names ) )
# We skip the stem layer
for hidden_states, n_channels in zip(outputs.hidden_states[1:] , backbone.channels ):
for hidden_state in hidden_states:
# Hidden states are in the format (batch_size, (height * width), n_channels)
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = hidden_state.shape
self.assertTrue((h_batch_size, h_n_channels) , (batch_size, n_channels) )
# Test output_attentions=True
if self.has_attentions:
_UpperCAmelCase = backbone(**UpperCAmelCase , output_attentions=UpperCAmelCase )
self.assertIsNotNone(outputs.attentions )
| 39
|
import json
import os
from typing import Optional
import numpy as np
from ...feature_extraction_utils import BatchFeature
from ...processing_utils import ProcessorMixin
from ...utils import logging
from ...utils.hub import get_file_from_repo
from ..auto import AutoTokenizer
_a = logging.get_logger(__name__)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "AutoTokenizer"
UpperCamelCase__ = ["tokenizer"]
UpperCamelCase__ = {
"semantic_prompt": 1,
"coarse_prompt": 2,
"fine_prompt": 2,
}
def __init__( self , UpperCAmelCase , UpperCAmelCase=None ):
"""simple docstring"""
super().__init__(UpperCAmelCase )
_UpperCAmelCase = speaker_embeddings
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase , UpperCAmelCase="speaker_embeddings_path.json" , **UpperCAmelCase ):
"""simple docstring"""
if speaker_embeddings_dict_path is not None:
_UpperCAmelCase = get_file_from_repo(
UpperCAmelCase , UpperCAmelCase , subfolder=kwargs.pop('subfolder' , UpperCAmelCase ) , cache_dir=kwargs.pop('cache_dir' , UpperCAmelCase ) , force_download=kwargs.pop('force_download' , UpperCAmelCase ) , proxies=kwargs.pop('proxies' , UpperCAmelCase ) , resume_download=kwargs.pop('resume_download' , UpperCAmelCase ) , local_files_only=kwargs.pop('local_files_only' , UpperCAmelCase ) , use_auth_token=kwargs.pop('use_auth_token' , UpperCAmelCase ) , revision=kwargs.pop('revision' , UpperCAmelCase ) , )
if speaker_embeddings_path is None:
logger.warning(
F"""`{os.path.join(UpperCAmelCase , UpperCAmelCase )}` does not exists
, no preloaded speaker embeddings will be used - Make sure to provide a correct path to the json
dictionnary if wanted, otherwise set `speaker_embeddings_dict_path=None`.""" )
_UpperCAmelCase = None
else:
with open(UpperCAmelCase ) as speaker_embeddings_json:
_UpperCAmelCase = json.load(UpperCAmelCase )
else:
_UpperCAmelCase = None
_UpperCAmelCase = AutoTokenizer.from_pretrained(UpperCAmelCase , **UpperCAmelCase )
return cls(tokenizer=UpperCAmelCase , speaker_embeddings=UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase="speaker_embeddings_path.json" , UpperCAmelCase="speaker_embeddings" , UpperCAmelCase = False , **UpperCAmelCase , ):
"""simple docstring"""
if self.speaker_embeddings is not None:
os.makedirs(os.path.join(UpperCAmelCase , UpperCAmelCase , 'v2' ) , exist_ok=UpperCAmelCase )
_UpperCAmelCase = {}
_UpperCAmelCase = save_directory
for prompt_key in self.speaker_embeddings:
if prompt_key != "repo_or_path":
_UpperCAmelCase = self._load_voice_preset(UpperCAmelCase )
_UpperCAmelCase = {}
for key in self.speaker_embeddings[prompt_key]:
np.save(
os.path.join(
embeddings_dict['repo_or_path'] , UpperCAmelCase , F"""{prompt_key}_{key}""" ) , voice_preset[key] , allow_pickle=UpperCAmelCase , )
_UpperCAmelCase = os.path.join(UpperCAmelCase , F"""{prompt_key}_{key}.npy""" )
_UpperCAmelCase = tmp_dict
with open(os.path.join(UpperCAmelCase , UpperCAmelCase ) , 'w' ) as fp:
json.dump(UpperCAmelCase , UpperCAmelCase )
super().save_pretrained(UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase = None , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.speaker_embeddings[voice_preset]
_UpperCAmelCase = {}
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset_paths:
raise ValueError(
F"""Voice preset unrecognized, missing {key} as a key in self.speaker_embeddings[{voice_preset}].""" )
_UpperCAmelCase = get_file_from_repo(
self.speaker_embeddings.get('repo_or_path' , '/' ) , voice_preset_paths[key] , subfolder=kwargs.pop('subfolder' , UpperCAmelCase ) , cache_dir=kwargs.pop('cache_dir' , UpperCAmelCase ) , force_download=kwargs.pop('force_download' , UpperCAmelCase ) , proxies=kwargs.pop('proxies' , UpperCAmelCase ) , resume_download=kwargs.pop('resume_download' , UpperCAmelCase ) , local_files_only=kwargs.pop('local_files_only' , UpperCAmelCase ) , use_auth_token=kwargs.pop('use_auth_token' , UpperCAmelCase ) , revision=kwargs.pop('revision' , UpperCAmelCase ) , )
if path is None:
raise ValueError(
F"""`{os.path.join(self.speaker_embeddings.get("repo_or_path" , "/" ) , voice_preset_paths[key] )}` does not exists
, no preloaded voice preset will be used - Make sure to provide correct paths to the {voice_preset}
embeddings.""" )
_UpperCAmelCase = np.load(UpperCAmelCase )
return voice_preset_dict
def UpperCamelCase ( self , UpperCAmelCase = None ):
"""simple docstring"""
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset:
raise ValueError(F"""Voice preset unrecognized, missing {key} as a key.""" )
if not isinstance(voice_preset[key] , np.ndarray ):
raise ValueError(F"""{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.""" )
if len(voice_preset[key].shape ) != self.preset_shape[key]:
raise ValueError(F"""{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.""" )
def __call__( self , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase="pt" , UpperCAmelCase=256 , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=False , **UpperCAmelCase , ):
"""simple docstring"""
if voice_preset is not None and not isinstance(UpperCAmelCase , UpperCAmelCase ):
if (
isinstance(UpperCAmelCase , UpperCAmelCase )
and self.speaker_embeddings is not None
and voice_preset in self.speaker_embeddings
):
_UpperCAmelCase = self._load_voice_preset(UpperCAmelCase )
else:
if isinstance(UpperCAmelCase , UpperCAmelCase ) and not voice_preset.endswith('.npz' ):
_UpperCAmelCase = voice_preset + '.npz'
_UpperCAmelCase = np.load(UpperCAmelCase )
if voice_preset is not None:
self._validate_voice_preset_dict(UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = BatchFeature(data=UpperCAmelCase , tensor_type=UpperCAmelCase )
_UpperCAmelCase = self.tokenizer(
UpperCAmelCase , return_tensors=UpperCAmelCase , padding='max_length' , max_length=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , add_special_tokens=UpperCAmelCase , **UpperCAmelCase , )
if voice_preset is not None:
_UpperCAmelCase = voice_preset
return encoded_text
| 39
| 1
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_sentencepiece_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
_a = {'''configuration_mbart''': ['''MBART_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''MBartConfig''', '''MBartOnnxConfig''']}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['''MBartTokenizer''']
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['''MBartTokenizerFast''']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''MBART_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''MBartForCausalLM''',
'''MBartForConditionalGeneration''',
'''MBartForQuestionAnswering''',
'''MBartForSequenceClassification''',
'''MBartModel''',
'''MBartPreTrainedModel''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''TFMBartForConditionalGeneration''',
'''TFMBartModel''',
'''TFMBartPreTrainedModel''',
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''FlaxMBartForConditionalGeneration''',
'''FlaxMBartForQuestionAnswering''',
'''FlaxMBartForSequenceClassification''',
'''FlaxMBartModel''',
'''FlaxMBartPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_mbart import MBART_PRETRAINED_CONFIG_ARCHIVE_MAP, MBartConfig, MBartOnnxConfig
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart import MBartTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart_fast import MBartTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_mbart import (
MBART_PRETRAINED_MODEL_ARCHIVE_LIST,
MBartForCausalLM,
MBartForConditionalGeneration,
MBartForQuestionAnswering,
MBartForSequenceClassification,
MBartModel,
MBartPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_mbart import TFMBartForConditionalGeneration, TFMBartModel, TFMBartPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_mbart import (
FlaxMBartForConditionalGeneration,
FlaxMBartForQuestionAnswering,
FlaxMBartForSequenceClassification,
FlaxMBartModel,
FlaxMBartPreTrainedModel,
)
else:
import sys
_a = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 39
|
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'''distilbert-base-uncased''': '''https://huggingface.co/distilbert-base-uncased/resolve/main/config.json''',
'''distilbert-base-uncased-distilled-squad''': (
'''https://huggingface.co/distilbert-base-uncased-distilled-squad/resolve/main/config.json'''
),
'''distilbert-base-cased''': '''https://huggingface.co/distilbert-base-cased/resolve/main/config.json''',
'''distilbert-base-cased-distilled-squad''': (
'''https://huggingface.co/distilbert-base-cased-distilled-squad/resolve/main/config.json'''
),
'''distilbert-base-german-cased''': '''https://huggingface.co/distilbert-base-german-cased/resolve/main/config.json''',
'''distilbert-base-multilingual-cased''': (
'''https://huggingface.co/distilbert-base-multilingual-cased/resolve/main/config.json'''
),
'''distilbert-base-uncased-finetuned-sst-2-english''': (
'''https://huggingface.co/distilbert-base-uncased-finetuned-sst-2-english/resolve/main/config.json'''
),
}
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "distilbert"
UpperCamelCase__ = {
"hidden_size": "dim",
"num_attention_heads": "n_heads",
"num_hidden_layers": "n_layers",
}
def __init__( self , UpperCAmelCase=3_0522 , UpperCAmelCase=512 , UpperCAmelCase=False , UpperCAmelCase=6 , UpperCAmelCase=12 , UpperCAmelCase=768 , UpperCAmelCase=4 * 768 , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=0.02 , UpperCAmelCase=0.1 , UpperCAmelCase=0.2 , UpperCAmelCase=0 , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = vocab_size
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = sinusoidal_pos_embds
_UpperCAmelCase = n_layers
_UpperCAmelCase = n_heads
_UpperCAmelCase = dim
_UpperCAmelCase = hidden_dim
_UpperCAmelCase = dropout
_UpperCAmelCase = attention_dropout
_UpperCAmelCase = activation
_UpperCAmelCase = initializer_range
_UpperCAmelCase = qa_dropout
_UpperCAmelCase = seq_classif_dropout
super().__init__(**UpperCAmelCase , pad_token_id=UpperCAmelCase )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
_UpperCAmelCase = {0: 'batch', 1: 'choice', 2: 'sequence'}
else:
_UpperCAmelCase = {0: 'batch', 1: 'sequence'}
return OrderedDict(
[
('input_ids', dynamic_axis),
('attention_mask', dynamic_axis),
] )
| 39
| 1
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = name
_UpperCAmelCase = value
_UpperCAmelCase = weight
def __repr__( self ):
"""simple docstring"""
return F"""{self.__class__.__name__}({self.name}, {self.value}, {self.weight})"""
def UpperCamelCase ( self ):
"""simple docstring"""
return self.value
def UpperCamelCase ( self ):
"""simple docstring"""
return self.name
def UpperCamelCase ( self ):
"""simple docstring"""
return self.weight
def UpperCamelCase ( self ):
"""simple docstring"""
return self.value / self.weight
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> Dict:
"""simple docstring"""
_UpperCAmelCase = []
for i in range(len(__lowerCAmelCase ) ):
menu.append(Things(name[i] , value[i] , weight[i] ) )
return menu
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> List[Any]:
"""simple docstring"""
_UpperCAmelCase = sorted(__lowerCAmelCase , key=__lowerCAmelCase , reverse=__lowerCAmelCase )
_UpperCAmelCase = []
_UpperCAmelCase , _UpperCAmelCase = 0.0, 0.0
for i in range(len(__lowerCAmelCase ) ):
if (total_cost + items_copy[i].get_weight()) <= max_cost:
result.append(items_copy[i] )
total_cost += items_copy[i].get_weight()
total_value += items_copy[i].get_value()
return (result, total_value)
def __A ( )-> Optional[Any]:
"""simple docstring"""
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
|
import json
import logging
import os
import sys
from pathlib import Path
import finetune_rag
from transformers.file_utils import is_apex_available
from transformers.testing_utils import (
TestCasePlus,
execute_subprocess_async,
require_ray,
require_torch_gpu,
require_torch_multi_gpu,
)
logging.basicConfig(level=logging.DEBUG)
_a = logging.getLogger()
_a = logging.StreamHandler(sys.stdout)
logger.addHandler(stream_handler)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
os.makedirs(UpperCAmelCase , exist_ok=UpperCAmelCase )
_UpperCAmelCase = {'source': 'What is love ?', 'target': 'life'}
_UpperCAmelCase = {'train': 12, 'val': 2, 'test': 2}
for split in ["train", "test", "val"]:
for field in ["source", "target"]:
_UpperCAmelCase = '\n'.join([contents[field]] * n_lines[split] )
with open(os.path.join(UpperCAmelCase , F"""{split}.{field}""" ) , 'w' ) as f:
f.write(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase = "pytorch" ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'output' )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'data' )
self._create_dummy_data(data_dir=UpperCAmelCase )
_UpperCAmelCase = F"""
--data_dir {data_dir} \
--output_dir {output_dir} \
--model_name_or_path facebook/rag-sequence-base \
--model_type rag_sequence \
--do_train \
--do_predict \
--n_val -1 \
--val_check_interval 1.0 \
--train_batch_size 2 \
--eval_batch_size 1 \
--max_source_length 25 \
--max_target_length 25 \
--val_max_target_length 25 \
--test_max_target_length 25 \
--label_smoothing 0.1 \
--dropout 0.1 \
--attention_dropout 0.1 \
--weight_decay 0.001 \
--adam_epsilon 1e-08 \
--max_grad_norm 0.1 \
--lr_scheduler polynomial \
--learning_rate 3e-04 \
--num_train_epochs 1 \
--warmup_steps 4 \
--gradient_accumulation_steps 1 \
--distributed-port 8787 \
--use_dummy_dataset 1 \
--distributed_retriever {distributed_retriever} \
""".split()
if gpus > 0:
testargs.append(F"""--gpus={gpus}""" )
if is_apex_available():
testargs.append('--fp16' )
else:
testargs.append('--gpus=0' )
testargs.append('--distributed_backend=ddp_cpu' )
testargs.append('--num_processes=2' )
_UpperCAmelCase = [sys.executable, str(Path(finetune_rag.__file__ ).resolve() )] + testargs
execute_subprocess_async(UpperCAmelCase , env=self.get_env() )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'metrics.json' )
with open(UpperCAmelCase ) as f:
_UpperCAmelCase = json.load(UpperCAmelCase )
return result
@require_torch_gpu
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_multi_gpu
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=2 )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_gpu
@require_ray
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 , distributed_retriever='ray' )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_multi_gpu
@require_ray
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 , distributed_retriever='ray' )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
| 39
| 1
|
from dataclasses import dataclass
from typing import Optional, Tuple, Union
import torch
import torch.nn as nn
from ..configuration_utils import ConfigMixin, register_to_config
from ..utils import BaseOutput, apply_forward_hook
from .modeling_utils import ModelMixin
from .vae import Decoder, DecoderOutput, Encoder, VectorQuantizer
@dataclass
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = 42
class __lowerCamelCase ( snake_case__ , snake_case__):
"""simple docstring"""
@register_to_config
def __init__( self , UpperCAmelCase = 3 , UpperCAmelCase = 3 , UpperCAmelCase = ("DownEncoderBlock2D",) , UpperCAmelCase = ("UpDecoderBlock2D",) , UpperCAmelCase = (64,) , UpperCAmelCase = 1 , UpperCAmelCase = "silu" , UpperCAmelCase = 3 , UpperCAmelCase = 32 , UpperCAmelCase = 256 , UpperCAmelCase = 32 , UpperCAmelCase = None , UpperCAmelCase = 0.1_82_15 , UpperCAmelCase = "group" , ):
"""simple docstring"""
super().__init__()
# pass init params to Encoder
_UpperCAmelCase = Encoder(
in_channels=UpperCAmelCase , out_channels=UpperCAmelCase , down_block_types=UpperCAmelCase , block_out_channels=UpperCAmelCase , layers_per_block=UpperCAmelCase , act_fn=UpperCAmelCase , norm_num_groups=UpperCAmelCase , double_z=UpperCAmelCase , )
_UpperCAmelCase = vq_embed_dim if vq_embed_dim is not None else latent_channels
_UpperCAmelCase = nn.Convad(UpperCAmelCase , UpperCAmelCase , 1 )
_UpperCAmelCase = VectorQuantizer(UpperCAmelCase , UpperCAmelCase , beta=0.25 , remap=UpperCAmelCase , sane_index_shape=UpperCAmelCase )
_UpperCAmelCase = nn.Convad(UpperCAmelCase , UpperCAmelCase , 1 )
# pass init params to Decoder
_UpperCAmelCase = Decoder(
in_channels=UpperCAmelCase , out_channels=UpperCAmelCase , up_block_types=UpperCAmelCase , block_out_channels=UpperCAmelCase , layers_per_block=UpperCAmelCase , act_fn=UpperCAmelCase , norm_num_groups=UpperCAmelCase , norm_type=UpperCAmelCase , )
@apply_forward_hook
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase = True ):
"""simple docstring"""
_UpperCAmelCase = self.encoder(UpperCAmelCase )
_UpperCAmelCase = self.quant_conv(UpperCAmelCase )
if not return_dict:
return (h,)
return VQEncoderOutput(latents=UpperCAmelCase )
@apply_forward_hook
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase = False , UpperCAmelCase = True ):
"""simple docstring"""
if not force_not_quantize:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = self.quantize(UpperCAmelCase )
else:
_UpperCAmelCase = h
_UpperCAmelCase = self.post_quant_conv(UpperCAmelCase )
_UpperCAmelCase = self.decoder(UpperCAmelCase , quant if self.config.norm_type == 'spatial' else None )
if not return_dict:
return (dec,)
return DecoderOutput(sample=UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase = True ):
"""simple docstring"""
_UpperCAmelCase = sample
_UpperCAmelCase = self.encode(UpperCAmelCase ).latents
_UpperCAmelCase = self.decode(UpperCAmelCase ).sample
if not return_dict:
return (dec,)
return DecoderOutput(sample=UpperCAmelCase )
| 39
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
_UpperCAmelCase = {} # Mapping from char to TrieNode
_UpperCAmelCase = False
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for word in words:
self.insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self
for char in word:
if char not in curr.nodes:
_UpperCAmelCase = TrieNode()
_UpperCAmelCase = curr.nodes[char]
_UpperCAmelCase = True
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self
for char in word:
if char not in curr.nodes:
return False
_UpperCAmelCase = curr.nodes[char]
return curr.is_leaf
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
def _delete(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) -> bool:
if index == len(UpperCAmelCase ):
# If word does not exist
if not curr.is_leaf:
return False
_UpperCAmelCase = False
return len(curr.nodes ) == 0
_UpperCAmelCase = word[index]
_UpperCAmelCase = curr.nodes.get(UpperCAmelCase )
# If char not in current trie node
if not char_node:
return False
# Flag to check if node can be deleted
_UpperCAmelCase = _delete(UpperCAmelCase , UpperCAmelCase , index + 1 )
if delete_curr:
del curr.nodes[char]
return len(curr.nodes ) == 0
return delete_curr
_delete(self , UpperCAmelCase , 0 )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
if node.is_leaf:
print(__lowerCAmelCase , end=' ' )
for key, value in node.nodes.items():
print_words(__lowerCAmelCase , word + key )
def __A ( )-> bool:
"""simple docstring"""
_UpperCAmelCase = 'banana bananas bandana band apple all beast'.split()
_UpperCAmelCase = TrieNode()
root.insert_many(__lowerCAmelCase )
# print_words(root, "")
assert all(root.find(__lowerCAmelCase ) for word in words )
assert root.find('banana' )
assert not root.find('bandanas' )
assert not root.find('apps' )
assert root.find('apple' )
assert root.find('all' )
root.delete('all' )
assert not root.find('all' )
root.delete('banana' )
assert not root.find('banana' )
assert root.find('bananas' )
return True
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
print(str(__lowerCAmelCase ) , 'works!' if passes else 'doesn\'t work :(' )
def __A ( )-> None:
"""simple docstring"""
assert test_trie()
def __A ( )-> None:
"""simple docstring"""
print_results('Testing trie functionality' , test_trie() )
if __name__ == "__main__":
main()
| 39
| 1
|
import faiss # noqa: F401 # Here to have a nice missing dependency error message early on
import numpy # noqa: F401 # Here to have a nice missing dependency error message early on
import requests # noqa: F401 # Here to have a nice missing dependency error message early on
import sklearn # noqa: F401 # Here to have a nice missing dependency error message early on
import tqdm # noqa: F401 # Here to have a nice missing dependency error message early on
from mauve import compute_mauve # From: mauve-text
import datasets
_a = '''\
@inproceedings{pillutla-etal:mauve:neurips2021,
title={MAUVE: Measuring the Gap Between Neural Text and Human Text using Divergence Frontiers},
author={Pillutla, Krishna and Swayamdipta, Swabha and Zellers, Rowan and Thickstun, John and Welleck, Sean and Choi, Yejin and Harchaoui, Zaid},
booktitle = {NeurIPS},
year = {2021}
}
'''
_a = '''\
MAUVE is a library built on PyTorch and HuggingFace Transformers to measure the gap between neural text and human text with the eponymous MAUVE measure.
MAUVE summarizes both Type I and Type II errors measured softly using Kullback–Leibler (KL) divergences.
For details, see the MAUVE paper: https://arxiv.org/abs/2102.01454 (Neurips, 2021).
This metrics is a wrapper around the official implementation of MAUVE:
https://github.com/krishnap25/mauve
'''
_a = '''
Calculates MAUVE scores between two lists of generated text and reference text.
Args:
predictions: list of generated text to score. Each predictions
should be a string with tokens separated by spaces.
references: list of reference for each prediction. Each
reference should be a string with tokens separated by spaces.
Optional Args:
num_buckets: the size of the histogram to quantize P and Q. Options: \'auto\' (default) or an integer
pca_max_data: the number data points to use for PCA dimensionality reduction prior to clustering. If -1, use all the data. Default -1
kmeans_explained_var: amount of variance of the data to keep in dimensionality reduction by PCA. Default 0.9
kmeans_num_redo: number of times to redo k-means clustering (the best objective is kept). Default 5
kmeans_max_iter: maximum number of k-means iterations. Default 500
featurize_model_name: name of the model from which features are obtained. Default \'gpt2-large\' Use one of [\'gpt2\', \'gpt2-medium\', \'gpt2-large\', \'gpt2-xl\'].
device_id: Device for featurization. Supply a GPU id (e.g. 0 or 3) to use GPU. If no GPU with this id is found, use CPU
max_text_length: maximum number of tokens to consider. Default 1024
divergence_curve_discretization_size: Number of points to consider on the divergence curve. Default 25
mauve_scaling_factor: "c" from the paper. Default 5.
verbose: If True (default), print running time updates
seed: random seed to initialize k-means cluster assignments.
Returns:
mauve: MAUVE score, a number between 0 and 1. Larger values indicate that P and Q are closer,
frontier_integral: Frontier Integral, a number between 0 and 1. Smaller values indicate that P and Q are closer,
divergence_curve: a numpy.ndarray of shape (m, 2); plot it with matplotlib to view the divergence curve,
p_hist: a discrete distribution, which is a quantized version of the text distribution p_text,
q_hist: same as above, but with q_text.
Examples:
>>> # faiss segfaults in doctest for some reason, so the .compute call is not tested with doctest
>>> import datasets
>>> mauve = datasets.load_metric(\'mauve\')
>>> predictions = ["hello there", "general kenobi"]
>>> references = ["hello there", "general kenobi"]
>>> out = mauve.compute(predictions=predictions, references=references) # doctest: +SKIP
>>> print(out.mauve) # doctest: +SKIP
1.0
'''
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION)
class __lowerCamelCase ( datasets.Metric):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , homepage='https://github.com/krishnap25/mauve' , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
'predictions': datasets.Value('string' , id='sequence' ),
'references': datasets.Value('string' , id='sequence' ),
} ) , codebase_urls=['https://github.com/krishnap25/mauve'] , reference_urls=[
'https://arxiv.org/abs/2102.01454',
'https://github.com/krishnap25/mauve',
] , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase="auto" , UpperCAmelCase=-1 , UpperCAmelCase=0.9 , UpperCAmelCase=5 , UpperCAmelCase=500 , UpperCAmelCase="gpt2-large" , UpperCAmelCase=-1 , UpperCAmelCase=1024 , UpperCAmelCase=25 , UpperCAmelCase=5 , UpperCAmelCase=True , UpperCAmelCase=25 , ):
"""simple docstring"""
_UpperCAmelCase = compute_mauve(
p_text=UpperCAmelCase , q_text=UpperCAmelCase , p_features=UpperCAmelCase , q_features=UpperCAmelCase , p_tokens=UpperCAmelCase , q_tokens=UpperCAmelCase , num_buckets=UpperCAmelCase , pca_max_data=UpperCAmelCase , kmeans_explained_var=UpperCAmelCase , kmeans_num_redo=UpperCAmelCase , kmeans_max_iter=UpperCAmelCase , featurize_model_name=UpperCAmelCase , device_id=UpperCAmelCase , max_text_length=UpperCAmelCase , divergence_curve_discretization_size=UpperCAmelCase , mauve_scaling_factor=UpperCAmelCase , verbose=UpperCAmelCase , seed=UpperCAmelCase , )
return out
| 39
|
import unittest
from transformers import (
MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
Pipeline,
ZeroShotClassificationPipeline,
pipeline,
)
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_tf, require_torch, slow
from .test_pipelines_common import ANY
# These 2 model types require different inputs than those of the usual text models.
_a = {'''LayoutLMv2Config''', '''LayoutLMv3Config'''}
@is_pipeline_test
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
UpperCamelCase__ = TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
if model_mapping is not None:
UpperCamelCase__ = {config: model for config, model in model_mapping.items() if config.__name__ not in _TO_SKIP}
if tf_model_mapping is not None:
UpperCamelCase__ = {
config: model for config, model in tf_model_mapping.items() if config.__name__ not in _TO_SKIP
}
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = ZeroShotClassificationPipeline(
model=UpperCAmelCase , tokenizer=UpperCAmelCase , candidate_labels=['polics', 'health'] )
return classifier, ["Who are you voting for in 2020?", "My stomach hurts."]
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels='politics' )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
# No kwarg
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , ['politics'] )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels=['politics'] )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels='politics, public health' )
self.assertEqual(
UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]} )
self.assertAlmostEqual(sum(nested_simplify(outputs['scores'] ) ) , 1.0 )
_UpperCAmelCase = classifier('Who are you voting for in 2020?' , candidate_labels=['politics', 'public health'] )
self.assertEqual(
UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]} )
self.assertAlmostEqual(sum(nested_simplify(outputs['scores'] ) ) , 1.0 )
_UpperCAmelCase = classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template='This text is about {}' )
self.assertEqual(UpperCAmelCase , {'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase )]} )
# https://github.com/huggingface/transformers/issues/13846
_UpperCAmelCase = classifier(['I am happy'] , ['positive', 'negative'] )
self.assertEqual(
UpperCAmelCase , [
{'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]}
for i in range(1 )
] , )
_UpperCAmelCase = classifier(['I am happy', 'I am sad'] , ['positive', 'negative'] )
self.assertEqual(
UpperCAmelCase , [
{'sequence': ANY(UpperCAmelCase ), 'labels': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )], 'scores': [ANY(UpperCAmelCase ), ANY(UpperCAmelCase )]}
for i in range(2 )
] , )
with self.assertRaises(UpperCAmelCase ):
classifier('' , candidate_labels='politics' )
with self.assertRaises(UpperCAmelCase ):
classifier(UpperCAmelCase , candidate_labels='politics' )
with self.assertRaises(UpperCAmelCase ):
classifier('Who are you voting for in 2020?' , candidate_labels='' )
with self.assertRaises(UpperCAmelCase ):
classifier('Who are you voting for in 2020?' , candidate_labels=UpperCAmelCase )
with self.assertRaises(UpperCAmelCase ):
classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template='Not formatting template' , )
with self.assertRaises(UpperCAmelCase ):
classifier(
'Who are you voting for in 2020?' , candidate_labels='politics' , hypothesis_template=UpperCAmelCase , )
self.run_entailment_id(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = zero_shot_classifier.model.config
_UpperCAmelCase = config.labelaid
_UpperCAmelCase = zero_shot_classifier.entailment_id
_UpperCAmelCase = {'LABEL_0': 0, 'LABEL_1': 1, 'LABEL_2': 2}
self.assertEqual(zero_shot_classifier.entailment_id , -1 )
_UpperCAmelCase = {'entailment': 0, 'neutral': 1, 'contradiction': 2}
self.assertEqual(zero_shot_classifier.entailment_id , 0 )
_UpperCAmelCase = {'ENTAIL': 0, 'NON-ENTAIL': 1}
self.assertEqual(zero_shot_classifier.entailment_id , 0 )
_UpperCAmelCase = {'ENTAIL': 2, 'NEUTRAL': 1, 'CONTR': 0}
self.assertEqual(zero_shot_classifier.entailment_id , 2 )
_UpperCAmelCase = original_labelaid
self.assertEqual(UpperCAmelCase , zero_shot_classifier.entailment_id )
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='pt' , )
# There was a regression in 4.10 for this
# Adding a test so we don't make the mistake again.
# https://github.com/huggingface/transformers/issues/13381#issuecomment-912343499
zero_shot_classifier(
'Who are you voting for in 2020?' * 100 , candidate_labels=['politics', 'public health', 'science'] )
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='pt' , )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['science', 'public health', 'politics'],
'scores': [0.3_33, 0.3_33, 0.3_33],
} , )
@require_tf
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline(
'zero-shot-classification' , model='sshleifer/tiny-distilbert-base-cased-distilled-squad' , framework='tf' , )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['science', 'public health', 'politics'],
'scores': [0.3_33, 0.3_33, 0.3_33],
} , )
@slow
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline('zero-shot-classification' , model='roberta-large-mnli' , framework='pt' )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['politics', 'public health', 'science'],
'scores': [0.9_76, 0.0_15, 0.0_09],
} , )
_UpperCAmelCase = zero_shot_classifier(
'The dominant sequence transduction models are based on complex recurrent or convolutional neural networks'
' in an encoder-decoder configuration. The best performing models also connect the encoder and decoder'
' through an attention mechanism. We propose a new simple network architecture, the Transformer, based'
' solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two'
' machine translation tasks show these models to be superior in quality while being more parallelizable'
' and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014'
' English-to-German translation task, improving over the existing best results, including ensembles by'
' over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new'
' single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small'
' fraction of the training costs of the best models from the literature. We show that the Transformer'
' generalizes well to other tasks by applying it successfully to English constituency parsing both with'
' large and limited training data.' , candidate_labels=['machine learning', 'statistics', 'translation', 'vision'] , multi_label=UpperCAmelCase , )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': (
'The dominant sequence transduction models are based on complex recurrent or convolutional neural'
' networks in an encoder-decoder configuration. The best performing models also connect the'
' encoder and decoder through an attention mechanism. We propose a new simple network'
' architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence'
' and convolutions entirely. Experiments on two machine translation tasks show these models to be'
' superior in quality while being more parallelizable and requiring significantly less time to'
' train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task,'
' improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014'
' English-to-French translation task, our model establishes a new single-model state-of-the-art'
' BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training'
' costs of the best models from the literature. We show that the Transformer generalizes well to'
' other tasks by applying it successfully to English constituency parsing both with large and'
' limited training data.'
),
'labels': ['translation', 'machine learning', 'vision', 'statistics'],
'scores': [0.8_17, 0.7_13, 0.0_18, 0.0_18],
} , )
@slow
@require_tf
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = pipeline('zero-shot-classification' , model='roberta-large-mnli' , framework='tf' )
_UpperCAmelCase = zero_shot_classifier(
'Who are you voting for in 2020?' , candidate_labels=['politics', 'public health', 'science'] )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': 'Who are you voting for in 2020?',
'labels': ['politics', 'public health', 'science'],
'scores': [0.9_76, 0.0_15, 0.0_09],
} , )
_UpperCAmelCase = zero_shot_classifier(
'The dominant sequence transduction models are based on complex recurrent or convolutional neural networks'
' in an encoder-decoder configuration. The best performing models also connect the encoder and decoder'
' through an attention mechanism. We propose a new simple network architecture, the Transformer, based'
' solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two'
' machine translation tasks show these models to be superior in quality while being more parallelizable'
' and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014'
' English-to-German translation task, improving over the existing best results, including ensembles by'
' over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new'
' single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small'
' fraction of the training costs of the best models from the literature. We show that the Transformer'
' generalizes well to other tasks by applying it successfully to English constituency parsing both with'
' large and limited training data.' , candidate_labels=['machine learning', 'statistics', 'translation', 'vision'] , multi_label=UpperCAmelCase , )
self.assertEqual(
nested_simplify(UpperCAmelCase ) , {
'sequence': (
'The dominant sequence transduction models are based on complex recurrent or convolutional neural'
' networks in an encoder-decoder configuration. The best performing models also connect the'
' encoder and decoder through an attention mechanism. We propose a new simple network'
' architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence'
' and convolutions entirely. Experiments on two machine translation tasks show these models to be'
' superior in quality while being more parallelizable and requiring significantly less time to'
' train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task,'
' improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014'
' English-to-French translation task, our model establishes a new single-model state-of-the-art'
' BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training'
' costs of the best models from the literature. We show that the Transformer generalizes well to'
' other tasks by applying it successfully to English constituency parsing both with large and'
' limited training data.'
),
'labels': ['translation', 'machine learning', 'vision', 'statistics'],
'scores': [0.8_17, 0.7_13, 0.0_18, 0.0_18],
} , )
| 39
| 1
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_torch_available,
)
_a = {
'''configuration_vision_encoder_decoder''': ['''VisionEncoderDecoderConfig''', '''VisionEncoderDecoderOnnxConfig''']
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['''VisionEncoderDecoderModel''']
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['''TFVisionEncoderDecoderModel''']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['''FlaxVisionEncoderDecoderModel''']
if TYPE_CHECKING:
from .configuration_vision_encoder_decoder import VisionEncoderDecoderConfig, VisionEncoderDecoderOnnxConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_vision_encoder_decoder import VisionEncoderDecoderModel
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_vision_encoder_decoder import TFVisionEncoderDecoderModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_vision_encoder_decoder import FlaxVisionEncoderDecoderModel
else:
import sys
_a = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 39
|
import enum
import os
from hashlib import shaaaa
from typing import Optional
from .. import config
from .logging import get_logger
_a = get_logger(__name__)
class __lowerCamelCase ( enum.Enum):
"""simple docstring"""
UpperCamelCase__ = "all_checks"
UpperCamelCase__ = "basic_checks"
UpperCamelCase__ = "no_checks"
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=None )-> str:
"""simple docstring"""
if expected_checksums is None:
logger.info('Unable to verify checksums.' )
return
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise ExpectedMoreDownloadedFiles(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise UnexpectedDownloadedFile(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
_UpperCAmelCase = [url for url in expected_checksums if expected_checksums[url] != recorded_checksums[url]]
_UpperCAmelCase = ' for ' + verification_name if verification_name is not None else ''
if len(__lowerCAmelCase ) > 0:
raise NonMatchingChecksumError(
F"""Checksums didn't match{for_verification_name}:\n"""
F"""{bad_urls}\n"""
'Set `verification_mode=\'no_checks\'` to skip checksums verification and ignore this error' )
logger.info('All the checksums matched successfully' + for_verification_name )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
if expected_splits is None:
logger.info('Unable to verify splits sizes.' )
return
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise ExpectedMoreSplits(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
if len(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) > 0:
raise UnexpectedSplits(str(set(__lowerCAmelCase ) - set(__lowerCAmelCase ) ) )
_UpperCAmelCase = [
{'expected': expected_splits[name], 'recorded': recorded_splits[name]}
for name in expected_splits
if expected_splits[name].num_examples != recorded_splits[name].num_examples
]
if len(__lowerCAmelCase ) > 0:
raise NonMatchingSplitsSizesError(str(__lowerCAmelCase ) )
logger.info('All the splits matched successfully.' )
def __A ( __lowerCAmelCase , __lowerCAmelCase = True )-> dict:
"""simple docstring"""
if record_checksum:
_UpperCAmelCase = shaaaa()
with open(__lowerCAmelCase , 'rb' ) as f:
for chunk in iter(lambda: f.read(1 << 20 ) , b'' ):
m.update(__lowerCAmelCase )
_UpperCAmelCase = m.hexdigest()
else:
_UpperCAmelCase = None
return {"num_bytes": os.path.getsize(__lowerCAmelCase ), "checksum": checksum}
def __A ( __lowerCAmelCase )-> List[str]:
"""simple docstring"""
if dataset_size and config.IN_MEMORY_MAX_SIZE:
return dataset_size < config.IN_MEMORY_MAX_SIZE
else:
return False
| 39
| 1
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_torch_available,
is_vision_available,
)
_a = {
'''configuration_convnext''': ['''CONVNEXT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ConvNextConfig''', '''ConvNextOnnxConfig''']
}
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['''ConvNextFeatureExtractor''']
_a = ['''ConvNextImageProcessor''']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''CONVNEXT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''ConvNextForImageClassification''',
'''ConvNextModel''',
'''ConvNextPreTrainedModel''',
'''ConvNextBackbone''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''TFConvNextForImageClassification''',
'''TFConvNextModel''',
'''TFConvNextPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_convnext import CONVNEXT_PRETRAINED_CONFIG_ARCHIVE_MAP, ConvNextConfig, ConvNextOnnxConfig
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .feature_extraction_convnext import ConvNextFeatureExtractor
from .image_processing_convnext import ConvNextImageProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_convnext import (
CONVNEXT_PRETRAINED_MODEL_ARCHIVE_LIST,
ConvNextBackbone,
ConvNextForImageClassification,
ConvNextModel,
ConvNextPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_convnext import TFConvNextForImageClassification, TFConvNextModel, TFConvNextPreTrainedModel
else:
import sys
_a = _LazyModule(__name__, globals()['''__file__'''], _import_structure)
| 39
|
import collections
import inspect
import unittest
from typing import Dict, List, Tuple
from transformers import MaskFormerSwinConfig
from transformers.testing_utils import require_torch, require_torch_multi_gpu, torch_device
from transformers.utils import is_torch_available
from ...test_backbone_common import BackboneTesterMixin
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from torch import nn
from transformers import MaskFormerSwinBackbone
from transformers.models.maskformer import MaskFormerSwinModel
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=13 , UpperCAmelCase=32 , UpperCAmelCase=2 , UpperCAmelCase=3 , UpperCAmelCase=16 , UpperCAmelCase=[1, 2, 1] , UpperCAmelCase=[2, 2, 4] , UpperCAmelCase=2 , UpperCAmelCase=2.0 , UpperCAmelCase=True , UpperCAmelCase=0.0 , UpperCAmelCase=0.0 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=0.02 , UpperCAmelCase=1e-5 , UpperCAmelCase=True , UpperCAmelCase=None , UpperCAmelCase=True , UpperCAmelCase=10 , UpperCAmelCase=8 , UpperCAmelCase=["stage1", "stage2", "stage3"] , UpperCAmelCase=[1, 2, 3] , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = image_size
_UpperCAmelCase = patch_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embed_dim
_UpperCAmelCase = depths
_UpperCAmelCase = num_heads
_UpperCAmelCase = window_size
_UpperCAmelCase = mlp_ratio
_UpperCAmelCase = qkv_bias
_UpperCAmelCase = hidden_dropout_prob
_UpperCAmelCase = attention_probs_dropout_prob
_UpperCAmelCase = drop_path_rate
_UpperCAmelCase = hidden_act
_UpperCAmelCase = use_absolute_embeddings
_UpperCAmelCase = patch_norm
_UpperCAmelCase = layer_norm_eps
_UpperCAmelCase = initializer_range
_UpperCAmelCase = is_training
_UpperCAmelCase = scope
_UpperCAmelCase = use_labels
_UpperCAmelCase = type_sequence_label_size
_UpperCAmelCase = encoder_stride
_UpperCAmelCase = out_features
_UpperCAmelCase = out_indices
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.type_sequence_label_size )
_UpperCAmelCase = self.get_config()
return config, pixel_values, labels
def UpperCamelCase ( self ):
"""simple docstring"""
return MaskFormerSwinConfig(
image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , embed_dim=self.embed_dim , depths=self.depths , num_heads=self.num_heads , window_size=self.window_size , mlp_ratio=self.mlp_ratio , qkv_bias=self.qkv_bias , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , drop_path_rate=self.drop_path_rate , hidden_act=self.hidden_act , use_absolute_embeddings=self.use_absolute_embeddings , path_norm=self.patch_norm , layer_norm_eps=self.layer_norm_eps , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , out_features=self.out_features , out_indices=self.out_indices , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModel(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase )
_UpperCAmelCase = ((config.image_size // config.patch_size) ** 2) // (4 ** (len(config.depths ) - 1))
_UpperCAmelCase = int(config.embed_dim * 2 ** (len(config.depths ) - 1) )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, expected_seq_len, expected_dim) )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinBackbone(config=UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = model(UpperCAmelCase )
# verify feature maps
self.parent.assertEqual(len(result.feature_maps ) , len(config.out_features ) )
self.parent.assertListEqual(list(result.feature_maps[0].shape ) , [13, 16, 16, 16] )
# verify channels
self.parent.assertEqual(len(model.channels ) , len(config.out_features ) )
self.parent.assertListEqual(model.channels , [16, 32, 64] )
# verify ValueError
with self.parent.assertRaises(UpperCAmelCase ):
_UpperCAmelCase = ['stem']
_UpperCAmelCase = MaskFormerSwinBackbone(config=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'pixel_values': pixel_values}
return config, inputs_dict
@require_torch
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (
(
MaskFormerSwinModel,
MaskFormerSwinBackbone,
)
if is_torch_available()
else ()
)
UpperCamelCase__ = {"feature-extraction": MaskFormerSwinModel} if is_torch_available() else {}
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , embed_dim=37 )
@require_torch_multi_gpu
@unittest.skip(
reason=(
'`MaskFormerSwinModel` outputs `hidden_states_spatial_dimensions` which doesn\'t work well with'
' `nn.DataParallel`'
) )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCamelCase ( self ):
"""simple docstring"""
return
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_backbone(*UpperCAmelCase )
@unittest.skip('Swin does not use inputs_embeds' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip('Swin does not support feedforward chunking' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
self.assertIsInstance(model.get_input_embeddings() , (nn.Module) )
_UpperCAmelCase = model.get_output_embeddings()
self.assertTrue(x is None or isinstance(UpperCAmelCase , nn.Linear ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
_UpperCAmelCase = [*signature.parameters.keys()]
_UpperCAmelCase = ['pixel_values']
self.assertListEqual(arg_names[:1] , UpperCAmelCase )
@unittest.skip(reason='MaskFormerSwin is only used as backbone and doesn\'t support output_attentions' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='MaskFormerSwin is only used as an internal backbone' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = model_class(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
with torch.no_grad():
_UpperCAmelCase = model(**self._prepare_for_class(UpperCAmelCase , UpperCAmelCase ) )
_UpperCAmelCase = outputs.hidden_states
_UpperCAmelCase = getattr(
self.model_tester , 'expected_num_hidden_layers' , len(self.model_tester.depths ) + 1 )
self.assertEqual(len(UpperCAmelCase ) , UpperCAmelCase )
# Swin has a different seq_length
_UpperCAmelCase = (
config.patch_size
if isinstance(config.patch_size , collections.abc.Iterable )
else (config.patch_size, config.patch_size)
)
_UpperCAmelCase = (image_size[1] // patch_size[1]) * (image_size[0] // patch_size[0])
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) , [num_patches, self.model_tester.embed_dim] , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = (
self.model_tester.image_size
if isinstance(self.model_tester.image_size , collections.abc.Iterable )
else (self.model_tester.image_size, self.model_tester.image_size)
)
for model_class in self.all_model_classes:
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = 3
_UpperCAmelCase = (
self.model_tester.image_size
if isinstance(self.model_tester.image_size , collections.abc.Iterable )
else (self.model_tester.image_size, self.model_tester.image_size)
)
_UpperCAmelCase = (
config.patch_size
if isinstance(config.patch_size , collections.abc.Iterable )
else (config.patch_size, config.patch_size)
)
_UpperCAmelCase = image_size[0] + patch_size[0] - (image_size[0] % patch_size[0])
_UpperCAmelCase = image_size[1] + patch_size[1] - (image_size[1] % patch_size[1])
for model_class in self.all_model_classes:
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , (padded_height, padded_width) )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
self.check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , (padded_height, padded_width) )
@unittest.skip(reason='MaskFormerSwin doesn\'t have pretrained checkpoints' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='This will be fixed once MaskFormerSwin is replaced by native Swin' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='This will be fixed once MaskFormerSwin is replaced by native Swin' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
def set_nan_tensor_to_zero(UpperCAmelCase ):
_UpperCAmelCase = 0
return t
def check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase={} ):
with torch.no_grad():
_UpperCAmelCase = model(**UpperCAmelCase , return_dict=UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = model(**UpperCAmelCase , return_dict=UpperCAmelCase , **UpperCAmelCase ).to_tuple()
def recursive_check(UpperCAmelCase , UpperCAmelCase ):
if isinstance(UpperCAmelCase , (List, Tuple) ):
for tuple_iterable_value, dict_iterable_value in zip(UpperCAmelCase , UpperCAmelCase ):
recursive_check(UpperCAmelCase , UpperCAmelCase )
elif isinstance(UpperCAmelCase , UpperCAmelCase ):
for tuple_iterable_value, dict_iterable_value in zip(
tuple_object.values() , dict_object.values() ):
recursive_check(UpperCAmelCase , UpperCAmelCase )
elif tuple_object is None:
return
else:
self.assertTrue(
torch.allclose(
set_nan_tensor_to_zero(UpperCAmelCase ) , set_nan_tensor_to_zero(UpperCAmelCase ) , atol=1e-5 ) , msg=(
'Tuple and dict output are not equal. Difference:'
F""" {torch.max(torch.abs(tuple_object - dict_object ) )}. Tuple has `nan`:"""
F""" {torch.isnan(UpperCAmelCase ).any()} and `inf`: {torch.isinf(UpperCAmelCase )}. Dict has"""
F""" `nan`: {torch.isnan(UpperCAmelCase ).any()} and `inf`: {torch.isinf(UpperCAmelCase )}."""
) , )
recursive_check(UpperCAmelCase , UpperCAmelCase )
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
model.to(UpperCAmelCase )
model.eval()
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , {'output_hidden_states': True} )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
_UpperCAmelCase = self._prepare_for_class(UpperCAmelCase , UpperCAmelCase , return_labels=UpperCAmelCase )
check_equivalence(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , {'output_hidden_states': True} )
@require_torch
class __lowerCamelCase ( unittest.TestCase , snake_case__):
"""simple docstring"""
UpperCamelCase__ = (MaskFormerSwinBackbone,) if is_torch_available() else ()
UpperCamelCase__ = MaskFormerSwinConfig
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = MaskFormerSwinModelTester(self )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = inputs_dict['pixel_values'].shape[0]
for backbone_class in self.all_model_classes:
_UpperCAmelCase = backbone_class(UpperCAmelCase )
backbone.to(UpperCAmelCase )
backbone.eval()
_UpperCAmelCase = backbone(**UpperCAmelCase )
# Test default outputs and verify feature maps
self.assertIsInstance(outputs.feature_maps , UpperCAmelCase )
self.assertTrue(len(outputs.feature_maps ) == len(backbone.channels ) )
for feature_map, n_channels in zip(outputs.feature_maps , backbone.channels ):
self.assertTrue(feature_map.shape[:2] , (batch_size, n_channels) )
self.assertIsNone(outputs.hidden_states )
self.assertIsNone(outputs.attentions )
# Test output_hidden_states=True
_UpperCAmelCase = backbone(**UpperCAmelCase , output_hidden_states=UpperCAmelCase )
self.assertIsNotNone(outputs.hidden_states )
self.assertTrue(len(outputs.hidden_states ) , len(backbone.stage_names ) )
# We skip the stem layer
for hidden_states, n_channels in zip(outputs.hidden_states[1:] , backbone.channels ):
for hidden_state in hidden_states:
# Hidden states are in the format (batch_size, (height * width), n_channels)
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = hidden_state.shape
self.assertTrue((h_batch_size, h_n_channels) , (batch_size, n_channels) )
# Test output_attentions=True
if self.has_attentions:
_UpperCAmelCase = backbone(**UpperCAmelCase , output_attentions=UpperCAmelCase )
self.assertIsNotNone(outputs.attentions )
| 39
| 1
|
import json
import os
import torch
from diffusers import UNetaDModel
os.makedirs('''hub/hopper-medium-v2/unet/hor32''', exist_ok=True)
os.makedirs('''hub/hopper-medium-v2/unet/hor128''', exist_ok=True)
os.makedirs('''hub/hopper-medium-v2/value_function''', exist_ok=True)
def __A ( __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
if hor == 128:
_UpperCAmelCase = ('DownResnetBlock1D', 'DownResnetBlock1D', 'DownResnetBlock1D')
_UpperCAmelCase = (32, 128, 256)
_UpperCAmelCase = ('UpResnetBlock1D', 'UpResnetBlock1D')
elif hor == 32:
_UpperCAmelCase = ('DownResnetBlock1D', 'DownResnetBlock1D', 'DownResnetBlock1D', 'DownResnetBlock1D')
_UpperCAmelCase = (32, 64, 128, 256)
_UpperCAmelCase = ('UpResnetBlock1D', 'UpResnetBlock1D', 'UpResnetBlock1D')
_UpperCAmelCase = torch.load(F"""/Users/bglickenhaus/Documents/diffuser/temporal_unet-hopper-mediumv2-hor{hor}.torch""" )
_UpperCAmelCase = model.state_dict()
_UpperCAmelCase = {
'down_block_types': down_block_types,
'block_out_channels': block_out_channels,
'up_block_types': up_block_types,
'layers_per_block': 1,
'use_timestep_embedding': True,
'out_block_type': 'OutConv1DBlock',
'norm_num_groups': 8,
'downsample_each_block': False,
'in_channels': 14,
'out_channels': 14,
'extra_in_channels': 0,
'time_embedding_type': 'positional',
'flip_sin_to_cos': False,
'freq_shift': 1,
'sample_size': 65_536,
'mid_block_type': 'MidResTemporalBlock1D',
'act_fn': 'mish',
}
_UpperCAmelCase = UNetaDModel(**__lowerCAmelCase )
print(F"""length of state dict: {len(state_dict.keys() )}""" )
print(F"""length of value function dict: {len(hf_value_function.state_dict().keys() )}""" )
_UpperCAmelCase = dict(zip(model.state_dict().keys() , hf_value_function.state_dict().keys() ) )
for k, v in mapping.items():
_UpperCAmelCase = state_dict.pop(__lowerCAmelCase )
hf_value_function.load_state_dict(__lowerCAmelCase )
torch.save(hf_value_function.state_dict() , F"""hub/hopper-medium-v2/unet/hor{hor}/diffusion_pytorch_model.bin""" )
with open(F"""hub/hopper-medium-v2/unet/hor{hor}/config.json""" , 'w' ) as f:
json.dump(__lowerCAmelCase , __lowerCAmelCase )
def __A ( )-> Union[str, Any]:
"""simple docstring"""
_UpperCAmelCase = {
'in_channels': 14,
'down_block_types': ('DownResnetBlock1D', 'DownResnetBlock1D', 'DownResnetBlock1D', 'DownResnetBlock1D'),
'up_block_types': (),
'out_block_type': 'ValueFunction',
'mid_block_type': 'ValueFunctionMidBlock1D',
'block_out_channels': (32, 64, 128, 256),
'layers_per_block': 1,
'downsample_each_block': True,
'sample_size': 65_536,
'out_channels': 14,
'extra_in_channels': 0,
'time_embedding_type': 'positional',
'use_timestep_embedding': True,
'flip_sin_to_cos': False,
'freq_shift': 1,
'norm_num_groups': 8,
'act_fn': 'mish',
}
_UpperCAmelCase = torch.load('/Users/bglickenhaus/Documents/diffuser/value_function-hopper-mediumv2-hor32.torch' )
_UpperCAmelCase = model
_UpperCAmelCase = UNetaDModel(**__lowerCAmelCase )
print(F"""length of state dict: {len(state_dict.keys() )}""" )
print(F"""length of value function dict: {len(hf_value_function.state_dict().keys() )}""" )
_UpperCAmelCase = dict(zip(state_dict.keys() , hf_value_function.state_dict().keys() ) )
for k, v in mapping.items():
_UpperCAmelCase = state_dict.pop(__lowerCAmelCase )
hf_value_function.load_state_dict(__lowerCAmelCase )
torch.save(hf_value_function.state_dict() , 'hub/hopper-medium-v2/value_function/diffusion_pytorch_model.bin' )
with open('hub/hopper-medium-v2/value_function/config.json' , 'w' ) as f:
json.dump(__lowerCAmelCase , __lowerCAmelCase )
if __name__ == "__main__":
unet(32)
# unet(128)
value_function()
| 39
|
import os
import unittest
from transformers.models.transfo_xl.tokenization_transfo_xl import VOCAB_FILES_NAMES, TransfoXLTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = TransfoXLTokenizer
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
super().setUp()
_UpperCAmelCase = [
'<unk>',
'[CLS]',
'[SEP]',
'want',
'unwanted',
'wa',
'un',
'running',
',',
'low',
'l',
]
_UpperCAmelCase = 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 UpperCamelCase ( self , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = True
return TransfoXLTokenizer.from_pretrained(self.tmpdirname , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = '<unk> UNwanted , running'
_UpperCAmelCase = '<unk> unwanted, running'
return input_text, output_text
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(vocab_file=self.vocab_file , lower_case=UpperCAmelCase )
_UpperCAmelCase = tokenizer.tokenize('<unk> UNwanted , running' )
self.assertListEqual(UpperCAmelCase , ['<unk>', 'unwanted', ',', 'running'] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase ) , [0, 4, 8, 7] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
self.assertListEqual(
tokenizer.tokenize(' \tHeLLo ! how \n Are yoU ? ' ) , ['hello', '!', 'how', 'are', 'you', '?'] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
self.assertListEqual(
tokenizer.tokenize(' \tHeLLo ! how \n Are yoU ? ' ) , ['HeLLo', '!', 'how', 'Are', 'yoU', '?'] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TransfoXLTokenizer(lower_case=UpperCAmelCase )
_UpperCAmelCase = 'Hello (bracket) and side-scrolled [and] Henry\'s $5,000 with 3.34 m. What\'s up!?'
_UpperCAmelCase = [
'Hello',
'(',
'bracket',
')',
'and',
'side',
'@-@',
'scrolled',
'[',
'and',
']',
'Henry',
'\'s',
'$',
'5',
'@,@',
'000',
'with',
'3',
'@.@',
'34',
'm',
'.',
'What',
'\'s',
'up',
'!',
'?',
]
self.assertListEqual(tokenizer.tokenize(UpperCAmelCase ) , UpperCAmelCase )
self.assertEqual(tokenizer.convert_tokens_to_string(UpperCAmelCase ) , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_tokenizer()
_UpperCAmelCase = len(UpperCAmelCase )
tokenizer.add_tokens(['new1', 'new2'] )
tokenizer.move_added_token('new1' , 1 )
# Check that moved token is not copied (duplicate)
self.assertEqual(len(UpperCAmelCase ) , original_len + 2 )
# Check that token is moved to specified id
self.assertEqual(tokenizer.encode('new1' ) , [1] )
self.assertEqual(tokenizer.decode([1] ) , 'new1' )
| 39
| 1
|
# Lint as: python3
import os
import re
import urllib.parse
from pathlib import Path
from typing import Callable, List, Optional, Union
from zipfile import ZipFile
from ..utils.file_utils import cached_path, hf_github_url
from ..utils.logging import get_logger
from ..utils.version import Version
_a = get_logger(__name__)
class __lowerCamelCase :
"""simple docstring"""
UpperCamelCase__ = "dummy_data"
UpperCamelCase__ = "datasets"
UpperCamelCase__ = False
def __init__( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase = None , UpperCAmelCase = False , UpperCAmelCase = True , UpperCAmelCase = None , ):
"""simple docstring"""
_UpperCAmelCase = 0
_UpperCAmelCase = dataset_name
_UpperCAmelCase = cache_dir
_UpperCAmelCase = use_local_dummy_data
_UpperCAmelCase = config
# download_callbacks take a single url as input
_UpperCAmelCase = download_callbacks or []
# if False, it doesn't load existing files and it returns the paths of the dummy files relative
# to the dummy_data zip file root
_UpperCAmelCase = load_existing_dummy_data
# TODO(PVP, QL) might need to make this more general
_UpperCAmelCase = str(UpperCAmelCase )
# to be downloaded
_UpperCAmelCase = None
_UpperCAmelCase = None
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self._dummy_file is None:
_UpperCAmelCase = self.download_dummy_data()
return self._dummy_file
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.config is not None:
# structure is dummy / config_name / version_name
return os.path.join('dummy' , self.config.name , self.version_name )
# structure is dummy / version_name
return os.path.join('dummy' , self.version_name )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return os.path.join(self.dummy_data_folder , 'dummy_data.zip' )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = (
self.local_path_to_dummy_data if self.use_local_dummy_data is True else self.github_path_to_dummy_data
)
_UpperCAmelCase = cached_path(
UpperCAmelCase , cache_dir=self.cache_dir , extract_compressed_file=UpperCAmelCase , force_extract=UpperCAmelCase )
return os.path.join(UpperCAmelCase , self.dummy_file_name )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return os.path.join(self.datasets_scripts_dir , self.dataset_name , self.dummy_zip_file )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self._bucket_url is None:
_UpperCAmelCase = hf_github_url(self.dataset_name , self.dummy_zip_file.replace(os.sep , '/' ) )
return self._bucket_url
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if os.path.isdir(self.dummy_file ):
return self.dummy_file
# else cut off path to file -> example `xsum`.
return "/".join(self.dummy_file.replace(os.sep , '/' ).split('/' )[:-1] )
def UpperCamelCase ( self , UpperCAmelCase , *UpperCAmelCase ):
"""simple docstring"""
if self.load_existing_dummy_data:
# dummy data is downloaded and tested
_UpperCAmelCase = self.dummy_file
else:
# dummy data cannot be downloaded and only the path to dummy file is returned
_UpperCAmelCase = self.dummy_file_name
# special case when data_url is a dict
if isinstance(UpperCAmelCase , UpperCAmelCase ):
return self.create_dummy_data_dict(UpperCAmelCase , UpperCAmelCase )
elif isinstance(UpperCAmelCase , (list, tuple) ):
return self.create_dummy_data_list(UpperCAmelCase , UpperCAmelCase )
else:
return self.create_dummy_data_single(UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , *UpperCAmelCase ):
"""simple docstring"""
return self.download_and_extract(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
return self.download_and_extract(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return path
def UpperCamelCase ( self ):
"""simple docstring"""
return {}
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = {}
for key, single_urls in data_url.items():
for download_callback in self.download_callbacks:
if isinstance(UpperCAmelCase , UpperCAmelCase ):
for single_url in single_urls:
download_callback(UpperCAmelCase )
else:
_UpperCAmelCase = single_urls
download_callback(UpperCAmelCase )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
if isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = [os.path.join(UpperCAmelCase , urllib.parse.quote_plus(Path(UpperCAmelCase ).name ) ) for x in single_urls]
else:
_UpperCAmelCase = single_urls
_UpperCAmelCase = os.path.join(UpperCAmelCase , urllib.parse.quote_plus(Path(UpperCAmelCase ).name ) )
_UpperCAmelCase = value
# make sure that values are unique
if all(isinstance(UpperCAmelCase , UpperCAmelCase ) for i in dummy_data_dict.values() ) and len(set(dummy_data_dict.values() ) ) < len(
dummy_data_dict.values() ):
# append key to value to make its name unique
_UpperCAmelCase = {key: value + key for key, value in dummy_data_dict.items()}
return dummy_data_dict
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = []
# trick: if there are many shards named like `data.txt-000001-of-00300`, only use the first one
_UpperCAmelCase = all(bool(re.findall('[0-9]{3,}-of-[0-9]{3,}' , UpperCAmelCase ) ) for url in data_url )
_UpperCAmelCase = all(
url.startswith('https://ftp.ncbi.nlm.nih.gov/pubmed/baseline/pubmed' ) for url in data_url )
if data_url and (is_tf_records or is_pubmed_records):
_UpperCAmelCase = [data_url[0]] * len(UpperCAmelCase )
for single_url in data_url:
for download_callback in self.download_callbacks:
download_callback(UpperCAmelCase )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
_UpperCAmelCase = os.path.join(UpperCAmelCase , urllib.parse.quote_plus(single_url.split('/' )[-1] ) )
dummy_data_list.append(UpperCAmelCase )
return dummy_data_list
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
for download_callback in self.download_callbacks:
download_callback(UpperCAmelCase )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
_UpperCAmelCase = os.path.join(UpperCAmelCase , urllib.parse.quote_plus(data_url.split('/' )[-1] ) )
if os.path.exists(UpperCAmelCase ) or not self.load_existing_dummy_data:
return value
else:
# Backward compatibility, maybe deprecate at one point.
# For many datasets with single url calls to dl_manager.download_and_extract,
# the dummy_data.zip file is actually the zipped downloaded file
# while now we expected the dummy_data.zip file to be a directory containing
# the downloaded file.
return path_to_dummy_data
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
def _iter_archive_members(UpperCAmelCase ):
# this preserves the order of the members inside the ZIP archive
_UpperCAmelCase = Path(self.dummy_file ).parent
_UpperCAmelCase = path.relative_to(UpperCAmelCase )
with ZipFile(self.local_path_to_dummy_data ) as zip_file:
_UpperCAmelCase = zip_file.namelist()
for member in members:
if member.startswith(relative_path.as_posix() ):
yield dummy_parent_path.joinpath(UpperCAmelCase )
_UpperCAmelCase = Path(UpperCAmelCase )
_UpperCAmelCase = _iter_archive_members(UpperCAmelCase ) if self.use_local_dummy_data else path.rglob('*' )
for file_path in file_paths:
if file_path.is_file() and not file_path.name.startswith(('.', '__') ):
yield file_path.relative_to(UpperCAmelCase ).as_posix(), file_path.open('rb' )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if not isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = [paths]
for path in paths:
if os.path.isfile(UpperCAmelCase ):
if os.path.basename(UpperCAmelCase ).startswith(('.', '__') ):
return
yield path
else:
for dirpath, dirnames, filenames in os.walk(UpperCAmelCase ):
if os.path.basename(UpperCAmelCase ).startswith(('.', '__') ):
continue
dirnames.sort()
for filename in sorted(UpperCAmelCase ):
if filename.startswith(('.', '__') ):
continue
yield os.path.join(UpperCAmelCase , UpperCAmelCase )
| 39
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
_a = {'''configuration_opt''': ['''OPT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''OPTConfig''']}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''OPT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''OPTForCausalLM''',
'''OPTModel''',
'''OPTPreTrainedModel''',
'''OPTForSequenceClassification''',
'''OPTForQuestionAnswering''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['''TFOPTForCausalLM''', '''TFOPTModel''', '''TFOPTPreTrainedModel''']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'''FlaxOPTForCausalLM''',
'''FlaxOPTModel''',
'''FlaxOPTPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_opt import OPT_PRETRAINED_CONFIG_ARCHIVE_MAP, OPTConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_opt import (
OPT_PRETRAINED_MODEL_ARCHIVE_LIST,
OPTForCausalLM,
OPTForQuestionAnswering,
OPTForSequenceClassification,
OPTModel,
OPTPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_opt import TFOPTForCausalLM, TFOPTModel, TFOPTPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_opt import FlaxOPTForCausalLM, FlaxOPTModel, FlaxOPTPreTrainedModel
else:
import sys
_a = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 39
| 1
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
_UpperCAmelCase = {} # Mapping from char to TrieNode
_UpperCAmelCase = False
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for word in words:
self.insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self
for char in word:
if char not in curr.nodes:
_UpperCAmelCase = TrieNode()
_UpperCAmelCase = curr.nodes[char]
_UpperCAmelCase = True
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self
for char in word:
if char not in curr.nodes:
return False
_UpperCAmelCase = curr.nodes[char]
return curr.is_leaf
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
def _delete(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) -> bool:
if index == len(UpperCAmelCase ):
# If word does not exist
if not curr.is_leaf:
return False
_UpperCAmelCase = False
return len(curr.nodes ) == 0
_UpperCAmelCase = word[index]
_UpperCAmelCase = curr.nodes.get(UpperCAmelCase )
# If char not in current trie node
if not char_node:
return False
# Flag to check if node can be deleted
_UpperCAmelCase = _delete(UpperCAmelCase , UpperCAmelCase , index + 1 )
if delete_curr:
del curr.nodes[char]
return len(curr.nodes ) == 0
return delete_curr
_delete(self , UpperCAmelCase , 0 )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
if node.is_leaf:
print(__lowerCAmelCase , end=' ' )
for key, value in node.nodes.items():
print_words(__lowerCAmelCase , word + key )
def __A ( )-> bool:
"""simple docstring"""
_UpperCAmelCase = 'banana bananas bandana band apple all beast'.split()
_UpperCAmelCase = TrieNode()
root.insert_many(__lowerCAmelCase )
# print_words(root, "")
assert all(root.find(__lowerCAmelCase ) for word in words )
assert root.find('banana' )
assert not root.find('bandanas' )
assert not root.find('apps' )
assert root.find('apple' )
assert root.find('all' )
root.delete('all' )
assert not root.find('all' )
root.delete('banana' )
assert not root.find('banana' )
assert root.find('bananas' )
return True
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
print(str(__lowerCAmelCase ) , 'works!' if passes else 'doesn\'t work :(' )
def __A ( )-> None:
"""simple docstring"""
assert test_trie()
def __A ( )-> None:
"""simple docstring"""
print_results('Testing trie functionality' , test_trie() )
if __name__ == "__main__":
main()
| 39
|
import warnings
from pathlib import Path
from typing import List, Tuple, Union
import fire
from torch import nn
from transformers import AutoModelForSeqaSeqLM, AutoTokenizer, PreTrainedModel
from transformers.utils import logging
_a = logging.get_logger(__name__)
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> None:
"""simple docstring"""
_UpperCAmelCase = nn.ModuleList([src_layers[i] for i in layers_to_copy] )
assert len(__lowerCAmelCase ) == len(__lowerCAmelCase ), F"""{len(__lowerCAmelCase )} != {len(__lowerCAmelCase )}"""
dest_layers.load_state_dict(layers_to_copy.state_dict() )
_a = {
# maps num layers in teacher -> num_layers in student -> which teacher layers to copy.
# 12: bart, 16: pegasus, 6: marian/Helsinki-NLP
12: {
1: [0], # This says that if the teacher has 12 layers and the student has 1, copy layer 0 of the teacher
2: [0, 6],
3: [0, 6, 11],
4: [0, 4, 8, 11],
6: [0, 2, 4, 7, 9, 11],
9: [0, 1, 2, 4, 5, 7, 9, 10, 11],
12: list(range(12)),
},
16: { # maps num layers in student -> which teacher layers to copy
1: [0],
2: [0, 15],
3: [0, 8, 15],
4: [0, 5, 10, 15],
6: [0, 3, 6, 9, 12, 15],
8: [0, 2, 4, 6, 8, 10, 12, 15],
9: [0, 1, 3, 5, 7, 9, 11, 13, 15],
12: [0, 1, 2, 3, 4, 5, 6, 7, 9, 11, 13, 15],
16: list(range(16)),
},
6: {1: [0], 2: [0, 5], 3: [0, 2, 5], 4: [0, 1, 3, 5], 6: list(range(6))},
}
_a = {
# maps num layers in student -> which teacher layers to copy.
6: {1: [5], 2: [3, 5], 3: [1, 4, 5], 4: [1, 2, 4, 5]},
12: {1: [11], 2: [5, 11], 3: [3, 7, 11], 6: [1, 3, 5, 8, 10, 11]},
16: {1: [15], 4: [4, 9, 12, 15], 8: [1, 3, 5, 7, 9, 11, 13, 15]},
}
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Dict:
"""simple docstring"""
try:
_UpperCAmelCase = LAYERS_TO_COPY[n_teacher][n_student]
return val
except KeyError:
if n_student != n_teacher:
warnings.warn(
F"""no hardcoded layers to copy for teacher {n_teacher} -> student {n_student}, defaulting to first"""
F""" {n_student}""" )
return list(range(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[int]:
"""simple docstring"""
if n_student > n_teacher:
raise ValueError(F"""Cannot perform intermediate supervision for student {n_student} > teacher {n_teacher}""" )
elif n_teacher == n_student:
return list(range(__lowerCAmelCase ) )
elif n_student == 1:
return [n_teacher - 1]
else:
return LAYERS_TO_SUPERVISE[n_teacher][n_student]
def __A ( __lowerCAmelCase , __lowerCAmelCase = "student" , __lowerCAmelCase = None , __lowerCAmelCase = None , __lowerCAmelCase=False , __lowerCAmelCase=None , __lowerCAmelCase=None , **__lowerCAmelCase , )-> Tuple[PreTrainedModel, List[int], List[int]]:
"""simple docstring"""
_UpperCAmelCase = 'encoder_layers and decoder_layers cannot be both None-- you would just have an identical teacher.'
assert (e is not None) or (d is not None), _msg
if isinstance(__lowerCAmelCase , __lowerCAmelCase ):
AutoTokenizer.from_pretrained(__lowerCAmelCase ).save_pretrained(__lowerCAmelCase ) # purely for convenience
_UpperCAmelCase = AutoModelForSeqaSeqLM.from_pretrained(__lowerCAmelCase ).eval()
else:
assert isinstance(__lowerCAmelCase , __lowerCAmelCase ), F"""teacher must be a model or string got type {type(__lowerCAmelCase )}"""
_UpperCAmelCase = teacher.config.to_diff_dict()
try:
_UpperCAmelCase , _UpperCAmelCase = teacher.config.encoder_layers, teacher.config.decoder_layers
if e is None:
_UpperCAmelCase = teacher_e
if d is None:
_UpperCAmelCase = teacher_d
init_kwargs.update({'encoder_layers': e, 'decoder_layers': d} )
except AttributeError: # T5
if hasattr(teacher.config , 'num_encoder_layers' ):
_UpperCAmelCase , _UpperCAmelCase = teacher.config.num_encoder_layers, teacher.config.num_decoder_layers
else:
_UpperCAmelCase , _UpperCAmelCase = teacher.config.num_layers, teacher.config.num_decoder_layers
if e is None:
_UpperCAmelCase = teacher_e
if d is None:
_UpperCAmelCase = teacher_d
if hasattr(teacher.config , 'num_encoder_layers' ):
init_kwargs.update({'num_encoder_layers': e, 'num_decoder_layers': d} )
else:
init_kwargs.update({'num_layers': e, 'num_decoder_layers': d} )
# Kwargs to instantiate student: teacher kwargs with updated layer numbers + **extra_config_kwargs
init_kwargs.update(__lowerCAmelCase )
# Copy weights
_UpperCAmelCase = teacher.config_class(**__lowerCAmelCase )
_UpperCAmelCase = AutoModelForSeqaSeqLM.from_config(__lowerCAmelCase )
# Start by copying the full teacher state dict this will copy the first N teacher layers to the student.
_UpperCAmelCase = student.load_state_dict(teacher.state_dict() , strict=__lowerCAmelCase )
assert info.missing_keys == [], info.missing_keys # every student key should have a teacher keys.
if copy_first_teacher_layers: # Our copying is done. We just log and save
_UpperCAmelCase , _UpperCAmelCase = list(range(__lowerCAmelCase ) ), list(range(__lowerCAmelCase ) )
logger.info(
F"""Copied encoder layers {e_layers_to_copy} and decoder layers {d_layers_to_copy}. Saving them to"""
F""" {save_path}""" )
student.save_pretrained(__lowerCAmelCase )
return student, e_layers_to_copy, d_layers_to_copy
# Decide which layers of the teacher to copy. Not exactly alternating -- we try to keep first and last layer.
if e_layers_to_copy is None:
_UpperCAmelCase = pick_layers_to_copy(__lowerCAmelCase , __lowerCAmelCase )
if d_layers_to_copy is None:
_UpperCAmelCase = pick_layers_to_copy(__lowerCAmelCase , __lowerCAmelCase )
try:
if hasattr(
__lowerCAmelCase , 'prophetnet' ): # For ProphetNet, student.model.encoder.layers is called student.prophetnet.encoder.layers
copy_layers(teacher.prophetnet.encoder.layers , student.prophetnet.encoder.layers , __lowerCAmelCase )
copy_layers(teacher.prophetnet.decoder.layers , student.prophetnet.decoder.layers , __lowerCAmelCase )
else:
copy_layers(teacher.model.encoder.layers , student.model.encoder.layers , __lowerCAmelCase )
copy_layers(teacher.model.decoder.layers , student.model.decoder.layers , __lowerCAmelCase )
except AttributeError: # For t5, student.model.encoder.layers is called student.encoder.block
copy_layers(teacher.encoder.block , student.encoder.block , __lowerCAmelCase )
copy_layers(teacher.decoder.block , student.decoder.block , __lowerCAmelCase )
logger.info(
F"""Copied encoder layers {e_layers_to_copy} and decoder layers {d_layers_to_copy}. Saving them to {save_path}""" )
_UpperCAmelCase = {
'teacher_type': teacher.config.model_type,
'copied_encoder_layers': e_layers_to_copy,
'copied_decoder_layers': d_layers_to_copy,
}
student.save_pretrained(__lowerCAmelCase )
# Save information about copying for easier reproducibility
return student, e_layers_to_copy, d_layers_to_copy
if __name__ == "__main__":
fire.Fire(create_student_by_copying_alternating_layers)
| 39
| 1
|
from __future__ import annotations
import unittest
import numpy as np
from transformers import OPTConfig, is_tf_available
from transformers.testing_utils import require_sentencepiece, require_tf, slow
from ...test_configuration_common import ConfigTester
from ...test_modeling_tf_common import TFModelTesterMixin, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_tf_available():
import tensorflow as tf
from transformers import GPTaTokenizer, TFOPTForCausalLM, TFOPTModel
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=None , __lowerCAmelCase=None )-> int:
"""simple docstring"""
if attention_mask is None:
_UpperCAmelCase = tf.cast(tf.math.not_equal(__lowerCAmelCase , config.pad_token_id ) , tf.inta )
return {"input_ids": input_ids, "attention_mask": attention_mask}
@require_tf
class __lowerCamelCase :
"""simple docstring"""
UpperCamelCase__ = OPTConfig
UpperCamelCase__ = {}
UpperCamelCase__ = "gelu"
def __init__( self , UpperCAmelCase , UpperCAmelCase=13 , UpperCAmelCase=7 , UpperCAmelCase=True , UpperCAmelCase=False , UpperCAmelCase=99 , UpperCAmelCase=16 , UpperCAmelCase=2 , UpperCAmelCase=4 , UpperCAmelCase=4 , UpperCAmelCase="gelu" , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase=20 , UpperCAmelCase=2 , UpperCAmelCase=1 , UpperCAmelCase=0 , UpperCAmelCase=16 , UpperCAmelCase=16 , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = seq_length
_UpperCAmelCase = is_training
_UpperCAmelCase = use_labels
_UpperCAmelCase = vocab_size
_UpperCAmelCase = hidden_size
_UpperCAmelCase = num_hidden_layers
_UpperCAmelCase = num_attention_heads
_UpperCAmelCase = intermediate_size
_UpperCAmelCase = hidden_act
_UpperCAmelCase = hidden_dropout_prob
_UpperCAmelCase = attention_probs_dropout_prob
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = eos_token_id
_UpperCAmelCase = pad_token_id
_UpperCAmelCase = bos_token_id
_UpperCAmelCase = embed_dim
_UpperCAmelCase = word_embed_proj_dim
_UpperCAmelCase = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = ids_tensor([self.batch_size, self.seq_length - 1] , self.vocab_size )
_UpperCAmelCase = tf.expand_dims(tf.constant([self.eos_token_id] * self.batch_size ) , 1 )
_UpperCAmelCase = tf.concat([input_ids, eos_tensor] , axis=1 )
_UpperCAmelCase = self.config_cls(
vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , ffn_dim=self.intermediate_size , dropout=self.hidden_dropout_prob , attention_dropout=self.attention_probs_dropout_prob , 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 , embed_dim=self.embed_dim , word_embed_proj_dim=self.word_embed_proj_dim , is_encoder_decoder=UpperCAmelCase , **self.config_updates , )
_UpperCAmelCase = prepare_opt_inputs_dict(UpperCAmelCase , UpperCAmelCase )
return config, inputs_dict
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = TFOPTModel(config=UpperCAmelCase )
_UpperCAmelCase = inputs_dict['input_ids']
_UpperCAmelCase = input_ids[:1, :]
_UpperCAmelCase = inputs_dict['attention_mask'][:1, :]
_UpperCAmelCase = 1
# first forward pass
_UpperCAmelCase = model(UpperCAmelCase , attention_mask=UpperCAmelCase , use_cache=UpperCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = outputs.to_tuple()
# create hypothetical next token and extent to next_input_ids
_UpperCAmelCase = ids_tensor((self.batch_size, 3) , config.vocab_size )
_UpperCAmelCase = tf.cast(ids_tensor((self.batch_size, 3) , 2 ) , tf.inta )
# append to next input_ids and
_UpperCAmelCase = tf.concat([input_ids, next_tokens] , axis=-1 )
_UpperCAmelCase = tf.concat([attention_mask, next_attn_mask] , axis=-1 )
_UpperCAmelCase = model(UpperCAmelCase , attention_mask=UpperCAmelCase )[0]
_UpperCAmelCase = model(UpperCAmelCase , attention_mask=UpperCAmelCase , past_key_values=UpperCAmelCase )[0]
self.parent.assertEqual(next_tokens.shape[1] , output_from_past.shape[1] )
# select random slice
_UpperCAmelCase = int(ids_tensor((1,) , output_from_past.shape[-1] ) )
_UpperCAmelCase = output_from_no_past[:, -3:, random_slice_idx]
_UpperCAmelCase = output_from_past[:, :, random_slice_idx]
# test that outputs are equal for slice
tf.debugging.assert_near(UpperCAmelCase , UpperCAmelCase , rtol=1e-3 )
@require_tf
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (TFOPTModel, TFOPTForCausalLM) if is_tf_available() else ()
UpperCamelCase__ = (TFOPTForCausalLM,) if is_tf_available() else ()
UpperCamelCase__ = (
{"feature-extraction": TFOPTModel, "text-generation": TFOPTForCausalLM} if is_tf_available() else {}
)
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = 10
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFOPTModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.check_decoder_model_past_large_inputs(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
def _get_word_embedding_weight(UpperCAmelCase , UpperCAmelCase ):
if hasattr(UpperCAmelCase , 'weight' ):
return embedding_layer.weight
else:
# Here we build the word embeddings weights if not exists.
# And then we retry to get the attribute once built.
model.build()
if hasattr(UpperCAmelCase , 'weight' ):
return embedding_layer.weight
else:
return None
for model_class in self.all_model_classes:
for size in [config.vocab_size - 10, config.vocab_size + 10]:
# build the embeddings
_UpperCAmelCase = model_class(config=UpperCAmelCase )
_UpperCAmelCase = _get_word_embedding_weight(UpperCAmelCase , model.get_input_embeddings() )
_UpperCAmelCase = _get_word_embedding_weight(UpperCAmelCase , model.get_output_embeddings() )
# reshape the embeddings
model.resize_token_embeddings(UpperCAmelCase )
_UpperCAmelCase = _get_word_embedding_weight(UpperCAmelCase , model.get_input_embeddings() )
_UpperCAmelCase = _get_word_embedding_weight(UpperCAmelCase , model.get_output_embeddings() )
# check that the resized embeddings size matches the desired size.
_UpperCAmelCase = size if size is not None else config.vocab_size
self.assertEqual(new_input_embeddings.shape[0] , UpperCAmelCase )
# check that weights remain the same after resizing
_UpperCAmelCase = True
for pa, pa in zip(old_input_embeddings.value() , new_input_embeddings.value() ):
if tf.math.reduce_sum(tf.math.abs(pa - pa ) ) > 0:
_UpperCAmelCase = False
self.assertTrue(UpperCAmelCase )
if old_output_embeddings is not None and new_output_embeddings is not None:
self.assertEqual(new_output_embeddings.shape[0] , UpperCAmelCase )
_UpperCAmelCase = True
for pa, pa in zip(old_output_embeddings.value() , new_output_embeddings.value() ):
if tf.math.reduce_sum(tf.math.abs(pa - pa ) ) > 0:
_UpperCAmelCase = False
self.assertTrue(UpperCAmelCase )
def __A ( __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
return tf.constant(__lowerCAmelCase , dtype=tf.intaa )
@require_tf
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = 99
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = tf.ones((4, 1) , dtype=tf.intaa ) * 2
_UpperCAmelCase = tf.concat([ids_tensor((4, 6) , self.vocab_size - 3 ) + 3, eos_column_vector] , axis=1 )
_UpperCAmelCase = input_ids.shape[0]
_UpperCAmelCase = OPTConfig(
vocab_size=self.vocab_size , hidden_size=24 , num_hidden_layers=2 , num_attention_heads=2 , ffn_dim=32 , max_position_embeddings=48 , eos_token_id=2 , pad_token_id=1 , bos_token_id=0 , )
return config, input_ids, batch_size
@require_sentencepiece
@require_tf
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFOPTModel.from_pretrained('facebook/opt-350m' )
_UpperCAmelCase = _long_tensor([[0, 3_1414, 232, 328, 740, 1140, 1_2695, 69, 4_6078, 1588, 2]] )
_UpperCAmelCase = tf.not_equal(UpperCAmelCase , model.config.pad_token_id )
with tf.GradientTape():
_UpperCAmelCase = model(input_ids=UpperCAmelCase , attention_mask=UpperCAmelCase ).last_hidden_state
_UpperCAmelCase = (1, 11, 512)
self.assertEqual(output.shape , UpperCAmelCase )
_UpperCAmelCase = tf.constant(
[[-0.28_73, -1.92_18, -0.30_33], [-1.27_10, -0.13_38, -0.19_02], [0.40_95, 0.12_14, -1.31_21]] )
self.assertTrue(np.allclose(output[:, :3, :3] , UpperCAmelCase , atol=4e-3 ) )
_UpperCAmelCase = tf.function(UpperCAmelCase , jit_compile=UpperCAmelCase )
_UpperCAmelCase = xla_generate(UpperCAmelCase , UpperCAmelCase )[0]
self.assertTrue(np.allclose(output[:, :3, :3] , UpperCAmelCase , atol=4e-2 ) )
@require_tf
@slow
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
super().setUp()
_UpperCAmelCase = 'facebook/opt-350m'
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFOPTForCausalLM.from_pretrained(self.path_model )
_UpperCAmelCase = GPTaTokenizer.from_pretrained(self.path_model )
_UpperCAmelCase = [
'Today is a beautiful day and I want to',
'In the city of',
'Paris is the capital of France and',
'Computers and mobile phones have taken',
]
# verify that prompt without BOS token is identical to Metaseq -> add_special_tokens=False
_UpperCAmelCase = tokenizer(UpperCAmelCase , return_tensors='tf' , padding=UpperCAmelCase , add_special_tokens=UpperCAmelCase )
_UpperCAmelCase = tf.math.reduce_mean(model(inputs.input_ids , attention_mask=inputs.attention_mask )[0] , axis=-1 )
_UpperCAmelCase = tf.constant(
[
[1.38_51, -13.89_23, -10.52_29, -10.75_33, -0.23_09, -10.23_84, -0.53_65, -9.09_47, -5.16_70],
[-4.70_73, -10.62_76, -3.94_15, -21.52_42, -0.28_22, -0.28_22, -0.28_22, -0.28_22, -0.28_22],
[0.62_47, -3.42_29, -8.91_79, -1.42_97, -14.16_50, 1.41_46, -9.02_18, -0.27_03, -0.27_03],
[6.47_83, -1.99_13, -10.79_26, -2.33_36, 1.50_92, -0.99_74, -6.82_13, 1.34_77, 1.34_77],
] )
self.assertTrue(np.allclose(UpperCAmelCase , UpperCAmelCase , atol=1e-4 ) )
_UpperCAmelCase = tf.function(UpperCAmelCase , jit_compile=UpperCAmelCase )
_UpperCAmelCase = tf.math.reduce_mean(xla_generate(inputs.input_ids , attention_mask=inputs.attention_mask )[0] , axis=-1 )
self.assertTrue(np.allclose(UpperCAmelCase , UpperCAmelCase , atol=1e-4 ) )
@require_tf
@slow
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return [
"Today is a beautiful day and I want",
"In the city of",
"Paris is the capital of France and",
"Computers and mobile phones have taken",
]
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = 'facebook/opt-125m'
_UpperCAmelCase = [
'Today is a beautiful day and I want to',
'In the city of New York, the city',
'Paris is the capital of France and the capital',
'Computers and mobile phones have taken over the',
]
_UpperCAmelCase = []
_UpperCAmelCase = GPTaTokenizer.from_pretrained(UpperCAmelCase )
_UpperCAmelCase = TFOPTForCausalLM.from_pretrained(UpperCAmelCase )
for prompt in self.prompts:
_UpperCAmelCase = tokenizer(UpperCAmelCase , return_tensors='tf' ).input_ids
_UpperCAmelCase = model.generate(UpperCAmelCase , max_length=10 )
_UpperCAmelCase = tokenizer.batch_decode(UpperCAmelCase , skip_special_tokens=UpperCAmelCase )
predicted_outputs += generated_string
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = 'facebook/opt-350m'
_UpperCAmelCase = GPTaTokenizer.from_pretrained(UpperCAmelCase )
_UpperCAmelCase = TFOPTForCausalLM.from_pretrained(UpperCAmelCase )
_UpperCAmelCase = 'left'
# use different length sentences to test batching
_UpperCAmelCase = [
'Hello, my dog is a little',
'Today, I',
]
_UpperCAmelCase = tokenizer(UpperCAmelCase , return_tensors='tf' , padding=UpperCAmelCase )
_UpperCAmelCase = inputs['input_ids']
_UpperCAmelCase = model.generate(input_ids=UpperCAmelCase , attention_mask=inputs['attention_mask'] )
_UpperCAmelCase = tokenizer(sentences[0] , return_tensors='tf' ).input_ids
_UpperCAmelCase = model.generate(input_ids=UpperCAmelCase )
_UpperCAmelCase = inputs_non_padded.shape[-1] - tf.math.reduce_sum(
tf.cast(inputs['attention_mask'][-1] , tf.intaa ) )
_UpperCAmelCase = tokenizer(sentences[1] , return_tensors='tf' ).input_ids
_UpperCAmelCase = model.generate(input_ids=UpperCAmelCase , max_length=model.config.max_length - num_paddings )
_UpperCAmelCase = tokenizer.batch_decode(UpperCAmelCase , skip_special_tokens=UpperCAmelCase )
_UpperCAmelCase = tokenizer.decode(output_non_padded[0] , skip_special_tokens=UpperCAmelCase )
_UpperCAmelCase = tokenizer.decode(output_padded[0] , skip_special_tokens=UpperCAmelCase )
_UpperCAmelCase = [
'Hello, my dog is a little bit of a dork.\nI\'m a little bit',
'Today, I was in the middle of a conversation with a friend about the',
]
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , [non_padded_sentence, padded_sentence] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = 'facebook/opt-350m'
_UpperCAmelCase = [
'Today is a beautiful day and I want to',
'In the city of San Francisco, the city',
'Paris is the capital of France and the capital',
'Computers and mobile phones have taken over the',
]
_UpperCAmelCase = []
_UpperCAmelCase = GPTaTokenizer.from_pretrained(UpperCAmelCase )
_UpperCAmelCase = TFOPTForCausalLM.from_pretrained(UpperCAmelCase )
for prompt in self.prompts:
_UpperCAmelCase = tokenizer(UpperCAmelCase , return_tensors='tf' ).input_ids
_UpperCAmelCase = model.generate(UpperCAmelCase , max_length=10 )
_UpperCAmelCase = tokenizer.batch_decode(UpperCAmelCase , skip_special_tokens=UpperCAmelCase )
predicted_outputs += generated_string
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
| 39
|
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 ViTConfig, ViTForImageClassification, ViTImageProcessor, ViTModel
from transformers.utils import logging
logging.set_verbosity_info()
_a = logging.get_logger(__name__)
def __A ( __lowerCAmelCase , __lowerCAmelCase=False )-> Union[str, Any]:
"""simple docstring"""
_UpperCAmelCase = []
for i in range(config.num_hidden_layers ):
# encoder layers: output projection, 2 feedforward neural networks and 2 layernorms
rename_keys.append((F"""blocks.{i}.norm1.weight""", F"""vit.encoder.layer.{i}.layernorm_before.weight""") )
rename_keys.append((F"""blocks.{i}.norm1.bias""", F"""vit.encoder.layer.{i}.layernorm_before.bias""") )
rename_keys.append((F"""blocks.{i}.attn.proj.weight""", F"""vit.encoder.layer.{i}.attention.output.dense.weight""") )
rename_keys.append((F"""blocks.{i}.attn.proj.bias""", F"""vit.encoder.layer.{i}.attention.output.dense.bias""") )
rename_keys.append((F"""blocks.{i}.norm2.weight""", F"""vit.encoder.layer.{i}.layernorm_after.weight""") )
rename_keys.append((F"""blocks.{i}.norm2.bias""", F"""vit.encoder.layer.{i}.layernorm_after.bias""") )
rename_keys.append((F"""blocks.{i}.mlp.fc1.weight""", F"""vit.encoder.layer.{i}.intermediate.dense.weight""") )
rename_keys.append((F"""blocks.{i}.mlp.fc1.bias""", F"""vit.encoder.layer.{i}.intermediate.dense.bias""") )
rename_keys.append((F"""blocks.{i}.mlp.fc2.weight""", F"""vit.encoder.layer.{i}.output.dense.weight""") )
rename_keys.append((F"""blocks.{i}.mlp.fc2.bias""", F"""vit.encoder.layer.{i}.output.dense.bias""") )
# projection layer + position embeddings
rename_keys.extend(
[
('cls_token', 'vit.embeddings.cls_token'),
('patch_embed.proj.weight', 'vit.embeddings.patch_embeddings.projection.weight'),
('patch_embed.proj.bias', 'vit.embeddings.patch_embeddings.projection.bias'),
('pos_embed', 'vit.embeddings.position_embeddings'),
] )
if base_model:
# layernorm + pooler
rename_keys.extend(
[
('norm.weight', 'layernorm.weight'),
('norm.bias', 'layernorm.bias'),
] )
# if just the base model, we should remove "vit" from all keys that start with "vit"
_UpperCAmelCase = [(pair[0], pair[1][4:]) if pair[1].startswith('vit' ) else pair for pair in rename_keys]
else:
# layernorm + classification head
rename_keys.extend(
[
('norm.weight', 'vit.layernorm.weight'),
('norm.bias', 'vit.layernorm.bias'),
('head.weight', 'classifier.weight'),
('head.bias', 'classifier.bias'),
] )
return rename_keys
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=False )-> List[str]:
"""simple docstring"""
for i in range(config.num_hidden_layers ):
if base_model:
_UpperCAmelCase = ''
else:
_UpperCAmelCase = 'vit.'
# read in weights + bias of input projection layer (in timm, this is a single matrix + bias)
_UpperCAmelCase = state_dict.pop(F"""blocks.{i}.attn.qkv.weight""" )
_UpperCAmelCase = state_dict.pop(F"""blocks.{i}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
_UpperCAmelCase = in_proj_weight[
: config.hidden_size, :
]
_UpperCAmelCase = in_proj_bias[: config.hidden_size]
_UpperCAmelCase = in_proj_weight[
config.hidden_size : config.hidden_size * 2, :
]
_UpperCAmelCase = in_proj_bias[
config.hidden_size : config.hidden_size * 2
]
_UpperCAmelCase = in_proj_weight[
-config.hidden_size :, :
]
_UpperCAmelCase = in_proj_bias[-config.hidden_size :]
def __A ( __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = ['head.weight', 'head.bias']
for k in ignore_keys:
state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> int:
"""simple docstring"""
_UpperCAmelCase = dct.pop(__lowerCAmelCase )
_UpperCAmelCase = val
def __A ( )-> str:
"""simple docstring"""
_UpperCAmelCase = 'http://images.cocodataset.org/val2017/000000039769.jpg'
_UpperCAmelCase = Image.open(requests.get(__lowerCAmelCase , stream=__lowerCAmelCase ).raw )
return im
@torch.no_grad()
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=True )-> List[str]:
"""simple docstring"""
_UpperCAmelCase = ViTConfig()
# patch_size
if model_name[-1] == "8":
_UpperCAmelCase = 8
# set labels if required
if not base_model:
_UpperCAmelCase = 1_000
_UpperCAmelCase = 'huggingface/label-files'
_UpperCAmelCase = 'imagenet-1k-id2label.json'
_UpperCAmelCase = json.load(open(hf_hub_download(__lowerCAmelCase , __lowerCAmelCase , repo_type='dataset' ) , 'r' ) )
_UpperCAmelCase = {int(__lowerCAmelCase ): v for k, v in idalabel.items()}
_UpperCAmelCase = idalabel
_UpperCAmelCase = {v: k for k, v in idalabel.items()}
# size of the architecture
if model_name in ["dino_vits8", "dino_vits16"]:
_UpperCAmelCase = 384
_UpperCAmelCase = 1_536
_UpperCAmelCase = 12
_UpperCAmelCase = 6
# load original model from torch hub
_UpperCAmelCase = torch.hub.load('facebookresearch/dino:main' , __lowerCAmelCase )
original_model.eval()
# load state_dict of original model, remove and rename some keys
_UpperCAmelCase = original_model.state_dict()
if base_model:
remove_classification_head_(__lowerCAmelCase )
_UpperCAmelCase = create_rename_keys(__lowerCAmelCase , base_model=__lowerCAmelCase )
for src, dest in rename_keys:
rename_key(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
read_in_q_k_v(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
# load HuggingFace model
if base_model:
_UpperCAmelCase = ViTModel(__lowerCAmelCase , add_pooling_layer=__lowerCAmelCase ).eval()
else:
_UpperCAmelCase = ViTForImageClassification(__lowerCAmelCase ).eval()
model.load_state_dict(__lowerCAmelCase )
# Check outputs on an image, prepared by ViTImageProcessor
_UpperCAmelCase = ViTImageProcessor()
_UpperCAmelCase = image_processor(images=prepare_img() , return_tensors='pt' )
_UpperCAmelCase = encoding['pixel_values']
_UpperCAmelCase = model(__lowerCAmelCase )
if base_model:
_UpperCAmelCase = original_model(__lowerCAmelCase )
assert torch.allclose(__lowerCAmelCase , outputs.last_hidden_state[:, 0, :] , atol=1E-1 )
else:
_UpperCAmelCase = original_model(__lowerCAmelCase )
assert logits.shape == outputs.logits.shape
assert torch.allclose(__lowerCAmelCase , outputs.logits , atol=1E-3 )
Path(__lowerCAmelCase ).mkdir(exist_ok=__lowerCAmelCase )
print(F"""Saving model {model_name} to {pytorch_dump_folder_path}""" )
model.save_pretrained(__lowerCAmelCase )
print(F"""Saving image processor to {pytorch_dump_folder_path}""" )
image_processor.save_pretrained(__lowerCAmelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--model_name''',
default='''dino_vitb16''',
type=str,
help='''Name of the model trained with DINO 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(
'''--base_model''',
action='''store_true''',
help='''Whether to only convert the base model (no projection head weights).''',
)
parser.set_defaults(base_model=True)
_a = parser.parse_args()
convert_vit_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.base_model)
| 39
| 1
|
import coval # From: git+https://github.com/ns-moosavi/coval.git # noqa: F401
from coval.conll import reader, util
from coval.eval import evaluator
import datasets
_a = datasets.logging.get_logger(__name__)
_a = '''\
@InProceedings{moosavi2019minimum,
author = { Nafise Sadat Moosavi, Leo Born, Massimo Poesio and Michael Strube},
title = {Using Automatically Extracted Minimum Spans to Disentangle Coreference Evaluation from Boundary Detection},
year = {2019},
booktitle = {Proceedings of the 57th Annual Meeting of
the Association for Computational Linguistics (Volume 1: Long Papers)},
publisher = {Association for Computational Linguistics},
address = {Florence, Italy},
}
@inproceedings{10.3115/1072399.1072405,
author = {Vilain, Marc and Burger, John and Aberdeen, John and Connolly, Dennis and Hirschman, Lynette},
title = {A Model-Theoretic Coreference Scoring Scheme},
year = {1995},
isbn = {1558604022},
publisher = {Association for Computational Linguistics},
address = {USA},
url = {https://doi.org/10.3115/1072399.1072405},
doi = {10.3115/1072399.1072405},
booktitle = {Proceedings of the 6th Conference on Message Understanding},
pages = {45–52},
numpages = {8},
location = {Columbia, Maryland},
series = {MUC6 ’95}
}
@INPROCEEDINGS{Bagga98algorithmsfor,
author = {Amit Bagga and Breck Baldwin},
title = {Algorithms for Scoring Coreference Chains},
booktitle = {In The First International Conference on Language Resources and Evaluation Workshop on Linguistics Coreference},
year = {1998},
pages = {563--566}
}
@INPROCEEDINGS{Luo05oncoreference,
author = {Xiaoqiang Luo},
title = {On coreference resolution performance metrics},
booktitle = {In Proc. of HLT/EMNLP},
year = {2005},
pages = {25--32},
publisher = {URL}
}
@inproceedings{moosavi-strube-2016-coreference,
title = "Which Coreference Evaluation Metric Do You Trust? A Proposal for a Link-based Entity Aware Metric",
author = "Moosavi, Nafise Sadat and
Strube, Michael",
booktitle = "Proceedings of the 54th Annual Meeting of the Association for Computational Linguistics (Volume 1: Long Papers)",
month = aug,
year = "2016",
address = "Berlin, Germany",
publisher = "Association for Computational Linguistics",
url = "https://www.aclweb.org/anthology/P16-1060",
doi = "10.18653/v1/P16-1060",
pages = "632--642",
}
'''
_a = '''\
CoVal is a coreference evaluation tool for the CoNLL and ARRAU datasets which
implements of the common evaluation metrics including MUC [Vilain et al, 1995],
B-cubed [Bagga and Baldwin, 1998], CEAFe [Luo et al., 2005],
LEA [Moosavi and Strube, 2016] and the averaged CoNLL score
(the average of the F1 values of MUC, B-cubed and CEAFe)
[Denis and Baldridge, 2009a; Pradhan et al., 2011].
This wrapper of CoVal currently only work with CoNLL line format:
The CoNLL format has one word per line with all the annotation for this word in column separated by spaces:
Column Type Description
1 Document ID This is a variation on the document filename
2 Part number Some files are divided into multiple parts numbered as 000, 001, 002, ... etc.
3 Word number
4 Word itself This is the token as segmented/tokenized in the Treebank. Initially the *_skel file contain the placeholder [WORD] which gets replaced by the actual token from the Treebank which is part of the OntoNotes release.
5 Part-of-Speech
6 Parse bit This is the bracketed structure broken before the first open parenthesis in the parse, and the word/part-of-speech leaf replaced with a *. The full parse can be created by substituting the asterix with the "([pos] [word])" string (or leaf) and concatenating the items in the rows of that column.
7 Predicate lemma The predicate lemma is mentioned for the rows for which we have semantic role information. All other rows are marked with a "-"
8 Predicate Frameset ID This is the PropBank frameset ID of the predicate in Column 7.
9 Word sense This is the word sense of the word in Column 3.
10 Speaker/Author This is the speaker or author name where available. Mostly in Broadcast Conversation and Web Log data.
11 Named Entities These columns identifies the spans representing various named entities.
12:N Predicate Arguments There is one column each of predicate argument structure information for the predicate mentioned in Column 7.
N Coreference Coreference chain information encoded in a parenthesis structure.
More informations on the format can be found here (section "*_conll File Format"): http://www.conll.cemantix.org/2012/data.html
Details on the evaluation on CoNLL can be found here: https://github.com/ns-moosavi/coval/blob/master/conll/README.md
CoVal code was written by @ns-moosavi.
Some parts are borrowed from https://github.com/clarkkev/deep-coref/blob/master/evaluation.py
The test suite is taken from https://github.com/conll/reference-coreference-scorers/
Mention evaluation and the test suite are added by @andreasvc.
Parsing CoNLL files is developed by Leo Born.
'''
_a = '''
Calculates coreference evaluation metrics.
Args:
predictions: list of sentences. Each sentence is a list of word predictions to score in the CoNLL format.
Each prediction is a word with its annotations as a string made of columns joined with spaces.
Only columns 4, 5, 6 and the last column are used (word, POS, Pars and coreference annotation)
See the details on the format in the description of the metric.
references: list of sentences. Each sentence is a list of word reference to score in the CoNLL format.
Each reference is a word with its annotations as a string made of columns joined with spaces.
Only columns 4, 5, 6 and the last column are used (word, POS, Pars and coreference annotation)
See the details on the format in the description of the metric.
keep_singletons: After extracting all mentions of key or system files,
mentions whose corresponding coreference chain is of size one,
are considered as singletons. The default evaluation mode will include
singletons in evaluations if they are included in the key or the system files.
By setting \'keep_singletons=False\', all singletons in the key and system files
will be excluded from the evaluation.
NP_only: Most of the recent coreference resolvers only resolve NP mentions and
leave out the resolution of VPs. By setting the \'NP_only\' option, the scorer will only evaluate the resolution of NPs.
min_span: By setting \'min_span\', the scorer reports the results based on automatically detected minimum spans.
Minimum spans are determined using the MINA algorithm.
Returns:
\'mentions\': mentions
\'muc\': MUC metric [Vilain et al, 1995]
\'bcub\': B-cubed [Bagga and Baldwin, 1998]
\'ceafe\': CEAFe [Luo et al., 2005]
\'lea\': LEA [Moosavi and Strube, 2016]
\'conll_score\': averaged CoNLL score (the average of the F1 values of MUC, B-cubed and CEAFe)
Examples:
>>> coval = datasets.load_metric(\'coval\')
>>> words = [\'bc/cctv/00/cctv_0005 0 0 Thank VBP (TOP(S(VP* thank 01 1 Xu_li * (V*) * -\',
... \'bc/cctv/00/cctv_0005 0 1 you PRP (NP*) - - - Xu_li * (ARG1*) (ARG0*) (116)\',
... \'bc/cctv/00/cctv_0005 0 2 everyone NN (NP*) - - - Xu_li * (ARGM-DIS*) * (116)\',
... \'bc/cctv/00/cctv_0005 0 3 for IN (PP* - - - Xu_li * (ARG2* * -\',
... \'bc/cctv/00/cctv_0005 0 4 watching VBG (S(VP*)))) watch 01 1 Xu_li * *) (V*) -\',
... \'bc/cctv/00/cctv_0005 0 5 . . *)) - - - Xu_li * * * -\']
>>> references = [words]
>>> predictions = [words]
>>> results = coval.compute(predictions=predictions, references=references)
>>> print(results) # doctest:+ELLIPSIS
{\'mentions/recall\': 1.0,[...] \'conll_score\': 100.0}
'''
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase=False , __lowerCAmelCase=False , __lowerCAmelCase=True , __lowerCAmelCase=False , __lowerCAmelCase="dummy_doc" )-> int:
"""simple docstring"""
_UpperCAmelCase = {doc: key_lines}
_UpperCAmelCase = {doc: sys_lines}
_UpperCAmelCase = {}
_UpperCAmelCase = 0
_UpperCAmelCase = 0
_UpperCAmelCase = 0
_UpperCAmelCase = 0
_UpperCAmelCase = 0
_UpperCAmelCase = 0
_UpperCAmelCase , _UpperCAmelCase = reader.get_doc_mentions(__lowerCAmelCase , key_doc_lines[doc] , __lowerCAmelCase )
key_singletons_num += singletons_num
if NP_only or min_span:
_UpperCAmelCase = reader.set_annotated_parse_trees(__lowerCAmelCase , key_doc_lines[doc] , __lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = reader.get_doc_mentions(__lowerCAmelCase , sys_doc_lines[doc] , __lowerCAmelCase )
sys_singletons_num += singletons_num
if NP_only or min_span:
_UpperCAmelCase = reader.set_annotated_parse_trees(__lowerCAmelCase , key_doc_lines[doc] , __lowerCAmelCase , __lowerCAmelCase )
if remove_nested:
_UpperCAmelCase , _UpperCAmelCase = reader.remove_nested_coref_mentions(__lowerCAmelCase , __lowerCAmelCase )
key_nested_coref_num += nested_mentions
key_removed_nested_clusters += removed_clusters
_UpperCAmelCase , _UpperCAmelCase = reader.remove_nested_coref_mentions(__lowerCAmelCase , __lowerCAmelCase )
sys_nested_coref_num += nested_mentions
sys_removed_nested_clusters += removed_clusters
_UpperCAmelCase = reader.get_mention_assignments(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = reader.get_mention_assignments(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = (key_clusters, sys_clusters, key_mention_sys_cluster, sys_mention_key_cluster)
if remove_nested:
logger.info(
'Number of removed nested coreferring mentions in the key '
F"""annotation: {key_nested_coref_num}; and system annotation: {sys_nested_coref_num}""" )
logger.info(
'Number of resulting singleton clusters in the key '
F"""annotation: {key_removed_nested_clusters}; and system annotation: {sys_removed_nested_clusters}""" )
if not keep_singletons:
logger.info(
F"""{key_singletons_num:d} and {sys_singletons_num:d} singletons are removed from the key and system """
'files, respectively' )
return doc_coref_infos
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = get_coref_infos(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = {}
_UpperCAmelCase = 0
_UpperCAmelCase = 0
for name, metric in metrics:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = evaluator.evaluate_documents(__lowerCAmelCase , __lowerCAmelCase , beta=1 )
if name in ["muc", "bcub", "ceafe"]:
conll += fa
conll_subparts_num += 1
output_scores.update({F"""{name}/recall""": recall, F"""{name}/precision""": precision, F"""{name}/f1""": fa} )
logger.info(
name.ljust(10 ) , F"""Recall: {recall * 100:.2f}""" , F""" Precision: {precision * 100:.2f}""" , F""" F1: {fa * 100:.2f}""" , )
if conll_subparts_num == 3:
_UpperCAmelCase = (conll / 3) * 100
logger.info(F"""CoNLL score: {conll:.2f}""" )
output_scores.update({'conll_score': conll} )
return output_scores
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = False
for line in key_lines:
if not line.startswith('#' ):
if len(line.split() ) > 6:
_UpperCAmelCase = line.split()[5]
if not parse_col == "-":
_UpperCAmelCase = True
break
else:
break
return has_gold_parse
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION)
class __lowerCamelCase ( datasets.Metric):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
'predictions': datasets.Sequence(datasets.Value('string' ) ),
'references': datasets.Sequence(datasets.Value('string' ) ),
} ) , codebase_urls=['https://github.com/ns-moosavi/coval'] , reference_urls=[
'https://github.com/ns-moosavi/coval',
'https://www.aclweb.org/anthology/P16-1060',
'http://www.conll.cemantix.org/2012/data.html',
] , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=True , UpperCAmelCase=False , UpperCAmelCase=False , UpperCAmelCase=False ):
"""simple docstring"""
_UpperCAmelCase = [
('mentions', evaluator.mentions),
('muc', evaluator.muc),
('bcub', evaluator.b_cubed),
('ceafe', evaluator.ceafe),
('lea', evaluator.lea),
]
if min_span:
_UpperCAmelCase = util.check_gold_parse_annotation(UpperCAmelCase )
if not has_gold_parse:
raise NotImplementedError('References should have gold parse annotation to use \'min_span\'.' )
# util.parse_key_file(key_file)
# key_file = key_file + ".parsed"
_UpperCAmelCase = evaluate(
key_lines=UpperCAmelCase , sys_lines=UpperCAmelCase , metrics=UpperCAmelCase , NP_only=UpperCAmelCase , remove_nested=UpperCAmelCase , keep_singletons=UpperCAmelCase , min_span=UpperCAmelCase , )
return score
| 39
|
import unittest
import torch
from torch import nn
from accelerate.test_utils import require_cuda
from accelerate.utils.memory import find_executable_batch_size, release_memory
def __A ( )-> Tuple:
"""simple docstring"""
raise RuntimeError('CUDA out of memory.' )
class __lowerCamelCase ( nn.Module):
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
super().__init__()
_UpperCAmelCase = nn.Linear(3 , 4 )
_UpperCAmelCase = nn.BatchNormad(4 )
_UpperCAmelCase = nn.Linear(4 , 5 )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return self.lineara(self.batchnorm(self.lineara(UpperCAmelCase ) ) )
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase ):
nonlocal batch_sizes
batch_sizes.append(UpperCAmelCase )
if batch_size != 8:
raise_fake_out_of_memory()
mock_training_loop_function()
self.assertListEqual(UpperCAmelCase , [128, 64, 32, 16, 8] )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = []
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase , UpperCAmelCase ):
nonlocal batch_sizes
batch_sizes.append(UpperCAmelCase )
if batch_size != 8:
raise_fake_out_of_memory()
return batch_size, arga
_UpperCAmelCase , _UpperCAmelCase = mock_training_loop_function('hello' )
self.assertListEqual(UpperCAmelCase , [128, 64, 32, 16, 8] )
self.assertListEqual([bs, arga] , [8, 'hello'] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=0 )
def mock_training_loop_function(UpperCAmelCase ):
pass
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('No executable batch size found, reached zero.' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=16 )
def mock_training_loop_function(UpperCAmelCase ):
if batch_size > 0:
raise_fake_out_of_memory()
pass
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('No executable batch size found, reached zero.' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=128 )
def mock_training_loop_function(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
if batch_size != 8:
raise raise_fake_out_of_memory()
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function(128 , 'hello' , 'world' )
self.assertIn('Batch size was passed into `f`' , cm.exception.args[0] )
self.assertIn('`f(arg1=\'hello\', arg2=\'world\')' , cm.exception.args[0] )
def UpperCamelCase ( self ):
"""simple docstring"""
@find_executable_batch_size(starting_batch_size=16 )
def mock_training_loop_function(UpperCAmelCase ):
raise ValueError('Oops, we had an error!' )
with self.assertRaises(UpperCAmelCase ) as cm:
mock_training_loop_function()
self.assertIn('Oops, we had an error!' , cm.exception.args[0] )
@require_cuda
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = torch.cuda.memory_allocated()
_UpperCAmelCase = ModelForTest()
model.cuda()
self.assertGreater(torch.cuda.memory_allocated() , UpperCAmelCase )
_UpperCAmelCase = release_memory(UpperCAmelCase )
self.assertEqual(torch.cuda.memory_allocated() , UpperCAmelCase )
| 39
| 1
|
import logging
import math
from functools import partial
from typing import Any, Callable, Dict, Iterable, List, Optional, Sequence, Tuple, Union
import torch
from .tensor_utils import tensor_tree_map, tree_map
def __A ( __lowerCAmelCase )-> List[Tuple[int, ...]]:
"""simple docstring"""
_UpperCAmelCase = []
if isinstance(__lowerCAmelCase , __lowerCAmelCase ):
for v in tree.values():
shapes.extend(_fetch_dims(__lowerCAmelCase ) )
elif isinstance(__lowerCAmelCase , (list, tuple) ):
for t in tree:
shapes.extend(_fetch_dims(__lowerCAmelCase ) )
elif isinstance(__lowerCAmelCase , torch.Tensor ):
shapes.append(tree.shape )
else:
raise ValueError('Not supported' )
return shapes
@torch.jit.ignore
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Tuple[int, ...]:
"""simple docstring"""
_UpperCAmelCase = []
for d in reversed(__lowerCAmelCase ):
idx.append(flat_idx % d )
_UpperCAmelCase = flat_idx // d
return tuple(reversed(__lowerCAmelCase ) )
@torch.jit.ignore
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase = None , __lowerCAmelCase = None , )-> List[Tuple[slice, ...]]:
"""simple docstring"""
def reduce_edge_list(__lowerCAmelCase ) -> None:
_UpperCAmelCase = True
for i in range(len(__lowerCAmelCase ) ):
_UpperCAmelCase = -1 * (i + 1)
l[reversed_idx] &= tally
_UpperCAmelCase = l[reversed_idx]
if start_edges is None:
_UpperCAmelCase = [s == 0 for s in start]
reduce_edge_list(__lowerCAmelCase )
if end_edges is None:
_UpperCAmelCase = [e == (d - 1) for e, d in zip(__lowerCAmelCase , __lowerCAmelCase )]
reduce_edge_list(__lowerCAmelCase )
# Base cases. Either start/end are empty and we're done, or the final,
# one-dimensional tensor can be simply sliced
if len(__lowerCAmelCase ) == 0:
return [()]
elif len(__lowerCAmelCase ) == 1:
return [(slice(start[0] , end[0] + 1 ),)]
_UpperCAmelCase = []
_UpperCAmelCase = []
# Dimensions common to start and end can be selected directly
for s, e in zip(__lowerCAmelCase , __lowerCAmelCase ):
if s == e:
path_list.append(slice(__lowerCAmelCase , s + 1 ) )
else:
break
_UpperCAmelCase = tuple(__lowerCAmelCase )
_UpperCAmelCase = len(__lowerCAmelCase )
# start == end, and we're done
if divergence_idx == len(__lowerCAmelCase ):
return [path]
def upper() -> Tuple[Tuple[slice, ...], ...]:
assert start_edges is not None
assert end_edges is not None
_UpperCAmelCase = start[divergence_idx]
return tuple(
path + (slice(__lowerCAmelCase , sdi + 1 ),) + s
for s in _get_minimal_slice_set(
start[divergence_idx + 1 :] , [d - 1 for d in dims[divergence_idx + 1 :]] , dims[divergence_idx + 1 :] , start_edges=start_edges[divergence_idx + 1 :] , end_edges=[True for _ in end_edges[divergence_idx + 1 :]] , ) )
def lower() -> Tuple[Tuple[slice, ...], ...]:
assert start_edges is not None
assert end_edges is not None
_UpperCAmelCase = end[divergence_idx]
return tuple(
path + (slice(__lowerCAmelCase , edi + 1 ),) + s
for s in _get_minimal_slice_set(
[0 for _ in start[divergence_idx + 1 :]] , end[divergence_idx + 1 :] , dims[divergence_idx + 1 :] , start_edges=[True for _ in start_edges[divergence_idx + 1 :]] , end_edges=end_edges[divergence_idx + 1 :] , ) )
# If both start and end are at the edges of the subtree rooted at
# divergence_idx, we can just select the whole subtree at once
if start_edges[divergence_idx] and end_edges[divergence_idx]:
slices.append(path + (slice(start[divergence_idx] , end[divergence_idx] + 1 ),) )
# If just start is at the edge, we can grab almost all of the subtree,
# treating only the ragged bottom edge as an edge case
elif start_edges[divergence_idx]:
slices.append(path + (slice(start[divergence_idx] , end[divergence_idx] ),) )
slices.extend(lower() )
# Analogous to the previous case, but the top is ragged this time
elif end_edges[divergence_idx]:
slices.extend(upper() )
slices.append(path + (slice(start[divergence_idx] + 1 , end[divergence_idx] + 1 ),) )
# If both sides of the range are ragged, we need to handle both sides
# separately. If there's contiguous meat in between them, we can index it
# in one big chunk
else:
slices.extend(upper() )
_UpperCAmelCase = end[divergence_idx] - start[divergence_idx]
if middle_ground > 1:
slices.append(path + (slice(start[divergence_idx] + 1 , end[divergence_idx] ),) )
slices.extend(lower() )
return slices
@torch.jit.ignore
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> torch.Tensor:
"""simple docstring"""
_UpperCAmelCase = t.shape[:no_batch_dims]
_UpperCAmelCase = list(_flat_idx_to_idx(__lowerCAmelCase , __lowerCAmelCase ) )
# _get_minimal_slice_set is inclusive
_UpperCAmelCase = list(_flat_idx_to_idx(flat_end - 1 , __lowerCAmelCase ) )
# Get an ordered list of slices to perform
_UpperCAmelCase = _get_minimal_slice_set(
__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , )
_UpperCAmelCase = [t[s] for s in slices]
return torch.cat([s.view((-1,) + t.shape[no_batch_dims:] ) for s in sliced_tensors] )
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase = False , __lowerCAmelCase = None , __lowerCAmelCase = False , )-> Any:
"""simple docstring"""
if not (len(__lowerCAmelCase ) > 0):
raise ValueError('Must provide at least one input' )
_UpperCAmelCase = [shape[:no_batch_dims] for shape in _fetch_dims(__lowerCAmelCase )]
_UpperCAmelCase = tuple([max(__lowerCAmelCase ) for s in zip(*__lowerCAmelCase )] )
def _prep_inputs(__lowerCAmelCase ) -> torch.Tensor:
if not low_mem:
if not sum(t.shape[:no_batch_dims] ) == no_batch_dims:
_UpperCAmelCase = t.expand(orig_batch_dims + t.shape[no_batch_dims:] )
_UpperCAmelCase = t.reshape(-1 , *t.shape[no_batch_dims:] )
else:
_UpperCAmelCase = t.expand(orig_batch_dims + t.shape[no_batch_dims:] )
return t
_UpperCAmelCase = tensor_tree_map(_prep_inputs , __lowerCAmelCase )
_UpperCAmelCase = None
if _out is not None:
_UpperCAmelCase = tensor_tree_map(lambda __lowerCAmelCase : t.view([-1] + list(t.shape[no_batch_dims:] ) ) , _out )
_UpperCAmelCase = 1
for d in orig_batch_dims:
flat_batch_dim *= d
_UpperCAmelCase = flat_batch_dim // chunk_size + (flat_batch_dim % chunk_size != 0)
def _select_chunk(__lowerCAmelCase ) -> torch.Tensor:
return t[i : i + chunk_size] if t.shape[0] != 1 else t
_UpperCAmelCase = 0
_UpperCAmelCase = prepped_outputs
for _ in range(__lowerCAmelCase ):
# Chunk the input
if not low_mem:
_UpperCAmelCase = _select_chunk
else:
_UpperCAmelCase = partial(
_chunk_slice , flat_start=__lowerCAmelCase , flat_end=min(__lowerCAmelCase , i + chunk_size ) , no_batch_dims=len(__lowerCAmelCase ) , )
_UpperCAmelCase = tensor_tree_map(__lowerCAmelCase , __lowerCAmelCase )
# Run the layer on the chunk
_UpperCAmelCase = layer(**__lowerCAmelCase )
# Allocate space for the output
if out is None:
_UpperCAmelCase = tensor_tree_map(lambda __lowerCAmelCase : t.new_zeros((flat_batch_dim,) + t.shape[1:] ) , __lowerCAmelCase )
# Put the chunk in its pre-allocated space
if isinstance(__lowerCAmelCase , __lowerCAmelCase ):
def assign(__lowerCAmelCase , __lowerCAmelCase ) -> None:
for k, v in da.items():
if isinstance(__lowerCAmelCase , __lowerCAmelCase ):
assign(__lowerCAmelCase , da[k] )
else:
if _add_into_out:
v[i : i + chunk_size] += da[k]
else:
_UpperCAmelCase = da[k]
assign(__lowerCAmelCase , __lowerCAmelCase )
elif isinstance(__lowerCAmelCase , __lowerCAmelCase ):
for xa, xa in zip(__lowerCAmelCase , __lowerCAmelCase ):
if _add_into_out:
xa[i : i + chunk_size] += xa
else:
_UpperCAmelCase = xa
elif isinstance(__lowerCAmelCase , torch.Tensor ):
if _add_into_out:
out[i : i + chunk_size] += output_chunk
else:
_UpperCAmelCase = output_chunk
else:
raise ValueError('Not supported' )
i += chunk_size
_UpperCAmelCase = tensor_tree_map(lambda __lowerCAmelCase : t.view(orig_batch_dims + t.shape[1:] ) , __lowerCAmelCase )
return out
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase = 512 , ):
"""simple docstring"""
_UpperCAmelCase = max_chunk_size
_UpperCAmelCase = None
_UpperCAmelCase = None
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
logging.info('Tuning chunk size...' )
if min_chunk_size >= self.max_chunk_size:
return min_chunk_size
_UpperCAmelCase = [2**l for l in range(int(math.log(self.max_chunk_size , 2 ) ) + 1 )]
_UpperCAmelCase = [c for c in candidates if c > min_chunk_size]
_UpperCAmelCase = [min_chunk_size] + candidates
candidates[-1] += 4
def test_chunk_size(UpperCAmelCase ) -> bool:
try:
with torch.no_grad():
fn(*UpperCAmelCase , chunk_size=UpperCAmelCase )
return True
except RuntimeError:
return False
_UpperCAmelCase = 0
_UpperCAmelCase = len(UpperCAmelCase ) - 1
while i > min_viable_chunk_size_index:
_UpperCAmelCase = test_chunk_size(candidates[i] )
if not viable:
_UpperCAmelCase = (min_viable_chunk_size_index + i) // 2
else:
_UpperCAmelCase = i
_UpperCAmelCase = (i + len(UpperCAmelCase ) - 1) // 2
return candidates[min_viable_chunk_size_index]
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = True
for aa, aa in zip(UpperCAmelCase , UpperCAmelCase ):
assert type(UpperCAmelCase ) == type(UpperCAmelCase )
if isinstance(UpperCAmelCase , (list, tuple) ):
consistent &= self._compare_arg_caches(UpperCAmelCase , UpperCAmelCase )
elif isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = [v for _, v in sorted(aa.items() , key=lambda UpperCAmelCase : x[0] )]
_UpperCAmelCase = [v for _, v in sorted(aa.items() , key=lambda UpperCAmelCase : x[0] )]
consistent &= self._compare_arg_caches(UpperCAmelCase , UpperCAmelCase )
else:
consistent &= aa == aa
return consistent
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = True
_UpperCAmelCase = tree_map(lambda UpperCAmelCase : a.shape if isinstance(UpperCAmelCase , torch.Tensor ) else a , UpperCAmelCase , UpperCAmelCase )
if self.cached_arg_data is not None:
# If args have changed shape/value, we need to re-tune
assert len(self.cached_arg_data ) == len(UpperCAmelCase )
_UpperCAmelCase = self._compare_arg_caches(self.cached_arg_data , UpperCAmelCase )
else:
# Otherwise, we can reuse the precomputed value
_UpperCAmelCase = False
if not consistent:
_UpperCAmelCase = self._determine_favorable_chunk_size(
UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , )
_UpperCAmelCase = arg_data
assert self.cached_chunk_size is not None
return self.cached_chunk_size
| 39
|
from __future__ import annotations
import inspect
import unittest
import numpy as np
from transformers import ResNetConfig
from transformers.testing_utils import require_tf, require_vision, slow
from transformers.utils import cached_property, is_tf_available, is_vision_available
from ...test_configuration_common import ConfigTester
from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_tf_available():
import tensorflow as tf
from transformers import TFResNetForImageClassification, TFResNetModel
from transformers.models.resnet.modeling_tf_resnet import TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST
if is_vision_available():
from PIL import Image
from transformers import AutoImageProcessor
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=3 , UpperCAmelCase=32 , UpperCAmelCase=3 , UpperCAmelCase=10 , UpperCAmelCase=[10, 20, 30, 40] , UpperCAmelCase=[1, 1, 2, 1] , UpperCAmelCase=True , UpperCAmelCase=True , UpperCAmelCase="relu" , UpperCAmelCase=3 , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = image_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = embeddings_size
_UpperCAmelCase = hidden_sizes
_UpperCAmelCase = depths
_UpperCAmelCase = is_training
_UpperCAmelCase = use_labels
_UpperCAmelCase = hidden_act
_UpperCAmelCase = num_labels
_UpperCAmelCase = scope
_UpperCAmelCase = len(UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
_UpperCAmelCase = None
if self.use_labels:
_UpperCAmelCase = ids_tensor([self.batch_size] , self.num_labels )
_UpperCAmelCase = self.get_config()
return config, pixel_values, labels
def UpperCamelCase ( self ):
"""simple docstring"""
return ResNetConfig(
num_channels=self.num_channels , embeddings_size=self.embeddings_size , hidden_sizes=self.hidden_sizes , depths=self.depths , hidden_act=self.hidden_act , num_labels=self.num_labels , image_size=self.image_size , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = TFResNetModel(config=UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase )
# expected last hidden states: B, C, H // 32, W // 32
self.parent.assertEqual(
result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], self.image_size // 32, self.image_size // 32) , )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.num_labels
_UpperCAmelCase = TFResNetForImageClassification(UpperCAmelCase )
_UpperCAmelCase = model(UpperCAmelCase , labels=UpperCAmelCase )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.prepare_config_and_inputs()
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = config_and_inputs
_UpperCAmelCase = {'pixel_values': pixel_values}
return config, inputs_dict
@require_tf
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = (TFResNetModel, TFResNetForImageClassification) if is_tf_available() else ()
UpperCamelCase__ = (
{"feature-extraction": TFResNetModel, "image-classification": TFResNetForImageClassification}
if is_tf_available()
else {}
)
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
UpperCamelCase__ = False
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFResNetModelTester(self )
_UpperCAmelCase = ConfigTester(self , config_class=UpperCAmelCase , has_text_modality=UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCamelCase ( self ):
"""simple docstring"""
return
@unittest.skip(reason='ResNet does not use inputs_embeds' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
@unittest.skip(reason='ResNet does not support input and output embeddings' )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = inspect.signature(model.call )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
_UpperCAmelCase = [*signature.parameters.keys()]
_UpperCAmelCase = ['pixel_values']
self.assertListEqual(arg_names[:1] , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
def check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = model_class(UpperCAmelCase )
_UpperCAmelCase = model(**self._prepare_for_class(UpperCAmelCase , UpperCAmelCase ) )
_UpperCAmelCase = outputs.encoder_hidden_states if config.is_encoder_decoder else outputs.hidden_states
_UpperCAmelCase = self.model_tester.num_stages
self.assertEqual(len(UpperCAmelCase ) , expected_num_stages + 1 )
# ResNet's feature maps are of shape (batch_size, num_channels, height, width)
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) , [self.model_tester.image_size // 4, self.model_tester.image_size // 4] , )
_UpperCAmelCase , _UpperCAmelCase = self.model_tester.prepare_config_and_inputs_for_common()
_UpperCAmelCase = ['basic', 'bottleneck']
for model_class in self.all_model_classes:
for layer_type in layers_type:
_UpperCAmelCase = layer_type
_UpperCAmelCase = True
check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
_UpperCAmelCase = True
check_hidden_states_output(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*UpperCAmelCase )
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
for model_name in TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
_UpperCAmelCase = TFResNetModel.from_pretrained(UpperCAmelCase )
self.assertIsNotNone(UpperCAmelCase )
def __A ( )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = Image.open('./tests/fixtures/tests_samples/COCO/000000039769.png' )
return image
@require_tf
@require_vision
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
@cached_property
def UpperCamelCase ( self ):
"""simple docstring"""
return (
AutoImageProcessor.from_pretrained(TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[0] )
if is_vision_available()
else None
)
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = TFResNetForImageClassification.from_pretrained(TF_RESNET_PRETRAINED_MODEL_ARCHIVE_LIST[0] )
_UpperCAmelCase = self.default_image_processor
_UpperCAmelCase = prepare_img()
_UpperCAmelCase = image_processor(images=UpperCAmelCase , return_tensors='tf' )
# forward pass
_UpperCAmelCase = model(**UpperCAmelCase )
# verify the logits
_UpperCAmelCase = tf.TensorShape((1, 1000) )
self.assertEqual(outputs.logits.shape , UpperCAmelCase )
_UpperCAmelCase = tf.constant([-11.10_69, -9.78_77, -8.37_77] )
self.assertTrue(np.allclose(outputs.logits[0, :3].numpy() , UpperCAmelCase , atol=1e-4 ) )
| 39
| 1
|
import gc
import random
import unittest
import numpy as np
import torch
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTextModelWithProjection, CLIPTokenizer
from diffusers import (
AutoencoderKL,
DiffusionPipeline,
EulerDiscreteScheduler,
StableDiffusionXLImgaImgPipeline,
UNetaDConditionModel,
)
from diffusers.utils import floats_tensor, 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_VARIATION_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class __lowerCamelCase ( snake_case__ , snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = StableDiffusionXLImgaImgPipeline
UpperCamelCase__ = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {"height", "width"}
UpperCamelCase__ = PipelineTesterMixin.required_optional_params - {"latents"}
UpperCamelCase__ = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCamelCase__ = IMAGE_TO_IMAGE_IMAGE_PARAMS
UpperCamelCase__ = IMAGE_TO_IMAGE_IMAGE_PARAMS
def UpperCamelCase ( self ):
"""simple docstring"""
torch.manual_seed(0 )
_UpperCAmelCase = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('DownBlock2D', 'CrossAttnDownBlock2D') , up_block_types=('CrossAttnUpBlock2D', 'UpBlock2D') , attention_head_dim=(2, 4) , use_linear_projection=UpperCAmelCase , addition_embed_type='text_time' , addition_time_embed_dim=8 , transformer_layers_per_block=(1, 2) , projection_class_embeddings_input_dim=80 , cross_attention_dim=64 , )
_UpperCAmelCase = EulerDiscreteScheduler(
beta_start=0.0_00_85 , beta_end=0.0_12 , steps_offset=1 , beta_schedule='scaled_linear' , timestep_spacing='leading' , )
torch.manual_seed(0 )
_UpperCAmelCase = 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 , sample_size=128 , )
torch.manual_seed(0 )
_UpperCAmelCase = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , hidden_act='gelu' , projection_dim=32 , )
_UpperCAmelCase = CLIPTextModel(UpperCAmelCase )
_UpperCAmelCase = CLIPTokenizer.from_pretrained('hf-internal-testing/tiny-random-clip' , local_files_only=UpperCAmelCase )
_UpperCAmelCase = CLIPTextModelWithProjection(UpperCAmelCase )
_UpperCAmelCase = CLIPTokenizer.from_pretrained('hf-internal-testing/tiny-random-clip' , local_files_only=UpperCAmelCase )
_UpperCAmelCase = {
'unet': unet,
'scheduler': scheduler,
'vae': vae,
'text_encoder': text_encoder,
'tokenizer': tokenizer,
'text_encoder_2': text_encoder_a,
'tokenizer_2': tokenizer_a,
# "safety_checker": None,
# "feature_extractor": None,
}
return components
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=0 ):
"""simple docstring"""
_UpperCAmelCase = floats_tensor((1, 3, 32, 32) , rng=random.Random(UpperCAmelCase ) ).to(UpperCAmelCase )
_UpperCAmelCase = image / 2 + 0.5
if str(UpperCAmelCase ).startswith('mps' ):
_UpperCAmelCase = torch.manual_seed(UpperCAmelCase )
else:
_UpperCAmelCase = torch.Generator(device=UpperCAmelCase ).manual_seed(UpperCAmelCase )
_UpperCAmelCase = {
'prompt': 'A painting of a squirrel eating a burger',
'image': image,
'generator': generator,
'num_inference_steps': 2,
'guidance_scale': 5.0,
'output_type': 'numpy',
'strength': 0.75,
}
return inputs
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = 'cpu' # ensure determinism for the device-dependent torch.Generator
_UpperCAmelCase = self.get_dummy_components()
_UpperCAmelCase = StableDiffusionXLImgaImgPipeline(**UpperCAmelCase )
_UpperCAmelCase = sd_pipe.to(UpperCAmelCase )
sd_pipe.set_progress_bar_config(disable=UpperCAmelCase )
_UpperCAmelCase = self.get_dummy_inputs(UpperCAmelCase )
_UpperCAmelCase = sd_pipe(**UpperCAmelCase ).images
_UpperCAmelCase = image[0, -3:, -3:, -1]
assert image.shape == (1, 32, 32, 3)
_UpperCAmelCase = np.array([0.46_56, 0.48_40, 0.44_39, 0.66_98, 0.55_74, 0.45_24, 0.57_99, 0.59_43, 0.51_65] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2
def UpperCamelCase ( self ):
"""simple docstring"""
super().test_attention_slicing_forward_pass(expected_max_diff=3e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
super().test_inference_batch_single_identical(expected_max_diff=3e-3 )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.get_dummy_components()
_UpperCAmelCase = StableDiffusionXLImgaImgPipeline(**UpperCAmelCase )
_UpperCAmelCase = sd_pipe.to(UpperCAmelCase )
_UpperCAmelCase = sd_pipe.to(UpperCAmelCase )
sd_pipe.set_progress_bar_config(disable=UpperCAmelCase )
# forward without prompt embeds
_UpperCAmelCase = self.get_dummy_inputs(UpperCAmelCase )
_UpperCAmelCase = 3 * ['this is a negative prompt']
_UpperCAmelCase = negative_prompt
_UpperCAmelCase = 3 * [inputs['prompt']]
_UpperCAmelCase = sd_pipe(**UpperCAmelCase )
_UpperCAmelCase = output.images[0, -3:, -3:, -1]
# forward with prompt embeds
_UpperCAmelCase = self.get_dummy_inputs(UpperCAmelCase )
_UpperCAmelCase = 3 * ['this is a negative prompt']
_UpperCAmelCase = 3 * [inputs.pop('prompt' )]
(
(
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) , (
_UpperCAmelCase
) ,
) = sd_pipe.encode_prompt(UpperCAmelCase , negative_prompt=UpperCAmelCase )
_UpperCAmelCase = sd_pipe(
**UpperCAmelCase , prompt_embeds=UpperCAmelCase , negative_prompt_embeds=UpperCAmelCase , pooled_prompt_embeds=UpperCAmelCase , negative_pooled_prompt_embeds=UpperCAmelCase , )
_UpperCAmelCase = output.images[0, -3:, -3:, -1]
# make sure that it's equal
assert np.abs(image_slice_a.flatten() - image_slice_a.flatten() ).max() < 1e-4
@slow
@require_torch_gpu
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase="cpu" , UpperCAmelCase=torch.floataa , UpperCAmelCase=0 ):
"""simple docstring"""
_UpperCAmelCase = torch.Generator(device=UpperCAmelCase ).manual_seed(UpperCAmelCase )
_UpperCAmelCase = np.random.RandomState(UpperCAmelCase ).standard_normal((1, 4, 64, 64) )
_UpperCAmelCase = torch.from_numpy(UpperCAmelCase ).to(device=UpperCAmelCase , dtype=UpperCAmelCase )
_UpperCAmelCase = {
'prompt': 'a photograph of an astronaut riding a horse',
'latents': latents,
'generator': generator,
'num_inference_steps': 3,
'guidance_scale': 7.5,
'output_type': 'numpy',
}
return inputs
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = DiffusionPipeline.from_pretrained('stabilityai/stable-diffusion-2-base' )
pipe.to(UpperCAmelCase )
pipe.set_progress_bar_config(disable=UpperCAmelCase )
_UpperCAmelCase = self.get_inputs(UpperCAmelCase )
_UpperCAmelCase = pipe(**UpperCAmelCase ).images
_UpperCAmelCase = image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 512, 512, 3)
_UpperCAmelCase = np.array([0.4_94_93, 0.4_78_96, 0.4_07_98, 0.5_42_14, 0.5_32_12, 0.4_82_02, 0.4_76_56, 0.4_63_29, 0.4_85_06] )
assert np.abs(image_slice - expected_slice ).max() < 7e-3
| 39
|
def __A ( __lowerCAmelCase )-> list:
"""simple docstring"""
if len(__lowerCAmelCase ) < 2:
return collection
def circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) -> bool:
_UpperCAmelCase = False
if low == high:
return swapped
_UpperCAmelCase = low
_UpperCAmelCase = high
while left < right:
if collection[left] > collection[right]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right],
collection[left],
)
_UpperCAmelCase = True
left += 1
right -= 1
if left == right and collection[left] > collection[right + 1]:
_UpperCAmelCase , _UpperCAmelCase = (
collection[right + 1],
collection[left],
)
_UpperCAmelCase = True
_UpperCAmelCase = low + int((high - low) / 2 )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , mid + 1 , __lowerCAmelCase )
return swapped or left_swap or right_swap
_UpperCAmelCase = True
while is_not_sorted is True:
_UpperCAmelCase = circle_sort_util(__lowerCAmelCase , 0 , len(__lowerCAmelCase ) - 1 )
return collection
if __name__ == "__main__":
_a = input('''Enter numbers separated by a comma:\n''').strip()
_a = [int(item) for item in user_input.split(''',''')]
print(circle_sort(unsorted))
| 39
| 1
|
import os
import warnings
from typing import List, Optional
from ...tokenization_utils_base import BatchEncoding
from ...utils import logging
from .configuration_rag import RagConfig
_a = logging.get_logger(__name__)
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = question_encoder
_UpperCAmelCase = generator
_UpperCAmelCase = self.question_encoder
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if os.path.isfile(UpperCAmelCase ):
raise ValueError(F"""Provided path ({save_directory}) should be a directory, not a file""" )
os.makedirs(UpperCAmelCase , exist_ok=UpperCAmelCase )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'question_encoder_tokenizer' )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'generator_tokenizer' )
self.question_encoder.save_pretrained(UpperCAmelCase )
self.generator.save_pretrained(UpperCAmelCase )
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
from ..auto.tokenization_auto import AutoTokenizer
_UpperCAmelCase = kwargs.pop('config' , UpperCAmelCase )
if config is None:
_UpperCAmelCase = RagConfig.from_pretrained(UpperCAmelCase )
_UpperCAmelCase = AutoTokenizer.from_pretrained(
UpperCAmelCase , config=config.question_encoder , subfolder='question_encoder_tokenizer' )
_UpperCAmelCase = AutoTokenizer.from_pretrained(
UpperCAmelCase , config=config.generator , subfolder='generator_tokenizer' )
return cls(question_encoder=UpperCAmelCase , generator=UpperCAmelCase )
def __call__( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.current_tokenizer(*UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.generator.batch_decode(*UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.generator.decode(*UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.question_encoder
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.generator
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = "longest" , UpperCAmelCase = None , UpperCAmelCase = True , **UpperCAmelCase , ):
"""simple docstring"""
warnings.warn(
'`prepare_seq2seq_batch` is deprecated and will be removed in version 5 of 🤗 Transformers. Use the '
'regular `__call__` method to prepare your inputs and the tokenizer under the `with_target_tokenizer` '
'context manager to prepare your targets. See the documentation of your specific tokenizer for more '
'details' , UpperCAmelCase , )
if max_length is None:
_UpperCAmelCase = self.current_tokenizer.model_max_length
_UpperCAmelCase = self(
UpperCAmelCase , add_special_tokens=UpperCAmelCase , return_tensors=UpperCAmelCase , max_length=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , **UpperCAmelCase , )
if tgt_texts is None:
return model_inputs
# Process tgt_texts
if max_target_length is None:
_UpperCAmelCase = self.current_tokenizer.model_max_length
_UpperCAmelCase = self(
text_target=UpperCAmelCase , add_special_tokens=UpperCAmelCase , return_tensors=UpperCAmelCase , padding=UpperCAmelCase , max_length=UpperCAmelCase , truncation=UpperCAmelCase , **UpperCAmelCase , )
_UpperCAmelCase = labels['input_ids']
return model_inputs
| 39
|
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = ["image_processor", "tokenizer"]
UpperCamelCase__ = "Pix2StructImageProcessor"
UpperCamelCase__ = ("T5Tokenizer", "T5TokenizerFast")
def __init__( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = False
super().__init__(UpperCAmelCase , UpperCAmelCase )
def __call__( self , UpperCAmelCase=None , UpperCAmelCase = None , UpperCAmelCase = True , UpperCAmelCase = False , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = 2048 , UpperCAmelCase = 0 , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = False , UpperCAmelCase = True , UpperCAmelCase = None , **UpperCAmelCase , ):
"""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 and not self.image_processor.is_vqa:
_UpperCAmelCase = self.tokenizer
_UpperCAmelCase = self.tokenizer(
text=UpperCAmelCase , add_special_tokens=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , max_length=UpperCAmelCase , stride=UpperCAmelCase , pad_to_multiple_of=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_overflowing_tokens=UpperCAmelCase , return_special_tokens_mask=UpperCAmelCase , return_offsets_mapping=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , return_length=UpperCAmelCase , verbose=UpperCAmelCase , return_tensors=UpperCAmelCase , **UpperCAmelCase , )
return text_encoding
if not self.image_processor.is_vqa:
# add pixel_values
_UpperCAmelCase = self.image_processor(
UpperCAmelCase , return_tensors=UpperCAmelCase , max_patches=UpperCAmelCase , **UpperCAmelCase )
else:
# add pixel_values and bbox
_UpperCAmelCase = self.image_processor(
UpperCAmelCase , return_tensors=UpperCAmelCase , max_patches=UpperCAmelCase , header_text=UpperCAmelCase , **UpperCAmelCase )
if text is not None and not self.image_processor.is_vqa:
_UpperCAmelCase = self.tokenizer(
text=UpperCAmelCase , add_special_tokens=UpperCAmelCase , padding=UpperCAmelCase , truncation=UpperCAmelCase , max_length=UpperCAmelCase , stride=UpperCAmelCase , pad_to_multiple_of=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_overflowing_tokens=UpperCAmelCase , return_special_tokens_mask=UpperCAmelCase , return_offsets_mapping=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , return_length=UpperCAmelCase , verbose=UpperCAmelCase , return_tensors=UpperCAmelCase , **UpperCAmelCase , )
if "attention_mask" in text_encoding:
_UpperCAmelCase = text_encoding.pop('attention_mask' )
if "input_ids" in text_encoding:
_UpperCAmelCase = text_encoding.pop('input_ids' )
else:
_UpperCAmelCase = None
if text_encoding is not None:
encoding_image_processor.update(UpperCAmelCase )
return encoding_image_processor
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.batch_decode(*UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , *UpperCAmelCase , **UpperCAmelCase ):
"""simple docstring"""
return self.tokenizer.decode(*UpperCAmelCase , **UpperCAmelCase )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.tokenizer.model_input_names
_UpperCAmelCase = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )
| 39
| 1
|
from functools import lru_cache
@lru_cache
def __A ( __lowerCAmelCase )-> int:
"""simple docstring"""
if num < 0:
raise ValueError('Number should not be negative.' )
return 1 if num in (0, 1) else num * factorial(num - 1 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase = "" , UpperCAmelCase = False ):
"""simple docstring"""
_UpperCAmelCase = {}
# A node will be a leaf if the tree contains its word
_UpperCAmelCase = is_leaf
_UpperCAmelCase = prefix
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 0
for q, w in zip(self.prefix , UpperCAmelCase ):
if q != w:
break
x += 1
return self.prefix[:x], self.prefix[x:], word[x:]
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
for word in words:
self.insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if self.prefix == word:
_UpperCAmelCase = True
# Case 2: The node has no edges that have a prefix to the word
# Solution: We create an edge from the current node to a new one
# containing the word
elif word[0] not in self.nodes:
_UpperCAmelCase = RadixNode(prefix=UpperCAmelCase , is_leaf=UpperCAmelCase )
else:
_UpperCAmelCase = self.nodes[word[0]]
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# Case 3: The node prefix is equal to the matching
# Solution: We insert remaining word on the next node
if remaining_prefix == "":
self.nodes[matching_string[0]].insert(UpperCAmelCase )
# Case 4: The word is greater equal to the matching
# Solution: Create a node in between both nodes, change
# prefixes and add the new node for the remaining word
else:
_UpperCAmelCase = remaining_prefix
_UpperCAmelCase = self.nodes[matching_string[0]]
_UpperCAmelCase = RadixNode(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = aux_node
if remaining_word == "":
_UpperCAmelCase = True
else:
self.nodes[matching_string[0]].insert(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.nodes.get(word[0] , UpperCAmelCase )
if not incoming_node:
return False
else:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# This applies when the word and the prefix are equal
elif remaining_word == "":
return incoming_node.is_leaf
# We have word remaining so we check the next node
else:
return incoming_node.find(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.nodes.get(word[0] , UpperCAmelCase )
if not incoming_node:
return False
else:
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = incoming_node.match(
UpperCAmelCase )
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# We have word remaining so we check the next node
elif remaining_word != "":
return incoming_node.delete(UpperCAmelCase )
else:
# If it is not a leaf, we don't have to delete
if not incoming_node.is_leaf:
return False
else:
# We delete the nodes if no edges go from it
if len(incoming_node.nodes ) == 0:
del self.nodes[word[0]]
# We merge the current node with its only child
if len(self.nodes ) == 1 and not self.is_leaf:
_UpperCAmelCase = list(self.nodes.values() )[0]
_UpperCAmelCase = merging_node.is_leaf
self.prefix += merging_node.prefix
_UpperCAmelCase = merging_node.nodes
# If there is more than 1 edge, we just mark it as non-leaf
elif len(incoming_node.nodes ) > 1:
_UpperCAmelCase = False
# If there is 1 edge, we merge it with its child
else:
_UpperCAmelCase = list(incoming_node.nodes.values() )[0]
_UpperCAmelCase = merging_node.is_leaf
incoming_node.prefix += merging_node.prefix
_UpperCAmelCase = merging_node.nodes
return True
def UpperCamelCase ( self , UpperCAmelCase = 0 ):
"""simple docstring"""
if self.prefix != "":
print('-' * height , self.prefix , ' (leaf)' if self.is_leaf else '' )
for value in self.nodes.values():
value.print_tree(height + 1 )
def __A ( )-> bool:
"""simple docstring"""
_UpperCAmelCase = 'banana bananas bandana band apple all beast'.split()
_UpperCAmelCase = RadixNode()
root.insert_many(__lowerCAmelCase )
assert all(root.find(__lowerCAmelCase ) for word in words )
assert not root.find('bandanas' )
assert not root.find('apps' )
root.delete('all' )
assert not root.find('all' )
root.delete('banana' )
assert not root.find('banana' )
assert root.find('bananas' )
return True
def __A ( )-> None:
"""simple docstring"""
assert test_trie()
def __A ( )-> None:
"""simple docstring"""
_UpperCAmelCase = RadixNode()
_UpperCAmelCase = 'banana bananas bandanas bandana band apple all beast'.split()
root.insert_many(__lowerCAmelCase )
print('Words:' , __lowerCAmelCase )
print('Tree:' )
root.print_tree()
if __name__ == "__main__":
main()
| 39
| 1
|
from ..utils import (
OptionalDependencyNotAvailable,
is_flax_available,
is_scipy_available,
is_torch_available,
is_torchsde_available,
)
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
from ..utils.dummy_pt_objects import * # noqa F403
else:
from .scheduling_consistency_models import CMStochasticIterativeScheduler
from .scheduling_ddim import DDIMScheduler
from .scheduling_ddim_inverse import DDIMInverseScheduler
from .scheduling_ddim_parallel import DDIMParallelScheduler
from .scheduling_ddpm import DDPMScheduler
from .scheduling_ddpm_parallel import DDPMParallelScheduler
from .scheduling_deis_multistep import DEISMultistepScheduler
from .scheduling_dpmsolver_multistep import DPMSolverMultistepScheduler
from .scheduling_dpmsolver_multistep_inverse import DPMSolverMultistepInverseScheduler
from .scheduling_dpmsolver_singlestep import DPMSolverSinglestepScheduler
from .scheduling_euler_ancestral_discrete import EulerAncestralDiscreteScheduler
from .scheduling_euler_discrete import EulerDiscreteScheduler
from .scheduling_heun_discrete import HeunDiscreteScheduler
from .scheduling_ipndm import IPNDMScheduler
from .scheduling_k_dpm_2_ancestral_discrete import KDPMaAncestralDiscreteScheduler
from .scheduling_k_dpm_2_discrete import KDPMaDiscreteScheduler
from .scheduling_karras_ve import KarrasVeScheduler
from .scheduling_pndm import PNDMScheduler
from .scheduling_repaint import RePaintScheduler
from .scheduling_sde_ve import ScoreSdeVeScheduler
from .scheduling_sde_vp import ScoreSdeVpScheduler
from .scheduling_unclip import UnCLIPScheduler
from .scheduling_unipc_multistep import UniPCMultistepScheduler
from .scheduling_utils import KarrasDiffusionSchedulers, SchedulerMixin
from .scheduling_vq_diffusion import VQDiffusionScheduler
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
from ..utils.dummy_flax_objects import * # noqa F403
else:
from .scheduling_ddim_flax import FlaxDDIMScheduler
from .scheduling_ddpm_flax import FlaxDDPMScheduler
from .scheduling_dpmsolver_multistep_flax import FlaxDPMSolverMultistepScheduler
from .scheduling_karras_ve_flax import FlaxKarrasVeScheduler
from .scheduling_lms_discrete_flax import FlaxLMSDiscreteScheduler
from .scheduling_pndm_flax import FlaxPNDMScheduler
from .scheduling_sde_ve_flax import FlaxScoreSdeVeScheduler
from .scheduling_utils_flax import (
FlaxKarrasDiffusionSchedulers,
FlaxSchedulerMixin,
FlaxSchedulerOutput,
broadcast_to_shape_from_left,
)
try:
if not (is_torch_available() and is_scipy_available()):
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
from ..utils.dummy_torch_and_scipy_objects import * # noqa F403
else:
from .scheduling_lms_discrete import LMSDiscreteScheduler
try:
if not (is_torch_available() and is_torchsde_available()):
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
from ..utils.dummy_torch_and_torchsde_objects import * # noqa F403
else:
from .scheduling_dpmsolver_sde import DPMSolverSDEScheduler
| 39
|
import argparse
import json
import os
import re
import shutil
import torch
from transformers import BioGptConfig, BioGptForCausalLM
from transformers.models.biogpt.tokenization_biogpt import VOCAB_FILES_NAMES
from transformers.tokenization_utils_base import TOKENIZER_CONFIG_FILE
from transformers.utils import WEIGHTS_NAME, logging
logging.set_verbosity_warning()
_a = 2
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , *, # begin keyword-only arguments
UpperCAmelCase="<s>" , UpperCAmelCase="<pad>" , UpperCAmelCase="</s>" , UpperCAmelCase="<unk>" , UpperCAmelCase=None , ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = bos, unk, pad, eos
_UpperCAmelCase = []
_UpperCAmelCase = []
_UpperCAmelCase = {}
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = self.add_symbol(UpperCAmelCase )
if extra_special_symbols:
for s in extra_special_symbols:
self.add_symbol(UpperCAmelCase )
_UpperCAmelCase = len(self.symbols )
def __eq__( self , UpperCAmelCase ):
"""simple docstring"""
return self.indices == other.indices
def __getitem__( self , UpperCAmelCase ):
"""simple docstring"""
if idx < len(self.symbols ):
return self.symbols[idx]
return self.unk_word
def __len__( self ):
"""simple docstring"""
return len(self.symbols )
def __contains__( self , UpperCAmelCase ):
"""simple docstring"""
return sym in self.indices
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = cls()
d.add_from_file(UpperCAmelCase )
return d
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=1 , UpperCAmelCase=False ):
"""simple docstring"""
if word in self.indices and not overwrite:
_UpperCAmelCase = self.indices[word]
_UpperCAmelCase = self.count[idx] + n
return idx
else:
_UpperCAmelCase = len(self.symbols )
_UpperCAmelCase = idx
self.symbols.append(UpperCAmelCase )
self.count.append(UpperCAmelCase )
return idx
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
return 0
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if isinstance(UpperCAmelCase , UpperCAmelCase ):
try:
with open(UpperCAmelCase , 'r' , encoding='utf-8' ) as fd:
self.add_from_file(UpperCAmelCase )
except FileNotFoundError as fnfe:
raise fnfe
except UnicodeError:
raise Exception('Incorrect encoding detected in {}, please rebuild the dataset'.format(UpperCAmelCase ) )
return
_UpperCAmelCase = f.readlines()
_UpperCAmelCase = self._load_meta(UpperCAmelCase )
for line in lines[indices_start_line:]:
try:
_UpperCAmelCase , _UpperCAmelCase = line.rstrip().rsplit(' ' , 1 )
if field == "#fairseq:overwrite":
_UpperCAmelCase = True
_UpperCAmelCase , _UpperCAmelCase = line.rsplit(' ' , 1 )
else:
_UpperCAmelCase = False
_UpperCAmelCase = int(UpperCAmelCase )
_UpperCAmelCase = line
if word in self and not overwrite:
raise RuntimeError(
'Duplicate word found when loading Dictionary: \'{}\'. '
'Duplicate words can overwrite earlier ones by adding the '
'#fairseq:overwrite flag at the end of the corresponding row '
'in the dictionary file. If using the Camembert model, please '
'download an updated copy of the model file.'.format(UpperCAmelCase ) )
self.add_symbol(UpperCAmelCase , n=UpperCAmelCase , overwrite=UpperCAmelCase )
except ValueError:
raise ValueError('Incorrect dictionary format, expected \'<token> <cnt> [flags]\'' )
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
_UpperCAmelCase = dict((re.sub(R'@@$' , '' , __lowerCAmelCase ), v) if k.endswith('@@' ) else (re.sub(R'$' , '</w>' , __lowerCAmelCase ), v) for k, v in d.items() )
_UpperCAmelCase = '<s> <pad> </s> <unk>'.split()
# restore the special tokens
for k in keep_keys:
del da[F"""{k}</w>"""]
_UpperCAmelCase = d[k] # restore
return da
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> str:
"""simple docstring"""
if not os.path.exists(__lowerCAmelCase ):
raise ValueError(F"""path {biogpt_checkpoint_path} does not exist!""" )
os.makedirs(__lowerCAmelCase , exist_ok=__lowerCAmelCase )
print(F"""Writing results to {pytorch_dump_folder_path}""" )
# handle various types of models
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'checkpoint.pt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {checkpoint_file} does not exist!""" )
_UpperCAmelCase = torch.load(__lowerCAmelCase , map_location='cpu' )
_UpperCAmelCase = chkpt['cfg']['model']
# dicts
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'dict.txt' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {dict_file} does not exist!""" )
_UpperCAmelCase = Dictionary.load(__lowerCAmelCase )
_UpperCAmelCase = rewrite_dict_keys(src_dict.indices )
_UpperCAmelCase = len(__lowerCAmelCase )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['vocab_file'] )
print(F"""Generating {src_vocab_file} of {src_vocab_size} records""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# merges_file (bpecodes)
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'bpecodes' )
if not os.path.isfile(__lowerCAmelCase ):
raise ValueError(F"""path to the file {bpecodes_file} does not exist!""" )
_UpperCAmelCase = os.path.join(__lowerCAmelCase , VOCAB_FILES_NAMES['merges_file'] )
shutil.copyfile(__lowerCAmelCase , __lowerCAmelCase )
# model config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , 'config.json' )
_UpperCAmelCase = {
'activation_dropout': args['activation_dropout'],
'architectures': ['BioGptForCausalLM'],
'attention_probs_dropout_prob': args['attention_dropout'],
'bos_token_id': 0,
'eos_token_id': 2,
'hidden_act': args['activation_fn'],
'hidden_dropout_prob': args['dropout'],
'hidden_size': args['decoder_embed_dim'],
'initializer_range': 0.02,
'intermediate_size': args['decoder_ffn_embed_dim'],
'layer_norm_eps': 1E-12,
'layerdrop': args['decoder_layerdrop'],
'max_position_embeddings': args['max_target_positions'],
'model_type': 'biogpt',
'num_attention_heads': args['decoder_attention_heads'],
'num_hidden_layers': args['decoder_layers'],
'pad_token_id': 1,
'scale_embedding': not args['no_scale_embedding'],
'tie_word_embeddings': args['share_decoder_input_output_embed'],
'vocab_size': src_vocab_size,
}
# good hparam defaults to start with
print(F"""Generating {biogpt_model_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# tokenizer config
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = {
'bos_token': '<s>',
'eos_token': '</s>',
'model_max_length': 1_024,
'pad_token': '<pad>',
'special_tokens_map_file': None,
'tokenizer_class': 'BioGptTokenizer',
'unk_token': '<unk>',
}
print(F"""Generating {biogpt_tokenizer_config_file}""" )
with open(__lowerCAmelCase , 'w' , encoding='utf-8' ) as f:
f.write(json.dumps(__lowerCAmelCase , ensure_ascii=__lowerCAmelCase , indent=__lowerCAmelCase ) )
# model
_UpperCAmelCase = chkpt['model']
# remove unneeded keys
_UpperCAmelCase = [
'decoder.version',
]
for k in ignore_keys:
model_state_dict.pop(__lowerCAmelCase , __lowerCAmelCase )
_UpperCAmelCase = list(model_state_dict.keys() )
for layer_name in layer_names:
if layer_name.endswith('output_projection.weight' ):
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
else:
_UpperCAmelCase = model_state_dict.pop(__lowerCAmelCase )
_UpperCAmelCase = BioGptConfig.from_pretrained(__lowerCAmelCase )
_UpperCAmelCase = BioGptForCausalLM(__lowerCAmelCase )
# check that it loads ok
model_new.load_state_dict(__lowerCAmelCase )
# save
_UpperCAmelCase = os.path.join(__lowerCAmelCase , __lowerCAmelCase )
print(F"""Generating {pytorch_weights_dump_path}""" )
torch.save(__lowerCAmelCase , __lowerCAmelCase )
print('Conversion is done!' )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--biogpt_checkpoint_path''',
default=None,
type=str,
required=True,
help=(
'''Path to the official PyTorch checkpoint file which is expected to reside in the dump dir with dicts,'''
''' bpecodes, etc.'''
),
)
parser.add_argument(
'''--pytorch_dump_folder_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
_a = parser.parse_args()
convert_biogpt_checkpoint_to_pytorch(args.biogpt_checkpoint_path, args.pytorch_dump_folder_path)
| 39
| 1
|
def __A ( __lowerCAmelCase )-> set:
"""simple docstring"""
_UpperCAmelCase = set()
# edges = list of graph's edges
_UpperCAmelCase = get_edges(__lowerCAmelCase )
# While there are still elements in edges list, take an arbitrary edge
# (from_node, to_node) and add his extremity to chosen_vertices and then
# remove all arcs adjacent to the from_node and to_node
while edges:
_UpperCAmelCase , _UpperCAmelCase = edges.pop()
chosen_vertices.add(__lowerCAmelCase )
chosen_vertices.add(__lowerCAmelCase )
for edge in edges.copy():
if from_node in edge or to_node in edge:
edges.discard(__lowerCAmelCase )
return chosen_vertices
def __A ( __lowerCAmelCase )-> set:
"""simple docstring"""
_UpperCAmelCase = set()
for from_node, to_nodes in graph.items():
for to_node in to_nodes:
edges.add((from_node, to_node) )
return edges
if __name__ == "__main__":
import doctest
doctest.testmod()
# graph = {0: [1, 3], 1: [0, 3], 2: [0, 3, 4], 3: [0, 1, 2], 4: [2, 3]}
# print(f"Matching vertex cover:\n{matching_min_vertex_cover(graph)}")
| 39
|
from __future__ import annotations
import collections
import pprint
from pathlib import Path
def __A ( __lowerCAmelCase )-> str:
"""simple docstring"""
return "".join(sorted(__lowerCAmelCase ) )
def __A ( __lowerCAmelCase )-> list[str]:
"""simple docstring"""
return word_by_signature[signature(__lowerCAmelCase )]
_a = Path(__file__).parent.joinpath('''words.txt''').read_text(encoding='''utf-8''')
_a = sorted({word.strip().lower() for word in data.splitlines()})
_a = collections.defaultdict(list)
for word in word_list:
word_by_signature[signature(word)].append(word)
if __name__ == "__main__":
_a = {word: anagram(word) for word in word_list if len(anagram(word)) > 1}
with open('''anagrams.txt''', '''w''') as file:
file.write('''all_anagrams = \n ''')
file.write(pprint.pformat(all_anagrams))
| 39
| 1
|
from pathlib import Path
from typing import List
from transformers import is_torch_available, is_vision_available
from transformers.testing_utils import get_tests_dir, is_tool_test
from transformers.tools.agent_types import AGENT_TYPE_MAPPING, AgentAudio, AgentImage, AgentText
if is_torch_available():
import torch
if is_vision_available():
from PIL import Image
_a = ['''text''', '''image''', '''audio''']
def __A ( __lowerCAmelCase )-> Optional[int]:
"""simple docstring"""
_UpperCAmelCase = []
for input_type in input_types:
if input_type == "text":
inputs.append('Text input' )
elif input_type == "image":
inputs.append(
Image.open(Path(get_tests_dir('fixtures/tests_samples/COCO' ) ) / '000000039769.png' ).resize((512, 512) ) )
elif input_type == "audio":
inputs.append(torch.ones(3_000 ) )
elif isinstance(__lowerCAmelCase , __lowerCAmelCase ):
inputs.append(create_inputs(__lowerCAmelCase ) )
else:
raise ValueError(F"""Invalid type requested: {input_type}""" )
return inputs
def __A ( __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = []
for output in outputs:
if isinstance(__lowerCAmelCase , (str, AgentText) ):
output_types.append('text' )
elif isinstance(__lowerCAmelCase , (Image.Image, AgentImage) ):
output_types.append('image' )
elif isinstance(__lowerCAmelCase , (torch.Tensor, AgentAudio) ):
output_types.append('audio' )
else:
raise ValueError(F"""Invalid output: {output}""" )
return output_types
@is_tool_test
class __lowerCamelCase :
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
self.assertTrue(hasattr(self.tool , 'inputs' ) )
self.assertTrue(hasattr(self.tool , 'outputs' ) )
_UpperCAmelCase = self.tool.inputs
for _input in inputs:
if isinstance(_input , UpperCAmelCase ):
for __input in _input:
self.assertTrue(__input in authorized_types )
else:
self.assertTrue(_input in authorized_types )
_UpperCAmelCase = self.tool.outputs
for _output in outputs:
self.assertTrue(_output in authorized_types )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = create_inputs(self.tool.inputs )
_UpperCAmelCase = self.tool(*UpperCAmelCase )
# There is a single output
if len(self.tool.outputs ) == 1:
_UpperCAmelCase = [outputs]
self.assertListEqual(output_types(UpperCAmelCase ) , self.tool.outputs )
def UpperCamelCase ( self ):
"""simple docstring"""
self.assertTrue(hasattr(self.tool , 'description' ) )
self.assertTrue(hasattr(self.tool , 'default_checkpoint' ) )
self.assertTrue(self.tool.description.startswith('This is a tool that' ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = create_inputs(self.tool.inputs )
_UpperCAmelCase = self.tool(*UpperCAmelCase )
if not isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = [outputs]
self.assertEqual(len(UpperCAmelCase ) , len(self.tool.outputs ) )
for output, output_type in zip(UpperCAmelCase , self.tool.outputs ):
_UpperCAmelCase = AGENT_TYPE_MAPPING[output_type]
self.assertTrue(isinstance(UpperCAmelCase , UpperCAmelCase ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = create_inputs(self.tool.inputs )
_UpperCAmelCase = []
for _input, input_type in zip(UpperCAmelCase , self.tool.inputs ):
if isinstance(UpperCAmelCase , UpperCAmelCase ):
_inputs.append([AGENT_TYPE_MAPPING[_input_type](_input ) for _input_type in input_type] )
else:
_inputs.append(AGENT_TYPE_MAPPING[input_type](_input ) )
# Should not raise an error
_UpperCAmelCase = self.tool(*UpperCAmelCase )
if not isinstance(UpperCAmelCase , UpperCAmelCase ):
_UpperCAmelCase = [outputs]
self.assertEqual(len(UpperCAmelCase ) , len(self.tool.outputs ) )
| 39
|
from __future__ import annotations
def __A ( __lowerCAmelCase )-> list[int]:
"""simple docstring"""
_UpperCAmelCase = 2
_UpperCAmelCase = []
while i * i <= n:
if n % i:
i += 1
else:
n //= i
factors.append(__lowerCAmelCase )
if n > 1:
factors.append(__lowerCAmelCase )
return factors
if __name__ == "__main__":
import doctest
doctest.testmod()
| 39
| 1
|
from transformers import BertTokenizer, EncoderDecoderModel, SeqaSeqTrainer, SeqaSeqTrainingArguments
from transformers.testing_utils import TestCasePlus, require_torch, slow
from transformers.utils import is_datasets_available
if is_datasets_available():
import datasets
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
@slow
@require_torch
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = EncoderDecoderModel.from_encoder_decoder_pretrained('prajjwal1/bert-tiny' , 'prajjwal1/bert-tiny' )
_UpperCAmelCase = BertTokenizer.from_pretrained('bert-base-uncased' )
_UpperCAmelCase = bertabert.config.encoder.vocab_size
_UpperCAmelCase = tokenizer.sep_token_id
_UpperCAmelCase = tokenizer.cls_token_id
_UpperCAmelCase = 128
_UpperCAmelCase = datasets.load_dataset('cnn_dailymail' , '3.0.0' , split='train[:1%]' )
_UpperCAmelCase = datasets.load_dataset('cnn_dailymail' , '3.0.0' , split='validation[:1%]' )
_UpperCAmelCase = train_dataset.select(range(32 ) )
_UpperCAmelCase = val_dataset.select(range(16 ) )
_UpperCAmelCase = 4
def _map_to_encoder_decoder_inputs(UpperCAmelCase ):
# Tokenizer will automatically set [BOS] <text> [EOS]
_UpperCAmelCase = tokenizer(batch['article'] , padding='max_length' , truncation=UpperCAmelCase , max_length=512 )
_UpperCAmelCase = tokenizer(batch['highlights'] , padding='max_length' , truncation=UpperCAmelCase , max_length=128 )
_UpperCAmelCase = inputs.input_ids
_UpperCAmelCase = inputs.attention_mask
_UpperCAmelCase = outputs.input_ids
_UpperCAmelCase = outputs.input_ids.copy()
_UpperCAmelCase = [
[-100 if token == tokenizer.pad_token_id else token for token in labels] for labels in batch['labels']
]
_UpperCAmelCase = outputs.attention_mask
assert all(len(UpperCAmelCase ) == 512 for x in inputs.input_ids )
assert all(len(UpperCAmelCase ) == 128 for x in outputs.input_ids )
return batch
def _compute_metrics(UpperCAmelCase ):
_UpperCAmelCase = pred.label_ids
_UpperCAmelCase = pred.predictions
# all unnecessary tokens are removed
_UpperCAmelCase = tokenizer.batch_decode(UpperCAmelCase , skip_special_tokens=UpperCAmelCase )
_UpperCAmelCase = tokenizer.batch_decode(UpperCAmelCase , skip_special_tokens=UpperCAmelCase )
_UpperCAmelCase = sum([int(pred_str[i] == label_str[i] ) for i in range(len(UpperCAmelCase ) )] ) / len(UpperCAmelCase )
return {"accuracy": accuracy}
# map train dataset
_UpperCAmelCase = train_dataset.map(
_map_to_encoder_decoder_inputs , batched=UpperCAmelCase , batch_size=UpperCAmelCase , remove_columns=['article', 'highlights'] , )
train_dataset.set_format(
type='torch' , columns=['input_ids', 'attention_mask', 'decoder_input_ids', 'decoder_attention_mask', 'labels'] , )
# same for validation dataset
_UpperCAmelCase = val_dataset.map(
_map_to_encoder_decoder_inputs , batched=UpperCAmelCase , batch_size=UpperCAmelCase , remove_columns=['article', 'highlights'] , )
val_dataset.set_format(
type='torch' , columns=['input_ids', 'attention_mask', 'decoder_input_ids', 'decoder_attention_mask', 'labels'] , )
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = SeqaSeqTrainingArguments(
output_dir=UpperCAmelCase , per_device_train_batch_size=UpperCAmelCase , per_device_eval_batch_size=UpperCAmelCase , predict_with_generate=UpperCAmelCase , evaluation_strategy='steps' , do_train=UpperCAmelCase , do_eval=UpperCAmelCase , warmup_steps=0 , eval_steps=2 , logging_steps=2 , )
# instantiate trainer
_UpperCAmelCase = SeqaSeqTrainer(
model=UpperCAmelCase , args=UpperCAmelCase , compute_metrics=_compute_metrics , train_dataset=UpperCAmelCase , eval_dataset=UpperCAmelCase , tokenizer=UpperCAmelCase , )
# start training
trainer.train()
| 39
|
from __future__ import annotations
from itertools import permutations
from random import randint
from timeit import repeat
def __A ( )-> tuple[list[int], int]:
"""simple docstring"""
_UpperCAmelCase = [randint(-1_000 , 1_000 ) for i in range(10 )]
_UpperCAmelCase = randint(-5_000 , 5_000 )
return (arr, r)
_a = make_dataset()
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> tuple[int, ...]:
"""simple docstring"""
for triplet in permutations(__lowerCAmelCase , 3 ):
if sum(__lowerCAmelCase ) == target:
return tuple(sorted(__lowerCAmelCase ) )
return (0, 0, 0)
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> tuple[int, int, int]:
"""simple docstring"""
arr.sort()
_UpperCAmelCase = len(__lowerCAmelCase )
for i in range(n - 1 ):
_UpperCAmelCase , _UpperCAmelCase = i + 1, n - 1
while left < right:
if arr[i] + arr[left] + arr[right] == target:
return (arr[i], arr[left], arr[right])
elif arr[i] + arr[left] + arr[right] < target:
left += 1
elif arr[i] + arr[left] + arr[right] > target:
right -= 1
return (0, 0, 0)
def __A ( )-> tuple[float, float]:
"""simple docstring"""
_UpperCAmelCase = '\nfrom __main__ import dataset, triplet_sum1, triplet_sum2\n'
_UpperCAmelCase = '\ntriplet_sum1(*dataset)\n'
_UpperCAmelCase = '\ntriplet_sum2(*dataset)\n'
_UpperCAmelCase = repeat(setup=__lowerCAmelCase , stmt=__lowerCAmelCase , repeat=5 , number=10_000 )
_UpperCAmelCase = repeat(setup=__lowerCAmelCase , stmt=__lowerCAmelCase , repeat=5 , number=10_000 )
return (min(__lowerCAmelCase ), min(__lowerCAmelCase ))
if __name__ == "__main__":
from doctest import testmod
testmod()
_a = solution_times()
print(F'''The time for naive implementation is {times[0]}.''')
print(F'''The time for optimized implementation is {times[1]}.''')
| 39
| 1
|
import qiskit
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> qiskit.result.counts.Counts:
"""simple docstring"""
_UpperCAmelCase = qiskit.Aer.get_backend('aer_simulator' )
# Create a Quantum Circuit acting on the q register
_UpperCAmelCase = qiskit.QuantumCircuit(__lowerCAmelCase , __lowerCAmelCase )
# Apply X (NOT) Gate to Qubits 0 & 1
circuit.x(0 )
circuit.x(1 )
# Map the quantum measurement to the classical bits
circuit.measure([0, 1] , [0, 1] )
# Execute the circuit on the qasm simulator
_UpperCAmelCase = qiskit.execute(__lowerCAmelCase , __lowerCAmelCase , shots=1_000 )
# Return the histogram data of the results of the experiment.
return job.result().get_counts(__lowerCAmelCase )
if __name__ == "__main__":
_a = single_qubit_measure(2, 2)
print(F'''Total count for various states are: {counts}''')
| 39
|
import os
import tempfile
import unittest
import numpy as np
from diffusers.utils import is_flax_available
from diffusers.utils.testing_utils import require_flax, slow
if is_flax_available():
import jax
import jax.numpy as jnp
from flax.jax_utils import replicate
from flax.training.common_utils import shard
from diffusers import FlaxDDIMScheduler, FlaxDiffusionPipeline, FlaxStableDiffusionPipeline
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmpdirname:
# pipeline has Flax weights
_UpperCAmelCase = FlaxDiffusionPipeline.from_pretrained(
'hf-internal-testing/tiny-stable-diffusion-pipe' , safety_checker=UpperCAmelCase , cache_dir=UpperCAmelCase )
_UpperCAmelCase = [t[-1] for t in os.walk(os.path.join(UpperCAmelCase , os.listdir(UpperCAmelCase )[0] , 'snapshots' ) )]
_UpperCAmelCase = [item for sublist in all_root_files for item in sublist]
# None of the downloaded files should be a PyTorch file even if we have some here:
# https://huggingface.co/hf-internal-testing/tiny-stable-diffusion-pipe/blob/main/unet/diffusion_pytorch_model.bin
assert not any(f.endswith('.bin' ) for f in files )
@slow
@require_flax
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'hf-internal-testing/tiny-stable-diffusion-pipe' , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 4
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 64, 64, 3)
if jax.device_count() == 8:
assert np.abs(np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 4.1_51_47_45 ) < 1e-3
assert np.abs(np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 4_99_47.8_75 ) < 5e-1
_UpperCAmelCase = pipeline.numpy_to_pil(np.asarray(images.reshape((num_samples,) + images.shape[-3:] ) ) )
assert len(UpperCAmelCase ) == num_samples
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='flax' , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.05_65_24_01) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_38_38_08.2) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.04_00_39_06) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_37_35_16.75) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa )
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.04_00_39_06) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_37_35_16.75) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = FlaxDDIMScheduler(
beta_start=0.0_00_85 , beta_end=0.0_12 , beta_schedule='scaled_linear' , set_alpha_to_one=UpperCAmelCase , steps_offset=1 , )
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , scheduler=UpperCAmelCase , safety_checker=UpperCAmelCase , )
_UpperCAmelCase = scheduler.create_state()
_UpperCAmelCase = scheduler_state
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.random.PRNGKey(0 )
_UpperCAmelCase = 50
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
# shard inputs and rng
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = jax.random.split(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
if jax.device_count() == 8:
assert np.abs((np.abs(images[0, 0, :2, :2, -2:] , dtype=np.floataa ).sum() - 0.0_45_04_39_45) ) < 1e-3
assert np.abs((np.abs(UpperCAmelCase , dtype=np.floataa ).sum() - 2_34_76_93.5) ) < 5e-1
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = (
'A cinematic film still of Morgan Freeman starring as Jimi Hendrix, portrait, 40mm lens, shallow depth of'
' field, close up, split lighting, cinematic'
)
_UpperCAmelCase = jax.device_count()
_UpperCAmelCase = num_samples * [prompt]
_UpperCAmelCase = jax.random.split(jax.random.PRNGKey(0 ) , UpperCAmelCase )
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase , )
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images.shape == (num_samples, 1, 512, 512, 3)
_UpperCAmelCase = images[2, 0, 256, 10:17, 1]
# With memory efficient attention
_UpperCAmelCase , _UpperCAmelCase = FlaxStableDiffusionPipeline.from_pretrained(
'CompVis/stable-diffusion-v1-4' , revision='bf16' , dtype=jnp.bfloataa , safety_checker=UpperCAmelCase , use_memory_efficient_attention=UpperCAmelCase , )
_UpperCAmelCase = replicate(UpperCAmelCase )
_UpperCAmelCase = pipeline.prepare_inputs(UpperCAmelCase )
_UpperCAmelCase = shard(UpperCAmelCase )
_UpperCAmelCase = pipeline(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , jit=UpperCAmelCase ).images
assert images_eff.shape == (num_samples, 1, 512, 512, 3)
_UpperCAmelCase = images[2, 0, 256, 10:17, 1]
# I checked the results visually and they are very similar. However, I saw that the max diff is `1` and the `sum`
# over the 8 images is exactly `256`, which is very suspicious. Testing a random slice for now.
assert abs(slice_eff - slice ).max() < 1e-2
| 39
| 1
|
class __lowerCamelCase :
"""simple docstring"""
def __init__( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = val
_UpperCAmelCase = None
_UpperCAmelCase = None
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if self.val:
if val < self.val:
if self.left is None:
_UpperCAmelCase = Node(UpperCAmelCase )
else:
self.left.insert(UpperCAmelCase )
elif val > self.val:
if self.right is None:
_UpperCAmelCase = Node(UpperCAmelCase )
else:
self.right.insert(UpperCAmelCase )
else:
_UpperCAmelCase = val
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> List[Any]:
"""simple docstring"""
if root:
inorder(root.left , __lowerCAmelCase )
res.append(root.val )
inorder(root.right , __lowerCAmelCase )
def __A ( __lowerCAmelCase )-> List[str]:
"""simple docstring"""
if len(__lowerCAmelCase ) == 0:
return arr
_UpperCAmelCase = Node(arr[0] )
for i in range(1 , len(__lowerCAmelCase ) ):
root.insert(arr[i] )
# Traverse BST in order.
_UpperCAmelCase = []
inorder(__lowerCAmelCase , __lowerCAmelCase )
return res
if __name__ == "__main__":
print(tree_sort([10, 1, 3, 2, 9, 14, 13]))
| 39
|
import unittest
from transformers import AlbertTokenizer, AlbertTokenizerFast
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
_a = get_tests_dir('''fixtures/spiece.model''')
@require_sentencepiece
@require_tokenizers
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = AlbertTokenizer
UpperCamelCase__ = AlbertTokenizerFast
UpperCamelCase__ = True
UpperCamelCase__ = True
UpperCamelCase__ = True
def UpperCamelCase ( self ):
"""simple docstring"""
super().setUp()
# We have a SentencePiece fixture for testing
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase )
tokenizer.save_pretrained(self.tmpdirname )
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = 'this is a test'
_UpperCAmelCase = 'this is a test'
return input_text, output_text
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = '<pad>'
_UpperCAmelCase = 0
self.assertEqual(self.get_tokenizer()._convert_token_to_id(UpperCAmelCase ) , UpperCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(UpperCAmelCase ) , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0] , '<pad>' )
self.assertEqual(vocab_keys[1] , '<unk>' )
self.assertEqual(vocab_keys[-1] , '▁eloquent' )
self.assertEqual(len(UpperCAmelCase ) , 3_0000 )
def UpperCamelCase ( self ):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size , 3_0000 )
def UpperCamelCase ( self ):
"""simple docstring"""
if not self.test_rust_tokenizer:
return
_UpperCAmelCase = self.get_tokenizer()
_UpperCAmelCase = self.get_rust_tokenizer()
_UpperCAmelCase = 'I was born in 92000, and this is falsé.'
_UpperCAmelCase = tokenizer.tokenize(UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.tokenize(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = self.get_rust_tokenizer()
_UpperCAmelCase = tokenizer.encode(UpperCAmelCase )
_UpperCAmelCase = rust_tokenizer.encode(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase , keep_accents=UpperCAmelCase )
_UpperCAmelCase = tokenizer.tokenize('This is a test' )
self.assertListEqual(UpperCAmelCase , ['▁this', '▁is', '▁a', '▁test'] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase ) , [48, 25, 21, 1289] )
_UpperCAmelCase = tokenizer.tokenize('I was born in 92000, and this is falsé.' )
self.assertListEqual(
UpperCAmelCase , ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', 'é', '.'] )
_UpperCAmelCase = tokenizer.convert_tokens_to_ids(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , [31, 23, 386, 19, 561, 3050, 15, 17, 48, 25, 8256, 18, 1, 9] )
_UpperCAmelCase = tokenizer.convert_ids_to_tokens(UpperCAmelCase )
self.assertListEqual(
UpperCAmelCase , ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', '<unk>', '.'] , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = AlbertTokenizer(UpperCAmelCase )
_UpperCAmelCase = tokenizer.encode('sequence builders' )
_UpperCAmelCase = tokenizer.encode('multi-sequence build' )
_UpperCAmelCase = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase )
_UpperCAmelCase = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase , UpperCAmelCase )
assert encoded_sentence == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id]
assert encoded_pair == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] + text_a + [
tokenizer.sep_token_id
]
@slow
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = {'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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'input_ids': [[2, 2_1970, 13, 5, 6092, 167, 28, 7103, 2153, 673, 8, 7028, 1_2051, 18, 17, 7103, 2153, 673, 8, 3515, 1_8684, 8, 4461, 6, 1927, 297, 8, 1_2060, 2607, 18, 13, 5, 4461, 15, 1_0538, 38, 8, 135, 15, 822, 58, 15, 993, 1_0363, 15, 1460, 8005, 4461, 15, 993, 255, 2328, 9, 9, 9, 6, 26, 1112, 816, 3260, 13, 5, 103, 2377, 6, 17, 1112, 816, 2782, 13, 5, 103, 1_0641, 6, 29, 84, 2512, 2430, 782, 1_8684, 2761, 19, 808, 2430, 2556, 17, 855, 1480, 9477, 4091, 128, 1_1712, 15, 7103, 2153, 673, 17, 2_4883, 9990, 9, 3], [2, 1_1502, 25, 1006, 20, 782, 8, 1_1809, 855, 1732, 1_9393, 1_8667, 37, 367, 2_1018, 69, 1854, 34, 1_1860, 1_9124, 27, 156, 225, 17, 193, 4141, 19, 65, 9124, 9, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [2, 14, 2231, 886, 2385, 1_7659, 84, 14, 1_6792, 1952, 9, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'token_type_ids': [[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]]} # noqa: E501
# fmt: on
self.tokenizer_integration_test_util(
expected_encoding=UpperCAmelCase , model_name='albert-base-v2' , revision='6b6560eaf5ff2e250b00c50f380c5389a9c2d82e' , )
| 39
| 1
|
from __future__ import annotations
import string
from itertools import cycle, product
from pathlib import Path
_a = (
string.ascii_letters + string.digits + string.punctuation + string.whitespace
)
_a = [ord(letter) for letter in string.ascii_lowercase]
_a = {ord(char) for char in VALID_CHARS}
_a = ["the", "be", "to", "of", "and", "in", "that", "have"]
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> str | None:
"""simple docstring"""
_UpperCAmelCase = ""
_UpperCAmelCase = 42
_UpperCAmelCase = 42
_UpperCAmelCase = 42
for keychar, cipherchar in zip(cycle(__lowerCAmelCase ) , __lowerCAmelCase ):
_UpperCAmelCase = cipherchar ^ keychar
if decodedchar not in VALID_INTS:
return None
decoded += chr(__lowerCAmelCase )
return decoded
def __A ( __lowerCAmelCase )-> list[str]:
"""simple docstring"""
_UpperCAmelCase = []
for key in product(__lowerCAmelCase , repeat=3 ):
_UpperCAmelCase = try_key(__lowerCAmelCase , __lowerCAmelCase )
if encoded is not None:
possibles.append(__lowerCAmelCase )
return possibles
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> list[str]:
"""simple docstring"""
return [possible for possible in possibles if common_word in possible.lower()]
def __A ( __lowerCAmelCase = "p059_cipher.txt" )-> int:
"""simple docstring"""
_UpperCAmelCase = 42
_UpperCAmelCase = 42
_UpperCAmelCase = 42
_UpperCAmelCase = 42
_UpperCAmelCase = Path(__lowerCAmelCase ).parent.joinpath(__lowerCAmelCase ).read_text(encoding='utf-8' )
_UpperCAmelCase = [int(__lowerCAmelCase ) for number in data.strip().split(',' )]
_UpperCAmelCase = filter_valid_chars(__lowerCAmelCase )
for common_word in COMMON_WORDS:
_UpperCAmelCase = filter_common_word(__lowerCAmelCase , __lowerCAmelCase )
if len(__lowerCAmelCase ) == 1:
break
_UpperCAmelCase = possibles[0]
return sum(ord(__lowerCAmelCase ) for char in decoded_text )
if __name__ == "__main__":
print(F'''{solution() = }''')
| 39
|
import json
import os
from typing import Optional
import numpy as np
from ...feature_extraction_utils import BatchFeature
from ...processing_utils import ProcessorMixin
from ...utils import logging
from ...utils.hub import get_file_from_repo
from ..auto import AutoTokenizer
_a = logging.get_logger(__name__)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "AutoTokenizer"
UpperCamelCase__ = ["tokenizer"]
UpperCamelCase__ = {
"semantic_prompt": 1,
"coarse_prompt": 2,
"fine_prompt": 2,
}
def __init__( self , UpperCAmelCase , UpperCAmelCase=None ):
"""simple docstring"""
super().__init__(UpperCAmelCase )
_UpperCAmelCase = speaker_embeddings
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase , UpperCAmelCase="speaker_embeddings_path.json" , **UpperCAmelCase ):
"""simple docstring"""
if speaker_embeddings_dict_path is not None:
_UpperCAmelCase = get_file_from_repo(
UpperCAmelCase , UpperCAmelCase , subfolder=kwargs.pop('subfolder' , UpperCAmelCase ) , cache_dir=kwargs.pop('cache_dir' , UpperCAmelCase ) , force_download=kwargs.pop('force_download' , UpperCAmelCase ) , proxies=kwargs.pop('proxies' , UpperCAmelCase ) , resume_download=kwargs.pop('resume_download' , UpperCAmelCase ) , local_files_only=kwargs.pop('local_files_only' , UpperCAmelCase ) , use_auth_token=kwargs.pop('use_auth_token' , UpperCAmelCase ) , revision=kwargs.pop('revision' , UpperCAmelCase ) , )
if speaker_embeddings_path is None:
logger.warning(
F"""`{os.path.join(UpperCAmelCase , UpperCAmelCase )}` does not exists
, no preloaded speaker embeddings will be used - Make sure to provide a correct path to the json
dictionnary if wanted, otherwise set `speaker_embeddings_dict_path=None`.""" )
_UpperCAmelCase = None
else:
with open(UpperCAmelCase ) as speaker_embeddings_json:
_UpperCAmelCase = json.load(UpperCAmelCase )
else:
_UpperCAmelCase = None
_UpperCAmelCase = AutoTokenizer.from_pretrained(UpperCAmelCase , **UpperCAmelCase )
return cls(tokenizer=UpperCAmelCase , speaker_embeddings=UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase="speaker_embeddings_path.json" , UpperCAmelCase="speaker_embeddings" , UpperCAmelCase = False , **UpperCAmelCase , ):
"""simple docstring"""
if self.speaker_embeddings is not None:
os.makedirs(os.path.join(UpperCAmelCase , UpperCAmelCase , 'v2' ) , exist_ok=UpperCAmelCase )
_UpperCAmelCase = {}
_UpperCAmelCase = save_directory
for prompt_key in self.speaker_embeddings:
if prompt_key != "repo_or_path":
_UpperCAmelCase = self._load_voice_preset(UpperCAmelCase )
_UpperCAmelCase = {}
for key in self.speaker_embeddings[prompt_key]:
np.save(
os.path.join(
embeddings_dict['repo_or_path'] , UpperCAmelCase , F"""{prompt_key}_{key}""" ) , voice_preset[key] , allow_pickle=UpperCAmelCase , )
_UpperCAmelCase = os.path.join(UpperCAmelCase , F"""{prompt_key}_{key}.npy""" )
_UpperCAmelCase = tmp_dict
with open(os.path.join(UpperCAmelCase , UpperCAmelCase ) , 'w' ) as fp:
json.dump(UpperCAmelCase , UpperCAmelCase )
super().save_pretrained(UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase = None , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.speaker_embeddings[voice_preset]
_UpperCAmelCase = {}
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset_paths:
raise ValueError(
F"""Voice preset unrecognized, missing {key} as a key in self.speaker_embeddings[{voice_preset}].""" )
_UpperCAmelCase = get_file_from_repo(
self.speaker_embeddings.get('repo_or_path' , '/' ) , voice_preset_paths[key] , subfolder=kwargs.pop('subfolder' , UpperCAmelCase ) , cache_dir=kwargs.pop('cache_dir' , UpperCAmelCase ) , force_download=kwargs.pop('force_download' , UpperCAmelCase ) , proxies=kwargs.pop('proxies' , UpperCAmelCase ) , resume_download=kwargs.pop('resume_download' , UpperCAmelCase ) , local_files_only=kwargs.pop('local_files_only' , UpperCAmelCase ) , use_auth_token=kwargs.pop('use_auth_token' , UpperCAmelCase ) , revision=kwargs.pop('revision' , UpperCAmelCase ) , )
if path is None:
raise ValueError(
F"""`{os.path.join(self.speaker_embeddings.get("repo_or_path" , "/" ) , voice_preset_paths[key] )}` does not exists
, no preloaded voice preset will be used - Make sure to provide correct paths to the {voice_preset}
embeddings.""" )
_UpperCAmelCase = np.load(UpperCAmelCase )
return voice_preset_dict
def UpperCamelCase ( self , UpperCAmelCase = None ):
"""simple docstring"""
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset:
raise ValueError(F"""Voice preset unrecognized, missing {key} as a key.""" )
if not isinstance(voice_preset[key] , np.ndarray ):
raise ValueError(F"""{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.""" )
if len(voice_preset[key].shape ) != self.preset_shape[key]:
raise ValueError(F"""{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.""" )
def __call__( self , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase="pt" , UpperCAmelCase=256 , UpperCAmelCase=False , UpperCAmelCase=True , UpperCAmelCase=False , **UpperCAmelCase , ):
"""simple docstring"""
if voice_preset is not None and not isinstance(UpperCAmelCase , UpperCAmelCase ):
if (
isinstance(UpperCAmelCase , UpperCAmelCase )
and self.speaker_embeddings is not None
and voice_preset in self.speaker_embeddings
):
_UpperCAmelCase = self._load_voice_preset(UpperCAmelCase )
else:
if isinstance(UpperCAmelCase , UpperCAmelCase ) and not voice_preset.endswith('.npz' ):
_UpperCAmelCase = voice_preset + '.npz'
_UpperCAmelCase = np.load(UpperCAmelCase )
if voice_preset is not None:
self._validate_voice_preset_dict(UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = BatchFeature(data=UpperCAmelCase , tensor_type=UpperCAmelCase )
_UpperCAmelCase = self.tokenizer(
UpperCAmelCase , return_tensors=UpperCAmelCase , padding='max_length' , max_length=UpperCAmelCase , return_attention_mask=UpperCAmelCase , return_token_type_ids=UpperCAmelCase , add_special_tokens=UpperCAmelCase , **UpperCAmelCase , )
if voice_preset is not None:
_UpperCAmelCase = voice_preset
return encoded_text
| 39
| 1
|
import torch
import torch.nn as nn
from transformers.modeling_utils import ModuleUtilsMixin
from transformers.models.ta.modeling_ta import TaBlock, TaConfig, TaLayerNorm
from ...configuration_utils import ConfigMixin, register_to_config
from ...models import ModelMixin
class __lowerCamelCase ( snake_case__ , snake_case__ , snake_case__):
"""simple docstring"""
@register_to_config
def __init__( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase = False , ):
"""simple docstring"""
super().__init__()
_UpperCAmelCase = nn.Embedding(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = nn.Embedding(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = False
_UpperCAmelCase = nn.Dropout(p=UpperCAmelCase )
_UpperCAmelCase = TaConfig(
vocab_size=UpperCAmelCase , d_model=UpperCAmelCase , num_heads=UpperCAmelCase , d_kv=UpperCAmelCase , d_ff=UpperCAmelCase , dropout_rate=UpperCAmelCase , feed_forward_proj=UpperCAmelCase , is_decoder=UpperCAmelCase , is_encoder_decoder=UpperCAmelCase , )
_UpperCAmelCase = nn.ModuleList()
for lyr_num in range(UpperCAmelCase ):
_UpperCAmelCase = TaBlock(UpperCAmelCase )
self.encoders.append(UpperCAmelCase )
_UpperCAmelCase = TaLayerNorm(UpperCAmelCase )
_UpperCAmelCase = nn.Dropout(p=UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self.token_embedder(UpperCAmelCase )
_UpperCAmelCase = encoder_input_tokens.shape[1]
_UpperCAmelCase = torch.arange(UpperCAmelCase , device=encoder_input_tokens.device )
x += self.position_encoding(UpperCAmelCase )
_UpperCAmelCase = self.dropout_pre(UpperCAmelCase )
# inverted the attention mask
_UpperCAmelCase = encoder_input_tokens.size()
_UpperCAmelCase = self.get_extended_attention_mask(UpperCAmelCase , UpperCAmelCase )
for lyr in self.encoders:
_UpperCAmelCase = lyr(UpperCAmelCase , UpperCAmelCase )[0]
_UpperCAmelCase = self.layer_norm(UpperCAmelCase )
return self.dropout_post(UpperCAmelCase ), encoder_inputs_mask
| 39
|
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'''distilbert-base-uncased''': '''https://huggingface.co/distilbert-base-uncased/resolve/main/config.json''',
'''distilbert-base-uncased-distilled-squad''': (
'''https://huggingface.co/distilbert-base-uncased-distilled-squad/resolve/main/config.json'''
),
'''distilbert-base-cased''': '''https://huggingface.co/distilbert-base-cased/resolve/main/config.json''',
'''distilbert-base-cased-distilled-squad''': (
'''https://huggingface.co/distilbert-base-cased-distilled-squad/resolve/main/config.json'''
),
'''distilbert-base-german-cased''': '''https://huggingface.co/distilbert-base-german-cased/resolve/main/config.json''',
'''distilbert-base-multilingual-cased''': (
'''https://huggingface.co/distilbert-base-multilingual-cased/resolve/main/config.json'''
),
'''distilbert-base-uncased-finetuned-sst-2-english''': (
'''https://huggingface.co/distilbert-base-uncased-finetuned-sst-2-english/resolve/main/config.json'''
),
}
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
UpperCamelCase__ = "distilbert"
UpperCamelCase__ = {
"hidden_size": "dim",
"num_attention_heads": "n_heads",
"num_hidden_layers": "n_layers",
}
def __init__( self , UpperCAmelCase=3_0522 , UpperCAmelCase=512 , UpperCAmelCase=False , UpperCAmelCase=6 , UpperCAmelCase=12 , UpperCAmelCase=768 , UpperCAmelCase=4 * 768 , UpperCAmelCase=0.1 , UpperCAmelCase=0.1 , UpperCAmelCase="gelu" , UpperCAmelCase=0.02 , UpperCAmelCase=0.1 , UpperCAmelCase=0.2 , UpperCAmelCase=0 , **UpperCAmelCase , ):
"""simple docstring"""
_UpperCAmelCase = vocab_size
_UpperCAmelCase = max_position_embeddings
_UpperCAmelCase = sinusoidal_pos_embds
_UpperCAmelCase = n_layers
_UpperCAmelCase = n_heads
_UpperCAmelCase = dim
_UpperCAmelCase = hidden_dim
_UpperCAmelCase = dropout
_UpperCAmelCase = attention_dropout
_UpperCAmelCase = activation
_UpperCAmelCase = initializer_range
_UpperCAmelCase = qa_dropout
_UpperCAmelCase = seq_classif_dropout
super().__init__(**UpperCAmelCase , pad_token_id=UpperCAmelCase )
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
_UpperCAmelCase = {0: 'batch', 1: 'choice', 2: 'sequence'}
else:
_UpperCAmelCase = {0: 'batch', 1: 'sequence'}
return OrderedDict(
[
('input_ids', dynamic_axis),
('attention_mask', dynamic_axis),
] )
| 39
| 1
|
import re
from typing import Callable, List, Optional, Union
import tensorflow as tf
try:
from tensorflow.keras.optimizers.legacy import Adam
except ImportError:
from tensorflow.keras.optimizers import Adam
class __lowerCamelCase ( tf.keras.optimizers.schedules.LearningRateSchedule):
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase = 1.0 , UpperCAmelCase = None , ):
"""simple docstring"""
super().__init__()
_UpperCAmelCase = initial_learning_rate
_UpperCAmelCase = warmup_steps
_UpperCAmelCase = power
_UpperCAmelCase = decay_schedule_fn
_UpperCAmelCase = name
def __call__( self , UpperCAmelCase ):
"""simple docstring"""
with tf.name_scope(self.name or 'WarmUp' ) as name:
# Implements polynomial warmup. i.e., if global_step < warmup_steps, the
# learning rate will be `global_step/num_warmup_steps * init_lr`.
_UpperCAmelCase = tf.cast(UpperCAmelCase , tf.floataa )
_UpperCAmelCase = tf.cast(self.warmup_steps , tf.floataa )
_UpperCAmelCase = global_step_float / warmup_steps_float
_UpperCAmelCase = self.initial_learning_rate * tf.math.pow(UpperCAmelCase , self.power )
return tf.cond(
global_step_float < warmup_steps_float , lambda: warmup_learning_rate , lambda: self.decay_schedule_fn(step - self.warmup_steps ) , name=UpperCAmelCase , )
def UpperCamelCase ( self ):
"""simple docstring"""
return {
"initial_learning_rate": self.initial_learning_rate,
"decay_schedule_fn": self.decay_schedule_fn,
"warmup_steps": self.warmup_steps,
"power": self.power,
"name": self.name,
}
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase = 0.0 , __lowerCAmelCase = 0.9 , __lowerCAmelCase = 0.9_99 , __lowerCAmelCase = 1E-8 , __lowerCAmelCase = None , __lowerCAmelCase = None , __lowerCAmelCase = 0.0 , __lowerCAmelCase = 1.0 , __lowerCAmelCase = None , )-> List[Any]:
"""simple docstring"""
_UpperCAmelCase = tf.keras.optimizers.schedules.PolynomialDecay(
initial_learning_rate=__lowerCAmelCase , decay_steps=num_train_steps - num_warmup_steps , end_learning_rate=init_lr * min_lr_ratio , power=__lowerCAmelCase , )
if num_warmup_steps:
_UpperCAmelCase = WarmUp(
initial_learning_rate=__lowerCAmelCase , decay_schedule_fn=__lowerCAmelCase , warmup_steps=__lowerCAmelCase , )
if weight_decay_rate > 0.0:
_UpperCAmelCase = AdamWeightDecay(
learning_rate=__lowerCAmelCase , weight_decay_rate=__lowerCAmelCase , beta_a=__lowerCAmelCase , beta_a=__lowerCAmelCase , epsilon=__lowerCAmelCase , clipnorm=__lowerCAmelCase , global_clipnorm=__lowerCAmelCase , exclude_from_weight_decay=['LayerNorm', 'layer_norm', 'bias'] , include_in_weight_decay=__lowerCAmelCase , )
else:
_UpperCAmelCase = tf.keras.optimizers.Adam(
learning_rate=__lowerCAmelCase , beta_a=__lowerCAmelCase , beta_a=__lowerCAmelCase , epsilon=__lowerCAmelCase , clipnorm=__lowerCAmelCase , global_clipnorm=__lowerCAmelCase , )
# We return the optimizer and the LR scheduler in order to better track the
# evolution of the LR independently of the optimizer.
return optimizer, lr_schedule
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self , UpperCAmelCase = 0.0_01 , UpperCAmelCase = 0.9 , UpperCAmelCase = 0.9_99 , UpperCAmelCase = 1e-7 , UpperCAmelCase = False , UpperCAmelCase = 0.0 , UpperCAmelCase = None , UpperCAmelCase = None , UpperCAmelCase = "AdamWeightDecay" , **UpperCAmelCase , ):
"""simple docstring"""
super().__init__(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase )
_UpperCAmelCase = weight_decay_rate
_UpperCAmelCase = include_in_weight_decay
_UpperCAmelCase = exclude_from_weight_decay
@classmethod
def UpperCamelCase ( cls , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = {'WarmUp': WarmUp}
return super(UpperCAmelCase , cls ).from_config(UpperCAmelCase , custom_objects=UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
super(UpperCAmelCase , self )._prepare_local(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = tf.constant(
self.weight_decay_rate , name='adam_weight_decay_rate' )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase = self._do_use_weight_decay(var.name )
if do_decay:
return var.assign_sub(
learning_rate * var * apply_state[(var.device, var.dtype.base_dtype)]['weight_decay_rate'] , use_locking=self._use_locking , )
return tf.no_op()
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase=None , **UpperCAmelCase ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = list(zip(*UpperCAmelCase ) )
return super(UpperCAmelCase , self ).apply_gradients(zip(UpperCAmelCase , UpperCAmelCase ) , name=UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ):
"""simple docstring"""
if apply_state is None:
return self._decayed_lr_t[var_dtype], {}
_UpperCAmelCase = apply_state or {}
_UpperCAmelCase = apply_state.get((var_device, var_dtype) )
if coefficients is None:
_UpperCAmelCase = self._fallback_apply_state(UpperCAmelCase , UpperCAmelCase )
_UpperCAmelCase = coefficients
return coefficients["lr_t"], {"apply_state": apply_state}
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=None ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self._get_lr(var.device , var.dtype.base_dtype , UpperCAmelCase )
_UpperCAmelCase = self._decay_weights_op(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
with tf.control_dependencies([decay] ):
return super(UpperCAmelCase , self )._resource_apply_dense(UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=None ):
"""simple docstring"""
_UpperCAmelCase , _UpperCAmelCase = self._get_lr(var.device , var.dtype.base_dtype , UpperCAmelCase )
_UpperCAmelCase = self._decay_weights_op(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase )
with tf.control_dependencies([decay] ):
return super(UpperCAmelCase , self )._resource_apply_sparse(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , **UpperCAmelCase )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = super().get_config()
config.update({'weight_decay_rate': self.weight_decay_rate} )
return config
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
if self.weight_decay_rate == 0:
return False
if self._include_in_weight_decay:
for r in self._include_in_weight_decay:
if re.search(UpperCAmelCase , UpperCAmelCase ) is not None:
return True
if self._exclude_from_weight_decay:
for r in self._exclude_from_weight_decay:
if re.search(UpperCAmelCase , UpperCAmelCase ) is not None:
return False
return True
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def __init__( self ):
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase = None
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if self._accum_steps is None:
_UpperCAmelCase = tf.Variable(
tf.constant(0 , dtype=tf.intaa ) , trainable=UpperCAmelCase , synchronization=tf.VariableSynchronization.ON_READ , aggregation=tf.VariableAggregation.ONLY_FIRST_REPLICA , )
return self._accum_steps.value()
@property
def UpperCamelCase ( self ):
"""simple docstring"""
if not self._gradients:
raise ValueError('The accumulator should be called first to initialize the gradients' )
return [gradient.value() if gradient is not None else gradient for gradient in self._gradients]
def __call__( self , UpperCAmelCase ):
"""simple docstring"""
if not self._gradients:
_UpperCAmelCase = self.step # Create the step variable.
self._gradients.extend(
[
tf.Variable(
tf.zeros_like(UpperCAmelCase ) , trainable=UpperCAmelCase , synchronization=tf.VariableSynchronization.ON_READ , aggregation=tf.VariableAggregation.ONLY_FIRST_REPLICA , )
if gradient is not None
else gradient
for gradient in gradients
] )
if len(UpperCAmelCase ) != len(self._gradients ):
raise ValueError(F"""Expected {len(self._gradients )} gradients, but got {len(UpperCAmelCase )}""" )
for accum_gradient, gradient in zip(self._gradients , UpperCAmelCase ):
if accum_gradient is not None and gradient is not None:
accum_gradient.assign_add(UpperCAmelCase )
self._accum_steps.assign_add(1 )
def UpperCamelCase ( self ):
"""simple docstring"""
if not self._gradients:
return
self._accum_steps.assign(0 )
for gradient in self._gradients:
if gradient is not None:
gradient.assign(tf.zeros_like(UpperCAmelCase ) )
| 39
|
import json
import logging
import os
import sys
from pathlib import Path
import finetune_rag
from transformers.file_utils import is_apex_available
from transformers.testing_utils import (
TestCasePlus,
execute_subprocess_async,
require_ray,
require_torch_gpu,
require_torch_multi_gpu,
)
logging.basicConfig(level=logging.DEBUG)
_a = logging.getLogger()
_a = logging.StreamHandler(sys.stdout)
logger.addHandler(stream_handler)
class __lowerCamelCase ( snake_case__):
"""simple docstring"""
def UpperCamelCase ( self , UpperCAmelCase ):
"""simple docstring"""
os.makedirs(UpperCAmelCase , exist_ok=UpperCAmelCase )
_UpperCAmelCase = {'source': 'What is love ?', 'target': 'life'}
_UpperCAmelCase = {'train': 12, 'val': 2, 'test': 2}
for split in ["train", "test", "val"]:
for field in ["source", "target"]:
_UpperCAmelCase = '\n'.join([contents[field]] * n_lines[split] )
with open(os.path.join(UpperCAmelCase , F"""{split}.{field}""" ) , 'w' ) as f:
f.write(UpperCAmelCase )
def UpperCamelCase ( self , UpperCAmelCase , UpperCAmelCase = "pytorch" ):
"""simple docstring"""
_UpperCAmelCase = self.get_auto_remove_tmp_dir()
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'output' )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'data' )
self._create_dummy_data(data_dir=UpperCAmelCase )
_UpperCAmelCase = F"""
--data_dir {data_dir} \
--output_dir {output_dir} \
--model_name_or_path facebook/rag-sequence-base \
--model_type rag_sequence \
--do_train \
--do_predict \
--n_val -1 \
--val_check_interval 1.0 \
--train_batch_size 2 \
--eval_batch_size 1 \
--max_source_length 25 \
--max_target_length 25 \
--val_max_target_length 25 \
--test_max_target_length 25 \
--label_smoothing 0.1 \
--dropout 0.1 \
--attention_dropout 0.1 \
--weight_decay 0.001 \
--adam_epsilon 1e-08 \
--max_grad_norm 0.1 \
--lr_scheduler polynomial \
--learning_rate 3e-04 \
--num_train_epochs 1 \
--warmup_steps 4 \
--gradient_accumulation_steps 1 \
--distributed-port 8787 \
--use_dummy_dataset 1 \
--distributed_retriever {distributed_retriever} \
""".split()
if gpus > 0:
testargs.append(F"""--gpus={gpus}""" )
if is_apex_available():
testargs.append('--fp16' )
else:
testargs.append('--gpus=0' )
testargs.append('--distributed_backend=ddp_cpu' )
testargs.append('--num_processes=2' )
_UpperCAmelCase = [sys.executable, str(Path(finetune_rag.__file__ ).resolve() )] + testargs
execute_subprocess_async(UpperCAmelCase , env=self.get_env() )
_UpperCAmelCase = os.path.join(UpperCAmelCase , 'metrics.json' )
with open(UpperCAmelCase ) as f:
_UpperCAmelCase = json.load(UpperCAmelCase )
return result
@require_torch_gpu
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_multi_gpu
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=2 )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_gpu
@require_ray
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 , distributed_retriever='ray' )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
@require_torch_multi_gpu
@require_ray
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self._run_finetune(gpus=1 , distributed_retriever='ray' )
self.assertGreaterEqual(result['test'][0]['test_avg_em'] , 0.2 )
| 39
| 1
|
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.