Datasets:

infinityofspace

/

python_codestyles-random-500

like 0

def _a ( a :int ) -> Tuple: a = [] a = set({'''(''', '''[''', '''{'''} ) a = set({''')''', ''']''', '''}'''} ) a = {'''{''': '''}''', '''[''': ''']''', '''(''': ''')'''} for i in range(len(a ) ): if s[i] in open_brackets: stack.append(s[i] ) elif s[i] in closed_brackets and ( len(a ) == 0 or (len(a ) > 0 and open_to_closed[stack.pop()] != s[i]) ): return False return len(a ) == 0 def _a ( ) -> int: a = input('''Enter sequence of brackets: ''' ) if is_balanced(a ): print(a , '''is balanced''' ) else: print(a , '''is not balanced''' ) if __name__ == "__main__": main()

from __future__ import annotations UpperCAmelCase__ = "Muhammad Umer Farooq" UpperCAmelCase__ = "MIT" UpperCAmelCase__ = "1.0.0" UpperCAmelCase__ = "Muhammad Umer Farooq" UpperCAmelCase__ = "[email protected]" UpperCAmelCase__ = "Alpha" import re from html.parser import HTMLParser from urllib import parse import requests class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : Union[str, Any] , __UpperCAmelCase : str ) ->None: """simple docstring""" super().__init__() a = [] a = domain def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : list[tuple[str, str | None]] ) ->None: """simple docstring""" if tag == "a": # Check the list of defined attributes. for name, value in attrs: # If href is defined, and not empty nor # print it. if name == "href" and value != "#" and value != "": # If not already in urls. if value not in self.urls: a = parse.urljoin(self.domain , __UpperCAmelCase ) self.urls.append(__UpperCAmelCase ) def _a ( a :str ) -> str: return ".".join(get_sub_domain_name(a ).split('''.''' )[-2:] ) def _a ( a :str ) -> str: return parse.urlparse(a ).netloc def _a ( a :str = "https://github.com" ) -> list[str]: a = get_domain_name(a ) # Initialize the parser a = Parser(a ) try: # Open URL a = requests.get(a ) # pass the raw HTML to the parser to get links parser.feed(r.text ) # Get links and loop through a = set() for link in parser.urls: # open URL. # read = requests.get(link) try: a = requests.get(a ) # Get the valid email. a = re.findall('''[a-zA-Z0-9]+@''' + domain , read.text ) # If not in list then append it. for email in emails: valid_emails.add(a ) except ValueError: pass except ValueError: raise SystemExit(1 ) # Finally return a sorted list of email addresses with no duplicates. return sorted(a ) if __name__ == "__main__": UpperCAmelCase__ = emails_from_url("https://github.com") print(f"""{len(emails)} emails found:""") print("\n".join(sorted(emails)))

UpperCAmelCase__ = [4, 1, 7, 4, 2, 6, 4, 1, 5, 3, 7, 5] UpperCAmelCase__ = [3, 7, 7, 4, 2, 6, 4, 1, 5, 3, 7, 5] UpperCAmelCase__ = { 0: "Sunday", 1: "Monday", 2: "Tuesday", 3: "Wednesday", 4: "Thursday", 5: "Friday", 6: "Saturday", } def _a ( a :int , a :int , a :int ) -> str: assert len(str(a ) ) > 2, "year should be in YYYY format" assert 1 <= month <= 12, "month should be between 1 to 12" assert 1 <= day <= 31, "day should be between 1 to 31" # Doomsday algorithm: a = year // 100 a = (5 * (century % 4) + 2) % 7 a = year % 100 a = centurian % 12 a = ( (centurian // 12) + centurian_m + (centurian_m // 4) + century_anchor ) % 7 a = ( DOOMSDAY_NOT_LEAP[month - 1] if (year % 4 != 0) or (centurian == 0 and (year % 400) == 0) else DOOMSDAY_LEAP[month - 1] ) a = (dooms_day + day - day_anchor) % 7 return WEEK_DAY_NAMES[week_day] if __name__ == "__main__": import doctest doctest.testmod()

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) UpperCAmelCase__ = logging.getLogger() def _a ( ) -> Optional[int]: a = argparse.ArgumentParser() parser.add_argument('''-f''' ) a = parser.parse_args() return args.f def _a ( a :Any ) -> Tuple: a = {} a = os.path.join(a , '''all_results.json''' ) if os.path.exists(a ): with open(a , '''r''' ) as f: a = json.load(a ) else: raise ValueError(F"""can't find {path}""" ) return results def _a ( ) -> int: a = torch.cuda.is_available() and torch_device == '''cuda''' return is_using_cuda and is_apex_available() UpperCAmelCase__ = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class lowercase_ ( lowercase ): '''simple docstring''' @classmethod def __lowerCAmelCase ( cls : str ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() a = os.path.join(cls.tmpdir , '''default_config.yml''' ) write_basic_config(save_location=cls.configPath ) a = ['''accelerate''', '''launch''', '''--config_file''', cls.configPath] @classmethod def __lowerCAmelCase ( cls : Optional[int] ) ->Union[str, Any]: """simple docstring""" shutil.rmtree(cls.tmpdir ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->str: """simple docstring""" a = 7 if get_gpu_count() > 1 else 2 a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : List[str] ) ->int: """simple docstring""" a = logging.StreamHandler(sys.stdout ) logger.addHandler(__UpperCAmelCase ) a = self.get_auto_remove_tmp_dir() a = 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 ) a = get_results(__UpperCAmelCase ) self.assertGreaterEqual(result['''eval_overall_accuracy'''] , 0.10 ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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''' ) ) )

from torch import nn def _a ( a :List[str] ) -> Any: if act_fn in ["swish", "silu"]: return nn.SiLU() elif act_fn == "mish": return nn.Mish() elif act_fn == "gelu": return nn.GELU() else: raise ValueError(F"""Unsupported activation function: {act_fn}""" )

import math def _a ( a :int ) -> list: a = [True] * n a = False a = False a = True for i in range(3 , int(n**0.5 + 1 ) , 2 ): a = i * 2 while index < n: a = False a = index + i a = [2] for i in range(3 , a , 2 ): if is_prime[i]: primes.append(a ) return primes def _a ( a :int = 999_966_663_333 ) -> int: a = math.floor(math.sqrt(a ) ) + 100 a = prime_sieve(a ) a = 0 a = 0 a = primes[prime_index] while (last_prime**2) <= limit: a = primes[prime_index + 1] a = last_prime**2 a = next_prime**2 # Get numbers divisible by lps(current) a = lower_bound + last_prime while upper_bound > current <= limit: matches_sum += current current += last_prime # Reset the upper_bound while (upper_bound - next_prime) > limit: upper_bound -= next_prime # Add the numbers divisible by ups(current) a = upper_bound - next_prime while current > lower_bound: matches_sum += current current -= next_prime # Remove the numbers divisible by both ups and lps a = 0 while upper_bound > current <= limit: if current <= lower_bound: # Increment the current number current += last_prime * next_prime continue if current > limit: break # Remove twice since it was added by both ups and lps matches_sum -= current * 2 # Increment the current number current += last_prime * next_prime # Setup for next pair a = next_prime prime_index += 1 return matches_sum if __name__ == "__main__": print(solution())

from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tokenizers_available, is_torch_available, ) UpperCAmelCase__ = {"configuration_plbart": ["PLBART_PRETRAINED_CONFIG_ARCHIVE_MAP", "PLBartConfig"]} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = ["PLBartTokenizer"] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "PLBART_PRETRAINED_MODEL_ARCHIVE_LIST", "PLBartForCausalLM", "PLBartForConditionalGeneration", "PLBartForSequenceClassification", "PLBartModel", "PLBartPreTrainedModel", ] if TYPE_CHECKING: from .configuration_plbart import PLBART_PRETRAINED_CONFIG_ARCHIVE_MAP, PLBartConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_plbart import PLBartTokenizer try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_plbart import ( PLBART_PRETRAINED_MODEL_ARCHIVE_LIST, PLBartForCausalLM, PLBartForConditionalGeneration, PLBartForSequenceClassification, PLBartModel, PLBartPreTrainedModel, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure)

def _a ( a :float , a :float ) -> float: return price * (1 + tax_rate) if __name__ == "__main__": print(f"""{price_plus_tax(100, 0.25) = }""") print(f"""{price_plus_tax(125.50, 0.05) = }""")

def _a ( a :int ) -> list[int]: if num <= 0: raise ValueError('''Input must be a positive integer''' ) a = [True] * (num + 1) a = 2 while p * p <= num: if primes[p]: for i in range(p * p , num + 1 , a ): a = False p += 1 return [prime for prime in range(2 , num + 1 ) if primes[prime]] if __name__ == "__main__": import doctest doctest.testmod() UpperCAmelCase__ = int(input("Enter a positive integer: ").strip()) print(prime_sieve_eratosthenes(user_num))

from tempfile import TemporaryDirectory from unittest import TestCase from unittest.mock import MagicMock, patch from transformers import AutoModel, TFAutoModel from transformers.onnx import FeaturesManager from transformers.testing_utils import SMALL_MODEL_IDENTIFIER, require_tf, require_torch @require_torch @require_tf class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" a = SMALL_MODEL_IDENTIFIER a = '''pt''' a = '''tf''' def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : str ) ->Union[str, Any]: """simple docstring""" a = AutoModel.from_pretrained(self.test_model ) model_pt.save_pretrained(__UpperCAmelCase ) def __lowerCAmelCase ( self : Any , __UpperCAmelCase : Union[str, Any] ) ->List[str]: """simple docstring""" a = TFAutoModel.from_pretrained(self.test_model , from_pt=__UpperCAmelCase ) model_tf.save_pretrained(__UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = '''mock_framework''' # Framework provided - return whatever the user provides a = FeaturesManager.determine_framework(self.test_model , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) # Local checkpoint and framework provided - return provided framework # PyTorch checkpoint with TemporaryDirectory() as local_pt_ckpt: self._setup_pt_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) # TensorFlow checkpoint with TemporaryDirectory() as local_tf_ckpt: self._setup_tf_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" with TemporaryDirectory() as local_pt_ckpt: self._setup_pt_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # TensorFlow checkpoint with TemporaryDirectory() as local_tf_ckpt: self._setup_tf_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , self.framework_tf ) # Invalid local checkpoint with TemporaryDirectory() as local_invalid_ckpt: with self.assertRaises(__UpperCAmelCase ): a = FeaturesManager.determine_framework(__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # PyTorch not in environment -> use TensorFlow a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_tf ) # Both in environment -> use PyTorch a = MagicMock(return_value=__UpperCAmelCase ) a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ), patch( '''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # Both not in environment -> raise error a = MagicMock(return_value=__UpperCAmelCase ) a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ), patch( '''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): with self.assertRaises(__UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model )

from itertools import zip_longest import requests from bsa import BeautifulSoup from pandas import DataFrame def _a ( a :str = "laptop" ) -> DataFrame: a = F"""https://www.amazon.in/laptop/s?k={product}""" a = { '''User-Agent''': '''Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko)Chrome/44.0.2403.157 Safari/537.36''', '''Accept-Language''': '''en-US, en;q=0.5''', } a = BeautifulSoup(requests.get(a , headers=a ).text ) # Initialize a Pandas dataframe with the column titles a = DataFrame( columns=[ '''Product Title''', '''Product Link''', '''Current Price of the product''', '''Product Rating''', '''MRP of the product''', '''Discount''', ] ) # Loop through each entry and store them in the dataframe for item, _ in zip_longest( soup.find_all( '''div''' , attrs={'''class''': '''s-result-item''', '''data-component-type''': '''s-search-result'''} , ) , soup.find_all('''div''' , attrs={'''class''': '''a-row a-size-base a-color-base'''} ) , ): try: a = item.ha.text a = '''https://www.amazon.in/''' + item.ha.a['''href'''] a = item.find('''span''' , attrs={'''class''': '''a-offscreen'''} ).text try: a = item.find('''span''' , attrs={'''class''': '''a-icon-alt'''} ).text except AttributeError: a = '''Not available''' try: a = ( '''₹''' + item.find( '''span''' , attrs={'''class''': '''a-price a-text-price'''} ).text.split('''₹''' )[1] ) except AttributeError: a = '''''' try: a = float( ( ( float(product_mrp.strip('''₹''' ).replace(''',''' , '''''' ) ) - float(product_price.strip('''₹''' ).replace(''',''' , '''''' ) ) ) / float(product_mrp.strip('''₹''' ).replace(''',''' , '''''' ) ) ) * 100 ) except ValueError: a = float('''nan''' ) except AttributeError: pass a = [ product_title, product_link, product_price, product_rating, product_mrp, discount, ] a = ''' ''' a = ''' ''' data_frame.index += 1 return data_frame if __name__ == "__main__": UpperCAmelCase__ = "headphones" get_amazon_product_data(product).to_csv(f"""Amazon Product Data for {product}.csv""")

import os import unittest from transformers import BatchEncoding from transformers.models.bert.tokenization_bert import ( BasicTokenizer, WordpieceTokenizer, _is_control, _is_punctuation, _is_whitespace, ) from transformers.models.prophetnet.tokenization_prophetnet import VOCAB_FILES_NAMES, ProphetNetTokenizer from transformers.testing_utils import require_torch, slow from ...test_tokenization_common import TokenizerTesterMixin class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ProphetNetTokenizer __snake_case = False def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" super().setUp() a = [ '''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing''', ''',''', '''low''', '''lowest''', ] a = 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 __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str ) ->Dict: """simple docstring""" a = '''UNwant\u00E9d,running''' a = '''unwanted, running''' return input_text, output_text def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" a = self.tokenizer_class(self.vocab_file ) a = tokenizer.tokenize('''UNwant\u00E9d,running''' ) self.assertListEqual(__UpperCAmelCase , ['''un''', '''##want''', '''##ed''', ''',''', '''runn''', '''##ing'''] ) self.assertListEqual(tokenizer.convert_tokens_to_ids(__UpperCAmelCase ) , [9, 6, 7, 12, 10, 11] ) def __lowerCAmelCase ( self : int ) ->Any: """simple docstring""" a = BasicTokenizer() self.assertListEqual(tokenizer.tokenize('''ah\u535A\u63A8zz''' ) , ['''ah''', '''\u535A''', '''\u63A8''', '''zz'''] ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? ''' ) , ['''hello''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[int]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hällo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''h\u00E9llo'''] ) def __lowerCAmelCase ( self : Dict ) ->str: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hallo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Any ) ->Dict: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hallo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Tuple ) ->Optional[Any]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? ''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''HäLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : int ) ->Optional[int]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''HaLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , never_split=['''[UNK]'''] ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? [UNK]''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?''', '''[UNK]'''] ) def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" a = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing'''] a = {} for i, token in enumerate(__UpperCAmelCase ): a = i a = WordpieceTokenizer(vocab=__UpperCAmelCase , unk_token='''[UNK]''' ) self.assertListEqual(tokenizer.tokenize('''''' ) , [] ) self.assertListEqual(tokenizer.tokenize('''unwanted running''' ) , ['''un''', '''##want''', '''##ed''', '''runn''', '''##ing'''] ) self.assertListEqual(tokenizer.tokenize('''unwantedX running''' ) , ['''[UNK]''', '''runn''', '''##ing'''] ) @require_torch def __lowerCAmelCase ( self : int ) ->int: """simple docstring""" a = self.tokenizer_class.from_pretrained('''microsoft/prophetnet-large-uncased''' ) a = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.'''] a = [1_037, 2_146, 20_423, 2_005, 7_680, 7_849, 3_989, 1_012, 102] a = tokenizer(__UpperCAmelCase , padding=__UpperCAmelCase , return_tensors='''pt''' ) self.assertIsInstance(__UpperCAmelCase , __UpperCAmelCase ) a = list(batch.input_ids.numpy()[0] ) self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual((2, 9) , batch.input_ids.shape ) self.assertEqual((2, 9) , batch.attention_mask.shape ) def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" self.assertTrue(_is_whitespace(''' ''' ) ) self.assertTrue(_is_whitespace('''\t''' ) ) self.assertTrue(_is_whitespace('''\r''' ) ) self.assertTrue(_is_whitespace('''\n''' ) ) self.assertTrue(_is_whitespace('''\u00A0''' ) ) self.assertFalse(_is_whitespace('''A''' ) ) self.assertFalse(_is_whitespace('''-''' ) ) def __lowerCAmelCase ( self : Any ) ->List[str]: """simple docstring""" self.assertTrue(_is_control('''\u0005''' ) ) self.assertFalse(_is_control('''A''' ) ) self.assertFalse(_is_control(''' ''' ) ) self.assertFalse(_is_control('''\t''' ) ) self.assertFalse(_is_control('''\r''' ) ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" self.assertTrue(_is_punctuation('''-''' ) ) self.assertTrue(_is_punctuation('''$''' ) ) self.assertTrue(_is_punctuation('''`''' ) ) self.assertTrue(_is_punctuation('''.''' ) ) self.assertFalse(_is_punctuation('''A''' ) ) self.assertFalse(_is_punctuation(''' ''' ) ) @slow def __lowerCAmelCase ( self : List[str] ) ->List[str]: """simple docstring""" a = self.tokenizer_class.from_pretrained('''microsoft/prophetnet-large-uncased''' ) a = tokenizer.encode('''sequence builders''' , add_special_tokens=__UpperCAmelCase ) a = tokenizer.encode('''multi-sequence build''' , add_special_tokens=__UpperCAmelCase ) a = tokenizer.build_inputs_with_special_tokens(__UpperCAmelCase ) a = tokenizer.build_inputs_with_special_tokens(__UpperCAmelCase , __UpperCAmelCase ) assert encoded_sentence == text + [102] assert encoded_pair == text + [102] + text_a + [102]

import argparse import os import torch from transformers import FlavaImageCodebook, FlavaImageCodebookConfig def _a ( a :Optional[Any] , a :int , a :List[str] , a :List[str] ) -> Tuple: a = s.rsplit(a , a ) return new.join(a ) def _a ( a :Any ) -> List[Any]: # encoder.embeddings are double copied in original FLAVA return sum(param.float().sum() if '''encoder.embeddings''' not in key else 0 for key, param in state_dict.items() ) def _a ( a :Any ) -> List[Any]: a = {} a = ['''group_1''', '''group_2''', '''group_3''', '''group_4'''] for key, value in state_dict.items(): for group_key in group_keys: if group_key in key: a = key.replace(F"""{group_key}.""" , F"""{group_key}.group.""" ) if "res_path" in key: a = key.replace('''res_path.''' , '''res_path.path.''' ) if key.endswith('''.w''' ): a = rreplace(a , '''.w''' , '''.weight''' , 1 ) if key.endswith('''.b''' ): a = rreplace(a , '''.b''' , '''.bias''' , 1 ) a = value.float() return upgrade @torch.no_grad() def _a ( a :Union[str, Any] , a :Optional[Any] , a :Optional[int]=None , a :str=True ) -> Tuple: from dall_e import Encoder a = Encoder() if os.path.exists(a ): a = torch.load(a ) else: a = torch.hub.load_state_dict_from_url(a ) if isinstance(a , a ): a = ckpt.state_dict() encoder.load_state_dict(a ) if config_path is not None: a = FlavaImageCodebookConfig.from_pretrained(a ) else: a = FlavaImageCodebookConfig() a = FlavaImageCodebook(a ).eval() a = encoder.state_dict() a = upgrade_state_dict(a ) hf_model.load_state_dict(a ) a = hf_model.state_dict() a = count_parameters(a ) a = count_parameters(a ) assert torch.allclose(a , a , atol=1e-3 ) if save_checkpoint: hf_model.save_pretrained(a ) else: return hf_state_dict if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() parser.add_argument("--pytorch_dump_folder_path", default=None, type=str, help="Path to the output PyTorch model.") parser.add_argument("--checkpoint_path", default=None, type=str, help="Path to flava checkpoint") parser.add_argument("--config_path", default=None, type=str, help="Path to hf config.json of model to convert") UpperCAmelCase__ = parser.parse_args() convert_dalle_checkpoint(args.checkpoint_path, args.pytorch_dump_folder_path, args.config_path)

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available UpperCAmelCase__ = { "configuration_nllb_moe": [ "NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP", "NllbMoeConfig", ] } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST", "NllbMoeForConditionalGeneration", "NllbMoeModel", "NllbMoePreTrainedModel", "NllbMoeTop2Router", "NllbMoeSparseMLP", ] if TYPE_CHECKING: from .configuration_nllb_moe import ( NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP, NllbMoeConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_nllb_moe import ( NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST, NllbMoeForConditionalGeneration, NllbMoeModel, NllbMoePreTrainedModel, NllbMoeSparseMLP, NllbMoeTopaRouter, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

from __future__ import annotations import matplotlib.pyplot as plt # type: ignore import numpy # initial triangle of Koch snowflake UpperCAmelCase__ = numpy.array([0, 0]) UpperCAmelCase__ = numpy.array([0.5, 0.866_0254]) UpperCAmelCase__ = numpy.array([1, 0]) UpperCAmelCase__ = [VECTOR_1, VECTOR_2, VECTOR_3, VECTOR_1] def _a ( a :list[numpy.ndarray] , a :int ) -> list[numpy.ndarray]: a = initial_vectors for _ in range(a ): a = iteration_step(a ) return vectors def _a ( a :list[numpy.ndarray] ) -> list[numpy.ndarray]: a = [] for i, start_vector in enumerate(vectors[:-1] ): a = vectors[i + 1] new_vectors.append(a ) a = end_vector - start_vector new_vectors.append(start_vector + difference_vector / 3 ) new_vectors.append( start_vector + difference_vector / 3 + rotate(difference_vector / 3 , 60 ) ) new_vectors.append(start_vector + difference_vector * 2 / 3 ) new_vectors.append(vectors[-1] ) return new_vectors def _a ( a :numpy.ndarray , a :float ) -> numpy.ndarray: a = numpy.radians(a ) a , a = numpy.cos(a ), numpy.sin(a ) a = numpy.array(((c, -s), (s, c)) ) return numpy.dot(a , a ) def _a ( a :list[numpy.ndarray] ) -> None: a = plt.gca() axes.set_aspect('''equal''' ) # matplotlib.pyplot.plot takes a list of all x-coordinates and a list of all # y-coordinates as inputs, which are constructed from the vector-list using # zip() a , a = zip(*a ) plt.plot(a , a ) plt.show() if __name__ == "__main__": import doctest doctest.testmod() UpperCAmelCase__ = iterate(INITIAL_VECTORS, 5) plot(processed_vectors)

def _a ( a :int ) -> list: # bit count represents no. of bits in the gray code if bit_count < 0: raise ValueError('''The given input must be positive''' ) # get the generated string sequence a = gray_code_sequence_string(a ) # # convert them to integers for i in range(len(a ) ): a = int(sequence[i] , 2 ) return sequence def _a ( a :int ) -> list: # The approach is a recursive one # Base case achieved when either n = 0 or n=1 if bit_count == 0: return ["0"] if bit_count == 1: return ["0", "1"] a = 1 << bit_count # defines the length of the sequence # 1<< n is equivalent to 2^n # recursive answer will generate answer for n-1 bits a = gray_code_sequence_string(bit_count - 1 ) a = [] # append 0 to first half of the smaller sequence generated for i in range(seq_len // 2 ): a = '''0''' + smaller_sequence[i] sequence.append(a ) # append 1 to second half ... start from the end of the list for i in reversed(range(seq_len // 2 ) ): a = '''1''' + smaller_sequence[i] sequence.append(a ) return sequence if __name__ == "__main__": import doctest doctest.testmod()

import warnings from ...utils import logging from .image_processing_owlvit import OwlViTImageProcessor UpperCAmelCase__ = logging.get_logger(__name__) class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : Union[str, Any] , *__UpperCAmelCase : str , **__UpperCAmelCase : Tuple ) ->None: """simple docstring""" warnings.warn( '''The class OwlViTFeatureExtractor is deprecated and will be removed in version 5 of Transformers. Please''' ''' use OwlViTImageProcessor instead.''' , __UpperCAmelCase , ) super().__init__(*__UpperCAmelCase , **__UpperCAmelCase )

import json import os import shutil import tempfile import unittest import numpy as np from transformers import BertTokenizerFast from transformers.models.bert.tokenization_bert import VOCAB_FILES_NAMES, BertTokenizer from transformers.testing_utils import require_tokenizers, require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import VisionTextDualEncoderProcessor, ViTImageProcessor @require_tokenizers @require_vision class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : List[Any] ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() # fmt: off a = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing''', ''',''', '''low''', '''lowest'''] # fmt: on a = 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] ) ) a = { '''do_resize''': True, '''size''': {'''height''': 18, '''width''': 18}, '''do_normalize''': True, '''image_mean''': [0.5, 0.5, 0.5], '''image_std''': [0.5, 0.5, 0.5], } a = os.path.join(self.tmpdirname , __UpperCAmelCase ) with open(self.image_processor_file , '''w''' , encoding='''utf-8''' ) as fp: json.dump(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] , **__UpperCAmelCase : List[Any] ) ->int: """simple docstring""" return BertTokenizer.from_pretrained(self.tmpdirname , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Union[str, Any] , **__UpperCAmelCase : Optional[int] ) ->Union[str, Any]: """simple docstring""" return ViTImageProcessor.from_pretrained(self.tmpdirname , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" shutil.rmtree(self.tmpdirname ) def __lowerCAmelCase ( self : str ) ->Dict: """simple docstring""" a = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )] a = [Image.fromarray(np.moveaxis(__UpperCAmelCase , 0 , -1 ) ) for x in image_inputs] return image_inputs def __lowerCAmelCase ( self : Any ) ->Tuple: """simple docstring""" a = self.get_tokenizer() a = self.get_image_processor() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) processor.save_pretrained(self.tmpdirname ) a = VisionTextDualEncoderProcessor.from_pretrained(self.tmpdirname ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer.get_vocab() ) self.assertIsInstance(processor.tokenizer , (BertTokenizer, BertTokenizerFast) ) self.assertEqual(processor.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertIsInstance(processor.image_processor , __UpperCAmelCase ) def __lowerCAmelCase ( self : int ) ->Dict: """simple docstring""" a = VisionTextDualEncoderProcessor( tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) a = self.get_tokenizer(bos_token='''(BOS)''' , eos_token='''(EOS)''' ) a = self.get_image_processor(do_normalize=__UpperCAmelCase , padding_value=1.0 ) a = VisionTextDualEncoderProcessor.from_pretrained( self.tmpdirname , bos_token='''(BOS)''' , eos_token='''(EOS)''' , do_normalize=__UpperCAmelCase , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , (BertTokenizer, BertTokenizerFast) ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , __UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->Dict: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = self.prepare_image_inputs() a = image_processor(__UpperCAmelCase , return_tensors='''np''' ) a = processor(images=__UpperCAmelCase , return_tensors='''np''' ) for key in input_feat_extract.keys(): self.assertAlmostEqual(input_feat_extract[key].sum() , input_processor[key].sum() , delta=1e-2 ) def __lowerCAmelCase ( self : List[str] ) ->str: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = processor(text=__UpperCAmelCase ) a = tokenizer(__UpperCAmelCase ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = self.prepare_image_inputs() a = processor(text=__UpperCAmelCase , images=__UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , ['''input_ids''', '''token_type_ids''', '''attention_mask''', '''pixel_values'''] ) # test if it raises when no input is passed with self.assertRaises(__UpperCAmelCase ): processor() def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] a = processor.batch_decode(__UpperCAmelCase ) a = tokenizer.batch_decode(__UpperCAmelCase ) self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] ) ->Dict: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = self.prepare_image_inputs() a = processor(text=__UpperCAmelCase , images=__UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , processor.model_input_names )

from dataclasses import dataclass from typing import Optional, Tuple, Union import flax import jax.numpy as jnp from jax import random from ..configuration_utils import ConfigMixin, register_to_config from ..utils import BaseOutput from .scheduling_utils_flax import FlaxSchedulerMixin @flax.struct.dataclass class lowercase_ : '''simple docstring''' __snake_case = None __snake_case = None __snake_case = None # sigma(t_i) @classmethod def __lowerCAmelCase ( cls : Optional[int] ) ->Optional[int]: """simple docstring""" return cls() @dataclass class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = 42 __snake_case = 42 __snake_case = 42 class lowercase_ ( lowercase , lowercase ): '''simple docstring''' @property def __lowerCAmelCase ( self : List[Any] ) ->Any: """simple docstring""" return True @register_to_config def __init__( self : Optional[int] , __UpperCAmelCase : float = 0.02 , __UpperCAmelCase : float = 100 , __UpperCAmelCase : float = 1.007 , __UpperCAmelCase : float = 80 , __UpperCAmelCase : float = 0.05 , __UpperCAmelCase : float = 50 , ) ->int: """simple docstring""" pass def __lowerCAmelCase ( self : List[Any] ) ->str: """simple docstring""" return KarrasVeSchedulerState.create() def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : KarrasVeSchedulerState , __UpperCAmelCase : int , __UpperCAmelCase : Tuple = () ) ->KarrasVeSchedulerState: """simple docstring""" a = jnp.arange(0 , __UpperCAmelCase )[::-1].copy() a = [ ( self.config.sigma_max**2 * (self.config.sigma_min**2 / self.config.sigma_max**2) ** (i / (num_inference_steps - 1)) ) for i in timesteps ] return state.replace( num_inference_steps=__UpperCAmelCase , schedule=jnp.array(__UpperCAmelCase , dtype=jnp.floataa ) , timesteps=__UpperCAmelCase , ) def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : KarrasVeSchedulerState , __UpperCAmelCase : jnp.ndarray , __UpperCAmelCase : float , __UpperCAmelCase : random.KeyArray , ) ->Tuple[jnp.ndarray, float]: """simple docstring""" if self.config.s_min <= sigma <= self.config.s_max: a = min(self.config.s_churn / state.num_inference_steps , 2**0.5 - 1 ) else: a = 0 # sample eps ~ N(0, S_noise^2 * I) a = random.split(__UpperCAmelCase , num=1 ) a = self.config.s_noise * random.normal(key=__UpperCAmelCase , shape=sample.shape ) a = sigma + gamma * sigma a = sample + ((sigma_hat**2 - sigma**2) ** 0.5 * eps) return sample_hat, sigma_hat def __lowerCAmelCase ( self : Dict , __UpperCAmelCase : KarrasVeSchedulerState , __UpperCAmelCase : jnp.ndarray , __UpperCAmelCase : float , __UpperCAmelCase : float , __UpperCAmelCase : jnp.ndarray , __UpperCAmelCase : bool = True , ) ->Union[FlaxKarrasVeOutput, Tuple]: """simple docstring""" a = sample_hat + sigma_hat * model_output a = (sample_hat - pred_original_sample) / sigma_hat a = sample_hat + (sigma_prev - sigma_hat) * derivative if not return_dict: return (sample_prev, derivative, state) return FlaxKarrasVeOutput(prev_sample=__UpperCAmelCase , derivative=__UpperCAmelCase , state=__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : KarrasVeSchedulerState , __UpperCAmelCase : jnp.ndarray , __UpperCAmelCase : float , __UpperCAmelCase : float , __UpperCAmelCase : jnp.ndarray , __UpperCAmelCase : jnp.ndarray , __UpperCAmelCase : jnp.ndarray , __UpperCAmelCase : bool = True , ) ->Union[FlaxKarrasVeOutput, Tuple]: """simple docstring""" a = sample_prev + sigma_prev * model_output a = (sample_prev - pred_original_sample) / sigma_prev a = sample_hat + (sigma_prev - sigma_hat) * (0.5 * derivative + 0.5 * derivative_corr) if not return_dict: return (sample_prev, derivative, state) return FlaxKarrasVeOutput(prev_sample=__UpperCAmelCase , derivative=__UpperCAmelCase , state=__UpperCAmelCase ) def __lowerCAmelCase ( self : Union[str, Any] , __UpperCAmelCase : KarrasVeSchedulerState , __UpperCAmelCase : str , __UpperCAmelCase : List[str] , __UpperCAmelCase : int ) ->Union[str, Any]: """simple docstring""" raise NotImplementedError()

import argparse import json from collections import OrderedDict import torch from huggingface_hub import cached_download, hf_hub_url from transformers import AutoImageProcessor, CvtConfig, CvtForImageClassification def _a ( a :List[Any] ) -> Optional[int]: a = [] embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.weight""", F"""stage{idx}.patch_embed.proj.weight""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.bias""", F"""stage{idx}.patch_embed.proj.bias""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.weight""", F"""stage{idx}.patch_embed.norm.weight""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.bias""", F"""stage{idx}.patch_embed.norm.bias""", ) ) return embed def _a ( a :List[Any] , a :Optional[int] ) -> Dict: a = [] attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_q.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_q.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_k.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_k.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_v.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_v.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj.bias""", ) ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.weight""", F"""stage{idx}.blocks.{cnt}.mlp.fc1.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.bias""", F"""stage{idx}.blocks.{cnt}.mlp.fc1.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.weight""", F"""stage{idx}.blocks.{cnt}.mlp.fc2.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.bias""", F"""stage{idx}.blocks.{cnt}.mlp.fc2.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.weight""", F"""stage{idx}.blocks.{cnt}.norm1.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.bias""", F"""stage{idx}.blocks.{cnt}.norm1.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.weight""", F"""stage{idx}.blocks.{cnt}.norm2.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.bias""", F"""stage{idx}.blocks.{cnt}.norm2.bias""") ) return attention_weights def _a ( a :Any ) -> List[Any]: a = [] token.append((F"""cvt.encoder.stages.{idx}.cls_token""", '''stage2.cls_token''') ) return token def _a ( ) -> Optional[int]: a = [] head.append(('''layernorm.weight''', '''norm.weight''') ) head.append(('''layernorm.bias''', '''norm.bias''') ) head.append(('''classifier.weight''', '''head.weight''') ) head.append(('''classifier.bias''', '''head.bias''') ) return head def _a ( a :Tuple , a :Optional[int] , a :List[Any] , a :Union[str, Any] ) -> Optional[int]: a = '''imagenet-1k-id2label.json''' a = 1_000 a = '''huggingface/label-files''' a = num_labels a = json.load(open(cached_download(hf_hub_url(a , a , repo_type='''dataset''' ) ) , '''r''' ) ) a = {int(a ): v for k, v in idalabel.items()} a = idalabel a = {v: k for k, v in idalabel.items()} a = a = CvtConfig(num_labels=a , idalabel=a , labelaid=a ) # For depth size 13 (13 = 1+2+10) if cvt_model.rsplit('''/''' , 1 )[-1][4:6] == "13": a = [1, 2, 10] # For depth size 21 (21 = 1+4+16) elif cvt_model.rsplit('''/''' , 1 )[-1][4:6] == "21": a = [1, 4, 16] # For wide cvt (similar to wide-resnet) depth size 24 (w24 = 2 + 2 20) else: a = [2, 2, 20] a = [3, 12, 16] a = [192, 768, 1_024] a = CvtForImageClassification(a ) a = AutoImageProcessor.from_pretrained('''facebook/convnext-base-224-22k-1k''' ) a = image_size a = torch.load(a , map_location=torch.device('''cpu''' ) ) a = OrderedDict() a = [] for idx in range(len(config.depth ) ): if config.cls_token[idx]: a = list_of_state_dict + cls_token(a ) a = list_of_state_dict + embeddings(a ) for cnt in range(config.depth[idx] ): a = list_of_state_dict + attention(a , a ) a = list_of_state_dict + final() for gg in list_of_state_dict: print(a ) for i in range(len(a ) ): a = original_weights[list_of_state_dict[i][1]] model.load_state_dict(a ) model.save_pretrained(a ) image_processor.save_pretrained(a ) # Download the weights from zoo: https://1drv.ms/u/s!AhIXJn_J-blW9RzF3rMW7SsLHa8h?e=blQ0Al if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() parser.add_argument( "--cvt_model", default="cvt-w24", type=str, help="Name of the cvt model you'd like to convert.", ) parser.add_argument( "--image_size", default=384, type=int, help="Input Image Size", ) parser.add_argument( "--cvt_file_name", default=R"cvtmodels\CvT-w24-384x384-IN-22k.pth", type=str, help="Input Image Size", ) parser.add_argument( "--pytorch_dump_folder_path", default=None, type=str, help="Path to the output PyTorch model directory." ) UpperCAmelCase__ = parser.parse_args() convert_cvt_checkpoint(args.cvt_model, args.image_size, args.cvt_file_name, args.pytorch_dump_folder_path)

import os from pathlib import Path import numpy as np import pytest from pack_dataset import pack_data_dir from parameterized import parameterized from save_len_file import save_len_file from torch.utils.data import DataLoader from transformers import AutoTokenizer from transformers.models.mbart.modeling_mbart import shift_tokens_right from transformers.testing_utils import TestCasePlus, slow from utils import FAIRSEQ_AVAILABLE, DistributedSortishSampler, LegacySeqaSeqDataset, SeqaSeqDataset UpperCAmelCase__ = "bert-base-cased" UpperCAmelCase__ = "google/pegasus-xsum" UpperCAmelCase__ = [" Sam ate lunch today.", "Sams lunch ingredients."] UpperCAmelCase__ = ["A very interesting story about what I ate for lunch.", "Avocado, celery, turkey, coffee"] UpperCAmelCase__ = "patrickvonplaten/t5-tiny-random" UpperCAmelCase__ = "sshleifer/bart-tiny-random" UpperCAmelCase__ = "sshleifer/tiny-mbart" UpperCAmelCase__ = "sshleifer/tiny-marian-en-de" def _a ( a :Path , a :list ) -> Optional[int]: a = '''\n'''.join(a ) Path(a ).open('''w''' ).writelines(a ) def _a ( a :Dict ) -> Dict: for split in ["train", "val", "test"]: _dump_articles(os.path.join(a , F"""{split}.source""" ) , a ) _dump_articles(os.path.join(a , F"""{split}.target""" ) , a ) return tmp_dir class lowercase_ ( lowercase ): '''simple docstring''' @parameterized.expand( [ MBART_TINY, MARIAN_TINY, T5_TINY, BART_TINY, PEGASUS_XSUM, ] , ) @slow def __lowerCAmelCase ( self : int , __UpperCAmelCase : List[str] ) ->Tuple: """simple docstring""" a = AutoTokenizer.from_pretrained(__UpperCAmelCase ) a = make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir() ) a = max(len(tokenizer.encode(__UpperCAmelCase ) ) for a in ARTICLES ) a = max(len(tokenizer.encode(__UpperCAmelCase ) ) for a in SUMMARIES ) a = 4 a = 8 assert max_len_target > max_src_len # Will be truncated assert max_len_source > max_src_len # Will be truncated a , a = '''ro_RO''', '''de_DE''' # ignored for all but mbart, but never causes error. a = SeqaSeqDataset( __UpperCAmelCase , data_dir=__UpperCAmelCase , type_path='''train''' , max_source_length=__UpperCAmelCase , max_target_length=__UpperCAmelCase , src_lang=__UpperCAmelCase , tgt_lang=__UpperCAmelCase , ) a = DataLoader(__UpperCAmelCase , batch_size=2 , collate_fn=train_dataset.collate_fn ) for batch in dataloader: assert isinstance(__UpperCAmelCase , __UpperCAmelCase ) assert batch["attention_mask"].shape == batch["input_ids"].shape # show that articles were trimmed. assert batch["input_ids"].shape[1] == max_src_len # show that targets are the same len assert batch["labels"].shape[1] == max_tgt_len if tok_name != MBART_TINY: continue # check language codes in correct place a = shift_tokens_right(batch['''labels'''] , tokenizer.pad_token_id ) assert batch["decoder_input_ids"][0, 0].item() == tokenizer.lang_code_to_id[tgt_lang] assert batch["decoder_input_ids"][0, -1].item() == tokenizer.eos_token_id assert batch["input_ids"][0, -2].item() == tokenizer.eos_token_id assert batch["input_ids"][0, -1].item() == tokenizer.lang_code_to_id[src_lang] break # No need to test every batch @parameterized.expand([BART_TINY, BERT_BASE_CASED] ) def __lowerCAmelCase ( self : int , __UpperCAmelCase : str ) ->Optional[int]: """simple docstring""" a = AutoTokenizer.from_pretrained(__UpperCAmelCase ) a = make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir() ) a = max(len(tokenizer.encode(__UpperCAmelCase ) ) for a in ARTICLES ) a = max(len(tokenizer.encode(__UpperCAmelCase ) ) for a in SUMMARIES ) a = 4 a = LegacySeqaSeqDataset( __UpperCAmelCase , data_dir=__UpperCAmelCase , type_path='''train''' , max_source_length=20 , max_target_length=__UpperCAmelCase , ) a = DataLoader(__UpperCAmelCase , batch_size=2 , collate_fn=train_dataset.collate_fn ) for batch in dataloader: assert batch["attention_mask"].shape == batch["input_ids"].shape # show that articles were trimmed. assert batch["input_ids"].shape[1] == max_len_source assert 20 >= batch["input_ids"].shape[1] # trimmed significantly # show that targets were truncated assert batch["labels"].shape[1] == trunc_target # Truncated assert max_len_target > trunc_target # Truncated break # No need to test every batch def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" a = AutoTokenizer.from_pretrained('''facebook/mbart-large-cc25''' ) a = Path(make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir() ) ) a = tmp_dir.joinpath('''train.source''' ).open().readlines() a = Path(make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir() ) ) pack_data_dir(__UpperCAmelCase , __UpperCAmelCase , 128 , __UpperCAmelCase ) a = {x.name for x in tmp_dir.iterdir()} a = {x.name for x in save_dir.iterdir()} a = save_dir.joinpath('''train.source''' ).open().readlines() # orig: [' Sam ate lunch today.\n', 'Sams lunch ingredients.'] # desired_packed: [' Sam ate lunch today.\n Sams lunch ingredients.'] assert len(__UpperCAmelCase ) < len(__UpperCAmelCase ) assert len(__UpperCAmelCase ) == 1 assert len(packed_examples[0] ) == sum(len(__UpperCAmelCase ) for x in orig_examples ) assert orig_paths == new_paths @pytest.mark.skipif(not FAIRSEQ_AVAILABLE , reason='''This test requires fairseq''' ) def __lowerCAmelCase ( self : str ) ->Optional[Any]: """simple docstring""" if not FAIRSEQ_AVAILABLE: return a , a , a = self._get_dataset(max_len=64 ) a = 64 a = ds.make_dynamic_sampler(__UpperCAmelCase , required_batch_size_multiple=__UpperCAmelCase ) a = [len(__UpperCAmelCase ) for x in batch_sampler] assert len(set(__UpperCAmelCase ) ) > 1 # it's not dynamic batch size if every batch is the same length assert sum(__UpperCAmelCase ) == len(__UpperCAmelCase ) # no dropped or added examples a = DataLoader(__UpperCAmelCase , batch_sampler=__UpperCAmelCase , collate_fn=ds.collate_fn , num_workers=2 ) a = [] a = [] for batch in data_loader: a = batch['''input_ids'''].shape a = src_shape[0] assert bs % required_batch_size_multiple == 0 or bs < required_batch_size_multiple a = np.product(batch['''input_ids'''].shape ) num_src_per_batch.append(__UpperCAmelCase ) if num_src_tokens > (max_tokens * 1.1): failures.append(__UpperCAmelCase ) assert num_src_per_batch[0] == max(__UpperCAmelCase ) if failures: raise AssertionError(F"""too many tokens in {len(__UpperCAmelCase )} batches""" ) def __lowerCAmelCase ( self : Any ) ->List[str]: """simple docstring""" a , a , a = self._get_dataset(max_len=512 ) a = 2 a = ds.make_sortish_sampler(__UpperCAmelCase , shuffle=__UpperCAmelCase ) a = DataLoader(__UpperCAmelCase , batch_size=__UpperCAmelCase , collate_fn=ds.collate_fn , num_workers=2 ) a = DataLoader(__UpperCAmelCase , batch_size=__UpperCAmelCase , collate_fn=ds.collate_fn , num_workers=2 , sampler=__UpperCAmelCase ) a = tokenizer.pad_token_id def count_pad_tokens(__UpperCAmelCase : Any , __UpperCAmelCase : Dict="input_ids" ): return [batch[k].eq(__UpperCAmelCase ).sum().item() for batch in data_loader] assert sum(count_pad_tokens(__UpperCAmelCase , k='''labels''' ) ) < sum(count_pad_tokens(__UpperCAmelCase , k='''labels''' ) ) assert sum(count_pad_tokens(__UpperCAmelCase ) ) < sum(count_pad_tokens(__UpperCAmelCase ) ) assert len(__UpperCAmelCase ) == len(__UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Tuple=1_000 , __UpperCAmelCase : Dict=128 ) ->Any: """simple docstring""" if os.getenv('''USE_REAL_DATA''' , __UpperCAmelCase ): a = '''examples/seq2seq/wmt_en_ro''' a = max_len * 2 * 64 if not Path(__UpperCAmelCase ).joinpath('''train.len''' ).exists(): save_len_file(__UpperCAmelCase , __UpperCAmelCase ) else: a = '''examples/seq2seq/test_data/wmt_en_ro''' a = max_len * 4 save_len_file(__UpperCAmelCase , __UpperCAmelCase ) a = AutoTokenizer.from_pretrained(__UpperCAmelCase ) a = SeqaSeqDataset( __UpperCAmelCase , data_dir=__UpperCAmelCase , type_path='''train''' , max_source_length=__UpperCAmelCase , max_target_length=__UpperCAmelCase , n_obs=__UpperCAmelCase , ) return ds, max_tokens, tokenizer def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" a , a , a = self._get_dataset() a = set(DistributedSortishSampler(__UpperCAmelCase , 256 , num_replicas=2 , rank=0 , add_extra_examples=__UpperCAmelCase ) ) a = set(DistributedSortishSampler(__UpperCAmelCase , 256 , num_replicas=2 , rank=1 , add_extra_examples=__UpperCAmelCase ) ) assert idsa.intersection(__UpperCAmelCase ) == set() @parameterized.expand( [ MBART_TINY, MARIAN_TINY, T5_TINY, BART_TINY, PEGASUS_XSUM, ] , ) def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str ) ->Union[str, Any]: """simple docstring""" a = AutoTokenizer.from_pretrained(__UpperCAmelCase , use_fast=__UpperCAmelCase ) if tok_name == MBART_TINY: a = SeqaSeqDataset( __UpperCAmelCase , data_dir=make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir() ) , type_path='''train''' , max_source_length=4 , max_target_length=8 , src_lang='''EN''' , tgt_lang='''FR''' , ) a = train_dataset.dataset_kwargs assert "src_lang" in kwargs and "tgt_lang" in kwargs else: a = SeqaSeqDataset( __UpperCAmelCase , data_dir=make_test_data_dir(tmp_dir=self.get_auto_remove_tmp_dir() ) , type_path='''train''' , max_source_length=4 , max_target_length=8 , ) a = train_dataset.dataset_kwargs assert "add_prefix_space" not in kwargs if tok_name != BART_TINY else "add_prefix_space" in kwargs assert len(__UpperCAmelCase ) == 1 if tok_name == BART_TINY else len(__UpperCAmelCase ) == 0

from __future__ import annotations UpperCAmelCase__ = list[list[int]] # assigning initial values to the grid UpperCAmelCase__ = [ [3, 0, 6, 5, 0, 8, 4, 0, 0], [5, 2, 0, 0, 0, 0, 0, 0, 0], [0, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] # a grid with no solution UpperCAmelCase__ = [ [5, 0, 6, 5, 0, 8, 4, 0, 3], [5, 2, 0, 0, 0, 0, 0, 0, 2], [1, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] def _a ( a :Matrix , a :int , a :int , a :int ) -> bool: for i in range(9 ): if grid[row][i] == n or grid[i][column] == n: return False for i in range(3 ): for j in range(3 ): if grid[(row - row % 3) + i][(column - column % 3) + j] == n: return False return True def _a ( a :Matrix ) -> tuple[int, int] | None: for i in range(9 ): for j in range(9 ): if grid[i][j] == 0: return i, j return None def _a ( a :Matrix ) -> Matrix | None: if location := find_empty_location(a ): a , a = location else: # If the location is ``None``, then the grid is solved. return grid for digit in range(1 , 10 ): if is_safe(a , a , a , a ): a = digit if sudoku(a ) is not None: return grid a = 0 return None def _a ( a :Matrix ) -> None: for row in grid: for cell in row: print(a , end=''' ''' ) print() if __name__ == "__main__": # make a copy of grid so that you can compare with the unmodified grid for example_grid in (initial_grid, no_solution): print("\nExample grid:\n" + "=" * 20) print_solution(example_grid) print("\nExample grid solution:") UpperCAmelCase__ = sudoku(example_grid) if solution is not None: print_solution(solution) else: print("Cannot find a solution.")

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available UpperCAmelCase__ = { "configuration_megatron_bert": ["MEGATRON_BERT_PRETRAINED_CONFIG_ARCHIVE_MAP", "MegatronBertConfig"], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "MEGATRON_BERT_PRETRAINED_MODEL_ARCHIVE_LIST", "MegatronBertForCausalLM", "MegatronBertForMaskedLM", "MegatronBertForMultipleChoice", "MegatronBertForNextSentencePrediction", "MegatronBertForPreTraining", "MegatronBertForQuestionAnswering", "MegatronBertForSequenceClassification", "MegatronBertForTokenClassification", "MegatronBertModel", "MegatronBertPreTrainedModel", ] if TYPE_CHECKING: from .configuration_megatron_bert import MEGATRON_BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, MegatronBertConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_megatron_bert import ( MEGATRON_BERT_PRETRAINED_MODEL_ARCHIVE_LIST, MegatronBertForCausalLM, MegatronBertForMaskedLM, MegatronBertForMultipleChoice, MegatronBertForNextSentencePrediction, MegatronBertForPreTraining, MegatronBertForQuestionAnswering, MegatronBertForSequenceClassification, MegatronBertForTokenClassification, MegatronBertModel, MegatronBertPreTrainedModel, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

import unittest import numpy as np import torch from torch import nn from transformers import ( CLIPImageProcessor, CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer, CLIPVisionConfig, CLIPVisionModelWithProjection, ) from diffusers import KandinskyVaaPriorPipeline, PriorTransformer, UnCLIPScheduler from diffusers.utils import torch_device from diffusers.utils.testing_utils import enable_full_determinism, skip_mps from ..test_pipelines_common import PipelineTesterMixin enable_full_determinism() class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = KandinskyVaaPriorPipeline __snake_case = ['''prompt'''] __snake_case = ['''prompt''', '''negative_prompt'''] __snake_case = [ '''num_images_per_prompt''', '''generator''', '''num_inference_steps''', '''latents''', '''negative_prompt''', '''guidance_scale''', '''output_type''', '''return_dict''', ] __snake_case = False @property def __lowerCAmelCase ( self : Optional[Any] ) ->Union[str, Any]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Dict ) ->Any: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : int ) ->List[str]: """simple docstring""" return self.time_input_dim @property def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" return self.time_input_dim * 4 @property def __lowerCAmelCase ( self : Any ) ->List[Any]: """simple docstring""" return 100 @property def __lowerCAmelCase ( self : List[Any] ) ->str: """simple docstring""" a = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) return tokenizer @property def __lowerCAmelCase ( self : Tuple ) ->str: """simple docstring""" torch.manual_seed(0 ) a = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1e-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__UpperCAmelCase ) @property def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" torch.manual_seed(0 ) a = { '''num_attention_heads''': 2, '''attention_head_dim''': 12, '''embedding_dim''': self.text_embedder_hidden_size, '''num_layers''': 1, } a = PriorTransformer(**__UpperCAmelCase ) # clip_std and clip_mean is initialized to be 0 so PriorTransformer.post_process_latents will always return 0 - set clip_std to be 1 so it won't return 0 a = nn.Parameter(torch.ones(model.clip_std.shape ) ) return model @property def __lowerCAmelCase ( self : Optional[int] ) ->List[Any]: """simple docstring""" torch.manual_seed(0 ) a = CLIPVisionConfig( hidden_size=self.text_embedder_hidden_size , image_size=224 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=14 , ) a = CLIPVisionModelWithProjection(__UpperCAmelCase ) return model @property def __lowerCAmelCase ( self : Tuple ) ->int: """simple docstring""" a = CLIPImageProcessor( crop_size=224 , do_center_crop=__UpperCAmelCase , do_normalize=__UpperCAmelCase , do_resize=__UpperCAmelCase , image_mean=[0.48145466, 0.4578275, 0.40821073] , image_std=[0.26862954, 0.26130258, 0.27577711] , resample=3 , size=224 , ) return image_processor def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = self.dummy_prior a = self.dummy_image_encoder a = self.dummy_text_encoder a = self.dummy_tokenizer a = self.dummy_image_processor a = UnCLIPScheduler( variance_type='''fixed_small_log''' , prediction_type='''sample''' , num_train_timesteps=1_000 , clip_sample=__UpperCAmelCase , clip_sample_range=10.0 , ) a = { '''prior''': prior, '''image_encoder''': image_encoder, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''scheduler''': scheduler, '''image_processor''': image_processor, } return components def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : str=0 ) ->int: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''prompt''': '''horse''', '''generator''': generator, '''guidance_scale''': 4.0, '''num_inference_steps''': 2, '''output_type''': '''np''', } return inputs def __lowerCAmelCase ( self : str ) ->Tuple: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = pipe(**self.get_dummy_inputs(__UpperCAmelCase ) ) a = output.image_embeds a = pipe( **self.get_dummy_inputs(__UpperCAmelCase ) , return_dict=__UpperCAmelCase , )[0] a = image[0, -10:] a = image_from_tuple[0, -10:] assert image.shape == (1, 32) a = np.array( [-0.0532, 1.7120, 0.3656, -1.0852, -0.8946, -1.1756, 0.4348, 0.2482, 0.5146, -0.1156] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1e-2 @skip_mps def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = torch_device == '''cpu''' a = True a = False self._test_inference_batch_single_identical( test_max_difference=__UpperCAmelCase , relax_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , ) @skip_mps def __lowerCAmelCase ( self : List[str] ) ->Union[str, Any]: """simple docstring""" a = torch_device == '''cpu''' a = False self._test_attention_slicing_forward_pass( test_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , )

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) UpperCAmelCase__ = logging.getLogger() def _a ( ) -> Optional[int]: a = argparse.ArgumentParser() parser.add_argument('''-f''' ) a = parser.parse_args() return args.f def _a ( a :Any ) -> Tuple: a = {} a = os.path.join(a , '''all_results.json''' ) if os.path.exists(a ): with open(a , '''r''' ) as f: a = json.load(a ) else: raise ValueError(F"""can't find {path}""" ) return results def _a ( ) -> int: a = torch.cuda.is_available() and torch_device == '''cuda''' return is_using_cuda and is_apex_available() UpperCAmelCase__ = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class lowercase_ ( lowercase ): '''simple docstring''' @classmethod def __lowerCAmelCase ( cls : str ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() a = os.path.join(cls.tmpdir , '''default_config.yml''' ) write_basic_config(save_location=cls.configPath ) a = ['''accelerate''', '''launch''', '''--config_file''', cls.configPath] @classmethod def __lowerCAmelCase ( cls : Optional[int] ) ->Union[str, Any]: """simple docstring""" shutil.rmtree(cls.tmpdir ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->str: """simple docstring""" a = 7 if get_gpu_count() > 1 else 2 a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : List[str] ) ->int: """simple docstring""" a = logging.StreamHandler(sys.stdout ) logger.addHandler(__UpperCAmelCase ) a = self.get_auto_remove_tmp_dir() a = 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 ) a = get_results(__UpperCAmelCase ) self.assertGreaterEqual(result['''eval_overall_accuracy'''] , 0.10 ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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''' ) ) )

from math import factorial UpperCAmelCase__ = {str(digit): factorial(digit) for digit in range(10)} def _a ( a :int ) -> int: if not isinstance(a , a ): raise TypeError('''Parameter number must be int''' ) if number < 0: raise ValueError('''Parameter number must be greater than or equal to 0''' ) # Converts number in string to iterate on its digits and adds its factorial. return sum(DIGIT_FACTORIAL[digit] for digit in str(a ) ) def _a ( a :int = 60 , a :int = 1_000_000 ) -> int: if not isinstance(a , a ) or not isinstance(a , a ): raise TypeError('''Parameters chain_length and number_limit must be int''' ) if chain_length <= 0 or number_limit <= 0: raise ValueError( '''Parameters chain_length and number_limit must be greater than 0''' ) # the counter for the chains with the exact desired length a = 0 # the cached sizes of the previous chains a = {} for start_chain_element in range(1 , a ): # The temporary set will contain the elements of the chain a = set() a = 0 # Stop computing the chain when you find a cached size, a repeating item or the # length is greater then the desired one. a = start_chain_element while ( chain_element not in chain_sets_lengths and chain_element not in chain_set and chain_set_length <= chain_length ): chain_set.add(a ) chain_set_length += 1 a = digit_factorial_sum(a ) if chain_element in chain_sets_lengths: chain_set_length += chain_sets_lengths[chain_element] a = chain_set_length # If chain contains the exact amount of elements increase the counter if chain_set_length == chain_length: chains_counter += 1 return chains_counter if __name__ == "__main__": import doctest doctest.testmod() print(f"""{solution()}""")

from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_tf_available, is_torch_available, ) UpperCAmelCase__ = { "configuration_wav2vec2": ["WAV_2_VEC_2_PRETRAINED_CONFIG_ARCHIVE_MAP", "Wav2Vec2Config"], "feature_extraction_wav2vec2": ["Wav2Vec2FeatureExtractor"], "processing_wav2vec2": ["Wav2Vec2Processor"], "tokenization_wav2vec2": ["Wav2Vec2CTCTokenizer", "Wav2Vec2Tokenizer"], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "WAV_2_VEC_2_PRETRAINED_MODEL_ARCHIVE_LIST", "Wav2Vec2ForAudioFrameClassification", "Wav2Vec2ForCTC", "Wav2Vec2ForMaskedLM", "Wav2Vec2ForPreTraining", "Wav2Vec2ForSequenceClassification", "Wav2Vec2ForXVector", "Wav2Vec2Model", "Wav2Vec2PreTrainedModel", ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "TF_WAV_2_VEC_2_PRETRAINED_MODEL_ARCHIVE_LIST", "TFWav2Vec2ForCTC", "TFWav2Vec2Model", "TFWav2Vec2PreTrainedModel", "TFWav2Vec2ForSequenceClassification", ] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "FlaxWav2Vec2ForCTC", "FlaxWav2Vec2ForPreTraining", "FlaxWav2Vec2Model", "FlaxWav2Vec2PreTrainedModel", ] if TYPE_CHECKING: from .configuration_wavaveca import WAV_2_VEC_2_PRETRAINED_CONFIG_ARCHIVE_MAP, WavaVecaConfig from .feature_extraction_wavaveca import WavaVecaFeatureExtractor from .processing_wavaveca import WavaVecaProcessor from .tokenization_wavaveca import WavaVecaCTCTokenizer, WavaVecaTokenizer try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_wavaveca import ( WAV_2_VEC_2_PRETRAINED_MODEL_ARCHIVE_LIST, WavaVecaForAudioFrameClassification, WavaVecaForCTC, WavaVecaForMaskedLM, WavaVecaForPreTraining, WavaVecaForSequenceClassification, WavaVecaForXVector, WavaVecaModel, WavaVecaPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_wavaveca import ( TF_WAV_2_VEC_2_PRETRAINED_MODEL_ARCHIVE_LIST, TFWavaVecaForCTC, TFWavaVecaForSequenceClassification, TFWavaVecaModel, TFWavaVecaPreTrainedModel, ) try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_wavaveca import ( FlaxWavaVecaForCTC, FlaxWavaVecaForPreTraining, FlaxWavaVecaModel, FlaxWavaVecaPreTrainedModel, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

def _a ( a :int = 100 ) -> int: a = n * (n + 1) * (2 * n + 1) / 6 a = (n * (n + 1) / 2) ** 2 return int(square_of_sum - sum_of_squares ) if __name__ == "__main__": print(f"""{solution() = }""")

import math_equivalence # From: git+https://github.com/hendrycks/math.git import datasets UpperCAmelCase__ = "\\n@article{hendrycksmath2021,\n title={Measuring Mathematical Problem Solving With the MATH Dataset},\n author={Dan Hendrycks\n and Collin Burns\n and Saurav Kadavath\n and Akul Arora\n and Steven Basart\n and Eric Tang\n and Dawn Song\n and Jacob Steinhardt},\n journal={arXiv preprint arXiv:2103.03874},\n year={2021}\n}\n" UpperCAmelCase__ = "\\nThis metric is used to assess performance on the Mathematics Aptitude Test of Heuristics (MATH) dataset.\nIt first canonicalizes the inputs (e.g., converting \"1/2\" to \"\\frac{1}{2}\") and then computes accuracy.\n" UpperCAmelCase__ = R"\nCalculates accuracy after canonicalizing inputs.\n\nArgs:\n predictions: list of predictions to score. Each prediction\n is a string that contains natural language and LaTex.\n references: list of reference for each prediction. Each\n reference is a string that contains natural language\n and LaTex.\nReturns:\n accuracy: accuracy after canonicalizing inputs\n (e.g., converting \"1/2\" to \"\\frac{1}{2}\")\n\nExamples:\n >>> metric = datasets.load_metric(\"competition_math\")\n >>> results = metric.compute(references=[\"\\frac{1}{2}\"], predictions=[\"1/2\"])\n >>> print(results)\n {'accuracy': 1.0}\n" @datasets.utils.file_utils.add_end_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION ) class lowercase_ ( datasets.Metric ): '''simple docstring''' def __lowerCAmelCase ( self : Optional[int] ) ->Optional[int]: """simple docstring""" return datasets.MetricInfo( description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features( { '''predictions''': datasets.Value('''string''' ), '''references''': datasets.Value('''string''' ), } ) , homepage='''https://github.com/hendrycks/math''' , codebase_urls=['''https://github.com/hendrycks/math'''] , ) def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : int , __UpperCAmelCase : List[Any] ) ->Tuple: """simple docstring""" a = 0.0 for i, j in zip(__UpperCAmelCase , __UpperCAmelCase ): n_correct += 1.0 if math_equivalence.is_equiv(__UpperCAmelCase , __UpperCAmelCase ) else 0.0 a = n_correct / len(__UpperCAmelCase ) return { "accuracy": accuracy, }

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available UpperCAmelCase__ = { "configuration_groupvit": [ "GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP", "GroupViTConfig", "GroupViTOnnxConfig", "GroupViTTextConfig", "GroupViTVisionConfig", ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST", "GroupViTModel", "GroupViTPreTrainedModel", "GroupViTTextModel", "GroupViTVisionModel", ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST", "TFGroupViTModel", "TFGroupViTPreTrainedModel", "TFGroupViTTextModel", "TFGroupViTVisionModel", ] if TYPE_CHECKING: from .configuration_groupvit import ( GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP, GroupViTConfig, GroupViTOnnxConfig, GroupViTTextConfig, GroupViTVisionConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_groupvit import ( GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST, GroupViTModel, GroupViTPreTrainedModel, GroupViTTextModel, GroupViTVisionModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_groupvit import ( TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST, TFGroupViTModel, TFGroupViTPreTrainedModel, TFGroupViTTextModel, TFGroupViTVisionModel, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

from argparse import ArgumentParser, Namespace from ..utils import logging from . import BaseTransformersCLICommand def _a ( a :Namespace ) -> Optional[int]: return ConvertCommand( args.model_type , args.tf_checkpoint , args.pytorch_dump_output , args.config , args.finetuning_task_name ) UpperCAmelCase__ = "\ntransformers can only be used from the commandline to convert TensorFlow models in PyTorch, In that case, it requires\nTensorFlow to be installed. Please see https://www.tensorflow.org/install/ for installation instructions.\n" class lowercase_ ( lowercase ): '''simple docstring''' @staticmethod def __lowerCAmelCase ( __UpperCAmelCase : ArgumentParser ) ->List[str]: """simple docstring""" a = parser.add_parser( '''convert''' , help='''CLI tool to run convert model from original author checkpoints to Transformers PyTorch checkpoints.''' , ) train_parser.add_argument('''--model_type''' , type=__UpperCAmelCase , required=__UpperCAmelCase , help='''Model\'s type.''' ) train_parser.add_argument( '''--tf_checkpoint''' , type=__UpperCAmelCase , required=__UpperCAmelCase , help='''TensorFlow checkpoint path or folder.''' ) train_parser.add_argument( '''--pytorch_dump_output''' , type=__UpperCAmelCase , required=__UpperCAmelCase , help='''Path to the PyTorch saved model output.''' ) train_parser.add_argument('''--config''' , type=__UpperCAmelCase , default='''''' , help='''Configuration file path or folder.''' ) train_parser.add_argument( '''--finetuning_task_name''' , type=__UpperCAmelCase , default=__UpperCAmelCase , help='''Optional fine-tuning task name if the TF model was a finetuned model.''' , ) train_parser.set_defaults(func=__UpperCAmelCase ) def __init__( self : Optional[int] , __UpperCAmelCase : str , __UpperCAmelCase : str , __UpperCAmelCase : str , __UpperCAmelCase : str , __UpperCAmelCase : str , *__UpperCAmelCase : Optional[Any] , ) ->Optional[Any]: """simple docstring""" a = logging.get_logger('''transformers-cli/converting''' ) self._logger.info(F"""Loading model {model_type}""" ) a = model_type a = tf_checkpoint a = pytorch_dump_output a = config a = finetuning_task_name def __lowerCAmelCase ( self : List[str] ) ->Optional[Any]: """simple docstring""" if self._model_type == "albert": try: from ..models.albert.convert_albert_original_tf_checkpoint_to_pytorch import ( convert_tf_checkpoint_to_pytorch, ) except ImportError: raise ImportError(__UpperCAmelCase ) convert_tf_checkpoint_to_pytorch(self._tf_checkpoint , self._config , self._pytorch_dump_output ) elif self._model_type == "bert": try: from ..models.bert.convert_bert_original_tf_checkpoint_to_pytorch import ( convert_tf_checkpoint_to_pytorch, ) except ImportError: raise ImportError(__UpperCAmelCase ) convert_tf_checkpoint_to_pytorch(self._tf_checkpoint , self._config , self._pytorch_dump_output ) elif self._model_type == "funnel": try: from ..models.funnel.convert_funnel_original_tf_checkpoint_to_pytorch import ( convert_tf_checkpoint_to_pytorch, ) except ImportError: raise ImportError(__UpperCAmelCase ) convert_tf_checkpoint_to_pytorch(self._tf_checkpoint , self._config , self._pytorch_dump_output ) elif self._model_type == "t5": try: from ..models.ta.convert_ta_original_tf_checkpoint_to_pytorch import convert_tf_checkpoint_to_pytorch except ImportError: raise ImportError(__UpperCAmelCase ) convert_tf_checkpoint_to_pytorch(self._tf_checkpoint , self._config , self._pytorch_dump_output ) elif self._model_type == "gpt": from ..models.openai.convert_openai_original_tf_checkpoint_to_pytorch import ( convert_openai_checkpoint_to_pytorch, ) convert_openai_checkpoint_to_pytorch(self._tf_checkpoint , self._config , self._pytorch_dump_output ) elif self._model_type == "transfo_xl": try: from ..models.transfo_xl.convert_transfo_xl_original_tf_checkpoint_to_pytorch import ( convert_transfo_xl_checkpoint_to_pytorch, ) except ImportError: raise ImportError(__UpperCAmelCase ) if "ckpt" in self._tf_checkpoint.lower(): a = self._tf_checkpoint a = '''''' else: a = self._tf_checkpoint a = '''''' convert_transfo_xl_checkpoint_to_pytorch( __UpperCAmelCase , self._config , self._pytorch_dump_output , __UpperCAmelCase ) elif self._model_type == "gpt2": try: from ..models.gpta.convert_gpta_original_tf_checkpoint_to_pytorch import ( convert_gpta_checkpoint_to_pytorch, ) except ImportError: raise ImportError(__UpperCAmelCase ) convert_gpta_checkpoint_to_pytorch(self._tf_checkpoint , self._config , self._pytorch_dump_output ) elif self._model_type == "xlnet": try: from ..models.xlnet.convert_xlnet_original_tf_checkpoint_to_pytorch import ( convert_xlnet_checkpoint_to_pytorch, ) except ImportError: raise ImportError(__UpperCAmelCase ) convert_xlnet_checkpoint_to_pytorch( self._tf_checkpoint , self._config , self._pytorch_dump_output , self._finetuning_task_name ) elif self._model_type == "xlm": from ..models.xlm.convert_xlm_original_pytorch_checkpoint_to_pytorch import ( convert_xlm_checkpoint_to_pytorch, ) convert_xlm_checkpoint_to_pytorch(self._tf_checkpoint , self._pytorch_dump_output ) elif self._model_type == "lxmert": from ..models.lxmert.convert_lxmert_original_tf_checkpoint_to_pytorch import ( convert_lxmert_checkpoint_to_pytorch, ) convert_lxmert_checkpoint_to_pytorch(self._tf_checkpoint , self._pytorch_dump_output ) elif self._model_type == "rembert": from ..models.rembert.convert_rembert_tf_checkpoint_to_pytorch import ( convert_rembert_tf_checkpoint_to_pytorch, ) convert_rembert_tf_checkpoint_to_pytorch(self._tf_checkpoint , self._config , self._pytorch_dump_output ) else: raise ValueError( '''--model_type should be selected in the list [bert, gpt, gpt2, t5, transfo_xl, xlnet, xlm, lxmert]''' )

import gc import unittest import numpy as np import torch from transformers import CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer from diffusers import HeunDiscreteScheduler, PriorTransformer, ShapEPipeline from diffusers.pipelines.shap_e import ShapERenderer from diffusers.utils import load_numpy, slow from diffusers.utils.testing_utils import require_torch_gpu, torch_device from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ShapEPipeline __snake_case = ['''prompt'''] __snake_case = ['''prompt'''] __snake_case = [ '''num_images_per_prompt''', '''num_inference_steps''', '''generator''', '''latents''', '''guidance_scale''', '''frame_size''', '''output_type''', '''return_dict''', ] __snake_case = False @property def __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Any ) ->Tuple: """simple docstring""" return self.time_input_dim * 4 @property def __lowerCAmelCase ( self : Tuple ) ->Optional[Any]: """simple docstring""" return 8 @property def __lowerCAmelCase ( self : Tuple ) ->str: """simple docstring""" a = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) return tokenizer @property def __lowerCAmelCase ( self : Union[str, Any] ) ->List[Any]: """simple docstring""" torch.manual_seed(0 ) a = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1e-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__UpperCAmelCase ) @property def __lowerCAmelCase ( self : Dict ) ->Union[str, Any]: """simple docstring""" torch.manual_seed(0 ) a = { '''num_attention_heads''': 2, '''attention_head_dim''': 16, '''embedding_dim''': self.time_input_dim, '''num_embeddings''': 32, '''embedding_proj_dim''': self.text_embedder_hidden_size, '''time_embed_dim''': self.time_embed_dim, '''num_layers''': 1, '''clip_embed_dim''': self.time_input_dim * 2, '''additional_embeddings''': 0, '''time_embed_act_fn''': '''gelu''', '''norm_in_type''': '''layer''', '''encoder_hid_proj_type''': None, '''added_emb_type''': None, } a = PriorTransformer(**__UpperCAmelCase ) return model @property def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" torch.manual_seed(0 ) a = { '''param_shapes''': ( (self.renderer_dim, 93), (self.renderer_dim, 8), (self.renderer_dim, 8), (self.renderer_dim, 8), ), '''d_latent''': self.time_input_dim, '''d_hidden''': self.renderer_dim, '''n_output''': 12, '''background''': ( 0.1, 0.1, 0.1, ), } a = ShapERenderer(**__UpperCAmelCase ) return model def __lowerCAmelCase ( self : List[Any] ) ->Any: """simple docstring""" a = self.dummy_prior a = self.dummy_text_encoder a = self.dummy_tokenizer a = self.dummy_renderer a = HeunDiscreteScheduler( beta_schedule='''exp''' , num_train_timesteps=1_024 , prediction_type='''sample''' , use_karras_sigmas=__UpperCAmelCase , clip_sample=__UpperCAmelCase , clip_sample_range=1.0 , ) a = { '''prior''': prior, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''renderer''': renderer, '''scheduler''': scheduler, } return components def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : str=0 ) ->Optional[int]: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''prompt''': '''horse''', '''generator''': generator, '''num_inference_steps''': 1, '''frame_size''': 32, '''output_type''': '''np''', } return inputs def __lowerCAmelCase ( self : Dict ) ->Optional[int]: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = pipe(**self.get_dummy_inputs(__UpperCAmelCase ) ) a = output.images[0] a = image[0, -3:, -3:, -1] assert image.shape == (20, 32, 32, 3) a = np.array( [ 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, ] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 def __lowerCAmelCase ( self : Dict ) ->Optional[Any]: """simple docstring""" self._test_inference_batch_consistent(batch_sizes=[1, 2] ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = torch_device == '''cpu''' a = True self._test_inference_batch_single_identical( batch_size=2 , test_max_difference=__UpperCAmelCase , relax_max_difference=__UpperCAmelCase , ) def __lowerCAmelCase ( self : str ) ->Optional[int]: """simple docstring""" a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = 1 a = 2 a = self.get_dummy_inputs(__UpperCAmelCase ) for key in inputs.keys(): if key in self.batch_params: a = batch_size * [inputs[key]] a = pipe(**__UpperCAmelCase , num_images_per_prompt=__UpperCAmelCase )[0] assert images.shape[0] == batch_size * num_images_per_prompt @slow @require_torch_gpu class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : int ) ->Any: """simple docstring""" super().tearDown() gc.collect() torch.cuda.empty_cache() def __lowerCAmelCase ( self : List[Any] ) ->Union[str, Any]: """simple docstring""" a = load_numpy( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' '''/shap_e/test_shap_e_np_out.npy''' ) a = ShapEPipeline.from_pretrained('''openai/shap-e''' ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = torch.Generator(device=__UpperCAmelCase ).manual_seed(0 ) a = pipe( '''a shark''' , generator=__UpperCAmelCase , guidance_scale=15.0 , num_inference_steps=64 , frame_size=64 , output_type='''np''' , ).images[0] assert images.shape == (20, 64, 64, 3) assert_mean_pixel_difference(__UpperCAmelCase , __UpperCAmelCase )

from ...configuration_utils import PretrainedConfig from ...utils import logging from ...utils.backbone_utils import BackboneConfigMixin, get_aligned_output_features_output_indices UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "facebook/convnextv2-tiny-1k-224": "https://huggingface.co/facebook/convnextv2-tiny-1k-224/resolve/main/config.json", } class lowercase_ ( lowercase , lowercase ): '''simple docstring''' __snake_case = '''convnextv2''' def __init__( self : Any , __UpperCAmelCase : Tuple=3 , __UpperCAmelCase : Dict=4 , __UpperCAmelCase : Optional[Any]=4 , __UpperCAmelCase : Optional[int]=None , __UpperCAmelCase : Dict=None , __UpperCAmelCase : Union[str, Any]="gelu" , __UpperCAmelCase : Optional[Any]=0.02 , __UpperCAmelCase : List[str]=1e-1_2 , __UpperCAmelCase : Tuple=0.0 , __UpperCAmelCase : Any=224 , __UpperCAmelCase : Any=None , __UpperCAmelCase : List[Any]=None , **__UpperCAmelCase : str , ) ->Union[str, Any]: """simple docstring""" super().__init__(**__UpperCAmelCase ) a = num_channels a = patch_size a = num_stages a = [96, 192, 384, 768] if hidden_sizes is None else hidden_sizes a = [3, 3, 9, 3] if depths is None else depths a = hidden_act a = initializer_range a = layer_norm_eps a = drop_path_rate a = image_size a = ['''stem'''] + [F"""stage{idx}""" for idx in range(1 , len(self.depths ) + 1 )] a , a = get_aligned_output_features_output_indices( out_features=__UpperCAmelCase , out_indices=__UpperCAmelCase , stage_names=self.stage_names )

from __future__ import annotations import time import numpy as np UpperCAmelCase__ = [8, 5, 9, 7] UpperCAmelCase__ = [ [2, 0, 1, 1], [0, 1, 2, 1], [4, 0, 0, 3], [0, 2, 1, 0], [1, 0, 3, 0], ] UpperCAmelCase__ = [ [3, 2, 1, 4], [0, 2, 5, 2], [5, 1, 0, 5], [1, 5, 3, 0], [3, 0, 3, 3], ] class lowercase_ : '''simple docstring''' def __init__( self : Optional[int] , __UpperCAmelCase : list[int] , __UpperCAmelCase : list[list[int]] , __UpperCAmelCase : list[list[int]] , ) ->None: """simple docstring""" a = claim_vector a = allocated_resources_table a = maximum_claim_table def __lowerCAmelCase ( self : Any ) ->list[int]: """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 __lowerCAmelCase ( self : Optional[int] ) ->list[int]: """simple docstring""" return np.array(self.__claim_vector ) - np.array( self.__processes_resource_summation() ) def __lowerCAmelCase ( self : Union[str, Any] ) ->list[list[int]]: """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 __lowerCAmelCase ( self : Tuple ) ->dict[int, list[int]]: """simple docstring""" return {self.__need().index(__UpperCAmelCase ): i for i in self.__need()} def __lowerCAmelCase ( self : Optional[Any] , **__UpperCAmelCase : Any ) ->None: """simple docstring""" a = self.__need() a = self.__allocated_resources_table a = self.__available_resources() a = 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: a = False for each_need in need_list: a = True for index, need in enumerate(__UpperCAmelCase ): if need > available_resources[index]: a = False break if execution: a = 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: a = 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 a = 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 __lowerCAmelCase ( self : List[Any] ) ->Dict: """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()

import inspect import unittest from transformers import MobileViTConfig from transformers.testing_utils import require_torch, require_vision, slow, torch_device from transformers.utils import cached_property, is_torch_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MobileViTForImageClassification, MobileViTForSemanticSegmentation, MobileViTModel from transformers.models.mobilevit.modeling_mobilevit import MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import MobileViTImageProcessor class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : Dict ) ->List[Any]: """simple docstring""" a = self.config_class(**self.inputs_dict ) self.parent.assertTrue(hasattr(__UpperCAmelCase , '''hidden_sizes''' ) ) self.parent.assertTrue(hasattr(__UpperCAmelCase , '''neck_hidden_sizes''' ) ) self.parent.assertTrue(hasattr(__UpperCAmelCase , '''num_attention_heads''' ) ) class lowercase_ : '''simple docstring''' def __init__( self : List[str] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Tuple=13 , __UpperCAmelCase : Optional[Any]=32 , __UpperCAmelCase : int=2 , __UpperCAmelCase : Union[str, Any]=3 , __UpperCAmelCase : Dict=640 , __UpperCAmelCase : str=4 , __UpperCAmelCase : int="silu" , __UpperCAmelCase : List[Any]=3 , __UpperCAmelCase : Union[str, Any]=32 , __UpperCAmelCase : Optional[Any]=0.1 , __UpperCAmelCase : Optional[Any]=0.1 , __UpperCAmelCase : List[str]=0.1 , __UpperCAmelCase : List[Any]=0.02 , __UpperCAmelCase : Tuple=True , __UpperCAmelCase : str=True , __UpperCAmelCase : Any=10 , __UpperCAmelCase : List[str]=None , ) ->Any: """simple docstring""" a = parent a = batch_size a = image_size a = patch_size a = num_channels a = last_hidden_size a = num_attention_heads a = hidden_act a = conv_kernel_size a = output_stride a = hidden_dropout_prob a = attention_probs_dropout_prob a = classifier_dropout_prob a = use_labels a = is_training a = num_labels a = initializer_range a = scope def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[Any]: """simple docstring""" a = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) a = None a = None if self.use_labels: a = ids_tensor([self.batch_size] , self.num_labels ) a = ids_tensor([self.batch_size, self.image_size, self.image_size] , self.num_labels ) a = self.get_config() return config, pixel_values, labels, pixel_labels def __lowerCAmelCase ( self : Tuple ) ->int: """simple docstring""" return MobileViTConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , num_attention_heads=self.num_attention_heads , hidden_act=self.hidden_act , conv_kernel_size=self.conv_kernel_size , output_stride=self.output_stride , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , classifier_dropout_prob=self.classifier_dropout_prob , initializer_range=self.initializer_range , ) def __lowerCAmelCase ( self : int , __UpperCAmelCase : Dict , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : List[str] , __UpperCAmelCase : Optional[int] ) ->Any: """simple docstring""" a = MobileViTModel(config=__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model(__UpperCAmelCase ) self.parent.assertEqual( result.last_hidden_state.shape , ( self.batch_size, self.last_hidden_size, self.image_size // self.output_stride, self.image_size // self.output_stride, ) , ) def __lowerCAmelCase ( self : Any , __UpperCAmelCase : int , __UpperCAmelCase : Dict , __UpperCAmelCase : Tuple , __UpperCAmelCase : Dict ) ->Tuple: """simple docstring""" a = self.num_labels a = MobileViTForImageClassification(__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model(__UpperCAmelCase , labels=__UpperCAmelCase ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) ) def __lowerCAmelCase ( self : Union[str, Any] , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : Tuple , __UpperCAmelCase : Optional[Any] ) ->Optional[int]: """simple docstring""" a = self.num_labels a = MobileViTForSemanticSegmentation(__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model(__UpperCAmelCase ) self.parent.assertEqual( result.logits.shape , ( self.batch_size, self.num_labels, self.image_size // self.output_stride, self.image_size // self.output_stride, ) , ) a = model(__UpperCAmelCase , labels=__UpperCAmelCase ) self.parent.assertEqual( result.logits.shape , ( self.batch_size, self.num_labels, self.image_size // self.output_stride, self.image_size // self.output_stride, ) , ) def __lowerCAmelCase ( self : Dict ) ->Tuple: """simple docstring""" a = self.prepare_config_and_inputs() a , a , a , a = config_and_inputs a = {'''pixel_values''': pixel_values} return config, inputs_dict @require_torch class lowercase_ ( lowercase , lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ( (MobileViTModel, MobileViTForImageClassification, MobileViTForSemanticSegmentation) if is_torch_available() else () ) __snake_case = ( { '''feature-extraction''': MobileViTModel, '''image-classification''': MobileViTForImageClassification, '''image-segmentation''': MobileViTForSemanticSegmentation, } if is_torch_available() else {} ) __snake_case = False __snake_case = False __snake_case = False __snake_case = False def __lowerCAmelCase ( self : List[str] ) ->str: """simple docstring""" a = MobileViTModelTester(self ) a = MobileViTConfigTester(self , config_class=__UpperCAmelCase , has_text_modality=__UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] ) ->int: """simple docstring""" self.config_tester.run_common_tests() @unittest.skip(reason='''MobileViT does not use inputs_embeds''' ) def __lowerCAmelCase ( self : int ) ->Union[str, Any]: """simple docstring""" pass @unittest.skip(reason='''MobileViT does not support input and output embeddings''' ) def __lowerCAmelCase ( self : Dict ) ->Union[str, Any]: """simple docstring""" pass @unittest.skip(reason='''MobileViT does not output attentions''' ) def __lowerCAmelCase ( self : Dict ) ->List[str]: """simple docstring""" pass def __lowerCAmelCase ( self : Dict ) ->Union[str, Any]: """simple docstring""" a , a = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: a = model_class(__UpperCAmelCase ) a = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic a = [*signature.parameters.keys()] a = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , __UpperCAmelCase ) @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def __lowerCAmelCase ( self : str ) ->Optional[int]: """simple docstring""" pass def __lowerCAmelCase ( self : List[str] ) ->Dict: """simple docstring""" a = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" def check_hidden_states_output(__UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : List[str] , __UpperCAmelCase : Tuple ): a = model_class(__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() with torch.no_grad(): a = model(**self._prepare_for_class(__UpperCAmelCase , __UpperCAmelCase ) ) a = outputs.hidden_states a = 5 self.assertEqual(len(__UpperCAmelCase ) , __UpperCAmelCase ) # MobileViT's feature maps are of shape (batch_size, num_channels, height, width) # with the width and height being successively divided by 2. a = 2 for i in range(len(__UpperCAmelCase ) ): self.assertListEqual( list(hidden_states[i].shape[-2:] ) , [self.model_tester.image_size // divisor, self.model_tester.image_size // divisor] , ) divisor *= 2 self.assertEqual(self.model_tester.output_stride , divisor // 2 ) a , a = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: a = True check_hidden_states_output(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] a = True check_hidden_states_output(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[int]: """simple docstring""" a = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_classification(*__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] ) ->str: """simple docstring""" a = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_semantic_segmentation(*__UpperCAmelCase ) @slow def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" for model_name in MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: a = MobileViTModel.from_pretrained(__UpperCAmelCase ) self.assertIsNotNone(__UpperCAmelCase ) def _a ( ) -> Union[str, Any]: a = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_torch @require_vision class lowercase_ ( unittest.TestCase ): '''simple docstring''' @cached_property def __lowerCAmelCase ( self : Any ) ->List[str]: """simple docstring""" return MobileViTImageProcessor.from_pretrained('''apple/mobilevit-xx-small''' ) if is_vision_available() else None @slow def __lowerCAmelCase ( self : Dict ) ->Any: """simple docstring""" a = MobileViTForImageClassification.from_pretrained('''apple/mobilevit-xx-small''' ).to(__UpperCAmelCase ) a = self.default_image_processor a = prepare_img() a = image_processor(images=__UpperCAmelCase , return_tensors='''pt''' ).to(__UpperCAmelCase ) # forward pass with torch.no_grad(): a = model(**__UpperCAmelCase ) # verify the logits a = torch.Size((1, 1_000) ) self.assertEqual(outputs.logits.shape , __UpperCAmelCase ) a = torch.tensor([-1.9364, -1.2327, -0.4653] ).to(__UpperCAmelCase ) self.assertTrue(torch.allclose(outputs.logits[0, :3] , __UpperCAmelCase , atol=1e-4 ) ) @slow def __lowerCAmelCase ( self : List[Any] ) ->Union[str, Any]: """simple docstring""" a = MobileViTForSemanticSegmentation.from_pretrained('''apple/deeplabv3-mobilevit-xx-small''' ) a = model.to(__UpperCAmelCase ) a = MobileViTImageProcessor.from_pretrained('''apple/deeplabv3-mobilevit-xx-small''' ) a = prepare_img() a = image_processor(images=__UpperCAmelCase , return_tensors='''pt''' ).to(__UpperCAmelCase ) # forward pass with torch.no_grad(): a = model(**__UpperCAmelCase ) a = outputs.logits # verify the logits a = torch.Size((1, 21, 32, 32) ) self.assertEqual(logits.shape , __UpperCAmelCase ) a = torch.tensor( [ [[6.9713, 6.9786, 7.2422], [7.2893, 7.2825, 7.4446], [7.6580, 7.8797, 7.9420]], [[-10.6869, -10.3250, -10.3471], [-10.4228, -9.9868, -9.7132], [-11.0405, -11.0221, -10.7318]], [[-3.3089, -2.8539, -2.6740], [-3.2706, -2.5621, -2.5108], [-3.2534, -2.6615, -2.6651]], ] , device=__UpperCAmelCase , ) self.assertTrue(torch.allclose(logits[0, :3, :3, :3] , __UpperCAmelCase , atol=1e-4 ) ) @slow def __lowerCAmelCase ( self : Union[str, Any] ) ->Tuple: """simple docstring""" a = MobileViTForSemanticSegmentation.from_pretrained('''apple/deeplabv3-mobilevit-xx-small''' ) a = model.to(__UpperCAmelCase ) a = MobileViTImageProcessor.from_pretrained('''apple/deeplabv3-mobilevit-xx-small''' ) a = prepare_img() a = image_processor(images=__UpperCAmelCase , return_tensors='''pt''' ).to(__UpperCAmelCase ) # forward pass with torch.no_grad(): a = model(**__UpperCAmelCase ) a = outputs.logits.detach().cpu() a = image_processor.post_process_semantic_segmentation(outputs=__UpperCAmelCase , target_sizes=[(50, 60)] ) a = torch.Size((50, 60) ) self.assertEqual(segmentation[0].shape , __UpperCAmelCase ) a = image_processor.post_process_semantic_segmentation(outputs=__UpperCAmelCase ) a = torch.Size((32, 32) ) self.assertEqual(segmentation[0].shape , __UpperCAmelCase )

import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from .tokenization_electra import ElectraTokenizer UpperCAmelCase__ = {"vocab_file": "vocab.txt", "tokenizer_file": "tokenizer.json"} UpperCAmelCase__ = { "vocab_file": { "google/electra-small-generator": ( "https://huggingface.co/google/electra-small-generator/resolve/main/vocab.txt" ), "google/electra-base-generator": "https://huggingface.co/google/electra-base-generator/resolve/main/vocab.txt", "google/electra-large-generator": ( "https://huggingface.co/google/electra-large-generator/resolve/main/vocab.txt" ), "google/electra-small-discriminator": ( "https://huggingface.co/google/electra-small-discriminator/resolve/main/vocab.txt" ), "google/electra-base-discriminator": ( "https://huggingface.co/google/electra-base-discriminator/resolve/main/vocab.txt" ), "google/electra-large-discriminator": ( "https://huggingface.co/google/electra-large-discriminator/resolve/main/vocab.txt" ), }, "tokenizer_file": { "google/electra-small-generator": ( "https://huggingface.co/google/electra-small-generator/resolve/main/tokenizer.json" ), "google/electra-base-generator": ( "https://huggingface.co/google/electra-base-generator/resolve/main/tokenizer.json" ), "google/electra-large-generator": ( "https://huggingface.co/google/electra-large-generator/resolve/main/tokenizer.json" ), "google/electra-small-discriminator": ( "https://huggingface.co/google/electra-small-discriminator/resolve/main/tokenizer.json" ), "google/electra-base-discriminator": ( "https://huggingface.co/google/electra-base-discriminator/resolve/main/tokenizer.json" ), "google/electra-large-discriminator": ( "https://huggingface.co/google/electra-large-discriminator/resolve/main/tokenizer.json" ), }, } UpperCAmelCase__ = { "google/electra-small-generator": 512, "google/electra-base-generator": 512, "google/electra-large-generator": 512, "google/electra-small-discriminator": 512, "google/electra-base-discriminator": 512, "google/electra-large-discriminator": 512, } UpperCAmelCase__ = { "google/electra-small-generator": {"do_lower_case": True}, "google/electra-base-generator": {"do_lower_case": True}, "google/electra-large-generator": {"do_lower_case": True}, "google/electra-small-discriminator": {"do_lower_case": True}, "google/electra-base-discriminator": {"do_lower_case": True}, "google/electra-large-discriminator": {"do_lower_case": True}, } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = VOCAB_FILES_NAMES __snake_case = PRETRAINED_VOCAB_FILES_MAP __snake_case = PRETRAINED_INIT_CONFIGURATION __snake_case = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __snake_case = ElectraTokenizer def __init__( self : Dict , __UpperCAmelCase : int=None , __UpperCAmelCase : str=None , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : str="[UNK]" , __UpperCAmelCase : Any="[SEP]" , __UpperCAmelCase : str="[PAD]" , __UpperCAmelCase : Optional[Any]="[CLS]" , __UpperCAmelCase : Union[str, Any]="[MASK]" , __UpperCAmelCase : List[str]=True , __UpperCAmelCase : Tuple=None , **__UpperCAmelCase : Optional[int] , ) ->str: """simple docstring""" super().__init__( __UpperCAmelCase , tokenizer_file=__UpperCAmelCase , do_lower_case=__UpperCAmelCase , unk_token=__UpperCAmelCase , sep_token=__UpperCAmelCase , pad_token=__UpperCAmelCase , cls_token=__UpperCAmelCase , mask_token=__UpperCAmelCase , tokenize_chinese_chars=__UpperCAmelCase , strip_accents=__UpperCAmelCase , **__UpperCAmelCase , ) a = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get('''lowercase''' , __UpperCAmelCase ) != do_lower_case or normalizer_state.get('''strip_accents''' , __UpperCAmelCase ) != strip_accents or normalizer_state.get('''handle_chinese_chars''' , __UpperCAmelCase ) != tokenize_chinese_chars ): a = getattr(__UpperCAmelCase , normalizer_state.pop('''type''' ) ) a = do_lower_case a = strip_accents a = tokenize_chinese_chars a = normalizer_class(**__UpperCAmelCase ) a = do_lower_case def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : Tuple=None ) ->str: """simple docstring""" a = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) ->List[int]: """simple docstring""" a = [self.sep_token_id] a = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : Optional[str] = None ) ->Tuple[str]: """simple docstring""" a = self._tokenizer.model.save(__UpperCAmelCase , name=__UpperCAmelCase ) return tuple(__UpperCAmelCase )

from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''timm_backbone''' def __init__( self : Optional[Any] , __UpperCAmelCase : Any=None , __UpperCAmelCase : Any=3 , __UpperCAmelCase : str=True , __UpperCAmelCase : int=True , __UpperCAmelCase : Optional[int]=None , **__UpperCAmelCase : Dict , ) ->Tuple: """simple docstring""" super().__init__(**__UpperCAmelCase ) a = backbone a = num_channels a = features_only a = use_pretrained_backbone a = True a = out_indices if out_indices is not None else (-1,)

def _a ( a :int ) -> bool: a = n ** (1 / 3) return (val * val * val) == n if __name__ == "__main__": print(perfect_cube(27)) print(perfect_cube(4))

from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_tf_available, is_tokenizers_available, is_torch_available, ) UpperCAmelCase__ = { "configuration_electra": ["ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP", "ElectraConfig", "ElectraOnnxConfig"], "tokenization_electra": ["ElectraTokenizer"], } try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = ["ElectraTokenizerFast"] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST", "ElectraForCausalLM", "ElectraForMaskedLM", "ElectraForMultipleChoice", "ElectraForPreTraining", "ElectraForQuestionAnswering", "ElectraForSequenceClassification", "ElectraForTokenClassification", "ElectraModel", "ElectraPreTrainedModel", "load_tf_weights_in_electra", ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "TF_ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST", "TFElectraForMaskedLM", "TFElectraForMultipleChoice", "TFElectraForPreTraining", "TFElectraForQuestionAnswering", "TFElectraForSequenceClassification", "TFElectraForTokenClassification", "TFElectraModel", "TFElectraPreTrainedModel", ] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "FlaxElectraForCausalLM", "FlaxElectraForMaskedLM", "FlaxElectraForMultipleChoice", "FlaxElectraForPreTraining", "FlaxElectraForQuestionAnswering", "FlaxElectraForSequenceClassification", "FlaxElectraForTokenClassification", "FlaxElectraModel", "FlaxElectraPreTrainedModel", ] if TYPE_CHECKING: from .configuration_electra import ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP, ElectraConfig, ElectraOnnxConfig from .tokenization_electra import ElectraTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_electra_fast import ElectraTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_electra import ( ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST, ElectraForCausalLM, ElectraForMaskedLM, ElectraForMultipleChoice, ElectraForPreTraining, ElectraForQuestionAnswering, ElectraForSequenceClassification, ElectraForTokenClassification, ElectraModel, ElectraPreTrainedModel, load_tf_weights_in_electra, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_electra import ( TF_ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST, TFElectraForMaskedLM, TFElectraForMultipleChoice, TFElectraForPreTraining, TFElectraForQuestionAnswering, TFElectraForSequenceClassification, TFElectraForTokenClassification, TFElectraModel, TFElectraPreTrainedModel, ) try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_electra import ( FlaxElectraForCausalLM, FlaxElectraForMaskedLM, FlaxElectraForMultipleChoice, FlaxElectraForPreTraining, FlaxElectraForQuestionAnswering, FlaxElectraForSequenceClassification, FlaxElectraForTokenClassification, FlaxElectraModel, FlaxElectraPreTrainedModel, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

import os import tempfile from functools import partial from unittest import TestCase from unittest.mock import patch import numpy as np import pytest from datasets.arrow_dataset import Dataset from datasets.search import ElasticSearchIndex, FaissIndex, MissingIndex from .utils import require_elasticsearch, require_faiss UpperCAmelCase__ = pytest.mark.integration @require_faiss class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" a = Dataset.from_dict({'''filename''': ['''my_name-train''' + '''_''' + str(__UpperCAmelCase ) for x in np.arange(30 ).tolist()]} ) return dset def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" import faiss a = self._create_dummy_dataset() a = dset.map( lambda __UpperCAmelCase , __UpperCAmelCase : {"vecs": i * np.ones(5 , dtype=np.floataa )} , with_indices=__UpperCAmelCase , keep_in_memory=__UpperCAmelCase ) a = dset.add_faiss_index('''vecs''' , batch_size=100 , metric_type=faiss.METRIC_INNER_PRODUCT ) a , a = dset.get_nearest_examples('''vecs''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) dset.drop_index('''vecs''' ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[Any]: """simple docstring""" import faiss a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' , batch_size=100 , metric_type=faiss.METRIC_INNER_PRODUCT , ) a , a = dset.get_nearest_examples('''vecs''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) def __lowerCAmelCase ( self : Any ) ->Union[str, Any]: """simple docstring""" import faiss a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' , metric_type=faiss.METRIC_INNER_PRODUCT , ) # Setting delete=False and unlinking manually is not pretty... but it is required on Windows to # ensure somewhat stable behaviour. If we don't, we get PermissionErrors. This is an age-old issue. # see https://bugs.python.org/issue14243 and # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file/23212515 with tempfile.NamedTemporaryFile(delete=__UpperCAmelCase ) as tmp_file: dset.save_faiss_index('''vecs''' , tmp_file.name ) dset.load_faiss_index('''vecs2''' , tmp_file.name ) os.unlink(tmp_file.name ) a , a = dset.get_nearest_examples('''vecs2''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) def __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' ) dset.drop_index('''vecs''' ) self.assertRaises(__UpperCAmelCase , partial(dset.get_nearest_examples , '''vecs2''' , np.ones(5 , dtype=np.floataa ) ) ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" from elasticsearch import Elasticsearch a = self._create_dummy_dataset() with patch('''elasticsearch.Elasticsearch.search''' ) as mocked_search, patch( '''elasticsearch.client.IndicesClient.create''' ) as mocked_index_create, patch('''elasticsearch.helpers.streaming_bulk''' ) as mocked_bulk: a = {'''acknowledged''': True} mocked_bulk.return_value([(True, None)] * 30 ) a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 29}]}} a = Elasticsearch() dset.add_elasticsearch_index('''filename''' , es_client=__UpperCAmelCase ) a , a = dset.get_nearest_examples('''filename''' , '''my_name-train_29''' ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) @require_faiss class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : Any ) ->Any: """simple docstring""" import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) # add vectors index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsNotNone(index.faiss_index ) self.assertEqual(index.faiss_index.ntotal , 5 ) index.add_vectors(np.zeros((5, 5) , dtype=np.floataa ) ) self.assertEqual(index.faiss_index.ntotal , 10 ) # single query a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(__UpperCAmelCase ) self.assertRaises(__UpperCAmelCase , index.search , query.reshape(-1 , 1 ) ) self.assertGreater(scores[0] , 0 ) self.assertEqual(indices[0] , 1 ) # batched queries a = np.eye(5 , dtype=np.floataa )[::-1] a , a = index.search_batch(__UpperCAmelCase ) self.assertRaises(__UpperCAmelCase , index.search_batch , queries[0] ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([4, 3, 2, 1, 0] , __UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->List[Any]: """simple docstring""" import faiss a = FaissIndex(string_factory='''Flat''' ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexFlat ) a = FaissIndex(string_factory='''LSH''' ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexLSH ) with self.assertRaises(__UpperCAmelCase ): a = FaissIndex(string_factory='''Flat''' , custom_index=faiss.IndexFlat(5 ) ) def __lowerCAmelCase ( self : int ) ->Optional[Any]: """simple docstring""" import faiss a = faiss.IndexFlat(5 ) a = FaissIndex(custom_index=__UpperCAmelCase ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexFlat ) def __lowerCAmelCase ( self : int ) ->Dict: """simple docstring""" import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) # Setting delete=False and unlinking manually is not pretty... but it is required on Windows to # ensure somewhat stable behaviour. If we don't, we get PermissionErrors. This is an age-old issue. # see https://bugs.python.org/issue14243 and # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file/23212515 with tempfile.NamedTemporaryFile(delete=__UpperCAmelCase ) as tmp_file: index.save(tmp_file.name ) a = FaissIndex.load(tmp_file.name ) os.unlink(tmp_file.name ) a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(__UpperCAmelCase ) self.assertGreater(scores[0] , 0 ) self.assertEqual(indices[0] , 1 ) @require_faiss def _a ( a :Dict ) -> Any: import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) a = '''index.faiss''' a = F"""mock://{index_name}""" index.save(a , storage_options=mockfs.storage_options ) a = FaissIndex.load(a , storage_options=mockfs.storage_options ) a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(a ) assert scores[0] > 0 assert indices[0] == 1 @require_elasticsearch class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : int ) ->List[Any]: """simple docstring""" from elasticsearch import Elasticsearch with patch('''elasticsearch.Elasticsearch.search''' ) as mocked_search, patch( '''elasticsearch.client.IndicesClient.create''' ) as mocked_index_create, patch('''elasticsearch.helpers.streaming_bulk''' ) as mocked_bulk: a = Elasticsearch() a = {'''acknowledged''': True} a = ElasticSearchIndex(es_client=__UpperCAmelCase ) mocked_bulk.return_value([(True, None)] * 3 ) index.add_documents(['''foo''', '''bar''', '''foobar'''] ) # single query a = '''foo''' a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 0}]}} a , a = index.search(__UpperCAmelCase ) self.assertEqual(scores[0] , 1 ) self.assertEqual(indices[0] , 0 ) # single query with timeout a = '''foo''' a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 0}]}} a , a = index.search(__UpperCAmelCase , request_timeout=30 ) self.assertEqual(scores[0] , 1 ) self.assertEqual(indices[0] , 0 ) # batched queries a = ['''foo''', '''bar''', '''foobar'''] a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 1}]}} a , a = index.search_batch(__UpperCAmelCase ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([1, 1, 1] , __UpperCAmelCase ) # batched queries with timeout a = ['''foo''', '''bar''', '''foobar'''] a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 1}]}} a , a = index.search_batch(__UpperCAmelCase , request_timeout=30 ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([1, 1, 1] , __UpperCAmelCase )

from __future__ import annotations import unittest from transformers import AutoTokenizer, PegasusConfig, is_tf_available from transformers.testing_utils import require_sentencepiece, require_tf, require_tokenizers, slow from transformers.utils import cached_property 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 TFAutoModelForSeqaSeqLM, TFPegasusForConditionalGeneration, TFPegasusModel @require_tf class lowercase_ : '''simple docstring''' __snake_case = PegasusConfig __snake_case = {} __snake_case = '''gelu''' def __init__( self : Union[str, Any] , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : Optional[int]=13 , __UpperCAmelCase : List[Any]=7 , __UpperCAmelCase : Union[str, Any]=True , __UpperCAmelCase : Dict=False , __UpperCAmelCase : Optional[Any]=99 , __UpperCAmelCase : Any=32 , __UpperCAmelCase : List[Any]=2 , __UpperCAmelCase : Tuple=4 , __UpperCAmelCase : int=37 , __UpperCAmelCase : str=0.1 , __UpperCAmelCase : int=0.1 , __UpperCAmelCase : Union[str, Any]=40 , __UpperCAmelCase : str=2 , __UpperCAmelCase : Optional[Any]=1 , __UpperCAmelCase : Dict=0 , ) ->Optional[Any]: """simple docstring""" a = parent a = batch_size a = seq_length a = is_training a = use_labels a = vocab_size a = hidden_size a = num_hidden_layers a = num_attention_heads a = intermediate_size a = hidden_dropout_prob a = attention_probs_dropout_prob a = max_position_embeddings a = eos_token_id a = pad_token_id a = bos_token_id def __lowerCAmelCase ( self : Tuple ) ->Optional[Any]: """simple docstring""" a = ids_tensor([self.batch_size, self.seq_length - 1] , self.vocab_size ) a = tf.expand_dims(tf.constant([self.eos_token_id] * self.batch_size ) , 1 ) a = tf.concat([input_ids, eos_tensor] , axis=1 ) a = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) a = self.config_cls( vocab_size=self.vocab_size , d_model=self.hidden_size , encoder_layers=self.num_hidden_layers , decoder_layers=self.num_hidden_layers , encoder_attention_heads=self.num_attention_heads , decoder_attention_heads=self.num_attention_heads , encoder_ffn_dim=self.intermediate_size , decoder_ffn_dim=self.intermediate_size , dropout=self.hidden_dropout_prob , attention_dropout=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , eos_token_ids=[2] , bos_token_id=self.bos_token_id , pad_token_id=self.pad_token_id , decoder_start_token_id=self.pad_token_id , **self.config_updates , ) a = prepare_pegasus_inputs_dict(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) return config, inputs_dict def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : List[Any] ) ->List[str]: """simple docstring""" a = TFPegasusModel(config=__UpperCAmelCase ).get_decoder() a = inputs_dict['''input_ids'''] a = input_ids[:1, :] a = inputs_dict['''attention_mask'''][:1, :] a = inputs_dict['''head_mask'''] a = 1 # first forward pass a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase , head_mask=__UpperCAmelCase , use_cache=__UpperCAmelCase ) a , a = outputs.to_tuple() # create hypothetical next token and extent to next_input_ids a = ids_tensor((self.batch_size, 3) , config.vocab_size ) a = tf.cast(ids_tensor((self.batch_size, 3) , 2 ) , tf.inta ) # append to next input_ids and a = tf.concat([input_ids, next_tokens] , axis=-1 ) a = tf.concat([attention_mask, next_attn_mask] , axis=-1 ) a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase )[0] a = 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 a = int(ids_tensor((1,) , output_from_past.shape[-1] ) ) a = output_from_no_past[:, -3:, random_slice_idx] a = output_from_past[:, :, random_slice_idx] # test that outputs are equal for slice tf.debugging.assert_near(__UpperCAmelCase , __UpperCAmelCase , rtol=1e-3 ) def _a ( a :Optional[Any] , a :List[Any] , a :Union[str, Any] , a :Optional[int]=None , a :str=None , a :str=None , a :str=None , a :Any=None , ) -> Union[str, Any]: if attention_mask is None: a = tf.cast(tf.math.not_equal(a , config.pad_token_id ) , tf.inta ) if decoder_attention_mask is None: a = tf.concat( [ tf.ones(decoder_input_ids[:, :1].shape , dtype=tf.inta ), tf.cast(tf.math.not_equal(decoder_input_ids[:, 1:] , config.pad_token_id ) , tf.inta ), ] , axis=-1 , ) if head_mask is None: a = tf.ones((config.encoder_layers, config.encoder_attention_heads) ) if decoder_head_mask is None: a = tf.ones((config.decoder_layers, config.decoder_attention_heads) ) if cross_attn_head_mask is None: a = tf.ones((config.decoder_layers, config.decoder_attention_heads) ) return { "input_ids": input_ids, "decoder_input_ids": decoder_input_ids, "attention_mask": attention_mask, "decoder_attention_mask": decoder_attention_mask, "head_mask": head_mask, "decoder_head_mask": decoder_head_mask, "cross_attn_head_mask": cross_attn_head_mask, } @require_tf class lowercase_ ( lowercase , lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = (TFPegasusForConditionalGeneration, TFPegasusModel) if is_tf_available() else () __snake_case = (TFPegasusForConditionalGeneration,) if is_tf_available() else () __snake_case = ( { '''conversational''': TFPegasusForConditionalGeneration, '''feature-extraction''': TFPegasusModel, '''summarization''': TFPegasusForConditionalGeneration, '''text2text-generation''': TFPegasusForConditionalGeneration, '''translation''': TFPegasusForConditionalGeneration, } if is_tf_available() else {} ) __snake_case = True __snake_case = False __snake_case = False def __lowerCAmelCase ( self : Union[str, Any] ) ->Dict: """simple docstring""" a = TFPegasusModelTester(self ) a = ConfigTester(self , config_class=__UpperCAmelCase ) def __lowerCAmelCase ( self : Dict ) ->Tuple: """simple docstring""" self.config_tester.run_common_tests() def __lowerCAmelCase ( self : List[Any] ) ->Any: """simple docstring""" a = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.check_decoder_model_past_large_inputs(*__UpperCAmelCase ) @require_sentencepiece @require_tokenizers @require_tf class lowercase_ ( unittest.TestCase ): '''simple docstring''' __snake_case = [ ''' PG&E stated it scheduled the blackouts in response to forecasts for high winds amid dry conditions. The aim is to reduce the risk of wildfires. Nearly 800 thousand customers were scheduled to be affected by the shutoffs which were expected to last through at least midday tomorrow.''', ''' The London trio are up for best UK act and best album, as well as getting two nominations in the best song category."We got told like this morning \'Oh I think you\'re nominated\'", said Dappy."And I was like \'Oh yeah, which one?\' And now we\'ve got nominated for four awards. I mean, wow!"Bandmate Fazer added: "We thought it\'s best of us to come down and mingle with everyone and say hello to the cameras. And now we find we\'ve got four nominations."The band have two shots at the best song prize, getting the nod for their Tynchy Stryder collaboration Number One, and single Strong Again.Their album Uncle B will also go up against records by the likes of Beyonce and Kanye West.N-Dubz picked up the best newcomer Mobo in 2007, but female member Tulisa said they wouldn\'t be too disappointed if they didn\'t win this time around."At the end of the day we\'re grateful to be where we are in our careers."If it don\'t happen then it don\'t happen - live to fight another day and keep on making albums and hits for the fans."Dappy also revealed they could be performing live several times on the night.The group will be doing Number One and also a possible rendition of the War Child single, I Got Soul.The charity song is a re-working of The Killers\' All These Things That I\'ve Done and is set to feature artists like Chipmunk, Ironik and Pixie Lott.This year\'s Mobos will be held outside of London for the first time, in Glasgow on 30 September.N-Dubz said they were looking forward to performing for their Scottish fans and boasted about their recent shows north of the border."We just done Edinburgh the other day," said Dappy."We smashed up an N-Dubz show over there. We done Aberdeen about three or four months ago - we smashed up that show over there! Everywhere we go we smash it up!" ''', ] __snake_case = [ '''California\'s largest electricity provider has cut power to hundreds of thousands of customers in an effort to''' ''' reduce the risk of wildfires.''', '''N-Dubz have revealed they\'re "grateful" to have been nominated for four Mobo Awards.''', ] # differs slightly from pytorch, likely due to numerical differences in linear layers __snake_case = '''google/pegasus-xsum''' @cached_property def __lowerCAmelCase ( self : List[str] ) ->Optional[int]: """simple docstring""" return AutoTokenizer.from_pretrained(self.model_name ) @cached_property def __lowerCAmelCase ( self : List[Any] ) ->str: """simple docstring""" a = TFAutoModelForSeqaSeqLM.from_pretrained(self.model_name ) return model def __lowerCAmelCase ( self : Union[str, Any] , **__UpperCAmelCase : str ) ->int: """simple docstring""" a = self.translate_src_text(**__UpperCAmelCase ) assert self.expected_text == generated_words def __lowerCAmelCase ( self : Optional[Any] , **__UpperCAmelCase : List[Any] ) ->List[Any]: """simple docstring""" a = self.tokenizer(self.src_text , **__UpperCAmelCase , padding=__UpperCAmelCase , return_tensors='''tf''' ) a = self.model.generate( model_inputs.input_ids , attention_mask=model_inputs.attention_mask , num_beams=2 , use_cache=__UpperCAmelCase , ) a = self.tokenizer.batch_decode(generated_ids.numpy() , skip_special_tokens=__UpperCAmelCase ) return generated_words @slow def __lowerCAmelCase ( self : Tuple ) ->List[Any]: """simple docstring""" self._assert_generated_batch_equal_expected()

from typing import Mapping from ...configuration_utils import PretrainedConfig from ...onnx import OnnxSeqaSeqConfigWithPast from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "t5-small": "https://huggingface.co/t5-small/resolve/main/config.json", "t5-base": "https://huggingface.co/t5-base/resolve/main/config.json", "t5-large": "https://huggingface.co/t5-large/resolve/main/config.json", "t5-3b": "https://huggingface.co/t5-3b/resolve/main/config.json", "t5-11b": "https://huggingface.co/t5-11b/resolve/main/config.json", } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''t5''' __snake_case = ['''past_key_values'''] __snake_case = {'''hidden_size''': '''d_model''', '''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers'''} def __init__( self : Optional[Any] , __UpperCAmelCase : Optional[Any]=32_128 , __UpperCAmelCase : List[Any]=512 , __UpperCAmelCase : Dict=64 , __UpperCAmelCase : Tuple=2_048 , __UpperCAmelCase : int=6 , __UpperCAmelCase : Optional[int]=None , __UpperCAmelCase : Optional[int]=8 , __UpperCAmelCase : str=32 , __UpperCAmelCase : Tuple=128 , __UpperCAmelCase : Optional[Any]=0.1 , __UpperCAmelCase : int=1e-6 , __UpperCAmelCase : int=1.0 , __UpperCAmelCase : List[str]="relu" , __UpperCAmelCase : int=True , __UpperCAmelCase : int=True , __UpperCAmelCase : List[Any]=0 , __UpperCAmelCase : int=1 , **__UpperCAmelCase : str , ) ->Optional[Any]: """simple docstring""" a = vocab_size a = d_model a = d_kv a = d_ff a = num_layers a = ( num_decoder_layers if num_decoder_layers is not None else self.num_layers ) # default = symmetry a = num_heads a = relative_attention_num_buckets a = relative_attention_max_distance a = dropout_rate a = layer_norm_epsilon a = initializer_factor a = feed_forward_proj a = use_cache a = self.feed_forward_proj.split('''-''' ) a = act_info[-1] a = act_info[0] == '''gated''' if len(__UpperCAmelCase ) > 1 and act_info[0] != "gated" or len(__UpperCAmelCase ) > 2: raise ValueError( F"""`feed_forward_proj`: {feed_forward_proj} is not a valid activation function of the dense layer.""" '''Please make sure `feed_forward_proj` is of the format `gated-{ACT_FN}` or `{ACT_FN}`, e.g. ''' '''\'gated-gelu\' or \'relu\'''' ) # for backwards compatibility if feed_forward_proj == "gated-gelu": a = '''gelu_new''' super().__init__( pad_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , is_encoder_decoder=__UpperCAmelCase , **__UpperCAmelCase , ) class lowercase_ ( lowercase ): '''simple docstring''' @property def __lowerCAmelCase ( self : Optional[Any] ) ->Mapping[str, Mapping[int, str]]: """simple docstring""" a = { '''input_ids''': {0: '''batch''', 1: '''encoder_sequence'''}, '''attention_mask''': {0: '''batch''', 1: '''encoder_sequence'''}, } if self.use_past: a = '''past_encoder_sequence + sequence''' a = {0: '''batch'''} a = {0: '''batch''', 1: '''past_decoder_sequence + sequence'''} else: a = {0: '''batch''', 1: '''decoder_sequence'''} a = {0: '''batch''', 1: '''decoder_sequence'''} if self.use_past: self.fill_with_past_key_values_(__UpperCAmelCase , direction='''inputs''' ) return common_inputs @property def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" return 13

from typing import Dict import numpy as np import torch from . import residue_constants as rc from .tensor_utils import tensor_tree_map, tree_map def _a ( a :Dict[str, torch.Tensor] ) -> Dict[str, torch.Tensor]: a = [] a = [] a = [] for rt in rc.restypes: a = rc.restype_name_to_atomaa_names[rc.restype_atoa[rt]] restype_atomaa_to_atomaa_list.append([(rc.atom_order[name] if name else 0) for name in atom_names] ) a = {name: i for i, name in enumerate(a )} restype_atomaa_to_atomaa_list.append( [(atom_name_to_idxaa[name] if name in atom_name_to_idxaa else 0) for name in rc.atom_types] ) restype_atomaa_mask_list.append([(1.0 if name else 0.0) for name in atom_names] ) # Add dummy mapping for restype 'UNK' restype_atomaa_to_atomaa_list.append([0] * 14 ) restype_atomaa_to_atomaa_list.append([0] * 37 ) restype_atomaa_mask_list.append([0.0] * 14 ) a = torch.tensor( a , dtype=torch.intaa , device=protein['''aatype'''].device , ) a = torch.tensor( a , dtype=torch.intaa , device=protein['''aatype'''].device , ) a = torch.tensor( a , dtype=torch.floataa , device=protein['''aatype'''].device , ) a = protein['''aatype'''].to(torch.long ) # create the mapping for (residx, atom14) --> atom37, i.e. an array # with shape (num_res, 14) containing the atom37 indices for this protein a = restype_atomaa_to_atomaa[protein_aatype] a = restype_atomaa_mask[protein_aatype] a = residx_atomaa_mask a = residx_atomaa_to_atomaa.long() # create the gather indices for mapping back a = restype_atomaa_to_atomaa[protein_aatype] a = residx_atomaa_to_atomaa.long() # create the corresponding mask a = torch.zeros([21, 37] , dtype=torch.floataa , device=protein['''aatype'''].device ) for restype, restype_letter in enumerate(rc.restypes ): a = rc.restype_atoa[restype_letter] a = rc.residue_atoms[restype_name] for atom_name in atom_names: a = rc.atom_order[atom_name] a = 1 a = restype_atomaa_mask[protein_aatype] a = residx_atomaa_mask return protein def _a ( a :Dict[str, torch.Tensor] ) -> Dict[str, np.ndarray]: a = tree_map(lambda a : torch.tensor(a , device=batch['''aatype'''].device ) , a , np.ndarray ) a = tensor_tree_map(lambda a : np.array(a ) , make_atomaa_masks(a ) ) return out

from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = {} class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''llama''' __snake_case = ['''past_key_values'''] def __init__( self : Optional[Any] , __UpperCAmelCase : Union[str, Any]=32_000 , __UpperCAmelCase : str=4_096 , __UpperCAmelCase : int=11_008 , __UpperCAmelCase : Tuple=32 , __UpperCAmelCase : Optional[int]=32 , __UpperCAmelCase : List[str]=None , __UpperCAmelCase : Union[str, Any]="silu" , __UpperCAmelCase : Tuple=2_048 , __UpperCAmelCase : Optional[Any]=0.02 , __UpperCAmelCase : Any=1e-6 , __UpperCAmelCase : Union[str, Any]=True , __UpperCAmelCase : Optional[int]=0 , __UpperCAmelCase : Optional[int]=1 , __UpperCAmelCase : Optional[int]=2 , __UpperCAmelCase : Tuple=1 , __UpperCAmelCase : List[str]=False , __UpperCAmelCase : Tuple=None , **__UpperCAmelCase : Tuple , ) ->str: """simple docstring""" a = vocab_size a = max_position_embeddings a = hidden_size a = intermediate_size a = num_hidden_layers a = num_attention_heads # for backward compatibility if num_key_value_heads is None: a = num_attention_heads a = num_key_value_heads a = hidden_act a = initializer_range a = rms_norm_eps a = pretraining_tp a = use_cache a = rope_scaling self._rope_scaling_validation() super().__init__( pad_token_id=__UpperCAmelCase , bos_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , tie_word_embeddings=__UpperCAmelCase , **__UpperCAmelCase , ) def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" if self.rope_scaling is None: return if not isinstance(self.rope_scaling , __UpperCAmelCase ) or len(self.rope_scaling ) != 2: raise ValueError( '''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, ''' F"""got {self.rope_scaling}""" ) a = self.rope_scaling.get('''type''' , __UpperCAmelCase ) a = self.rope_scaling.get('''factor''' , __UpperCAmelCase ) if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]: raise ValueError( F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""" ) if rope_scaling_factor is None or not isinstance(__UpperCAmelCase , __UpperCAmelCase ) or rope_scaling_factor <= 1.0: raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""" )

from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "caidas/swin2sr-classicalsr-x2-64": ( "https://huggingface.co/caidas/swin2sr-classicalsr-x2-64/resolve/main/config.json" ), } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''swin2sr''' __snake_case = { '''hidden_size''': '''embed_dim''', '''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers''', } def __init__( self : int , __UpperCAmelCase : int=64 , __UpperCAmelCase : int=1 , __UpperCAmelCase : int=3 , __UpperCAmelCase : Dict=180 , __UpperCAmelCase : Union[str, Any]=[6, 6, 6, 6, 6, 6] , __UpperCAmelCase : Optional[Any]=[6, 6, 6, 6, 6, 6] , __UpperCAmelCase : Union[str, Any]=8 , __UpperCAmelCase : Union[str, Any]=2.0 , __UpperCAmelCase : Union[str, Any]=True , __UpperCAmelCase : Optional[int]=0.0 , __UpperCAmelCase : str=0.0 , __UpperCAmelCase : Optional[int]=0.1 , __UpperCAmelCase : Optional[Any]="gelu" , __UpperCAmelCase : str=False , __UpperCAmelCase : Tuple=0.02 , __UpperCAmelCase : Optional[Any]=1e-5 , __UpperCAmelCase : str=2 , __UpperCAmelCase : Union[str, Any]=1.0 , __UpperCAmelCase : List[Any]="1conv" , __UpperCAmelCase : int="pixelshuffle" , **__UpperCAmelCase : str , ) ->Tuple: """simple docstring""" super().__init__(**__UpperCAmelCase ) a = image_size a = patch_size a = num_channels a = embed_dim a = depths a = len(__UpperCAmelCase ) a = num_heads a = window_size a = mlp_ratio a = qkv_bias a = hidden_dropout_prob a = attention_probs_dropout_prob a = drop_path_rate a = hidden_act a = use_absolute_embeddings a = layer_norm_eps a = initializer_range a = upscale a = img_range a = resi_connection a = upsampler

from __future__ import annotations UpperCAmelCase__ = "Muhammad Umer Farooq" UpperCAmelCase__ = "MIT" UpperCAmelCase__ = "1.0.0" UpperCAmelCase__ = "Muhammad Umer Farooq" UpperCAmelCase__ = "[email protected]" UpperCAmelCase__ = "Alpha" import re from html.parser import HTMLParser from urllib import parse import requests class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : Union[str, Any] , __UpperCAmelCase : str ) ->None: """simple docstring""" super().__init__() a = [] a = domain def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : list[tuple[str, str | None]] ) ->None: """simple docstring""" if tag == "a": # Check the list of defined attributes. for name, value in attrs: # If href is defined, and not empty nor # print it. if name == "href" and value != "#" and value != "": # If not already in urls. if value not in self.urls: a = parse.urljoin(self.domain , __UpperCAmelCase ) self.urls.append(__UpperCAmelCase ) def _a ( a :str ) -> str: return ".".join(get_sub_domain_name(a ).split('''.''' )[-2:] ) def _a ( a :str ) -> str: return parse.urlparse(a ).netloc def _a ( a :str = "https://github.com" ) -> list[str]: a = get_domain_name(a ) # Initialize the parser a = Parser(a ) try: # Open URL a = requests.get(a ) # pass the raw HTML to the parser to get links parser.feed(r.text ) # Get links and loop through a = set() for link in parser.urls: # open URL. # read = requests.get(link) try: a = requests.get(a ) # Get the valid email. a = re.findall('''[a-zA-Z0-9]+@''' + domain , read.text ) # If not in list then append it. for email in emails: valid_emails.add(a ) except ValueError: pass except ValueError: raise SystemExit(1 ) # Finally return a sorted list of email addresses with no duplicates. return sorted(a ) if __name__ == "__main__": UpperCAmelCase__ = emails_from_url("https://github.com") print(f"""{len(emails)} emails found:""") print("\n".join(sorted(emails)))

from math import asin, atan, cos, radians, sin, sqrt, tan UpperCAmelCase__ = 637_8137.0 UpperCAmelCase__ = 635_6752.31_4245 UpperCAmelCase__ = 6378137 def _a ( a :float , a :float , a :float , a :float ) -> float: a = (AXIS_A - AXIS_B) / AXIS_A a = atan((1 - flattening) * tan(radians(a ) ) ) a = atan((1 - flattening) * tan(radians(a ) ) ) a = radians(a ) a = radians(a ) # Equation a = sin((phi_a - phi_a) / 2 ) a = sin((lambda_a - lambda_a) / 2 ) # Square both values sin_sq_phi *= sin_sq_phi sin_sq_lambda *= sin_sq_lambda a = sqrt(sin_sq_phi + (cos(a ) * cos(a ) * sin_sq_lambda) ) return 2 * RADIUS * asin(a ) if __name__ == "__main__": import doctest doctest.testmod()

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) UpperCAmelCase__ = logging.getLogger() def _a ( ) -> Optional[int]: a = argparse.ArgumentParser() parser.add_argument('''-f''' ) a = parser.parse_args() return args.f def _a ( a :Any ) -> Tuple: a = {} a = os.path.join(a , '''all_results.json''' ) if os.path.exists(a ): with open(a , '''r''' ) as f: a = json.load(a ) else: raise ValueError(F"""can't find {path}""" ) return results def _a ( ) -> int: a = torch.cuda.is_available() and torch_device == '''cuda''' return is_using_cuda and is_apex_available() UpperCAmelCase__ = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class lowercase_ ( lowercase ): '''simple docstring''' @classmethod def __lowerCAmelCase ( cls : str ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() a = os.path.join(cls.tmpdir , '''default_config.yml''' ) write_basic_config(save_location=cls.configPath ) a = ['''accelerate''', '''launch''', '''--config_file''', cls.configPath] @classmethod def __lowerCAmelCase ( cls : Optional[int] ) ->Union[str, Any]: """simple docstring""" shutil.rmtree(cls.tmpdir ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->str: """simple docstring""" a = 7 if get_gpu_count() > 1 else 2 a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : List[str] ) ->int: """simple docstring""" a = logging.StreamHandler(sys.stdout ) logger.addHandler(__UpperCAmelCase ) a = self.get_auto_remove_tmp_dir() a = 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 ) a = get_results(__UpperCAmelCase ) self.assertGreaterEqual(result['''eval_overall_accuracy'''] , 0.10 ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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''' ) ) )

from __future__ import annotations import unittest from transformers import BlenderbotSmallConfig, BlenderbotSmallTokenizer, is_tf_available from transformers.testing_utils import require_tf, require_tokenizers, slow from transformers.utils import cached_property 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 TFAutoModelForSeqaSeqLM, TFBlenderbotSmallForConditionalGeneration, TFBlenderbotSmallModel @require_tf class lowercase_ : '''simple docstring''' __snake_case = BlenderbotSmallConfig __snake_case = {} __snake_case = '''gelu''' def __init__( self : Dict , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Optional[int]=13 , __UpperCAmelCase : Union[str, Any]=7 , __UpperCAmelCase : Optional[Any]=True , __UpperCAmelCase : Optional[int]=False , __UpperCAmelCase : Dict=99 , __UpperCAmelCase : Union[str, Any]=32 , __UpperCAmelCase : Any=2 , __UpperCAmelCase : List[Any]=4 , __UpperCAmelCase : Optional[int]=37 , __UpperCAmelCase : Tuple=0.1 , __UpperCAmelCase : Union[str, Any]=0.1 , __UpperCAmelCase : List[Any]=20 , __UpperCAmelCase : Optional[int]=2 , __UpperCAmelCase : str=1 , __UpperCAmelCase : str=0 , ) ->List[str]: """simple docstring""" a = parent a = batch_size a = seq_length a = is_training a = use_labels a = vocab_size a = hidden_size a = num_hidden_layers a = num_attention_heads a = intermediate_size a = hidden_dropout_prob a = attention_probs_dropout_prob a = max_position_embeddings a = eos_token_id a = pad_token_id a = bos_token_id def __lowerCAmelCase ( self : Any ) ->Union[str, Any]: """simple docstring""" a = ids_tensor([self.batch_size, self.seq_length - 1] , self.vocab_size ) a = tf.expand_dims(tf.constant([self.eos_token_id] * self.batch_size ) , 1 ) a = tf.concat([input_ids, eos_tensor] , axis=1 ) a = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) a = self.config_cls( vocab_size=self.vocab_size , d_model=self.hidden_size , encoder_layers=self.num_hidden_layers , decoder_layers=self.num_hidden_layers , encoder_attention_heads=self.num_attention_heads , decoder_attention_heads=self.num_attention_heads , encoder_ffn_dim=self.intermediate_size , decoder_ffn_dim=self.intermediate_size , dropout=self.hidden_dropout_prob , attention_dropout=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , eos_token_ids=[2] , bos_token_id=self.bos_token_id , pad_token_id=self.pad_token_id , decoder_start_token_id=self.pad_token_id , **self.config_updates , ) a = prepare_blenderbot_small_inputs_dict(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) return config, inputs_dict def __lowerCAmelCase ( self : int , __UpperCAmelCase : Any , __UpperCAmelCase : Union[str, Any] ) ->Dict: """simple docstring""" a = TFBlenderbotSmallModel(config=__UpperCAmelCase ).get_decoder() a = inputs_dict['''input_ids'''] a = input_ids[:1, :] a = inputs_dict['''attention_mask'''][:1, :] a = inputs_dict['''head_mask'''] a = 1 # first forward pass a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase , head_mask=__UpperCAmelCase , use_cache=__UpperCAmelCase ) a , a = outputs.to_tuple() # create hypothetical next token and extent to next_input_ids a = ids_tensor((self.batch_size, 3) , config.vocab_size ) a = tf.cast(ids_tensor((self.batch_size, 3) , 2 ) , tf.inta ) # append to next input_ids and a = tf.concat([input_ids, next_tokens] , axis=-1 ) a = tf.concat([attention_mask, next_attn_mask] , axis=-1 ) a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase )[0] a = 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 a = int(ids_tensor((1,) , output_from_past.shape[-1] ) ) a = output_from_no_past[:, -3:, random_slice_idx] a = output_from_past[:, :, random_slice_idx] # test that outputs are equal for slice tf.debugging.assert_near(__UpperCAmelCase , __UpperCAmelCase , rtol=1e-3 ) def _a ( a :int , a :List[str] , a :Optional[int] , a :str=None , a :Optional[Any]=None , a :List[str]=None , a :Tuple=None , a :List[Any]=None , ) -> Optional[int]: if attention_mask is None: a = tf.cast(tf.math.not_equal(a , config.pad_token_id ) , tf.inta ) if decoder_attention_mask is None: a = tf.concat( [ tf.ones(decoder_input_ids[:, :1].shape , dtype=tf.inta ), tf.cast(tf.math.not_equal(decoder_input_ids[:, 1:] , config.pad_token_id ) , tf.inta ), ] , axis=-1 , ) if head_mask is None: a = tf.ones((config.encoder_layers, config.encoder_attention_heads) ) if decoder_head_mask is None: a = tf.ones((config.decoder_layers, config.decoder_attention_heads) ) if cross_attn_head_mask is None: a = tf.ones((config.decoder_layers, config.decoder_attention_heads) ) return { "input_ids": input_ids, "decoder_input_ids": decoder_input_ids, "attention_mask": attention_mask, "decoder_attention_mask": decoder_attention_mask, "head_mask": head_mask, "decoder_head_mask": decoder_head_mask, "cross_attn_head_mask": cross_attn_head_mask, } @require_tf class lowercase_ ( lowercase , lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ( (TFBlenderbotSmallForConditionalGeneration, TFBlenderbotSmallModel) if is_tf_available() else () ) __snake_case = (TFBlenderbotSmallForConditionalGeneration,) if is_tf_available() else () __snake_case = ( { '''conversational''': TFBlenderbotSmallForConditionalGeneration, '''feature-extraction''': TFBlenderbotSmallModel, '''summarization''': TFBlenderbotSmallForConditionalGeneration, '''text2text-generation''': TFBlenderbotSmallForConditionalGeneration, '''translation''': TFBlenderbotSmallForConditionalGeneration, } if is_tf_available() else {} ) __snake_case = True __snake_case = False __snake_case = False def __lowerCAmelCase ( self : str ) ->List[Any]: """simple docstring""" a = TFBlenderbotSmallModelTester(self ) a = ConfigTester(self , config_class=__UpperCAmelCase ) def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" self.config_tester.run_common_tests() def __lowerCAmelCase ( self : int ) ->Optional[int]: """simple docstring""" a = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.check_decoder_model_past_large_inputs(*__UpperCAmelCase ) @require_tokenizers @require_tf class lowercase_ ( unittest.TestCase ): '''simple docstring''' __snake_case = [ '''Social anxiety\nWow, I am never shy. Do you have anxiety?\nYes. I end up sweating and blushing and feel like ''' ''' i\'m going to throw up.\nand why is that?''' ] __snake_case = '''facebook/blenderbot_small-90M''' @cached_property def __lowerCAmelCase ( self : List[Any] ) ->Optional[int]: """simple docstring""" return BlenderbotSmallTokenizer.from_pretrained('''facebook/blenderbot-90M''' ) @cached_property def __lowerCAmelCase ( self : List[str] ) ->str: """simple docstring""" a = TFAutoModelForSeqaSeqLM.from_pretrained(self.model_name ) return model @slow def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = self.tokenizer(self.src_text , return_tensors='''tf''' ) a = self.model.generate( model_inputs.input_ids , attention_mask=model_inputs.attention_mask , num_beams=2 , use_cache=__UpperCAmelCase , ) a = self.tokenizer.batch_decode(generated_ids.numpy() , skip_special_tokens=__UpperCAmelCase )[0] assert generated_words in ( "i don't know. i just feel like i'm going to throw up. it's not fun.", "i'm not sure. i just feel like i've been feeling like i have to be in a certain place", "i'm not sure. i just feel like i've been in a bad situation.", )

import math def _a ( a :int ) -> list: a = [True] * n a = False a = False a = True for i in range(3 , int(n**0.5 + 1 ) , 2 ): a = i * 2 while index < n: a = False a = index + i a = [2] for i in range(3 , a , 2 ): if is_prime[i]: primes.append(a ) return primes def _a ( a :int = 999_966_663_333 ) -> int: a = math.floor(math.sqrt(a ) ) + 100 a = prime_sieve(a ) a = 0 a = 0 a = primes[prime_index] while (last_prime**2) <= limit: a = primes[prime_index + 1] a = last_prime**2 a = next_prime**2 # Get numbers divisible by lps(current) a = lower_bound + last_prime while upper_bound > current <= limit: matches_sum += current current += last_prime # Reset the upper_bound while (upper_bound - next_prime) > limit: upper_bound -= next_prime # Add the numbers divisible by ups(current) a = upper_bound - next_prime while current > lower_bound: matches_sum += current current -= next_prime # Remove the numbers divisible by both ups and lps a = 0 while upper_bound > current <= limit: if current <= lower_bound: # Increment the current number current += last_prime * next_prime continue if current > limit: break # Remove twice since it was added by both ups and lps matches_sum -= current * 2 # Increment the current number current += last_prime * next_prime # Setup for next pair a = next_prime prime_index += 1 return matches_sum if __name__ == "__main__": print(solution())

from __future__ import annotations import unittest from transformers import XGLMConfig, XGLMTokenizer, is_tf_available from transformers.testing_utils import require_tf, slow from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import tensorflow as tf from transformers.models.xglm.modeling_tf_xglm import ( TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST, TFXGLMForCausalLM, TFXGLMModel, ) @require_tf class lowercase_ : '''simple docstring''' __snake_case = XGLMConfig __snake_case = {} __snake_case = '''gelu''' def __init__( self : str , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Union[str, Any]=14 , __UpperCAmelCase : List[Any]=7 , __UpperCAmelCase : Any=True , __UpperCAmelCase : Tuple=True , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : List[Any]=99 , __UpperCAmelCase : str=32 , __UpperCAmelCase : Any=2 , __UpperCAmelCase : List[Any]=4 , __UpperCAmelCase : Optional[Any]=37 , __UpperCAmelCase : Tuple="gelu" , __UpperCAmelCase : str=0.1 , __UpperCAmelCase : Tuple=0.1 , __UpperCAmelCase : Dict=512 , __UpperCAmelCase : Union[str, Any]=0.02 , ) ->Any: """simple docstring""" a = parent a = batch_size a = seq_length a = is_training a = use_input_mask a = use_labels a = vocab_size a = d_model a = num_hidden_layers a = num_attention_heads a = ffn_dim a = activation_function a = activation_dropout a = attention_dropout a = max_position_embeddings a = initializer_range a = None a = 0 a = 2 a = 1 def __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" return XGLMConfig.from_pretrained('''facebook/xglm-564M''' ) def __lowerCAmelCase ( self : Dict ) ->str: """simple docstring""" a = tf.clip_by_value( ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) , clip_value_min=0 , clip_value_max=3 ) a = None if self.use_input_mask: a = random_attention_mask([self.batch_size, self.seq_length] ) a = self.get_config() a = floats_tensor([self.num_hidden_layers, self.num_attention_heads] , 2 ) return ( config, input_ids, input_mask, head_mask, ) def __lowerCAmelCase ( self : List[Any] ) ->Tuple: """simple docstring""" return XGLMConfig( vocab_size=self.vocab_size , d_model=self.hidden_size , num_layers=self.num_hidden_layers , attention_heads=self.num_attention_heads , ffn_dim=self.ffn_dim , activation_function=self.activation_function , activation_dropout=self.activation_dropout , attention_dropout=self.attention_dropout , max_position_embeddings=self.max_position_embeddings , initializer_range=self.initializer_range , use_cache=__UpperCAmelCase , bos_token_id=self.bos_token_id , eos_token_id=self.eos_token_id , pad_token_id=self.pad_token_id , return_dict=__UpperCAmelCase , ) def __lowerCAmelCase ( self : Any ) ->str: """simple docstring""" a = self.prepare_config_and_inputs() ( ( a ) , ( a ) , ( a ) , ( a ) , ) = config_and_inputs a = { '''input_ids''': input_ids, '''head_mask''': head_mask, } return config, inputs_dict @require_tf class lowercase_ ( lowercase , lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = (TFXGLMModel, TFXGLMForCausalLM) if is_tf_available() else () __snake_case = (TFXGLMForCausalLM,) if is_tf_available() else () __snake_case = ( {'''feature-extraction''': TFXGLMModel, '''text-generation''': TFXGLMForCausalLM} if is_tf_available() else {} ) __snake_case = False __snake_case = False __snake_case = False def __lowerCAmelCase ( self : List[Any] ) ->int: """simple docstring""" a = TFXGLMModelTester(self ) a = ConfigTester(self , config_class=__UpperCAmelCase , n_embd=37 ) def __lowerCAmelCase ( self : Optional[Any] ) ->int: """simple docstring""" self.config_tester.run_common_tests() @slow def __lowerCAmelCase ( self : Dict ) ->Optional[int]: """simple docstring""" for model_name in TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: a = TFXGLMModel.from_pretrained(__UpperCAmelCase ) self.assertIsNotNone(__UpperCAmelCase ) @unittest.skip(reason='''Currently, model embeddings are going to undergo a major refactor.''' ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" super().test_resize_token_embeddings() @require_tf class lowercase_ ( unittest.TestCase ): '''simple docstring''' @slow def __lowerCAmelCase ( self : Union[str, Any] , __UpperCAmelCase : Any=True ) ->Optional[int]: """simple docstring""" a = TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' ) a = tf.convert_to_tensor([[2, 268, 9_865]] , dtype=tf.intaa ) # The dog # </s> The dog is a very friendly dog. He is very affectionate and loves to play with other # fmt: off a = [2, 268, 9_865, 67, 11, 1_988, 57_252, 9_865, 5, 984, 67, 1_988, 213_838, 1_658, 53, 70_446, 33, 6_657, 278, 1_581] # fmt: on a = model.generate(__UpperCAmelCase , do_sample=__UpperCAmelCase , num_beams=1 ) if verify_outputs: self.assertListEqual(output_ids[0].numpy().tolist() , __UpperCAmelCase ) @slow def __lowerCAmelCase ( self : str ) ->str: """simple docstring""" a = XGLMTokenizer.from_pretrained('''facebook/xglm-564M''' ) a = TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' ) tf.random.set_seed(0 ) a = tokenizer('''Today is a nice day and''' , return_tensors='''tf''' ) a = tokenized.input_ids # forces the generation to happen on CPU, to avoid GPU-related quirks (and assure same output regardless of the available devices) with tf.device(''':/CPU:0''' ): a = model.generate(__UpperCAmelCase , do_sample=__UpperCAmelCase , seed=[7, 0] ) a = tokenizer.decode(output_ids[0] , skip_special_tokens=__UpperCAmelCase ) a = ( '''Today is a nice day and warm evening here over Southern Alberta!! Today when they closed schools due''' ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) @slow def __lowerCAmelCase ( self : Optional[int] ) ->Any: """simple docstring""" a = TFXGLMForCausalLM.from_pretrained('''facebook/xglm-564M''' ) a = XGLMTokenizer.from_pretrained('''facebook/xglm-564M''' ) a = '''left''' # use different length sentences to test batching a = [ '''This is an extremelly long sentence that only exists to test the ability of the model to cope with ''' '''left-padding, such as in batched generation. The output for the sequence below should be the same ''' '''regardless of whether left padding is applied or not. When''', '''Hello, my dog is a little''', ] a = tokenizer(__UpperCAmelCase , return_tensors='''tf''' , padding=__UpperCAmelCase ) a = inputs['''input_ids'''] a = model.generate(input_ids=__UpperCAmelCase , attention_mask=inputs['''attention_mask'''] , max_new_tokens=12 ) a = tokenizer(sentences[0] , return_tensors='''tf''' ).input_ids a = model.generate(input_ids=__UpperCAmelCase , max_new_tokens=12 ) a = tokenizer(sentences[1] , return_tensors='''tf''' ).input_ids a = model.generate(input_ids=__UpperCAmelCase , max_new_tokens=12 ) a = tokenizer.batch_decode(__UpperCAmelCase , skip_special_tokens=__UpperCAmelCase ) a = tokenizer.decode(output_non_padded[0] , skip_special_tokens=__UpperCAmelCase ) a = tokenizer.decode(output_padded[0] , skip_special_tokens=__UpperCAmelCase ) a = [ '''This is an extremelly long sentence that only exists to test the ability of the model to cope with ''' '''left-padding, such as in batched generation. The output for the sequence below should be the same ''' '''regardless of whether left padding is applied or not. When left padding is applied, the sequence will be ''' '''a single''', '''Hello, my dog is a little bit of a shy one, but he is very friendly''', ] self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertListEqual(__UpperCAmelCase , [non_padded_sentence, padded_sentence] )

def _a ( a :float , a :float ) -> float: return price * (1 + tax_rate) if __name__ == "__main__": print(f"""{price_plus_tax(100, 0.25) = }""") print(f"""{price_plus_tax(125.50, 0.05) = }""")

def _a ( a :int ) -> int: assert isinstance(a , a ), F"""The input value of [n={number}] is not an integer""" if number == 1: return 2 elif number < 1: a = F"""The input value of [n={number}] has to be > 0""" raise ValueError(a ) else: a = sylvester(number - 1 ) a = num - 1 a = num return lower * upper + 1 if __name__ == "__main__": print(f"""The 8th number in Sylvester's sequence: {sylvester(8)}""")

from tempfile import TemporaryDirectory from unittest import TestCase from unittest.mock import MagicMock, patch from transformers import AutoModel, TFAutoModel from transformers.onnx import FeaturesManager from transformers.testing_utils import SMALL_MODEL_IDENTIFIER, require_tf, require_torch @require_torch @require_tf class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" a = SMALL_MODEL_IDENTIFIER a = '''pt''' a = '''tf''' def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : str ) ->Union[str, Any]: """simple docstring""" a = AutoModel.from_pretrained(self.test_model ) model_pt.save_pretrained(__UpperCAmelCase ) def __lowerCAmelCase ( self : Any , __UpperCAmelCase : Union[str, Any] ) ->List[str]: """simple docstring""" a = TFAutoModel.from_pretrained(self.test_model , from_pt=__UpperCAmelCase ) model_tf.save_pretrained(__UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = '''mock_framework''' # Framework provided - return whatever the user provides a = FeaturesManager.determine_framework(self.test_model , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) # Local checkpoint and framework provided - return provided framework # PyTorch checkpoint with TemporaryDirectory() as local_pt_ckpt: self._setup_pt_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) # TensorFlow checkpoint with TemporaryDirectory() as local_tf_ckpt: self._setup_tf_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" with TemporaryDirectory() as local_pt_ckpt: self._setup_pt_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # TensorFlow checkpoint with TemporaryDirectory() as local_tf_ckpt: self._setup_tf_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , self.framework_tf ) # Invalid local checkpoint with TemporaryDirectory() as local_invalid_ckpt: with self.assertRaises(__UpperCAmelCase ): a = FeaturesManager.determine_framework(__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # PyTorch not in environment -> use TensorFlow a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_tf ) # Both in environment -> use PyTorch a = MagicMock(return_value=__UpperCAmelCase ) a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ), patch( '''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # Both not in environment -> raise error a = MagicMock(return_value=__UpperCAmelCase ) a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ), patch( '''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): with self.assertRaises(__UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model )

from collections import OrderedDict from typing import TYPE_CHECKING, Any, List, Mapping, Optional from packaging import version if TYPE_CHECKING: from ... import PreTrainedTokenizer, TensorType from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfigWithPast, PatchingSpec from ...utils import is_torch_available, logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "bigscience/bloom": "https://huggingface.co/bigscience/bloom/resolve/main/config.json", "bigscience/bloom-560m": "https://huggingface.co/bigscience/bloom-560m/blob/main/config.json", "bigscience/bloom-1b1": "https://huggingface.co/bigscience/bloom-1b1/blob/main/config.json", "bigscience/bloom-1b7": "https://huggingface.co/bigscience/bloom-1b7/blob/main/config.json", "bigscience/bloom-3b": "https://huggingface.co/bigscience/bloom-3b/blob/main/config.json", "bigscience/bloom-7b1": "https://huggingface.co/bigscience/bloom-7b1/blob/main/config.json", } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''bloom''' __snake_case = ['''past_key_values'''] __snake_case = { '''num_hidden_layers''': '''n_layer''', '''num_attention_heads''': '''n_head''', } def __init__( self : Optional[Any] , __UpperCAmelCase : int=250_880 , __UpperCAmelCase : Tuple=64 , __UpperCAmelCase : Optional[int]=2 , __UpperCAmelCase : str=8 , __UpperCAmelCase : Union[str, Any]=1e-5 , __UpperCAmelCase : Union[str, Any]=0.02 , __UpperCAmelCase : str=True , __UpperCAmelCase : List[str]=1 , __UpperCAmelCase : Any=2 , __UpperCAmelCase : List[Any]=False , __UpperCAmelCase : Union[str, Any]=0.0 , __UpperCAmelCase : int=0.0 , __UpperCAmelCase : str=1 , __UpperCAmelCase : Optional[Any]=False , **__UpperCAmelCase : Any , ) ->Any: """simple docstring""" a = vocab_size # Backward compatibility with n_embed kwarg a = kwargs.pop('''n_embed''' , __UpperCAmelCase ) a = hidden_size if n_embed is None else n_embed a = n_layer a = n_head a = layer_norm_epsilon a = initializer_range a = use_cache a = pretraining_tp a = apply_residual_connection_post_layernorm a = hidden_dropout a = attention_dropout a = bos_token_id a = eos_token_id a = slow_but_exact super().__init__(bos_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , **__UpperCAmelCase ) class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = version.parse('''1.12''' ) def __init__( self : Optional[int] , __UpperCAmelCase : PretrainedConfig , __UpperCAmelCase : str = "default" , __UpperCAmelCase : List[PatchingSpec] = None , __UpperCAmelCase : bool = False , ) ->List[str]: """simple docstring""" super().__init__(__UpperCAmelCase , task=__UpperCAmelCase , patching_specs=__UpperCAmelCase , use_past=__UpperCAmelCase ) if not getattr(self._config , '''pad_token_id''' , __UpperCAmelCase ): # TODO: how to do that better? a = 0 @property def __lowerCAmelCase ( self : Dict ) ->Mapping[str, Mapping[int, str]]: """simple docstring""" a = OrderedDict({'''input_ids''': {0: '''batch''', 1: '''sequence'''}} ) if self.use_past: # BLOOM stores values on dynamic axis 2. For more details see: https://github.com/huggingface/transformers/pull/18344 self.fill_with_past_key_values_(__UpperCAmelCase , direction='''inputs''' , inverted_values_shape=__UpperCAmelCase ) a = {0: '''batch''', 1: '''past_sequence + sequence'''} else: a = {0: '''batch''', 1: '''sequence'''} return common_inputs @property def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" return self._config.n_layer @property def __lowerCAmelCase ( self : int ) ->int: """simple docstring""" return self._config.n_head @property def __lowerCAmelCase ( self : Any ) ->float: """simple docstring""" return 1e-3 def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : "PreTrainedTokenizer" , __UpperCAmelCase : int = -1 , __UpperCAmelCase : int = -1 , __UpperCAmelCase : bool = False , __UpperCAmelCase : Optional["TensorType"] = None , ) ->Mapping[str, Any]: """simple docstring""" a = super(__UpperCAmelCase , self ).generate_dummy_inputs( __UpperCAmelCase , batch_size=__UpperCAmelCase , seq_length=__UpperCAmelCase , is_pair=__UpperCAmelCase , framework=__UpperCAmelCase ) # We need to order the input in the way they appears in the forward() a = OrderedDict({'''input_ids''': common_inputs['''input_ids''']} ) # Need to add the past_keys if self.use_past: if not is_torch_available(): raise ValueError('''Cannot generate dummy past_keys inputs without PyTorch installed.''' ) else: import torch a , a = common_inputs['''input_ids'''].shape # Not using the same length for past_key_values a = seqlen + 2 a = self._config.hidden_size // self.num_attention_heads a = ( batch * self.num_attention_heads, head_dim, past_key_values_length, ) a = ( batch * self.num_attention_heads, past_key_values_length, head_dim, ) a = [ (torch.zeros(__UpperCAmelCase ), torch.zeros(__UpperCAmelCase )) for _ in range(self.num_layers ) ] a = common_inputs['''attention_mask'''] if self.use_past: a = ordered_inputs['''attention_mask'''].dtype a = torch.cat( [ordered_inputs['''attention_mask'''], torch.ones(__UpperCAmelCase , __UpperCAmelCase , dtype=__UpperCAmelCase )] , dim=1 ) return ordered_inputs @property def __lowerCAmelCase ( self : Tuple ) ->int: """simple docstring""" return 13

import os import unittest from transformers import BatchEncoding from transformers.models.bert.tokenization_bert import ( BasicTokenizer, WordpieceTokenizer, _is_control, _is_punctuation, _is_whitespace, ) from transformers.models.prophetnet.tokenization_prophetnet import VOCAB_FILES_NAMES, ProphetNetTokenizer from transformers.testing_utils import require_torch, slow from ...test_tokenization_common import TokenizerTesterMixin class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ProphetNetTokenizer __snake_case = False def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" super().setUp() a = [ '''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing''', ''',''', '''low''', '''lowest''', ] a = 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 __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str ) ->Dict: """simple docstring""" a = '''UNwant\u00E9d,running''' a = '''unwanted, running''' return input_text, output_text def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" a = self.tokenizer_class(self.vocab_file ) a = tokenizer.tokenize('''UNwant\u00E9d,running''' ) self.assertListEqual(__UpperCAmelCase , ['''un''', '''##want''', '''##ed''', ''',''', '''runn''', '''##ing'''] ) self.assertListEqual(tokenizer.convert_tokens_to_ids(__UpperCAmelCase ) , [9, 6, 7, 12, 10, 11] ) def __lowerCAmelCase ( self : int ) ->Any: """simple docstring""" a = BasicTokenizer() self.assertListEqual(tokenizer.tokenize('''ah\u535A\u63A8zz''' ) , ['''ah''', '''\u535A''', '''\u63A8''', '''zz'''] ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? ''' ) , ['''hello''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[int]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hällo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''h\u00E9llo'''] ) def __lowerCAmelCase ( self : Dict ) ->str: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hallo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Any ) ->Dict: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hallo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Tuple ) ->Optional[Any]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? ''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''HäLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : int ) ->Optional[int]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''HaLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , never_split=['''[UNK]'''] ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? [UNK]''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?''', '''[UNK]'''] ) def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" a = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing'''] a = {} for i, token in enumerate(__UpperCAmelCase ): a = i a = WordpieceTokenizer(vocab=__UpperCAmelCase , unk_token='''[UNK]''' ) self.assertListEqual(tokenizer.tokenize('''''' ) , [] ) self.assertListEqual(tokenizer.tokenize('''unwanted running''' ) , ['''un''', '''##want''', '''##ed''', '''runn''', '''##ing'''] ) self.assertListEqual(tokenizer.tokenize('''unwantedX running''' ) , ['''[UNK]''', '''runn''', '''##ing'''] ) @require_torch def __lowerCAmelCase ( self : int ) ->int: """simple docstring""" a = self.tokenizer_class.from_pretrained('''microsoft/prophetnet-large-uncased''' ) a = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.'''] a = [1_037, 2_146, 20_423, 2_005, 7_680, 7_849, 3_989, 1_012, 102] a = tokenizer(__UpperCAmelCase , padding=__UpperCAmelCase , return_tensors='''pt''' ) self.assertIsInstance(__UpperCAmelCase , __UpperCAmelCase ) a = list(batch.input_ids.numpy()[0] ) self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual((2, 9) , batch.input_ids.shape ) self.assertEqual((2, 9) , batch.attention_mask.shape ) def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" self.assertTrue(_is_whitespace(''' ''' ) ) self.assertTrue(_is_whitespace('''\t''' ) ) self.assertTrue(_is_whitespace('''\r''' ) ) self.assertTrue(_is_whitespace('''\n''' ) ) self.assertTrue(_is_whitespace('''\u00A0''' ) ) self.assertFalse(_is_whitespace('''A''' ) ) self.assertFalse(_is_whitespace('''-''' ) ) def __lowerCAmelCase ( self : Any ) ->List[str]: """simple docstring""" self.assertTrue(_is_control('''\u0005''' ) ) self.assertFalse(_is_control('''A''' ) ) self.assertFalse(_is_control(''' ''' ) ) self.assertFalse(_is_control('''\t''' ) ) self.assertFalse(_is_control('''\r''' ) ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" self.assertTrue(_is_punctuation('''-''' ) ) self.assertTrue(_is_punctuation('''$''' ) ) self.assertTrue(_is_punctuation('''`''' ) ) self.assertTrue(_is_punctuation('''.''' ) ) self.assertFalse(_is_punctuation('''A''' ) ) self.assertFalse(_is_punctuation(''' ''' ) ) @slow def __lowerCAmelCase ( self : List[str] ) ->List[str]: """simple docstring""" a = self.tokenizer_class.from_pretrained('''microsoft/prophetnet-large-uncased''' ) a = tokenizer.encode('''sequence builders''' , add_special_tokens=__UpperCAmelCase ) a = tokenizer.encode('''multi-sequence build''' , add_special_tokens=__UpperCAmelCase ) a = tokenizer.build_inputs_with_special_tokens(__UpperCAmelCase ) a = tokenizer.build_inputs_with_special_tokens(__UpperCAmelCase , __UpperCAmelCase ) assert encoded_sentence == text + [102] assert encoded_pair == text + [102] + text_a + [102]

print((lambda quine: quine % quine)("print((lambda quine: quine %% quine)(%r))"))

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available UpperCAmelCase__ = { "configuration_nllb_moe": [ "NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP", "NllbMoeConfig", ] } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST", "NllbMoeForConditionalGeneration", "NllbMoeModel", "NllbMoePreTrainedModel", "NllbMoeTop2Router", "NllbMoeSparseMLP", ] if TYPE_CHECKING: from .configuration_nllb_moe import ( NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP, NllbMoeConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_nllb_moe import ( NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST, NllbMoeForConditionalGeneration, NllbMoeModel, NllbMoePreTrainedModel, NllbMoeSparseMLP, NllbMoeTopaRouter, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

import warnings from ...utils import logging from .image_processing_poolformer import PoolFormerImageProcessor UpperCAmelCase__ = logging.get_logger(__name__) class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : int , *__UpperCAmelCase : Any , **__UpperCAmelCase : Optional[int] ) ->None: """simple docstring""" warnings.warn( '''The class PoolFormerFeatureExtractor is deprecated and will be removed in version 5 of Transformers.''' ''' Please use PoolFormerImageProcessor instead.''' , __UpperCAmelCase , ) super().__init__(*__UpperCAmelCase , **__UpperCAmelCase )

def _a ( a :int ) -> list: # bit count represents no. of bits in the gray code if bit_count < 0: raise ValueError('''The given input must be positive''' ) # get the generated string sequence a = gray_code_sequence_string(a ) # # convert them to integers for i in range(len(a ) ): a = int(sequence[i] , 2 ) return sequence def _a ( a :int ) -> list: # The approach is a recursive one # Base case achieved when either n = 0 or n=1 if bit_count == 0: return ["0"] if bit_count == 1: return ["0", "1"] a = 1 << bit_count # defines the length of the sequence # 1<< n is equivalent to 2^n # recursive answer will generate answer for n-1 bits a = gray_code_sequence_string(bit_count - 1 ) a = [] # append 0 to first half of the smaller sequence generated for i in range(seq_len // 2 ): a = '''0''' + smaller_sequence[i] sequence.append(a ) # append 1 to second half ... start from the end of the list for i in reversed(range(seq_len // 2 ) ): a = '''1''' + smaller_sequence[i] sequence.append(a ) return sequence if __name__ == "__main__": import doctest doctest.testmod()

import unittest from transformers import AutoTokenizer, FalconConfig, 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, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( FalconForCausalLM, FalconForQuestionAnswering, FalconForSequenceClassification, FalconForTokenClassification, FalconModel, ) class lowercase_ : '''simple docstring''' def __init__( self : Union[str, Any] , __UpperCAmelCase : int , __UpperCAmelCase : str=3 , __UpperCAmelCase : Optional[Any]=7 , __UpperCAmelCase : str=True , __UpperCAmelCase : Optional[Any]=True , __UpperCAmelCase : str=False , __UpperCAmelCase : str=True , __UpperCAmelCase : Optional[int]=99 , __UpperCAmelCase : List[str]=32 , __UpperCAmelCase : List[Any]=5 , __UpperCAmelCase : Optional[Any]=4 , __UpperCAmelCase : Optional[int]=37 , __UpperCAmelCase : Tuple="gelu" , __UpperCAmelCase : Optional[int]=0.1 , __UpperCAmelCase : Dict=0.1 , __UpperCAmelCase : Dict=512 , __UpperCAmelCase : Union[str, Any]=16 , __UpperCAmelCase : Optional[int]=2 , __UpperCAmelCase : Any=0.02 , __UpperCAmelCase : int=3 , __UpperCAmelCase : List[Any]=4 , __UpperCAmelCase : List[Any]=None , ) ->List[str]: """simple docstring""" a = parent a = batch_size a = seq_length a = is_training a = use_input_mask a = use_token_type_ids a = use_labels a = vocab_size a = hidden_size a = num_hidden_layers a = num_attention_heads a = intermediate_size a = hidden_act a = hidden_dropout_prob a = attention_probs_dropout_prob a = max_position_embeddings a = type_vocab_size a = type_sequence_label_size a = initializer_range a = num_labels a = num_choices a = scope def __lowerCAmelCase ( self : List[str] ) ->Union[str, Any]: """simple docstring""" a = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) a = None if self.use_input_mask: a = random_attention_mask([self.batch_size, self.seq_length] ) a = None a = None a = None a = None if self.use_labels: a = ids_tensor([self.batch_size] , self.type_sequence_label_size ) a = ids_tensor([self.batch_size, self.seq_length] , self.num_labels ) a = ids_tensor([self.batch_size] , self.num_choices ) a = self.get_config() return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels def __lowerCAmelCase ( self : Any ) ->Optional[int]: """simple docstring""" return FalconConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=__UpperCAmelCase , initializer_range=self.initializer_range , pad_token_id=1 , new_decoder_architecture=__UpperCAmelCase , ) def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : Dict , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : int , __UpperCAmelCase : List[str] , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : int ) ->List[str]: """simple docstring""" a = FalconModel(config=__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase ) a = model(__UpperCAmelCase ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : str , __UpperCAmelCase : Any , __UpperCAmelCase : int , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Optional[Any] , ) ->str: """simple docstring""" a = True a = FalconModel(__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model( __UpperCAmelCase , attention_mask=__UpperCAmelCase , encoder_hidden_states=__UpperCAmelCase , encoder_attention_mask=__UpperCAmelCase , ) a = model( __UpperCAmelCase , attention_mask=__UpperCAmelCase , encoder_hidden_states=__UpperCAmelCase , ) a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : Dict , __UpperCAmelCase : int , __UpperCAmelCase : List[str] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : List[str] , __UpperCAmelCase : Any , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : str , __UpperCAmelCase : List[str] , ) ->Optional[Any]: """simple docstring""" a = FalconForCausalLM(config=__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase , labels=__UpperCAmelCase ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size) ) def __lowerCAmelCase ( self : Dict , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : Dict , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : str , __UpperCAmelCase : Tuple , __UpperCAmelCase : int , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : Optional[int] , ) ->str: """simple docstring""" a = True a = True a = FalconForCausalLM(config=__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() # first forward pass a = model( __UpperCAmelCase , attention_mask=__UpperCAmelCase , encoder_hidden_states=__UpperCAmelCase , encoder_attention_mask=__UpperCAmelCase , use_cache=__UpperCAmelCase , ) a = outputs.past_key_values # create hypothetical multiple next token and extent to next_input_ids a = ids_tensor((self.batch_size, 3) , config.vocab_size ) a = ids_tensor((self.batch_size, 3) , vocab_size=2 ) # append to next input_ids and a = torch.cat([input_ids, next_tokens] , dim=-1 ) a = torch.cat([input_mask, next_mask] , dim=-1 ) a = model( __UpperCAmelCase , attention_mask=__UpperCAmelCase , encoder_hidden_states=__UpperCAmelCase , encoder_attention_mask=__UpperCAmelCase , output_hidden_states=__UpperCAmelCase , )['''hidden_states'''][0] a = 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 a = ids_tensor((1,) , output_from_past.shape[-1] ).item() a = output_from_no_past[:, -3:, random_slice_idx].detach() a = 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 __lowerCAmelCase ( self : Any ) ->Tuple: """simple docstring""" a = self.prepare_config_and_inputs() ( ( a ) , ( a ) , ( a ) , ( a ) , ( a ) , ( a ) , ( a ) , ) = config_and_inputs a = {'''input_ids''': input_ids, '''attention_mask''': input_mask} return config, inputs_dict @require_torch class lowercase_ ( lowercase , lowercase , lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ( ( FalconModel, FalconForCausalLM, FalconForSequenceClassification, FalconForTokenClassification, FalconForQuestionAnswering, ) if is_torch_available() else () ) __snake_case = (FalconForCausalLM,) if is_torch_available() else () __snake_case = ( { '''feature-extraction''': FalconModel, '''text-classification''': FalconForSequenceClassification, '''text-generation''': FalconForCausalLM, '''question-answering''': FalconForQuestionAnswering, '''token-classification''': FalconForTokenClassification, '''zero-shot''': FalconForSequenceClassification, } if is_torch_available() else {} ) __snake_case = False __snake_case = False def __lowerCAmelCase ( self : Dict ) ->str: """simple docstring""" a = FalconModelTester(self ) a = ConfigTester(self , config_class=__UpperCAmelCase , hidden_size=37 ) def __lowerCAmelCase ( self : str ) ->Union[str, Any]: """simple docstring""" self.config_tester.run_common_tests() def __lowerCAmelCase ( self : List[str] ) ->Tuple: """simple docstring""" a = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__UpperCAmelCase ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Any: """simple docstring""" a , *a = self.model_tester.prepare_config_and_inputs() for alibi in [True, False]: a = alibi self.model_tester.create_and_check_model(__UpperCAmelCase , *__UpperCAmelCase ) def __lowerCAmelCase ( self : Dict ) ->int: """simple docstring""" a , a = self.model_tester.prepare_config_and_inputs_for_common() a = 3 a = input_dict['''input_ids'''] a = input_ids.ne(1 ).to(__UpperCAmelCase ) a = ids_tensor([self.model_tester.batch_size] , self.model_tester.type_sequence_label_size ) a = FalconForSequenceClassification(__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase , labels=__UpperCAmelCase ) self.assertEqual(result.logits.shape , (self.model_tester.batch_size, self.model_tester.num_labels) ) def __lowerCAmelCase ( self : str ) ->Tuple: """simple docstring""" a , a = self.model_tester.prepare_config_and_inputs_for_common() a = 3 a = '''single_label_classification''' a = input_dict['''input_ids'''] a = input_ids.ne(1 ).to(__UpperCAmelCase ) a = ids_tensor([self.model_tester.batch_size] , self.model_tester.type_sequence_label_size ) a = FalconForSequenceClassification(__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase , labels=__UpperCAmelCase ) self.assertEqual(result.logits.shape , (self.model_tester.batch_size, self.model_tester.num_labels) ) def __lowerCAmelCase ( self : List[str] ) ->str: """simple docstring""" a , a = self.model_tester.prepare_config_and_inputs_for_common() a = input_dict['''input_ids'''] a = FalconForCausalLM(__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model(__UpperCAmelCase , use_cache=__UpperCAmelCase ) a = input_ids.shape[0] a = model._convert_to_rw_cache(result.past_key_values ) a = model._convert_cache_to_standard_format(__UpperCAmelCase , __UpperCAmelCase ) for layer in range(len(__UpperCAmelCase ) ): for tensor_idx in range(2 ): self.assertTrue(rw_cache[layer][tensor_idx].ndim == 3 ) self.assertTrue(result.past_key_values[layer][tensor_idx].ndim == 4 ) self.assertTrue( torch.all(result.past_key_values[layer][tensor_idx] == standard_cache[layer][tensor_idx] ) ) def __lowerCAmelCase ( self : List[str] ) ->str: """simple docstring""" a , a = self.model_tester.prepare_config_and_inputs_for_common() a = 3 a = '''multi_label_classification''' a = input_dict['''input_ids'''] a = input_ids.ne(1 ).to(__UpperCAmelCase ) a = ids_tensor( [self.model_tester.batch_size, config.num_labels] , self.model_tester.type_sequence_label_size ).to(torch.float ) a = FalconForSequenceClassification(__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase , labels=__UpperCAmelCase ) self.assertEqual(result.logits.shape , (self.model_tester.batch_size, self.model_tester.num_labels) ) def __lowerCAmelCase ( self : List[str] ) ->int: """simple docstring""" for model_class in self.all_generative_model_classes: a , a = self.model_tester.prepare_config_and_inputs_for_common() # If it doesn't support cache, pass the test if not hasattr(__UpperCAmelCase , '''use_cache''' ): return a = model_class(__UpperCAmelCase ).to(__UpperCAmelCase ) if "use_cache" not in inputs: a = True a = model(**__UpperCAmelCase ) # If "past_key_values" is not returned, pass the test (e.g. RWKV uses a different cache name and format) if "past_key_values" not in outputs: return a = ( getattr(__UpperCAmelCase , '''decoder_layers''' , __UpperCAmelCase ) or getattr(__UpperCAmelCase , '''num_decoder_layers''' , __UpperCAmelCase ) or config.num_hidden_layers ) a = getattr(__UpperCAmelCase , '''num_kv_heads''' , config.num_attention_heads ) a = getattr(__UpperCAmelCase , '''d_model''' , config.hidden_size ) a = embed_dim // num_attention_heads a = outputs['''past_key_values'''] self.assertEqual(len(__UpperCAmelCase ) , __UpperCAmelCase ) a , a = inputs['''input_ids'''].shape for i in range(__UpperCAmelCase ): if config.new_decoder_architecture: a = config.num_attention_heads elif config.multi_query: a = 1 self.assertEqual(len(past_kv[0] ) , 2 ) # K V for the decoder = 2 self.assertEqual( past_kv[i][0].shape , (batch_size, num_attention_heads, seq_length, per_head_embed_dim) ) self.assertEqual( past_kv[i][1].shape , (batch_size, num_attention_heads, seq_length, per_head_embed_dim) ) @require_torch class lowercase_ ( unittest.TestCase ): '''simple docstring''' @slow def __lowerCAmelCase ( self : Dict ) ->Tuple: """simple docstring""" a = AutoTokenizer.from_pretrained('''Rocketknight1/falcon-rw-1b''' ) a = FalconForCausalLM.from_pretrained('''Rocketknight1/falcon-rw-1b''' ) model.eval() model.to(__UpperCAmelCase ) a = tokenizer('''My favorite food is''' , return_tensors='''pt''' ).to(__UpperCAmelCase ) a = ( '''My favorite food is pizza. I love it so much that I have a pizza party every year for my birthday.''' ) a = model.generate(**__UpperCAmelCase , do_sample=__UpperCAmelCase , max_new_tokens=19 ) a = tokenizer.batch_decode(__UpperCAmelCase )[0] self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) @slow def __lowerCAmelCase ( self : Union[str, Any] ) ->List[str]: """simple docstring""" for repo in ["Rocketknight1/tiny-random-falcon-7b", "Rocketknight1/tiny-random-falcon-40b"]: a = AutoTokenizer.from_pretrained(__UpperCAmelCase ) a = FalconForCausalLM.from_pretrained(__UpperCAmelCase ) model.eval() model.to(__UpperCAmelCase ) a = tokenizer('''My favorite food is''' , return_tensors='''pt''' ).to(__UpperCAmelCase ) # We just test that these run without errors - the models are randomly initialized # and so the actual text outputs will be garbage model.generate(**__UpperCAmelCase , do_sample=__UpperCAmelCase , max_new_tokens=4 ) model.generate(**__UpperCAmelCase , do_sample=__UpperCAmelCase , max_new_tokens=4 ) model.generate(**__UpperCAmelCase , num_beams=2 , max_new_tokens=4 ) @slow def __lowerCAmelCase ( self : Tuple ) ->Dict: """simple docstring""" with torch.no_grad(): for repo in [ "Rocketknight1/falcon-rw-1b", "Rocketknight1/tiny-random-falcon-7b", "Rocketknight1/tiny-random-falcon-40b", ]: a = AutoTokenizer.from_pretrained(__UpperCAmelCase ) a = FalconForCausalLM.from_pretrained(__UpperCAmelCase ) model.eval() model.to(device=__UpperCAmelCase ) a = tokenizer('''My favorite food is''' , return_tensors='''pt''' ).to(__UpperCAmelCase ) # Test results are the same with and without cache a = model.generate(**__UpperCAmelCase , do_sample=__UpperCAmelCase , max_new_tokens=20 , use_cache=__UpperCAmelCase ) a = model.generate(**__UpperCAmelCase , do_sample=__UpperCAmelCase , max_new_tokens=20 , use_cache=__UpperCAmelCase ) self.assertTrue((outputs_cache - outputs_no_cache).sum().item() == 0 )

import json import os import shutil import tempfile import unittest import numpy as np from transformers import BertTokenizerFast from transformers.models.bert.tokenization_bert import VOCAB_FILES_NAMES, BertTokenizer from transformers.testing_utils import require_tokenizers, require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import VisionTextDualEncoderProcessor, ViTImageProcessor @require_tokenizers @require_vision class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : List[Any] ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() # fmt: off a = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing''', ''',''', '''low''', '''lowest'''] # fmt: on a = 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] ) ) a = { '''do_resize''': True, '''size''': {'''height''': 18, '''width''': 18}, '''do_normalize''': True, '''image_mean''': [0.5, 0.5, 0.5], '''image_std''': [0.5, 0.5, 0.5], } a = os.path.join(self.tmpdirname , __UpperCAmelCase ) with open(self.image_processor_file , '''w''' , encoding='''utf-8''' ) as fp: json.dump(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] , **__UpperCAmelCase : List[Any] ) ->int: """simple docstring""" return BertTokenizer.from_pretrained(self.tmpdirname , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Union[str, Any] , **__UpperCAmelCase : Optional[int] ) ->Union[str, Any]: """simple docstring""" return ViTImageProcessor.from_pretrained(self.tmpdirname , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" shutil.rmtree(self.tmpdirname ) def __lowerCAmelCase ( self : str ) ->Dict: """simple docstring""" a = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )] a = [Image.fromarray(np.moveaxis(__UpperCAmelCase , 0 , -1 ) ) for x in image_inputs] return image_inputs def __lowerCAmelCase ( self : Any ) ->Tuple: """simple docstring""" a = self.get_tokenizer() a = self.get_image_processor() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) processor.save_pretrained(self.tmpdirname ) a = VisionTextDualEncoderProcessor.from_pretrained(self.tmpdirname ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer.get_vocab() ) self.assertIsInstance(processor.tokenizer , (BertTokenizer, BertTokenizerFast) ) self.assertEqual(processor.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertIsInstance(processor.image_processor , __UpperCAmelCase ) def __lowerCAmelCase ( self : int ) ->Dict: """simple docstring""" a = VisionTextDualEncoderProcessor( tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) a = self.get_tokenizer(bos_token='''(BOS)''' , eos_token='''(EOS)''' ) a = self.get_image_processor(do_normalize=__UpperCAmelCase , padding_value=1.0 ) a = VisionTextDualEncoderProcessor.from_pretrained( self.tmpdirname , bos_token='''(BOS)''' , eos_token='''(EOS)''' , do_normalize=__UpperCAmelCase , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , (BertTokenizer, BertTokenizerFast) ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , __UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->Dict: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = self.prepare_image_inputs() a = image_processor(__UpperCAmelCase , return_tensors='''np''' ) a = processor(images=__UpperCAmelCase , return_tensors='''np''' ) for key in input_feat_extract.keys(): self.assertAlmostEqual(input_feat_extract[key].sum() , input_processor[key].sum() , delta=1e-2 ) def __lowerCAmelCase ( self : List[str] ) ->str: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = processor(text=__UpperCAmelCase ) a = tokenizer(__UpperCAmelCase ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = self.prepare_image_inputs() a = processor(text=__UpperCAmelCase , images=__UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , ['''input_ids''', '''token_type_ids''', '''attention_mask''', '''pixel_values'''] ) # test if it raises when no input is passed with self.assertRaises(__UpperCAmelCase ): processor() def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] a = processor.batch_decode(__UpperCAmelCase ) a = tokenizer.batch_decode(__UpperCAmelCase ) self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] ) ->Dict: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = self.prepare_image_inputs() a = processor(text=__UpperCAmelCase , images=__UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , processor.model_input_names )

from collections import UserDict from typing import List, Union from ..utils import ( add_end_docstrings, is_tf_available, is_torch_available, is_vision_available, logging, requires_backends, ) from .base import PIPELINE_INIT_ARGS, Pipeline if is_vision_available(): from PIL import Image from ..image_utils import load_image if is_torch_available(): from ..models.auto.modeling_auto import MODEL_FOR_ZERO_SHOT_IMAGE_CLASSIFICATION_MAPPING if is_tf_available(): from ..models.auto.modeling_tf_auto import TF_MODEL_FOR_ZERO_SHOT_IMAGE_CLASSIFICATION_MAPPING from ..tf_utils import stable_softmax UpperCAmelCase__ = logging.get_logger(__name__) @add_end_docstrings(lowercase ) class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : int , **__UpperCAmelCase : Optional[int] ) ->int: """simple docstring""" super().__init__(**__UpperCAmelCase ) requires_backends(self , '''vision''' ) self.check_model_type( TF_MODEL_FOR_ZERO_SHOT_IMAGE_CLASSIFICATION_MAPPING if self.framework == '''tf''' else MODEL_FOR_ZERO_SHOT_IMAGE_CLASSIFICATION_MAPPING ) def __call__( self : str , __UpperCAmelCase : Union[str, List[str], "Image", List["Image"]] , **__UpperCAmelCase : Tuple ) ->Tuple: """simple docstring""" return super().__call__(__UpperCAmelCase , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Any , **__UpperCAmelCase : Optional[int] ) ->Optional[int]: """simple docstring""" a = {} if "candidate_labels" in kwargs: a = kwargs['''candidate_labels'''] if "hypothesis_template" in kwargs: a = kwargs['''hypothesis_template'''] return preprocess_params, {}, {} def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Optional[Any]=None , __UpperCAmelCase : List[str]="This is a photo of {}." ) ->Tuple: """simple docstring""" a = load_image(__UpperCAmelCase ) a = self.image_processor(images=[image] , return_tensors=self.framework ) a = candidate_labels a = [hypothesis_template.format(__UpperCAmelCase ) for x in candidate_labels] a = self.tokenizer(__UpperCAmelCase , return_tensors=self.framework , padding=__UpperCAmelCase ) a = [text_inputs] return inputs def __lowerCAmelCase ( self : int , __UpperCAmelCase : Union[str, Any] ) ->Any: """simple docstring""" a = model_inputs.pop('''candidate_labels''' ) a = model_inputs.pop('''text_inputs''' ) if isinstance(text_inputs[0] , __UpperCAmelCase ): a = text_inputs[0] else: # Batching case. a = text_inputs[0][0] a = self.model(**__UpperCAmelCase , **__UpperCAmelCase ) a = { '''candidate_labels''': candidate_labels, '''logits''': outputs.logits_per_image, } return model_outputs def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : Union[str, Any] ) ->Dict: """simple docstring""" a = model_outputs.pop('''candidate_labels''' ) a = model_outputs['''logits'''][0] if self.framework == "pt": a = logits.softmax(dim=-1 ).squeeze(-1 ) a = probs.tolist() if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): a = [scores] elif self.framework == "tf": a = stable_softmax(__UpperCAmelCase , axis=-1 ) a = probs.numpy().tolist() else: raise ValueError(F"""Unsupported framework: {self.framework}""" ) a = [ {'''score''': score, '''label''': candidate_label} for score, candidate_label in sorted(zip(__UpperCAmelCase , __UpperCAmelCase ) , key=lambda __UpperCAmelCase : -x[0] ) ] return result

import argparse import json from collections import OrderedDict import torch from huggingface_hub import cached_download, hf_hub_url from transformers import AutoImageProcessor, CvtConfig, CvtForImageClassification def _a ( a :List[Any] ) -> Optional[int]: a = [] embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.weight""", F"""stage{idx}.patch_embed.proj.weight""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.bias""", F"""stage{idx}.patch_embed.proj.bias""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.weight""", F"""stage{idx}.patch_embed.norm.weight""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.bias""", F"""stage{idx}.patch_embed.norm.bias""", ) ) return embed def _a ( a :List[Any] , a :Optional[int] ) -> Dict: a = [] attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_q.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_q.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_k.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_k.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_v.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_v.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj.bias""", ) ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.weight""", F"""stage{idx}.blocks.{cnt}.mlp.fc1.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.bias""", F"""stage{idx}.blocks.{cnt}.mlp.fc1.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.weight""", F"""stage{idx}.blocks.{cnt}.mlp.fc2.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.bias""", F"""stage{idx}.blocks.{cnt}.mlp.fc2.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.weight""", F"""stage{idx}.blocks.{cnt}.norm1.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.bias""", F"""stage{idx}.blocks.{cnt}.norm1.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.weight""", F"""stage{idx}.blocks.{cnt}.norm2.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.bias""", F"""stage{idx}.blocks.{cnt}.norm2.bias""") ) return attention_weights def _a ( a :Any ) -> List[Any]: a = [] token.append((F"""cvt.encoder.stages.{idx}.cls_token""", '''stage2.cls_token''') ) return token def _a ( ) -> Optional[int]: a = [] head.append(('''layernorm.weight''', '''norm.weight''') ) head.append(('''layernorm.bias''', '''norm.bias''') ) head.append(('''classifier.weight''', '''head.weight''') ) head.append(('''classifier.bias''', '''head.bias''') ) return head def _a ( a :Tuple , a :Optional[int] , a :List[Any] , a :Union[str, Any] ) -> Optional[int]: a = '''imagenet-1k-id2label.json''' a = 1_000 a = '''huggingface/label-files''' a = num_labels a = json.load(open(cached_download(hf_hub_url(a , a , repo_type='''dataset''' ) ) , '''r''' ) ) a = {int(a ): v for k, v in idalabel.items()} a = idalabel a = {v: k for k, v in idalabel.items()} a = a = CvtConfig(num_labels=a , idalabel=a , labelaid=a ) # For depth size 13 (13 = 1+2+10) if cvt_model.rsplit('''/''' , 1 )[-1][4:6] == "13": a = [1, 2, 10] # For depth size 21 (21 = 1+4+16) elif cvt_model.rsplit('''/''' , 1 )[-1][4:6] == "21": a = [1, 4, 16] # For wide cvt (similar to wide-resnet) depth size 24 (w24 = 2 + 2 20) else: a = [2, 2, 20] a = [3, 12, 16] a = [192, 768, 1_024] a = CvtForImageClassification(a ) a = AutoImageProcessor.from_pretrained('''facebook/convnext-base-224-22k-1k''' ) a = image_size a = torch.load(a , map_location=torch.device('''cpu''' ) ) a = OrderedDict() a = [] for idx in range(len(config.depth ) ): if config.cls_token[idx]: a = list_of_state_dict + cls_token(a ) a = list_of_state_dict + embeddings(a ) for cnt in range(config.depth[idx] ): a = list_of_state_dict + attention(a , a ) a = list_of_state_dict + final() for gg in list_of_state_dict: print(a ) for i in range(len(a ) ): a = original_weights[list_of_state_dict[i][1]] model.load_state_dict(a ) model.save_pretrained(a ) image_processor.save_pretrained(a ) # Download the weights from zoo: https://1drv.ms/u/s!AhIXJn_J-blW9RzF3rMW7SsLHa8h?e=blQ0Al if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() parser.add_argument( "--cvt_model", default="cvt-w24", type=str, help="Name of the cvt model you'd like to convert.", ) parser.add_argument( "--image_size", default=384, type=int, help="Input Image Size", ) parser.add_argument( "--cvt_file_name", default=R"cvtmodels\CvT-w24-384x384-IN-22k.pth", type=str, help="Input Image Size", ) parser.add_argument( "--pytorch_dump_folder_path", default=None, type=str, help="Path to the output PyTorch model directory." ) UpperCAmelCase__ = parser.parse_args() convert_cvt_checkpoint(args.cvt_model, args.image_size, args.cvt_file_name, args.pytorch_dump_folder_path)

import gc import unittest import numpy as np import torch from diffusers import AutoencoderKL, DDIMScheduler, DiTPipeline, DPMSolverMultistepScheduler, TransformeraDModel from diffusers.utils import is_xformers_available, load_numpy, slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..pipeline_params import ( CLASS_CONDITIONED_IMAGE_GENERATION_BATCH_PARAMS, CLASS_CONDITIONED_IMAGE_GENERATION_PARAMS, ) from ..test_pipelines_common import PipelineTesterMixin enable_full_determinism() class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = DiTPipeline __snake_case = CLASS_CONDITIONED_IMAGE_GENERATION_PARAMS __snake_case = PipelineTesterMixin.required_optional_params - { '''latents''', '''num_images_per_prompt''', '''callback''', '''callback_steps''', } __snake_case = CLASS_CONDITIONED_IMAGE_GENERATION_BATCH_PARAMS __snake_case = False def __lowerCAmelCase ( self : Union[str, Any] ) ->Tuple: """simple docstring""" torch.manual_seed(0 ) a = TransformeraDModel( sample_size=16 , num_layers=2 , patch_size=4 , attention_head_dim=8 , num_attention_heads=2 , in_channels=4 , out_channels=8 , attention_bias=__UpperCAmelCase , activation_fn='''gelu-approximate''' , num_embeds_ada_norm=1_000 , norm_type='''ada_norm_zero''' , norm_elementwise_affine=__UpperCAmelCase , ) a = AutoencoderKL() a = DDIMScheduler() a = {'''transformer''': transformer.eval(), '''vae''': vae.eval(), '''scheduler''': scheduler} return components def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Optional[Any]=0 ) ->Any: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''class_labels''': [1], '''generator''': generator, '''num_inference_steps''': 2, '''output_type''': '''numpy''', } return inputs def __lowerCAmelCase ( self : List[Any] ) ->int: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = self.get_dummy_inputs(__UpperCAmelCase ) a = pipe(**__UpperCAmelCase ).images a = image[0, -3:, -3:, -1] self.assertEqual(image.shape , (1, 16, 16, 3) ) a = np.array([0.2946, 0.6601, 0.4329, 0.3296, 0.4144, 0.5319, 0.7273, 0.5013, 0.4457] ) a = np.abs(image_slice.flatten() - expected_slice ).max() self.assertLessEqual(__UpperCAmelCase , 1e-3 ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" self._test_inference_batch_single_identical(relax_max_difference=__UpperCAmelCase , expected_max_diff=1e-3 ) @unittest.skipIf( torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=1e-3 ) @require_torch_gpu @slow class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : List[Any] ) ->str: """simple docstring""" super().tearDown() gc.collect() torch.cuda.empty_cache() def __lowerCAmelCase ( self : Tuple ) ->int: """simple docstring""" a = torch.manual_seed(0 ) a = DiTPipeline.from_pretrained('''facebook/DiT-XL-2-256''' ) pipe.to('''cuda''' ) a = ['''vase''', '''umbrella''', '''white shark''', '''white wolf'''] a = pipe.get_label_ids(__UpperCAmelCase ) a = pipe(__UpperCAmelCase , generator=__UpperCAmelCase , num_inference_steps=40 , output_type='''np''' ).images for word, image in zip(__UpperCAmelCase , __UpperCAmelCase ): a = load_numpy( F"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/dit/{word}.npy""" ) assert np.abs((expected_image - image).max() ) < 1e-2 def __lowerCAmelCase ( self : str ) ->Tuple: """simple docstring""" a = DiTPipeline.from_pretrained('''facebook/DiT-XL-2-512''' ) a = DPMSolverMultistepScheduler.from_config(pipe.scheduler.config ) pipe.to('''cuda''' ) a = ['''vase''', '''umbrella'''] a = pipe.get_label_ids(__UpperCAmelCase ) a = torch.manual_seed(0 ) a = pipe(__UpperCAmelCase , generator=__UpperCAmelCase , num_inference_steps=25 , output_type='''np''' ).images for word, image in zip(__UpperCAmelCase , __UpperCAmelCase ): a = load_numpy( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' F"""/dit/{word}_512.npy""" ) assert np.abs((expected_image - image).max() ) < 1e-1

from __future__ import annotations UpperCAmelCase__ = list[list[int]] # assigning initial values to the grid UpperCAmelCase__ = [ [3, 0, 6, 5, 0, 8, 4, 0, 0], [5, 2, 0, 0, 0, 0, 0, 0, 0], [0, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] # a grid with no solution UpperCAmelCase__ = [ [5, 0, 6, 5, 0, 8, 4, 0, 3], [5, 2, 0, 0, 0, 0, 0, 0, 2], [1, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] def _a ( a :Matrix , a :int , a :int , a :int ) -> bool: for i in range(9 ): if grid[row][i] == n or grid[i][column] == n: return False for i in range(3 ): for j in range(3 ): if grid[(row - row % 3) + i][(column - column % 3) + j] == n: return False return True def _a ( a :Matrix ) -> tuple[int, int] | None: for i in range(9 ): for j in range(9 ): if grid[i][j] == 0: return i, j return None def _a ( a :Matrix ) -> Matrix | None: if location := find_empty_location(a ): a , a = location else: # If the location is ``None``, then the grid is solved. return grid for digit in range(1 , 10 ): if is_safe(a , a , a , a ): a = digit if sudoku(a ) is not None: return grid a = 0 return None def _a ( a :Matrix ) -> None: for row in grid: for cell in row: print(a , end=''' ''' ) print() if __name__ == "__main__": # make a copy of grid so that you can compare with the unmodified grid for example_grid in (initial_grid, no_solution): print("\nExample grid:\n" + "=" * 20) print_solution(example_grid) print("\nExample grid solution:") UpperCAmelCase__ = sudoku(example_grid) if solution is not None: print_solution(solution) else: print("Cannot find a solution.")

from typing import Dict, Optional, Union import numpy as np from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import flip_channel_order, resize, to_channel_dimension_format, to_pil_image from ...image_utils import ( ChannelDimension, ImageInput, PILImageResampling, make_list_of_images, to_numpy_array, valid_images, ) from ...utils import TensorType, is_pytesseract_available, is_vision_available, logging, requires_backends if is_vision_available(): import PIL # soft dependency if is_pytesseract_available(): import pytesseract UpperCAmelCase__ = logging.get_logger(__name__) def _a ( a :str , a :Dict , a :Dict ) -> int: return [ int(1_000 * (box[0] / width) ), int(1_000 * (box[1] / height) ), int(1_000 * (box[2] / width) ), int(1_000 * (box[3] / height) ), ] def _a ( a :np.ndarray , a :Optional[str] , a :Optional[str] = None ) -> Any: a = tesseract_config if tesseract_config is not None else '''''' # apply OCR a = to_pil_image(a ) a , a = pil_image.size a = pytesseract.image_to_data(a , lang=a , output_type='''dict''' , config=a ) a , a , a , a , a = data['''text'''], data['''left'''], data['''top'''], data['''width'''], data['''height'''] # filter empty words and corresponding coordinates a = [idx for idx, word in enumerate(a ) if not word.strip()] a = [word for idx, word in enumerate(a ) if idx not in irrelevant_indices] a = [coord for idx, coord in enumerate(a ) if idx not in irrelevant_indices] a = [coord for idx, coord in enumerate(a ) if idx not in irrelevant_indices] a = [coord for idx, coord in enumerate(a ) if idx not in irrelevant_indices] a = [coord for idx, coord in enumerate(a ) if idx not in irrelevant_indices] # turn coordinates into (left, top, left+width, top+height) format a = [] for x, y, w, h in zip(a , a , a , a ): a = [x, y, x + w, y + h] actual_boxes.append(a ) # finally, normalize the bounding boxes a = [] for box in actual_boxes: normalized_boxes.append(normalize_box(a , a , a ) ) assert len(a ) == len(a ), "Not as many words as there are bounding boxes" return words, normalized_boxes class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = ['''pixel_values'''] def __init__( self : int , __UpperCAmelCase : bool = True , __UpperCAmelCase : Dict[str, int] = None , __UpperCAmelCase : PILImageResampling = PILImageResampling.BILINEAR , __UpperCAmelCase : bool = True , __UpperCAmelCase : Optional[str] = None , __UpperCAmelCase : Optional[str] = "" , **__UpperCAmelCase : Any , ) ->None: """simple docstring""" super().__init__(**__UpperCAmelCase ) a = size if size is not None else {'''height''': 224, '''width''': 224} a = get_size_dict(__UpperCAmelCase ) a = do_resize a = size a = resample a = apply_ocr a = ocr_lang a = tesseract_config def __lowerCAmelCase ( self : Any , __UpperCAmelCase : np.ndarray , __UpperCAmelCase : Dict[str, int] , __UpperCAmelCase : PILImageResampling = PILImageResampling.BILINEAR , __UpperCAmelCase : Optional[Union[str, ChannelDimension]] = None , **__UpperCAmelCase : Dict , ) ->np.ndarray: """simple docstring""" a = get_size_dict(__UpperCAmelCase ) if "height" not in size or "width" not in size: raise ValueError(F"""The size dictionary must contain the keys 'height' and 'width'. Got {size.keys()}""" ) a = (size['''height'''], size['''width''']) return resize(__UpperCAmelCase , size=__UpperCAmelCase , resample=__UpperCAmelCase , data_format=__UpperCAmelCase , **__UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : ImageInput , __UpperCAmelCase : bool = None , __UpperCAmelCase : Dict[str, int] = None , __UpperCAmelCase : PILImageResampling = None , __UpperCAmelCase : bool = None , __UpperCAmelCase : Optional[str] = None , __UpperCAmelCase : Optional[str] = None , __UpperCAmelCase : Optional[Union[str, TensorType]] = None , __UpperCAmelCase : ChannelDimension = ChannelDimension.FIRST , **__UpperCAmelCase : Optional[int] , ) ->PIL.Image.Image: """simple docstring""" a = do_resize if do_resize is not None else self.do_resize a = size if size is not None else self.size a = get_size_dict(__UpperCAmelCase ) a = resample if resample is not None else self.resample a = apply_ocr if apply_ocr is not None else self.apply_ocr a = ocr_lang if ocr_lang is not None else self.ocr_lang a = tesseract_config if tesseract_config is not None else self.tesseract_config a = make_list_of_images(__UpperCAmelCase ) if not valid_images(__UpperCAmelCase ): raise ValueError( '''Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, ''' '''torch.Tensor, tf.Tensor or jax.ndarray.''' ) if do_resize and size is None: raise ValueError('''Size must be specified if do_resize is True.''' ) # All transformations expect numpy arrays. a = [to_numpy_array(__UpperCAmelCase ) for image in images] if apply_ocr: requires_backends(self , '''pytesseract''' ) a = [] a = [] for image in images: a , a = apply_tesseract(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) words_batch.append(__UpperCAmelCase ) boxes_batch.append(__UpperCAmelCase ) if do_resize: a = [self.resize(image=__UpperCAmelCase , size=__UpperCAmelCase , resample=__UpperCAmelCase ) for image in images] # flip color channels from RGB to BGR (as Detectron2 requires this) a = [flip_channel_order(__UpperCAmelCase ) for image in images] a = [to_channel_dimension_format(__UpperCAmelCase , __UpperCAmelCase ) for image in images] a = BatchFeature(data={'''pixel_values''': images} , tensor_type=__UpperCAmelCase ) if apply_ocr: a = words_batch a = boxes_batch return data

import unittest import numpy as np import torch from torch import nn from transformers import ( CLIPImageProcessor, CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer, CLIPVisionConfig, CLIPVisionModelWithProjection, ) from diffusers import KandinskyVaaPriorPipeline, PriorTransformer, UnCLIPScheduler from diffusers.utils import torch_device from diffusers.utils.testing_utils import enable_full_determinism, skip_mps from ..test_pipelines_common import PipelineTesterMixin enable_full_determinism() class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = KandinskyVaaPriorPipeline __snake_case = ['''prompt'''] __snake_case = ['''prompt''', '''negative_prompt'''] __snake_case = [ '''num_images_per_prompt''', '''generator''', '''num_inference_steps''', '''latents''', '''negative_prompt''', '''guidance_scale''', '''output_type''', '''return_dict''', ] __snake_case = False @property def __lowerCAmelCase ( self : Optional[Any] ) ->Union[str, Any]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Dict ) ->Any: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : int ) ->List[str]: """simple docstring""" return self.time_input_dim @property def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" return self.time_input_dim * 4 @property def __lowerCAmelCase ( self : Any ) ->List[Any]: """simple docstring""" return 100 @property def __lowerCAmelCase ( self : List[Any] ) ->str: """simple docstring""" a = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) return tokenizer @property def __lowerCAmelCase ( self : Tuple ) ->str: """simple docstring""" torch.manual_seed(0 ) a = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1e-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__UpperCAmelCase ) @property def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" torch.manual_seed(0 ) a = { '''num_attention_heads''': 2, '''attention_head_dim''': 12, '''embedding_dim''': self.text_embedder_hidden_size, '''num_layers''': 1, } a = PriorTransformer(**__UpperCAmelCase ) # clip_std and clip_mean is initialized to be 0 so PriorTransformer.post_process_latents will always return 0 - set clip_std to be 1 so it won't return 0 a = nn.Parameter(torch.ones(model.clip_std.shape ) ) return model @property def __lowerCAmelCase ( self : Optional[int] ) ->List[Any]: """simple docstring""" torch.manual_seed(0 ) a = CLIPVisionConfig( hidden_size=self.text_embedder_hidden_size , image_size=224 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=14 , ) a = CLIPVisionModelWithProjection(__UpperCAmelCase ) return model @property def __lowerCAmelCase ( self : Tuple ) ->int: """simple docstring""" a = CLIPImageProcessor( crop_size=224 , do_center_crop=__UpperCAmelCase , do_normalize=__UpperCAmelCase , do_resize=__UpperCAmelCase , image_mean=[0.48145466, 0.4578275, 0.40821073] , image_std=[0.26862954, 0.26130258, 0.27577711] , resample=3 , size=224 , ) return image_processor def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = self.dummy_prior a = self.dummy_image_encoder a = self.dummy_text_encoder a = self.dummy_tokenizer a = self.dummy_image_processor a = UnCLIPScheduler( variance_type='''fixed_small_log''' , prediction_type='''sample''' , num_train_timesteps=1_000 , clip_sample=__UpperCAmelCase , clip_sample_range=10.0 , ) a = { '''prior''': prior, '''image_encoder''': image_encoder, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''scheduler''': scheduler, '''image_processor''': image_processor, } return components def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : str=0 ) ->int: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''prompt''': '''horse''', '''generator''': generator, '''guidance_scale''': 4.0, '''num_inference_steps''': 2, '''output_type''': '''np''', } return inputs def __lowerCAmelCase ( self : str ) ->Tuple: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = pipe(**self.get_dummy_inputs(__UpperCAmelCase ) ) a = output.image_embeds a = pipe( **self.get_dummy_inputs(__UpperCAmelCase ) , return_dict=__UpperCAmelCase , )[0] a = image[0, -10:] a = image_from_tuple[0, -10:] assert image.shape == (1, 32) a = np.array( [-0.0532, 1.7120, 0.3656, -1.0852, -0.8946, -1.1756, 0.4348, 0.2482, 0.5146, -0.1156] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1e-2 @skip_mps def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = torch_device == '''cpu''' a = True a = False self._test_inference_batch_single_identical( test_max_difference=__UpperCAmelCase , relax_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , ) @skip_mps def __lowerCAmelCase ( self : List[str] ) ->Union[str, Any]: """simple docstring""" a = torch_device == '''cpu''' a = False self._test_attention_slicing_forward_pass( test_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , )

import unittest from transformers import ( MODEL_FOR_OBJECT_DETECTION_MAPPING, AutoFeatureExtractor, AutoModelForObjectDetection, ObjectDetectionPipeline, is_vision_available, pipeline, ) from transformers.testing_utils import ( is_pipeline_test, nested_simplify, require_pytesseract, require_tf, require_timm, require_torch, require_vision, slow, ) from .test_pipelines_common import ANY if is_vision_available(): from PIL import Image else: class lowercase_ : '''simple docstring''' @staticmethod def __lowerCAmelCase ( *__UpperCAmelCase : str , **__UpperCAmelCase : Tuple ) ->int: """simple docstring""" pass @is_pipeline_test @require_vision @require_timm @require_torch class lowercase_ ( unittest.TestCase ): '''simple docstring''' __snake_case = MODEL_FOR_OBJECT_DETECTION_MAPPING def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : Union[str, Any] ) ->List[str]: """simple docstring""" a = ObjectDetectionPipeline(model=__UpperCAmelCase , image_processor=__UpperCAmelCase ) return object_detector, ["./tests/fixtures/tests_samples/COCO/000000039769.png"] def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : int ) ->Tuple: """simple docstring""" a = object_detector('''./tests/fixtures/tests_samples/COCO/000000039769.png''' , threshold=0.0 ) self.assertGreater(len(__UpperCAmelCase ) , 0 ) for detected_object in outputs: self.assertEqual( __UpperCAmelCase , { '''score''': ANY(__UpperCAmelCase ), '''label''': ANY(__UpperCAmelCase ), '''box''': {'''xmin''': ANY(__UpperCAmelCase ), '''ymin''': ANY(__UpperCAmelCase ), '''xmax''': ANY(__UpperCAmelCase ), '''ymax''': ANY(__UpperCAmelCase )}, } , ) import datasets a = datasets.load_dataset('''hf-internal-testing/fixtures_image_utils''' , '''image''' , split='''test''' ) a = [ Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ), '''http://images.cocodataset.org/val2017/000000039769.jpg''', # RGBA dataset[0]['''file'''], # LA dataset[1]['''file'''], # L dataset[2]['''file'''], ] a = object_detector(__UpperCAmelCase , threshold=0.0 ) self.assertEqual(len(__UpperCAmelCase ) , len(__UpperCAmelCase ) ) for outputs in batch_outputs: self.assertGreater(len(__UpperCAmelCase ) , 0 ) for detected_object in outputs: self.assertEqual( __UpperCAmelCase , { '''score''': ANY(__UpperCAmelCase ), '''label''': ANY(__UpperCAmelCase ), '''box''': {'''xmin''': ANY(__UpperCAmelCase ), '''ymin''': ANY(__UpperCAmelCase ), '''xmax''': ANY(__UpperCAmelCase ), '''ymax''': ANY(__UpperCAmelCase )}, } , ) @require_tf @unittest.skip('''Object detection not implemented in TF''' ) def __lowerCAmelCase ( self : Any ) ->str: """simple docstring""" pass @require_torch def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" a = '''hf-internal-testing/tiny-detr-mobilenetsv3''' a = AutoModelForObjectDetection.from_pretrained(__UpperCAmelCase ) a = AutoFeatureExtractor.from_pretrained(__UpperCAmelCase ) a = ObjectDetectionPipeline(model=__UpperCAmelCase , feature_extractor=__UpperCAmelCase ) a = object_detector('''http://images.cocodataset.org/val2017/000000039769.jpg''' , threshold=0.0 ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {'''score''': 0.3376, '''label''': '''LABEL_0''', '''box''': {'''xmin''': 159, '''ymin''': 120, '''xmax''': 480, '''ymax''': 359}}, {'''score''': 0.3376, '''label''': '''LABEL_0''', '''box''': {'''xmin''': 159, '''ymin''': 120, '''xmax''': 480, '''ymax''': 359}}, ] , ) a = object_detector( [ '''http://images.cocodataset.org/val2017/000000039769.jpg''', '''http://images.cocodataset.org/val2017/000000039769.jpg''', ] , threshold=0.0 , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ [ {'''score''': 0.3376, '''label''': '''LABEL_0''', '''box''': {'''xmin''': 159, '''ymin''': 120, '''xmax''': 480, '''ymax''': 359}}, {'''score''': 0.3376, '''label''': '''LABEL_0''', '''box''': {'''xmin''': 159, '''ymin''': 120, '''xmax''': 480, '''ymax''': 359}}, ], [ {'''score''': 0.3376, '''label''': '''LABEL_0''', '''box''': {'''xmin''': 159, '''ymin''': 120, '''xmax''': 480, '''ymax''': 359}}, {'''score''': 0.3376, '''label''': '''LABEL_0''', '''box''': {'''xmin''': 159, '''ymin''': 120, '''xmax''': 480, '''ymax''': 359}}, ], ] , ) @require_torch @slow def __lowerCAmelCase ( self : Tuple ) ->Union[str, Any]: """simple docstring""" a = '''facebook/detr-resnet-50''' a = AutoModelForObjectDetection.from_pretrained(__UpperCAmelCase ) a = AutoFeatureExtractor.from_pretrained(__UpperCAmelCase ) a = ObjectDetectionPipeline(model=__UpperCAmelCase , feature_extractor=__UpperCAmelCase ) a = object_detector('''http://images.cocodataset.org/val2017/000000039769.jpg''' ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {'''score''': 0.9982, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 70, '''xmax''': 175, '''ymax''': 117}}, {'''score''': 0.9960, '''label''': '''remote''', '''box''': {'''xmin''': 333, '''ymin''': 72, '''xmax''': 368, '''ymax''': 187}}, {'''score''': 0.9955, '''label''': '''couch''', '''box''': {'''xmin''': 0, '''ymin''': 1, '''xmax''': 639, '''ymax''': 473}}, {'''score''': 0.9988, '''label''': '''cat''', '''box''': {'''xmin''': 13, '''ymin''': 52, '''xmax''': 314, '''ymax''': 470}}, {'''score''': 0.9987, '''label''': '''cat''', '''box''': {'''xmin''': 345, '''ymin''': 23, '''xmax''': 640, '''ymax''': 368}}, ] , ) a = object_detector( [ '''http://images.cocodataset.org/val2017/000000039769.jpg''', '''http://images.cocodataset.org/val2017/000000039769.jpg''', ] ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ [ {'''score''': 0.9982, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 70, '''xmax''': 175, '''ymax''': 117}}, {'''score''': 0.9960, '''label''': '''remote''', '''box''': {'''xmin''': 333, '''ymin''': 72, '''xmax''': 368, '''ymax''': 187}}, {'''score''': 0.9955, '''label''': '''couch''', '''box''': {'''xmin''': 0, '''ymin''': 1, '''xmax''': 639, '''ymax''': 473}}, {'''score''': 0.9988, '''label''': '''cat''', '''box''': {'''xmin''': 13, '''ymin''': 52, '''xmax''': 314, '''ymax''': 470}}, {'''score''': 0.9987, '''label''': '''cat''', '''box''': {'''xmin''': 345, '''ymin''': 23, '''xmax''': 640, '''ymax''': 368}}, ], [ {'''score''': 0.9982, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 70, '''xmax''': 175, '''ymax''': 117}}, {'''score''': 0.9960, '''label''': '''remote''', '''box''': {'''xmin''': 333, '''ymin''': 72, '''xmax''': 368, '''ymax''': 187}}, {'''score''': 0.9955, '''label''': '''couch''', '''box''': {'''xmin''': 0, '''ymin''': 1, '''xmax''': 639, '''ymax''': 473}}, {'''score''': 0.9988, '''label''': '''cat''', '''box''': {'''xmin''': 13, '''ymin''': 52, '''xmax''': 314, '''ymax''': 470}}, {'''score''': 0.9987, '''label''': '''cat''', '''box''': {'''xmin''': 345, '''ymin''': 23, '''xmax''': 640, '''ymax''': 368}}, ], ] , ) @require_torch @slow def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" a = '''facebook/detr-resnet-50''' a = pipeline('''object-detection''' , model=__UpperCAmelCase ) a = object_detector('''http://images.cocodataset.org/val2017/000000039769.jpg''' ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {'''score''': 0.9982, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 70, '''xmax''': 175, '''ymax''': 117}}, {'''score''': 0.9960, '''label''': '''remote''', '''box''': {'''xmin''': 333, '''ymin''': 72, '''xmax''': 368, '''ymax''': 187}}, {'''score''': 0.9955, '''label''': '''couch''', '''box''': {'''xmin''': 0, '''ymin''': 1, '''xmax''': 639, '''ymax''': 473}}, {'''score''': 0.9988, '''label''': '''cat''', '''box''': {'''xmin''': 13, '''ymin''': 52, '''xmax''': 314, '''ymax''': 470}}, {'''score''': 0.9987, '''label''': '''cat''', '''box''': {'''xmin''': 345, '''ymin''': 23, '''xmax''': 640, '''ymax''': 368}}, ] , ) a = object_detector( [ '''http://images.cocodataset.org/val2017/000000039769.jpg''', '''http://images.cocodataset.org/val2017/000000039769.jpg''', ] ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ [ {'''score''': 0.9982, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 70, '''xmax''': 175, '''ymax''': 117}}, {'''score''': 0.9960, '''label''': '''remote''', '''box''': {'''xmin''': 333, '''ymin''': 72, '''xmax''': 368, '''ymax''': 187}}, {'''score''': 0.9955, '''label''': '''couch''', '''box''': {'''xmin''': 0, '''ymin''': 1, '''xmax''': 639, '''ymax''': 473}}, {'''score''': 0.9988, '''label''': '''cat''', '''box''': {'''xmin''': 13, '''ymin''': 52, '''xmax''': 314, '''ymax''': 470}}, {'''score''': 0.9987, '''label''': '''cat''', '''box''': {'''xmin''': 345, '''ymin''': 23, '''xmax''': 640, '''ymax''': 368}}, ], [ {'''score''': 0.9982, '''label''': '''remote''', '''box''': {'''xmin''': 40, '''ymin''': 70, '''xmax''': 175, '''ymax''': 117}}, {'''score''': 0.9960, '''label''': '''remote''', '''box''': {'''xmin''': 333, '''ymin''': 72, '''xmax''': 368, '''ymax''': 187}}, {'''score''': 0.9955, '''label''': '''couch''', '''box''': {'''xmin''': 0, '''ymin''': 1, '''xmax''': 639, '''ymax''': 473}}, {'''score''': 0.9988, '''label''': '''cat''', '''box''': {'''xmin''': 13, '''ymin''': 52, '''xmax''': 314, '''ymax''': 470}}, {'''score''': 0.9987, '''label''': '''cat''', '''box''': {'''xmin''': 345, '''ymin''': 23, '''xmax''': 640, '''ymax''': 368}}, ], ] , ) @require_torch @slow def __lowerCAmelCase ( self : Optional[int] ) ->Dict: """simple docstring""" a = 0.9985 a = '''facebook/detr-resnet-50''' a = pipeline('''object-detection''' , model=__UpperCAmelCase ) a = object_detector('''http://images.cocodataset.org/val2017/000000039769.jpg''' , threshold=__UpperCAmelCase ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {'''score''': 0.9988, '''label''': '''cat''', '''box''': {'''xmin''': 13, '''ymin''': 52, '''xmax''': 314, '''ymax''': 470}}, {'''score''': 0.9987, '''label''': '''cat''', '''box''': {'''xmin''': 345, '''ymin''': 23, '''xmax''': 640, '''ymax''': 368}}, ] , ) @require_torch @require_pytesseract @slow def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = '''Narsil/layoutlmv3-finetuned-funsd''' a = 0.9993 a = pipeline('''object-detection''' , model=__UpperCAmelCase , threshold=__UpperCAmelCase ) a = object_detector( '''https://huggingface.co/spaces/impira/docquery/resolve/2359223c1837a7587402bda0f2643382a6eefeab/invoice.png''' ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {'''score''': 0.9993, '''label''': '''I-ANSWER''', '''box''': {'''xmin''': 294, '''ymin''': 254, '''xmax''': 343, '''ymax''': 264}}, {'''score''': 0.9993, '''label''': '''I-ANSWER''', '''box''': {'''xmin''': 294, '''ymin''': 254, '''xmax''': 343, '''ymax''': 264}}, ] , )

from math import factorial UpperCAmelCase__ = {str(digit): factorial(digit) for digit in range(10)} def _a ( a :int ) -> int: if not isinstance(a , a ): raise TypeError('''Parameter number must be int''' ) if number < 0: raise ValueError('''Parameter number must be greater than or equal to 0''' ) # Converts number in string to iterate on its digits and adds its factorial. return sum(DIGIT_FACTORIAL[digit] for digit in str(a ) ) def _a ( a :int = 60 , a :int = 1_000_000 ) -> int: if not isinstance(a , a ) or not isinstance(a , a ): raise TypeError('''Parameters chain_length and number_limit must be int''' ) if chain_length <= 0 or number_limit <= 0: raise ValueError( '''Parameters chain_length and number_limit must be greater than 0''' ) # the counter for the chains with the exact desired length a = 0 # the cached sizes of the previous chains a = {} for start_chain_element in range(1 , a ): # The temporary set will contain the elements of the chain a = set() a = 0 # Stop computing the chain when you find a cached size, a repeating item or the # length is greater then the desired one. a = start_chain_element while ( chain_element not in chain_sets_lengths and chain_element not in chain_set and chain_set_length <= chain_length ): chain_set.add(a ) chain_set_length += 1 a = digit_factorial_sum(a ) if chain_element in chain_sets_lengths: chain_set_length += chain_sets_lengths[chain_element] a = chain_set_length # If chain contains the exact amount of elements increase the counter if chain_set_length == chain_length: chains_counter += 1 return chains_counter if __name__ == "__main__": import doctest doctest.testmod() print(f"""{solution()}""")

import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from .tokenization_electra import ElectraTokenizer UpperCAmelCase__ = {"vocab_file": "vocab.txt", "tokenizer_file": "tokenizer.json"} UpperCAmelCase__ = { "vocab_file": { "google/electra-small-generator": ( "https://huggingface.co/google/electra-small-generator/resolve/main/vocab.txt" ), "google/electra-base-generator": "https://huggingface.co/google/electra-base-generator/resolve/main/vocab.txt", "google/electra-large-generator": ( "https://huggingface.co/google/electra-large-generator/resolve/main/vocab.txt" ), "google/electra-small-discriminator": ( "https://huggingface.co/google/electra-small-discriminator/resolve/main/vocab.txt" ), "google/electra-base-discriminator": ( "https://huggingface.co/google/electra-base-discriminator/resolve/main/vocab.txt" ), "google/electra-large-discriminator": ( "https://huggingface.co/google/electra-large-discriminator/resolve/main/vocab.txt" ), }, "tokenizer_file": { "google/electra-small-generator": ( "https://huggingface.co/google/electra-small-generator/resolve/main/tokenizer.json" ), "google/electra-base-generator": ( "https://huggingface.co/google/electra-base-generator/resolve/main/tokenizer.json" ), "google/electra-large-generator": ( "https://huggingface.co/google/electra-large-generator/resolve/main/tokenizer.json" ), "google/electra-small-discriminator": ( "https://huggingface.co/google/electra-small-discriminator/resolve/main/tokenizer.json" ), "google/electra-base-discriminator": ( "https://huggingface.co/google/electra-base-discriminator/resolve/main/tokenizer.json" ), "google/electra-large-discriminator": ( "https://huggingface.co/google/electra-large-discriminator/resolve/main/tokenizer.json" ), }, } UpperCAmelCase__ = { "google/electra-small-generator": 512, "google/electra-base-generator": 512, "google/electra-large-generator": 512, "google/electra-small-discriminator": 512, "google/electra-base-discriminator": 512, "google/electra-large-discriminator": 512, } UpperCAmelCase__ = { "google/electra-small-generator": {"do_lower_case": True}, "google/electra-base-generator": {"do_lower_case": True}, "google/electra-large-generator": {"do_lower_case": True}, "google/electra-small-discriminator": {"do_lower_case": True}, "google/electra-base-discriminator": {"do_lower_case": True}, "google/electra-large-discriminator": {"do_lower_case": True}, } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = VOCAB_FILES_NAMES __snake_case = PRETRAINED_VOCAB_FILES_MAP __snake_case = PRETRAINED_INIT_CONFIGURATION __snake_case = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __snake_case = ElectraTokenizer def __init__( self : Dict , __UpperCAmelCase : int=None , __UpperCAmelCase : str=None , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : str="[UNK]" , __UpperCAmelCase : Any="[SEP]" , __UpperCAmelCase : str="[PAD]" , __UpperCAmelCase : Optional[Any]="[CLS]" , __UpperCAmelCase : Union[str, Any]="[MASK]" , __UpperCAmelCase : List[str]=True , __UpperCAmelCase : Tuple=None , **__UpperCAmelCase : Optional[int] , ) ->str: """simple docstring""" super().__init__( __UpperCAmelCase , tokenizer_file=__UpperCAmelCase , do_lower_case=__UpperCAmelCase , unk_token=__UpperCAmelCase , sep_token=__UpperCAmelCase , pad_token=__UpperCAmelCase , cls_token=__UpperCAmelCase , mask_token=__UpperCAmelCase , tokenize_chinese_chars=__UpperCAmelCase , strip_accents=__UpperCAmelCase , **__UpperCAmelCase , ) a = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get('''lowercase''' , __UpperCAmelCase ) != do_lower_case or normalizer_state.get('''strip_accents''' , __UpperCAmelCase ) != strip_accents or normalizer_state.get('''handle_chinese_chars''' , __UpperCAmelCase ) != tokenize_chinese_chars ): a = getattr(__UpperCAmelCase , normalizer_state.pop('''type''' ) ) a = do_lower_case a = strip_accents a = tokenize_chinese_chars a = normalizer_class(**__UpperCAmelCase ) a = do_lower_case def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : Tuple=None ) ->str: """simple docstring""" a = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) ->List[int]: """simple docstring""" a = [self.sep_token_id] a = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : Optional[str] = None ) ->Tuple[str]: """simple docstring""" a = self._tokenizer.model.save(__UpperCAmelCase , name=__UpperCAmelCase ) return tuple(__UpperCAmelCase )

def _a ( a :int = 100 ) -> int: a = n * (n + 1) * (2 * n + 1) / 6 a = (n * (n + 1) / 2) ** 2 return int(square_of_sum - sum_of_squares ) if __name__ == "__main__": print(f"""{solution() = }""")

import unittest import torch from torch import nn from diffusers.models.activations import get_activation class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : Optional[int] ) ->Tuple: """simple docstring""" a = get_activation('''swish''' ) self.assertIsInstance(__UpperCAmelCase , nn.SiLU ) self.assertEqual(act(torch.tensor(-100 , dtype=torch.floataa ) ).item() , 0 ) self.assertNotEqual(act(torch.tensor(-1 , dtype=torch.floataa ) ).item() , 0 ) self.assertEqual(act(torch.tensor(0 , dtype=torch.floataa ) ).item() , 0 ) self.assertEqual(act(torch.tensor(20 , dtype=torch.floataa ) ).item() , 20 ) def __lowerCAmelCase ( self : Dict ) ->Dict: """simple docstring""" a = get_activation('''silu''' ) self.assertIsInstance(__UpperCAmelCase , nn.SiLU ) self.assertEqual(act(torch.tensor(-100 , dtype=torch.floataa ) ).item() , 0 ) self.assertNotEqual(act(torch.tensor(-1 , dtype=torch.floataa ) ).item() , 0 ) self.assertEqual(act(torch.tensor(0 , dtype=torch.floataa ) ).item() , 0 ) self.assertEqual(act(torch.tensor(20 , dtype=torch.floataa ) ).item() , 20 ) def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" a = get_activation('''mish''' ) self.assertIsInstance(__UpperCAmelCase , nn.Mish ) self.assertEqual(act(torch.tensor(-200 , dtype=torch.floataa ) ).item() , 0 ) self.assertNotEqual(act(torch.tensor(-1 , dtype=torch.floataa ) ).item() , 0 ) self.assertEqual(act(torch.tensor(0 , dtype=torch.floataa ) ).item() , 0 ) self.assertEqual(act(torch.tensor(20 , dtype=torch.floataa ) ).item() , 20 ) def __lowerCAmelCase ( self : Tuple ) ->Optional[int]: """simple docstring""" a = get_activation('''gelu''' ) self.assertIsInstance(__UpperCAmelCase , nn.GELU ) self.assertEqual(act(torch.tensor(-100 , dtype=torch.floataa ) ).item() , 0 ) self.assertNotEqual(act(torch.tensor(-1 , dtype=torch.floataa ) ).item() , 0 ) self.assertEqual(act(torch.tensor(0 , dtype=torch.floataa ) ).item() , 0 ) self.assertEqual(act(torch.tensor(20 , dtype=torch.floataa ) ).item() , 20 )

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available UpperCAmelCase__ = { "configuration_groupvit": [ "GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP", "GroupViTConfig", "GroupViTOnnxConfig", "GroupViTTextConfig", "GroupViTVisionConfig", ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST", "GroupViTModel", "GroupViTPreTrainedModel", "GroupViTTextModel", "GroupViTVisionModel", ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST", "TFGroupViTModel", "TFGroupViTPreTrainedModel", "TFGroupViTTextModel", "TFGroupViTVisionModel", ] if TYPE_CHECKING: from .configuration_groupvit import ( GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP, GroupViTConfig, GroupViTOnnxConfig, GroupViTTextConfig, GroupViTVisionConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_groupvit import ( GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST, GroupViTModel, GroupViTPreTrainedModel, GroupViTTextModel, GroupViTVisionModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_groupvit import ( TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST, TFGroupViTModel, TFGroupViTPreTrainedModel, TFGroupViTTextModel, TFGroupViTVisionModel, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

from __future__ import annotations from collections import deque class lowercase_ : '''simple docstring''' def __init__( self : List[Any] , __UpperCAmelCase : list[str] ) ->int: """simple docstring""" a = [] self.adlist.append( {'''value''': '''''', '''next_states''': [], '''fail_state''': 0, '''output''': []} ) for keyword in keywords: self.add_keyword(__UpperCAmelCase ) self.set_fail_transitions() def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : int , __UpperCAmelCase : str ) ->int | None: """simple docstring""" for state in self.adlist[current_state]["next_states"]: if char == self.adlist[state]["value"]: return state return None def __lowerCAmelCase ( self : str , __UpperCAmelCase : str ) ->None: """simple docstring""" a = 0 for character in keyword: a = self.find_next_state(__UpperCAmelCase , __UpperCAmelCase ) if next_state is None: self.adlist.append( { '''value''': character, '''next_states''': [], '''fail_state''': 0, '''output''': [], } ) self.adlist[current_state]["next_states"].append(len(self.adlist ) - 1 ) a = len(self.adlist ) - 1 else: a = next_state self.adlist[current_state]["output"].append(__UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] ) ->None: """simple docstring""" a = deque() for node in self.adlist[0]["next_states"]: q.append(__UpperCAmelCase ) a = 0 while q: a = q.popleft() for child in self.adlist[r]["next_states"]: q.append(__UpperCAmelCase ) a = self.adlist[r]['''fail_state'''] while ( self.find_next_state(__UpperCAmelCase , self.adlist[child]['''value'''] ) is None and state != 0 ): a = self.adlist[state]['''fail_state'''] a = self.find_next_state( __UpperCAmelCase , self.adlist[child]['''value'''] ) if self.adlist[child]["fail_state"] is None: a = 0 a = ( self.adlist[child]['''output'''] + self.adlist[self.adlist[child]['''fail_state''']]['''output'''] ) def __lowerCAmelCase ( self : int , __UpperCAmelCase : str ) ->dict[str, list[int]]: """simple docstring""" a = {} # returns a dict with keywords and list of its occurrences a = 0 for i in range(len(__UpperCAmelCase ) ): while ( self.find_next_state(__UpperCAmelCase , string[i] ) is None and current_state != 0 ): a = self.adlist[current_state]['''fail_state'''] a = self.find_next_state(__UpperCAmelCase , string[i] ) if next_state is None: a = 0 else: a = next_state for key in self.adlist[current_state]["output"]: if key not in result: a = [] result[key].append(i - len(__UpperCAmelCase ) + 1 ) return result if __name__ == "__main__": import doctest doctest.testmod()

import gc import unittest import numpy as np import torch from transformers import CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer from diffusers import HeunDiscreteScheduler, PriorTransformer, ShapEPipeline from diffusers.pipelines.shap_e import ShapERenderer from diffusers.utils import load_numpy, slow from diffusers.utils.testing_utils import require_torch_gpu, torch_device from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ShapEPipeline __snake_case = ['''prompt'''] __snake_case = ['''prompt'''] __snake_case = [ '''num_images_per_prompt''', '''num_inference_steps''', '''generator''', '''latents''', '''guidance_scale''', '''frame_size''', '''output_type''', '''return_dict''', ] __snake_case = False @property def __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Any ) ->Tuple: """simple docstring""" return self.time_input_dim * 4 @property def __lowerCAmelCase ( self : Tuple ) ->Optional[Any]: """simple docstring""" return 8 @property def __lowerCAmelCase ( self : Tuple ) ->str: """simple docstring""" a = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) return tokenizer @property def __lowerCAmelCase ( self : Union[str, Any] ) ->List[Any]: """simple docstring""" torch.manual_seed(0 ) a = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1e-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__UpperCAmelCase ) @property def __lowerCAmelCase ( self : Dict ) ->Union[str, Any]: """simple docstring""" torch.manual_seed(0 ) a = { '''num_attention_heads''': 2, '''attention_head_dim''': 16, '''embedding_dim''': self.time_input_dim, '''num_embeddings''': 32, '''embedding_proj_dim''': self.text_embedder_hidden_size, '''time_embed_dim''': self.time_embed_dim, '''num_layers''': 1, '''clip_embed_dim''': self.time_input_dim * 2, '''additional_embeddings''': 0, '''time_embed_act_fn''': '''gelu''', '''norm_in_type''': '''layer''', '''encoder_hid_proj_type''': None, '''added_emb_type''': None, } a = PriorTransformer(**__UpperCAmelCase ) return model @property def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" torch.manual_seed(0 ) a = { '''param_shapes''': ( (self.renderer_dim, 93), (self.renderer_dim, 8), (self.renderer_dim, 8), (self.renderer_dim, 8), ), '''d_latent''': self.time_input_dim, '''d_hidden''': self.renderer_dim, '''n_output''': 12, '''background''': ( 0.1, 0.1, 0.1, ), } a = ShapERenderer(**__UpperCAmelCase ) return model def __lowerCAmelCase ( self : List[Any] ) ->Any: """simple docstring""" a = self.dummy_prior a = self.dummy_text_encoder a = self.dummy_tokenizer a = self.dummy_renderer a = HeunDiscreteScheduler( beta_schedule='''exp''' , num_train_timesteps=1_024 , prediction_type='''sample''' , use_karras_sigmas=__UpperCAmelCase , clip_sample=__UpperCAmelCase , clip_sample_range=1.0 , ) a = { '''prior''': prior, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''renderer''': renderer, '''scheduler''': scheduler, } return components def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : str=0 ) ->Optional[int]: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''prompt''': '''horse''', '''generator''': generator, '''num_inference_steps''': 1, '''frame_size''': 32, '''output_type''': '''np''', } return inputs def __lowerCAmelCase ( self : Dict ) ->Optional[int]: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = pipe(**self.get_dummy_inputs(__UpperCAmelCase ) ) a = output.images[0] a = image[0, -3:, -3:, -1] assert image.shape == (20, 32, 32, 3) a = np.array( [ 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, ] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 def __lowerCAmelCase ( self : Dict ) ->Optional[Any]: """simple docstring""" self._test_inference_batch_consistent(batch_sizes=[1, 2] ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = torch_device == '''cpu''' a = True self._test_inference_batch_single_identical( batch_size=2 , test_max_difference=__UpperCAmelCase , relax_max_difference=__UpperCAmelCase , ) def __lowerCAmelCase ( self : str ) ->Optional[int]: """simple docstring""" a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = 1 a = 2 a = self.get_dummy_inputs(__UpperCAmelCase ) for key in inputs.keys(): if key in self.batch_params: a = batch_size * [inputs[key]] a = pipe(**__UpperCAmelCase , num_images_per_prompt=__UpperCAmelCase )[0] assert images.shape[0] == batch_size * num_images_per_prompt @slow @require_torch_gpu class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : int ) ->Any: """simple docstring""" super().tearDown() gc.collect() torch.cuda.empty_cache() def __lowerCAmelCase ( self : List[Any] ) ->Union[str, Any]: """simple docstring""" a = load_numpy( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' '''/shap_e/test_shap_e_np_out.npy''' ) a = ShapEPipeline.from_pretrained('''openai/shap-e''' ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = torch.Generator(device=__UpperCAmelCase ).manual_seed(0 ) a = pipe( '''a shark''' , generator=__UpperCAmelCase , guidance_scale=15.0 , num_inference_steps=64 , frame_size=64 , output_type='''np''' , ).images[0] assert images.shape == (20, 64, 64, 3) assert_mean_pixel_difference(__UpperCAmelCase , __UpperCAmelCase )

import importlib import os from dataclasses import dataclass from enum import Enum from typing import Any, Dict, Optional, Union import torch from ..utils import BaseOutput UpperCAmelCase__ = "scheduler_config.json" class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = 1 __snake_case = 2 __snake_case = 3 __snake_case = 4 __snake_case = 5 __snake_case = 6 __snake_case = 7 __snake_case = 8 __snake_case = 9 __snake_case = 10 __snake_case = 11 __snake_case = 12 __snake_case = 13 __snake_case = 14 @dataclass class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = 42 class lowercase_ : '''simple docstring''' __snake_case = SCHEDULER_CONFIG_NAME __snake_case = [] __snake_case = True @classmethod def __lowerCAmelCase ( cls : List[Any] , __UpperCAmelCase : Dict[str, Any] = None , __UpperCAmelCase : Optional[str] = None , __UpperCAmelCase : List[str]=False , **__UpperCAmelCase : Dict , ) ->int: """simple docstring""" a , a , a = cls.load_config( pretrained_model_name_or_path=__UpperCAmelCase , subfolder=__UpperCAmelCase , return_unused_kwargs=__UpperCAmelCase , return_commit_hash=__UpperCAmelCase , **__UpperCAmelCase , ) return cls.from_config(__UpperCAmelCase , return_unused_kwargs=__UpperCAmelCase , **__UpperCAmelCase ) def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : Union[str, os.PathLike] , __UpperCAmelCase : bool = False , **__UpperCAmelCase : List[str] ) ->List[Any]: """simple docstring""" self.save_config(save_directory=__UpperCAmelCase , push_to_hub=__UpperCAmelCase , **__UpperCAmelCase ) @property def __lowerCAmelCase ( self : List[Any] ) ->List[Any]: """simple docstring""" return self._get_compatibles() @classmethod def __lowerCAmelCase ( cls : Any ) ->List[str]: """simple docstring""" a = list(set([cls.__name__] + cls._compatibles ) ) a = importlib.import_module(__name__.split('''.''' )[0] ) a = [ getattr(__UpperCAmelCase , __UpperCAmelCase ) for c in compatible_classes_str if hasattr(__UpperCAmelCase , __UpperCAmelCase ) ] return compatible_classes

from __future__ import annotations import time import numpy as np UpperCAmelCase__ = [8, 5, 9, 7] UpperCAmelCase__ = [ [2, 0, 1, 1], [0, 1, 2, 1], [4, 0, 0, 3], [0, 2, 1, 0], [1, 0, 3, 0], ] UpperCAmelCase__ = [ [3, 2, 1, 4], [0, 2, 5, 2], [5, 1, 0, 5], [1, 5, 3, 0], [3, 0, 3, 3], ] class lowercase_ : '''simple docstring''' def __init__( self : Optional[int] , __UpperCAmelCase : list[int] , __UpperCAmelCase : list[list[int]] , __UpperCAmelCase : list[list[int]] , ) ->None: """simple docstring""" a = claim_vector a = allocated_resources_table a = maximum_claim_table def __lowerCAmelCase ( self : Any ) ->list[int]: """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 __lowerCAmelCase ( self : Optional[int] ) ->list[int]: """simple docstring""" return np.array(self.__claim_vector ) - np.array( self.__processes_resource_summation() ) def __lowerCAmelCase ( self : Union[str, Any] ) ->list[list[int]]: """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 __lowerCAmelCase ( self : Tuple ) ->dict[int, list[int]]: """simple docstring""" return {self.__need().index(__UpperCAmelCase ): i for i in self.__need()} def __lowerCAmelCase ( self : Optional[Any] , **__UpperCAmelCase : Any ) ->None: """simple docstring""" a = self.__need() a = self.__allocated_resources_table a = self.__available_resources() a = 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: a = False for each_need in need_list: a = True for index, need in enumerate(__UpperCAmelCase ): if need > available_resources[index]: a = False break if execution: a = 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: a = 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 a = 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 __lowerCAmelCase ( self : List[Any] ) ->Dict: """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()

def _a ( a :int = 50 ) -> int: a = [[0] * 3 for _ in range(length + 1 )] for row_length in range(length + 1 ): for tile_length in range(2 , 5 ): for tile_start in range(row_length - tile_length + 1 ): different_colour_ways_number[row_length][tile_length - 2] += ( different_colour_ways_number[row_length - tile_start - tile_length][ tile_length - 2 ] + 1 ) return sum(different_colour_ways_number[length] ) if __name__ == "__main__": print(f"""{solution() = }""")

import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from .tokenization_electra import ElectraTokenizer UpperCAmelCase__ = {"vocab_file": "vocab.txt", "tokenizer_file": "tokenizer.json"} UpperCAmelCase__ = { "vocab_file": { "google/electra-small-generator": ( "https://huggingface.co/google/electra-small-generator/resolve/main/vocab.txt" ), "google/electra-base-generator": "https://huggingface.co/google/electra-base-generator/resolve/main/vocab.txt", "google/electra-large-generator": ( "https://huggingface.co/google/electra-large-generator/resolve/main/vocab.txt" ), "google/electra-small-discriminator": ( "https://huggingface.co/google/electra-small-discriminator/resolve/main/vocab.txt" ), "google/electra-base-discriminator": ( "https://huggingface.co/google/electra-base-discriminator/resolve/main/vocab.txt" ), "google/electra-large-discriminator": ( "https://huggingface.co/google/electra-large-discriminator/resolve/main/vocab.txt" ), }, "tokenizer_file": { "google/electra-small-generator": ( "https://huggingface.co/google/electra-small-generator/resolve/main/tokenizer.json" ), "google/electra-base-generator": ( "https://huggingface.co/google/electra-base-generator/resolve/main/tokenizer.json" ), "google/electra-large-generator": ( "https://huggingface.co/google/electra-large-generator/resolve/main/tokenizer.json" ), "google/electra-small-discriminator": ( "https://huggingface.co/google/electra-small-discriminator/resolve/main/tokenizer.json" ), "google/electra-base-discriminator": ( "https://huggingface.co/google/electra-base-discriminator/resolve/main/tokenizer.json" ), "google/electra-large-discriminator": ( "https://huggingface.co/google/electra-large-discriminator/resolve/main/tokenizer.json" ), }, } UpperCAmelCase__ = { "google/electra-small-generator": 512, "google/electra-base-generator": 512, "google/electra-large-generator": 512, "google/electra-small-discriminator": 512, "google/electra-base-discriminator": 512, "google/electra-large-discriminator": 512, } UpperCAmelCase__ = { "google/electra-small-generator": {"do_lower_case": True}, "google/electra-base-generator": {"do_lower_case": True}, "google/electra-large-generator": {"do_lower_case": True}, "google/electra-small-discriminator": {"do_lower_case": True}, "google/electra-base-discriminator": {"do_lower_case": True}, "google/electra-large-discriminator": {"do_lower_case": True}, } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = VOCAB_FILES_NAMES __snake_case = PRETRAINED_VOCAB_FILES_MAP __snake_case = PRETRAINED_INIT_CONFIGURATION __snake_case = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __snake_case = ElectraTokenizer def __init__( self : Dict , __UpperCAmelCase : int=None , __UpperCAmelCase : str=None , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : str="[UNK]" , __UpperCAmelCase : Any="[SEP]" , __UpperCAmelCase : str="[PAD]" , __UpperCAmelCase : Optional[Any]="[CLS]" , __UpperCAmelCase : Union[str, Any]="[MASK]" , __UpperCAmelCase : List[str]=True , __UpperCAmelCase : Tuple=None , **__UpperCAmelCase : Optional[int] , ) ->str: """simple docstring""" super().__init__( __UpperCAmelCase , tokenizer_file=__UpperCAmelCase , do_lower_case=__UpperCAmelCase , unk_token=__UpperCAmelCase , sep_token=__UpperCAmelCase , pad_token=__UpperCAmelCase , cls_token=__UpperCAmelCase , mask_token=__UpperCAmelCase , tokenize_chinese_chars=__UpperCAmelCase , strip_accents=__UpperCAmelCase , **__UpperCAmelCase , ) a = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get('''lowercase''' , __UpperCAmelCase ) != do_lower_case or normalizer_state.get('''strip_accents''' , __UpperCAmelCase ) != strip_accents or normalizer_state.get('''handle_chinese_chars''' , __UpperCAmelCase ) != tokenize_chinese_chars ): a = getattr(__UpperCAmelCase , normalizer_state.pop('''type''' ) ) a = do_lower_case a = strip_accents a = tokenize_chinese_chars a = normalizer_class(**__UpperCAmelCase ) a = do_lower_case def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : Tuple=None ) ->str: """simple docstring""" a = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) ->List[int]: """simple docstring""" a = [self.sep_token_id] a = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : Optional[str] = None ) ->Tuple[str]: """simple docstring""" a = self._tokenizer.model.save(__UpperCAmelCase , name=__UpperCAmelCase ) return tuple(__UpperCAmelCase )

import argparse import shlex import runhouse as rh if __name__ == "__main__": # Refer to https://runhouse-docs.readthedocs-hosted.com/en/latest/api/python/cluster.html#hardware-setup for cloud access # setup instructions, if using on-demand hardware # If user passes --user <user> --host <host> --key_path <key_path> <example> <args>, fill them in as BYO cluster # If user passes --instance <instance> --provider <provider> <example> <args>, fill them in as on-demand cluster # Throw an error if user passes both BYO and on-demand cluster args # Otherwise, use default values UpperCAmelCase__ = argparse.ArgumentParser() parser.add_argument("--user", type=str, default="ubuntu") parser.add_argument("--host", type=str, default="localhost") parser.add_argument("--key_path", type=str, default=None) parser.add_argument("--instance", type=str, default="V100:1") parser.add_argument("--provider", type=str, default="cheapest") parser.add_argument("--use_spot", type=bool, default=False) parser.add_argument("--example", type=str, default="pytorch/text-generation/run_generation.py") UpperCAmelCase__ , UpperCAmelCase__ = parser.parse_known_args() if args.host != "localhost": if args.instance != "V100:1" or args.provider != "cheapest": raise ValueError("Cannot specify both BYO and on-demand cluster args") UpperCAmelCase__ = rh.cluster( name="rh-cluster", ips=[args.host], ssh_creds={"ssh_user": args.user, "ssh_private_key": args.key_path} ) else: UpperCAmelCase__ = rh.cluster( name="rh-cluster", instance_type=args.instance, provider=args.provider, use_spot=args.use_spot ) UpperCAmelCase__ = args.example.rsplit("/", 1)[0] # Set up remote environment cluster.install_packages(["pip:./"]) # Installs transformers from local source # Note transformers is copied into the home directory on the remote machine, so we can install from there cluster.run([f"""pip install -r transformers/examples/{example_dir}/requirements.txt"""]) cluster.run(["pip install torch --upgrade --extra-index-url https://download.pytorch.org/whl/cu117"]) # Run example. You can bypass the CLI wrapper and paste your own code here. cluster.run([f"""python transformers/examples/{args.example} {' '.join(shlex.quote(arg) for arg in unknown)}"""]) # Alternatively, we can just import and run a training function (especially if there's no wrapper CLI): # from my_script... import train # reqs = ['pip:./', 'torch', 'datasets', 'accelerate', 'evaluate', 'tqdm', 'scipy', 'scikit-learn', 'tensorboard'] # launch_train_gpu = rh.function(fn=train, # system=gpu, # reqs=reqs, # name='train_bert_glue') # # We can pass in arguments just like we would to a function: # launch_train_gpu(num_epochs = 3, lr = 2e-5, seed = 42, batch_size = 16 # stream_logs=True)

def _a ( a :int ) -> bool: a = n ** (1 / 3) return (val * val * val) == n if __name__ == "__main__": print(perfect_cube(27)) print(perfect_cube(4))

def _a ( a :int = 10 , a :int = 22 ) -> int: a = range(1 , a ) a = range(1 , a ) return sum( 1 for power in powers for base in bases if len(str(base**power ) ) == power ) if __name__ == "__main__": print(f"""{solution(10, 22) = }""")

import os import tempfile from functools import partial from unittest import TestCase from unittest.mock import patch import numpy as np import pytest from datasets.arrow_dataset import Dataset from datasets.search import ElasticSearchIndex, FaissIndex, MissingIndex from .utils import require_elasticsearch, require_faiss UpperCAmelCase__ = pytest.mark.integration @require_faiss class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" a = Dataset.from_dict({'''filename''': ['''my_name-train''' + '''_''' + str(__UpperCAmelCase ) for x in np.arange(30 ).tolist()]} ) return dset def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" import faiss a = self._create_dummy_dataset() a = dset.map( lambda __UpperCAmelCase , __UpperCAmelCase : {"vecs": i * np.ones(5 , dtype=np.floataa )} , with_indices=__UpperCAmelCase , keep_in_memory=__UpperCAmelCase ) a = dset.add_faiss_index('''vecs''' , batch_size=100 , metric_type=faiss.METRIC_INNER_PRODUCT ) a , a = dset.get_nearest_examples('''vecs''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) dset.drop_index('''vecs''' ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[Any]: """simple docstring""" import faiss a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' , batch_size=100 , metric_type=faiss.METRIC_INNER_PRODUCT , ) a , a = dset.get_nearest_examples('''vecs''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) def __lowerCAmelCase ( self : Any ) ->Union[str, Any]: """simple docstring""" import faiss a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' , metric_type=faiss.METRIC_INNER_PRODUCT , ) # Setting delete=False and unlinking manually is not pretty... but it is required on Windows to # ensure somewhat stable behaviour. If we don't, we get PermissionErrors. This is an age-old issue. # see https://bugs.python.org/issue14243 and # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file/23212515 with tempfile.NamedTemporaryFile(delete=__UpperCAmelCase ) as tmp_file: dset.save_faiss_index('''vecs''' , tmp_file.name ) dset.load_faiss_index('''vecs2''' , tmp_file.name ) os.unlink(tmp_file.name ) a , a = dset.get_nearest_examples('''vecs2''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) def __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' ) dset.drop_index('''vecs''' ) self.assertRaises(__UpperCAmelCase , partial(dset.get_nearest_examples , '''vecs2''' , np.ones(5 , dtype=np.floataa ) ) ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" from elasticsearch import Elasticsearch a = self._create_dummy_dataset() with patch('''elasticsearch.Elasticsearch.search''' ) as mocked_search, patch( '''elasticsearch.client.IndicesClient.create''' ) as mocked_index_create, patch('''elasticsearch.helpers.streaming_bulk''' ) as mocked_bulk: a = {'''acknowledged''': True} mocked_bulk.return_value([(True, None)] * 30 ) a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 29}]}} a = Elasticsearch() dset.add_elasticsearch_index('''filename''' , es_client=__UpperCAmelCase ) a , a = dset.get_nearest_examples('''filename''' , '''my_name-train_29''' ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) @require_faiss class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : Any ) ->Any: """simple docstring""" import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) # add vectors index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsNotNone(index.faiss_index ) self.assertEqual(index.faiss_index.ntotal , 5 ) index.add_vectors(np.zeros((5, 5) , dtype=np.floataa ) ) self.assertEqual(index.faiss_index.ntotal , 10 ) # single query a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(__UpperCAmelCase ) self.assertRaises(__UpperCAmelCase , index.search , query.reshape(-1 , 1 ) ) self.assertGreater(scores[0] , 0 ) self.assertEqual(indices[0] , 1 ) # batched queries a = np.eye(5 , dtype=np.floataa )[::-1] a , a = index.search_batch(__UpperCAmelCase ) self.assertRaises(__UpperCAmelCase , index.search_batch , queries[0] ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([4, 3, 2, 1, 0] , __UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->List[Any]: """simple docstring""" import faiss a = FaissIndex(string_factory='''Flat''' ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexFlat ) a = FaissIndex(string_factory='''LSH''' ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexLSH ) with self.assertRaises(__UpperCAmelCase ): a = FaissIndex(string_factory='''Flat''' , custom_index=faiss.IndexFlat(5 ) ) def __lowerCAmelCase ( self : int ) ->Optional[Any]: """simple docstring""" import faiss a = faiss.IndexFlat(5 ) a = FaissIndex(custom_index=__UpperCAmelCase ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexFlat ) def __lowerCAmelCase ( self : int ) ->Dict: """simple docstring""" import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) # Setting delete=False and unlinking manually is not pretty... but it is required on Windows to # ensure somewhat stable behaviour. If we don't, we get PermissionErrors. This is an age-old issue. # see https://bugs.python.org/issue14243 and # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file/23212515 with tempfile.NamedTemporaryFile(delete=__UpperCAmelCase ) as tmp_file: index.save(tmp_file.name ) a = FaissIndex.load(tmp_file.name ) os.unlink(tmp_file.name ) a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(__UpperCAmelCase ) self.assertGreater(scores[0] , 0 ) self.assertEqual(indices[0] , 1 ) @require_faiss def _a ( a :Dict ) -> Any: import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) a = '''index.faiss''' a = F"""mock://{index_name}""" index.save(a , storage_options=mockfs.storage_options ) a = FaissIndex.load(a , storage_options=mockfs.storage_options ) a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(a ) assert scores[0] > 0 assert indices[0] == 1 @require_elasticsearch class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : int ) ->List[Any]: """simple docstring""" from elasticsearch import Elasticsearch with patch('''elasticsearch.Elasticsearch.search''' ) as mocked_search, patch( '''elasticsearch.client.IndicesClient.create''' ) as mocked_index_create, patch('''elasticsearch.helpers.streaming_bulk''' ) as mocked_bulk: a = Elasticsearch() a = {'''acknowledged''': True} a = ElasticSearchIndex(es_client=__UpperCAmelCase ) mocked_bulk.return_value([(True, None)] * 3 ) index.add_documents(['''foo''', '''bar''', '''foobar'''] ) # single query a = '''foo''' a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 0}]}} a , a = index.search(__UpperCAmelCase ) self.assertEqual(scores[0] , 1 ) self.assertEqual(indices[0] , 0 ) # single query with timeout a = '''foo''' a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 0}]}} a , a = index.search(__UpperCAmelCase , request_timeout=30 ) self.assertEqual(scores[0] , 1 ) self.assertEqual(indices[0] , 0 ) # batched queries a = ['''foo''', '''bar''', '''foobar'''] a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 1}]}} a , a = index.search_batch(__UpperCAmelCase ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([1, 1, 1] , __UpperCAmelCase ) # batched queries with timeout a = ['''foo''', '''bar''', '''foobar'''] a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 1}]}} a , a = index.search_batch(__UpperCAmelCase , request_timeout=30 ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([1, 1, 1] , __UpperCAmelCase )

import tempfile import torch from diffusers import ( DEISMultistepScheduler, DPMSolverMultistepScheduler, DPMSolverSinglestepScheduler, UniPCMultistepScheduler, ) from .test_schedulers import SchedulerCommonTest class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = (DEISMultistepScheduler,) __snake_case = (('''num_inference_steps''', 25),) def __lowerCAmelCase ( self : Optional[int] , **__UpperCAmelCase : Union[str, Any] ) ->int: """simple docstring""" a = { '''num_train_timesteps''': 1_000, '''beta_start''': 0.0001, '''beta_end''': 0.02, '''beta_schedule''': '''linear''', '''solver_order''': 2, } config.update(**__UpperCAmelCase ) return config def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : List[str]=0 , **__UpperCAmelCase : Union[str, Any] ) ->Optional[int]: """simple docstring""" a = dict(self.forward_default_kwargs ) a = kwargs.pop('''num_inference_steps''' , __UpperCAmelCase ) a = self.dummy_sample a = 0.1 * sample a = [residual + 0.2, residual + 0.15, residual + 0.10] for scheduler_class in self.scheduler_classes: a = self.get_scheduler_config(**__UpperCAmelCase ) a = scheduler_class(**__UpperCAmelCase ) scheduler.set_timesteps(__UpperCAmelCase ) # copy over dummy past residuals a = dummy_past_residuals[: scheduler.config.solver_order] with tempfile.TemporaryDirectory() as tmpdirname: scheduler.save_config(__UpperCAmelCase ) a = scheduler_class.from_pretrained(__UpperCAmelCase ) new_scheduler.set_timesteps(__UpperCAmelCase ) # copy over dummy past residuals a = dummy_past_residuals[: new_scheduler.config.solver_order] a , a = sample, sample for t in range(__UpperCAmelCase , time_step + scheduler.config.solver_order + 1 ): a = scheduler.step(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase , **__UpperCAmelCase ).prev_sample a = new_scheduler.step(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase , **__UpperCAmelCase ).prev_sample assert torch.sum(torch.abs(output - new_output ) ) < 1e-5, "Scheduler outputs are not identical" def __lowerCAmelCase ( self : Dict ) ->str: """simple docstring""" pass def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[str]=0 , **__UpperCAmelCase : str ) ->int: """simple docstring""" a = dict(self.forward_default_kwargs ) a = kwargs.pop('''num_inference_steps''' , __UpperCAmelCase ) a = self.dummy_sample a = 0.1 * sample a = [residual + 0.2, residual + 0.15, residual + 0.10] for scheduler_class in self.scheduler_classes: a = self.get_scheduler_config() a = scheduler_class(**__UpperCAmelCase ) scheduler.set_timesteps(__UpperCAmelCase ) # copy over dummy past residuals (must be after setting timesteps) a = dummy_past_residuals[: scheduler.config.solver_order] with tempfile.TemporaryDirectory() as tmpdirname: scheduler.save_config(__UpperCAmelCase ) a = scheduler_class.from_pretrained(__UpperCAmelCase ) # copy over dummy past residuals new_scheduler.set_timesteps(__UpperCAmelCase ) # copy over dummy past residual (must be after setting timesteps) a = dummy_past_residuals[: new_scheduler.config.solver_order] a = scheduler.step(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase , **__UpperCAmelCase ).prev_sample a = new_scheduler.step(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase , **__UpperCAmelCase ).prev_sample assert torch.sum(torch.abs(output - new_output ) ) < 1e-5, "Scheduler outputs are not identical" def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : Dict=None , **__UpperCAmelCase : Dict ) ->List[str]: """simple docstring""" if scheduler is None: a = self.scheduler_classes[0] a = self.get_scheduler_config(**__UpperCAmelCase ) a = scheduler_class(**__UpperCAmelCase ) a = self.scheduler_classes[0] a = self.get_scheduler_config(**__UpperCAmelCase ) a = scheduler_class(**__UpperCAmelCase ) a = 10 a = self.dummy_model() a = self.dummy_sample_deter scheduler.set_timesteps(__UpperCAmelCase ) for i, t in enumerate(scheduler.timesteps ): a = model(__UpperCAmelCase , __UpperCAmelCase ) a = scheduler.step(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ).prev_sample return sample def __lowerCAmelCase ( self : Dict ) ->Dict: """simple docstring""" a = dict(self.forward_default_kwargs ) a = kwargs.pop('''num_inference_steps''' , __UpperCAmelCase ) for scheduler_class in self.scheduler_classes: a = self.get_scheduler_config() a = scheduler_class(**__UpperCAmelCase ) a = self.dummy_sample a = 0.1 * sample if num_inference_steps is not None and hasattr(__UpperCAmelCase , '''set_timesteps''' ): scheduler.set_timesteps(__UpperCAmelCase ) elif num_inference_steps is not None and not hasattr(__UpperCAmelCase , '''set_timesteps''' ): a = num_inference_steps # copy over dummy past residuals (must be done after set_timesteps) a = [residual + 0.2, residual + 0.15, residual + 0.10] a = dummy_past_residuals[: scheduler.config.solver_order] a = scheduler.timesteps[5] a = scheduler.timesteps[6] a = scheduler.step(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase , **__UpperCAmelCase ).prev_sample a = scheduler.step(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase , **__UpperCAmelCase ).prev_sample self.assertEqual(output_a.shape , sample.shape ) self.assertEqual(output_a.shape , output_a.shape ) def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = DEISMultistepScheduler(**self.get_scheduler_config() ) a = self.full_loop(scheduler=__UpperCAmelCase ) a = torch.mean(torch.abs(__UpperCAmelCase ) ) assert abs(result_mean.item() - 0.23916 ) < 1e-3 a = DPMSolverSinglestepScheduler.from_config(scheduler.config ) a = DPMSolverMultistepScheduler.from_config(scheduler.config ) a = UniPCMultistepScheduler.from_config(scheduler.config ) a = DEISMultistepScheduler.from_config(scheduler.config ) a = self.full_loop(scheduler=__UpperCAmelCase ) a = torch.mean(torch.abs(__UpperCAmelCase ) ) assert abs(result_mean.item() - 0.23916 ) < 1e-3 def __lowerCAmelCase ( self : Dict ) ->Tuple: """simple docstring""" for timesteps in [25, 50, 100, 999, 1_000]: self.check_over_configs(num_train_timesteps=__UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] ) ->int: """simple docstring""" self.check_over_configs(thresholding=__UpperCAmelCase ) for order in [1, 2, 3]: for solver_type in ["logrho"]: for threshold in [0.5, 1.0, 2.0]: for prediction_type in ["epsilon", "sample"]: self.check_over_configs( thresholding=__UpperCAmelCase , prediction_type=__UpperCAmelCase , sample_max_value=__UpperCAmelCase , algorithm_type='''deis''' , solver_order=__UpperCAmelCase , solver_type=__UpperCAmelCase , ) def __lowerCAmelCase ( self : int ) ->Tuple: """simple docstring""" for prediction_type in ["epsilon", "v_prediction"]: self.check_over_configs(prediction_type=__UpperCAmelCase ) def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" for algorithm_type in ["deis"]: for solver_type in ["logrho"]: for order in [1, 2, 3]: for prediction_type in ["epsilon", "sample"]: self.check_over_configs( solver_order=__UpperCAmelCase , solver_type=__UpperCAmelCase , prediction_type=__UpperCAmelCase , algorithm_type=__UpperCAmelCase , ) a = self.full_loop( solver_order=__UpperCAmelCase , solver_type=__UpperCAmelCase , prediction_type=__UpperCAmelCase , algorithm_type=__UpperCAmelCase , ) assert not torch.isnan(__UpperCAmelCase ).any(), "Samples have nan numbers" def __lowerCAmelCase ( self : List[str] ) ->Any: """simple docstring""" self.check_over_configs(lower_order_final=__UpperCAmelCase ) self.check_over_configs(lower_order_final=__UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->Optional[Any]: """simple docstring""" for num_inference_steps in [1, 2, 3, 5, 10, 50, 100, 999, 1_000]: self.check_over_forward(num_inference_steps=__UpperCAmelCase , time_step=0 ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = self.full_loop() a = torch.mean(torch.abs(__UpperCAmelCase ) ) assert abs(result_mean.item() - 0.23916 ) < 1e-3 def __lowerCAmelCase ( self : Union[str, Any] ) ->List[Any]: """simple docstring""" a = self.full_loop(prediction_type='''v_prediction''' ) a = torch.mean(torch.abs(__UpperCAmelCase ) ) assert abs(result_mean.item() - 0.091 ) < 1e-3 def __lowerCAmelCase ( self : Tuple ) ->Dict: """simple docstring""" a = self.scheduler_classes[0] a = self.get_scheduler_config(thresholding=__UpperCAmelCase , dynamic_thresholding_ratio=0 ) a = scheduler_class(**__UpperCAmelCase ) a = 10 a = self.dummy_model() a = self.dummy_sample_deter.half() scheduler.set_timesteps(__UpperCAmelCase ) for i, t in enumerate(scheduler.timesteps ): a = model(__UpperCAmelCase , __UpperCAmelCase ) a = scheduler.step(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ).prev_sample assert sample.dtype == torch.floataa

from typing import Mapping from ...configuration_utils import PretrainedConfig from ...onnx import OnnxSeqaSeqConfigWithPast from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "t5-small": "https://huggingface.co/t5-small/resolve/main/config.json", "t5-base": "https://huggingface.co/t5-base/resolve/main/config.json", "t5-large": "https://huggingface.co/t5-large/resolve/main/config.json", "t5-3b": "https://huggingface.co/t5-3b/resolve/main/config.json", "t5-11b": "https://huggingface.co/t5-11b/resolve/main/config.json", } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''t5''' __snake_case = ['''past_key_values'''] __snake_case = {'''hidden_size''': '''d_model''', '''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers'''} def __init__( self : Optional[Any] , __UpperCAmelCase : Optional[Any]=32_128 , __UpperCAmelCase : List[Any]=512 , __UpperCAmelCase : Dict=64 , __UpperCAmelCase : Tuple=2_048 , __UpperCAmelCase : int=6 , __UpperCAmelCase : Optional[int]=None , __UpperCAmelCase : Optional[int]=8 , __UpperCAmelCase : str=32 , __UpperCAmelCase : Tuple=128 , __UpperCAmelCase : Optional[Any]=0.1 , __UpperCAmelCase : int=1e-6 , __UpperCAmelCase : int=1.0 , __UpperCAmelCase : List[str]="relu" , __UpperCAmelCase : int=True , __UpperCAmelCase : int=True , __UpperCAmelCase : List[Any]=0 , __UpperCAmelCase : int=1 , **__UpperCAmelCase : str , ) ->Optional[Any]: """simple docstring""" a = vocab_size a = d_model a = d_kv a = d_ff a = num_layers a = ( num_decoder_layers if num_decoder_layers is not None else self.num_layers ) # default = symmetry a = num_heads a = relative_attention_num_buckets a = relative_attention_max_distance a = dropout_rate a = layer_norm_epsilon a = initializer_factor a = feed_forward_proj a = use_cache a = self.feed_forward_proj.split('''-''' ) a = act_info[-1] a = act_info[0] == '''gated''' if len(__UpperCAmelCase ) > 1 and act_info[0] != "gated" or len(__UpperCAmelCase ) > 2: raise ValueError( F"""`feed_forward_proj`: {feed_forward_proj} is not a valid activation function of the dense layer.""" '''Please make sure `feed_forward_proj` is of the format `gated-{ACT_FN}` or `{ACT_FN}`, e.g. ''' '''\'gated-gelu\' or \'relu\'''' ) # for backwards compatibility if feed_forward_proj == "gated-gelu": a = '''gelu_new''' super().__init__( pad_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , is_encoder_decoder=__UpperCAmelCase , **__UpperCAmelCase , ) class lowercase_ ( lowercase ): '''simple docstring''' @property def __lowerCAmelCase ( self : Optional[Any] ) ->Mapping[str, Mapping[int, str]]: """simple docstring""" a = { '''input_ids''': {0: '''batch''', 1: '''encoder_sequence'''}, '''attention_mask''': {0: '''batch''', 1: '''encoder_sequence'''}, } if self.use_past: a = '''past_encoder_sequence + sequence''' a = {0: '''batch'''} a = {0: '''batch''', 1: '''past_decoder_sequence + sequence'''} else: a = {0: '''batch''', 1: '''decoder_sequence'''} a = {0: '''batch''', 1: '''decoder_sequence'''} if self.use_past: self.fill_with_past_key_values_(__UpperCAmelCase , direction='''inputs''' ) return common_inputs @property def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" return 13

import functools from typing import Any def _a ( a :str , a :list[str] ) -> bool: # Validation if not isinstance(a , a ) or len(a ) == 0: raise ValueError('''the string should be not empty string''' ) if not isinstance(a , a ) or not all( isinstance(a , a ) and len(a ) > 0 for item in words ): raise ValueError('''the words should be a list of non-empty strings''' ) # Build trie a = {} a = '''WORD_KEEPER''' for word in words: a = trie for c in word: if c not in trie_node: a = {} a = trie_node[c] a = True a = len(a ) # Dynamic programming method @functools.cache def is_breakable(a :int ) -> bool: if index == len_string: return True a = trie for i in range(a , a ): a = trie_node.get(string[i] , a ) if trie_node is None: return False if trie_node.get(a , a ) and is_breakable(i + 1 ): return True return False return is_breakable(0 ) if __name__ == "__main__": import doctest doctest.testmod()

from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = {} class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''llama''' __snake_case = ['''past_key_values'''] def __init__( self : Optional[Any] , __UpperCAmelCase : Union[str, Any]=32_000 , __UpperCAmelCase : str=4_096 , __UpperCAmelCase : int=11_008 , __UpperCAmelCase : Tuple=32 , __UpperCAmelCase : Optional[int]=32 , __UpperCAmelCase : List[str]=None , __UpperCAmelCase : Union[str, Any]="silu" , __UpperCAmelCase : Tuple=2_048 , __UpperCAmelCase : Optional[Any]=0.02 , __UpperCAmelCase : Any=1e-6 , __UpperCAmelCase : Union[str, Any]=True , __UpperCAmelCase : Optional[int]=0 , __UpperCAmelCase : Optional[int]=1 , __UpperCAmelCase : Optional[int]=2 , __UpperCAmelCase : Tuple=1 , __UpperCAmelCase : List[str]=False , __UpperCAmelCase : Tuple=None , **__UpperCAmelCase : Tuple , ) ->str: """simple docstring""" a = vocab_size a = max_position_embeddings a = hidden_size a = intermediate_size a = num_hidden_layers a = num_attention_heads # for backward compatibility if num_key_value_heads is None: a = num_attention_heads a = num_key_value_heads a = hidden_act a = initializer_range a = rms_norm_eps a = pretraining_tp a = use_cache a = rope_scaling self._rope_scaling_validation() super().__init__( pad_token_id=__UpperCAmelCase , bos_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , tie_word_embeddings=__UpperCAmelCase , **__UpperCAmelCase , ) def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" if self.rope_scaling is None: return if not isinstance(self.rope_scaling , __UpperCAmelCase ) or len(self.rope_scaling ) != 2: raise ValueError( '''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, ''' F"""got {self.rope_scaling}""" ) a = self.rope_scaling.get('''type''' , __UpperCAmelCase ) a = self.rope_scaling.get('''factor''' , __UpperCAmelCase ) if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]: raise ValueError( F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""" ) if rope_scaling_factor is None or not isinstance(__UpperCAmelCase , __UpperCAmelCase ) or rope_scaling_factor <= 1.0: raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""" )

from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = {} class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''llama''' __snake_case = ['''past_key_values'''] def __init__( self : Optional[Any] , __UpperCAmelCase : Union[str, Any]=32_000 , __UpperCAmelCase : str=4_096 , __UpperCAmelCase : int=11_008 , __UpperCAmelCase : Tuple=32 , __UpperCAmelCase : Optional[int]=32 , __UpperCAmelCase : List[str]=None , __UpperCAmelCase : Union[str, Any]="silu" , __UpperCAmelCase : Tuple=2_048 , __UpperCAmelCase : Optional[Any]=0.02 , __UpperCAmelCase : Any=1e-6 , __UpperCAmelCase : Union[str, Any]=True , __UpperCAmelCase : Optional[int]=0 , __UpperCAmelCase : Optional[int]=1 , __UpperCAmelCase : Optional[int]=2 , __UpperCAmelCase : Tuple=1 , __UpperCAmelCase : List[str]=False , __UpperCAmelCase : Tuple=None , **__UpperCAmelCase : Tuple , ) ->str: """simple docstring""" a = vocab_size a = max_position_embeddings a = hidden_size a = intermediate_size a = num_hidden_layers a = num_attention_heads # for backward compatibility if num_key_value_heads is None: a = num_attention_heads a = num_key_value_heads a = hidden_act a = initializer_range a = rms_norm_eps a = pretraining_tp a = use_cache a = rope_scaling self._rope_scaling_validation() super().__init__( pad_token_id=__UpperCAmelCase , bos_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , tie_word_embeddings=__UpperCAmelCase , **__UpperCAmelCase , ) def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" if self.rope_scaling is None: return if not isinstance(self.rope_scaling , __UpperCAmelCase ) or len(self.rope_scaling ) != 2: raise ValueError( '''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, ''' F"""got {self.rope_scaling}""" ) a = self.rope_scaling.get('''type''' , __UpperCAmelCase ) a = self.rope_scaling.get('''factor''' , __UpperCAmelCase ) if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]: raise ValueError( F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""" ) if rope_scaling_factor is None or not isinstance(__UpperCAmelCase , __UpperCAmelCase ) or rope_scaling_factor <= 1.0: raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""" )

from __future__ import annotations UpperCAmelCase__ = "Muhammad Umer Farooq" UpperCAmelCase__ = "MIT" UpperCAmelCase__ = "1.0.0" UpperCAmelCase__ = "Muhammad Umer Farooq" UpperCAmelCase__ = "[email protected]" UpperCAmelCase__ = "Alpha" import re from html.parser import HTMLParser from urllib import parse import requests class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : Union[str, Any] , __UpperCAmelCase : str ) ->None: """simple docstring""" super().__init__() a = [] a = domain def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : list[tuple[str, str | None]] ) ->None: """simple docstring""" if tag == "a": # Check the list of defined attributes. for name, value in attrs: # If href is defined, and not empty nor # print it. if name == "href" and value != "#" and value != "": # If not already in urls. if value not in self.urls: a = parse.urljoin(self.domain , __UpperCAmelCase ) self.urls.append(__UpperCAmelCase ) def _a ( a :str ) -> str: return ".".join(get_sub_domain_name(a ).split('''.''' )[-2:] ) def _a ( a :str ) -> str: return parse.urlparse(a ).netloc def _a ( a :str = "https://github.com" ) -> list[str]: a = get_domain_name(a ) # Initialize the parser a = Parser(a ) try: # Open URL a = requests.get(a ) # pass the raw HTML to the parser to get links parser.feed(r.text ) # Get links and loop through a = set() for link in parser.urls: # open URL. # read = requests.get(link) try: a = requests.get(a ) # Get the valid email. a = re.findall('''[a-zA-Z0-9]+@''' + domain , read.text ) # If not in list then append it. for email in emails: valid_emails.add(a ) except ValueError: pass except ValueError: raise SystemExit(1 ) # Finally return a sorted list of email addresses with no duplicates. return sorted(a ) if __name__ == "__main__": UpperCAmelCase__ = emails_from_url("https://github.com") print(f"""{len(emails)} emails found:""") print("\n".join(sorted(emails)))

import gc import unittest import torch from parameterized import parameterized from diffusers import AutoencoderKL from diffusers.utils import floats_tensor, load_hf_numpy, require_torch_gpu, slow, torch_all_close, torch_device from diffusers.utils.import_utils import is_xformers_available from diffusers.utils.testing_utils import enable_full_determinism from .test_modeling_common import ModelTesterMixin, UNetTesterMixin enable_full_determinism() class lowercase_ ( lowercase , lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = AutoencoderKL __snake_case = '''sample''' __snake_case = 1e-2 @property def __lowerCAmelCase ( self : Union[str, Any] ) ->List[str]: """simple docstring""" a = 4 a = 3 a = (32, 32) a = floats_tensor((batch_size, num_channels) + sizes ).to(__UpperCAmelCase ) return {"sample": image} @property def __lowerCAmelCase ( self : Union[str, Any] ) ->Any: """simple docstring""" return (3, 32, 32) @property def __lowerCAmelCase ( self : int ) ->List[Any]: """simple docstring""" return (3, 32, 32) def __lowerCAmelCase ( self : Union[str, Any] ) ->List[str]: """simple docstring""" a = { '''block_out_channels''': [32, 64], '''in_channels''': 3, '''out_channels''': 3, '''down_block_types''': ['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''], '''up_block_types''': ['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''], '''latent_channels''': 4, } a = self.dummy_input return init_dict, inputs_dict def __lowerCAmelCase ( self : Dict ) ->Optional[Any]: """simple docstring""" pass def __lowerCAmelCase ( self : List[Any] ) ->Any: """simple docstring""" pass @unittest.skipIf(torch_device == '''mps''' , '''Gradient checkpointing skipped on MPS''' ) def __lowerCAmelCase ( self : Optional[Any] ) ->Optional[int]: """simple docstring""" a , a = self.prepare_init_args_and_inputs_for_common() a = self.model_class(**__UpperCAmelCase ) model.to(__UpperCAmelCase ) assert not model.is_gradient_checkpointing and model.training a = model(**__UpperCAmelCase ).sample # run the backwards pass on the model. For backwards pass, for simplicity purpose, # we won't calculate the loss and rather backprop on out.sum() model.zero_grad() a = torch.randn_like(__UpperCAmelCase ) a = (out - labels).mean() loss.backward() # re-instantiate the model now enabling gradient checkpointing a = self.model_class(**__UpperCAmelCase ) # clone model model_a.load_state_dict(model.state_dict() ) model_a.to(__UpperCAmelCase ) model_a.enable_gradient_checkpointing() assert model_a.is_gradient_checkpointing and model_a.training a = model_a(**__UpperCAmelCase ).sample # run the backwards pass on the model. For backwards pass, for simplicity purpose, # we won't calculate the loss and rather backprop on out.sum() model_a.zero_grad() a = (out_a - labels).mean() loss_a.backward() # compare the output and parameters gradients self.assertTrue((loss - loss_a).abs() < 1e-5 ) a = dict(model.named_parameters() ) a = dict(model_a.named_parameters() ) for name, param in named_params.items(): self.assertTrue(torch_all_close(param.grad.data , named_params_a[name].grad.data , atol=5e-5 ) ) def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" a , a = AutoencoderKL.from_pretrained('''fusing/autoencoder-kl-dummy''' , output_loading_info=__UpperCAmelCase ) self.assertIsNotNone(__UpperCAmelCase ) self.assertEqual(len(loading_info['''missing_keys'''] ) , 0 ) model.to(__UpperCAmelCase ) a = model(**self.dummy_input ) assert image is not None, "Make sure output is not None" def __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" a = AutoencoderKL.from_pretrained('''fusing/autoencoder-kl-dummy''' ) a = model.to(__UpperCAmelCase ) model.eval() if torch_device == "mps": a = torch.manual_seed(0 ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(0 ) a = torch.randn( 1 , model.config.in_channels , model.config.sample_size , model.config.sample_size , generator=torch.manual_seed(0 ) , ) a = image.to(__UpperCAmelCase ) with torch.no_grad(): a = model(__UpperCAmelCase , sample_posterior=__UpperCAmelCase , generator=__UpperCAmelCase ).sample a = output[0, -1, -3:, -3:].flatten().cpu() # Since the VAE Gaussian prior's generator is seeded on the appropriate device, # the expected output slices are not the same for CPU and GPU. if torch_device == "mps": a = torch.tensor( [ -4.0_0_7_8e-0_1, -3.8_3_2_3e-0_4, -1.2_6_8_1e-0_1, -1.1_4_6_2e-0_1, 2.0_0_9_5e-0_1, 1.0_8_9_3e-0_1, -8.8_2_4_7e-0_2, -3.0_3_6_1e-0_1, -9.8_6_4_4e-0_3, ] ) elif torch_device == "cpu": a = torch.tensor( [-0.1352, 0.0878, 0.0419, -0.0818, -0.1069, 0.0688, -0.1458, -0.4446, -0.0026] ) else: a = torch.tensor( [-0.2421, 0.4642, 0.2507, -0.0438, 0.0682, 0.3160, -0.2018, -0.0727, 0.2485] ) self.assertTrue(torch_all_close(__UpperCAmelCase , __UpperCAmelCase , rtol=1e-2 ) ) @slow class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : Dict , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : Tuple ) ->str: """simple docstring""" return F"""gaussian_noise_s={seed}_shape={'_'.join([str(__UpperCAmelCase ) for s in shape] )}.npy""" def __lowerCAmelCase ( self : List[str] ) ->int: """simple docstring""" super().tearDown() gc.collect() torch.cuda.empty_cache() def __lowerCAmelCase ( self : Union[str, Any] , __UpperCAmelCase : Tuple=0 , __UpperCAmelCase : Tuple=(4, 3, 512, 512) , __UpperCAmelCase : Optional[int]=False ) ->Dict: """simple docstring""" a = torch.floataa if fpaa else torch.floataa a = torch.from_numpy(load_hf_numpy(self.get_file_format(__UpperCAmelCase , __UpperCAmelCase ) ) ).to(__UpperCAmelCase ).to(__UpperCAmelCase ) return image def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : List[Any]="CompVis/stable-diffusion-v1-4" , __UpperCAmelCase : Optional[Any]=False ) ->Dict: """simple docstring""" a = '''fp16''' if fpaa else None a = torch.floataa if fpaa else torch.floataa a = AutoencoderKL.from_pretrained( __UpperCAmelCase , subfolder='''vae''' , torch_dtype=__UpperCAmelCase , revision=__UpperCAmelCase , ) model.to(__UpperCAmelCase ).eval() return model def __lowerCAmelCase ( self : Union[str, Any] , __UpperCAmelCase : Tuple=0 ) ->int: """simple docstring""" if torch_device == "mps": return torch.manual_seed(__UpperCAmelCase ) return torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) @parameterized.expand( [ # fmt: off [33, [-0.1603, 0.9878, -0.0495, -0.0790, -0.2709, 0.8375, -0.2060, -0.0824], [-0.2395, 0.0098, 0.0102, -0.0709, -0.2840, -0.0274, -0.0718, -0.1824]], [47, [-0.2376, 0.1168, 0.1332, -0.4840, -0.2508, -0.0791, -0.0493, -0.4089], [0.0350, 0.0847, 0.0467, 0.0344, -0.0842, -0.0547, -0.0633, -0.1131]], # fmt: on ] ) def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Tuple , __UpperCAmelCase : Dict , __UpperCAmelCase : List[str] ) ->List[str]: """simple docstring""" a = self.get_sd_vae_model() a = self.get_sd_image(__UpperCAmelCase ) a = self.get_generator(__UpperCAmelCase ) with torch.no_grad(): a = model(__UpperCAmelCase , generator=__UpperCAmelCase , sample_posterior=__UpperCAmelCase ).sample assert sample.shape == image.shape a = sample[-1, -2:, -2:, :2].flatten().float().cpu() a = torch.tensor(expected_slice_mps if torch_device == '''mps''' else expected_slice ) assert torch_all_close(__UpperCAmelCase , __UpperCAmelCase , atol=3e-3 ) @parameterized.expand( [ # fmt: off [33, [-0.0513, 0.0289, 1.3799, 0.2166, -0.2573, -0.0871, 0.5103, -0.0999]], [47, [-0.4128, -0.1320, -0.3704, 0.1965, -0.4116, -0.2332, -0.3340, 0.2247]], # fmt: on ] ) @require_torch_gpu def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Tuple , __UpperCAmelCase : Tuple ) ->List[Any]: """simple docstring""" a = self.get_sd_vae_model(fpaa=__UpperCAmelCase ) a = self.get_sd_image(__UpperCAmelCase , fpaa=__UpperCAmelCase ) a = self.get_generator(__UpperCAmelCase ) with torch.no_grad(): a = model(__UpperCAmelCase , generator=__UpperCAmelCase , sample_posterior=__UpperCAmelCase ).sample assert sample.shape == image.shape a = sample[-1, -2:, :2, -2:].flatten().float().cpu() a = torch.tensor(__UpperCAmelCase ) assert torch_all_close(__UpperCAmelCase , __UpperCAmelCase , atol=1e-2 ) @parameterized.expand( [ # fmt: off [33, [-0.1609, 0.9866, -0.0487, -0.0777, -0.2716, 0.8368, -0.2055, -0.0814], [-0.2395, 0.0098, 0.0102, -0.0709, -0.2840, -0.0274, -0.0718, -0.1824]], [47, [-0.2377, 0.1147, 0.1333, -0.4841, -0.2506, -0.0805, -0.0491, -0.4085], [0.0350, 0.0847, 0.0467, 0.0344, -0.0842, -0.0547, -0.0633, -0.1131]], # fmt: on ] ) def __lowerCAmelCase ( self : str , __UpperCAmelCase : str , __UpperCAmelCase : int , __UpperCAmelCase : int ) ->List[str]: """simple docstring""" a = self.get_sd_vae_model() a = self.get_sd_image(__UpperCAmelCase ) with torch.no_grad(): a = model(__UpperCAmelCase ).sample assert sample.shape == image.shape a = sample[-1, -2:, -2:, :2].flatten().float().cpu() a = torch.tensor(expected_slice_mps if torch_device == '''mps''' else expected_slice ) assert torch_all_close(__UpperCAmelCase , __UpperCAmelCase , atol=3e-3 ) @parameterized.expand( [ # fmt: off [13, [-0.2051, -0.1803, -0.2311, -0.2114, -0.3292, -0.3574, -0.2953, -0.3323]], [37, [-0.2632, -0.2625, -0.2199, -0.2741, -0.4539, -0.4990, -0.3720, -0.4925]], # fmt: on ] ) @require_torch_gpu def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : Any , __UpperCAmelCase : List[Any] ) ->Dict: """simple docstring""" a = self.get_sd_vae_model() a = self.get_sd_image(__UpperCAmelCase , shape=(3, 4, 64, 64) ) with torch.no_grad(): a = model.decode(__UpperCAmelCase ).sample assert list(sample.shape ) == [3, 3, 512, 512] a = sample[-1, -2:, :2, -2:].flatten().cpu() a = torch.tensor(__UpperCAmelCase ) assert torch_all_close(__UpperCAmelCase , __UpperCAmelCase , atol=1e-3 ) @parameterized.expand( [ # fmt: off [27, [-0.0369, 0.0207, -0.0776, -0.0682, -0.1747, -0.1930, -0.1465, -0.2039]], [16, [-0.1628, -0.2134, -0.2747, -0.2642, -0.3774, -0.4404, -0.3687, -0.4277]], # fmt: on ] ) @require_torch_gpu def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : Any ) ->int: """simple docstring""" a = self.get_sd_vae_model(fpaa=__UpperCAmelCase ) a = self.get_sd_image(__UpperCAmelCase , shape=(3, 4, 64, 64) , fpaa=__UpperCAmelCase ) with torch.no_grad(): a = model.decode(__UpperCAmelCase ).sample assert list(sample.shape ) == [3, 3, 512, 512] a = sample[-1, -2:, :2, -2:].flatten().float().cpu() a = torch.tensor(__UpperCAmelCase ) assert torch_all_close(__UpperCAmelCase , __UpperCAmelCase , atol=5e-3 ) @parameterized.expand([(13,), (16,), (27,)] ) @require_torch_gpu @unittest.skipIf(not is_xformers_available() , reason='''xformers is not required when using PyTorch 2.0.''' ) def __lowerCAmelCase ( self : Dict , __UpperCAmelCase : int ) ->List[str]: """simple docstring""" a = self.get_sd_vae_model(fpaa=__UpperCAmelCase ) a = self.get_sd_image(__UpperCAmelCase , shape=(3, 4, 64, 64) , fpaa=__UpperCAmelCase ) with torch.no_grad(): a = model.decode(__UpperCAmelCase ).sample model.enable_xformers_memory_efficient_attention() with torch.no_grad(): a = model.decode(__UpperCAmelCase ).sample assert list(sample.shape ) == [3, 3, 512, 512] assert torch_all_close(__UpperCAmelCase , __UpperCAmelCase , atol=1e-1 ) @parameterized.expand([(13,), (16,), (37,)] ) @require_torch_gpu @unittest.skipIf(not is_xformers_available() , reason='''xformers is not required when using PyTorch 2.0.''' ) def __lowerCAmelCase ( self : int , __UpperCAmelCase : str ) ->Any: """simple docstring""" a = self.get_sd_vae_model() a = self.get_sd_image(__UpperCAmelCase , shape=(3, 4, 64, 64) ) with torch.no_grad(): a = model.decode(__UpperCAmelCase ).sample model.enable_xformers_memory_efficient_attention() with torch.no_grad(): a = model.decode(__UpperCAmelCase ).sample assert list(sample.shape ) == [3, 3, 512, 512] assert torch_all_close(__UpperCAmelCase , __UpperCAmelCase , atol=1e-2 ) @parameterized.expand( [ # fmt: off [33, [-0.3001, 0.0918, -2.6984, -3.9720, -3.2099, -5.0353, 1.7338, -0.2065, 3.4267]], [47, [-1.5030, -4.3871, -6.0355, -9.1157, -1.6661, -2.7853, 2.1607, -5.0823, 2.5633]], # fmt: on ] ) def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Union[str, Any] ) ->List[str]: """simple docstring""" a = self.get_sd_vae_model() a = self.get_sd_image(__UpperCAmelCase ) a = self.get_generator(__UpperCAmelCase ) with torch.no_grad(): a = model.encode(__UpperCAmelCase ).latent_dist a = dist.sample(generator=__UpperCAmelCase ) assert list(sample.shape ) == [image.shape[0], 4] + [i // 8 for i in image.shape[2:]] a = sample[0, -1, -3:, -3:].flatten().cpu() a = torch.tensor(__UpperCAmelCase ) a = 3e-3 if torch_device != '''mps''' else 1e-2 assert torch_all_close(__UpperCAmelCase , __UpperCAmelCase , atol=__UpperCAmelCase )

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) UpperCAmelCase__ = logging.getLogger() def _a ( ) -> Optional[int]: a = argparse.ArgumentParser() parser.add_argument('''-f''' ) a = parser.parse_args() return args.f def _a ( a :Any ) -> Tuple: a = {} a = os.path.join(a , '''all_results.json''' ) if os.path.exists(a ): with open(a , '''r''' ) as f: a = json.load(a ) else: raise ValueError(F"""can't find {path}""" ) return results def _a ( ) -> int: a = torch.cuda.is_available() and torch_device == '''cuda''' return is_using_cuda and is_apex_available() UpperCAmelCase__ = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class lowercase_ ( lowercase ): '''simple docstring''' @classmethod def __lowerCAmelCase ( cls : str ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() a = os.path.join(cls.tmpdir , '''default_config.yml''' ) write_basic_config(save_location=cls.configPath ) a = ['''accelerate''', '''launch''', '''--config_file''', cls.configPath] @classmethod def __lowerCAmelCase ( cls : Optional[int] ) ->Union[str, Any]: """simple docstring""" shutil.rmtree(cls.tmpdir ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->str: """simple docstring""" a = 7 if get_gpu_count() > 1 else 2 a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : List[str] ) ->int: """simple docstring""" a = logging.StreamHandler(sys.stdout ) logger.addHandler(__UpperCAmelCase ) a = self.get_auto_remove_tmp_dir() a = 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 ) a = get_results(__UpperCAmelCase ) self.assertGreaterEqual(result['''eval_overall_accuracy'''] , 0.10 ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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''' ) ) )

import unittest from transformers import JukeboxTokenizer from transformers.testing_utils import require_torch class lowercase_ ( unittest.TestCase ): '''simple docstring''' __snake_case = JukeboxTokenizer __snake_case = { '''artist''': '''Zac Brown Band''', '''genres''': '''Country''', '''lyrics''': '''I met a traveller from an antique land, Who said "Two vast and trunkless legs of stone Stand in the desert. . . . Near them, on the sand, Half sunk a shattered visage lies, whose frown, And wrinkled lip, and sneer of cold command, Tell that its sculptor well those passions read Which yet survive, stamped on these lifeless things, The hand that mocked them, and the heart that fed; And on the pedestal, these words appear: My name is Ozymandias, King of Kings; Look on my Works, ye Mighty, and despair! Nothing beside remains. Round the decay Of that colossal Wreck, boundless and bare The lone and level sands stretch far away ''', } @require_torch def __lowerCAmelCase ( self : Optional[Any] ) ->Optional[Any]: """simple docstring""" import torch a = JukeboxTokenizer.from_pretrained('''openai/jukebox-1b-lyrics''' ) a = tokenizer(**self.metas )['''input_ids'''] # fmt: off a = [ torch.tensor([[ 0, 0, 0, 7_169, 507, 9, 76, 39, 31, 46, 76, 27, 76, 46, 44, 27, 48, 31, 38, 38, 31, 44, 76, 32, 44, 41, 39, 76, 27, 40, 76, 27, 40, 46, 35, 43, 47, 31, 76, 38, 27, 40, 30, 64, 78, 76, 76, 76, 76, 76, 76, 76, 76, 23, 34, 41, 76, 45, 27, 35, 30, 76, 71, 20, 49, 41, 76, 48, 27, 45, 46, 76, 27, 40, 30, 76, 46, 44, 47, 40, 37, 38, 31, 45, 45, 76, 38, 31, 33, 45, 76, 41, 32, 76, 45, 46, 41, 40, 31, 78, 76, 76, 76, 76, 76, 76, 76, 76, 19, 46, 27, 40, 30, 76, 35, 40, 76, 46, 34, 31, 76, 30, 31, 45, 31, 44, 46, 63, 76, 63, 76, 63, 76, 63, 76, 14, 31, 27, 44, 76, 46, 34, 31, 39, 64, 76, 41, 40, 76, 46, 34, 31, 76, 45, 27, 40, 30, 64, 78, 76, 76, 76, 76, 76, 76, 76, 76, 8, 27, 38, 32, 76, 45, 47, 40, 37, 76, 27, 76, 45, 34, 27, 46, 46, 31, 44, 31, 30, 76, 48, 35, 45, 27, 33, 31, 76, 38, 35, 31, 45, 64, 76, 49, 34, 41, 45, 31, 76, 32, 44, 41, 49, 40, 64, 78, 76, 76, 76, 76, 76, 76, 76, 76, 1, 40, 30, 76, 49, 44, 35, 40, 37, 38, 31, 30, 76, 38, 35, 42, 64, 76, 27, 40, 30, 76, 45, 40, 31, 31, 44, 76, 41, 32, 76, 29, 41, 38, 30, 76, 29, 41, 39, 39, 27, 40, 30, 64, 78, 76, 76, 76, 76, 76, 76, 76, 76, 20, 31, 38, 38, 76, 46, 34, 27, 46, 76, 35, 46, 45, 76, 45, 29, 47, 38, 42, 46, 41, 44, 76, 49, 31, 38, 38, 76, 46, 34, 41, 45, 31, 76, 42, 27, 45, 45, 35, 41, 40, 45, 76, 44, 31, 27, 30, 78, 76, 76, 76, 76, 76, 76, 76, 76, 23, 34, 35, 29, 34, 76, 51, 31, 46, 76, 45, 47, 44, 48, 35, 48, 31, 64, 76, 45, 46, 27, 39, 42, 31, 30, 76, 41, 40, 76, 46, 34, 31, 45, 31, 76, 38, 35, 32, 31, 38, 31, 45, 45, 76, 46, 34, 35, 40, 33, 45, 64, 78, 76, 76, 76, 76, 76, 76, 76, 76, 20, 34, 31, 76, 34, 27, 40, 30, 76, 46, 34, 27, 46, 76, 39, 41, 29, 37, 31, 30, 76, 46, 34, 31, 39, 64, 76, 27, 40, 30, 76, 46, 34, 31, 76, 34, 31, 27, 44, 46, 76, 46, 34, 27, 46, 76, 32, 31, 30, 66, 78, 76, 76, 76, 76, 76, 76, 76, 76, 1, 40, 30, 76, 41, 40, 76, 46, 34, 31, 76, 42, 31, 30, 31, 45, 46, 27, 38, 64, 76, 46, 34, 31, 45, 31, 76, 49, 41, 44, 30, 45, 76, 27, 42, 42, 31, 27, 44, 65, 78, 76, 76, 76, 76, 76, 76, 76, 76, 13, 51, 76, 40, 27, 39, 31, 76, 35, 45, 76, 15, 52, 51, 39, 27, 40, 30, 35, 27, 45, 64, 76, 11, 35, 40, 33, 76, 41, 32, 76, 11, 35, 40, 33, 45, 66, 78, 76, 76, 76, 76, 76, 76, 76, 76, 12, 41, 41, 37, 76, 41, 40, 76, 39, 51, 76, 23, 41, 44, 37, 45, 64, 76, 51, 31, 76, 13, 35, 33, 34, 46, 51, 64, 76, 27, 40, 30, 76, 30, 31, 45, 42, 27, 35, 44, 67, 78, 76, 76, 76, 76, 76, 76, 76, 76, 14, 41, 46, 34, 35, 40, 33, 76, 28, 31, 45, 35, 30, 31, 76, 44, 31, 39, 27, 35, 40, 45, 63, 76, 18, 41, 47, 40, 30, 76, 46, 34, 31, 76, 30, 31, 29, 27, 51, 78, 76, 76, 76, 76, 76, 76, 76, 76, 15, 32, 76, 46, 34, 27, 46, 76, 29, 41, 38, 41, 45, 45, 27, 38, 76, 23, 44, 31, 29, 37, 64, 76, 28, 41, 47, 40, 30, 38, 31, 45, 45, 76, 27, 40, 30, 76, 28, 27, 44, 31, 78, 76, 76, 76, 76, 76, 76, 76, 76, 20, 34, 31, 76, 38, 41, 40, 31, 76, 27, 40, 30, 76, 38, 31, 48, 31, 38, 76, 45, 27, 40, 30, 45, 76, 45, 46, 44, 31, 46, 29, 34, 76, 32, 27, 44, 76, 27, 49, 27, 51, 78, 76, 76, 76, 76, 76, 76, 76, 76]] ), torch.tensor([[0, 0, 0, 1_069, 11]] ), torch.tensor([[0, 0, 0, 1_069, 11]] ), ] # fmt: on self.assertTrue(torch.allclose(tokens[0] , EXPECTED_OUTPUT[0] ) ) self.assertTrue(torch.allclose(tokens[1] , EXPECTED_OUTPUT[1] ) ) self.assertTrue(torch.allclose(tokens[2] , EXPECTED_OUTPUT[2] ) ) @require_torch def __lowerCAmelCase ( self : List[str] ) ->List[str]: """simple docstring""" import torch a = JukeboxTokenizer.from_pretrained('''openai/jukebox-5b-lyrics''' ) a = tokenizer(**self.metas )['''input_ids'''] # fmt: off a = [ torch.tensor([[ 0, 0, 0, 1_069, 11, -1, -1, -1, -1, 9, 77, 39, 31, 46, 77, 27, 77, 46, 44, 27, 48, 31, 38, 38, 31, 44, 77, 32, 44, 41, 39, 77, 27, 40, 77, 27, 40, 46, 35, 43, 47, 31, 77, 38, 27, 40, 30, 64, 79, 77, 77, 77, 77, 77, 77, 77, 77, 23, 34, 41, 77, 45, 27, 35, 30, 77, 72, 20, 49, 41, 77, 48, 27, 45, 46, 77, 27, 40, 30, 77, 46, 44, 47, 40, 37, 38, 31, 45, 45, 77, 38, 31, 33, 45, 77, 41, 32, 77, 45, 46, 41, 40, 31, 79, 77, 77, 77, 77, 77, 77, 77, 77, 19, 46, 27, 40, 30, 77, 35, 40, 77, 46, 34, 31, 77, 30, 31, 45, 31, 44, 46, 63, 77, 63, 77, 63, 77, 63, 77, 14, 31, 27, 44, 77, 46, 34, 31, 39, 64, 77, 41, 40, 77, 46, 34, 31, 77, 45, 27, 40, 30, 64, 79, 77, 77, 77, 77, 77, 77, 77, 77, 8, 27, 38, 32, 77, 45, 47, 40, 37, 77, 27, 77, 45, 34, 27, 46, 46, 31, 44, 31, 30, 77, 48, 35, 45, 27, 33, 31, 77, 38, 35, 31, 45, 64, 77, 49, 34, 41, 45, 31, 77, 32, 44, 41, 49, 40, 64, 79, 77, 77, 77, 77, 77, 77, 77, 77, 1, 40, 30, 77, 49, 44, 35, 40, 37, 38, 31, 30, 77, 38, 35, 42, 64, 77, 27, 40, 30, 77, 45, 40, 31, 31, 44, 77, 41, 32, 77, 29, 41, 38, 30, 77, 29, 41, 39, 39, 27, 40, 30, 64, 79, 77, 77, 77, 77, 77, 77, 77, 77, 20, 31, 38, 38, 77, 46, 34, 27, 46, 77, 35, 46, 45, 77, 45, 29, 47, 38, 42, 46, 41, 44, 77, 49, 31, 38, 38, 77, 46, 34, 41, 45, 31, 77, 42, 27, 45, 45, 35, 41, 40, 45, 77, 44, 31, 27, 30, 79, 77, 77, 77, 77, 77, 77, 77, 77, 23, 34, 35, 29, 34, 77, 51, 31, 46, 77, 45, 47, 44, 48, 35, 48, 31, 64, 77, 45, 46, 27, 39, 42, 31, 30, 77, 41, 40, 77, 46, 34, 31, 45, 31, 77, 38, 35, 32, 31, 38, 31, 45, 45, 77, 46, 34, 35, 40, 33, 45, 64, 79, 77, 77, 77, 77, 77, 77, 77, 77, 20, 34, 31, 77, 34, 27, 40, 30, 77, 46, 34, 27, 46, 77, 39, 41, 29, 37, 31, 30, 77, 46, 34, 31, 39, 64, 77, 27, 40, 30, 77, 46, 34, 31, 77, 34, 31, 27, 44, 46, 77, 46, 34, 27, 46, 77, 32, 31, 30, 66, 79, 77, 77, 77, 77, 77, 77, 77, 77, 1, 40, 30, 77, 41, 40, 77, 46, 34, 31, 77, 42, 31, 30, 31, 45, 46, 27, 38, 64, 77, 46, 34, 31, 45, 31, 77, 49, 41, 44, 30, 45, 77, 27, 42, 42, 31, 27, 44, 65, 79, 77, 77, 77, 77, 77, 77, 77, 77, 13, 51, 77, 40, 27, 39, 31, 77, 35, 45, 77, 15, 52, 51, 39, 27, 40, 30, 35, 27, 45, 64, 77, 11, 35, 40, 33, 77, 41, 32, 77, 11, 35, 40, 33, 45, 66, 79, 77, 77, 77, 77, 77, 77, 77, 77, 12, 41, 41, 37, 77, 41, 40, 77, 39, 51, 77, 23, 41, 44, 37, 45, 64, 77, 51, 31, 77, 13, 35, 33, 34, 46, 51, 64, 77, 27, 40, 30, 77, 30, 31, 45, 42, 27, 35, 44, 67, 79, 77, 77, 77, 77, 77, 77, 77, 77, 14, 41, 46, 34, 35, 40, 33, 77, 28, 31, 45, 35, 30, 31, 77, 44, 31, 39, 27, 35, 40, 45, 63, 77, 18, 41, 47, 40, 30, 77, 46, 34, 31, 77, 30, 31, 29, 27, 51, 79, 77, 77, 77, 77, 77, 77, 77, 77, 15, 32, 77, 46, 34, 27, 46, 77, 29, 41, 38, 41, 45, 45, 27, 38, 77, 23, 44, 31, 29, 37, 64, 77, 28, 41, 47, 40, 30, 38, 31, 45, 45, 77, 27, 40, 30, 77, 28, 27, 44, 31, 79, 77, 77, 77, 77, 77, 77, 77, 77, 20, 34, 31, 77, 38, 41, 40, 31, 77, 27, 40, 30, 77, 38, 31, 48, 31, 38, 77, 45, 27, 40, 30, 45, 77, 45, 46, 44, 31, 46, 29, 34, 77, 32, 27, 44, 77, 27, 49, 27, 51, 79, 77, 77, 77, 77, 77, 77, 77, 77]] ), torch.tensor([[0, 0, 0, 1_069, 11, -1, -1, -1, -1]] ), torch.tensor([[0, 0, 0, 1_069, 11, -1, -1, -1, -1]] ), ] # fmt: on self.assertTrue(torch.allclose(tokens[0] , EXPECTED_OUTPUT[0] ) ) self.assertTrue(torch.allclose(tokens[1] , EXPECTED_OUTPUT[1] ) ) self.assertTrue(torch.allclose(tokens[2] , EXPECTED_OUTPUT[2] ) )

import math def _a ( a :int ) -> list: a = [True] * n a = False a = False a = True for i in range(3 , int(n**0.5 + 1 ) , 2 ): a = i * 2 while index < n: a = False a = index + i a = [2] for i in range(3 , a , 2 ): if is_prime[i]: primes.append(a ) return primes def _a ( a :int = 999_966_663_333 ) -> int: a = math.floor(math.sqrt(a ) ) + 100 a = prime_sieve(a ) a = 0 a = 0 a = primes[prime_index] while (last_prime**2) <= limit: a = primes[prime_index + 1] a = last_prime**2 a = next_prime**2 # Get numbers divisible by lps(current) a = lower_bound + last_prime while upper_bound > current <= limit: matches_sum += current current += last_prime # Reset the upper_bound while (upper_bound - next_prime) > limit: upper_bound -= next_prime # Add the numbers divisible by ups(current) a = upper_bound - next_prime while current > lower_bound: matches_sum += current current -= next_prime # Remove the numbers divisible by both ups and lps a = 0 while upper_bound > current <= limit: if current <= lower_bound: # Increment the current number current += last_prime * next_prime continue if current > limit: break # Remove twice since it was added by both ups and lps matches_sum -= current * 2 # Increment the current number current += last_prime * next_prime # Setup for next pair a = next_prime prime_index += 1 return matches_sum if __name__ == "__main__": print(solution())

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

def _a ( a :float , a :float ) -> float: return price * (1 + tax_rate) if __name__ == "__main__": print(f"""{price_plus_tax(100, 0.25) = }""") print(f"""{price_plus_tax(125.50, 0.05) = }""")

from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "google/switch-base-8": "https://huggingface.co/google/switch-base-8/blob/main/config.json", } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''switch_transformers''' __snake_case = ['''past_key_values'''] __snake_case = {'''hidden_size''': '''d_model''', '''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers'''} def __init__( self : Dict , __UpperCAmelCase : List[Any]=32_128 , __UpperCAmelCase : List[str]=768 , __UpperCAmelCase : str=64 , __UpperCAmelCase : Dict=2_048 , __UpperCAmelCase : int=64 , __UpperCAmelCase : str=12 , __UpperCAmelCase : Tuple=3 , __UpperCAmelCase : str=12 , __UpperCAmelCase : List[str]=3 , __UpperCAmelCase : Dict=12 , __UpperCAmelCase : List[str]=8 , __UpperCAmelCase : Union[str, Any]=False , __UpperCAmelCase : List[Any]=0.01 , __UpperCAmelCase : Any="float32" , __UpperCAmelCase : Any=False , __UpperCAmelCase : int=32 , __UpperCAmelCase : str=128 , __UpperCAmelCase : Optional[int]=0.1 , __UpperCAmelCase : Optional[Any]=1e-6 , __UpperCAmelCase : Optional[int]=0.001 , __UpperCAmelCase : Any=0.001 , __UpperCAmelCase : List[Any]=1.0 , __UpperCAmelCase : List[Any]="relu" , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : Tuple=False , __UpperCAmelCase : str=True , __UpperCAmelCase : Any=0 , __UpperCAmelCase : str=1 , **__UpperCAmelCase : List[Any] , ) ->Optional[int]: """simple docstring""" a = vocab_size a = d_model a = d_kv a = d_ff a = num_sparse_encoder_layers a = num_layers a = ( num_decoder_layers if num_decoder_layers is not None else self.num_layers ) # default = symmetry a = num_sparse_decoder_layers # This tells us, each how many encoder layer we'll have to set a sparse layer. if self.num_sparse_encoder_layers > 0: a = self.num_layers // self.num_sparse_encoder_layers else: a = self.num_layers # HACK: this will create 0 sparse layers # This tells us, each how many encoder layer we'll have to set a sparse layer. if self.num_sparse_decoder_layers > 0: a = self.num_decoder_layers // self.num_sparse_decoder_layers else: a = self.num_decoder_layers # HACK: this will create 0 sparse layers a = num_heads a = num_experts a = expert_capacity a = router_bias a = router_jitter_noise if router_dtype not in ["float32", "float16", "bfloat16"]: raise ValueError(F"""`router_dtype` must be one of 'float32', 'float16' or 'bfloat16', got {router_dtype}""" ) a = router_dtype a = router_ignore_padding_tokens a = relative_attention_num_buckets a = relative_attention_max_distance a = dropout_rate a = layer_norm_epsilon a = initializer_factor a = feed_forward_proj a = use_cache a = add_router_probs a = router_z_loss_coef a = router_aux_loss_coef a = self.feed_forward_proj.split('''-''' ) a = act_info[-1] a = act_info[0] == '''gated''' if len(__UpperCAmelCase ) > 1 and act_info[0] != "gated" or len(__UpperCAmelCase ) > 2: raise ValueError( F"""`feed_forward_proj`: {feed_forward_proj} is not a valid activation function of the dense layer.""" '''Please make sure `feed_forward_proj` is of the format `gated-{ACT_FN}` or `{ACT_FN}`, e.g. ''' '''\'gated-gelu\' or \'relu\'''' ) # for backwards compatibility if feed_forward_proj == "gated-gelu": a = '''gelu_new''' super().__init__( pad_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , is_encoder_decoder=__UpperCAmelCase , **__UpperCAmelCase , )

from tempfile import TemporaryDirectory from unittest import TestCase from unittest.mock import MagicMock, patch from transformers import AutoModel, TFAutoModel from transformers.onnx import FeaturesManager from transformers.testing_utils import SMALL_MODEL_IDENTIFIER, require_tf, require_torch @require_torch @require_tf class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" a = SMALL_MODEL_IDENTIFIER a = '''pt''' a = '''tf''' def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : str ) ->Union[str, Any]: """simple docstring""" a = AutoModel.from_pretrained(self.test_model ) model_pt.save_pretrained(__UpperCAmelCase ) def __lowerCAmelCase ( self : Any , __UpperCAmelCase : Union[str, Any] ) ->List[str]: """simple docstring""" a = TFAutoModel.from_pretrained(self.test_model , from_pt=__UpperCAmelCase ) model_tf.save_pretrained(__UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = '''mock_framework''' # Framework provided - return whatever the user provides a = FeaturesManager.determine_framework(self.test_model , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) # Local checkpoint and framework provided - return provided framework # PyTorch checkpoint with TemporaryDirectory() as local_pt_ckpt: self._setup_pt_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) # TensorFlow checkpoint with TemporaryDirectory() as local_tf_ckpt: self._setup_tf_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" with TemporaryDirectory() as local_pt_ckpt: self._setup_pt_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # TensorFlow checkpoint with TemporaryDirectory() as local_tf_ckpt: self._setup_tf_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , self.framework_tf ) # Invalid local checkpoint with TemporaryDirectory() as local_invalid_ckpt: with self.assertRaises(__UpperCAmelCase ): a = FeaturesManager.determine_framework(__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # PyTorch not in environment -> use TensorFlow a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_tf ) # Both in environment -> use PyTorch a = MagicMock(return_value=__UpperCAmelCase ) a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ), patch( '''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # Both not in environment -> raise error a = MagicMock(return_value=__UpperCAmelCase ) a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ), patch( '''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): with self.assertRaises(__UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model )

import os from collections import deque import torch from torch.utils.data import Dataset class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : str , __UpperCAmelCase : Dict="" , __UpperCAmelCase : Optional[int]="train" ) ->Tuple: """simple docstring""" assert os.path.isdir(__UpperCAmelCase ) a = [] a = os.listdir(__UpperCAmelCase ) for story_filename in story_filenames_list: if "summary" in story_filename: continue a = os.path.join(__UpperCAmelCase , __UpperCAmelCase ) if not os.path.isfile(__UpperCAmelCase ): continue self.documents.append(__UpperCAmelCase ) def __len__( self : str ) ->Tuple: """simple docstring""" return len(self.documents ) def __getitem__( self : Dict , __UpperCAmelCase : str ) ->Any: """simple docstring""" a = self.documents[idx] a = document_path.split('''/''' )[-1] with open(__UpperCAmelCase , encoding='''utf-8''' ) as source: a = source.read() a , a = process_story(__UpperCAmelCase ) return document_name, story_lines, summary_lines def _a ( a :Tuple ) -> Union[str, Any]: a = list(filter(lambda a : len(a ) != 0 , [line.strip() for line in raw_story.split('''\n''' )] ) ) # for some unknown reason some lines miss a period, add it a = [_add_missing_period(a ) for line in nonempty_lines] # gather article lines a = [] a = deque(a ) while True: try: a = lines.popleft() if element.startswith('''@highlight''' ): break story_lines.append(a ) except IndexError: # if "@highlight" is absent from the file we pop # all elements until there is None, raising an exception. return story_lines, [] # gather summary lines a = list(filter(lambda a : not t.startswith('''@highlight''' ) , a ) ) return story_lines, summary_lines def _a ( a :List[str] ) -> Union[str, Any]: a = ['''.''', '''!''', '''?''', '''...''', '''\'''', '''`''', '''"''', '''\u2019''', '''\u2019''', ''')'''] if line.startswith('''@highlight''' ): return line if line[-1] in END_TOKENS: return line return line + "." def _a ( a :Optional[Any] , a :int , a :Union[str, Any] ) -> Optional[int]: if len(a ) > block_size: return sequence[:block_size] else: sequence.extend([pad_token_id] * (block_size - len(a )) ) return sequence def _a ( a :Union[str, Any] , a :Optional[int] ) -> Union[str, Any]: a = torch.ones_like(a ) a = sequence == pad_token_id a = 0 return mask def _a ( a :Optional[Any] , a :Optional[Any] , a :Tuple ) -> List[Any]: a = [tokenizer.encode(a ) for line in story_lines] a = [token for sentence in story_lines_token_ids for token in sentence] a = [tokenizer.encode(a ) for line in summary_lines] a = [token for sentence in summary_lines_token_ids for token in sentence] return story_token_ids, summary_token_ids def _a ( a :int , a :str ) -> Dict: a = [] for sequence in batch: a = -1 a = [] for s in sequence: if s == separator_token_id: sentence_num += 1 embeddings.append(sentence_num % 2 ) batch_embeddings.append(a ) return torch.tensor(a )

import os import unittest from transformers import BatchEncoding from transformers.models.bert.tokenization_bert import ( BasicTokenizer, WordpieceTokenizer, _is_control, _is_punctuation, _is_whitespace, ) from transformers.models.prophetnet.tokenization_prophetnet import VOCAB_FILES_NAMES, ProphetNetTokenizer from transformers.testing_utils import require_torch, slow from ...test_tokenization_common import TokenizerTesterMixin class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ProphetNetTokenizer __snake_case = False def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" super().setUp() a = [ '''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing''', ''',''', '''low''', '''lowest''', ] a = 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 __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str ) ->Dict: """simple docstring""" a = '''UNwant\u00E9d,running''' a = '''unwanted, running''' return input_text, output_text def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" a = self.tokenizer_class(self.vocab_file ) a = tokenizer.tokenize('''UNwant\u00E9d,running''' ) self.assertListEqual(__UpperCAmelCase , ['''un''', '''##want''', '''##ed''', ''',''', '''runn''', '''##ing'''] ) self.assertListEqual(tokenizer.convert_tokens_to_ids(__UpperCAmelCase ) , [9, 6, 7, 12, 10, 11] ) def __lowerCAmelCase ( self : int ) ->Any: """simple docstring""" a = BasicTokenizer() self.assertListEqual(tokenizer.tokenize('''ah\u535A\u63A8zz''' ) , ['''ah''', '''\u535A''', '''\u63A8''', '''zz'''] ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? ''' ) , ['''hello''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[int]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hällo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''h\u00E9llo'''] ) def __lowerCAmelCase ( self : Dict ) ->str: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hallo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Any ) ->Dict: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hallo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Tuple ) ->Optional[Any]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? ''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''HäLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : int ) ->Optional[int]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''HaLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , never_split=['''[UNK]'''] ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? [UNK]''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?''', '''[UNK]'''] ) def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" a = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing'''] a = {} for i, token in enumerate(__UpperCAmelCase ): a = i a = WordpieceTokenizer(vocab=__UpperCAmelCase , unk_token='''[UNK]''' ) self.assertListEqual(tokenizer.tokenize('''''' ) , [] ) self.assertListEqual(tokenizer.tokenize('''unwanted running''' ) , ['''un''', '''##want''', '''##ed''', '''runn''', '''##ing'''] ) self.assertListEqual(tokenizer.tokenize('''unwantedX running''' ) , ['''[UNK]''', '''runn''', '''##ing'''] ) @require_torch def __lowerCAmelCase ( self : int ) ->int: """simple docstring""" a = self.tokenizer_class.from_pretrained('''microsoft/prophetnet-large-uncased''' ) a = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.'''] a = [1_037, 2_146, 20_423, 2_005, 7_680, 7_849, 3_989, 1_012, 102] a = tokenizer(__UpperCAmelCase , padding=__UpperCAmelCase , return_tensors='''pt''' ) self.assertIsInstance(__UpperCAmelCase , __UpperCAmelCase ) a = list(batch.input_ids.numpy()[0] ) self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual((2, 9) , batch.input_ids.shape ) self.assertEqual((2, 9) , batch.attention_mask.shape ) def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" self.assertTrue(_is_whitespace(''' ''' ) ) self.assertTrue(_is_whitespace('''\t''' ) ) self.assertTrue(_is_whitespace('''\r''' ) ) self.assertTrue(_is_whitespace('''\n''' ) ) self.assertTrue(_is_whitespace('''\u00A0''' ) ) self.assertFalse(_is_whitespace('''A''' ) ) self.assertFalse(_is_whitespace('''-''' ) ) def __lowerCAmelCase ( self : Any ) ->List[str]: """simple docstring""" self.assertTrue(_is_control('''\u0005''' ) ) self.assertFalse(_is_control('''A''' ) ) self.assertFalse(_is_control(''' ''' ) ) self.assertFalse(_is_control('''\t''' ) ) self.assertFalse(_is_control('''\r''' ) ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" self.assertTrue(_is_punctuation('''-''' ) ) self.assertTrue(_is_punctuation('''$''' ) ) self.assertTrue(_is_punctuation('''`''' ) ) self.assertTrue(_is_punctuation('''.''' ) ) self.assertFalse(_is_punctuation('''A''' ) ) self.assertFalse(_is_punctuation(''' ''' ) ) @slow def __lowerCAmelCase ( self : List[str] ) ->List[str]: """simple docstring""" a = self.tokenizer_class.from_pretrained('''microsoft/prophetnet-large-uncased''' ) a = tokenizer.encode('''sequence builders''' , add_special_tokens=__UpperCAmelCase ) a = tokenizer.encode('''multi-sequence build''' , add_special_tokens=__UpperCAmelCase ) a = tokenizer.build_inputs_with_special_tokens(__UpperCAmelCase ) a = tokenizer.build_inputs_with_special_tokens(__UpperCAmelCase , __UpperCAmelCase ) assert encoded_sentence == text + [102] assert encoded_pair == text + [102] + text_a + [102]

import math def _a ( a :int ) -> bool: return math.sqrt(a ) * math.sqrt(a ) == num def _a ( a :int ) -> bool: a = 0 a = n while left <= right: a = (left + right) // 2 if mid**2 == n: return True elif mid**2 > n: a = mid - 1 else: a = mid + 1 return False if __name__ == "__main__": import doctest doctest.testmod()

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available UpperCAmelCase__ = { "configuration_nllb_moe": [ "NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP", "NllbMoeConfig", ] } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST", "NllbMoeForConditionalGeneration", "NllbMoeModel", "NllbMoePreTrainedModel", "NllbMoeTop2Router", "NllbMoeSparseMLP", ] if TYPE_CHECKING: from .configuration_nllb_moe import ( NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP, NllbMoeConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_nllb_moe import ( NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST, NllbMoeForConditionalGeneration, NllbMoeModel, NllbMoePreTrainedModel, NllbMoeSparseMLP, NllbMoeTopaRouter, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

def _a ( a :int ) -> int: if divisor % 5 == 0 or divisor % 2 == 0: return 0 a = 1 a = 1 while repunit: a = (10 * repunit + 1) % divisor repunit_index += 1 return repunit_index def _a ( a :int = 1_000_000 ) -> int: a = limit - 1 if divisor % 2 == 0: divisor += 1 while least_divisible_repunit(a ) <= limit: divisor += 2 return divisor if __name__ == "__main__": print(f"""{solution() = }""")

def _a ( a :int ) -> list: # bit count represents no. of bits in the gray code if bit_count < 0: raise ValueError('''The given input must be positive''' ) # get the generated string sequence a = gray_code_sequence_string(a ) # # convert them to integers for i in range(len(a ) ): a = int(sequence[i] , 2 ) return sequence def _a ( a :int ) -> list: # The approach is a recursive one # Base case achieved when either n = 0 or n=1 if bit_count == 0: return ["0"] if bit_count == 1: return ["0", "1"] a = 1 << bit_count # defines the length of the sequence # 1<< n is equivalent to 2^n # recursive answer will generate answer for n-1 bits a = gray_code_sequence_string(bit_count - 1 ) a = [] # append 0 to first half of the smaller sequence generated for i in range(seq_len // 2 ): a = '''0''' + smaller_sequence[i] sequence.append(a ) # append 1 to second half ... start from the end of the list for i in reversed(range(seq_len // 2 ) ): a = '''1''' + smaller_sequence[i] sequence.append(a ) return sequence if __name__ == "__main__": import doctest doctest.testmod()

from __future__ import annotations import math def _a ( a :int , a :int , a :bool , a :list[int] , a :float ) -> int: if depth < 0: raise ValueError('''Depth cannot be less than 0''' ) if not scores: raise ValueError('''Scores cannot be empty''' ) if depth == height: return scores[node_index] return ( max( minimax(depth + 1 , node_index * 2 , a , a , a ) , minimax(depth + 1 , node_index * 2 + 1 , a , a , a ) , ) if is_max else min( minimax(depth + 1 , node_index * 2 , a , a , a ) , minimax(depth + 1 , node_index * 2 + 1 , a , a , a ) , ) ) def _a ( ) -> None: a = [90, 23, 6, 33, 21, 65, 123, 34_423] a = math.log(len(a ) , 2 ) print(F"""Optimal value : {minimax(0 , 0 , a , a , a )}""" ) if __name__ == "__main__": import doctest doctest.testmod() main()

import json import os import shutil import tempfile import unittest import numpy as np from transformers import BertTokenizerFast from transformers.models.bert.tokenization_bert import VOCAB_FILES_NAMES, BertTokenizer from transformers.testing_utils import require_tokenizers, require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import VisionTextDualEncoderProcessor, ViTImageProcessor @require_tokenizers @require_vision class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : List[Any] ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() # fmt: off a = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing''', ''',''', '''low''', '''lowest'''] # fmt: on a = 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] ) ) a = { '''do_resize''': True, '''size''': {'''height''': 18, '''width''': 18}, '''do_normalize''': True, '''image_mean''': [0.5, 0.5, 0.5], '''image_std''': [0.5, 0.5, 0.5], } a = os.path.join(self.tmpdirname , __UpperCAmelCase ) with open(self.image_processor_file , '''w''' , encoding='''utf-8''' ) as fp: json.dump(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] , **__UpperCAmelCase : List[Any] ) ->int: """simple docstring""" return BertTokenizer.from_pretrained(self.tmpdirname , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Union[str, Any] , **__UpperCAmelCase : Optional[int] ) ->Union[str, Any]: """simple docstring""" return ViTImageProcessor.from_pretrained(self.tmpdirname , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" shutil.rmtree(self.tmpdirname ) def __lowerCAmelCase ( self : str ) ->Dict: """simple docstring""" a = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )] a = [Image.fromarray(np.moveaxis(__UpperCAmelCase , 0 , -1 ) ) for x in image_inputs] return image_inputs def __lowerCAmelCase ( self : Any ) ->Tuple: """simple docstring""" a = self.get_tokenizer() a = self.get_image_processor() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) processor.save_pretrained(self.tmpdirname ) a = VisionTextDualEncoderProcessor.from_pretrained(self.tmpdirname ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer.get_vocab() ) self.assertIsInstance(processor.tokenizer , (BertTokenizer, BertTokenizerFast) ) self.assertEqual(processor.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertIsInstance(processor.image_processor , __UpperCAmelCase ) def __lowerCAmelCase ( self : int ) ->Dict: """simple docstring""" a = VisionTextDualEncoderProcessor( tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) a = self.get_tokenizer(bos_token='''(BOS)''' , eos_token='''(EOS)''' ) a = self.get_image_processor(do_normalize=__UpperCAmelCase , padding_value=1.0 ) a = VisionTextDualEncoderProcessor.from_pretrained( self.tmpdirname , bos_token='''(BOS)''' , eos_token='''(EOS)''' , do_normalize=__UpperCAmelCase , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , (BertTokenizer, BertTokenizerFast) ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , __UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->Dict: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = self.prepare_image_inputs() a = image_processor(__UpperCAmelCase , return_tensors='''np''' ) a = processor(images=__UpperCAmelCase , return_tensors='''np''' ) for key in input_feat_extract.keys(): self.assertAlmostEqual(input_feat_extract[key].sum() , input_processor[key].sum() , delta=1e-2 ) def __lowerCAmelCase ( self : List[str] ) ->str: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = processor(text=__UpperCAmelCase ) a = tokenizer(__UpperCAmelCase ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = self.prepare_image_inputs() a = processor(text=__UpperCAmelCase , images=__UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , ['''input_ids''', '''token_type_ids''', '''attention_mask''', '''pixel_values'''] ) # test if it raises when no input is passed with self.assertRaises(__UpperCAmelCase ): processor() def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] a = processor.batch_decode(__UpperCAmelCase ) a = tokenizer.batch_decode(__UpperCAmelCase ) self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] ) ->Dict: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = self.prepare_image_inputs() a = processor(text=__UpperCAmelCase , images=__UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , processor.model_input_names )

import copy import unittest from transformers.models.auto import get_values from transformers.testing_utils import require_torch, slow, torch_device from transformers.utils import cached_property, is_torch_available, is_vision_available 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 ( MODEL_FOR_MULTIPLE_CHOICE_MAPPING, MODEL_FOR_QUESTION_ANSWERING_MAPPING, MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING, MODEL_FOR_TOKEN_CLASSIFICATION_MAPPING, LayoutLMvaConfig, LayoutLMvaForQuestionAnswering, LayoutLMvaForSequenceClassification, LayoutLMvaForTokenClassification, LayoutLMvaModel, ) from transformers.models.layoutlmva.modeling_layoutlmva import LAYOUTLMV3_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import LayoutLMvaImageProcessor class lowercase_ : '''simple docstring''' def __init__( self : Tuple , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : Dict=2 , __UpperCAmelCase : Any=3 , __UpperCAmelCase : List[Any]=4 , __UpperCAmelCase : Any=2 , __UpperCAmelCase : int=7 , __UpperCAmelCase : Tuple=True , __UpperCAmelCase : Dict=True , __UpperCAmelCase : Union[str, Any]=True , __UpperCAmelCase : Dict=True , __UpperCAmelCase : Union[str, Any]=99 , __UpperCAmelCase : Tuple=36 , __UpperCAmelCase : Optional[Any]=3 , __UpperCAmelCase : List[str]=4 , __UpperCAmelCase : Union[str, Any]=37 , __UpperCAmelCase : Union[str, Any]="gelu" , __UpperCAmelCase : Any=0.1 , __UpperCAmelCase : List[str]=0.1 , __UpperCAmelCase : int=512 , __UpperCAmelCase : str=16 , __UpperCAmelCase : Optional[Any]=2 , __UpperCAmelCase : List[Any]=0.02 , __UpperCAmelCase : Any=6 , __UpperCAmelCase : Tuple=6 , __UpperCAmelCase : Optional[int]=3 , __UpperCAmelCase : int=4 , __UpperCAmelCase : str=None , __UpperCAmelCase : Tuple=1_000 , ) ->str: """simple docstring""" a = parent a = batch_size a = num_channels a = image_size a = patch_size a = text_seq_length a = is_training a = use_input_mask a = use_token_type_ids a = use_labels a = vocab_size a = hidden_size a = num_hidden_layers a = num_attention_heads a = intermediate_size a = hidden_act a = hidden_dropout_prob a = attention_probs_dropout_prob a = max_position_embeddings a = type_vocab_size a = type_sequence_label_size a = initializer_range a = coordinate_size a = shape_size a = num_labels a = num_choices a = scope a = range_bbox # LayoutLMv3's sequence length equals the number of text tokens + number of patches + 1 (we add 1 for the CLS token) a = text_seq_length a = (image_size // patch_size) ** 2 + 1 a = self.text_seq_length + self.image_seq_length def __lowerCAmelCase ( self : Dict ) ->Any: """simple docstring""" a = ids_tensor([self.batch_size, self.text_seq_length] , self.vocab_size ) a = ids_tensor([self.batch_size, self.text_seq_length, 4] , self.range_bbox ) # Ensure that bbox is legal for i in range(bbox.shape[0] ): for j in range(bbox.shape[1] ): if bbox[i, j, 3] < bbox[i, j, 1]: a = bbox[i, j, 3] a = bbox[i, j, 1] a = t if bbox[i, j, 2] < bbox[i, j, 0]: a = bbox[i, j, 2] a = bbox[i, j, 0] a = t a = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) a = None if self.use_input_mask: a = random_attention_mask([self.batch_size, self.text_seq_length] ) a = None if self.use_token_type_ids: a = ids_tensor([self.batch_size, self.text_seq_length] , self.type_vocab_size ) a = None a = None if self.use_labels: a = ids_tensor([self.batch_size] , self.type_sequence_label_size ) a = ids_tensor([self.batch_size, self.text_seq_length] , self.num_labels ) a = LayoutLMvaConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , initializer_range=self.initializer_range , coordinate_size=self.coordinate_size , shape_size=self.shape_size , input_size=self.image_size , patch_size=self.patch_size , ) return config, input_ids, bbox, pixel_values, token_type_ids, input_mask, sequence_labels, token_labels def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : List[Any] , __UpperCAmelCase : str , __UpperCAmelCase : str , __UpperCAmelCase : int , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Any , __UpperCAmelCase : List[str] ) ->Dict: """simple docstring""" a = LayoutLMvaModel(config=__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() # text + image a = model(__UpperCAmelCase , pixel_values=__UpperCAmelCase ) a = model( __UpperCAmelCase , bbox=__UpperCAmelCase , pixel_values=__UpperCAmelCase , attention_mask=__UpperCAmelCase , token_type_ids=__UpperCAmelCase ) a = model(__UpperCAmelCase , bbox=__UpperCAmelCase , pixel_values=__UpperCAmelCase , token_type_ids=__UpperCAmelCase ) a = model(__UpperCAmelCase , bbox=__UpperCAmelCase , pixel_values=__UpperCAmelCase ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) # text only a = model(__UpperCAmelCase ) self.parent.assertEqual( result.last_hidden_state.shape , (self.batch_size, self.text_seq_length, self.hidden_size) ) # image only a = model(pixel_values=__UpperCAmelCase ) self.parent.assertEqual( result.last_hidden_state.shape , (self.batch_size, self.image_seq_length, self.hidden_size) ) def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : str , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : int , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : Tuple , __UpperCAmelCase : int , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Tuple ) ->List[str]: """simple docstring""" a = self.num_labels a = LayoutLMvaForSequenceClassification(__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model( __UpperCAmelCase , bbox=__UpperCAmelCase , pixel_values=__UpperCAmelCase , attention_mask=__UpperCAmelCase , token_type_ids=__UpperCAmelCase , labels=__UpperCAmelCase , ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) ) def __lowerCAmelCase ( self : Dict , __UpperCAmelCase : str , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : str , __UpperCAmelCase : int , __UpperCAmelCase : Any , __UpperCAmelCase : int , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : Any ) ->int: """simple docstring""" a = self.num_labels a = LayoutLMvaForTokenClassification(config=__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model( __UpperCAmelCase , bbox=__UpperCAmelCase , pixel_values=__UpperCAmelCase , attention_mask=__UpperCAmelCase , token_type_ids=__UpperCAmelCase , labels=__UpperCAmelCase , ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.text_seq_length, self.num_labels) ) def __lowerCAmelCase ( self : str , __UpperCAmelCase : Tuple , __UpperCAmelCase : str , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : str , __UpperCAmelCase : List[str] , __UpperCAmelCase : Union[str, Any] , __UpperCAmelCase : List[str] , __UpperCAmelCase : Union[str, Any] ) ->str: """simple docstring""" a = LayoutLMvaForQuestionAnswering(config=__UpperCAmelCase ) model.to(__UpperCAmelCase ) model.eval() a = model( __UpperCAmelCase , bbox=__UpperCAmelCase , pixel_values=__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 __lowerCAmelCase ( self : int ) ->Optional[int]: """simple docstring""" a = self.prepare_config_and_inputs() ( ( a ) , ( a ) , ( a ) , ( a ) , ( a ) , ( a ) , ( a ) , ( a ) , ) = config_and_inputs a = { '''input_ids''': input_ids, '''bbox''': bbox, '''pixel_values''': pixel_values, '''token_type_ids''': token_type_ids, '''attention_mask''': input_mask, } return config, inputs_dict @require_torch class lowercase_ ( lowercase , lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = False __snake_case = False __snake_case = False __snake_case = ( ( LayoutLMvaModel, LayoutLMvaForSequenceClassification, LayoutLMvaForTokenClassification, LayoutLMvaForQuestionAnswering, ) if is_torch_available() else () ) __snake_case = ( {'''document-question-answering''': LayoutLMvaForQuestionAnswering, '''feature-extraction''': LayoutLMvaModel} if is_torch_available() else {} ) def __lowerCAmelCase ( self : Union[str, Any] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : List[str] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Any , __UpperCAmelCase : str ) ->Tuple: """simple docstring""" return True def __lowerCAmelCase ( self : Union[str, Any] ) ->Dict: """simple docstring""" a = LayoutLMvaModelTester(self ) a = ConfigTester(self , config_class=__UpperCAmelCase , hidden_size=37 ) def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : Dict , __UpperCAmelCase : int , __UpperCAmelCase : str=False ) ->Optional[int]: """simple docstring""" a = copy.deepcopy(__UpperCAmelCase ) if model_class in get_values(__UpperCAmelCase ): a = { k: v.unsqueeze(1 ).expand(-1 , self.model_tester.num_choices , -1 ).contiguous() if isinstance(__UpperCAmelCase , torch.Tensor ) and v.ndim > 1 else v for k, v in inputs_dict.items() } if return_labels: if model_class in get_values(__UpperCAmelCase ): a = torch.ones(self.model_tester.batch_size , dtype=torch.long , device=__UpperCAmelCase ) elif model_class in get_values(__UpperCAmelCase ): a = torch.zeros( self.model_tester.batch_size , dtype=torch.long , device=__UpperCAmelCase ) a = torch.zeros( self.model_tester.batch_size , dtype=torch.long , device=__UpperCAmelCase ) elif model_class in [ *get_values(__UpperCAmelCase ), ]: a = torch.zeros( self.model_tester.batch_size , dtype=torch.long , device=__UpperCAmelCase ) elif model_class in [ *get_values(__UpperCAmelCase ), ]: a = torch.zeros( (self.model_tester.batch_size, self.model_tester.text_seq_length) , dtype=torch.long , device=__UpperCAmelCase , ) return inputs_dict def __lowerCAmelCase ( self : Dict ) ->Union[str, Any]: """simple docstring""" self.config_tester.run_common_tests() def __lowerCAmelCase ( self : Tuple ) ->Union[str, Any]: """simple docstring""" a = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->List[str]: """simple docstring""" a = self.model_tester.prepare_config_and_inputs() for type in ["absolute", "relative_key", "relative_key_query"]: a = type self.model_tester.create_and_check_model(*__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] ) ->str: """simple docstring""" a = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_sequence_classification(*__UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->Union[str, Any]: """simple docstring""" a = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_token_classification(*__UpperCAmelCase ) def __lowerCAmelCase ( self : int ) ->List[Any]: """simple docstring""" a = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_question_answering(*__UpperCAmelCase ) @slow def __lowerCAmelCase ( self : Optional[int] ) ->List[Any]: """simple docstring""" for model_name in LAYOUTLMV3_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: a = LayoutLMvaModel.from_pretrained(__UpperCAmelCase ) self.assertIsNotNone(__UpperCAmelCase ) def _a ( ) -> List[Any]: a = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' ) return image @require_torch class lowercase_ ( unittest.TestCase ): '''simple docstring''' @cached_property def __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" return LayoutLMvaImageProcessor(apply_ocr=__UpperCAmelCase ) if is_vision_available() else None @slow def __lowerCAmelCase ( self : Union[str, Any] ) ->Dict: """simple docstring""" a = LayoutLMvaModel.from_pretrained('''microsoft/layoutlmv3-base''' ).to(__UpperCAmelCase ) a = self.default_image_processor a = prepare_img() a = image_processor(images=__UpperCAmelCase , return_tensors='''pt''' ).pixel_values.to(__UpperCAmelCase ) a = torch.tensor([[1, 2]] ) a = torch.tensor([[1, 2, 3, 4], [5, 6, 7, 8]] ).unsqueeze(0 ) # forward pass a = model( input_ids=input_ids.to(__UpperCAmelCase ) , bbox=bbox.to(__UpperCAmelCase ) , pixel_values=pixel_values.to(__UpperCAmelCase ) , ) # verify the logits a = torch.Size((1, 199, 768) ) self.assertEqual(outputs.last_hidden_state.shape , __UpperCAmelCase ) a = torch.tensor( [[-0.0529, 0.3618, 0.1632], [-0.1587, -0.1667, -0.0400], [-0.1557, -0.1671, -0.0505]] ).to(__UpperCAmelCase ) self.assertTrue(torch.allclose(outputs.last_hidden_state[0, :3, :3] , __UpperCAmelCase , atol=1e-4 ) )

import argparse import json from collections import OrderedDict import torch from huggingface_hub import cached_download, hf_hub_url from transformers import AutoImageProcessor, CvtConfig, CvtForImageClassification def _a ( a :List[Any] ) -> Optional[int]: a = [] embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.weight""", F"""stage{idx}.patch_embed.proj.weight""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.bias""", F"""stage{idx}.patch_embed.proj.bias""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.weight""", F"""stage{idx}.patch_embed.norm.weight""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.bias""", F"""stage{idx}.patch_embed.norm.bias""", ) ) return embed def _a ( a :List[Any] , a :Optional[int] ) -> Dict: a = [] attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_q.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_q.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_k.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_k.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_v.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_v.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj.bias""", ) ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.weight""", F"""stage{idx}.blocks.{cnt}.mlp.fc1.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.bias""", F"""stage{idx}.blocks.{cnt}.mlp.fc1.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.weight""", F"""stage{idx}.blocks.{cnt}.mlp.fc2.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.bias""", F"""stage{idx}.blocks.{cnt}.mlp.fc2.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.weight""", F"""stage{idx}.blocks.{cnt}.norm1.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.bias""", F"""stage{idx}.blocks.{cnt}.norm1.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.weight""", F"""stage{idx}.blocks.{cnt}.norm2.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.bias""", F"""stage{idx}.blocks.{cnt}.norm2.bias""") ) return attention_weights def _a ( a :Any ) -> List[Any]: a = [] token.append((F"""cvt.encoder.stages.{idx}.cls_token""", '''stage2.cls_token''') ) return token def _a ( ) -> Optional[int]: a = [] head.append(('''layernorm.weight''', '''norm.weight''') ) head.append(('''layernorm.bias''', '''norm.bias''') ) head.append(('''classifier.weight''', '''head.weight''') ) head.append(('''classifier.bias''', '''head.bias''') ) return head def _a ( a :Tuple , a :Optional[int] , a :List[Any] , a :Union[str, Any] ) -> Optional[int]: a = '''imagenet-1k-id2label.json''' a = 1_000 a = '''huggingface/label-files''' a = num_labels a = json.load(open(cached_download(hf_hub_url(a , a , repo_type='''dataset''' ) ) , '''r''' ) ) a = {int(a ): v for k, v in idalabel.items()} a = idalabel a = {v: k for k, v in idalabel.items()} a = a = CvtConfig(num_labels=a , idalabel=a , labelaid=a ) # For depth size 13 (13 = 1+2+10) if cvt_model.rsplit('''/''' , 1 )[-1][4:6] == "13": a = [1, 2, 10] # For depth size 21 (21 = 1+4+16) elif cvt_model.rsplit('''/''' , 1 )[-1][4:6] == "21": a = [1, 4, 16] # For wide cvt (similar to wide-resnet) depth size 24 (w24 = 2 + 2 20) else: a = [2, 2, 20] a = [3, 12, 16] a = [192, 768, 1_024] a = CvtForImageClassification(a ) a = AutoImageProcessor.from_pretrained('''facebook/convnext-base-224-22k-1k''' ) a = image_size a = torch.load(a , map_location=torch.device('''cpu''' ) ) a = OrderedDict() a = [] for idx in range(len(config.depth ) ): if config.cls_token[idx]: a = list_of_state_dict + cls_token(a ) a = list_of_state_dict + embeddings(a ) for cnt in range(config.depth[idx] ): a = list_of_state_dict + attention(a , a ) a = list_of_state_dict + final() for gg in list_of_state_dict: print(a ) for i in range(len(a ) ): a = original_weights[list_of_state_dict[i][1]] model.load_state_dict(a ) model.save_pretrained(a ) image_processor.save_pretrained(a ) # Download the weights from zoo: https://1drv.ms/u/s!AhIXJn_J-blW9RzF3rMW7SsLHa8h?e=blQ0Al if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() parser.add_argument( "--cvt_model", default="cvt-w24", type=str, help="Name of the cvt model you'd like to convert.", ) parser.add_argument( "--image_size", default=384, type=int, help="Input Image Size", ) parser.add_argument( "--cvt_file_name", default=R"cvtmodels\CvT-w24-384x384-IN-22k.pth", type=str, help="Input Image Size", ) parser.add_argument( "--pytorch_dump_folder_path", default=None, type=str, help="Path to the output PyTorch model directory." ) UpperCAmelCase__ = parser.parse_args() convert_cvt_checkpoint(args.cvt_model, args.image_size, args.cvt_file_name, args.pytorch_dump_folder_path)

from ...configuration_utils import PretrainedConfig from ...utils import logging from ...utils.backbone_utils import BackboneConfigMixin, get_aligned_output_features_output_indices UpperCAmelCase__ = logging.get_logger(__name__) class lowercase_ ( lowercase , lowercase ): '''simple docstring''' __snake_case = '''maskformer-swin''' __snake_case = { '''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers''', } def __init__( self : Dict , __UpperCAmelCase : Tuple=224 , __UpperCAmelCase : Tuple=4 , __UpperCAmelCase : int=3 , __UpperCAmelCase : Optional[Any]=96 , __UpperCAmelCase : Tuple=[2, 2, 6, 2] , __UpperCAmelCase : Optional[Any]=[3, 6, 12, 24] , __UpperCAmelCase : Dict=7 , __UpperCAmelCase : Tuple=4.0 , __UpperCAmelCase : Tuple=True , __UpperCAmelCase : Tuple=0.0 , __UpperCAmelCase : Optional[Any]=0.0 , __UpperCAmelCase : Union[str, Any]=0.1 , __UpperCAmelCase : str="gelu" , __UpperCAmelCase : Tuple=False , __UpperCAmelCase : List[str]=0.02 , __UpperCAmelCase : List[Any]=1e-5 , __UpperCAmelCase : int=None , __UpperCAmelCase : str=None , **__UpperCAmelCase : str , ) ->List[str]: """simple docstring""" super().__init__(**__UpperCAmelCase ) a = image_size a = patch_size a = num_channels a = embed_dim a = depths a = len(__UpperCAmelCase ) a = num_heads a = window_size a = mlp_ratio a = qkv_bias a = hidden_dropout_prob a = attention_probs_dropout_prob a = drop_path_rate a = hidden_act a = use_absolute_embeddings a = layer_norm_eps a = initializer_range # we set the hidden_size attribute in order to make Swin work with VisionEncoderDecoderModel # this indicates the channel dimension after the last stage of the model a = int(embed_dim * 2 ** (len(__UpperCAmelCase ) - 1) ) a = ['''stem'''] + [F"""stage{idx}""" for idx in range(1 , len(__UpperCAmelCase ) + 1 )] a , a = get_aligned_output_features_output_indices( out_features=__UpperCAmelCase , out_indices=__UpperCAmelCase , stage_names=self.stage_names )

from __future__ import annotations UpperCAmelCase__ = list[list[int]] # assigning initial values to the grid UpperCAmelCase__ = [ [3, 0, 6, 5, 0, 8, 4, 0, 0], [5, 2, 0, 0, 0, 0, 0, 0, 0], [0, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] # a grid with no solution UpperCAmelCase__ = [ [5, 0, 6, 5, 0, 8, 4, 0, 3], [5, 2, 0, 0, 0, 0, 0, 0, 2], [1, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] def _a ( a :Matrix , a :int , a :int , a :int ) -> bool: for i in range(9 ): if grid[row][i] == n or grid[i][column] == n: return False for i in range(3 ): for j in range(3 ): if grid[(row - row % 3) + i][(column - column % 3) + j] == n: return False return True def _a ( a :Matrix ) -> tuple[int, int] | None: for i in range(9 ): for j in range(9 ): if grid[i][j] == 0: return i, j return None def _a ( a :Matrix ) -> Matrix | None: if location := find_empty_location(a ): a , a = location else: # If the location is ``None``, then the grid is solved. return grid for digit in range(1 , 10 ): if is_safe(a , a , a , a ): a = digit if sudoku(a ) is not None: return grid a = 0 return None def _a ( a :Matrix ) -> None: for row in grid: for cell in row: print(a , end=''' ''' ) print() if __name__ == "__main__": # make a copy of grid so that you can compare with the unmodified grid for example_grid in (initial_grid, no_solution): print("\nExample grid:\n" + "=" * 20) print_solution(example_grid) print("\nExample grid solution:") UpperCAmelCase__ = sudoku(example_grid) if solution is not None: print_solution(solution) else: print("Cannot find a solution.")

from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "google/canine-s": "https://huggingface.co/google/canine-s/resolve/main/config.json", # See all CANINE models at https://huggingface.co/models?filter=canine } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''canine''' def __init__( self : List[str] , __UpperCAmelCase : List[Any]=768 , __UpperCAmelCase : Optional[int]=12 , __UpperCAmelCase : List[str]=12 , __UpperCAmelCase : Dict=3_072 , __UpperCAmelCase : Dict="gelu" , __UpperCAmelCase : Tuple=0.1 , __UpperCAmelCase : str=0.1 , __UpperCAmelCase : List[Any]=16_384 , __UpperCAmelCase : int=16 , __UpperCAmelCase : List[str]=0.02 , __UpperCAmelCase : Union[str, Any]=1e-1_2 , __UpperCAmelCase : Tuple=0 , __UpperCAmelCase : Any=0xe_000 , __UpperCAmelCase : List[Any]=0xe_001 , __UpperCAmelCase : str=4 , __UpperCAmelCase : Any=4 , __UpperCAmelCase : int=8 , __UpperCAmelCase : Optional[int]=16_384 , __UpperCAmelCase : List[str]=128 , **__UpperCAmelCase : Union[str, Any] , ) ->Optional[Any]: """simple docstring""" super().__init__(pad_token_id=__UpperCAmelCase , bos_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , **__UpperCAmelCase ) a = max_position_embeddings a = hidden_size a = num_hidden_layers a = num_attention_heads a = intermediate_size a = hidden_act a = hidden_dropout_prob a = attention_probs_dropout_prob a = initializer_range a = type_vocab_size a = layer_norm_eps # Character config: a = downsampling_rate a = upsampling_kernel_size a = num_hash_functions a = num_hash_buckets a = local_transformer_stride

import unittest import numpy as np import torch from torch import nn from transformers import ( CLIPImageProcessor, CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer, CLIPVisionConfig, CLIPVisionModelWithProjection, ) from diffusers import KandinskyVaaPriorPipeline, PriorTransformer, UnCLIPScheduler from diffusers.utils import torch_device from diffusers.utils.testing_utils import enable_full_determinism, skip_mps from ..test_pipelines_common import PipelineTesterMixin enable_full_determinism() class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = KandinskyVaaPriorPipeline __snake_case = ['''prompt'''] __snake_case = ['''prompt''', '''negative_prompt'''] __snake_case = [ '''num_images_per_prompt''', '''generator''', '''num_inference_steps''', '''latents''', '''negative_prompt''', '''guidance_scale''', '''output_type''', '''return_dict''', ] __snake_case = False @property def __lowerCAmelCase ( self : Optional[Any] ) ->Union[str, Any]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Dict ) ->Any: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : int ) ->List[str]: """simple docstring""" return self.time_input_dim @property def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" return self.time_input_dim * 4 @property def __lowerCAmelCase ( self : Any ) ->List[Any]: """simple docstring""" return 100 @property def __lowerCAmelCase ( self : List[Any] ) ->str: """simple docstring""" a = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) return tokenizer @property def __lowerCAmelCase ( self : Tuple ) ->str: """simple docstring""" torch.manual_seed(0 ) a = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1e-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__UpperCAmelCase ) @property def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" torch.manual_seed(0 ) a = { '''num_attention_heads''': 2, '''attention_head_dim''': 12, '''embedding_dim''': self.text_embedder_hidden_size, '''num_layers''': 1, } a = PriorTransformer(**__UpperCAmelCase ) # clip_std and clip_mean is initialized to be 0 so PriorTransformer.post_process_latents will always return 0 - set clip_std to be 1 so it won't return 0 a = nn.Parameter(torch.ones(model.clip_std.shape ) ) return model @property def __lowerCAmelCase ( self : Optional[int] ) ->List[Any]: """simple docstring""" torch.manual_seed(0 ) a = CLIPVisionConfig( hidden_size=self.text_embedder_hidden_size , image_size=224 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=14 , ) a = CLIPVisionModelWithProjection(__UpperCAmelCase ) return model @property def __lowerCAmelCase ( self : Tuple ) ->int: """simple docstring""" a = CLIPImageProcessor( crop_size=224 , do_center_crop=__UpperCAmelCase , do_normalize=__UpperCAmelCase , do_resize=__UpperCAmelCase , image_mean=[0.48145466, 0.4578275, 0.40821073] , image_std=[0.26862954, 0.26130258, 0.27577711] , resample=3 , size=224 , ) return image_processor def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = self.dummy_prior a = self.dummy_image_encoder a = self.dummy_text_encoder a = self.dummy_tokenizer a = self.dummy_image_processor a = UnCLIPScheduler( variance_type='''fixed_small_log''' , prediction_type='''sample''' , num_train_timesteps=1_000 , clip_sample=__UpperCAmelCase , clip_sample_range=10.0 , ) a = { '''prior''': prior, '''image_encoder''': image_encoder, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''scheduler''': scheduler, '''image_processor''': image_processor, } return components def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : str=0 ) ->int: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''prompt''': '''horse''', '''generator''': generator, '''guidance_scale''': 4.0, '''num_inference_steps''': 2, '''output_type''': '''np''', } return inputs def __lowerCAmelCase ( self : str ) ->Tuple: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = pipe(**self.get_dummy_inputs(__UpperCAmelCase ) ) a = output.image_embeds a = pipe( **self.get_dummy_inputs(__UpperCAmelCase ) , return_dict=__UpperCAmelCase , )[0] a = image[0, -10:] a = image_from_tuple[0, -10:] assert image.shape == (1, 32) a = np.array( [-0.0532, 1.7120, 0.3656, -1.0852, -0.8946, -1.1756, 0.4348, 0.2482, 0.5146, -0.1156] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1e-2 @skip_mps def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = torch_device == '''cpu''' a = True a = False self._test_inference_batch_single_identical( test_max_difference=__UpperCAmelCase , relax_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , ) @skip_mps def __lowerCAmelCase ( self : List[str] ) ->Union[str, Any]: """simple docstring""" a = torch_device == '''cpu''' a = False self._test_attention_slicing_forward_pass( test_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , )

import collections import importlib.util import os import re from pathlib import Path UpperCAmelCase__ = "src/transformers" # Matches is_xxx_available() UpperCAmelCase__ = re.compile(R"is\_([a-z_]*)_available()") # Catches a one-line _import_struct = {xxx} UpperCAmelCase__ = re.compile(R"^_import_structure\s+=\s+\{([^\}]+)\}") # Catches a line with a key-values pattern: "bla": ["foo", "bar"] UpperCAmelCase__ = re.compile(R"\s+\"\S*\":\s+\[([^\]]*)\]") # Catches a line if not is_foo_available UpperCAmelCase__ = re.compile(R"^\s*if\s+not\s+is\_[a-z_]*\_available\(\)") # Catches a line _import_struct["bla"].append("foo") UpperCAmelCase__ = re.compile(R"^\s*_import_structure\[\"\S*\"\]\.append\(\"(\S*)\"\)") # Catches a line _import_struct["bla"].extend(["foo", "bar"]) or _import_struct["bla"] = ["foo", "bar"] UpperCAmelCase__ = re.compile(R"^\s*_import_structure\[\S*\](?:\.extend\(|\s*=\s+)\[([^\]]*)\]") # Catches a line with an object between quotes and a comma: "MyModel", UpperCAmelCase__ = re.compile("^\s+\"([^\"]+)\",") # Catches a line with objects between brackets only: ["foo", "bar"], UpperCAmelCase__ = re.compile("^\s+\[([^\]]+)\]") # Catches a line with from foo import bar, bla, boo UpperCAmelCase__ = re.compile(R"\s+from\s+\S*\s+import\s+([^\(\s].*)\n") # Catches a line with try: UpperCAmelCase__ = re.compile(R"^\s*try:") # Catches a line with else: UpperCAmelCase__ = re.compile(R"^\s*else:") def _a ( a :Optional[Any] ) -> Dict: if _re_test_backend.search(a ) is None: return None a = [b[0] for b in _re_backend.findall(a )] backends.sort() return "_and_".join(a ) def _a ( a :int ) -> Union[str, Any]: with open(a , '''r''' , encoding='''utf-8''' , newline='''\n''' ) as f: a = f.readlines() a = 0 while line_index < len(a ) and not lines[line_index].startswith('''_import_structure = {''' ): line_index += 1 # If this is a traditional init, just return. if line_index >= len(a ): return None # First grab the objects without a specific backend in _import_structure a = [] while not lines[line_index].startswith('''if TYPE_CHECKING''' ) and find_backend(lines[line_index] ) is None: a = lines[line_index] # If we have everything on a single line, let's deal with it. if _re_one_line_import_struct.search(a ): a = _re_one_line_import_struct.search(a ).groups()[0] a = re.findall('''\[([^\]]+)\]''' , a ) for imp in imports: objects.extend([obj[1:-1] for obj in imp.split(''', ''' )] ) line_index += 1 continue a = _re_import_struct_key_value.search(a ) if single_line_import_search is not None: a = [obj[1:-1] for obj in single_line_import_search.groups()[0].split(''', ''' ) if len(a ) > 0] objects.extend(a ) elif line.startswith(''' ''' * 8 + '''"''' ): objects.append(line[9:-3] ) line_index += 1 a = {'''none''': objects} # Let's continue with backend-specific objects in _import_structure while not lines[line_index].startswith('''if TYPE_CHECKING''' ): # If the line is an if not is_backend_available, we grab all objects associated. a = find_backend(lines[line_index] ) # Check if the backend declaration is inside a try block: if _re_try.search(lines[line_index - 1] ) is None: a = None if backend is not None: line_index += 1 # Scroll until we hit the else block of try-except-else while _re_else.search(lines[line_index] ) is None: line_index += 1 line_index += 1 a = [] # Until we unindent, add backend objects to the list while len(lines[line_index] ) <= 1 or lines[line_index].startswith(''' ''' * 4 ): a = lines[line_index] if _re_import_struct_add_one.search(a ) is not None: objects.append(_re_import_struct_add_one.search(a ).groups()[0] ) elif _re_import_struct_add_many.search(a ) is not None: a = _re_import_struct_add_many.search(a ).groups()[0].split(''', ''' ) a = [obj[1:-1] for obj in imports if len(a ) > 0] objects.extend(a ) elif _re_between_brackets.search(a ) is not None: a = _re_between_brackets.search(a ).groups()[0].split(''', ''' ) a = [obj[1:-1] for obj in imports if len(a ) > 0] objects.extend(a ) elif _re_quote_object.search(a ) is not None: objects.append(_re_quote_object.search(a ).groups()[0] ) elif line.startswith(''' ''' * 8 + '''"''' ): objects.append(line[9:-3] ) elif line.startswith(''' ''' * 12 + '''"''' ): objects.append(line[13:-3] ) line_index += 1 a = objects else: line_index += 1 # At this stage we are in the TYPE_CHECKING part, first grab the objects without a specific backend a = [] while ( line_index < len(a ) and find_backend(lines[line_index] ) is None and not lines[line_index].startswith('''else''' ) ): a = lines[line_index] a = _re_import.search(a ) if single_line_import_search is not None: objects.extend(single_line_import_search.groups()[0].split(''', ''' ) ) elif line.startswith(''' ''' * 8 ): objects.append(line[8:-2] ) line_index += 1 a = {'''none''': objects} # Let's continue with backend-specific objects while line_index < len(a ): # If the line is an if is_backend_available, we grab all objects associated. a = find_backend(lines[line_index] ) # Check if the backend declaration is inside a try block: if _re_try.search(lines[line_index - 1] ) is None: a = None if backend is not None: line_index += 1 # Scroll until we hit the else block of try-except-else while _re_else.search(lines[line_index] ) is None: line_index += 1 line_index += 1 a = [] # Until we unindent, add backend objects to the list while len(lines[line_index] ) <= 1 or lines[line_index].startswith(''' ''' * 8 ): a = lines[line_index] a = _re_import.search(a ) if single_line_import_search is not None: objects.extend(single_line_import_search.groups()[0].split(''', ''' ) ) elif line.startswith(''' ''' * 12 ): objects.append(line[12:-2] ) line_index += 1 a = objects else: line_index += 1 return import_dict_objects, type_hint_objects def _a ( a :str , a :Optional[Any] ) -> Tuple: def find_duplicates(a :Optional[int] ): return [k for k, v in collections.Counter(a ).items() if v > 1] if list(import_dict_objects.keys() ) != list(type_hint_objects.keys() ): return ["Both sides of the init do not have the same backends!"] a = [] for key in import_dict_objects.keys(): a = find_duplicates(import_dict_objects[key] ) if duplicate_imports: errors.append(F"""Duplicate _import_structure definitions for: {duplicate_imports}""" ) a = find_duplicates(type_hint_objects[key] ) if duplicate_type_hints: errors.append(F"""Duplicate TYPE_CHECKING objects for: {duplicate_type_hints}""" ) if sorted(set(import_dict_objects[key] ) ) != sorted(set(type_hint_objects[key] ) ): a = '''base imports''' if key == '''none''' else F"""{key} backend""" errors.append(F"""Differences for {name}:""" ) for a in type_hint_objects[key]: if a not in import_dict_objects[key]: errors.append(F""" {a} in TYPE_HINT but not in _import_structure.""" ) for a in import_dict_objects[key]: if a not in type_hint_objects[key]: errors.append(F""" {a} in _import_structure but not in TYPE_HINT.""" ) return errors def _a ( ) -> Any: a = [] for root, _, files in os.walk(a ): if "__init__.py" in files: a = os.path.join(a , '''__init__.py''' ) a = parse_init(a ) if objects is not None: a = analyze_results(*a ) if len(a ) > 0: a = F"""Problem in {fname}, both halves do not define the same objects.\n{errors[0]}""" failures.append('''\n'''.join(a ) ) if len(a ) > 0: raise ValueError('''\n\n'''.join(a ) ) def _a ( ) -> int: a = [] for path, directories, files in os.walk(a ): for folder in directories: # Ignore private modules if folder.startswith('''_''' ): directories.remove(a ) continue # Ignore leftovers from branches (empty folders apart from pycache) if len(list((Path(a ) / folder).glob('''*.py''' ) ) ) == 0: continue a = str((Path(a ) / folder).relative_to(a ) ) a = short_path.replace(os.path.sep , '''.''' ) submodules.append(a ) for fname in files: if fname == "__init__.py": continue a = str((Path(a ) / fname).relative_to(a ) ) a = short_path.replace('''.py''' , '''''' ).replace(os.path.sep , '''.''' ) if len(submodule.split('''.''' ) ) == 1: submodules.append(a ) return submodules UpperCAmelCase__ = [ "convert_pytorch_checkpoint_to_tf2", "modeling_flax_pytorch_utils", ] def _a ( ) -> Any: # This is to make sure the transformers module imported is the one in the repo. a = importlib.util.spec_from_file_location( '''transformers''' , os.path.join(a , '''__init__.py''' ) , submodule_search_locations=[PATH_TO_TRANSFORMERS] , ) a = spec.loader.load_module() a = [ module for module in get_transformers_submodules() if module not in IGNORE_SUBMODULES and module not in transformers._import_structure.keys() ] if len(a ) > 0: a = '''\n'''.join(F"""- {module}""" for module in module_not_registered ) raise ValueError( '''The following submodules are not properly registered in the main init of Transformers:\n''' F"""{list_of_modules}\n""" '''Make sure they appear somewhere in the keys of `_import_structure` with an empty list as value.''' ) if __name__ == "__main__": check_all_inits() check_submodules()

from math import factorial UpperCAmelCase__ = {str(digit): factorial(digit) for digit in range(10)} def _a ( a :int ) -> int: if not isinstance(a , a ): raise TypeError('''Parameter number must be int''' ) if number < 0: raise ValueError('''Parameter number must be greater than or equal to 0''' ) # Converts number in string to iterate on its digits and adds its factorial. return sum(DIGIT_FACTORIAL[digit] for digit in str(a ) ) def _a ( a :int = 60 , a :int = 1_000_000 ) -> int: if not isinstance(a , a ) or not isinstance(a , a ): raise TypeError('''Parameters chain_length and number_limit must be int''' ) if chain_length <= 0 or number_limit <= 0: raise ValueError( '''Parameters chain_length and number_limit must be greater than 0''' ) # the counter for the chains with the exact desired length a = 0 # the cached sizes of the previous chains a = {} for start_chain_element in range(1 , a ): # The temporary set will contain the elements of the chain a = set() a = 0 # Stop computing the chain when you find a cached size, a repeating item or the # length is greater then the desired one. a = start_chain_element while ( chain_element not in chain_sets_lengths and chain_element not in chain_set and chain_set_length <= chain_length ): chain_set.add(a ) chain_set_length += 1 a = digit_factorial_sum(a ) if chain_element in chain_sets_lengths: chain_set_length += chain_sets_lengths[chain_element] a = chain_set_length # If chain contains the exact amount of elements increase the counter if chain_set_length == chain_length: chains_counter += 1 return chains_counter if __name__ == "__main__": import doctest doctest.testmod() print(f"""{solution()}""")

def _a ( a :int ) -> bool: a = n ** (1 / 3) return (val * val * val) == n if __name__ == "__main__": print(perfect_cube(27)) print(perfect_cube(4))

def _a ( a :int = 100 ) -> int: a = n * (n + 1) * (2 * n + 1) / 6 a = (n * (n + 1) / 2) ** 2 return int(square_of_sum - sum_of_squares ) if __name__ == "__main__": print(f"""{solution() = }""")

from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "naver-clova-ix/donut-base": "https://huggingface.co/naver-clova-ix/donut-base/resolve/main/config.json", # See all Donut models at https://huggingface.co/models?filter=donut-swin } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''donut-swin''' __snake_case = { '''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers''', } def __init__( self : List[str] , __UpperCAmelCase : Optional[Any]=224 , __UpperCAmelCase : Optional[int]=4 , __UpperCAmelCase : Any=3 , __UpperCAmelCase : Any=96 , __UpperCAmelCase : Optional[int]=[2, 2, 6, 2] , __UpperCAmelCase : List[Any]=[3, 6, 12, 24] , __UpperCAmelCase : Optional[Any]=7 , __UpperCAmelCase : List[Any]=4.0 , __UpperCAmelCase : List[Any]=True , __UpperCAmelCase : Any=0.0 , __UpperCAmelCase : Union[str, Any]=0.0 , __UpperCAmelCase : Any=0.1 , __UpperCAmelCase : Union[str, Any]="gelu" , __UpperCAmelCase : List[str]=False , __UpperCAmelCase : int=0.02 , __UpperCAmelCase : int=1e-5 , **__UpperCAmelCase : Tuple , ) ->int: """simple docstring""" super().__init__(**__UpperCAmelCase ) a = image_size a = patch_size a = num_channels a = embed_dim a = depths a = len(__UpperCAmelCase ) a = num_heads a = window_size a = mlp_ratio a = qkv_bias a = hidden_dropout_prob a = attention_probs_dropout_prob a = drop_path_rate a = hidden_act a = use_absolute_embeddings a = layer_norm_eps a = initializer_range # we set the hidden_size attribute in order to make Swin work with VisionEncoderDecoderModel # this indicates the channel dimension after the last stage of the model a = int(embed_dim * 2 ** (len(__UpperCAmelCase ) - 1) )

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available UpperCAmelCase__ = { "configuration_groupvit": [ "GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP", "GroupViTConfig", "GroupViTOnnxConfig", "GroupViTTextConfig", "GroupViTVisionConfig", ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST", "GroupViTModel", "GroupViTPreTrainedModel", "GroupViTTextModel", "GroupViTVisionModel", ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST", "TFGroupViTModel", "TFGroupViTPreTrainedModel", "TFGroupViTTextModel", "TFGroupViTVisionModel", ] if TYPE_CHECKING: from .configuration_groupvit import ( GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP, GroupViTConfig, GroupViTOnnxConfig, GroupViTTextConfig, GroupViTVisionConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_groupvit import ( GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST, GroupViTModel, GroupViTPreTrainedModel, GroupViTTextModel, GroupViTVisionModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_groupvit import ( TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST, TFGroupViTModel, TFGroupViTPreTrainedModel, TFGroupViTTextModel, TFGroupViTVisionModel, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

import collections.abc from typing import Optional, Tuple, Union import torch import torch.utils.checkpoint from torch import nn from torch.nn import BCEWithLogitsLoss, CrossEntropyLoss, MSELoss from ...activations import ACTaFN from ...modeling_outputs import BaseModelOutputWithNoAttention, ImageClassifierOutputWithNoAttention from ...modeling_utils import PreTrainedModel from ...utils import add_code_sample_docstrings, add_start_docstrings, add_start_docstrings_to_model_forward, logging from .configuration_poolformer import PoolFormerConfig UpperCAmelCase__ = logging.get_logger(__name__) # General docstring UpperCAmelCase__ = "PoolFormerConfig" # Base docstring UpperCAmelCase__ = "sail/poolformer_s12" UpperCAmelCase__ = [1, 512, 7, 7] # Image classification docstring UpperCAmelCase__ = "sail/poolformer_s12" UpperCAmelCase__ = "tabby, tabby cat" UpperCAmelCase__ = [ "sail/poolformer_s12", # See all PoolFormer models at https://huggingface.co/models?filter=poolformer ] def _a ( a :Dict , a :float = 0.0 , a :bool = False ) -> Optional[Any]: if drop_prob == 0.0 or not training: return input a = 1 - drop_prob a = (input.shape[0],) + (1,) * (input.ndim - 1) # work with diff dim tensors, not just 2D ConvNets a = keep_prob + torch.rand(a , dtype=input.dtype , device=input.device ) random_tensor.floor_() # binarize a = input.div(a ) * random_tensor return output class lowercase_ ( nn.Module ): '''simple docstring''' def __init__( self : int , __UpperCAmelCase : Optional[float] = None ) ->None: """simple docstring""" super().__init__() a = drop_prob def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : torch.Tensor ) ->torch.Tensor: """simple docstring""" return drop_path(__UpperCAmelCase , self.drop_prob , self.training ) def __lowerCAmelCase ( self : int ) ->str: """simple docstring""" return "p={}".format(self.drop_prob ) class lowercase_ ( nn.Module ): '''simple docstring''' def __init__( self : List[Any] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : str , __UpperCAmelCase : str , __UpperCAmelCase : int , __UpperCAmelCase : Any=None ) ->int: """simple docstring""" super().__init__() a = patch_size if isinstance(__UpperCAmelCase , collections.abc.Iterable ) else (patch_size, patch_size) a = stride if isinstance(__UpperCAmelCase , collections.abc.Iterable ) else (stride, stride) a = padding if isinstance(__UpperCAmelCase , collections.abc.Iterable ) else (padding, padding) a = nn.Convad(__UpperCAmelCase , __UpperCAmelCase , kernel_size=__UpperCAmelCase , stride=__UpperCAmelCase , padding=__UpperCAmelCase ) a = norm_layer(__UpperCAmelCase ) if norm_layer else nn.Identity() def __lowerCAmelCase ( self : int , __UpperCAmelCase : Optional[int] ) ->List[str]: """simple docstring""" a = self.projection(__UpperCAmelCase ) a = self.norm(__UpperCAmelCase ) return embeddings class lowercase_ ( nn.GroupNorm ): '''simple docstring''' def __init__( self : List[Any] , __UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Union[str, Any] ) ->Dict: """simple docstring""" super().__init__(1 , __UpperCAmelCase , **__UpperCAmelCase ) class lowercase_ ( nn.Module ): '''simple docstring''' def __init__( self : int , __UpperCAmelCase : Optional[Any] ) ->List[Any]: """simple docstring""" super().__init__() a = nn.AvgPoolad(__UpperCAmelCase , stride=1 , padding=pool_size // 2 , count_include_pad=__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : List[str] ) ->Union[str, Any]: """simple docstring""" return self.pool(__UpperCAmelCase ) - hidden_states class lowercase_ ( nn.Module ): '''simple docstring''' def __init__( self : Dict , __UpperCAmelCase : Dict , __UpperCAmelCase : List[str] , __UpperCAmelCase : int , __UpperCAmelCase : Dict ) ->List[Any]: """simple docstring""" super().__init__() a = nn.Convad(__UpperCAmelCase , __UpperCAmelCase , 1 ) a = nn.Convad(__UpperCAmelCase , __UpperCAmelCase , 1 ) a = PoolFormerDropPath(__UpperCAmelCase ) if isinstance(config.hidden_act , __UpperCAmelCase ): a = ACTaFN[config.hidden_act] else: a = config.hidden_act def __lowerCAmelCase ( self : int , __UpperCAmelCase : Optional[int] ) ->List[Any]: """simple docstring""" a = self.conva(__UpperCAmelCase ) a = self.act_fn(__UpperCAmelCase ) a = self.drop(__UpperCAmelCase ) a = self.conva(__UpperCAmelCase ) a = self.drop(__UpperCAmelCase ) return hidden_states class lowercase_ ( nn.Module ): '''simple docstring''' def __init__( self : int , __UpperCAmelCase : str , __UpperCAmelCase : Dict , __UpperCAmelCase : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : Tuple , __UpperCAmelCase : Tuple ) ->int: """simple docstring""" super().__init__() a = PoolFormerPooling(__UpperCAmelCase ) a = PoolFormerOutput(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) a = PoolFormerGroupNorm(__UpperCAmelCase ) a = PoolFormerGroupNorm(__UpperCAmelCase ) # Useful for training neural nets a = PoolFormerDropPath(__UpperCAmelCase ) if drop_path > 0.0 else nn.Identity() a = config.use_layer_scale if config.use_layer_scale: a = nn.Parameter( config.layer_scale_init_value * torch.ones((__UpperCAmelCase) ) , requires_grad=__UpperCAmelCase ) a = nn.Parameter( config.layer_scale_init_value * torch.ones((__UpperCAmelCase) ) , requires_grad=__UpperCAmelCase ) def __lowerCAmelCase ( self : Any , __UpperCAmelCase : Dict ) ->Any: """simple docstring""" if self.use_layer_scale: a = self.pooling(self.before_norm(__UpperCAmelCase ) ) a = self.layer_scale_a.unsqueeze(-1 ).unsqueeze(-1 ) * pooling_output # First residual connection a = hidden_states + self.drop_path(__UpperCAmelCase ) a = () a = self.output(self.after_norm(__UpperCAmelCase ) ) a = self.layer_scale_a.unsqueeze(-1 ).unsqueeze(-1 ) * layer_output # Second residual connection a = hidden_states + self.drop_path(__UpperCAmelCase ) a = (output,) + outputs return outputs else: a = self.drop_path(self.pooling(self.before_norm(__UpperCAmelCase ) ) ) # First residual connection a = pooling_output + hidden_states a = () # Second residual connection inside the PoolFormerOutput block a = self.drop_path(self.output(self.after_norm(__UpperCAmelCase ) ) ) a = hidden_states + layer_output a = (output,) + outputs return outputs class lowercase_ ( nn.Module ): '''simple docstring''' def __init__( self : List[Any] , __UpperCAmelCase : Optional[int] ) ->Dict: """simple docstring""" super().__init__() a = config # stochastic depth decay rule a = [x.item() for x in torch.linspace(0 , config.drop_path_rate , sum(config.depths ) )] # patch embeddings a = [] for i in range(config.num_encoder_blocks ): embeddings.append( PoolFormerEmbeddings( patch_size=config.patch_sizes[i] , stride=config.strides[i] , padding=config.padding[i] , num_channels=config.num_channels if i == 0 else config.hidden_sizes[i - 1] , hidden_size=config.hidden_sizes[i] , ) ) a = nn.ModuleList(__UpperCAmelCase ) # Transformer blocks a = [] a = 0 for i in range(config.num_encoder_blocks ): # each block consists of layers a = [] if i != 0: cur += config.depths[i - 1] for j in range(config.depths[i] ): layers.append( PoolFormerLayer( __UpperCAmelCase , num_channels=config.hidden_sizes[i] , pool_size=config.pool_size , hidden_size=config.hidden_sizes[i] , intermediate_size=int(config.hidden_sizes[i] * config.mlp_ratio ) , drop_path=dpr[cur + j] , ) ) blocks.append(nn.ModuleList(__UpperCAmelCase ) ) a = nn.ModuleList(__UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : str , __UpperCAmelCase : Optional[Any]=False , __UpperCAmelCase : Tuple=True ) ->Union[str, Any]: """simple docstring""" a = () if output_hidden_states else None a = pixel_values for idx, layers in enumerate(zip(self.patch_embeddings , self.block ) ): a , a = layers # Get patch embeddings from hidden_states a = embedding_layer(__UpperCAmelCase ) # Send the embeddings through the blocks for _, blk in enumerate(__UpperCAmelCase ): a = blk(__UpperCAmelCase ) a = layer_outputs[0] if output_hidden_states: a = all_hidden_states + (hidden_states,) if not return_dict: return tuple(v for v in [hidden_states, all_hidden_states] if v is not None ) return BaseModelOutputWithNoAttention(last_hidden_state=__UpperCAmelCase , hidden_states=__UpperCAmelCase ) class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = PoolFormerConfig __snake_case = '''poolformer''' __snake_case = '''pixel_values''' __snake_case = True def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : List[str] ) ->Optional[Any]: """simple docstring""" if isinstance(__UpperCAmelCase , (nn.Linear, nn.Convad) ): module.weight.data.normal_(mean=0.0 , std=self.config.initializer_range ) if module.bias is not None: module.bias.data.zero_() elif isinstance(__UpperCAmelCase , nn.LayerNorm ): module.bias.data.zero_() module.weight.data.fill_(1.0 ) def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Tuple , __UpperCAmelCase : Union[str, Any]=False ) ->int: """simple docstring""" if isinstance(__UpperCAmelCase , __UpperCAmelCase ): a = value UpperCAmelCase__ = R"\n This model is a PyTorch [torch.nn.Module](https://pytorch.org/docs/stable/nn.html#torch.nn.Module) sub-class. Use\n it as a regular PyTorch Module and refer to the PyTorch documentation for all matter related to general usage and\n behavior.\n\n Parameters:\n config ([`PoolFormerConfig`]): Model configuration class with all the parameters of the model.\n Initializing with a config file does not load the weights associated with the model, only the\n configuration. Check out the [`~PreTrainedModel.from_pretrained`] method to load the model weights.\n" UpperCAmelCase__ = R"\n Args:\n pixel_values (`torch.FloatTensor` of shape `(batch_size, num_channels, height, width)`):\n Pixel values. Pixel values can be obtained using [`AutoImageProcessor`]. See\n [`PoolFormerImageProcessor.__call__`] for details.\n" @add_start_docstrings( '''The bare PoolFormer Model transformer outputting raw hidden-states without any specific head on top.''' , lowercase , ) class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : str , __UpperCAmelCase : int ) ->Optional[Any]: """simple docstring""" super().__init__(__UpperCAmelCase ) a = config a = PoolFormerEncoder(__UpperCAmelCase ) # Initialize weights and apply final processing self.post_init() def __lowerCAmelCase ( self : Optional[int] ) ->Union[str, Any]: """simple docstring""" return self.embeddings.patch_embeddings @add_start_docstrings_to_model_forward(__UpperCAmelCase ) @add_code_sample_docstrings( checkpoint=_CHECKPOINT_FOR_DOC , output_type=__UpperCAmelCase , config_class=_CONFIG_FOR_DOC , modality='''vision''' , expected_output=_EXPECTED_OUTPUT_SHAPE , ) def __lowerCAmelCase ( self : str , __UpperCAmelCase : Optional[torch.FloatTensor] = None , __UpperCAmelCase : Optional[bool] = None , __UpperCAmelCase : Optional[bool] = None , ) ->Union[Tuple, BaseModelOutputWithNoAttention]: """simple docstring""" a = ( output_hidden_states if output_hidden_states is not None else self.config.output_hidden_states ) a = return_dict if return_dict is not None else self.config.use_return_dict if pixel_values is None: raise ValueError('''You have to specify pixel_values''' ) a = self.encoder( __UpperCAmelCase , output_hidden_states=__UpperCAmelCase , return_dict=__UpperCAmelCase , ) a = encoder_outputs[0] if not return_dict: return (sequence_output, None) + encoder_outputs[1:] return BaseModelOutputWithNoAttention( last_hidden_state=__UpperCAmelCase , hidden_states=encoder_outputs.hidden_states , ) class lowercase_ ( nn.Module ): '''simple docstring''' def __init__( self : Optional[int] , __UpperCAmelCase : Dict ) ->List[str]: """simple docstring""" super().__init__() a = nn.Linear(config.hidden_size , config.hidden_size ) def __lowerCAmelCase ( self : int , __UpperCAmelCase : Optional[Any] ) ->Union[str, Any]: """simple docstring""" a = self.dense(__UpperCAmelCase ) return output @add_start_docstrings( ''' PoolFormer Model transformer with an image classification head on top ''' , lowercase , ) class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : Union[str, Any] , __UpperCAmelCase : List[str] ) ->Any: """simple docstring""" super().__init__(__UpperCAmelCase ) a = config.num_labels a = PoolFormerModel(__UpperCAmelCase ) # Final norm a = PoolFormerGroupNorm(config.hidden_sizes[-1] ) # Classifier head a = ( nn.Linear(config.hidden_sizes[-1] , config.num_labels ) if config.num_labels > 0 else nn.Identity() ) # Initialize weights and apply final processing self.post_init() @add_start_docstrings_to_model_forward(__UpperCAmelCase ) @add_code_sample_docstrings( checkpoint=_IMAGE_CLASS_CHECKPOINT , output_type=__UpperCAmelCase , config_class=_CONFIG_FOR_DOC , expected_output=_IMAGE_CLASS_EXPECTED_OUTPUT , ) def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Optional[torch.FloatTensor] = None , __UpperCAmelCase : Optional[torch.LongTensor] = None , __UpperCAmelCase : Optional[bool] = None , __UpperCAmelCase : Optional[bool] = None , ) ->Union[Tuple, ImageClassifierOutputWithNoAttention]: """simple docstring""" a = return_dict if return_dict is not None else self.config.use_return_dict a = self.poolformer( __UpperCAmelCase , output_hidden_states=__UpperCAmelCase , return_dict=__UpperCAmelCase , ) a = outputs[0] a = self.classifier(self.norm(__UpperCAmelCase ).mean([-2, -1] ) ) a = None if labels is not None: if self.config.problem_type is None: if self.num_labels == 1: a = '''regression''' elif self.num_labels > 1 and (labels.dtype == torch.long or labels.dtype == torch.int): a = '''single_label_classification''' else: a = '''multi_label_classification''' if self.config.problem_type == "regression": a = MSELoss() if self.num_labels == 1: a = loss_fct(logits.squeeze() , labels.squeeze() ) else: a = loss_fct(__UpperCAmelCase , __UpperCAmelCase ) elif self.config.problem_type == "single_label_classification": a = CrossEntropyLoss() a = loss_fct(logits.view(-1 , self.num_labels ) , labels.view(-1 ) ) elif self.config.problem_type == "multi_label_classification": a = BCEWithLogitsLoss() a = loss_fct(__UpperCAmelCase , __UpperCAmelCase ) if not return_dict: a = (logits,) + outputs[2:] return ((loss,) + output) if loss is not None else output return ImageClassifierOutputWithNoAttention(loss=__UpperCAmelCase , logits=__UpperCAmelCase , hidden_states=outputs.hidden_states )

import gc import unittest import numpy as np import torch from transformers import CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer from diffusers import HeunDiscreteScheduler, PriorTransformer, ShapEPipeline from diffusers.pipelines.shap_e import ShapERenderer from diffusers.utils import load_numpy, slow from diffusers.utils.testing_utils import require_torch_gpu, torch_device from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ShapEPipeline __snake_case = ['''prompt'''] __snake_case = ['''prompt'''] __snake_case = [ '''num_images_per_prompt''', '''num_inference_steps''', '''generator''', '''latents''', '''guidance_scale''', '''frame_size''', '''output_type''', '''return_dict''', ] __snake_case = False @property def __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Any ) ->Tuple: """simple docstring""" return self.time_input_dim * 4 @property def __lowerCAmelCase ( self : Tuple ) ->Optional[Any]: """simple docstring""" return 8 @property def __lowerCAmelCase ( self : Tuple ) ->str: """simple docstring""" a = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) return tokenizer @property def __lowerCAmelCase ( self : Union[str, Any] ) ->List[Any]: """simple docstring""" torch.manual_seed(0 ) a = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1e-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__UpperCAmelCase ) @property def __lowerCAmelCase ( self : Dict ) ->Union[str, Any]: """simple docstring""" torch.manual_seed(0 ) a = { '''num_attention_heads''': 2, '''attention_head_dim''': 16, '''embedding_dim''': self.time_input_dim, '''num_embeddings''': 32, '''embedding_proj_dim''': self.text_embedder_hidden_size, '''time_embed_dim''': self.time_embed_dim, '''num_layers''': 1, '''clip_embed_dim''': self.time_input_dim * 2, '''additional_embeddings''': 0, '''time_embed_act_fn''': '''gelu''', '''norm_in_type''': '''layer''', '''encoder_hid_proj_type''': None, '''added_emb_type''': None, } a = PriorTransformer(**__UpperCAmelCase ) return model @property def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" torch.manual_seed(0 ) a = { '''param_shapes''': ( (self.renderer_dim, 93), (self.renderer_dim, 8), (self.renderer_dim, 8), (self.renderer_dim, 8), ), '''d_latent''': self.time_input_dim, '''d_hidden''': self.renderer_dim, '''n_output''': 12, '''background''': ( 0.1, 0.1, 0.1, ), } a = ShapERenderer(**__UpperCAmelCase ) return model def __lowerCAmelCase ( self : List[Any] ) ->Any: """simple docstring""" a = self.dummy_prior a = self.dummy_text_encoder a = self.dummy_tokenizer a = self.dummy_renderer a = HeunDiscreteScheduler( beta_schedule='''exp''' , num_train_timesteps=1_024 , prediction_type='''sample''' , use_karras_sigmas=__UpperCAmelCase , clip_sample=__UpperCAmelCase , clip_sample_range=1.0 , ) a = { '''prior''': prior, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''renderer''': renderer, '''scheduler''': scheduler, } return components def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : str=0 ) ->Optional[int]: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''prompt''': '''horse''', '''generator''': generator, '''num_inference_steps''': 1, '''frame_size''': 32, '''output_type''': '''np''', } return inputs def __lowerCAmelCase ( self : Dict ) ->Optional[int]: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = pipe(**self.get_dummy_inputs(__UpperCAmelCase ) ) a = output.images[0] a = image[0, -3:, -3:, -1] assert image.shape == (20, 32, 32, 3) a = np.array( [ 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, ] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 def __lowerCAmelCase ( self : Dict ) ->Optional[Any]: """simple docstring""" self._test_inference_batch_consistent(batch_sizes=[1, 2] ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = torch_device == '''cpu''' a = True self._test_inference_batch_single_identical( batch_size=2 , test_max_difference=__UpperCAmelCase , relax_max_difference=__UpperCAmelCase , ) def __lowerCAmelCase ( self : str ) ->Optional[int]: """simple docstring""" a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = 1 a = 2 a = self.get_dummy_inputs(__UpperCAmelCase ) for key in inputs.keys(): if key in self.batch_params: a = batch_size * [inputs[key]] a = pipe(**__UpperCAmelCase , num_images_per_prompt=__UpperCAmelCase )[0] assert images.shape[0] == batch_size * num_images_per_prompt @slow @require_torch_gpu class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : int ) ->Any: """simple docstring""" super().tearDown() gc.collect() torch.cuda.empty_cache() def __lowerCAmelCase ( self : List[Any] ) ->Union[str, Any]: """simple docstring""" a = load_numpy( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' '''/shap_e/test_shap_e_np_out.npy''' ) a = ShapEPipeline.from_pretrained('''openai/shap-e''' ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = torch.Generator(device=__UpperCAmelCase ).manual_seed(0 ) a = pipe( '''a shark''' , generator=__UpperCAmelCase , guidance_scale=15.0 , num_inference_steps=64 , frame_size=64 , output_type='''np''' , ).images[0] assert images.shape == (20, 64, 64, 3) assert_mean_pixel_difference(__UpperCAmelCase , __UpperCAmelCase )

from typing import Dict, List, Optional, Union import numpy as np from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import ( center_crop, get_resize_output_image_size, normalize, rescale, resize, to_channel_dimension_format, ) from ...image_utils import ( IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD, ChannelDimension, ImageInput, PILImageResampling, make_list_of_images, to_numpy_array, valid_images, ) from ...utils import TensorType, is_vision_available, logging if is_vision_available(): import PIL UpperCAmelCase__ = logging.get_logger(__name__) class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = ['''pixel_values'''] def __init__( self : str , __UpperCAmelCase : bool = True , __UpperCAmelCase : Dict[str, int] = None , __UpperCAmelCase : int = 0.9 , __UpperCAmelCase : PILImageResampling = PILImageResampling.BICUBIC , __UpperCAmelCase : bool = True , __UpperCAmelCase : Dict[str, int] = None , __UpperCAmelCase : Union[int, float] = 1 / 255 , __UpperCAmelCase : bool = True , __UpperCAmelCase : bool = True , __UpperCAmelCase : Optional[Union[float, List[float]]] = None , __UpperCAmelCase : Optional[Union[float, List[float]]] = None , **__UpperCAmelCase : str , ) ->None: """simple docstring""" super().__init__(**__UpperCAmelCase ) a = size if size is not None else {'''shortest_edge''': 224} a = get_size_dict(__UpperCAmelCase , default_to_square=__UpperCAmelCase ) a = crop_size if crop_size is not None else {'''height''': 224, '''width''': 224} a = get_size_dict(__UpperCAmelCase , param_name='''crop_size''' ) a = do_resize a = size a = crop_pct a = resample a = do_center_crop a = crop_size a = do_rescale a = rescale_factor a = do_normalize a = image_mean if image_mean is not None else IMAGENET_DEFAULT_MEAN a = image_std if image_std is not None else IMAGENET_DEFAULT_STD def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : np.ndarray , __UpperCAmelCase : Dict[str, int] , __UpperCAmelCase : Optional[float] = None , __UpperCAmelCase : PILImageResampling = PILImageResampling.BICUBIC , __UpperCAmelCase : Optional[Union[str, ChannelDimension]] = None , **__UpperCAmelCase : List[Any] , ) ->np.ndarray: """simple docstring""" a = get_size_dict(__UpperCAmelCase , default_to_square=__UpperCAmelCase ) if "shortest_edge" not in size and ("height" not in size or "width" not in size): raise ValueError(F"""size must contain 'height' and 'width' or 'shortest_edge' as keys. Got {size.keys()}""" ) if crop_pct is not None: if "shortest_edge" in size: a = int(size['''shortest_edge'''] / crop_pct ) elif "height" in size and "width" in size: if size["height"] == size["width"]: a = int(size['''height'''] / crop_pct ) else: a = (int(size['''height'''] / crop_pct ), int(size['''width'''] / crop_pct )) else: raise ValueError('''Invalid size for resize: {}'''.format(__UpperCAmelCase ) ) a = get_resize_output_image_size(__UpperCAmelCase , size=__UpperCAmelCase , default_to_square=__UpperCAmelCase ) else: if "shortest_edge" in size: a = get_resize_output_image_size(__UpperCAmelCase , size=size['''shortest_edge'''] , default_to_square=__UpperCAmelCase ) elif "height" in size and "width" in size: a = (size['''height'''], size['''width''']) else: raise ValueError('''Invalid size for resize: {}'''.format(__UpperCAmelCase ) ) return resize(__UpperCAmelCase , size=__UpperCAmelCase , resample=__UpperCAmelCase , data_format=__UpperCAmelCase , **__UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : np.ndarray , __UpperCAmelCase : Dict[str, int] , __UpperCAmelCase : Optional[Union[str, ChannelDimension]] = None , **__UpperCAmelCase : Any , ) ->np.ndarray: """simple docstring""" a = get_size_dict(__UpperCAmelCase ) if "height" not in size or "width" not in size: raise ValueError(F"""size must contain 'height' and 'width' as keys. Got {size.keys()}""" ) return center_crop(__UpperCAmelCase , size=(size['''height'''], size['''width''']) , data_format=__UpperCAmelCase , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Union[str, Any] , __UpperCAmelCase : np.ndarray , __UpperCAmelCase : Union[int, float] , __UpperCAmelCase : Optional[Union[str, ChannelDimension]] = None , **__UpperCAmelCase : Tuple , ) ->Tuple: """simple docstring""" return rescale(__UpperCAmelCase , scale=__UpperCAmelCase , data_format=__UpperCAmelCase , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : np.ndarray , __UpperCAmelCase : Union[float, List[float]] , __UpperCAmelCase : Union[float, List[float]] , __UpperCAmelCase : Optional[Union[str, ChannelDimension]] = None , **__UpperCAmelCase : Optional[int] , ) ->np.ndarray: """simple docstring""" return normalize(__UpperCAmelCase , mean=__UpperCAmelCase , std=__UpperCAmelCase , data_format=__UpperCAmelCase , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : ImageInput , __UpperCAmelCase : bool = None , __UpperCAmelCase : Dict[str, int] = None , __UpperCAmelCase : int = None , __UpperCAmelCase : PILImageResampling = None , __UpperCAmelCase : bool = None , __UpperCAmelCase : Dict[str, int] = None , __UpperCAmelCase : bool = None , __UpperCAmelCase : float = None , __UpperCAmelCase : bool = None , __UpperCAmelCase : Optional[Union[float, List[float]]] = None , __UpperCAmelCase : Optional[Union[float, List[float]]] = None , __UpperCAmelCase : Optional[Union[str, TensorType]] = None , __UpperCAmelCase : ChannelDimension = ChannelDimension.FIRST , **__UpperCAmelCase : Tuple , ) ->PIL.Image.Image: """simple docstring""" a = do_resize if do_resize is not None else self.do_resize a = crop_pct if crop_pct is not None else self.crop_pct a = resample if resample is not None else self.resample a = do_center_crop if do_center_crop is not None else self.do_center_crop a = do_rescale if do_rescale is not None else self.do_rescale a = rescale_factor if rescale_factor is not None else self.rescale_factor a = do_normalize if do_normalize is not None else self.do_normalize a = image_mean if image_mean is not None else self.image_mean a = image_std if image_std is not None else self.image_std a = size if size is not None else self.size a = get_size_dict(__UpperCAmelCase , default_to_square=__UpperCAmelCase ) a = crop_size if crop_size is not None else self.crop_size a = get_size_dict(__UpperCAmelCase , param_name='''crop_size''' ) a = make_list_of_images(__UpperCAmelCase ) if not valid_images(__UpperCAmelCase ): raise ValueError( '''Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, ''' '''torch.Tensor, tf.Tensor or jax.ndarray.''' ) if do_resize and size is None or resample is None: raise ValueError('''Size and resample must be specified if do_resize is True.''' ) if do_center_crop and crop_pct is None: raise ValueError('''Crop_pct must be specified if do_center_crop is True.''' ) if do_rescale and rescale_factor is None: raise ValueError('''Rescale factor must be specified if do_rescale is True.''' ) if do_normalize and (image_mean is None or image_std is None): raise ValueError('''Image mean and std must be specified if do_normalize is True.''' ) # All transformations expect numpy arrays. a = [to_numpy_array(__UpperCAmelCase ) for image in images] if do_resize: a = [self.resize(image=__UpperCAmelCase , size=__UpperCAmelCase , crop_pct=__UpperCAmelCase , resample=__UpperCAmelCase ) for image in images] if do_center_crop: a = [self.center_crop(image=__UpperCAmelCase , size=__UpperCAmelCase ) for image in images] if do_rescale: a = [self.rescale(image=__UpperCAmelCase , scale=__UpperCAmelCase ) for image in images] if do_normalize: a = [self.normalize(image=__UpperCAmelCase , mean=__UpperCAmelCase , std=__UpperCAmelCase ) for image in images] a = [to_channel_dimension_format(__UpperCAmelCase , __UpperCAmelCase ) for image in images] a = {'''pixel_values''': images} return BatchFeature(data=__UpperCAmelCase , tensor_type=__UpperCAmelCase )

from __future__ import annotations import time import numpy as np UpperCAmelCase__ = [8, 5, 9, 7] UpperCAmelCase__ = [ [2, 0, 1, 1], [0, 1, 2, 1], [4, 0, 0, 3], [0, 2, 1, 0], [1, 0, 3, 0], ] UpperCAmelCase__ = [ [3, 2, 1, 4], [0, 2, 5, 2], [5, 1, 0, 5], [1, 5, 3, 0], [3, 0, 3, 3], ] class lowercase_ : '''simple docstring''' def __init__( self : Optional[int] , __UpperCAmelCase : list[int] , __UpperCAmelCase : list[list[int]] , __UpperCAmelCase : list[list[int]] , ) ->None: """simple docstring""" a = claim_vector a = allocated_resources_table a = maximum_claim_table def __lowerCAmelCase ( self : Any ) ->list[int]: """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 __lowerCAmelCase ( self : Optional[int] ) ->list[int]: """simple docstring""" return np.array(self.__claim_vector ) - np.array( self.__processes_resource_summation() ) def __lowerCAmelCase ( self : Union[str, Any] ) ->list[list[int]]: """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 __lowerCAmelCase ( self : Tuple ) ->dict[int, list[int]]: """simple docstring""" return {self.__need().index(__UpperCAmelCase ): i for i in self.__need()} def __lowerCAmelCase ( self : Optional[Any] , **__UpperCAmelCase : Any ) ->None: """simple docstring""" a = self.__need() a = self.__allocated_resources_table a = self.__available_resources() a = 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: a = False for each_need in need_list: a = True for index, need in enumerate(__UpperCAmelCase ): if need > available_resources[index]: a = False break if execution: a = 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: a = 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 a = 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 __lowerCAmelCase ( self : List[Any] ) ->Dict: """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()

import argparse import numpy as np import torch from transformers import SpeechTaHifiGan, SpeechTaHifiGanConfig, logging logging.set_verbosity_info() UpperCAmelCase__ = logging.get_logger("transformers.models.speecht5") def _a ( a :Any , a :List[str] , a :Tuple ) -> int: hf_model.apply_weight_norm() a = checkpoint['''input_conv.weight_g'''] a = checkpoint['''input_conv.weight_v'''] a = checkpoint['''input_conv.bias'''] for i in range(len(config.upsample_rates ) ): a = checkpoint[F"""upsamples.{i}.1.weight_g"""] a = checkpoint[F"""upsamples.{i}.1.weight_v"""] a = checkpoint[F"""upsamples.{i}.1.bias"""] for i in range(len(config.upsample_rates ) * len(config.resblock_kernel_sizes ) ): for j in range(len(config.resblock_dilation_sizes ) ): a = checkpoint[F"""blocks.{i}.convs1.{j}.1.weight_g"""] a = checkpoint[F"""blocks.{i}.convs1.{j}.1.weight_v"""] a = checkpoint[F"""blocks.{i}.convs1.{j}.1.bias"""] a = checkpoint[F"""blocks.{i}.convs2.{j}.1.weight_g"""] a = checkpoint[F"""blocks.{i}.convs2.{j}.1.weight_v"""] a = checkpoint[F"""blocks.{i}.convs2.{j}.1.bias"""] a = checkpoint['''output_conv.1.weight_g'''] a = checkpoint['''output_conv.1.weight_v'''] a = checkpoint['''output_conv.1.bias'''] hf_model.remove_weight_norm() @torch.no_grad() def _a ( a :Dict , a :int , a :Tuple , a :Dict=None , a :List[Any]=None , ) -> Optional[Any]: if config_path is not None: a = SpeechTaHifiGanConfig.from_pretrained(a ) else: a = SpeechTaHifiGanConfig() a = SpeechTaHifiGan(a ) a = torch.load(a ) load_weights(orig_checkpoint['''model''']['''generator'''] , a , a ) a = np.load(a ) a = stats[0].reshape(-1 ) a = stats[1].reshape(-1 ) a = torch.from_numpy(a ).float() a = torch.from_numpy(a ).float() model.save_pretrained(a ) if repo_id: print('''Pushing to the hub...''' ) model.push_to_hub(a ) if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() parser.add_argument("--checkpoint_path", required=True, default=None, type=str, help="Path to original checkpoint") parser.add_argument("--stats_path", required=True, default=None, type=str, help="Path to stats.npy file") parser.add_argument("--config_path", default=None, type=str, help="Path to hf config.json of model to convert") parser.add_argument( "--pytorch_dump_folder_path", required=True, default=None, type=str, help="Path to the output PyTorch model." ) parser.add_argument( "--push_to_hub", default=None, type=str, help="Where to upload the converted model on the 🤗 hub." ) UpperCAmelCase__ = parser.parse_args() convert_hifigan_checkpoint( args.checkpoint_path, args.stats_path, args.pytorch_dump_folder_path, args.config_path, args.push_to_hub, )

import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from .tokenization_electra import ElectraTokenizer UpperCAmelCase__ = {"vocab_file": "vocab.txt", "tokenizer_file": "tokenizer.json"} UpperCAmelCase__ = { "vocab_file": { "google/electra-small-generator": ( "https://huggingface.co/google/electra-small-generator/resolve/main/vocab.txt" ), "google/electra-base-generator": "https://huggingface.co/google/electra-base-generator/resolve/main/vocab.txt", "google/electra-large-generator": ( "https://huggingface.co/google/electra-large-generator/resolve/main/vocab.txt" ), "google/electra-small-discriminator": ( "https://huggingface.co/google/electra-small-discriminator/resolve/main/vocab.txt" ), "google/electra-base-discriminator": ( "https://huggingface.co/google/electra-base-discriminator/resolve/main/vocab.txt" ), "google/electra-large-discriminator": ( "https://huggingface.co/google/electra-large-discriminator/resolve/main/vocab.txt" ), }, "tokenizer_file": { "google/electra-small-generator": ( "https://huggingface.co/google/electra-small-generator/resolve/main/tokenizer.json" ), "google/electra-base-generator": ( "https://huggingface.co/google/electra-base-generator/resolve/main/tokenizer.json" ), "google/electra-large-generator": ( "https://huggingface.co/google/electra-large-generator/resolve/main/tokenizer.json" ), "google/electra-small-discriminator": ( "https://huggingface.co/google/electra-small-discriminator/resolve/main/tokenizer.json" ), "google/electra-base-discriminator": ( "https://huggingface.co/google/electra-base-discriminator/resolve/main/tokenizer.json" ), "google/electra-large-discriminator": ( "https://huggingface.co/google/electra-large-discriminator/resolve/main/tokenizer.json" ), }, } UpperCAmelCase__ = { "google/electra-small-generator": 512, "google/electra-base-generator": 512, "google/electra-large-generator": 512, "google/electra-small-discriminator": 512, "google/electra-base-discriminator": 512, "google/electra-large-discriminator": 512, } UpperCAmelCase__ = { "google/electra-small-generator": {"do_lower_case": True}, "google/electra-base-generator": {"do_lower_case": True}, "google/electra-large-generator": {"do_lower_case": True}, "google/electra-small-discriminator": {"do_lower_case": True}, "google/electra-base-discriminator": {"do_lower_case": True}, "google/electra-large-discriminator": {"do_lower_case": True}, } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = VOCAB_FILES_NAMES __snake_case = PRETRAINED_VOCAB_FILES_MAP __snake_case = PRETRAINED_INIT_CONFIGURATION __snake_case = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __snake_case = ElectraTokenizer def __init__( self : Dict , __UpperCAmelCase : int=None , __UpperCAmelCase : str=None , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : str="[UNK]" , __UpperCAmelCase : Any="[SEP]" , __UpperCAmelCase : str="[PAD]" , __UpperCAmelCase : Optional[Any]="[CLS]" , __UpperCAmelCase : Union[str, Any]="[MASK]" , __UpperCAmelCase : List[str]=True , __UpperCAmelCase : Tuple=None , **__UpperCAmelCase : Optional[int] , ) ->str: """simple docstring""" super().__init__( __UpperCAmelCase , tokenizer_file=__UpperCAmelCase , do_lower_case=__UpperCAmelCase , unk_token=__UpperCAmelCase , sep_token=__UpperCAmelCase , pad_token=__UpperCAmelCase , cls_token=__UpperCAmelCase , mask_token=__UpperCAmelCase , tokenize_chinese_chars=__UpperCAmelCase , strip_accents=__UpperCAmelCase , **__UpperCAmelCase , ) a = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get('''lowercase''' , __UpperCAmelCase ) != do_lower_case or normalizer_state.get('''strip_accents''' , __UpperCAmelCase ) != strip_accents or normalizer_state.get('''handle_chinese_chars''' , __UpperCAmelCase ) != tokenize_chinese_chars ): a = getattr(__UpperCAmelCase , normalizer_state.pop('''type''' ) ) a = do_lower_case a = strip_accents a = tokenize_chinese_chars a = normalizer_class(**__UpperCAmelCase ) a = do_lower_case def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : Tuple=None ) ->str: """simple docstring""" a = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) ->List[int]: """simple docstring""" a = [self.sep_token_id] a = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : Optional[str] = None ) ->Tuple[str]: """simple docstring""" a = self._tokenizer.model.save(__UpperCAmelCase , name=__UpperCAmelCase ) return tuple(__UpperCAmelCase )

def _a ( a :int = 100 ) -> int: a = n * (n + 1) * (2 * n + 1) / 6 a = (n * (n + 1) / 2) ** 2 return int(square_of_sum - sum_of_squares ) if __name__ == "__main__": print(f"""{solution() = }""")

def _a ( a :int ) -> bool: a = n ** (1 / 3) return (val * val * val) == n if __name__ == "__main__": print(perfect_cube(27)) print(perfect_cube(4))

import sys import turtle def _a ( a :tuple[float, float] , a :tuple[float, float] ) -> tuple[float, float]: return (pa[0] + pa[0]) / 2, (pa[1] + pa[1]) / 2 def _a ( a :tuple[float, float] , a :tuple[float, float] , a :tuple[float, float] , a :int , ) -> None: my_pen.up() my_pen.goto(vertexa[0] , vertexa[1] ) my_pen.down() my_pen.goto(vertexa[0] , vertexa[1] ) my_pen.goto(vertexa[0] , vertexa[1] ) my_pen.goto(vertexa[0] , vertexa[1] ) if depth == 0: return triangle(a , get_mid(a , a ) , get_mid(a , a ) , depth - 1 ) triangle(a , get_mid(a , a ) , get_mid(a , a ) , depth - 1 ) triangle(a , get_mid(a , a ) , get_mid(a , a ) , depth - 1 ) if __name__ == "__main__": if len(sys.argv) != 2: raise ValueError( "Correct format for using this script: " "python fractals.py <int:depth_for_fractal>" ) UpperCAmelCase__ = turtle.Turtle() my_pen.ht() my_pen.speed(5) my_pen.pencolor("red") UpperCAmelCase__ = [(-175, -125), (0, 175), (175, -125)] # vertices of triangle triangle(vertices[0], vertices[1], vertices[2], int(sys.argv[1]))

import os import tempfile from functools import partial from unittest import TestCase from unittest.mock import patch import numpy as np import pytest from datasets.arrow_dataset import Dataset from datasets.search import ElasticSearchIndex, FaissIndex, MissingIndex from .utils import require_elasticsearch, require_faiss UpperCAmelCase__ = pytest.mark.integration @require_faiss class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" a = Dataset.from_dict({'''filename''': ['''my_name-train''' + '''_''' + str(__UpperCAmelCase ) for x in np.arange(30 ).tolist()]} ) return dset def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" import faiss a = self._create_dummy_dataset() a = dset.map( lambda __UpperCAmelCase , __UpperCAmelCase : {"vecs": i * np.ones(5 , dtype=np.floataa )} , with_indices=__UpperCAmelCase , keep_in_memory=__UpperCAmelCase ) a = dset.add_faiss_index('''vecs''' , batch_size=100 , metric_type=faiss.METRIC_INNER_PRODUCT ) a , a = dset.get_nearest_examples('''vecs''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) dset.drop_index('''vecs''' ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[Any]: """simple docstring""" import faiss a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' , batch_size=100 , metric_type=faiss.METRIC_INNER_PRODUCT , ) a , a = dset.get_nearest_examples('''vecs''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) def __lowerCAmelCase ( self : Any ) ->Union[str, Any]: """simple docstring""" import faiss a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' , metric_type=faiss.METRIC_INNER_PRODUCT , ) # Setting delete=False and unlinking manually is not pretty... but it is required on Windows to # ensure somewhat stable behaviour. If we don't, we get PermissionErrors. This is an age-old issue. # see https://bugs.python.org/issue14243 and # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file/23212515 with tempfile.NamedTemporaryFile(delete=__UpperCAmelCase ) as tmp_file: dset.save_faiss_index('''vecs''' , tmp_file.name ) dset.load_faiss_index('''vecs2''' , tmp_file.name ) os.unlink(tmp_file.name ) a , a = dset.get_nearest_examples('''vecs2''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) def __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' ) dset.drop_index('''vecs''' ) self.assertRaises(__UpperCAmelCase , partial(dset.get_nearest_examples , '''vecs2''' , np.ones(5 , dtype=np.floataa ) ) ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" from elasticsearch import Elasticsearch a = self._create_dummy_dataset() with patch('''elasticsearch.Elasticsearch.search''' ) as mocked_search, patch( '''elasticsearch.client.IndicesClient.create''' ) as mocked_index_create, patch('''elasticsearch.helpers.streaming_bulk''' ) as mocked_bulk: a = {'''acknowledged''': True} mocked_bulk.return_value([(True, None)] * 30 ) a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 29}]}} a = Elasticsearch() dset.add_elasticsearch_index('''filename''' , es_client=__UpperCAmelCase ) a , a = dset.get_nearest_examples('''filename''' , '''my_name-train_29''' ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) @require_faiss class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : Any ) ->Any: """simple docstring""" import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) # add vectors index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsNotNone(index.faiss_index ) self.assertEqual(index.faiss_index.ntotal , 5 ) index.add_vectors(np.zeros((5, 5) , dtype=np.floataa ) ) self.assertEqual(index.faiss_index.ntotal , 10 ) # single query a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(__UpperCAmelCase ) self.assertRaises(__UpperCAmelCase , index.search , query.reshape(-1 , 1 ) ) self.assertGreater(scores[0] , 0 ) self.assertEqual(indices[0] , 1 ) # batched queries a = np.eye(5 , dtype=np.floataa )[::-1] a , a = index.search_batch(__UpperCAmelCase ) self.assertRaises(__UpperCAmelCase , index.search_batch , queries[0] ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([4, 3, 2, 1, 0] , __UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->List[Any]: """simple docstring""" import faiss a = FaissIndex(string_factory='''Flat''' ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexFlat ) a = FaissIndex(string_factory='''LSH''' ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexLSH ) with self.assertRaises(__UpperCAmelCase ): a = FaissIndex(string_factory='''Flat''' , custom_index=faiss.IndexFlat(5 ) ) def __lowerCAmelCase ( self : int ) ->Optional[Any]: """simple docstring""" import faiss a = faiss.IndexFlat(5 ) a = FaissIndex(custom_index=__UpperCAmelCase ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexFlat ) def __lowerCAmelCase ( self : int ) ->Dict: """simple docstring""" import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) # Setting delete=False and unlinking manually is not pretty... but it is required on Windows to # ensure somewhat stable behaviour. If we don't, we get PermissionErrors. This is an age-old issue. # see https://bugs.python.org/issue14243 and # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file/23212515 with tempfile.NamedTemporaryFile(delete=__UpperCAmelCase ) as tmp_file: index.save(tmp_file.name ) a = FaissIndex.load(tmp_file.name ) os.unlink(tmp_file.name ) a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(__UpperCAmelCase ) self.assertGreater(scores[0] , 0 ) self.assertEqual(indices[0] , 1 ) @require_faiss def _a ( a :Dict ) -> Any: import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) a = '''index.faiss''' a = F"""mock://{index_name}""" index.save(a , storage_options=mockfs.storage_options ) a = FaissIndex.load(a , storage_options=mockfs.storage_options ) a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(a ) assert scores[0] > 0 assert indices[0] == 1 @require_elasticsearch class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : int ) ->List[Any]: """simple docstring""" from elasticsearch import Elasticsearch with patch('''elasticsearch.Elasticsearch.search''' ) as mocked_search, patch( '''elasticsearch.client.IndicesClient.create''' ) as mocked_index_create, patch('''elasticsearch.helpers.streaming_bulk''' ) as mocked_bulk: a = Elasticsearch() a = {'''acknowledged''': True} a = ElasticSearchIndex(es_client=__UpperCAmelCase ) mocked_bulk.return_value([(True, None)] * 3 ) index.add_documents(['''foo''', '''bar''', '''foobar'''] ) # single query a = '''foo''' a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 0}]}} a , a = index.search(__UpperCAmelCase ) self.assertEqual(scores[0] , 1 ) self.assertEqual(indices[0] , 0 ) # single query with timeout a = '''foo''' a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 0}]}} a , a = index.search(__UpperCAmelCase , request_timeout=30 ) self.assertEqual(scores[0] , 1 ) self.assertEqual(indices[0] , 0 ) # batched queries a = ['''foo''', '''bar''', '''foobar'''] a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 1}]}} a , a = index.search_batch(__UpperCAmelCase ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([1, 1, 1] , __UpperCAmelCase ) # batched queries with timeout a = ['''foo''', '''bar''', '''foobar'''] a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 1}]}} a , a = index.search_batch(__UpperCAmelCase , request_timeout=30 ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([1, 1, 1] , __UpperCAmelCase )

from typing import Callable, Optional from .. import Features from ..packaged_modules.generator.generator import Generator from .abc import AbstractDatasetInputStream class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : Optional[Any] , __UpperCAmelCase : Callable , __UpperCAmelCase : Optional[Features] = None , __UpperCAmelCase : str = None , __UpperCAmelCase : bool = False , __UpperCAmelCase : bool = False , __UpperCAmelCase : Optional[dict] = None , __UpperCAmelCase : Optional[int] = None , **__UpperCAmelCase : Dict , ) ->List[Any]: """simple docstring""" super().__init__( features=__UpperCAmelCase , cache_dir=__UpperCAmelCase , keep_in_memory=__UpperCAmelCase , streaming=__UpperCAmelCase , num_proc=__UpperCAmelCase , **__UpperCAmelCase , ) a = Generator( cache_dir=__UpperCAmelCase , features=__UpperCAmelCase , generator=__UpperCAmelCase , gen_kwargs=__UpperCAmelCase , **__UpperCAmelCase , ) def __lowerCAmelCase ( self : List[Any] ) ->Tuple: """simple docstring""" if self.streaming: a = self.builder.as_streaming_dataset(split='''train''' ) # Build regular (map-style) dataset else: a = None a = None a = None a = None self.builder.download_and_prepare( download_config=__UpperCAmelCase , download_mode=__UpperCAmelCase , verification_mode=__UpperCAmelCase , base_path=__UpperCAmelCase , num_proc=self.num_proc , ) a = self.builder.as_dataset( split='''train''' , verification_mode=__UpperCAmelCase , in_memory=self.keep_in_memory ) return dataset

from typing import Mapping from ...configuration_utils import PretrainedConfig from ...onnx import OnnxSeqaSeqConfigWithPast from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "t5-small": "https://huggingface.co/t5-small/resolve/main/config.json", "t5-base": "https://huggingface.co/t5-base/resolve/main/config.json", "t5-large": "https://huggingface.co/t5-large/resolve/main/config.json", "t5-3b": "https://huggingface.co/t5-3b/resolve/main/config.json", "t5-11b": "https://huggingface.co/t5-11b/resolve/main/config.json", } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''t5''' __snake_case = ['''past_key_values'''] __snake_case = {'''hidden_size''': '''d_model''', '''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers'''} def __init__( self : Optional[Any] , __UpperCAmelCase : Optional[Any]=32_128 , __UpperCAmelCase : List[Any]=512 , __UpperCAmelCase : Dict=64 , __UpperCAmelCase : Tuple=2_048 , __UpperCAmelCase : int=6 , __UpperCAmelCase : Optional[int]=None , __UpperCAmelCase : Optional[int]=8 , __UpperCAmelCase : str=32 , __UpperCAmelCase : Tuple=128 , __UpperCAmelCase : Optional[Any]=0.1 , __UpperCAmelCase : int=1e-6 , __UpperCAmelCase : int=1.0 , __UpperCAmelCase : List[str]="relu" , __UpperCAmelCase : int=True , __UpperCAmelCase : int=True , __UpperCAmelCase : List[Any]=0 , __UpperCAmelCase : int=1 , **__UpperCAmelCase : str , ) ->Optional[Any]: """simple docstring""" a = vocab_size a = d_model a = d_kv a = d_ff a = num_layers a = ( num_decoder_layers if num_decoder_layers is not None else self.num_layers ) # default = symmetry a = num_heads a = relative_attention_num_buckets a = relative_attention_max_distance a = dropout_rate a = layer_norm_epsilon a = initializer_factor a = feed_forward_proj a = use_cache a = self.feed_forward_proj.split('''-''' ) a = act_info[-1] a = act_info[0] == '''gated''' if len(__UpperCAmelCase ) > 1 and act_info[0] != "gated" or len(__UpperCAmelCase ) > 2: raise ValueError( F"""`feed_forward_proj`: {feed_forward_proj} is not a valid activation function of the dense layer.""" '''Please make sure `feed_forward_proj` is of the format `gated-{ACT_FN}` or `{ACT_FN}`, e.g. ''' '''\'gated-gelu\' or \'relu\'''' ) # for backwards compatibility if feed_forward_proj == "gated-gelu": a = '''gelu_new''' super().__init__( pad_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , is_encoder_decoder=__UpperCAmelCase , **__UpperCAmelCase , ) class lowercase_ ( lowercase ): '''simple docstring''' @property def __lowerCAmelCase ( self : Optional[Any] ) ->Mapping[str, Mapping[int, str]]: """simple docstring""" a = { '''input_ids''': {0: '''batch''', 1: '''encoder_sequence'''}, '''attention_mask''': {0: '''batch''', 1: '''encoder_sequence'''}, } if self.use_past: a = '''past_encoder_sequence + sequence''' a = {0: '''batch'''} a = {0: '''batch''', 1: '''past_decoder_sequence + sequence'''} else: a = {0: '''batch''', 1: '''decoder_sequence'''} a = {0: '''batch''', 1: '''decoder_sequence'''} if self.use_past: self.fill_with_past_key_values_(__UpperCAmelCase , direction='''inputs''' ) return common_inputs @property def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" return 13

import os from shutil import copyfile from typing import Any, Dict, List, Optional, Tuple import sentencepiece as spm from ...tokenization_utils import AddedToken, PreTrainedTokenizer from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = "▁" UpperCAmelCase__ = {"vocab_file": "sentencepiece.bpe.model"} UpperCAmelCase__ = { "vocab_file": { "xlm-roberta-base": "https://huggingface.co/xlm-roberta-base/resolve/main/sentencepiece.bpe.model", "xlm-roberta-large": "https://huggingface.co/xlm-roberta-large/resolve/main/sentencepiece.bpe.model", "xlm-roberta-large-finetuned-conll02-dutch": ( "https://huggingface.co/xlm-roberta-large-finetuned-conll02-dutch/resolve/main/sentencepiece.bpe.model" ), "xlm-roberta-large-finetuned-conll02-spanish": ( "https://huggingface.co/xlm-roberta-large-finetuned-conll02-spanish/resolve/main/sentencepiece.bpe.model" ), "xlm-roberta-large-finetuned-conll03-english": ( "https://huggingface.co/xlm-roberta-large-finetuned-conll03-english/resolve/main/sentencepiece.bpe.model" ), "xlm-roberta-large-finetuned-conll03-german": ( "https://huggingface.co/xlm-roberta-large-finetuned-conll03-german/resolve/main/sentencepiece.bpe.model" ), } } UpperCAmelCase__ = { "xlm-roberta-base": 512, "xlm-roberta-large": 512, "xlm-roberta-large-finetuned-conll02-dutch": 512, "xlm-roberta-large-finetuned-conll02-spanish": 512, "xlm-roberta-large-finetuned-conll03-english": 512, "xlm-roberta-large-finetuned-conll03-german": 512, } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = VOCAB_FILES_NAMES __snake_case = PRETRAINED_VOCAB_FILES_MAP __snake_case = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __snake_case = ['''input_ids''', '''attention_mask'''] def __init__( self : Optional[int] , __UpperCAmelCase : int , __UpperCAmelCase : Optional[Any]="<s>" , __UpperCAmelCase : Optional[int]="</s>" , __UpperCAmelCase : str="</s>" , __UpperCAmelCase : int="<s>" , __UpperCAmelCase : Union[str, Any]="<unk>" , __UpperCAmelCase : Optional[Any]="<pad>" , __UpperCAmelCase : str="<mask>" , __UpperCAmelCase : Optional[Dict[str, Any]] = None , **__UpperCAmelCase : Any , ) ->None: """simple docstring""" a = AddedToken(__UpperCAmelCase , lstrip=__UpperCAmelCase , rstrip=__UpperCAmelCase ) if isinstance(__UpperCAmelCase , __UpperCAmelCase ) else mask_token a = {} if sp_model_kwargs is None else sp_model_kwargs super().__init__( bos_token=__UpperCAmelCase , eos_token=__UpperCAmelCase , unk_token=__UpperCAmelCase , sep_token=__UpperCAmelCase , cls_token=__UpperCAmelCase , pad_token=__UpperCAmelCase , mask_token=__UpperCAmelCase , sp_model_kwargs=self.sp_model_kwargs , **__UpperCAmelCase , ) a = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.Load(str(__UpperCAmelCase ) ) a = vocab_file # Original fairseq vocab and spm vocab must be "aligned": # Vocab | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 # -------- | ------- | ------- | ------ | ------- | --- | --- | --- | ----- | ----- | ---- # fairseq | '<s>' | '<pad>' | '</s>' | '<unk>' | ',' | '.' | '▁' | 's' | '▁de' | '-' # spm | '<unk>' | '<s>' | '</s>' | ',' | '.' | '▁' | 's' | '▁de' | '-' | '▁a' # Mimic fairseq token-to-id alignment for the first 4 token a = {'''<s>''': 0, '''<pad>''': 1, '''</s>''': 2, '''<unk>''': 3} # The first "real" token "," has position 4 in the original fairseq vocab and position 3 in the spm vocab a = 1 a = len(self.sp_model ) + self.fairseq_offset a = {v: k for k, v in self.fairseq_tokens_to_ids.items()} def __getstate__( self : List[str] ) ->Optional[int]: """simple docstring""" a = self.__dict__.copy() a = None a = self.sp_model.serialized_model_proto() return state def __setstate__( self : Tuple , __UpperCAmelCase : Tuple ) ->Optional[Any]: """simple docstring""" a = d # for backward compatibility if not hasattr(self , '''sp_model_kwargs''' ): a = {} a = spm.SentencePieceProcessor(**self.sp_model_kwargs ) self.sp_model.LoadFromSerializedProto(self.sp_model_proto ) def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) ->List[int]: """simple docstring""" if token_ids_a is None: return [self.cls_token_id] + token_ids_a + [self.sep_token_id] a = [self.cls_token_id] a = [self.sep_token_id] return cls + token_ids_a + sep + sep + token_ids_a + sep def __lowerCAmelCase ( self : str , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None , __UpperCAmelCase : bool = False ) ->List[int]: """simple docstring""" if already_has_special_tokens: return super().get_special_tokens_mask( token_ids_a=__UpperCAmelCase , token_ids_a=__UpperCAmelCase , already_has_special_tokens=__UpperCAmelCase ) if token_ids_a is None: return [1] + ([0] * len(__UpperCAmelCase )) + [1] return [1] + ([0] * len(__UpperCAmelCase )) + [1, 1] + ([0] * len(__UpperCAmelCase )) + [1] def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) ->List[int]: """simple docstring""" a = [self.sep_token_id] a = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0] @property def __lowerCAmelCase ( self : Tuple ) ->List[Any]: """simple docstring""" return len(self.sp_model ) + self.fairseq_offset + 1 # Add the <mask> token def __lowerCAmelCase ( self : Dict ) ->Tuple: """simple docstring""" a = {self.convert_ids_to_tokens(__UpperCAmelCase ): i for i in range(self.vocab_size )} vocab.update(self.added_tokens_encoder ) return vocab def __lowerCAmelCase ( self : Union[str, Any] , __UpperCAmelCase : str ) ->List[str]: """simple docstring""" return self.sp_model.encode(__UpperCAmelCase , out_type=__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : Optional[int] ) ->Optional[int]: """simple docstring""" if token in self.fairseq_tokens_to_ids: return self.fairseq_tokens_to_ids[token] a = self.sp_model.PieceToId(__UpperCAmelCase ) # Need to return unknown token if the SP model returned 0 return spm_id + self.fairseq_offset if spm_id else self.unk_token_id def __lowerCAmelCase ( self : Dict , __UpperCAmelCase : str ) ->List[str]: """simple docstring""" if index in self.fairseq_ids_to_tokens: return self.fairseq_ids_to_tokens[index] return self.sp_model.IdToPiece(index - self.fairseq_offset ) def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Optional[Any] ) ->Union[str, Any]: """simple docstring""" a = ''''''.join(__UpperCAmelCase ).replace(__UpperCAmelCase , ''' ''' ).strip() return out_string def __lowerCAmelCase ( self : Any , __UpperCAmelCase : str , __UpperCAmelCase : Optional[str] = None ) ->Tuple[str]: """simple docstring""" if not os.path.isdir(__UpperCAmelCase ): logger.error(F"""Vocabulary path ({save_directory}) should be a directory""" ) return a = os.path.join( __UpperCAmelCase , (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''vocab_file'''] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(__UpperCAmelCase ) and os.path.isfile(self.vocab_file ): copyfile(self.vocab_file , __UpperCAmelCase ) elif not os.path.isfile(self.vocab_file ): with open(__UpperCAmelCase , '''wb''' ) as fi: a = self.sp_model.serialized_model_proto() fi.write(__UpperCAmelCase ) return (out_vocab_file,)

from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = {} class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''llama''' __snake_case = ['''past_key_values'''] def __init__( self : Optional[Any] , __UpperCAmelCase : Union[str, Any]=32_000 , __UpperCAmelCase : str=4_096 , __UpperCAmelCase : int=11_008 , __UpperCAmelCase : Tuple=32 , __UpperCAmelCase : Optional[int]=32 , __UpperCAmelCase : List[str]=None , __UpperCAmelCase : Union[str, Any]="silu" , __UpperCAmelCase : Tuple=2_048 , __UpperCAmelCase : Optional[Any]=0.02 , __UpperCAmelCase : Any=1e-6 , __UpperCAmelCase : Union[str, Any]=True , __UpperCAmelCase : Optional[int]=0 , __UpperCAmelCase : Optional[int]=1 , __UpperCAmelCase : Optional[int]=2 , __UpperCAmelCase : Tuple=1 , __UpperCAmelCase : List[str]=False , __UpperCAmelCase : Tuple=None , **__UpperCAmelCase : Tuple , ) ->str: """simple docstring""" a = vocab_size a = max_position_embeddings a = hidden_size a = intermediate_size a = num_hidden_layers a = num_attention_heads # for backward compatibility if num_key_value_heads is None: a = num_attention_heads a = num_key_value_heads a = hidden_act a = initializer_range a = rms_norm_eps a = pretraining_tp a = use_cache a = rope_scaling self._rope_scaling_validation() super().__init__( pad_token_id=__UpperCAmelCase , bos_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , tie_word_embeddings=__UpperCAmelCase , **__UpperCAmelCase , ) def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" if self.rope_scaling is None: return if not isinstance(self.rope_scaling , __UpperCAmelCase ) or len(self.rope_scaling ) != 2: raise ValueError( '''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, ''' F"""got {self.rope_scaling}""" ) a = self.rope_scaling.get('''type''' , __UpperCAmelCase ) a = self.rope_scaling.get('''factor''' , __UpperCAmelCase ) if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]: raise ValueError( F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""" ) if rope_scaling_factor is None or not isinstance(__UpperCAmelCase , __UpperCAmelCase ) or rope_scaling_factor <= 1.0: raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""" )

import os from typing import BinaryIO, Optional, Union import numpy as np import pyarrow.parquet as pq from .. import Audio, Dataset, Features, Image, NamedSplit, Value, config from ..features.features import FeatureType, _visit from ..formatting import query_table from ..packaged_modules import _PACKAGED_DATASETS_MODULES from ..packaged_modules.parquet.parquet import Parquet from ..utils import logging from ..utils.typing import NestedDataStructureLike, PathLike from .abc import AbstractDatasetReader def _a ( a :Features ) -> Optional[int]: a = np.inf def set_batch_size(a :FeatureType ) -> None: nonlocal batch_size if isinstance(a , a ): a = min(a , config.PARQUET_ROW_GROUP_SIZE_FOR_IMAGE_DATASETS ) elif isinstance(a , a ): a = min(a , config.PARQUET_ROW_GROUP_SIZE_FOR_AUDIO_DATASETS ) elif isinstance(a , a ) and feature.dtype == "binary": a = min(a , config.PARQUET_ROW_GROUP_SIZE_FOR_BINARY_DATASETS ) _visit(a , a ) return None if batch_size is np.inf else batch_size class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : str , __UpperCAmelCase : NestedDataStructureLike[PathLike] , __UpperCAmelCase : Optional[NamedSplit] = None , __UpperCAmelCase : Optional[Features] = None , __UpperCAmelCase : str = None , __UpperCAmelCase : bool = False , __UpperCAmelCase : bool = False , __UpperCAmelCase : Optional[int] = None , **__UpperCAmelCase : List[Any] , ) ->List[Any]: """simple docstring""" super().__init__( __UpperCAmelCase , split=__UpperCAmelCase , features=__UpperCAmelCase , cache_dir=__UpperCAmelCase , keep_in_memory=__UpperCAmelCase , streaming=__UpperCAmelCase , num_proc=__UpperCAmelCase , **__UpperCAmelCase , ) a = path_or_paths if isinstance(__UpperCAmelCase , __UpperCAmelCase ) else {self.split: path_or_paths} a = _PACKAGED_DATASETS_MODULES['''parquet'''][1] a = Parquet( cache_dir=__UpperCAmelCase , data_files=__UpperCAmelCase , features=__UpperCAmelCase , hash=__UpperCAmelCase , **__UpperCAmelCase , ) def __lowerCAmelCase ( self : List[Any] ) ->Optional[int]: """simple docstring""" if self.streaming: a = self.builder.as_streaming_dataset(split=self.split ) # Build regular (map-style) dataset else: a = None a = None a = None a = None self.builder.download_and_prepare( download_config=__UpperCAmelCase , download_mode=__UpperCAmelCase , verification_mode=__UpperCAmelCase , base_path=__UpperCAmelCase , num_proc=self.num_proc , ) a = self.builder.as_dataset( split=self.split , verification_mode=__UpperCAmelCase , in_memory=self.keep_in_memory ) return dataset class lowercase_ : '''simple docstring''' def __init__( self : Union[str, Any] , __UpperCAmelCase : Dataset , __UpperCAmelCase : Union[PathLike, BinaryIO] , __UpperCAmelCase : Optional[int] = None , **__UpperCAmelCase : List[str] , ) ->Any: """simple docstring""" a = dataset a = path_or_buf a = batch_size or get_writer_batch_size(dataset.features ) a = parquet_writer_kwargs def __lowerCAmelCase ( self : Tuple ) ->int: """simple docstring""" a = self.batch_size if self.batch_size else config.DEFAULT_MAX_BATCH_SIZE if isinstance(self.path_or_buf , (str, bytes, os.PathLike) ): with open(self.path_or_buf , '''wb+''' ) as buffer: a = self._write(file_obj=__UpperCAmelCase , batch_size=__UpperCAmelCase , **self.parquet_writer_kwargs ) else: a = self._write(file_obj=self.path_or_buf , batch_size=__UpperCAmelCase , **self.parquet_writer_kwargs ) return written def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : BinaryIO , __UpperCAmelCase : int , **__UpperCAmelCase : List[str] ) ->int: """simple docstring""" a = 0 a = parquet_writer_kwargs.pop('''path_or_buf''' , __UpperCAmelCase ) a = self.dataset.features.arrow_schema a = pq.ParquetWriter(__UpperCAmelCase , schema=__UpperCAmelCase , **__UpperCAmelCase ) for offset in logging.tqdm( range(0 , len(self.dataset ) , __UpperCAmelCase ) , unit='''ba''' , disable=not logging.is_progress_bar_enabled() , desc='''Creating parquet from Arrow format''' , ): a = query_table( table=self.dataset._data , key=slice(__UpperCAmelCase , offset + batch_size ) , indices=self.dataset._indices if self.dataset._indices is not None else None , ) writer.write_table(__UpperCAmelCase ) written += batch.nbytes writer.close() return written

from __future__ import annotations UpperCAmelCase__ = "Muhammad Umer Farooq" UpperCAmelCase__ = "MIT" UpperCAmelCase__ = "1.0.0" UpperCAmelCase__ = "Muhammad Umer Farooq" UpperCAmelCase__ = "[email protected]" UpperCAmelCase__ = "Alpha" import re from html.parser import HTMLParser from urllib import parse import requests class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : Union[str, Any] , __UpperCAmelCase : str ) ->None: """simple docstring""" super().__init__() a = [] a = domain def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : list[tuple[str, str | None]] ) ->None: """simple docstring""" if tag == "a": # Check the list of defined attributes. for name, value in attrs: # If href is defined, and not empty nor # print it. if name == "href" and value != "#" and value != "": # If not already in urls. if value not in self.urls: a = parse.urljoin(self.domain , __UpperCAmelCase ) self.urls.append(__UpperCAmelCase ) def _a ( a :str ) -> str: return ".".join(get_sub_domain_name(a ).split('''.''' )[-2:] ) def _a ( a :str ) -> str: return parse.urlparse(a ).netloc def _a ( a :str = "https://github.com" ) -> list[str]: a = get_domain_name(a ) # Initialize the parser a = Parser(a ) try: # Open URL a = requests.get(a ) # pass the raw HTML to the parser to get links parser.feed(r.text ) # Get links and loop through a = set() for link in parser.urls: # open URL. # read = requests.get(link) try: a = requests.get(a ) # Get the valid email. a = re.findall('''[a-zA-Z0-9]+@''' + domain , read.text ) # If not in list then append it. for email in emails: valid_emails.add(a ) except ValueError: pass except ValueError: raise SystemExit(1 ) # Finally return a sorted list of email addresses with no duplicates. return sorted(a ) if __name__ == "__main__": UpperCAmelCase__ = emails_from_url("https://github.com") print(f"""{len(emails)} emails found:""") print("\n".join(sorted(emails)))

import argparse import torch from safetensors.torch import load_file from diffusers import StableDiffusionPipeline def _a ( a :Dict , a :Union[str, Any] , a :Dict , a :str , a :str ) -> List[Any]: # load base model a = StableDiffusionPipeline.from_pretrained(a , torch_dtype=torch.floataa ) # load LoRA weight from .safetensors a = load_file(a ) a = [] # directly update weight in diffusers model for key in state_dict: # it is suggested to print out the key, it usually will be something like below # "lora_te_text_model_encoder_layers_0_self_attn_k_proj.lora_down.weight" # as we have set the alpha beforehand, so just skip if ".alpha" in key or key in visited: continue if "text" in key: a = key.split('''.''' )[0].split(LORA_PREFIX_TEXT_ENCODER + '''_''' )[-1].split('''_''' ) a = pipeline.text_encoder else: a = key.split('''.''' )[0].split(LORA_PREFIX_UNET + '''_''' )[-1].split('''_''' ) a = pipeline.unet # find the target layer a = layer_infos.pop(0 ) while len(a ) > -1: try: a = curr_layer.__getattr__(a ) if len(a ) > 0: a = layer_infos.pop(0 ) elif len(a ) == 0: break except Exception: if len(a ) > 0: temp_name += "_" + layer_infos.pop(0 ) else: a = layer_infos.pop(0 ) a = [] if "lora_down" in key: pair_keys.append(key.replace('''lora_down''' , '''lora_up''' ) ) pair_keys.append(a ) else: pair_keys.append(a ) pair_keys.append(key.replace('''lora_up''' , '''lora_down''' ) ) # update weight if len(state_dict[pair_keys[0]].shape ) == 4: a = state_dict[pair_keys[0]].squeeze(3 ).squeeze(2 ).to(torch.floataa ) a = state_dict[pair_keys[1]].squeeze(3 ).squeeze(2 ).to(torch.floataa ) curr_layer.weight.data += alpha * torch.mm(a , a ).unsqueeze(2 ).unsqueeze(3 ) else: a = state_dict[pair_keys[0]].to(torch.floataa ) a = state_dict[pair_keys[1]].to(torch.floataa ) curr_layer.weight.data += alpha * torch.mm(a , a ) # update visited list for item in pair_keys: visited.append(a ) return pipeline if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() parser.add_argument( "--base_model_path", default=None, type=str, required=True, help="Path to the base model in diffusers format." ) parser.add_argument( "--checkpoint_path", default=None, type=str, required=True, help="Path to the checkpoint to convert." ) parser.add_argument("--dump_path", default=None, type=str, required=True, help="Path to the output model.") parser.add_argument( "--lora_prefix_unet", default="lora_unet", type=str, help="The prefix of UNet weight in safetensors" ) parser.add_argument( "--lora_prefix_text_encoder", default="lora_te", type=str, help="The prefix of text encoder weight in safetensors", ) parser.add_argument("--alpha", default=0.75, type=float, help="The merging ratio in W = W0 + alpha * deltaW") parser.add_argument( "--to_safetensors", action="store_true", help="Whether to store pipeline in safetensors format or not." ) parser.add_argument("--device", type=str, help="Device to use (e.g. cpu, cuda:0, cuda:1, etc.)") UpperCAmelCase__ = parser.parse_args() UpperCAmelCase__ = args.base_model_path UpperCAmelCase__ = args.checkpoint_path UpperCAmelCase__ = args.dump_path UpperCAmelCase__ = args.lora_prefix_unet UpperCAmelCase__ = args.lora_prefix_text_encoder UpperCAmelCase__ = args.alpha UpperCAmelCase__ = convert(base_model_path, checkpoint_path, lora_prefix_unet, lora_prefix_text_encoder, alpha) UpperCAmelCase__ = pipe.to(args.device) pipe.save_pretrained(args.dump_path, safe_serialization=args.to_safetensors)

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) UpperCAmelCase__ = logging.getLogger() def _a ( ) -> Optional[int]: a = argparse.ArgumentParser() parser.add_argument('''-f''' ) a = parser.parse_args() return args.f def _a ( a :Any ) -> Tuple: a = {} a = os.path.join(a , '''all_results.json''' ) if os.path.exists(a ): with open(a , '''r''' ) as f: a = json.load(a ) else: raise ValueError(F"""can't find {path}""" ) return results def _a ( ) -> int: a = torch.cuda.is_available() and torch_device == '''cuda''' return is_using_cuda and is_apex_available() UpperCAmelCase__ = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class lowercase_ ( lowercase ): '''simple docstring''' @classmethod def __lowerCAmelCase ( cls : str ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() a = os.path.join(cls.tmpdir , '''default_config.yml''' ) write_basic_config(save_location=cls.configPath ) a = ['''accelerate''', '''launch''', '''--config_file''', cls.configPath] @classmethod def __lowerCAmelCase ( cls : Optional[int] ) ->Union[str, Any]: """simple docstring""" shutil.rmtree(cls.tmpdir ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->str: """simple docstring""" a = 7 if get_gpu_count() > 1 else 2 a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : List[str] ) ->int: """simple docstring""" a = logging.StreamHandler(sys.stdout ) logger.addHandler(__UpperCAmelCase ) a = self.get_auto_remove_tmp_dir() a = 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 ) a = get_results(__UpperCAmelCase ) self.assertGreaterEqual(result['''eval_overall_accuracy'''] , 0.10 ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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''' ) ) )

from argparse import ArgumentParser, Namespace from typing import Any, List, Optional from ..pipelines import Pipeline, get_supported_tasks, pipeline from ..utils import logging from . import BaseTransformersCLICommand try: from fastapi import Body, FastAPI, HTTPException from fastapi.routing import APIRoute from pydantic import BaseModel from starlette.responses import JSONResponse from uvicorn import run UpperCAmelCase__ = True except (ImportError, AttributeError): UpperCAmelCase__ = object def _a ( *a :str , **a :Optional[Any] ) -> int: pass UpperCAmelCase__ = False UpperCAmelCase__ = logging.get_logger("transformers-cli/serving") def _a ( a :Namespace ) -> Any: a = pipeline( task=args.task , model=args.model if args.model else None , config=args.config , tokenizer=args.tokenizer , device=args.device , ) return ServeCommand(a , args.host , args.port , args.workers ) class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = 42 class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = 42 __snake_case = 42 class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = 42 class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = 42 class lowercase_ ( lowercase ): '''simple docstring''' @staticmethod def __lowerCAmelCase ( __UpperCAmelCase : ArgumentParser ) ->Dict: """simple docstring""" a = parser.add_parser( '''serve''' , help='''CLI tool to run inference requests through REST and GraphQL endpoints.''' ) serve_parser.add_argument( '''--task''' , type=__UpperCAmelCase , choices=get_supported_tasks() , help='''The task to run the pipeline on''' , ) serve_parser.add_argument('''--host''' , type=__UpperCAmelCase , default='''localhost''' , help='''Interface the server will listen on.''' ) serve_parser.add_argument('''--port''' , type=__UpperCAmelCase , default=8_888 , help='''Port the serving will listen to.''' ) serve_parser.add_argument('''--workers''' , type=__UpperCAmelCase , default=1 , help='''Number of http workers''' ) serve_parser.add_argument('''--model''' , type=__UpperCAmelCase , help='''Model\'s name or path to stored model.''' ) serve_parser.add_argument('''--config''' , type=__UpperCAmelCase , help='''Model\'s config name or path to stored model.''' ) serve_parser.add_argument('''--tokenizer''' , type=__UpperCAmelCase , help='''Tokenizer name to use.''' ) serve_parser.add_argument( '''--device''' , type=__UpperCAmelCase , default=-1 , help='''Indicate the device to run onto, -1 indicates CPU, >= 0 indicates GPU (default: -1)''' , ) serve_parser.set_defaults(func=__UpperCAmelCase ) def __init__( self : Dict , __UpperCAmelCase : Pipeline , __UpperCAmelCase : str , __UpperCAmelCase : int , __UpperCAmelCase : int ) ->List[Any]: """simple docstring""" a = pipeline a = host a = port a = workers if not _serve_dependencies_installed: raise RuntimeError( '''Using serve command requires FastAPI and uvicorn. ''' '''Please install transformers with [serving]: pip install "transformers[serving]".''' '''Or install FastAPI and uvicorn separately.''' ) else: logger.info(F"""Serving model over {host}:{port}""" ) a = FastAPI( routes=[ APIRoute( '''/''' , self.model_info , response_model=__UpperCAmelCase , response_class=__UpperCAmelCase , methods=['''GET'''] , ), APIRoute( '''/tokenize''' , self.tokenize , response_model=__UpperCAmelCase , response_class=__UpperCAmelCase , methods=['''POST'''] , ), APIRoute( '''/detokenize''' , self.detokenize , response_model=__UpperCAmelCase , response_class=__UpperCAmelCase , methods=['''POST'''] , ), APIRoute( '''/forward''' , self.forward , response_model=__UpperCAmelCase , response_class=__UpperCAmelCase , methods=['''POST'''] , ), ] , timeout=600 , ) def __lowerCAmelCase ( self : Dict ) ->Union[str, Any]: """simple docstring""" run(self._app , host=self.host , port=self.port , workers=self.workers ) def __lowerCAmelCase ( self : int ) ->Union[str, Any]: """simple docstring""" return ServeModelInfoResult(infos=vars(self._pipeline.model.config ) ) def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : str = Body(__UpperCAmelCase , embed=__UpperCAmelCase ) , __UpperCAmelCase : bool = Body(__UpperCAmelCase , embed=__UpperCAmelCase ) ) ->Tuple: """simple docstring""" try: a = self._pipeline.tokenizer.tokenize(__UpperCAmelCase ) if return_ids: a = self._pipeline.tokenizer.convert_tokens_to_ids(__UpperCAmelCase ) return ServeTokenizeResult(tokens=__UpperCAmelCase , tokens_ids=__UpperCAmelCase ) else: return ServeTokenizeResult(tokens=__UpperCAmelCase ) except Exception as e: raise HTTPException(status_code=500 , detail={'''model''': '''''', '''error''': str(__UpperCAmelCase )} ) def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : List[int] = Body(__UpperCAmelCase , embed=__UpperCAmelCase ) , __UpperCAmelCase : bool = Body(__UpperCAmelCase , embed=__UpperCAmelCase ) , __UpperCAmelCase : bool = Body(__UpperCAmelCase , embed=__UpperCAmelCase ) , ) ->Any: """simple docstring""" try: a = self._pipeline.tokenizer.decode(__UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) return ServeDeTokenizeResult(model='''''' , text=__UpperCAmelCase ) except Exception as e: raise HTTPException(status_code=500 , detail={'''model''': '''''', '''error''': str(__UpperCAmelCase )} ) async def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : Optional[int]=Body(__UpperCAmelCase , embed=__UpperCAmelCase ) ) ->Any: """simple docstring""" if len(__UpperCAmelCase ) == 0: return ServeForwardResult(output=[] , attention=[] ) try: # Forward through the model a = self._pipeline(__UpperCAmelCase ) return ServeForwardResult(output=__UpperCAmelCase ) except Exception as e: raise HTTPException(500 , {'''error''': str(__UpperCAmelCase )} )

import math def _a ( a :int ) -> list: a = [True] * n a = False a = False a = True for i in range(3 , int(n**0.5 + 1 ) , 2 ): a = i * 2 while index < n: a = False a = index + i a = [2] for i in range(3 , a , 2 ): if is_prime[i]: primes.append(a ) return primes def _a ( a :int = 999_966_663_333 ) -> int: a = math.floor(math.sqrt(a ) ) + 100 a = prime_sieve(a ) a = 0 a = 0 a = primes[prime_index] while (last_prime**2) <= limit: a = primes[prime_index + 1] a = last_prime**2 a = next_prime**2 # Get numbers divisible by lps(current) a = lower_bound + last_prime while upper_bound > current <= limit: matches_sum += current current += last_prime # Reset the upper_bound while (upper_bound - next_prime) > limit: upper_bound -= next_prime # Add the numbers divisible by ups(current) a = upper_bound - next_prime while current > lower_bound: matches_sum += current current -= next_prime # Remove the numbers divisible by both ups and lps a = 0 while upper_bound > current <= limit: if current <= lower_bound: # Increment the current number current += last_prime * next_prime continue if current > limit: break # Remove twice since it was added by both ups and lps matches_sum -= current * 2 # Increment the current number current += last_prime * next_prime # Setup for next pair a = next_prime prime_index += 1 return matches_sum if __name__ == "__main__": print(solution())

# Lint as: python3 # pylint: enable=line-too-long # pylint: disable=g-import-not-at-top,g-bad-import-order,wrong-import-position UpperCAmelCase__ = "2.13.1" import platform import pyarrow from packaging import version if version.parse(platform.python_version()) < version.parse("3.7"): raise ImportWarning( "To use `datasets`, Python>=3.7 is required, and the current version of Python doesn't match this condition." ) if version.parse(pyarrow.__version__).major < 8: raise ImportWarning( "To use `datasets`, the module `pyarrow>=8.0.0` is required, and the current version of `pyarrow` doesn't match this condition.\n" "If you are running this in a Google Colab, you should probably just restart the runtime to use the right version of `pyarrow`." ) del platform del pyarrow del version from .arrow_dataset import Dataset from .arrow_reader import ReadInstruction from .builder import ArrowBasedBuilder, BeamBasedBuilder, BuilderConfig, DatasetBuilder, GeneratorBasedBuilder from .combine import concatenate_datasets, interleave_datasets from .dataset_dict import DatasetDict, IterableDatasetDict from .download import * from .features import * from .fingerprint import disable_caching, enable_caching, is_caching_enabled, set_caching_enabled from .info import DatasetInfo, MetricInfo from .inspect import ( get_dataset_config_info, get_dataset_config_names, get_dataset_infos, get_dataset_split_names, inspect_dataset, inspect_metric, list_datasets, list_metrics, ) from .iterable_dataset import IterableDataset from .load import load_dataset, load_dataset_builder, load_from_disk, load_metric from .metric import Metric from .splits import ( NamedSplit, NamedSplitAll, Split, SplitBase, SplitDict, SplitGenerator, SplitInfo, SubSplitInfo, percent, ) from .tasks import * from .utils import * from .utils import logging # deprecated modules from datasets import arrow_dataset as _arrow_dataset # isort:skip from datasets import utils as _utils # isort:skip from datasets.utils import download_manager as _deprecated_download_manager # isort:skip UpperCAmelCase__ = concatenate_datasets UpperCAmelCase__ = DownloadConfig UpperCAmelCase__ = DownloadManager UpperCAmelCase__ = DownloadMode UpperCAmelCase__ = DownloadConfig UpperCAmelCase__ = DownloadMode UpperCAmelCase__ = DownloadManager del _arrow_dataset, _utils, _deprecated_download_manager

def _a ( a :float , a :float ) -> float: return price * (1 + tax_rate) if __name__ == "__main__": print(f"""{price_plus_tax(100, 0.25) = }""") print(f"""{price_plus_tax(125.50, 0.05) = }""")

import re import jax.numpy as jnp from flax.traverse_util import flatten_dict, unflatten_dict from jax.random import PRNGKey from ..utils import logging UpperCAmelCase__ = logging.get_logger(__name__) def _a ( a :Union[str, Any] ) -> Optional[int]: a = r'''\w+[.]\d+''' a = re.findall(a , a ) for pat in pats: a = key.replace(a , '''_'''.join(pat.split('''.''' ) ) ) return key def _a ( a :List[str] , a :List[Any] , a :Union[str, Any] ) -> Optional[int]: a = pt_tuple_key[:-1] + ('''scale''',) if ( any('''norm''' in str_ for str_ in pt_tuple_key ) and (pt_tuple_key[-1] == "bias") and (pt_tuple_key[:-1] + ("bias",) not in random_flax_state_dict) and (pt_tuple_key[:-1] + ("scale",) in random_flax_state_dict) ): a = pt_tuple_key[:-1] + ('''scale''',) return renamed_pt_tuple_key, pt_tensor elif pt_tuple_key[-1] in ["weight", "gamma"] and pt_tuple_key[:-1] + ("scale",) in random_flax_state_dict: a = pt_tuple_key[:-1] + ('''scale''',) return renamed_pt_tuple_key, pt_tensor # embedding if pt_tuple_key[-1] == "weight" and pt_tuple_key[:-1] + ("embedding",) in random_flax_state_dict: a = pt_tuple_key[:-1] + ('''embedding''',) return renamed_pt_tuple_key, pt_tensor # conv layer a = pt_tuple_key[:-1] + ('''kernel''',) if pt_tuple_key[-1] == "weight" and pt_tensor.ndim == 4: a = pt_tensor.transpose(2 , 3 , 1 , 0 ) return renamed_pt_tuple_key, pt_tensor # linear layer a = pt_tuple_key[:-1] + ('''kernel''',) if pt_tuple_key[-1] == "weight": a = pt_tensor.T return renamed_pt_tuple_key, pt_tensor # old PyTorch layer norm weight a = pt_tuple_key[:-1] + ('''weight''',) if pt_tuple_key[-1] == "gamma": return renamed_pt_tuple_key, pt_tensor # old PyTorch layer norm bias a = pt_tuple_key[:-1] + ('''bias''',) if pt_tuple_key[-1] == "beta": return renamed_pt_tuple_key, pt_tensor return pt_tuple_key, pt_tensor def _a ( a :List[str] , a :List[Any] , a :Dict=42 ) -> Optional[Any]: # Step 1: Convert pytorch tensor to numpy a = {k: v.numpy() for k, v in pt_state_dict.items()} # Step 2: Since the model is stateless, get random Flax params a = flax_model.init_weights(PRNGKey(a ) ) a = flatten_dict(a ) a = {} # Need to change some parameters name to match Flax names for pt_key, pt_tensor in pt_state_dict.items(): a = rename_key(a ) a = tuple(renamed_pt_key.split('''.''' ) ) # Correctly rename weight parameters a , a = rename_key_and_reshape_tensor(a , a , a ) if flax_key in random_flax_state_dict: if flax_tensor.shape != random_flax_state_dict[flax_key].shape: raise ValueError( F"""PyTorch checkpoint seems to be incorrect. Weight {pt_key} was expected to be of shape """ F"""{random_flax_state_dict[flax_key].shape}, but is {flax_tensor.shape}.""" ) # also add unexpected weight so that warning is thrown a = jnp.asarray(a ) return unflatten_dict(a )

from tempfile import TemporaryDirectory from unittest import TestCase from unittest.mock import MagicMock, patch from transformers import AutoModel, TFAutoModel from transformers.onnx import FeaturesManager from transformers.testing_utils import SMALL_MODEL_IDENTIFIER, require_tf, require_torch @require_torch @require_tf class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" a = SMALL_MODEL_IDENTIFIER a = '''pt''' a = '''tf''' def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : str ) ->Union[str, Any]: """simple docstring""" a = AutoModel.from_pretrained(self.test_model ) model_pt.save_pretrained(__UpperCAmelCase ) def __lowerCAmelCase ( self : Any , __UpperCAmelCase : Union[str, Any] ) ->List[str]: """simple docstring""" a = TFAutoModel.from_pretrained(self.test_model , from_pt=__UpperCAmelCase ) model_tf.save_pretrained(__UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = '''mock_framework''' # Framework provided - return whatever the user provides a = FeaturesManager.determine_framework(self.test_model , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) # Local checkpoint and framework provided - return provided framework # PyTorch checkpoint with TemporaryDirectory() as local_pt_ckpt: self._setup_pt_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) # TensorFlow checkpoint with TemporaryDirectory() as local_tf_ckpt: self._setup_tf_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" with TemporaryDirectory() as local_pt_ckpt: self._setup_pt_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # TensorFlow checkpoint with TemporaryDirectory() as local_tf_ckpt: self._setup_tf_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , self.framework_tf ) # Invalid local checkpoint with TemporaryDirectory() as local_invalid_ckpt: with self.assertRaises(__UpperCAmelCase ): a = FeaturesManager.determine_framework(__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # PyTorch not in environment -> use TensorFlow a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_tf ) # Both in environment -> use PyTorch a = MagicMock(return_value=__UpperCAmelCase ) a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ), patch( '''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # Both not in environment -> raise error a = MagicMock(return_value=__UpperCAmelCase ) a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ), patch( '''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): with self.assertRaises(__UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model )

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, ) UpperCAmelCase__ = { "configuration_xlm_roberta": [ "XLM_ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP", "XLMRobertaConfig", "XLMRobertaOnnxConfig", ], } try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = ["XLMRobertaTokenizer"] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = ["XLMRobertaTokenizerFast"] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST", "XLMRobertaForCausalLM", "XLMRobertaForMaskedLM", "XLMRobertaForMultipleChoice", "XLMRobertaForQuestionAnswering", "XLMRobertaForSequenceClassification", "XLMRobertaForTokenClassification", "XLMRobertaModel", "XLMRobertaPreTrainedModel", ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "TF_XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST", "TFXLMRobertaForCausalLM", "TFXLMRobertaForMaskedLM", "TFXLMRobertaForMultipleChoice", "TFXLMRobertaForQuestionAnswering", "TFXLMRobertaForSequenceClassification", "TFXLMRobertaForTokenClassification", "TFXLMRobertaModel", "TFXLMRobertaPreTrainedModel", ] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "FLAX_XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST", "FlaxXLMRobertaForMaskedLM", "FlaxXLMRobertaForCausalLM", "FlaxXLMRobertaForMultipleChoice", "FlaxXLMRobertaForQuestionAnswering", "FlaxXLMRobertaForSequenceClassification", "FlaxXLMRobertaForTokenClassification", "FlaxXLMRobertaModel", "FlaxXLMRobertaPreTrainedModel", ] if TYPE_CHECKING: from .configuration_xlm_roberta import ( XLM_ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, XLMRobertaConfig, XLMRobertaOnnxConfig, ) try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_xlm_roberta import XLMRobertaTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_xlm_roberta_fast import XLMRobertaTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_xlm_roberta import ( XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST, XLMRobertaForCausalLM, XLMRobertaForMaskedLM, XLMRobertaForMultipleChoice, XLMRobertaForQuestionAnswering, XLMRobertaForSequenceClassification, XLMRobertaForTokenClassification, XLMRobertaModel, XLMRobertaPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_xlm_roberta import ( TF_XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST, TFXLMRobertaForCausalLM, TFXLMRobertaForMaskedLM, TFXLMRobertaForMultipleChoice, TFXLMRobertaForQuestionAnswering, TFXLMRobertaForSequenceClassification, TFXLMRobertaForTokenClassification, TFXLMRobertaModel, TFXLMRobertaPreTrainedModel, ) try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_xlm_roberta import ( FLAX_XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST, FlaxXLMRobertaForCausalLM, FlaxXLMRobertaForMaskedLM, FlaxXLMRobertaForMultipleChoice, FlaxXLMRobertaForQuestionAnswering, FlaxXLMRobertaForSequenceClassification, FlaxXLMRobertaForTokenClassification, FlaxXLMRobertaModel, FlaxXLMRobertaPreTrainedModel, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

import os import unittest from transformers import BatchEncoding from transformers.models.bert.tokenization_bert import ( BasicTokenizer, WordpieceTokenizer, _is_control, _is_punctuation, _is_whitespace, ) from transformers.models.prophetnet.tokenization_prophetnet import VOCAB_FILES_NAMES, ProphetNetTokenizer from transformers.testing_utils import require_torch, slow from ...test_tokenization_common import TokenizerTesterMixin class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ProphetNetTokenizer __snake_case = False def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" super().setUp() a = [ '''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing''', ''',''', '''low''', '''lowest''', ] a = 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 __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str ) ->Dict: """simple docstring""" a = '''UNwant\u00E9d,running''' a = '''unwanted, running''' return input_text, output_text def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" a = self.tokenizer_class(self.vocab_file ) a = tokenizer.tokenize('''UNwant\u00E9d,running''' ) self.assertListEqual(__UpperCAmelCase , ['''un''', '''##want''', '''##ed''', ''',''', '''runn''', '''##ing'''] ) self.assertListEqual(tokenizer.convert_tokens_to_ids(__UpperCAmelCase ) , [9, 6, 7, 12, 10, 11] ) def __lowerCAmelCase ( self : int ) ->Any: """simple docstring""" a = BasicTokenizer() self.assertListEqual(tokenizer.tokenize('''ah\u535A\u63A8zz''' ) , ['''ah''', '''\u535A''', '''\u63A8''', '''zz'''] ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? ''' ) , ['''hello''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[int]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hällo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''h\u00E9llo'''] ) def __lowerCAmelCase ( self : Dict ) ->str: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hallo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Any ) ->Dict: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hallo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Tuple ) ->Optional[Any]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? ''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''HäLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : int ) ->Optional[int]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''HaLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , never_split=['''[UNK]'''] ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? [UNK]''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?''', '''[UNK]'''] ) def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" a = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing'''] a = {} for i, token in enumerate(__UpperCAmelCase ): a = i a = WordpieceTokenizer(vocab=__UpperCAmelCase , unk_token='''[UNK]''' ) self.assertListEqual(tokenizer.tokenize('''''' ) , [] ) self.assertListEqual(tokenizer.tokenize('''unwanted running''' ) , ['''un''', '''##want''', '''##ed''', '''runn''', '''##ing'''] ) self.assertListEqual(tokenizer.tokenize('''unwantedX running''' ) , ['''[UNK]''', '''runn''', '''##ing'''] ) @require_torch def __lowerCAmelCase ( self : int ) ->int: """simple docstring""" a = self.tokenizer_class.from_pretrained('''microsoft/prophetnet-large-uncased''' ) a = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.'''] a = [1_037, 2_146, 20_423, 2_005, 7_680, 7_849, 3_989, 1_012, 102] a = tokenizer(__UpperCAmelCase , padding=__UpperCAmelCase , return_tensors='''pt''' ) self.assertIsInstance(__UpperCAmelCase , __UpperCAmelCase ) a = list(batch.input_ids.numpy()[0] ) self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual((2, 9) , batch.input_ids.shape ) self.assertEqual((2, 9) , batch.attention_mask.shape ) def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" self.assertTrue(_is_whitespace(''' ''' ) ) self.assertTrue(_is_whitespace('''\t''' ) ) self.assertTrue(_is_whitespace('''\r''' ) ) self.assertTrue(_is_whitespace('''\n''' ) ) self.assertTrue(_is_whitespace('''\u00A0''' ) ) self.assertFalse(_is_whitespace('''A''' ) ) self.assertFalse(_is_whitespace('''-''' ) ) def __lowerCAmelCase ( self : Any ) ->List[str]: """simple docstring""" self.assertTrue(_is_control('''\u0005''' ) ) self.assertFalse(_is_control('''A''' ) ) self.assertFalse(_is_control(''' ''' ) ) self.assertFalse(_is_control('''\t''' ) ) self.assertFalse(_is_control('''\r''' ) ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" self.assertTrue(_is_punctuation('''-''' ) ) self.assertTrue(_is_punctuation('''$''' ) ) self.assertTrue(_is_punctuation('''`''' ) ) self.assertTrue(_is_punctuation('''.''' ) ) self.assertFalse(_is_punctuation('''A''' ) ) self.assertFalse(_is_punctuation(''' ''' ) ) @slow def __lowerCAmelCase ( self : List[str] ) ->List[str]: """simple docstring""" a = self.tokenizer_class.from_pretrained('''microsoft/prophetnet-large-uncased''' ) a = tokenizer.encode('''sequence builders''' , add_special_tokens=__UpperCAmelCase ) a = tokenizer.encode('''multi-sequence build''' , add_special_tokens=__UpperCAmelCase ) a = tokenizer.build_inputs_with_special_tokens(__UpperCAmelCase ) a = tokenizer.build_inputs_with_special_tokens(__UpperCAmelCase , __UpperCAmelCase ) assert encoded_sentence == text + [102] assert encoded_pair == text + [102] + text_a + [102]

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

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available UpperCAmelCase__ = { "configuration_nllb_moe": [ "NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP", "NllbMoeConfig", ] } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST", "NllbMoeForConditionalGeneration", "NllbMoeModel", "NllbMoePreTrainedModel", "NllbMoeTop2Router", "NllbMoeSparseMLP", ] if TYPE_CHECKING: from .configuration_nllb_moe import ( NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP, NllbMoeConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_nllb_moe import ( NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST, NllbMoeForConditionalGeneration, NllbMoeModel, NllbMoePreTrainedModel, NllbMoeSparseMLP, NllbMoeTopaRouter, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

import csv import tweepy # Twitter API credentials UpperCAmelCase__ = "" UpperCAmelCase__ = "" UpperCAmelCase__ = "" UpperCAmelCase__ = "" def _a ( a :str ) -> None: # authorize twitter, initialize tweepy a = tweepy.OAuthHandler(a , a ) auth.set_access_token(a , a ) a = tweepy.API(a ) # initialize a list to hold all the tweepy Tweets a = [] # make initial request for most recent tweets (200 is the maximum allowed count) a = api.user_timeline(screen_name=a , count=200 ) # save most recent tweets alltweets.extend(a ) # save the id of the oldest tweet less one a = alltweets[-1].id - 1 # keep grabbing tweets until there are no tweets left to grab while len(a ) > 0: print(F"""getting tweets before {oldest}""" ) # all subsequent requests use the max_id param to prevent duplicates a = api.user_timeline( screen_name=a , count=200 , max_id=a ) # save most recent tweets alltweets.extend(a ) # update the id of the oldest tweet less one a = alltweets[-1].id - 1 print(F"""...{len(a )} tweets downloaded so far""" ) # transform the tweepy tweets into a 2D array that will populate the csv a = [[tweet.id_str, tweet.created_at, tweet.text] for tweet in alltweets] # write the csv with open(F"""new_{screen_name}_tweets.csv""" , '''w''' ) as f: a = csv.writer(a ) writer.writerow(['''id''', '''created_at''', '''text'''] ) writer.writerows(a ) if __name__ == "__main__": # pass in the username of the account you want to download get_all_tweets("FirePing32")

def _a ( a :int ) -> list: # bit count represents no. of bits in the gray code if bit_count < 0: raise ValueError('''The given input must be positive''' ) # get the generated string sequence a = gray_code_sequence_string(a ) # # convert them to integers for i in range(len(a ) ): a = int(sequence[i] , 2 ) return sequence def _a ( a :int ) -> list: # The approach is a recursive one # Base case achieved when either n = 0 or n=1 if bit_count == 0: return ["0"] if bit_count == 1: return ["0", "1"] a = 1 << bit_count # defines the length of the sequence # 1<< n is equivalent to 2^n # recursive answer will generate answer for n-1 bits a = gray_code_sequence_string(bit_count - 1 ) a = [] # append 0 to first half of the smaller sequence generated for i in range(seq_len // 2 ): a = '''0''' + smaller_sequence[i] sequence.append(a ) # append 1 to second half ... start from the end of the list for i in reversed(range(seq_len // 2 ) ): a = '''1''' + smaller_sequence[i] sequence.append(a ) return sequence if __name__ == "__main__": import doctest doctest.testmod()

from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_speech_available, is_torch_available, ) UpperCAmelCase__ = { "configuration_trocr": ["TROCR_PRETRAINED_CONFIG_ARCHIVE_MAP", "TrOCRConfig"], "processing_trocr": ["TrOCRProcessor"], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "TROCR_PRETRAINED_MODEL_ARCHIVE_LIST", "TrOCRForCausalLM", "TrOCRPreTrainedModel", ] if TYPE_CHECKING: from .configuration_trocr import TROCR_PRETRAINED_CONFIG_ARCHIVE_MAP, TrOCRConfig from .processing_trocr import TrOCRProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_trocr import TROCR_PRETRAINED_MODEL_ARCHIVE_LIST, TrOCRForCausalLM, TrOCRPreTrainedModel else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

import json import os import shutil import tempfile import unittest import numpy as np from transformers import BertTokenizerFast from transformers.models.bert.tokenization_bert import VOCAB_FILES_NAMES, BertTokenizer from transformers.testing_utils import require_tokenizers, require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import VisionTextDualEncoderProcessor, ViTImageProcessor @require_tokenizers @require_vision class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : List[Any] ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() # fmt: off a = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing''', ''',''', '''low''', '''lowest'''] # fmt: on a = 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] ) ) a = { '''do_resize''': True, '''size''': {'''height''': 18, '''width''': 18}, '''do_normalize''': True, '''image_mean''': [0.5, 0.5, 0.5], '''image_std''': [0.5, 0.5, 0.5], } a = os.path.join(self.tmpdirname , __UpperCAmelCase ) with open(self.image_processor_file , '''w''' , encoding='''utf-8''' ) as fp: json.dump(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] , **__UpperCAmelCase : List[Any] ) ->int: """simple docstring""" return BertTokenizer.from_pretrained(self.tmpdirname , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Union[str, Any] , **__UpperCAmelCase : Optional[int] ) ->Union[str, Any]: """simple docstring""" return ViTImageProcessor.from_pretrained(self.tmpdirname , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" shutil.rmtree(self.tmpdirname ) def __lowerCAmelCase ( self : str ) ->Dict: """simple docstring""" a = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )] a = [Image.fromarray(np.moveaxis(__UpperCAmelCase , 0 , -1 ) ) for x in image_inputs] return image_inputs def __lowerCAmelCase ( self : Any ) ->Tuple: """simple docstring""" a = self.get_tokenizer() a = self.get_image_processor() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) processor.save_pretrained(self.tmpdirname ) a = VisionTextDualEncoderProcessor.from_pretrained(self.tmpdirname ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer.get_vocab() ) self.assertIsInstance(processor.tokenizer , (BertTokenizer, BertTokenizerFast) ) self.assertEqual(processor.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertIsInstance(processor.image_processor , __UpperCAmelCase ) def __lowerCAmelCase ( self : int ) ->Dict: """simple docstring""" a = VisionTextDualEncoderProcessor( tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) a = self.get_tokenizer(bos_token='''(BOS)''' , eos_token='''(EOS)''' ) a = self.get_image_processor(do_normalize=__UpperCAmelCase , padding_value=1.0 ) a = VisionTextDualEncoderProcessor.from_pretrained( self.tmpdirname , bos_token='''(BOS)''' , eos_token='''(EOS)''' , do_normalize=__UpperCAmelCase , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , (BertTokenizer, BertTokenizerFast) ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , __UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->Dict: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = self.prepare_image_inputs() a = image_processor(__UpperCAmelCase , return_tensors='''np''' ) a = processor(images=__UpperCAmelCase , return_tensors='''np''' ) for key in input_feat_extract.keys(): self.assertAlmostEqual(input_feat_extract[key].sum() , input_processor[key].sum() , delta=1e-2 ) def __lowerCAmelCase ( self : List[str] ) ->str: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = processor(text=__UpperCAmelCase ) a = tokenizer(__UpperCAmelCase ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = self.prepare_image_inputs() a = processor(text=__UpperCAmelCase , images=__UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , ['''input_ids''', '''token_type_ids''', '''attention_mask''', '''pixel_values'''] ) # test if it raises when no input is passed with self.assertRaises(__UpperCAmelCase ): processor() def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] a = processor.batch_decode(__UpperCAmelCase ) a = tokenizer.batch_decode(__UpperCAmelCase ) self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] ) ->Dict: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = self.prepare_image_inputs() a = processor(text=__UpperCAmelCase , images=__UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , processor.model_input_names )

import argparse import json import os from collections import OrderedDict import numpy as np import tensorflow as tf import torch def _a ( a :Union[str, Any] ) -> List[str]: a = os.path.join(args.tf_model_dir , '''parameters.json''' ) a = json.loads(open(a ).read() ) if not params: raise ValueError( F"""It seems that the json file at {parameter_file} is empty. Make sure you have a correct json file.""" ) if not args.output.endswith('''.pt''' ): a = args.output + '''.pt''' a = OrderedDict() with tf.device('''/CPU:0''' ): a = tf.train.load_checkpoint(args.tf_model_dir ) a = reader.get_variable_to_shape_map() for key_name in shapes.keys(): a = reader.get_tensor(a ).astype(np.floataa ) if key_name.endswith('''/adam_m''' ) or key_name.endswith('''/adam_v''' ): continue if key_name.startswith('''pasts/''' ): if key_name.startswith('''pasts/mlp''' ): a = int(key_name[9] ) elif key_name.startswith('''pasts/out''' ): a = 8 a = '''model.sqout.%d.weight''' % (player * 2) # enter to nn.Sequencial with Tanh, so 2 at a time a = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix a = torch.tensor(a ) elif key_name.startswith('''model/moe''' ): a = int(key_name[9:].split('''/''' )[0] ) if key_name.endswith('''/switch_gating/kernel''' ): a = '''model.blocks.%d.feed_forward.mlp.router.classifier.weight''' % player a = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix a = torch.tensor(a ) elif key_name.endswith('''/softmlp/kernel''' ): a = '''model.blocks.%d.feed_forward.soft_bypass_mlp.weight''' % player a = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix a = torch.tensor(a ) elif key_name.endswith('''/wo/kernel''' ) or key_name.endswith('''/wi/kernel''' ): a = key_name[-9:-7] for i in range(16 ): a = '''model.blocks.%d.feed_forward.mlp.experts.expert_%d.%s.weight''' % (player, i, nlayer) a = ( vnp[i].transpose([1, 0] ).copy() ) # In Mesh-Tensorflow, it is one array, so it is divided a = torch.tensor(a ) elif key_name.startswith('''model/mlp''' ): a = int(key_name[9:].split('''/''' )[0] ) if key_name.endswith('''/p1/kernel''' ): a = '''model.blocks.%d.feed_forward.mlp.wi.weight''' % player a = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix a = torch.tensor(a ) elif key_name.endswith('''/p1/bias''' ): a = '''model.blocks.%d.feed_forward.mlp.wi.bias''' % player a = vnp.copy() # same because it is one dimensional a = torch.tensor(a ) elif key_name.endswith('''/p2/kernel''' ): a = '''model.blocks.%d.feed_forward.mlp.wo.weight''' % player a = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix a = torch.tensor(a ) elif key_name.endswith('''/p2/bias''' ): a = '''model.blocks.%d.feed_forward.mlp.wo.bias''' % player a = vnp.copy() # same because it is one dimensional a = torch.tensor(a ) elif key_name.startswith('''model/ln''' ): a = int(key_name[8:].split('''/''' )[0] ) if key_name.endswith('''/b''' ): a = '''model.blocks.%d.feed_forward.norm.bias''' % player a = vnp.copy() # same because it is one dimensional a = torch.tensor(a ) elif key_name.endswith('''/g''' ): a = '''model.blocks.%d.feed_forward.norm.weight''' % player a = vnp.copy() # same because it is one dimensional a = torch.tensor(a ) elif key_name.startswith('''model/att''' ): a = int(key_name[9:].split('''/''' )[0] ) if key_name.endswith('''/qkv/kernel''' ): a = vnp.copy() # Compute same dimension as Mesh-tensorflow using einsum a = state[:, 0, :, :] a = state[:, 1, :, :] a = state[:, 2, :, :] a = ( state_q.reshape([state_q.shape[0], state_q.shape[1] * state_q.shape[2]] ) .transpose([1, 0] ) .copy() ) # Mesh-Tensorflow is a diagonal matrix a = ( state_k.reshape([state_k.shape[0], state_k.shape[1] * state_k.shape[2]] ) .transpose([1, 0] ) .copy() ) # Mesh-Tensorflow is a diagonal matrix a = ( state_v.reshape([state_v.shape[0], state_v.shape[1] * state_v.shape[2]] ) .transpose([1, 0] ) .copy() ) # Mesh-Tensorflow is a diagonal matrix a = '''model.blocks.%d.self_attn.self_attn.q_proj.weight''' % player a = torch.tensor(a ) a = '''model.blocks.%d.self_attn.self_attn.k_proj.weight''' % player a = torch.tensor(a ) a = '''model.blocks.%d.self_attn.self_attn.v_proj.weight''' % player a = torch.tensor(a ) elif key_name.endswith('''/o/kernel''' ): a = '''model.blocks.%d.self_attn.self_attn.out_proj.weight''' % player a = ( vnp.reshape([vnp.shape[0] * vnp.shape[1], vnp.shape[2]] ).transpose([1, 0] ).copy() ) # Mesh-Tensorflow is a diagonal matrix a = torch.tensor(a ) elif key_name.startswith('''model/an''' ): a = int(key_name[8:].split('''/''' )[0] ) if key_name.endswith('''/b''' ): a = '''model.blocks.%d.self_attn.norm.bias''' % player a = vnp.copy() # same because it is one dimensional a = torch.tensor(a ) elif key_name.endswith('''/g''' ): a = '''model.blocks.%d.self_attn.norm.weight''' % player a = vnp.copy() # same because it is one dimensional a = torch.tensor(a ) elif ( key_name.startswith('''model/wte''' ) or key_name.startswith('''model/wpe''' ) or key_name.startswith('''model/ete''' ) ): a = {'''wte''': '''embed_tokens''', '''wpe''': '''position_embeddings''', '''ete''': '''extra_position_embeddings'''}[ key_name[-3:] ] a = '''model.%s.weight''' % nlayer a = vnp.copy() # same in embedded a = torch.tensor(a ) if key_name.startswith('''model/wte''' ): a = '''lm_head.weight''' a = vnp.copy() # same in embedded a = torch.tensor(a ) elif key_name.startswith('''model/wob''' ): a = '''final_logits_bias''' a = vnp.copy() # same in embedded a = state.reshape((1, -1) ) a = torch.tensor(a ) elif key_name == "model/dense/kernel": a = '''model.last_project.weight''' a = vnp.transpose([1, 0] ).copy() # Mesh-Tensorflow is a diagonal matrix a = torch.tensor(a ) elif key_name == "model/dense_1/bias": a = '''model.last_project.bias''' a = vnp.copy() # same because it is one dimensional a = torch.tensor(a ) torch.save(a , args.output ) if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser( description="model converter.", formatter_class=argparse.ArgumentDefaultsHelpFormatter ) parser.add_argument("--tf_model_dir", metavar="PATH", type=str, required=True, help="import model") parser.add_argument("--output", metavar="PATH", type=str, required=True, help="output model") UpperCAmelCase__ = parser.parse_args() convert_tf_gptsan_to_pt(args)

import argparse import json from collections import OrderedDict import torch from huggingface_hub import cached_download, hf_hub_url from transformers import AutoImageProcessor, CvtConfig, CvtForImageClassification def _a ( a :List[Any] ) -> Optional[int]: a = [] embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.weight""", F"""stage{idx}.patch_embed.proj.weight""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.bias""", F"""stage{idx}.patch_embed.proj.bias""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.weight""", F"""stage{idx}.patch_embed.norm.weight""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.bias""", F"""stage{idx}.patch_embed.norm.bias""", ) ) return embed def _a ( a :List[Any] , a :Optional[int] ) -> Dict: a = [] attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_q.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_q.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_k.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_k.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_v.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_v.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj.bias""", ) ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.weight""", F"""stage{idx}.blocks.{cnt}.mlp.fc1.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.bias""", F"""stage{idx}.blocks.{cnt}.mlp.fc1.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.weight""", F"""stage{idx}.blocks.{cnt}.mlp.fc2.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.bias""", F"""stage{idx}.blocks.{cnt}.mlp.fc2.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.weight""", F"""stage{idx}.blocks.{cnt}.norm1.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.bias""", F"""stage{idx}.blocks.{cnt}.norm1.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.weight""", F"""stage{idx}.blocks.{cnt}.norm2.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.bias""", F"""stage{idx}.blocks.{cnt}.norm2.bias""") ) return attention_weights def _a ( a :Any ) -> List[Any]: a = [] token.append((F"""cvt.encoder.stages.{idx}.cls_token""", '''stage2.cls_token''') ) return token def _a ( ) -> Optional[int]: a = [] head.append(('''layernorm.weight''', '''norm.weight''') ) head.append(('''layernorm.bias''', '''norm.bias''') ) head.append(('''classifier.weight''', '''head.weight''') ) head.append(('''classifier.bias''', '''head.bias''') ) return head def _a ( a :Tuple , a :Optional[int] , a :List[Any] , a :Union[str, Any] ) -> Optional[int]: a = '''imagenet-1k-id2label.json''' a = 1_000 a = '''huggingface/label-files''' a = num_labels a = json.load(open(cached_download(hf_hub_url(a , a , repo_type='''dataset''' ) ) , '''r''' ) ) a = {int(a ): v for k, v in idalabel.items()} a = idalabel a = {v: k for k, v in idalabel.items()} a = a = CvtConfig(num_labels=a , idalabel=a , labelaid=a ) # For depth size 13 (13 = 1+2+10) if cvt_model.rsplit('''/''' , 1 )[-1][4:6] == "13": a = [1, 2, 10] # For depth size 21 (21 = 1+4+16) elif cvt_model.rsplit('''/''' , 1 )[-1][4:6] == "21": a = [1, 4, 16] # For wide cvt (similar to wide-resnet) depth size 24 (w24 = 2 + 2 20) else: a = [2, 2, 20] a = [3, 12, 16] a = [192, 768, 1_024] a = CvtForImageClassification(a ) a = AutoImageProcessor.from_pretrained('''facebook/convnext-base-224-22k-1k''' ) a = image_size a = torch.load(a , map_location=torch.device('''cpu''' ) ) a = OrderedDict() a = [] for idx in range(len(config.depth ) ): if config.cls_token[idx]: a = list_of_state_dict + cls_token(a ) a = list_of_state_dict + embeddings(a ) for cnt in range(config.depth[idx] ): a = list_of_state_dict + attention(a , a ) a = list_of_state_dict + final() for gg in list_of_state_dict: print(a ) for i in range(len(a ) ): a = original_weights[list_of_state_dict[i][1]] model.load_state_dict(a ) model.save_pretrained(a ) image_processor.save_pretrained(a ) # Download the weights from zoo: https://1drv.ms/u/s!AhIXJn_J-blW9RzF3rMW7SsLHa8h?e=blQ0Al if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() parser.add_argument( "--cvt_model", default="cvt-w24", type=str, help="Name of the cvt model you'd like to convert.", ) parser.add_argument( "--image_size", default=384, type=int, help="Input Image Size", ) parser.add_argument( "--cvt_file_name", default=R"cvtmodels\CvT-w24-384x384-IN-22k.pth", type=str, help="Input Image Size", ) parser.add_argument( "--pytorch_dump_folder_path", default=None, type=str, help="Path to the output PyTorch model directory." ) UpperCAmelCase__ = parser.parse_args() convert_cvt_checkpoint(args.cvt_model, args.image_size, args.cvt_file_name, args.pytorch_dump_folder_path)

import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "microsoft/wavlm-base": "https://huggingface.co/microsoft/wavlm-base/resolve/main/config.json", # See all WavLM models at https://huggingface.co/models?filter=wavlm } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''wavlm''' def __init__( self : str , __UpperCAmelCase : Optional[int]=32 , __UpperCAmelCase : Dict=768 , __UpperCAmelCase : Any=12 , __UpperCAmelCase : Union[str, Any]=12 , __UpperCAmelCase : Any=3_072 , __UpperCAmelCase : List[Any]="gelu" , __UpperCAmelCase : str=0.1 , __UpperCAmelCase : int=0.1 , __UpperCAmelCase : Optional[int]=0.1 , __UpperCAmelCase : Any=0.0 , __UpperCAmelCase : Optional[Any]=0.1 , __UpperCAmelCase : List[Any]=0.1 , __UpperCAmelCase : Optional[Any]=0.02 , __UpperCAmelCase : Tuple=1e-5 , __UpperCAmelCase : Dict="group" , __UpperCAmelCase : Optional[int]="gelu" , __UpperCAmelCase : Optional[Any]=(512, 512, 512, 512, 512, 512, 512) , __UpperCAmelCase : Any=(5, 2, 2, 2, 2, 2, 2) , __UpperCAmelCase : Tuple=(10, 3, 3, 3, 3, 2, 2) , __UpperCAmelCase : Any=False , __UpperCAmelCase : List[Any]=128 , __UpperCAmelCase : Tuple=16 , __UpperCAmelCase : str=320 , __UpperCAmelCase : List[Any]=800 , __UpperCAmelCase : Optional[Any]=False , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : Dict=0.05 , __UpperCAmelCase : Union[str, Any]=10 , __UpperCAmelCase : Optional[int]=2 , __UpperCAmelCase : Dict=0.0 , __UpperCAmelCase : Any=10 , __UpperCAmelCase : Union[str, Any]=320 , __UpperCAmelCase : str=2 , __UpperCAmelCase : Any=0.1 , __UpperCAmelCase : Union[str, Any]=100 , __UpperCAmelCase : str=256 , __UpperCAmelCase : Any=256 , __UpperCAmelCase : Any=0.1 , __UpperCAmelCase : Union[str, Any]="mean" , __UpperCAmelCase : Tuple=False , __UpperCAmelCase : Optional[Any]=False , __UpperCAmelCase : List[Any]=256 , __UpperCAmelCase : Optional[int]=(512, 512, 512, 512, 1_500) , __UpperCAmelCase : Any=(5, 3, 3, 1, 1) , __UpperCAmelCase : Dict=(1, 2, 3, 1, 1) , __UpperCAmelCase : Optional[int]=512 , __UpperCAmelCase : Optional[Any]=80 , __UpperCAmelCase : Tuple=0 , __UpperCAmelCase : Union[str, Any]=1 , __UpperCAmelCase : Union[str, Any]=2 , __UpperCAmelCase : List[Any]=False , __UpperCAmelCase : List[str]=3 , __UpperCAmelCase : Union[str, Any]=2 , __UpperCAmelCase : Optional[Any]=3 , __UpperCAmelCase : str=None , **__UpperCAmelCase : Dict , ) ->Dict: """simple docstring""" super().__init__(**__UpperCAmelCase , pad_token_id=__UpperCAmelCase , bos_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase ) a = hidden_size a = feat_extract_norm a = feat_extract_activation a = list(__UpperCAmelCase ) a = list(__UpperCAmelCase ) a = list(__UpperCAmelCase ) a = conv_bias a = num_buckets a = max_bucket_distance a = num_conv_pos_embeddings a = num_conv_pos_embedding_groups a = len(self.conv_dim ) a = num_hidden_layers a = intermediate_size a = hidden_act a = num_attention_heads a = hidden_dropout a = attention_dropout a = activation_dropout a = feat_proj_dropout a = final_dropout a = layerdrop a = layer_norm_eps a = initializer_range a = num_ctc_classes a = vocab_size a = do_stable_layer_norm a = use_weighted_layer_sum a = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' F""" {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`,""" F""" `len(config.conv_kernel) = {len(self.conv_kernel )}`.""" ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 a = apply_spec_augment a = mask_time_prob a = mask_time_length a = mask_time_min_masks a = mask_feature_prob a = mask_feature_length # parameters for pretraining with codevector quantized representations a = num_codevectors_per_group a = num_codevector_groups a = contrastive_logits_temperature a = num_negatives a = codevector_dim a = proj_codevector_dim a = diversity_loss_weight # ctc loss a = ctc_loss_reduction a = ctc_zero_infinity # adapter a = add_adapter a = adapter_kernel_size a = adapter_stride a = num_adapter_layers a = output_hidden_size or hidden_size # SequenceClassification-specific parameter. Feel free to ignore for other classes. a = classifier_proj_size # XVector-specific parameters. Feel free to ignore for other classes. a = list(__UpperCAmelCase ) a = list(__UpperCAmelCase ) a = list(__UpperCAmelCase ) a = xvector_output_dim @property def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[int]: """simple docstring""" return functools.reduce(operator.mul , self.conv_stride , 1 )

from __future__ import annotations UpperCAmelCase__ = list[list[int]] # assigning initial values to the grid UpperCAmelCase__ = [ [3, 0, 6, 5, 0, 8, 4, 0, 0], [5, 2, 0, 0, 0, 0, 0, 0, 0], [0, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] # a grid with no solution UpperCAmelCase__ = [ [5, 0, 6, 5, 0, 8, 4, 0, 3], [5, 2, 0, 0, 0, 0, 0, 0, 2], [1, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] def _a ( a :Matrix , a :int , a :int , a :int ) -> bool: for i in range(9 ): if grid[row][i] == n or grid[i][column] == n: return False for i in range(3 ): for j in range(3 ): if grid[(row - row % 3) + i][(column - column % 3) + j] == n: return False return True def _a ( a :Matrix ) -> tuple[int, int] | None: for i in range(9 ): for j in range(9 ): if grid[i][j] == 0: return i, j return None def _a ( a :Matrix ) -> Matrix | None: if location := find_empty_location(a ): a , a = location else: # If the location is ``None``, then the grid is solved. return grid for digit in range(1 , 10 ): if is_safe(a , a , a , a ): a = digit if sudoku(a ) is not None: return grid a = 0 return None def _a ( a :Matrix ) -> None: for row in grid: for cell in row: print(a , end=''' ''' ) print() if __name__ == "__main__": # make a copy of grid so that you can compare with the unmodified grid for example_grid in (initial_grid, no_solution): print("\nExample grid:\n" + "=" * 20) print_solution(example_grid) print("\nExample grid solution:") UpperCAmelCase__ = sudoku(example_grid) if solution is not None: print_solution(solution) else: print("Cannot find a solution.")

import os from shutil import copyfile from typing import List, Optional, Tuple from ...tokenization_utils import AddedToken from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import is_sentencepiece_available, logging if is_sentencepiece_available(): from .tokenization_camembert import CamembertTokenizer else: UpperCAmelCase__ = None UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = {"vocab_file": "sentencepiece.bpe.model", "tokenizer_file": "tokenizer.json"} UpperCAmelCase__ = { "vocab_file": { "camembert-base": "https://huggingface.co/camembert-base/resolve/main/sentencepiece.bpe.model", }, "tokenizer_file": { "camembert-base": "https://huggingface.co/camembert-base/resolve/main/tokenizer.json", }, } UpperCAmelCase__ = { "camembert-base": 512, } UpperCAmelCase__ = "▁" class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = VOCAB_FILES_NAMES __snake_case = PRETRAINED_VOCAB_FILES_MAP __snake_case = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __snake_case = ['''input_ids''', '''attention_mask'''] __snake_case = CamembertTokenizer def __init__( self : Dict , __UpperCAmelCase : Optional[int]=None , __UpperCAmelCase : List[str]=None , __UpperCAmelCase : str="<s>" , __UpperCAmelCase : int="</s>" , __UpperCAmelCase : List[Any]="</s>" , __UpperCAmelCase : List[Any]="<s>" , __UpperCAmelCase : str="<unk>" , __UpperCAmelCase : Optional[int]="<pad>" , __UpperCAmelCase : Optional[Any]="<mask>" , __UpperCAmelCase : Optional[Any]=["<s>NOTUSED", "</s>NOTUSED"] , **__UpperCAmelCase : int , ) ->List[Any]: """simple docstring""" a = AddedToken(__UpperCAmelCase , lstrip=__UpperCAmelCase , rstrip=__UpperCAmelCase ) if isinstance(__UpperCAmelCase , __UpperCAmelCase ) else mask_token super().__init__( __UpperCAmelCase , tokenizer_file=__UpperCAmelCase , bos_token=__UpperCAmelCase , eos_token=__UpperCAmelCase , sep_token=__UpperCAmelCase , cls_token=__UpperCAmelCase , unk_token=__UpperCAmelCase , pad_token=__UpperCAmelCase , mask_token=__UpperCAmelCase , additional_special_tokens=__UpperCAmelCase , **__UpperCAmelCase , ) a = vocab_file a = False if not self.vocab_file else True def __lowerCAmelCase ( self : Dict , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) ->List[int]: """simple docstring""" if token_ids_a is None: return [self.cls_token_id] + token_ids_a + [self.sep_token_id] a = [self.cls_token_id] a = [self.sep_token_id] return cls + token_ids_a + sep + sep + token_ids_a + sep def __lowerCAmelCase ( self : int , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) ->List[int]: """simple docstring""" a = [self.sep_token_id] a = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0] def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : str , __UpperCAmelCase : Optional[str] = None ) ->Tuple[str]: """simple docstring""" if not self.can_save_slow_tokenizer: raise ValueError( '''Your fast tokenizer does not have the necessary information to save the vocabulary for a slow ''' '''tokenizer.''' ) if not os.path.isdir(__UpperCAmelCase ): logger.error(F"""Vocabulary path ({save_directory}) should be a directory""" ) return a = os.path.join( __UpperCAmelCase , (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''vocab_file'''] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(__UpperCAmelCase ): copyfile(self.vocab_file , __UpperCAmelCase ) return (out_vocab_file,)

import unittest import numpy as np import torch from torch import nn from transformers import ( CLIPImageProcessor, CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer, CLIPVisionConfig, CLIPVisionModelWithProjection, ) from diffusers import KandinskyVaaPriorPipeline, PriorTransformer, UnCLIPScheduler from diffusers.utils import torch_device from diffusers.utils.testing_utils import enable_full_determinism, skip_mps from ..test_pipelines_common import PipelineTesterMixin enable_full_determinism() class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = KandinskyVaaPriorPipeline __snake_case = ['''prompt'''] __snake_case = ['''prompt''', '''negative_prompt'''] __snake_case = [ '''num_images_per_prompt''', '''generator''', '''num_inference_steps''', '''latents''', '''negative_prompt''', '''guidance_scale''', '''output_type''', '''return_dict''', ] __snake_case = False @property def __lowerCAmelCase ( self : Optional[Any] ) ->Union[str, Any]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Dict ) ->Any: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : int ) ->List[str]: """simple docstring""" return self.time_input_dim @property def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" return self.time_input_dim * 4 @property def __lowerCAmelCase ( self : Any ) ->List[Any]: """simple docstring""" return 100 @property def __lowerCAmelCase ( self : List[Any] ) ->str: """simple docstring""" a = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) return tokenizer @property def __lowerCAmelCase ( self : Tuple ) ->str: """simple docstring""" torch.manual_seed(0 ) a = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1e-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__UpperCAmelCase ) @property def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" torch.manual_seed(0 ) a = { '''num_attention_heads''': 2, '''attention_head_dim''': 12, '''embedding_dim''': self.text_embedder_hidden_size, '''num_layers''': 1, } a = PriorTransformer(**__UpperCAmelCase ) # clip_std and clip_mean is initialized to be 0 so PriorTransformer.post_process_latents will always return 0 - set clip_std to be 1 so it won't return 0 a = nn.Parameter(torch.ones(model.clip_std.shape ) ) return model @property def __lowerCAmelCase ( self : Optional[int] ) ->List[Any]: """simple docstring""" torch.manual_seed(0 ) a = CLIPVisionConfig( hidden_size=self.text_embedder_hidden_size , image_size=224 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=14 , ) a = CLIPVisionModelWithProjection(__UpperCAmelCase ) return model @property def __lowerCAmelCase ( self : Tuple ) ->int: """simple docstring""" a = CLIPImageProcessor( crop_size=224 , do_center_crop=__UpperCAmelCase , do_normalize=__UpperCAmelCase , do_resize=__UpperCAmelCase , image_mean=[0.48145466, 0.4578275, 0.40821073] , image_std=[0.26862954, 0.26130258, 0.27577711] , resample=3 , size=224 , ) return image_processor def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = self.dummy_prior a = self.dummy_image_encoder a = self.dummy_text_encoder a = self.dummy_tokenizer a = self.dummy_image_processor a = UnCLIPScheduler( variance_type='''fixed_small_log''' , prediction_type='''sample''' , num_train_timesteps=1_000 , clip_sample=__UpperCAmelCase , clip_sample_range=10.0 , ) a = { '''prior''': prior, '''image_encoder''': image_encoder, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''scheduler''': scheduler, '''image_processor''': image_processor, } return components def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : str=0 ) ->int: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''prompt''': '''horse''', '''generator''': generator, '''guidance_scale''': 4.0, '''num_inference_steps''': 2, '''output_type''': '''np''', } return inputs def __lowerCAmelCase ( self : str ) ->Tuple: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = pipe(**self.get_dummy_inputs(__UpperCAmelCase ) ) a = output.image_embeds a = pipe( **self.get_dummy_inputs(__UpperCAmelCase ) , return_dict=__UpperCAmelCase , )[0] a = image[0, -10:] a = image_from_tuple[0, -10:] assert image.shape == (1, 32) a = np.array( [-0.0532, 1.7120, 0.3656, -1.0852, -0.8946, -1.1756, 0.4348, 0.2482, 0.5146, -0.1156] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1e-2 @skip_mps def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = torch_device == '''cpu''' a = True a = False self._test_inference_batch_single_identical( test_max_difference=__UpperCAmelCase , relax_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , ) @skip_mps def __lowerCAmelCase ( self : List[str] ) ->Union[str, Any]: """simple docstring""" a = torch_device == '''cpu''' a = False self._test_attention_slicing_forward_pass( test_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , )

from ..utils import DummyObject, requires_backends class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[int] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[str] , *__UpperCAmelCase : int , **__UpperCAmelCase : Optional[int] ) ->List[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[int] , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : int ) ->Any: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : str , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Optional[Any] ) ->str: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : int ) ->Dict: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : List[str] , **__UpperCAmelCase : List[Any] ) ->Optional[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Optional[Any] ) ->List[Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : Any , **__UpperCAmelCase : Optional[int] ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[int] , *__UpperCAmelCase : Any , **__UpperCAmelCase : Dict ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Optional[int] ) ->Optional[Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[Any] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : List[Any] ) ->Dict: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Dict , *__UpperCAmelCase : Any , **__UpperCAmelCase : List[Any] ) ->Tuple: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : int , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Optional[int] ) ->Dict: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : List[Any] ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Optional[Any] ) ->Tuple: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Union[str, Any] , *__UpperCAmelCase : str , **__UpperCAmelCase : List[str] ) ->int: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Union[str, Any] , *__UpperCAmelCase : int , **__UpperCAmelCase : int ) ->int: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[int] , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : int ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : int , **__UpperCAmelCase : str ) ->Optional[int]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Dict , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : List[Any] ) ->int: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Dict , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : str ) ->List[str]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[int] , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : str ) ->str: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Dict , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : List[str] ) ->Any: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : List[str] , **__UpperCAmelCase : Any ) ->List[str]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : str , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Dict ) ->Tuple: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : int , *__UpperCAmelCase : Dict , **__UpperCAmelCase : List[Any] ) ->Optional[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[Any] , *__UpperCAmelCase : Any , **__UpperCAmelCase : Tuple ) ->Optional[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Dict , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : Union[str, Any] ) ->str: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Dict , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Tuple ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : Union[str, Any] ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[Any] , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : int ) ->Optional[Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[str] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Optional[Any] ) ->Tuple: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Union[str, Any] , *__UpperCAmelCase : str , **__UpperCAmelCase : Optional[int] ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) def _a ( *a :Union[str, Any] , **a :List[str] ) -> int: requires_backends(a , ['''torch'''] ) def _a ( *a :Dict , **a :Dict ) -> List[str]: requires_backends(a , ['''torch'''] ) def _a ( *a :Dict , **a :Any ) -> Tuple: requires_backends(a , ['''torch'''] ) def _a ( *a :Any , **a :Union[str, Any] ) -> List[Any]: requires_backends(a , ['''torch'''] ) def _a ( *a :List[str] , **a :Dict ) -> Optional[int]: requires_backends(a , ['''torch'''] ) def _a ( *a :Any , **a :Union[str, Any] ) -> Any: requires_backends(a , ['''torch'''] ) def _a ( *a :List[Any] , **a :Any ) -> int: requires_backends(a , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[int] , *__UpperCAmelCase : Any , **__UpperCAmelCase : int ) ->Union[str, Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[Any] , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : List[str] ) ->Tuple: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[str] , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Optional[int] ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Any , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : Optional[int] ) ->List[str]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : int , **__UpperCAmelCase : Optional[Any] ) ->List[str]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Union[str, Any] , *__UpperCAmelCase : str , **__UpperCAmelCase : Optional[Any] ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : str , *__UpperCAmelCase : Any , **__UpperCAmelCase : Any ) ->Union[str, Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[Any] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Optional[int] ) ->List[str]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[str] , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : List[str] ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : str , **__UpperCAmelCase : str ) ->Union[str, Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Union[str, Any] , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : Union[str, Any] ) ->Tuple: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[int] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : List[str] ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Tuple , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Union[str, Any] ) ->Optional[Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Optional[int] ) ->List[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : Any , **__UpperCAmelCase : Tuple ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : str , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : int ) ->Tuple: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[Any] , *__UpperCAmelCase : str , **__UpperCAmelCase : str ) ->Any: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Optional[Any] ) ->int: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Dict , *__UpperCAmelCase : List[str] , **__UpperCAmelCase : List[str] ) ->List[str]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Union[str, Any] , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : Optional[Any] ) ->int: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[Any] , *__UpperCAmelCase : Any , **__UpperCAmelCase : Any ) ->int: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : str , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Optional[int] ) ->Dict: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : int , *__UpperCAmelCase : str , **__UpperCAmelCase : int ) ->Dict: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Union[str, Any] , *__UpperCAmelCase : str , **__UpperCAmelCase : Any ) ->Tuple: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[str] , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : Optional[int] ) ->Tuple: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Union[str, Any] , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : List[Any] ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : str , **__UpperCAmelCase : Optional[int] ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : int , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Tuple ) ->Tuple: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : List[str] ) ->List[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Dict ) ->List[str]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Any , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : Any ) ->Union[str, Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : str ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : str ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Optional[int] ) ->Any: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : List[str] ) ->Any: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Any ) ->Optional[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Dict , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : Any ) ->Union[str, Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : int , *__UpperCAmelCase : List[str] , **__UpperCAmelCase : Union[str, Any] ) ->int: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Optional[Any] ) ->int: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : int , *__UpperCAmelCase : Any , **__UpperCAmelCase : List[str] ) ->Dict: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : int , **__UpperCAmelCase : int ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : List[str] , **__UpperCAmelCase : Optional[Any] ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : str , *__UpperCAmelCase : int , **__UpperCAmelCase : List[str] ) ->Optional[int]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : Tuple ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[Any] , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : List[Any] ) ->int: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Dict , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Dict ) ->List[str]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : List[str] ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Any ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : int , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Tuple ) ->Optional[Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[int] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Dict ) ->List[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Dict ) ->int: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Dict ) ->str: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : int ) ->Dict: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Union[str, Any] ) ->Tuple: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Dict , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : List[str] ) ->Optional[Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : List[str] , **__UpperCAmelCase : int ) ->Optional[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : Dict , **__UpperCAmelCase : str ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Optional[Any] ) ->Optional[int]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : int , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : str ) ->List[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Dict , *__UpperCAmelCase : str , **__UpperCAmelCase : List[Any] ) ->Any: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[str] , *__UpperCAmelCase : int , **__UpperCAmelCase : List[Any] ) ->Union[str, Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : Any , **__UpperCAmelCase : Tuple ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Dict , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : List[str] ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[Any] , *__UpperCAmelCase : int , **__UpperCAmelCase : Union[str, Any] ) ->List[Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[Any] , *__UpperCAmelCase : Any , **__UpperCAmelCase : Any ) ->List[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[int] , *__UpperCAmelCase : str , **__UpperCAmelCase : Tuple ) ->List[str]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[Any] , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : str ) ->Optional[int]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : Dict , **__UpperCAmelCase : List[Any] ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Dict ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[str] , *__UpperCAmelCase : Any , **__UpperCAmelCase : str ) ->Optional[Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[int] , *__UpperCAmelCase : str , **__UpperCAmelCase : Union[str, Any] ) ->Any: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[str] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : str ) ->Dict: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[str] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Tuple ) ->Any: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : Any , **__UpperCAmelCase : Dict ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : str , **__UpperCAmelCase : Optional[Any] ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[int] , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : Optional[Any] ) ->Optional[int]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : int , *__UpperCAmelCase : Any , **__UpperCAmelCase : Any ) ->List[str]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Optional[int] ) ->List[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[Any] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Optional[int] ) ->Dict: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[Any] , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : Any ) ->Any: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[str] , *__UpperCAmelCase : Any , **__UpperCAmelCase : List[str] ) ->Optional[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Union[str, Any] ) ->int: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : List[Any] ) ->Any: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : Optional[int] ) ->Optional[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Any , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : Dict ) ->Any: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Dict , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : str ) ->Optional[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[str] , *__UpperCAmelCase : str , **__UpperCAmelCase : List[str] ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : List[Any] ) ->Tuple: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[str] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Union[str, Any] ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[int] , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : int ) ->Tuple: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[Any] , *__UpperCAmelCase : str , **__UpperCAmelCase : Tuple ) ->Optional[int]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : int ) ->Tuple: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Any , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Dict ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Dict , *__UpperCAmelCase : Any , **__UpperCAmelCase : Tuple ) ->Union[str, Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : str , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Optional[Any] ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : Dict ) ->List[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Union[str, Any] ) ->Dict: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : List[Any] ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[Any] , *__UpperCAmelCase : List[Any] , **__UpperCAmelCase : Union[str, Any] ) ->Dict: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[Any] , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : Any ) ->Dict: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Union[str, Any] , *__UpperCAmelCase : Union[str, Any] , **__UpperCAmelCase : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[Any] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Optional[Any] ) ->str: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Dict , *__UpperCAmelCase : int , **__UpperCAmelCase : List[str] ) ->List[Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : int , *__UpperCAmelCase : str , **__UpperCAmelCase : Union[str, Any] ) ->Dict: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Union[str, Any] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Optional[int] ) ->int: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[int] , *__UpperCAmelCase : Tuple , **__UpperCAmelCase : str ) ->List[Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : Any , **__UpperCAmelCase : str ) ->Optional[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Union[str, Any] , *__UpperCAmelCase : int , **__UpperCAmelCase : str ) ->List[str]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : List[Any] , *__UpperCAmelCase : int , **__UpperCAmelCase : Union[str, Any] ) ->List[str]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Dict , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : str ) ->List[str]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Optional[int] , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Union[str, Any] ) ->Optional[int]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : int , *__UpperCAmelCase : Dict , **__UpperCAmelCase : Tuple ) ->Optional[int]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : List[str] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Optional[int] ) ->Any: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : int , **__UpperCAmelCase : Optional[int] ) ->Union[str, Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) class lowercase_ ( metaclass=lowercase ): '''simple docstring''' __snake_case = ['''torch'''] def __init__( self : Optional[Any] , *__UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Optional[int] ) ->Union[str, Any]: """simple docstring""" requires_backends(self , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Tuple , *__UpperCAmelCase : int , **__UpperCAmelCase : Union[str, Any] ) ->List[Any]: """simple docstring""" requires_backends(cls , ['''torch'''] ) @classmethod def __lowerCAmelCase ( cls : Dict , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : Dict ) ->Dict: """simple docstring""" requires_backends(cls , ['''torch'''] )

from math import factorial UpperCAmelCase__ = {str(digit): factorial(digit) for digit in range(10)} def _a ( a :int ) -> int: if not isinstance(a , a ): raise TypeError('''Parameter number must be int''' ) if number < 0: raise ValueError('''Parameter number must be greater than or equal to 0''' ) # Converts number in string to iterate on its digits and adds its factorial. return sum(DIGIT_FACTORIAL[digit] for digit in str(a ) ) def _a ( a :int = 60 , a :int = 1_000_000 ) -> int: if not isinstance(a , a ) or not isinstance(a , a ): raise TypeError('''Parameters chain_length and number_limit must be int''' ) if chain_length <= 0 or number_limit <= 0: raise ValueError( '''Parameters chain_length and number_limit must be greater than 0''' ) # the counter for the chains with the exact desired length a = 0 # the cached sizes of the previous chains a = {} for start_chain_element in range(1 , a ): # The temporary set will contain the elements of the chain a = set() a = 0 # Stop computing the chain when you find a cached size, a repeating item or the # length is greater then the desired one. a = start_chain_element while ( chain_element not in chain_sets_lengths and chain_element not in chain_set and chain_set_length <= chain_length ): chain_set.add(a ) chain_set_length += 1 a = digit_factorial_sum(a ) if chain_element in chain_sets_lengths: chain_set_length += chain_sets_lengths[chain_element] a = chain_set_length # If chain contains the exact amount of elements increase the counter if chain_set_length == chain_length: chains_counter += 1 return chains_counter if __name__ == "__main__": import doctest doctest.testmod() print(f"""{solution()}""")

UpperCAmelCase__ = 256 # Modulus to hash a string UpperCAmelCase__ = 1000003 def _a ( a :str , a :str ) -> bool: a = len(a ) a = len(a ) if p_len > t_len: return False a = 0 a = 0 a = 1 # Calculating the hash of pattern and substring of text for i in range(a ): a = (ord(pattern[i] ) + p_hash * alphabet_size) % modulus a = (ord(text[i] ) + text_hash * alphabet_size) % modulus if i == p_len - 1: continue a = (modulus_power * alphabet_size) % modulus for i in range(0 , t_len - p_len + 1 ): if text_hash == p_hash and text[i : i + p_len] == pattern: return True if i == t_len - p_len: continue # Calculate the https://en.wikipedia.org/wiki/Rolling_hash a = ( (text_hash - ord(text[i] ) * modulus_power) * alphabet_size + ord(text[i + p_len] ) ) % modulus return False def _a ( ) -> None: a = '''abc1abc12''' a = '''alskfjaldsabc1abc1abc12k23adsfabcabc''' a = '''alskfjaldsk23adsfabcabc''' assert rabin_karp(a , a ) and not rabin_karp(a , a ) # Test 2) a = '''ABABX''' a = '''ABABZABABYABABX''' assert rabin_karp(a , a ) # Test 3) a = '''AAAB''' a = '''ABAAAAAB''' assert rabin_karp(a , a ) # Test 4) a = '''abcdabcy''' a = '''abcxabcdabxabcdabcdabcy''' assert rabin_karp(a , a ) # Test 5) a = '''Lü''' a = '''Lüsai''' assert rabin_karp(a , a ) a = '''Lue''' assert not rabin_karp(a , a ) print('''Success.''' ) if __name__ == "__main__": test_rabin_karp()

def _a ( a :int = 100 ) -> int: a = n * (n + 1) * (2 * n + 1) / 6 a = (n * (n + 1) / 2) ** 2 return int(square_of_sum - sum_of_squares ) if __name__ == "__main__": print(f"""{solution() = }""")

import importlib.util import os import platform from argparse import ArgumentParser import huggingface_hub from .. import __version__ as version from ..utils import ( is_accelerate_available, is_flax_available, is_safetensors_available, is_tf_available, is_torch_available, ) from . import BaseTransformersCLICommand def _a ( a :Any ) -> Dict: return EnvironmentCommand() def _a ( a :Optional[Any] ) -> List[Any]: return EnvironmentCommand(args.accelerate_config_file ) class lowercase_ ( lowercase ): '''simple docstring''' @staticmethod def __lowerCAmelCase ( __UpperCAmelCase : ArgumentParser ) ->str: """simple docstring""" a = parser.add_parser('''env''' ) download_parser.set_defaults(func=__UpperCAmelCase ) download_parser.add_argument( '''--accelerate-config_file''' , default=__UpperCAmelCase , help='''The accelerate config file to use for the default values in the launching script.''' , ) download_parser.set_defaults(func=__UpperCAmelCase ) def __init__( self : Union[str, Any] , __UpperCAmelCase : Any , *__UpperCAmelCase : List[Any] ) ->None: """simple docstring""" a = accelerate_config_file def __lowerCAmelCase ( self : int ) ->Tuple: """simple docstring""" a = '''not installed''' if is_safetensors_available(): import safetensors a = safetensors.__version__ elif importlib.util.find_spec('''safetensors''' ) is not None: import safetensors a = F"""{safetensors.__version__} but is ignored because of PyTorch version too old.""" a = '''not installed''' a = a = '''not found''' if is_accelerate_available(): import accelerate from accelerate.commands.config import default_config_file, load_config_from_file a = accelerate.__version__ # Get the default from the config file. if self._accelerate_config_file is not None or os.path.isfile(__UpperCAmelCase ): a = load_config_from_file(self._accelerate_config_file ).to_dict() a = ( '''\n'''.join([F"""\t- {prop}: {val}""" for prop, val in accelerate_config.items()] ) if isinstance(__UpperCAmelCase , __UpperCAmelCase ) else F"""\t{accelerate_config}""" ) a = '''not installed''' a = '''NA''' if is_torch_available(): import torch a = torch.__version__ a = torch.cuda.is_available() a = '''not installed''' a = '''NA''' if is_tf_available(): import tensorflow as tf a = tf.__version__ try: # deprecated in v2.1 a = tf.test.is_gpu_available() except AttributeError: # returns list of devices, convert to bool a = bool(tf.config.list_physical_devices('''GPU''' ) ) a = '''not installed''' a = '''not installed''' a = '''not installed''' a = '''NA''' if is_flax_available(): import flax import jax import jaxlib a = flax.__version__ a = jax.__version__ a = jaxlib.__version__ a = jax.lib.xla_bridge.get_backend().platform a = { '''`transformers` version''': version, '''Platform''': platform.platform(), '''Python version''': platform.python_version(), '''Huggingface_hub version''': huggingface_hub.__version__, '''Safetensors version''': F"""{safetensors_version}""", '''Accelerate version''': F"""{accelerate_version}""", '''Accelerate config''': F"""{accelerate_config_str}""", '''PyTorch version (GPU?)''': F"""{pt_version} ({pt_cuda_available})""", '''Tensorflow version (GPU?)''': F"""{tf_version} ({tf_cuda_available})""", '''Flax version (CPU?/GPU?/TPU?)''': F"""{flax_version} ({jax_backend})""", '''Jax version''': F"""{jax_version}""", '''JaxLib version''': F"""{jaxlib_version}""", '''Using GPU in script?''': '''<fill in>''', '''Using distributed or parallel set-up in script?''': '''<fill in>''', } print('''\nCopy-and-paste the text below in your GitHub issue and FILL OUT the two last points.\n''' ) print(self.format_dict(__UpperCAmelCase ) ) return info @staticmethod def __lowerCAmelCase ( __UpperCAmelCase : List[Any] ) ->Any: """simple docstring""" return "\n".join([F"""- {prop}: {val}""" for prop, val in d.items()] ) + "\n"

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available UpperCAmelCase__ = { "configuration_groupvit": [ "GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP", "GroupViTConfig", "GroupViTOnnxConfig", "GroupViTTextConfig", "GroupViTVisionConfig", ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST", "GroupViTModel", "GroupViTPreTrainedModel", "GroupViTTextModel", "GroupViTVisionModel", ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST", "TFGroupViTModel", "TFGroupViTPreTrainedModel", "TFGroupViTTextModel", "TFGroupViTVisionModel", ] if TYPE_CHECKING: from .configuration_groupvit import ( GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP, GroupViTConfig, GroupViTOnnxConfig, GroupViTTextConfig, GroupViTVisionConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_groupvit import ( GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST, GroupViTModel, GroupViTPreTrainedModel, GroupViTTextModel, GroupViTVisionModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_groupvit import ( TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST, TFGroupViTModel, TFGroupViTPreTrainedModel, TFGroupViTTextModel, TFGroupViTVisionModel, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

import os def _a ( ) -> Union[str, Any]: with open(os.path.dirname(a ) + '''/p022_names.txt''' ) as file: a = str(file.readlines()[0] ) a = names.replace('''"''' , '''''' ).split(''',''' ) names.sort() a = 0 a = 0 for i, name in enumerate(a ): for letter in name: name_score += ord(a ) - 64 total_score += (i + 1) * name_score a = 0 return total_score if __name__ == "__main__": print(solution())

import gc import unittest import numpy as np import torch from transformers import CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer from diffusers import HeunDiscreteScheduler, PriorTransformer, ShapEPipeline from diffusers.pipelines.shap_e import ShapERenderer from diffusers.utils import load_numpy, slow from diffusers.utils.testing_utils import require_torch_gpu, torch_device from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ShapEPipeline __snake_case = ['''prompt'''] __snake_case = ['''prompt'''] __snake_case = [ '''num_images_per_prompt''', '''num_inference_steps''', '''generator''', '''latents''', '''guidance_scale''', '''frame_size''', '''output_type''', '''return_dict''', ] __snake_case = False @property def __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Any ) ->Tuple: """simple docstring""" return self.time_input_dim * 4 @property def __lowerCAmelCase ( self : Tuple ) ->Optional[Any]: """simple docstring""" return 8 @property def __lowerCAmelCase ( self : Tuple ) ->str: """simple docstring""" a = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) return tokenizer @property def __lowerCAmelCase ( self : Union[str, Any] ) ->List[Any]: """simple docstring""" torch.manual_seed(0 ) a = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1e-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__UpperCAmelCase ) @property def __lowerCAmelCase ( self : Dict ) ->Union[str, Any]: """simple docstring""" torch.manual_seed(0 ) a = { '''num_attention_heads''': 2, '''attention_head_dim''': 16, '''embedding_dim''': self.time_input_dim, '''num_embeddings''': 32, '''embedding_proj_dim''': self.text_embedder_hidden_size, '''time_embed_dim''': self.time_embed_dim, '''num_layers''': 1, '''clip_embed_dim''': self.time_input_dim * 2, '''additional_embeddings''': 0, '''time_embed_act_fn''': '''gelu''', '''norm_in_type''': '''layer''', '''encoder_hid_proj_type''': None, '''added_emb_type''': None, } a = PriorTransformer(**__UpperCAmelCase ) return model @property def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" torch.manual_seed(0 ) a = { '''param_shapes''': ( (self.renderer_dim, 93), (self.renderer_dim, 8), (self.renderer_dim, 8), (self.renderer_dim, 8), ), '''d_latent''': self.time_input_dim, '''d_hidden''': self.renderer_dim, '''n_output''': 12, '''background''': ( 0.1, 0.1, 0.1, ), } a = ShapERenderer(**__UpperCAmelCase ) return model def __lowerCAmelCase ( self : List[Any] ) ->Any: """simple docstring""" a = self.dummy_prior a = self.dummy_text_encoder a = self.dummy_tokenizer a = self.dummy_renderer a = HeunDiscreteScheduler( beta_schedule='''exp''' , num_train_timesteps=1_024 , prediction_type='''sample''' , use_karras_sigmas=__UpperCAmelCase , clip_sample=__UpperCAmelCase , clip_sample_range=1.0 , ) a = { '''prior''': prior, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''renderer''': renderer, '''scheduler''': scheduler, } return components def __lowerCAmelCase ( self : Tuple , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : str=0 ) ->Optional[int]: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''prompt''': '''horse''', '''generator''': generator, '''num_inference_steps''': 1, '''frame_size''': 32, '''output_type''': '''np''', } return inputs def __lowerCAmelCase ( self : Dict ) ->Optional[int]: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = pipe(**self.get_dummy_inputs(__UpperCAmelCase ) ) a = output.images[0] a = image[0, -3:, -3:, -1] assert image.shape == (20, 32, 32, 3) a = np.array( [ 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, 0.00039216, ] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 def __lowerCAmelCase ( self : Dict ) ->Optional[Any]: """simple docstring""" self._test_inference_batch_consistent(batch_sizes=[1, 2] ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = torch_device == '''cpu''' a = True self._test_inference_batch_single_identical( batch_size=2 , test_max_difference=__UpperCAmelCase , relax_max_difference=__UpperCAmelCase , ) def __lowerCAmelCase ( self : str ) ->Optional[int]: """simple docstring""" a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = 1 a = 2 a = self.get_dummy_inputs(__UpperCAmelCase ) for key in inputs.keys(): if key in self.batch_params: a = batch_size * [inputs[key]] a = pipe(**__UpperCAmelCase , num_images_per_prompt=__UpperCAmelCase )[0] assert images.shape[0] == batch_size * num_images_per_prompt @slow @require_torch_gpu class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : int ) ->Any: """simple docstring""" super().tearDown() gc.collect() torch.cuda.empty_cache() def __lowerCAmelCase ( self : List[Any] ) ->Union[str, Any]: """simple docstring""" a = load_numpy( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' '''/shap_e/test_shap_e_np_out.npy''' ) a = ShapEPipeline.from_pretrained('''openai/shap-e''' ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = torch.Generator(device=__UpperCAmelCase ).manual_seed(0 ) a = pipe( '''a shark''' , generator=__UpperCAmelCase , guidance_scale=15.0 , num_inference_steps=64 , frame_size=64 , output_type='''np''' , ).images[0] assert images.shape == (20, 64, 64, 3) assert_mean_pixel_difference(__UpperCAmelCase , __UpperCAmelCase )

from __future__ import annotations def _a ( a :float , a :float , a :float ) -> dict[str, float]: if (voltage, current, resistance).count(0 ) != 1: raise ValueError('''One and only one argument must be 0''' ) if resistance < 0: raise ValueError('''Resistance cannot be negative''' ) if voltage == 0: return {"voltage": float(current * resistance )} elif current == 0: return {"current": voltage / resistance} elif resistance == 0: return {"resistance": voltage / current} else: raise ValueError('''Exactly one argument must be 0''' ) if __name__ == "__main__": import doctest doctest.testmod()

from __future__ import annotations import time import numpy as np UpperCAmelCase__ = [8, 5, 9, 7] UpperCAmelCase__ = [ [2, 0, 1, 1], [0, 1, 2, 1], [4, 0, 0, 3], [0, 2, 1, 0], [1, 0, 3, 0], ] UpperCAmelCase__ = [ [3, 2, 1, 4], [0, 2, 5, 2], [5, 1, 0, 5], [1, 5, 3, 0], [3, 0, 3, 3], ] class lowercase_ : '''simple docstring''' def __init__( self : Optional[int] , __UpperCAmelCase : list[int] , __UpperCAmelCase : list[list[int]] , __UpperCAmelCase : list[list[int]] , ) ->None: """simple docstring""" a = claim_vector a = allocated_resources_table a = maximum_claim_table def __lowerCAmelCase ( self : Any ) ->list[int]: """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 __lowerCAmelCase ( self : Optional[int] ) ->list[int]: """simple docstring""" return np.array(self.__claim_vector ) - np.array( self.__processes_resource_summation() ) def __lowerCAmelCase ( self : Union[str, Any] ) ->list[list[int]]: """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 __lowerCAmelCase ( self : Tuple ) ->dict[int, list[int]]: """simple docstring""" return {self.__need().index(__UpperCAmelCase ): i for i in self.__need()} def __lowerCAmelCase ( self : Optional[Any] , **__UpperCAmelCase : Any ) ->None: """simple docstring""" a = self.__need() a = self.__allocated_resources_table a = self.__available_resources() a = 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: a = False for each_need in need_list: a = True for index, need in enumerate(__UpperCAmelCase ): if need > available_resources[index]: a = False break if execution: a = 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: a = 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 a = 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 __lowerCAmelCase ( self : List[Any] ) ->Dict: """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()

import random def _a ( a :int ) -> bool: a = num - 1 a = 0 while s % 2 == 0: a = s // 2 t += 1 for _ in range(5 ): a = random.randrange(2 , num - 1 ) a = pow(a , a , a ) if v != 1: a = 0 while v != (num - 1): if i == t - 1: return False else: a = i + 1 a = (v**2) % num return True def _a ( a :int ) -> bool: if num < 2: return False a = [ 2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97, 101, 103, 107, 109, 113, 127, 131, 137, 139, 149, 151, 157, 163, 167, 173, 179, 181, 191, 193, 197, 199, 211, 223, 227, 229, 233, 239, 241, 251, 257, 263, 269, 271, 277, 281, 283, 293, 307, 311, 313, 317, 331, 337, 347, 349, 353, 359, 367, 373, 379, 383, 389, 397, 401, 409, 419, 421, 431, 433, 439, 443, 449, 457, 461, 463, 467, 479, 487, 491, 499, 503, 509, 521, 523, 541, 547, 557, 563, 569, 571, 577, 587, 593, 599, 601, 607, 613, 617, 619, 631, 641, 643, 647, 653, 659, 661, 673, 677, 683, 691, 701, 709, 719, 727, 733, 739, 743, 751, 757, 761, 769, 773, 787, 797, 809, 811, 821, 823, 827, 829, 839, 853, 857, 859, 863, 877, 881, 883, 887, 907, 911, 919, 929, 937, 941, 947, 953, 967, 971, 977, 983, 991, 997, ] if num in low_primes: return True for prime in low_primes: if (num % prime) == 0: return False return rabin_miller(a ) def _a ( a :int = 1_024 ) -> int: while True: a = random.randrange(2 ** (keysize - 1) , 2 ** (keysize) ) if is_prime_low_num(a ): return num if __name__ == "__main__": UpperCAmelCase__ = generate_large_prime() print(("Prime number:", num)) print(("is_prime_low_num:", is_prime_low_num(num)))

import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from .tokenization_electra import ElectraTokenizer UpperCAmelCase__ = {"vocab_file": "vocab.txt", "tokenizer_file": "tokenizer.json"} UpperCAmelCase__ = { "vocab_file": { "google/electra-small-generator": ( "https://huggingface.co/google/electra-small-generator/resolve/main/vocab.txt" ), "google/electra-base-generator": "https://huggingface.co/google/electra-base-generator/resolve/main/vocab.txt", "google/electra-large-generator": ( "https://huggingface.co/google/electra-large-generator/resolve/main/vocab.txt" ), "google/electra-small-discriminator": ( "https://huggingface.co/google/electra-small-discriminator/resolve/main/vocab.txt" ), "google/electra-base-discriminator": ( "https://huggingface.co/google/electra-base-discriminator/resolve/main/vocab.txt" ), "google/electra-large-discriminator": ( "https://huggingface.co/google/electra-large-discriminator/resolve/main/vocab.txt" ), }, "tokenizer_file": { "google/electra-small-generator": ( "https://huggingface.co/google/electra-small-generator/resolve/main/tokenizer.json" ), "google/electra-base-generator": ( "https://huggingface.co/google/electra-base-generator/resolve/main/tokenizer.json" ), "google/electra-large-generator": ( "https://huggingface.co/google/electra-large-generator/resolve/main/tokenizer.json" ), "google/electra-small-discriminator": ( "https://huggingface.co/google/electra-small-discriminator/resolve/main/tokenizer.json" ), "google/electra-base-discriminator": ( "https://huggingface.co/google/electra-base-discriminator/resolve/main/tokenizer.json" ), "google/electra-large-discriminator": ( "https://huggingface.co/google/electra-large-discriminator/resolve/main/tokenizer.json" ), }, } UpperCAmelCase__ = { "google/electra-small-generator": 512, "google/electra-base-generator": 512, "google/electra-large-generator": 512, "google/electra-small-discriminator": 512, "google/electra-base-discriminator": 512, "google/electra-large-discriminator": 512, } UpperCAmelCase__ = { "google/electra-small-generator": {"do_lower_case": True}, "google/electra-base-generator": {"do_lower_case": True}, "google/electra-large-generator": {"do_lower_case": True}, "google/electra-small-discriminator": {"do_lower_case": True}, "google/electra-base-discriminator": {"do_lower_case": True}, "google/electra-large-discriminator": {"do_lower_case": True}, } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = VOCAB_FILES_NAMES __snake_case = PRETRAINED_VOCAB_FILES_MAP __snake_case = PRETRAINED_INIT_CONFIGURATION __snake_case = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __snake_case = ElectraTokenizer def __init__( self : Dict , __UpperCAmelCase : int=None , __UpperCAmelCase : str=None , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : str="[UNK]" , __UpperCAmelCase : Any="[SEP]" , __UpperCAmelCase : str="[PAD]" , __UpperCAmelCase : Optional[Any]="[CLS]" , __UpperCAmelCase : Union[str, Any]="[MASK]" , __UpperCAmelCase : List[str]=True , __UpperCAmelCase : Tuple=None , **__UpperCAmelCase : Optional[int] , ) ->str: """simple docstring""" super().__init__( __UpperCAmelCase , tokenizer_file=__UpperCAmelCase , do_lower_case=__UpperCAmelCase , unk_token=__UpperCAmelCase , sep_token=__UpperCAmelCase , pad_token=__UpperCAmelCase , cls_token=__UpperCAmelCase , mask_token=__UpperCAmelCase , tokenize_chinese_chars=__UpperCAmelCase , strip_accents=__UpperCAmelCase , **__UpperCAmelCase , ) a = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get('''lowercase''' , __UpperCAmelCase ) != do_lower_case or normalizer_state.get('''strip_accents''' , __UpperCAmelCase ) != strip_accents or normalizer_state.get('''handle_chinese_chars''' , __UpperCAmelCase ) != tokenize_chinese_chars ): a = getattr(__UpperCAmelCase , normalizer_state.pop('''type''' ) ) a = do_lower_case a = strip_accents a = tokenize_chinese_chars a = normalizer_class(**__UpperCAmelCase ) a = do_lower_case def __lowerCAmelCase ( self : List[Any] , __UpperCAmelCase : Optional[int] , __UpperCAmelCase : Tuple=None ) ->str: """simple docstring""" a = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) ->List[int]: """simple docstring""" a = [self.sep_token_id] a = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : Optional[str] = None ) ->Tuple[str]: """simple docstring""" a = self._tokenizer.model.save(__UpperCAmelCase , name=__UpperCAmelCase ) return tuple(__UpperCAmelCase )

import argparse from collections import defaultdict def _a ( a :Optional[int] , a :Optional[Any] , a :Optional[Any] , a :Any , a :int ) -> Union[str, Any]: a = F"""{file}_{class_name}_{test_name}""" done_test[_id] += 1 with open(a , '''r''' ) as f: a = f.readlines() a = F"""class {class_name}(""" a = F"""{4 * ' '}def {test_name}(""" a = F"""{8 * ' '}{correct_line.split()[0]}""" a = F"""{16 * ' '}{correct_line.split()[0]}""" a = False a = False a = False a = False a = 0 a = 0 a = [] for line in lines: if line.startswith(a ): a = True elif in_class and line.startswith(a ): a = True elif in_class and in_func and (line.startswith(a ) or line.startswith(a )): a = len(line.split(correct_line.split()[0] )[0] ) count += 1 if count == done_test[_id]: a = True if in_class and in_func and in_line: if ")" not in line: continue else: a = True if in_class and in_func and in_line and insert_line: new_lines.append(F"""{spaces * ' '}{correct_line}""" ) a = a = a = a = False else: new_lines.append(a ) with open(a , '''w''' ) as f: for line in new_lines: f.write(a ) def _a ( a :Tuple , a :Union[str, Any]=None ) -> Optional[Any]: if fail is not None: with open(a , '''r''' ) as f: a = {l.strip() for l in f.readlines()} else: a = None with open(a , '''r''' ) as f: a = f.readlines() a = defaultdict(a ) for line in correct_lines: a , a , a , a = line.split(''';''' ) if test_failures is None or "::".join([file, class_name, test_name] ) in test_failures: overwrite_file(a , a , a , a , a ) if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() parser.add_argument("--correct_filename", help="filename of tests with expected result") parser.add_argument("--fail_filename", help="filename of test failures", type=str, default=None) UpperCAmelCase__ = parser.parse_args() main(args.correct_filename, args.fail_filename)

def _a ( a :int ) -> bool: a = n ** (1 / 3) return (val * val * val) == n if __name__ == "__main__": print(perfect_cube(27)) print(perfect_cube(4))

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

import os import tempfile from functools import partial from unittest import TestCase from unittest.mock import patch import numpy as np import pytest from datasets.arrow_dataset import Dataset from datasets.search import ElasticSearchIndex, FaissIndex, MissingIndex from .utils import require_elasticsearch, require_faiss UpperCAmelCase__ = pytest.mark.integration @require_faiss class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" a = Dataset.from_dict({'''filename''': ['''my_name-train''' + '''_''' + str(__UpperCAmelCase ) for x in np.arange(30 ).tolist()]} ) return dset def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" import faiss a = self._create_dummy_dataset() a = dset.map( lambda __UpperCAmelCase , __UpperCAmelCase : {"vecs": i * np.ones(5 , dtype=np.floataa )} , with_indices=__UpperCAmelCase , keep_in_memory=__UpperCAmelCase ) a = dset.add_faiss_index('''vecs''' , batch_size=100 , metric_type=faiss.METRIC_INNER_PRODUCT ) a , a = dset.get_nearest_examples('''vecs''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) dset.drop_index('''vecs''' ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[Any]: """simple docstring""" import faiss a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' , batch_size=100 , metric_type=faiss.METRIC_INNER_PRODUCT , ) a , a = dset.get_nearest_examples('''vecs''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) def __lowerCAmelCase ( self : Any ) ->Union[str, Any]: """simple docstring""" import faiss a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' , metric_type=faiss.METRIC_INNER_PRODUCT , ) # Setting delete=False and unlinking manually is not pretty... but it is required on Windows to # ensure somewhat stable behaviour. If we don't, we get PermissionErrors. This is an age-old issue. # see https://bugs.python.org/issue14243 and # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file/23212515 with tempfile.NamedTemporaryFile(delete=__UpperCAmelCase ) as tmp_file: dset.save_faiss_index('''vecs''' , tmp_file.name ) dset.load_faiss_index('''vecs2''' , tmp_file.name ) os.unlink(tmp_file.name ) a , a = dset.get_nearest_examples('''vecs2''' , np.ones(5 , dtype=np.floataa ) ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) def __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self._create_dummy_dataset() dset.add_faiss_index_from_external_arrays( external_arrays=np.ones((30, 5) ) * np.arange(30 ).reshape(-1 , 1 ) , index_name='''vecs''' ) dset.drop_index('''vecs''' ) self.assertRaises(__UpperCAmelCase , partial(dset.get_nearest_examples , '''vecs2''' , np.ones(5 , dtype=np.floataa ) ) ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" from elasticsearch import Elasticsearch a = self._create_dummy_dataset() with patch('''elasticsearch.Elasticsearch.search''' ) as mocked_search, patch( '''elasticsearch.client.IndicesClient.create''' ) as mocked_index_create, patch('''elasticsearch.helpers.streaming_bulk''' ) as mocked_bulk: a = {'''acknowledged''': True} mocked_bulk.return_value([(True, None)] * 30 ) a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 29}]}} a = Elasticsearch() dset.add_elasticsearch_index('''filename''' , es_client=__UpperCAmelCase ) a , a = dset.get_nearest_examples('''filename''' , '''my_name-train_29''' ) self.assertEqual(examples['''filename'''][0] , '''my_name-train_29''' ) @require_faiss class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : Any ) ->Any: """simple docstring""" import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) # add vectors index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsNotNone(index.faiss_index ) self.assertEqual(index.faiss_index.ntotal , 5 ) index.add_vectors(np.zeros((5, 5) , dtype=np.floataa ) ) self.assertEqual(index.faiss_index.ntotal , 10 ) # single query a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(__UpperCAmelCase ) self.assertRaises(__UpperCAmelCase , index.search , query.reshape(-1 , 1 ) ) self.assertGreater(scores[0] , 0 ) self.assertEqual(indices[0] , 1 ) # batched queries a = np.eye(5 , dtype=np.floataa )[::-1] a , a = index.search_batch(__UpperCAmelCase ) self.assertRaises(__UpperCAmelCase , index.search_batch , queries[0] ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([4, 3, 2, 1, 0] , __UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->List[Any]: """simple docstring""" import faiss a = FaissIndex(string_factory='''Flat''' ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexFlat ) a = FaissIndex(string_factory='''LSH''' ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexLSH ) with self.assertRaises(__UpperCAmelCase ): a = FaissIndex(string_factory='''Flat''' , custom_index=faiss.IndexFlat(5 ) ) def __lowerCAmelCase ( self : int ) ->Optional[Any]: """simple docstring""" import faiss a = faiss.IndexFlat(5 ) a = FaissIndex(custom_index=__UpperCAmelCase ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) self.assertIsInstance(index.faiss_index , faiss.IndexFlat ) def __lowerCAmelCase ( self : int ) ->Dict: """simple docstring""" import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) # Setting delete=False and unlinking manually is not pretty... but it is required on Windows to # ensure somewhat stable behaviour. If we don't, we get PermissionErrors. This is an age-old issue. # see https://bugs.python.org/issue14243 and # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file/23212515 with tempfile.NamedTemporaryFile(delete=__UpperCAmelCase ) as tmp_file: index.save(tmp_file.name ) a = FaissIndex.load(tmp_file.name ) os.unlink(tmp_file.name ) a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(__UpperCAmelCase ) self.assertGreater(scores[0] , 0 ) self.assertEqual(indices[0] , 1 ) @require_faiss def _a ( a :Dict ) -> Any: import faiss a = FaissIndex(metric_type=faiss.METRIC_INNER_PRODUCT ) index.add_vectors(np.eye(5 , dtype=np.floataa ) ) a = '''index.faiss''' a = F"""mock://{index_name}""" index.save(a , storage_options=mockfs.storage_options ) a = FaissIndex.load(a , storage_options=mockfs.storage_options ) a = np.zeros(5 , dtype=np.floataa ) a = 1 a , a = index.search(a ) assert scores[0] > 0 assert indices[0] == 1 @require_elasticsearch class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : int ) ->List[Any]: """simple docstring""" from elasticsearch import Elasticsearch with patch('''elasticsearch.Elasticsearch.search''' ) as mocked_search, patch( '''elasticsearch.client.IndicesClient.create''' ) as mocked_index_create, patch('''elasticsearch.helpers.streaming_bulk''' ) as mocked_bulk: a = Elasticsearch() a = {'''acknowledged''': True} a = ElasticSearchIndex(es_client=__UpperCAmelCase ) mocked_bulk.return_value([(True, None)] * 3 ) index.add_documents(['''foo''', '''bar''', '''foobar'''] ) # single query a = '''foo''' a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 0}]}} a , a = index.search(__UpperCAmelCase ) self.assertEqual(scores[0] , 1 ) self.assertEqual(indices[0] , 0 ) # single query with timeout a = '''foo''' a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 0}]}} a , a = index.search(__UpperCAmelCase , request_timeout=30 ) self.assertEqual(scores[0] , 1 ) self.assertEqual(indices[0] , 0 ) # batched queries a = ['''foo''', '''bar''', '''foobar'''] a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 1}]}} a , a = index.search_batch(__UpperCAmelCase ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([1, 1, 1] , __UpperCAmelCase ) # batched queries with timeout a = ['''foo''', '''bar''', '''foobar'''] a = {'''hits''': {'''hits''': [{'''_score''': 1, '''_id''': 1}]}} a , a = index.search_batch(__UpperCAmelCase , request_timeout=30 ) a = [scores[0] for scores in total_scores] a = [indices[0] for indices in total_indices] self.assertGreater(np.min(__UpperCAmelCase ) , 0 ) self.assertListEqual([1, 1, 1] , __UpperCAmelCase )

from collections import OrderedDict from typing import Any, Mapping, Optional from ... import PreTrainedTokenizer, TensorType, is_torch_available from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfigWithPast from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "EleutherAI/gpt-neo-1.3B": "https://huggingface.co/EleutherAI/gpt-neo-1.3B/resolve/main/config.json", # See all GPTNeo models at https://huggingface.co/models?filter=gpt_neo } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''gpt_neo''' __snake_case = ['''past_key_values'''] __snake_case = {'''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers'''} def __init__( self : Dict , __UpperCAmelCase : str=50_257 , __UpperCAmelCase : Optional[int]=2_048 , __UpperCAmelCase : Optional[Any]=2_048 , __UpperCAmelCase : Optional[int]=24 , __UpperCAmelCase : Optional[int]=[[["global", "local"], 12]] , __UpperCAmelCase : str=16 , __UpperCAmelCase : Any=None , __UpperCAmelCase : List[str]=256 , __UpperCAmelCase : Optional[Any]="gelu_new" , __UpperCAmelCase : Tuple=0.0 , __UpperCAmelCase : Optional[int]=0.0 , __UpperCAmelCase : Union[str, Any]=0.0 , __UpperCAmelCase : Optional[Any]=0.1 , __UpperCAmelCase : Any=1e-5 , __UpperCAmelCase : Dict=0.02 , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : Tuple=50_256 , __UpperCAmelCase : Optional[int]=50_256 , **__UpperCAmelCase : Optional[int] , ) ->Union[str, Any]: """simple docstring""" a = vocab_size a = max_position_embeddings a = hidden_size a = num_layers a = num_heads a = intermediate_size a = window_size a = activation_function a = resid_dropout a = embed_dropout a = attention_dropout a = classifier_dropout a = layer_norm_epsilon a = initializer_range a = use_cache a = bos_token_id a = eos_token_id a = attention_types a = self.expand_attention_types_params(__UpperCAmelCase ) if len(self.attention_layers ) != self.num_layers: raise ValueError( '''Configuration for convolutional module is incorrect. ''' '''It is required that `len(config.attention_layers)` == `config.num_layers` ''' F"""but is `len(config.attention_layers) = {len(self.attention_layers )}`, """ F"""`config.num_layers = {self.num_layers}`. """ '''`config.attention_layers` is prepared using `config.attention_types`. ''' '''Please verify the value of `config.attention_types` argument.''' ) super().__init__(bos_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , **__UpperCAmelCase ) @staticmethod def __lowerCAmelCase ( __UpperCAmelCase : List[str] ) ->Optional[int]: """simple docstring""" a = [] for item in attention_types: for _ in range(item[1] ): attentions.extend(item[0] ) return attentions def _a ( a :str , a :Any , a :Union[str, Any] , a :Optional[int] ) -> List[Any]: import torch a = input.size() a = len(a ) a = shape[dimension] a = torch.arange(0 , a , a ) a = torch.div(sizedim - size , a , rounding_mode='''floor''' ) + 1 a = torch.arange(a ) + low_indices[:min_length][:, None] a = [slice(a )] * rank a = indices a = input[s] a = list(range(0 , rank + 1 ) ) perm.append(perm.pop(dimension + 1 ) ) return sliced.permute(a ) def _a ( a :List[str] , a :List[str] ) -> Any: import torch a = torch.arange(1 , a ) a = torch.remainder(a , a ) a = remainders == 0 a = candidates[divisor_indices] a = torch.max(a ) return largest_divisor, torch.div(a , a , rounding_mode='''floor''' ) class lowercase_ ( lowercase ): '''simple docstring''' @property def __lowerCAmelCase ( self : Optional[int] ) ->Mapping[str, Mapping[int, str]]: """simple docstring""" a = OrderedDict({'''input_ids''': {0: '''batch''', 1: '''sequence'''}} ) if self.use_past: self.fill_with_past_key_values_(__UpperCAmelCase , direction='''inputs''' ) a = {0: '''batch''', 1: '''past_sequence + sequence'''} else: a = {0: '''batch''', 1: '''sequence'''} return common_inputs @property def __lowerCAmelCase ( self : int ) ->int: """simple docstring""" return self._config.num_heads def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : PreTrainedTokenizer , __UpperCAmelCase : int = -1 , __UpperCAmelCase : int = -1 , __UpperCAmelCase : bool = False , __UpperCAmelCase : Optional[TensorType] = None , ) ->Mapping[str, Any]: """simple docstring""" a = super(__UpperCAmelCase , self ).generate_dummy_inputs( __UpperCAmelCase , batch_size=__UpperCAmelCase , seq_length=__UpperCAmelCase , is_pair=__UpperCAmelCase , framework=__UpperCAmelCase ) # We need to order the input in the way they appears in the forward() a = OrderedDict({'''input_ids''': common_inputs['''input_ids''']} ) # Need to add the past_keys if self.use_past: if not is_torch_available(): raise ValueError('''Cannot generate dummy past_keys inputs without PyTorch installed.''' ) else: import torch a , a = common_inputs['''input_ids'''].shape # Not using the same length for past_key_values a = seqlen + 2 a = ( batch, self.num_attention_heads, past_key_values_length, self._config.hidden_size // self.num_attention_heads, ) a = [ (torch.zeros(__UpperCAmelCase ), torch.zeros(__UpperCAmelCase )) for _ in range(self.num_layers ) ] a = common_inputs['''attention_mask'''] if self.use_past: a = ordered_inputs['''attention_mask'''].dtype a = torch.cat( [ordered_inputs['''attention_mask'''], torch.ones(__UpperCAmelCase , __UpperCAmelCase , dtype=__UpperCAmelCase )] , dim=1 ) return ordered_inputs @property def __lowerCAmelCase ( self : Dict ) ->int: """simple docstring""" return 13

from typing import Mapping from ...configuration_utils import PretrainedConfig from ...onnx import OnnxSeqaSeqConfigWithPast from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = { "t5-small": "https://huggingface.co/t5-small/resolve/main/config.json", "t5-base": "https://huggingface.co/t5-base/resolve/main/config.json", "t5-large": "https://huggingface.co/t5-large/resolve/main/config.json", "t5-3b": "https://huggingface.co/t5-3b/resolve/main/config.json", "t5-11b": "https://huggingface.co/t5-11b/resolve/main/config.json", } class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''t5''' __snake_case = ['''past_key_values'''] __snake_case = {'''hidden_size''': '''d_model''', '''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers'''} def __init__( self : Optional[Any] , __UpperCAmelCase : Optional[Any]=32_128 , __UpperCAmelCase : List[Any]=512 , __UpperCAmelCase : Dict=64 , __UpperCAmelCase : Tuple=2_048 , __UpperCAmelCase : int=6 , __UpperCAmelCase : Optional[int]=None , __UpperCAmelCase : Optional[int]=8 , __UpperCAmelCase : str=32 , __UpperCAmelCase : Tuple=128 , __UpperCAmelCase : Optional[Any]=0.1 , __UpperCAmelCase : int=1e-6 , __UpperCAmelCase : int=1.0 , __UpperCAmelCase : List[str]="relu" , __UpperCAmelCase : int=True , __UpperCAmelCase : int=True , __UpperCAmelCase : List[Any]=0 , __UpperCAmelCase : int=1 , **__UpperCAmelCase : str , ) ->Optional[Any]: """simple docstring""" a = vocab_size a = d_model a = d_kv a = d_ff a = num_layers a = ( num_decoder_layers if num_decoder_layers is not None else self.num_layers ) # default = symmetry a = num_heads a = relative_attention_num_buckets a = relative_attention_max_distance a = dropout_rate a = layer_norm_epsilon a = initializer_factor a = feed_forward_proj a = use_cache a = self.feed_forward_proj.split('''-''' ) a = act_info[-1] a = act_info[0] == '''gated''' if len(__UpperCAmelCase ) > 1 and act_info[0] != "gated" or len(__UpperCAmelCase ) > 2: raise ValueError( F"""`feed_forward_proj`: {feed_forward_proj} is not a valid activation function of the dense layer.""" '''Please make sure `feed_forward_proj` is of the format `gated-{ACT_FN}` or `{ACT_FN}`, e.g. ''' '''\'gated-gelu\' or \'relu\'''' ) # for backwards compatibility if feed_forward_proj == "gated-gelu": a = '''gelu_new''' super().__init__( pad_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , is_encoder_decoder=__UpperCAmelCase , **__UpperCAmelCase , ) class lowercase_ ( lowercase ): '''simple docstring''' @property def __lowerCAmelCase ( self : Optional[Any] ) ->Mapping[str, Mapping[int, str]]: """simple docstring""" a = { '''input_ids''': {0: '''batch''', 1: '''encoder_sequence'''}, '''attention_mask''': {0: '''batch''', 1: '''encoder_sequence'''}, } if self.use_past: a = '''past_encoder_sequence + sequence''' a = {0: '''batch'''} a = {0: '''batch''', 1: '''past_decoder_sequence + sequence'''} else: a = {0: '''batch''', 1: '''decoder_sequence'''} a = {0: '''batch''', 1: '''decoder_sequence'''} if self.use_past: self.fill_with_past_key_values_(__UpperCAmelCase , direction='''inputs''' ) return common_inputs @property def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" return 13

import unittest import numpy as np import torch from torch import nn from transformers import ( CLIPImageProcessor, CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer, CLIPVisionConfig, CLIPVisionModelWithProjection, ) from diffusers import KandinskyVaaPriorPipeline, PriorTransformer, UnCLIPScheduler from diffusers.utils import torch_device from diffusers.utils.testing_utils import enable_full_determinism, skip_mps from ..test_pipelines_common import PipelineTesterMixin enable_full_determinism() class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = KandinskyVaaPriorPipeline __snake_case = ['''prompt'''] __snake_case = ['''prompt''', '''negative_prompt'''] __snake_case = [ '''num_images_per_prompt''', '''generator''', '''num_inference_steps''', '''latents''', '''negative_prompt''', '''guidance_scale''', '''output_type''', '''return_dict''', ] __snake_case = False @property def __lowerCAmelCase ( self : Optional[Any] ) ->Union[str, Any]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Dict ) ->Any: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : int ) ->List[str]: """simple docstring""" return self.time_input_dim @property def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" return self.time_input_dim * 4 @property def __lowerCAmelCase ( self : Any ) ->List[Any]: """simple docstring""" return 100 @property def __lowerCAmelCase ( self : List[Any] ) ->str: """simple docstring""" a = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) return tokenizer @property def __lowerCAmelCase ( self : Tuple ) ->str: """simple docstring""" torch.manual_seed(0 ) a = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1e-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__UpperCAmelCase ) @property def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" torch.manual_seed(0 ) a = { '''num_attention_heads''': 2, '''attention_head_dim''': 12, '''embedding_dim''': self.text_embedder_hidden_size, '''num_layers''': 1, } a = PriorTransformer(**__UpperCAmelCase ) # clip_std and clip_mean is initialized to be 0 so PriorTransformer.post_process_latents will always return 0 - set clip_std to be 1 so it won't return 0 a = nn.Parameter(torch.ones(model.clip_std.shape ) ) return model @property def __lowerCAmelCase ( self : Optional[int] ) ->List[Any]: """simple docstring""" torch.manual_seed(0 ) a = CLIPVisionConfig( hidden_size=self.text_embedder_hidden_size , image_size=224 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=14 , ) a = CLIPVisionModelWithProjection(__UpperCAmelCase ) return model @property def __lowerCAmelCase ( self : Tuple ) ->int: """simple docstring""" a = CLIPImageProcessor( crop_size=224 , do_center_crop=__UpperCAmelCase , do_normalize=__UpperCAmelCase , do_resize=__UpperCAmelCase , image_mean=[0.48145466, 0.4578275, 0.40821073] , image_std=[0.26862954, 0.26130258, 0.27577711] , resample=3 , size=224 , ) return image_processor def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = self.dummy_prior a = self.dummy_image_encoder a = self.dummy_text_encoder a = self.dummy_tokenizer a = self.dummy_image_processor a = UnCLIPScheduler( variance_type='''fixed_small_log''' , prediction_type='''sample''' , num_train_timesteps=1_000 , clip_sample=__UpperCAmelCase , clip_sample_range=10.0 , ) a = { '''prior''': prior, '''image_encoder''': image_encoder, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''scheduler''': scheduler, '''image_processor''': image_processor, } return components def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : str=0 ) ->int: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''prompt''': '''horse''', '''generator''': generator, '''guidance_scale''': 4.0, '''num_inference_steps''': 2, '''output_type''': '''np''', } return inputs def __lowerCAmelCase ( self : str ) ->Tuple: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = pipe(**self.get_dummy_inputs(__UpperCAmelCase ) ) a = output.image_embeds a = pipe( **self.get_dummy_inputs(__UpperCAmelCase ) , return_dict=__UpperCAmelCase , )[0] a = image[0, -10:] a = image_from_tuple[0, -10:] assert image.shape == (1, 32) a = np.array( [-0.0532, 1.7120, 0.3656, -1.0852, -0.8946, -1.1756, 0.4348, 0.2482, 0.5146, -0.1156] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1e-2 @skip_mps def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = torch_device == '''cpu''' a = True a = False self._test_inference_batch_single_identical( test_max_difference=__UpperCAmelCase , relax_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , ) @skip_mps def __lowerCAmelCase ( self : List[str] ) ->Union[str, Any]: """simple docstring""" a = torch_device == '''cpu''' a = False self._test_attention_slicing_forward_pass( test_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , )

from ...configuration_utils import PretrainedConfig from ...utils import logging UpperCAmelCase__ = logging.get_logger(__name__) UpperCAmelCase__ = {} class lowercase_ ( lowercase ): '''simple docstring''' __snake_case = '''llama''' __snake_case = ['''past_key_values'''] def __init__( self : Optional[Any] , __UpperCAmelCase : Union[str, Any]=32_000 , __UpperCAmelCase : str=4_096 , __UpperCAmelCase : int=11_008 , __UpperCAmelCase : Tuple=32 , __UpperCAmelCase : Optional[int]=32 , __UpperCAmelCase : List[str]=None , __UpperCAmelCase : Union[str, Any]="silu" , __UpperCAmelCase : Tuple=2_048 , __UpperCAmelCase : Optional[Any]=0.02 , __UpperCAmelCase : Any=1e-6 , __UpperCAmelCase : Union[str, Any]=True , __UpperCAmelCase : Optional[int]=0 , __UpperCAmelCase : Optional[int]=1 , __UpperCAmelCase : Optional[int]=2 , __UpperCAmelCase : Tuple=1 , __UpperCAmelCase : List[str]=False , __UpperCAmelCase : Tuple=None , **__UpperCAmelCase : Tuple , ) ->str: """simple docstring""" a = vocab_size a = max_position_embeddings a = hidden_size a = intermediate_size a = num_hidden_layers a = num_attention_heads # for backward compatibility if num_key_value_heads is None: a = num_attention_heads a = num_key_value_heads a = hidden_act a = initializer_range a = rms_norm_eps a = pretraining_tp a = use_cache a = rope_scaling self._rope_scaling_validation() super().__init__( pad_token_id=__UpperCAmelCase , bos_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , tie_word_embeddings=__UpperCAmelCase , **__UpperCAmelCase , ) def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" if self.rope_scaling is None: return if not isinstance(self.rope_scaling , __UpperCAmelCase ) or len(self.rope_scaling ) != 2: raise ValueError( '''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, ''' F"""got {self.rope_scaling}""" ) a = self.rope_scaling.get('''type''' , __UpperCAmelCase ) a = self.rope_scaling.get('''factor''' , __UpperCAmelCase ) if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]: raise ValueError( F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""" ) if rope_scaling_factor is None or not isinstance(__UpperCAmelCase , __UpperCAmelCase ) or rope_scaling_factor <= 1.0: raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""" )

from __future__ import annotations from cmath import sqrt def _a ( a :int , a :int , a :int ) -> tuple[complex, complex]: if a == 0: raise ValueError('''Coefficient \'a\' must not be zero.''' ) a = b * b - 4 * a * c a = (-b + sqrt(a )) / (2 * a) a = (-b - sqrt(a )) / (2 * a) return ( root_a.real if not root_a.imag else root_a, root_a.real if not root_a.imag else root_a, ) def _a ( ) -> Optional[Any]: a , a = quadratic_roots(a=5 , b=6 , c=1 ) print(F"""The solutions are: {solutiona} and {solutiona}""" ) if __name__ == "__main__": main()

from __future__ import annotations UpperCAmelCase__ = "Muhammad Umer Farooq" UpperCAmelCase__ = "MIT" UpperCAmelCase__ = "1.0.0" UpperCAmelCase__ = "Muhammad Umer Farooq" UpperCAmelCase__ = "[email protected]" UpperCAmelCase__ = "Alpha" import re from html.parser import HTMLParser from urllib import parse import requests class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : Union[str, Any] , __UpperCAmelCase : str ) ->None: """simple docstring""" super().__init__() a = [] a = domain def __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : list[tuple[str, str | None]] ) ->None: """simple docstring""" if tag == "a": # Check the list of defined attributes. for name, value in attrs: # If href is defined, and not empty nor # print it. if name == "href" and value != "#" and value != "": # If not already in urls. if value not in self.urls: a = parse.urljoin(self.domain , __UpperCAmelCase ) self.urls.append(__UpperCAmelCase ) def _a ( a :str ) -> str: return ".".join(get_sub_domain_name(a ).split('''.''' )[-2:] ) def _a ( a :str ) -> str: return parse.urlparse(a ).netloc def _a ( a :str = "https://github.com" ) -> list[str]: a = get_domain_name(a ) # Initialize the parser a = Parser(a ) try: # Open URL a = requests.get(a ) # pass the raw HTML to the parser to get links parser.feed(r.text ) # Get links and loop through a = set() for link in parser.urls: # open URL. # read = requests.get(link) try: a = requests.get(a ) # Get the valid email. a = re.findall('''[a-zA-Z0-9]+@''' + domain , read.text ) # If not in list then append it. for email in emails: valid_emails.add(a ) except ValueError: pass except ValueError: raise SystemExit(1 ) # Finally return a sorted list of email addresses with no duplicates. return sorted(a ) if __name__ == "__main__": UpperCAmelCase__ = emails_from_url("https://github.com") print(f"""{len(emails)} emails found:""") print("\n".join(sorted(emails)))

import argparse from pathlib import Path import torch from transformers import OPTConfig, OPTModel from transformers.utils import logging logging.set_verbosity_info() UpperCAmelCase__ = logging.get_logger(__name__) def _a ( a :Optional[int] ) -> List[Any]: a = torch.load(a , map_location='''cpu''' ) if "model" in sd.keys(): a = torch.load(a , map_location='''cpu''' )['''model'''] # pop unnecessary weights a = [ '''decoder.version''', '''decoder.output_projection.weight''', ] for key in keys_to_delete: if key in sd: sd.pop(a ) a = { '''decoder.project_in_dim.weight''': '''decoder.project_in.weight''', '''decoder.project_out_dim.weight''': '''decoder.project_out.weight''', '''decoder.layer_norm.weight''': '''decoder.final_layer_norm.weight''', '''decoder.layer_norm.bias''': '''decoder.final_layer_norm.bias''', } for old_key, new_key in keys_to_rename.items(): if old_key in sd: a = sd.pop(a ) a = list(sd.keys() ) for key in keys: if ".qkv_proj." in key: a = sd[key] # We split QKV in separate Q,K,V a = key.replace('''.qkv_proj.''' , '''.q_proj.''' ) a = key.replace('''.qkv_proj.''' , '''.k_proj.''' ) a = key.replace('''.qkv_proj.''' , '''.v_proj.''' ) a = value.shape[0] assert depth % 3 == 0 # `SequeuceParallelTransformerBlock` has QKV weight is separated in K,V,Q despite the naming: # https://cs.github.com/facebookresearch/metaseq/blob/51871bd73cd04c038f239ea2a26db1d7f6b37927/metaseq/modules/sequence_parallel_transformer_layer.py#L97 a , a , a = torch.split(a , depth // 3 , dim=0 ) a = q a = k a = v del sd[key] return sd @torch.no_grad() def _a ( a :str , a :int , a :List[Any]=None ) -> Optional[Any]: a = load_checkpoint(a ) if config is not None: a = OPTConfig.from_pretrained(a ) else: a = OPTConfig() a = OPTModel(a ).half().eval() model.load_state_dict(a ) # Check results Path(a ).mkdir(exist_ok=a ) model.save_pretrained(a ) if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( "--fairseq_path", type=str, help=( "path to fairseq checkpoint in correct format. You can find all checkpoints in the correct format here:" " https://huggingface.co/models?other=opt_metasq" ), ) parser.add_argument("--pytorch_dump_folder_path", default=None, type=str, help="Path to the output PyTorch model.") parser.add_argument("--hf_config", default=None, type=str, help="Define HF config.") UpperCAmelCase__ = parser.parse_args() convert_opt_checkpoint(args.fairseq_path, args.pytorch_dump_folder_path, config=args.hf_config)

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) UpperCAmelCase__ = logging.getLogger() def _a ( ) -> Optional[int]: a = argparse.ArgumentParser() parser.add_argument('''-f''' ) a = parser.parse_args() return args.f def _a ( a :Any ) -> Tuple: a = {} a = os.path.join(a , '''all_results.json''' ) if os.path.exists(a ): with open(a , '''r''' ) as f: a = json.load(a ) else: raise ValueError(F"""can't find {path}""" ) return results def _a ( ) -> int: a = torch.cuda.is_available() and torch_device == '''cuda''' return is_using_cuda and is_apex_available() UpperCAmelCase__ = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class lowercase_ ( lowercase ): '''simple docstring''' @classmethod def __lowerCAmelCase ( cls : str ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() a = os.path.join(cls.tmpdir , '''default_config.yml''' ) write_basic_config(save_location=cls.configPath ) a = ['''accelerate''', '''launch''', '''--config_file''', cls.configPath] @classmethod def __lowerCAmelCase ( cls : Optional[int] ) ->Union[str, Any]: """simple docstring""" shutil.rmtree(cls.tmpdir ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->str: """simple docstring""" a = 7 if get_gpu_count() > 1 else 2 a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[Any] ) ->Any: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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 __lowerCAmelCase ( self : List[str] ) ->int: """simple docstring""" a = logging.StreamHandler(sys.stdout ) logger.addHandler(__UpperCAmelCase ) a = self.get_auto_remove_tmp_dir() a = 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 ) a = get_results(__UpperCAmelCase ) self.assertGreaterEqual(result['''eval_overall_accuracy'''] , 0.10 ) @mock.patch.dict(os.environ , {'''WANDB_MODE''': '''offline'''} ) def __lowerCAmelCase ( self : Optional[Any] ) ->Tuple: """simple docstring""" a = self.get_auto_remove_tmp_dir() a = 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 ) a = 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''' ) ) )

def _a ( a :int , a :int ) -> int: return x if y == 0 else greatest_common_divisor(a , x % y ) def _a ( a :int , a :int ) -> int: return (x * y) // greatest_common_divisor(a , a ) def _a ( a :int = 20 ) -> int: a = 1 for i in range(1 , n + 1 ): a = lcm(a , a ) return g if __name__ == "__main__": print(f"""{solution() = }""")

import math def _a ( a :int ) -> list: a = [True] * n a = False a = False a = True for i in range(3 , int(n**0.5 + 1 ) , 2 ): a = i * 2 while index < n: a = False a = index + i a = [2] for i in range(3 , a , 2 ): if is_prime[i]: primes.append(a ) return primes def _a ( a :int = 999_966_663_333 ) -> int: a = math.floor(math.sqrt(a ) ) + 100 a = prime_sieve(a ) a = 0 a = 0 a = primes[prime_index] while (last_prime**2) <= limit: a = primes[prime_index + 1] a = last_prime**2 a = next_prime**2 # Get numbers divisible by lps(current) a = lower_bound + last_prime while upper_bound > current <= limit: matches_sum += current current += last_prime # Reset the upper_bound while (upper_bound - next_prime) > limit: upper_bound -= next_prime # Add the numbers divisible by ups(current) a = upper_bound - next_prime while current > lower_bound: matches_sum += current current -= next_prime # Remove the numbers divisible by both ups and lps a = 0 while upper_bound > current <= limit: if current <= lower_bound: # Increment the current number current += last_prime * next_prime continue if current > limit: break # Remove twice since it was added by both ups and lps matches_sum -= current * 2 # Increment the current number current += last_prime * next_prime # Setup for next pair a = next_prime prime_index += 1 return matches_sum if __name__ == "__main__": print(solution())

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

def _a ( a :float , a :float ) -> float: return price * (1 + tax_rate) if __name__ == "__main__": print(f"""{price_plus_tax(100, 0.25) = }""") print(f"""{price_plus_tax(125.50, 0.05) = }""")

import argparse from transformers import TaConfig, TaForConditionalGeneration, load_tf_weights_in_ta from transformers.utils import logging logging.set_verbosity_info() def _a ( a :Optional[int] , a :List[Any] , a :Union[str, Any] ) -> Tuple: # Initialise PyTorch model a = TaConfig.from_json_file(a ) print(F"""Building PyTorch model from configuration: {config}""" ) a = TaForConditionalGeneration(a ) # Load weights from tf checkpoint load_tf_weights_in_ta(a , a , a ) # Save pytorch-model print(F"""Save PyTorch model to {pytorch_dump_path}""" ) model.save_pretrained(a ) if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() # Required parameters parser.add_argument( "--tf_checkpoint_path", default=None, type=str, required=True, help="Path to the TensorFlow checkpoint path." ) parser.add_argument( "--config_file", default=None, type=str, required=True, help=( "The config json file corresponding to the pre-trained T5 model. \nThis specifies the model architecture." ), ) parser.add_argument( "--pytorch_dump_path", default=None, type=str, required=True, help="Path to the output PyTorch model." ) UpperCAmelCase__ = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)

from tempfile import TemporaryDirectory from unittest import TestCase from unittest.mock import MagicMock, patch from transformers import AutoModel, TFAutoModel from transformers.onnx import FeaturesManager from transformers.testing_utils import SMALL_MODEL_IDENTIFIER, require_tf, require_torch @require_torch @require_tf class lowercase_ ( lowercase ): '''simple docstring''' def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" a = SMALL_MODEL_IDENTIFIER a = '''pt''' a = '''tf''' def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : str ) ->Union[str, Any]: """simple docstring""" a = AutoModel.from_pretrained(self.test_model ) model_pt.save_pretrained(__UpperCAmelCase ) def __lowerCAmelCase ( self : Any , __UpperCAmelCase : Union[str, Any] ) ->List[str]: """simple docstring""" a = TFAutoModel.from_pretrained(self.test_model , from_pt=__UpperCAmelCase ) model_tf.save_pretrained(__UpperCAmelCase ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = '''mock_framework''' # Framework provided - return whatever the user provides a = FeaturesManager.determine_framework(self.test_model , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) # Local checkpoint and framework provided - return provided framework # PyTorch checkpoint with TemporaryDirectory() as local_pt_ckpt: self._setup_pt_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) # TensorFlow checkpoint with TemporaryDirectory() as local_tf_ckpt: self._setup_tf_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : str ) ->int: """simple docstring""" with TemporaryDirectory() as local_pt_ckpt: self._setup_pt_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # TensorFlow checkpoint with TemporaryDirectory() as local_tf_ckpt: self._setup_tf_ckpt(__UpperCAmelCase ) a = FeaturesManager.determine_framework(__UpperCAmelCase ) self.assertEqual(__UpperCAmelCase , self.framework_tf ) # Invalid local checkpoint with TemporaryDirectory() as local_invalid_ckpt: with self.assertRaises(__UpperCAmelCase ): a = FeaturesManager.determine_framework(__UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # PyTorch not in environment -> use TensorFlow a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_tf ) # Both in environment -> use PyTorch a = MagicMock(return_value=__UpperCAmelCase ) a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ), patch( '''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model ) self.assertEqual(__UpperCAmelCase , self.framework_pt ) # Both not in environment -> raise error a = MagicMock(return_value=__UpperCAmelCase ) a = MagicMock(return_value=__UpperCAmelCase ) with patch('''transformers.onnx.features.is_tf_available''' , __UpperCAmelCase ), patch( '''transformers.onnx.features.is_torch_available''' , __UpperCAmelCase ): with self.assertRaises(__UpperCAmelCase ): a = FeaturesManager.determine_framework(self.test_model )

import datasets from .evaluate import evaluate UpperCAmelCase__ = "\\n@inproceedings{Rajpurkar2016SQuAD10,\n title={SQuAD: 100, 000+ Questions for Machine Comprehension of Text},\n author={Pranav Rajpurkar and Jian Zhang and Konstantin Lopyrev and Percy Liang},\n booktitle={EMNLP},\n year={2016}\n}\n" UpperCAmelCase__ = "\nThis metric wrap the official scoring script for version 1 of the Stanford Question Answering Dataset (SQuAD).\n\nStanford Question Answering Dataset (SQuAD) is a reading comprehension dataset, consisting of questions posed by\ncrowdworkers on a set of Wikipedia articles, where the answer to every question is a segment of text, or span,\nfrom the corresponding reading passage, or the question might be unanswerable.\n" UpperCAmelCase__ = "\nComputes SQuAD scores (F1 and EM).\nArgs:\n predictions: List of question-answers dictionaries with the following key-values:\n - 'id': id of the question-answer pair as given in the references (see below)\n - 'prediction_text': the text of the answer\n references: List of question-answers dictionaries with the following key-values:\n - 'id': id of the question-answer pair (see above),\n - 'answers': a Dict in the SQuAD dataset format\n {\n 'text': list of possible texts for the answer, as a list of strings\n 'answer_start': list of start positions for the answer, as a list of ints\n }\n Note that answer_start values are not taken into account to compute the metric.\nReturns:\n 'exact_match': Exact match (the normalized answer exactly match the gold answer)\n 'f1': The F-score of predicted tokens versus the gold answer\nExamples:\n\n >>> predictions = [{'prediction_text': '1976', 'id': '56e10a3be3433e1400422b22'}]\n >>> references = [{'answers': {'answer_start': [97], 'text': ['1976']}, 'id': '56e10a3be3433e1400422b22'}]\n >>> squad_metric = datasets.load_metric(\"squad\")\n >>> results = squad_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'exact_match': 100.0, 'f1': 100.0}\n" @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION ) class lowercase_ ( datasets.Metric ): '''simple docstring''' def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" return datasets.MetricInfo( description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features( { '''predictions''': {'''id''': datasets.Value('''string''' ), '''prediction_text''': datasets.Value('''string''' )}, '''references''': { '''id''': datasets.Value('''string''' ), '''answers''': datasets.features.Sequence( { '''text''': datasets.Value('''string''' ), '''answer_start''': datasets.Value('''int32''' ), } ), }, } ) , codebase_urls=['''https://rajpurkar.github.io/SQuAD-explorer/'''] , reference_urls=['''https://rajpurkar.github.io/SQuAD-explorer/'''] , ) def __lowerCAmelCase ( self : str , __UpperCAmelCase : int , __UpperCAmelCase : List[Any] ) ->Optional[int]: """simple docstring""" a = {prediction['''id''']: prediction['''prediction_text'''] for prediction in predictions} a = [ { '''paragraphs''': [ { '''qas''': [ { '''answers''': [{'''text''': answer_text} for answer_text in ref['''answers''']['''text''']], '''id''': ref['''id'''], } for ref in references ] } ] } ] a = evaluate(dataset=__UpperCAmelCase , predictions=__UpperCAmelCase ) return score

import os import unittest from transformers import BatchEncoding from transformers.models.bert.tokenization_bert import ( BasicTokenizer, WordpieceTokenizer, _is_control, _is_punctuation, _is_whitespace, ) from transformers.models.prophetnet.tokenization_prophetnet import VOCAB_FILES_NAMES, ProphetNetTokenizer from transformers.testing_utils import require_torch, slow from ...test_tokenization_common import TokenizerTesterMixin class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ProphetNetTokenizer __snake_case = False def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" super().setUp() a = [ '''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing''', ''',''', '''low''', '''lowest''', ] a = 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 __lowerCAmelCase ( self : List[str] , __UpperCAmelCase : str ) ->Dict: """simple docstring""" a = '''UNwant\u00E9d,running''' a = '''unwanted, running''' return input_text, output_text def __lowerCAmelCase ( self : Optional[int] ) ->Optional[Any]: """simple docstring""" a = self.tokenizer_class(self.vocab_file ) a = tokenizer.tokenize('''UNwant\u00E9d,running''' ) self.assertListEqual(__UpperCAmelCase , ['''un''', '''##want''', '''##ed''', ''',''', '''runn''', '''##ing'''] ) self.assertListEqual(tokenizer.convert_tokens_to_ids(__UpperCAmelCase ) , [9, 6, 7, 12, 10, 11] ) def __lowerCAmelCase ( self : int ) ->Any: """simple docstring""" a = BasicTokenizer() self.assertListEqual(tokenizer.tokenize('''ah\u535A\u63A8zz''' ) , ['''ah''', '''\u535A''', '''\u63A8''', '''zz'''] ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? ''' ) , ['''hello''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Union[str, Any] ) ->Optional[int]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hällo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''h\u00E9llo'''] ) def __lowerCAmelCase ( self : Dict ) ->str: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hallo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Any ) ->Dict: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''hallo''', '''!''', '''how''', '''are''', '''you''', '''?'''] ) self.assertListEqual(tokenizer.tokenize('''H\u00E9llo''' ) , ['''hello'''] ) def __lowerCAmelCase ( self : Tuple ) ->Optional[Any]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? ''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : Tuple ) ->Tuple: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''HäLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : int ) ->Optional[int]: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , strip_accents=__UpperCAmelCase ) self.assertListEqual( tokenizer.tokenize(''' \tHäLLo!how \n Are yoU? ''' ) , ['''HaLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] ) def __lowerCAmelCase ( self : Any ) ->int: """simple docstring""" a = BasicTokenizer(do_lower_case=__UpperCAmelCase , never_split=['''[UNK]'''] ) self.assertListEqual( tokenizer.tokenize(''' \tHeLLo!how \n Are yoU? [UNK]''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?''', '''[UNK]'''] ) def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" a = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing'''] a = {} for i, token in enumerate(__UpperCAmelCase ): a = i a = WordpieceTokenizer(vocab=__UpperCAmelCase , unk_token='''[UNK]''' ) self.assertListEqual(tokenizer.tokenize('''''' ) , [] ) self.assertListEqual(tokenizer.tokenize('''unwanted running''' ) , ['''un''', '''##want''', '''##ed''', '''runn''', '''##ing'''] ) self.assertListEqual(tokenizer.tokenize('''unwantedX running''' ) , ['''[UNK]''', '''runn''', '''##ing'''] ) @require_torch def __lowerCAmelCase ( self : int ) ->int: """simple docstring""" a = self.tokenizer_class.from_pretrained('''microsoft/prophetnet-large-uncased''' ) a = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.'''] a = [1_037, 2_146, 20_423, 2_005, 7_680, 7_849, 3_989, 1_012, 102] a = tokenizer(__UpperCAmelCase , padding=__UpperCAmelCase , return_tensors='''pt''' ) self.assertIsInstance(__UpperCAmelCase , __UpperCAmelCase ) a = list(batch.input_ids.numpy()[0] ) self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) self.assertEqual((2, 9) , batch.input_ids.shape ) self.assertEqual((2, 9) , batch.attention_mask.shape ) def __lowerCAmelCase ( self : Optional[Any] ) ->List[str]: """simple docstring""" self.assertTrue(_is_whitespace(''' ''' ) ) self.assertTrue(_is_whitespace('''\t''' ) ) self.assertTrue(_is_whitespace('''\r''' ) ) self.assertTrue(_is_whitespace('''\n''' ) ) self.assertTrue(_is_whitespace('''\u00A0''' ) ) self.assertFalse(_is_whitespace('''A''' ) ) self.assertFalse(_is_whitespace('''-''' ) ) def __lowerCAmelCase ( self : Any ) ->List[str]: """simple docstring""" self.assertTrue(_is_control('''\u0005''' ) ) self.assertFalse(_is_control('''A''' ) ) self.assertFalse(_is_control(''' ''' ) ) self.assertFalse(_is_control('''\t''' ) ) self.assertFalse(_is_control('''\r''' ) ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" self.assertTrue(_is_punctuation('''-''' ) ) self.assertTrue(_is_punctuation('''$''' ) ) self.assertTrue(_is_punctuation('''`''' ) ) self.assertTrue(_is_punctuation('''.''' ) ) self.assertFalse(_is_punctuation('''A''' ) ) self.assertFalse(_is_punctuation(''' ''' ) ) @slow def __lowerCAmelCase ( self : List[str] ) ->List[str]: """simple docstring""" a = self.tokenizer_class.from_pretrained('''microsoft/prophetnet-large-uncased''' ) a = tokenizer.encode('''sequence builders''' , add_special_tokens=__UpperCAmelCase ) a = tokenizer.encode('''multi-sequence build''' , add_special_tokens=__UpperCAmelCase ) a = tokenizer.build_inputs_with_special_tokens(__UpperCAmelCase ) a = tokenizer.build_inputs_with_special_tokens(__UpperCAmelCase , __UpperCAmelCase ) assert encoded_sentence == text + [102] assert encoded_pair == text + [102] + text_a + [102]

import unittest from transformers import ( MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING, TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING, TextClassificationPipeline, 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. UpperCAmelCase__ = {"LayoutLMv2Config", "LayoutLMv3Config"} @is_pipeline_test class lowercase_ ( unittest.TestCase ): '''simple docstring''' __snake_case = MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING __snake_case = TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING if model_mapping is not None: __snake_case = {config: model for config, model in model_mapping.items() if config.__name__ not in _TO_SKIP} if tf_model_mapping is not None: __snake_case = { config: model for config, model in tf_model_mapping.items() if config.__name__ not in _TO_SKIP } @require_torch def __lowerCAmelCase ( self : str ) ->List[Any]: """simple docstring""" a = pipeline( task='''text-classification''' , model='''hf-internal-testing/tiny-random-distilbert''' , framework='''pt''' ) a = text_classifier('''This is great !''' ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''LABEL_0''', '''score''': 0.504}] ) a = text_classifier('''This is great !''' , top_k=2 ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , [{'''label''': '''LABEL_0''', '''score''': 0.504}, {'''label''': '''LABEL_1''', '''score''': 0.496}] ) a = text_classifier(['''This is great !''', '''This is bad'''] , top_k=2 ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , [ [{'''label''': '''LABEL_0''', '''score''': 0.504}, {'''label''': '''LABEL_1''', '''score''': 0.496}], [{'''label''': '''LABEL_0''', '''score''': 0.504}, {'''label''': '''LABEL_1''', '''score''': 0.496}], ] , ) a = text_classifier('''This is great !''' , top_k=1 ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''LABEL_0''', '''score''': 0.504}] ) # Legacy behavior a = text_classifier('''This is great !''' , return_all_scores=__UpperCAmelCase ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''LABEL_0''', '''score''': 0.504}] ) a = text_classifier('''This is great !''' , return_all_scores=__UpperCAmelCase ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , [[{'''label''': '''LABEL_0''', '''score''': 0.504}, {'''label''': '''LABEL_1''', '''score''': 0.496}]] ) a = text_classifier(['''This is great !''', '''Something else'''] , return_all_scores=__UpperCAmelCase ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , [ [{'''label''': '''LABEL_0''', '''score''': 0.504}, {'''label''': '''LABEL_1''', '''score''': 0.496}], [{'''label''': '''LABEL_0''', '''score''': 0.504}, {'''label''': '''LABEL_1''', '''score''': 0.496}], ] , ) a = text_classifier(['''This is great !''', '''Something else'''] , return_all_scores=__UpperCAmelCase ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , [ {'''label''': '''LABEL_0''', '''score''': 0.504}, {'''label''': '''LABEL_0''', '''score''': 0.504}, ] , ) @require_torch def __lowerCAmelCase ( self : Dict ) ->Any: """simple docstring""" import torch a = pipeline( task='''text-classification''' , model='''hf-internal-testing/tiny-random-distilbert''' , framework='''pt''' , device=torch.device('''cpu''' ) , ) a = text_classifier('''This is great !''' ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''LABEL_0''', '''score''': 0.504}] ) @require_tf def __lowerCAmelCase ( self : List[str] ) ->Dict: """simple docstring""" a = pipeline( task='''text-classification''' , model='''hf-internal-testing/tiny-random-distilbert''' , framework='''tf''' ) a = text_classifier('''This is great !''' ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''LABEL_0''', '''score''': 0.504}] ) @slow @require_torch def __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" a = pipeline('''text-classification''' ) a = text_classifier('''This is great !''' ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''POSITIVE''', '''score''': 1.0}] ) a = text_classifier('''This is bad !''' ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''NEGATIVE''', '''score''': 1.0}] ) a = text_classifier('''Birds are a type of animal''' ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''POSITIVE''', '''score''': 0.988}] ) @slow @require_tf def __lowerCAmelCase ( self : Union[str, Any] ) ->Union[str, Any]: """simple docstring""" a = pipeline('''text-classification''' , framework='''tf''' ) a = text_classifier('''This is great !''' ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''POSITIVE''', '''score''': 1.0}] ) a = text_classifier('''This is bad !''' ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''NEGATIVE''', '''score''': 1.0}] ) a = text_classifier('''Birds are a type of animal''' ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': '''POSITIVE''', '''score''': 0.988}] ) def __lowerCAmelCase ( self : Union[str, Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : Tuple ) ->str: """simple docstring""" a = TextClassificationPipeline(model=__UpperCAmelCase , tokenizer=__UpperCAmelCase ) return text_classifier, ["HuggingFace is in", "This is another test"] def __lowerCAmelCase ( self : Any , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : str ) ->Optional[Any]: """simple docstring""" a = text_classifier.model # Small inputs because BartTokenizer tiny has maximum position embeddings = 22 a = '''HuggingFace is in''' a = text_classifier(__UpperCAmelCase ) self.assertEqual(nested_simplify(__UpperCAmelCase ) , [{'''label''': ANY(__UpperCAmelCase ), '''score''': ANY(__UpperCAmelCase )}] ) self.assertTrue(outputs[0]['''label'''] in model.config.idalabel.values() ) a = ['''HuggingFace is in ''', '''Paris is in France'''] a = text_classifier(__UpperCAmelCase ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , [{'''label''': ANY(__UpperCAmelCase ), '''score''': ANY(__UpperCAmelCase )}, {'''label''': ANY(__UpperCAmelCase ), '''score''': ANY(__UpperCAmelCase )}] , ) self.assertTrue(outputs[0]['''label'''] in model.config.idalabel.values() ) self.assertTrue(outputs[1]['''label'''] in model.config.idalabel.values() ) # Forcing to get all results with `top_k=None` # This is NOT the legacy format a = text_classifier(__UpperCAmelCase , top_k=__UpperCAmelCase ) a = len(model.config.idalabel.values() ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , [[{'''label''': ANY(__UpperCAmelCase ), '''score''': ANY(__UpperCAmelCase )}] * N, [{'''label''': ANY(__UpperCAmelCase ), '''score''': ANY(__UpperCAmelCase )}] * N] , ) a = {'''text''': '''HuggingFace is in ''', '''text_pair''': '''Paris is in France'''} a = text_classifier(__UpperCAmelCase ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , {'''label''': ANY(__UpperCAmelCase ), '''score''': ANY(__UpperCAmelCase )} , ) self.assertTrue(outputs['''label'''] in model.config.idalabel.values() ) # This might be used a text pair, but tokenizer + pipe interaction # makes it hard to understand that it's not using the pair properly # https://github.com/huggingface/transformers/issues/17305 # We disabled this usage instead as it was outputting wrong outputs. a = [['''HuggingFace is in ''', '''Paris is in France''']] with self.assertRaises(__UpperCAmelCase ): text_classifier(__UpperCAmelCase ) # This used to be valid for doing text pairs # We're keeping it working because of backward compatibility a = text_classifier([[['''HuggingFace is in ''', '''Paris is in France''']]] ) self.assertEqual( nested_simplify(__UpperCAmelCase ) , [{'''label''': ANY(__UpperCAmelCase ), '''score''': ANY(__UpperCAmelCase )}] , ) self.assertTrue(outputs[0]['''label'''] in model.config.idalabel.values() )

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available UpperCAmelCase__ = { "configuration_nllb_moe": [ "NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP", "NllbMoeConfig", ] } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCAmelCase__ = [ "NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST", "NllbMoeForConditionalGeneration", "NllbMoeModel", "NllbMoePreTrainedModel", "NllbMoeTop2Router", "NllbMoeSparseMLP", ] if TYPE_CHECKING: from .configuration_nllb_moe import ( NLLB_MOE_PRETRAINED_CONFIG_ARCHIVE_MAP, NllbMoeConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_nllb_moe import ( NLLB_MOE_PRETRAINED_MODEL_ARCHIVE_LIST, NllbMoeForConditionalGeneration, NllbMoeModel, NllbMoePreTrainedModel, NllbMoeSparseMLP, NllbMoeTopaRouter, ) else: import sys UpperCAmelCase__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

import unittest import numpy as np from transformers import DistilBertConfig, is_flax_available from transformers.testing_utils import require_flax, slow from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask if is_flax_available(): import jax.numpy as jnp from transformers.models.distilbert.modeling_flax_distilbert import ( FlaxDistilBertForMaskedLM, FlaxDistilBertForMultipleChoice, FlaxDistilBertForQuestionAnswering, FlaxDistilBertForSequenceClassification, FlaxDistilBertForTokenClassification, FlaxDistilBertModel, ) class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __init__( self : Union[str, Any] , __UpperCAmelCase : Dict , __UpperCAmelCase : Tuple=13 , __UpperCAmelCase : Optional[int]=7 , __UpperCAmelCase : Tuple=True , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : Optional[Any]=True , __UpperCAmelCase : Dict=True , __UpperCAmelCase : str=99 , __UpperCAmelCase : Optional[int]=32 , __UpperCAmelCase : Any=5 , __UpperCAmelCase : List[str]=4 , __UpperCAmelCase : List[Any]=37 , __UpperCAmelCase : str="gelu" , __UpperCAmelCase : Optional[Any]=0.1 , __UpperCAmelCase : List[Any]=0.1 , __UpperCAmelCase : Dict=512 , __UpperCAmelCase : List[Any]=16 , __UpperCAmelCase : Tuple=2 , __UpperCAmelCase : List[Any]=0.02 , __UpperCAmelCase : Union[str, Any]=4 , ) ->str: """simple docstring""" a = parent a = batch_size a = seq_length a = is_training a = use_attention_mask a = use_token_type_ids a = use_labels a = vocab_size a = hidden_size a = num_hidden_layers a = num_attention_heads a = intermediate_size a = hidden_act a = hidden_dropout_prob a = attention_probs_dropout_prob a = max_position_embeddings a = type_vocab_size a = type_sequence_label_size a = initializer_range a = num_choices def __lowerCAmelCase ( self : Dict ) ->Optional[int]: """simple docstring""" a = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) a = None if self.use_attention_mask: a = random_attention_mask([self.batch_size, self.seq_length] ) a = DistilBertConfig( vocab_size=self.vocab_size , dim=self.hidden_size , n_layers=self.num_hidden_layers , n_heads=self.num_attention_heads , hidden_dim=self.intermediate_size , hidden_act=self.hidden_act , dropout=self.hidden_dropout_prob , attention_dropout=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , initializer_range=self.initializer_range , tie_weights_=__UpperCAmelCase , ) return config, input_ids, attention_mask def __lowerCAmelCase ( self : List[str] ) ->Union[str, Any]: """simple docstring""" a = self.prepare_config_and_inputs() a , a , a = config_and_inputs a = {'''input_ids''': input_ids, '''attention_mask''': attention_mask} return config, inputs_dict @require_flax class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = ( ( FlaxDistilBertModel, FlaxDistilBertForMaskedLM, FlaxDistilBertForMultipleChoice, FlaxDistilBertForQuestionAnswering, FlaxDistilBertForSequenceClassification, FlaxDistilBertForTokenClassification, FlaxDistilBertForQuestionAnswering, ) if is_flax_available() else () ) def __lowerCAmelCase ( self : Optional[int] ) ->Tuple: """simple docstring""" a = FlaxDistilBertModelTester(self ) @slow def __lowerCAmelCase ( self : Dict ) ->Any: """simple docstring""" for model_class_name in self.all_model_classes: a = model_class_name.from_pretrained('''distilbert-base-uncased''' ) a = model(np.ones((1, 1) ) ) self.assertIsNotNone(__UpperCAmelCase ) @require_flax class lowercase_ ( unittest.TestCase ): '''simple docstring''' @slow def __lowerCAmelCase ( self : Optional[int] ) ->List[Any]: """simple docstring""" a = FlaxDistilBertModel.from_pretrained('''distilbert-base-uncased''' ) a = np.array([[0, 345, 232, 328, 740, 140, 1_695, 69, 6_078, 1_588, 2]] ) a = np.array([[0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]] ) a = model(__UpperCAmelCase , attention_mask=__UpperCAmelCase )[0] a = (1, 11, 768) self.assertEqual(output.shape , __UpperCAmelCase ) a = np.array([[[-0.1639, 0.3299, 0.1648], [-0.1746, 0.3289, 0.1710], [-0.1884, 0.3357, 0.1810]]] ) self.assertTrue(jnp.allclose(output[:, 1:4, 1:4] , __UpperCAmelCase , atol=1e-4 ) )

def _a ( a :int ) -> list: # bit count represents no. of bits in the gray code if bit_count < 0: raise ValueError('''The given input must be positive''' ) # get the generated string sequence a = gray_code_sequence_string(a ) # # convert them to integers for i in range(len(a ) ): a = int(sequence[i] , 2 ) return sequence def _a ( a :int ) -> list: # The approach is a recursive one # Base case achieved when either n = 0 or n=1 if bit_count == 0: return ["0"] if bit_count == 1: return ["0", "1"] a = 1 << bit_count # defines the length of the sequence # 1<< n is equivalent to 2^n # recursive answer will generate answer for n-1 bits a = gray_code_sequence_string(bit_count - 1 ) a = [] # append 0 to first half of the smaller sequence generated for i in range(seq_len // 2 ): a = '''0''' + smaller_sequence[i] sequence.append(a ) # append 1 to second half ... start from the end of the list for i in reversed(range(seq_len // 2 ) ): a = '''1''' + smaller_sequence[i] sequence.append(a ) return sequence if __name__ == "__main__": import doctest doctest.testmod()

import os import re import sys import traceback import warnings from pathlib import Path from typing import Dict, Optional, Union from uuid import uuida from huggingface_hub import HfFolder, ModelCard, ModelCardData, hf_hub_download, whoami from huggingface_hub.file_download import REGEX_COMMIT_HASH from huggingface_hub.utils import ( EntryNotFoundError, RepositoryNotFoundError, RevisionNotFoundError, is_jinja_available, ) from packaging import version from requests import HTTPError from .. import __version__ from .constants import ( DEPRECATED_REVISION_ARGS, DIFFUSERS_CACHE, HUGGINGFACE_CO_RESOLVE_ENDPOINT, SAFETENSORS_WEIGHTS_NAME, WEIGHTS_NAME, ) from .import_utils import ( ENV_VARS_TRUE_VALUES, _flax_version, _jax_version, _onnxruntime_version, _torch_version, is_flax_available, is_onnx_available, is_torch_available, ) from .logging import get_logger UpperCAmelCase__ = get_logger(__name__) UpperCAmelCase__ = Path(__file__).parent / "model_card_template.md" UpperCAmelCase__ = uuida().hex UpperCAmelCase__ = os.getenv("HF_HUB_OFFLINE", "").upper() in ENV_VARS_TRUE_VALUES UpperCAmelCase__ = os.getenv("DISABLE_TELEMETRY", "").upper() in ENV_VARS_TRUE_VALUES UpperCAmelCase__ = HUGGINGFACE_CO_RESOLVE_ENDPOINT + "/api/telemetry/" def _a ( a :Union[Dict, str, None] = None ) -> str: a = F"""diffusers/{__version__}; python/{sys.version.split()[0]}; session_id/{SESSION_ID}""" if DISABLE_TELEMETRY or HF_HUB_OFFLINE: return ua + "; telemetry/off" if is_torch_available(): ua += F"""; torch/{_torch_version}""" if is_flax_available(): ua += F"""; jax/{_jax_version}""" ua += F"""; flax/{_flax_version}""" if is_onnx_available(): ua += F"""; onnxruntime/{_onnxruntime_version}""" # CI will set this value to True if os.environ.get('''DIFFUSERS_IS_CI''' , '''''' ).upper() in ENV_VARS_TRUE_VALUES: ua += "; is_ci/true" if isinstance(a , a ): ua += "; " + "; ".join(F"""{k}/{v}""" for k, v in user_agent.items() ) elif isinstance(a , a ): ua += "; " + user_agent return ua def _a ( a :str , a :Optional[str] = None , a :Optional[str] = None ) -> Union[str, Any]: if token is None: a = HfFolder.get_token() if organization is None: a = whoami(a )['''name'''] return F"""{username}/{model_id}""" else: return F"""{organization}/{model_id}""" def _a ( a :List[Any] , a :Tuple ) -> List[str]: if not is_jinja_available(): raise ValueError( '''Modelcard rendering is based on Jinja templates.''' ''' Please make sure to have `jinja` installed before using `create_model_card`.''' ''' To install it, please run `pip install Jinja2`.''' ) if hasattr(a , '''local_rank''' ) and args.local_rank not in [-1, 0]: return a = args.hub_token if hasattr(a , '''hub_token''' ) else None a = get_full_repo_name(a , token=a ) a = ModelCard.from_template( card_data=ModelCardData( # Card metadata object that will be converted to YAML block language='''en''' , license='''apache-2.0''' , library_name='''diffusers''' , tags=[] , datasets=args.dataset_name , metrics=[] , ) , template_path=a , model_name=a , repo_name=a , dataset_name=args.dataset_name if hasattr(a , '''dataset_name''' ) else None , learning_rate=args.learning_rate , train_batch_size=args.train_batch_size , eval_batch_size=args.eval_batch_size , gradient_accumulation_steps=( args.gradient_accumulation_steps if hasattr(a , '''gradient_accumulation_steps''' ) else None ) , adam_betaa=args.adam_betaa if hasattr(a , '''adam_beta1''' ) else None , adam_betaa=args.adam_betaa if hasattr(a , '''adam_beta2''' ) else None , adam_weight_decay=args.adam_weight_decay if hasattr(a , '''adam_weight_decay''' ) else None , adam_epsilon=args.adam_epsilon if hasattr(a , '''adam_epsilon''' ) else None , lr_scheduler=args.lr_scheduler if hasattr(a , '''lr_scheduler''' ) else None , lr_warmup_steps=args.lr_warmup_steps if hasattr(a , '''lr_warmup_steps''' ) else None , ema_inv_gamma=args.ema_inv_gamma if hasattr(a , '''ema_inv_gamma''' ) else None , ema_power=args.ema_power if hasattr(a , '''ema_power''' ) else None , ema_max_decay=args.ema_max_decay if hasattr(a , '''ema_max_decay''' ) else None , mixed_precision=args.mixed_precision , ) a = os.path.join(args.output_dir , '''README.md''' ) model_card.save(a ) def _a ( a :Optional[str] , a :Optional[str] = None ) -> Optional[int]: if resolved_file is None or commit_hash is not None: return commit_hash a = str(Path(a ).as_posix() ) a = re.search(r'''snapshots/([^/]+)/''' , a ) if search is None: return None a = search.groups()[0] return commit_hash if REGEX_COMMIT_HASH.match(a ) else None # Old default cache path, potentially to be migrated. # This logic was more or less taken from `transformers`, with the following differences: # - Diffusers doesn't use custom environment variables to specify the cache path. # - There is no need to migrate the cache format, just move the files to the new location. UpperCAmelCase__ = os.path.expanduser( os.getenv("HF_HOME", os.path.join(os.getenv("XDG_CACHE_HOME", "~/.cache"), "huggingface")) ) UpperCAmelCase__ = os.path.join(hf_cache_home, "diffusers") def _a ( a :Optional[str] = None , a :Optional[str] = None ) -> None: if new_cache_dir is None: a = DIFFUSERS_CACHE if old_cache_dir is None: a = old_diffusers_cache a = Path(a ).expanduser() a = Path(a ).expanduser() for old_blob_path in old_cache_dir.glob('''**/blobs/*''' ): if old_blob_path.is_file() and not old_blob_path.is_symlink(): a = new_cache_dir / old_blob_path.relative_to(a ) new_blob_path.parent.mkdir(parents=a , exist_ok=a ) os.replace(a , a ) try: os.symlink(a , a ) except OSError: logger.warning( '''Could not create symlink between old cache and new cache. If you use an older version of diffusers again, files will be re-downloaded.''' ) # At this point, old_cache_dir contains symlinks to the new cache (it can still be used). UpperCAmelCase__ = os.path.join(DIFFUSERS_CACHE, "version_diffusers_cache.txt") if not os.path.isfile(cache_version_file): UpperCAmelCase__ = 0 else: with open(cache_version_file) as f: try: UpperCAmelCase__ = int(f.read()) except ValueError: UpperCAmelCase__ = 0 if cache_version < 1: UpperCAmelCase__ = os.path.isdir(old_diffusers_cache) and len(os.listdir(old_diffusers_cache)) > 0 if old_cache_is_not_empty: logger.warning( "The cache for model files in Diffusers v0.14.0 has moved to a new location. Moving your " "existing cached models. This is a one-time operation, you can interrupt it or run it " "later by calling `diffusers.utils.hub_utils.move_cache()`." ) try: move_cache() except Exception as e: UpperCAmelCase__ = "\n".join(traceback.format_tb(e.__traceback__)) logger.error( f"""There was a problem when trying to move your cache:\n\n{trace}\n{e.__class__.__name__}: {e}\n\nPlease """ "file an issue at https://github.com/huggingface/diffusers/issues/new/choose, copy paste this whole " "message and we will do our best to help." ) if cache_version < 1: try: os.makedirs(DIFFUSERS_CACHE, exist_ok=True) with open(cache_version_file, "w") as f: f.write("1") except Exception: logger.warning( f"""There was a problem when trying to write in your cache folder ({DIFFUSERS_CACHE}). Please, ensure """ "the directory exists and can be written to." ) def _a ( a :str , a :Optional[str] = None ) -> str: if variant is not None: a = weights_name.split('''.''' ) a = splits[:-1] + [variant] + splits[-1:] a = '''.'''.join(a ) return weights_name def _a ( a :int , *, a :Dict , a :Any , a :Tuple , a :List[Any] , a :Union[str, Any] , a :Any , a :str , a :Dict , a :str , a :str , a :List[str]=None , ) -> Any: a = str(a ) if os.path.isfile(a ): return pretrained_model_name_or_path elif os.path.isdir(a ): if os.path.isfile(os.path.join(a , a ) ): # Load from a PyTorch checkpoint a = os.path.join(a , a ) return model_file elif subfolder is not None and os.path.isfile( os.path.join(a , a , a ) ): a = os.path.join(a , a , a ) return model_file else: raise EnvironmentError( F"""Error no file named {weights_name} found in directory {pretrained_model_name_or_path}.""" ) else: # 1. First check if deprecated way of loading from branches is used if ( revision in DEPRECATED_REVISION_ARGS and (weights_name == WEIGHTS_NAME or weights_name == SAFETENSORS_WEIGHTS_NAME) and version.parse(version.parse(a ).base_version ) >= version.parse('''0.20.0''' ) ): try: a = hf_hub_download( a , filename=_add_variant(a , a ) , cache_dir=a , force_download=a , proxies=a , resume_download=a , local_files_only=a , use_auth_token=a , user_agent=a , subfolder=a , revision=revision or commit_hash , ) warnings.warn( F"""Loading the variant {revision} from {pretrained_model_name_or_path} via `revision='{revision}'` is deprecated. Loading instead from `revision='main'` with `variant={revision}`. Loading model variants via `revision='{revision}'` will be removed in diffusers v1. Please use `variant='{revision}'` instead.""" , a , ) return model_file except: # noqa: E722 warnings.warn( F"""You are loading the variant {revision} from {pretrained_model_name_or_path} via `revision='{revision}'`. This behavior is deprecated and will be removed in diffusers v1. One should use `variant='{revision}'` instead. However, it appears that {pretrained_model_name_or_path} currently does not have a {_add_variant(a , a )} file in the 'main' branch of {pretrained_model_name_or_path}. \n The Diffusers team and community would be very grateful if you could open an issue: https://github.com/huggingface/diffusers/issues/new with the title '{pretrained_model_name_or_path} is missing {_add_variant(a , a )}' so that the correct variant file can be added.""" , a , ) try: # 2. Load model file as usual a = hf_hub_download( a , filename=a , cache_dir=a , force_download=a , proxies=a , resume_download=a , local_files_only=a , use_auth_token=a , user_agent=a , subfolder=a , revision=revision or commit_hash , ) return model_file except RepositoryNotFoundError: raise EnvironmentError( F"""{pretrained_model_name_or_path} is not a local folder and is not a valid model identifier """ '''listed on \'https://huggingface.co/models\'\nIf this is a private repository, make sure to pass a ''' '''token having permission to this repo with `use_auth_token` or log in with `huggingface-cli ''' '''login`.''' ) except RevisionNotFoundError: raise EnvironmentError( F"""{revision} is not a valid git identifier (branch name, tag name or commit id) that exists for """ '''this model name. Check the model page at ''' F"""'https://huggingface.co/{pretrained_model_name_or_path}' for available revisions.""" ) except EntryNotFoundError: raise EnvironmentError( F"""{pretrained_model_name_or_path} does not appear to have a file named {weights_name}.""" ) except HTTPError as err: raise EnvironmentError( F"""There was a specific connection error when trying to load {pretrained_model_name_or_path}:\n{err}""" ) except ValueError: raise EnvironmentError( F"""We couldn't connect to '{HUGGINGFACE_CO_RESOLVE_ENDPOINT}' to load this model, couldn't find it""" F""" in the cached files and it looks like {pretrained_model_name_or_path} is not the path to a""" F""" directory containing a file named {weights_name} or""" ''' \nCheckout your internet connection or see how to run the library in''' ''' offline mode at \'https://huggingface.co/docs/diffusers/installation#offline-mode\'.''' ) except EnvironmentError: raise EnvironmentError( F"""Can't load the model for '{pretrained_model_name_or_path}'. If you were trying to load it from """ '''\'https://huggingface.co/models\', make sure you don\'t have a local directory with the same name. ''' F"""Otherwise, make sure '{pretrained_model_name_or_path}' is the correct path to a directory """ F"""containing a file named {weights_name}""" )

import json import os import shutil import tempfile import unittest import numpy as np from transformers import BertTokenizerFast from transformers.models.bert.tokenization_bert import VOCAB_FILES_NAMES, BertTokenizer from transformers.testing_utils import require_tokenizers, require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import VisionTextDualEncoderProcessor, ViTImageProcessor @require_tokenizers @require_vision class lowercase_ ( unittest.TestCase ): '''simple docstring''' def __lowerCAmelCase ( self : List[Any] ) ->Tuple: """simple docstring""" a = tempfile.mkdtemp() # fmt: off a = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''want''', '''##want''', '''##ed''', '''wa''', '''un''', '''runn''', '''##ing''', ''',''', '''low''', '''lowest'''] # fmt: on a = 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] ) ) a = { '''do_resize''': True, '''size''': {'''height''': 18, '''width''': 18}, '''do_normalize''': True, '''image_mean''': [0.5, 0.5, 0.5], '''image_std''': [0.5, 0.5, 0.5], } a = os.path.join(self.tmpdirname , __UpperCAmelCase ) with open(self.image_processor_file , '''w''' , encoding='''utf-8''' ) as fp: json.dump(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : List[Any] , **__UpperCAmelCase : List[Any] ) ->int: """simple docstring""" return BertTokenizer.from_pretrained(self.tmpdirname , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Union[str, Any] , **__UpperCAmelCase : Optional[int] ) ->Union[str, Any]: """simple docstring""" return ViTImageProcessor.from_pretrained(self.tmpdirname , **__UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" shutil.rmtree(self.tmpdirname ) def __lowerCAmelCase ( self : str ) ->Dict: """simple docstring""" a = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )] a = [Image.fromarray(np.moveaxis(__UpperCAmelCase , 0 , -1 ) ) for x in image_inputs] return image_inputs def __lowerCAmelCase ( self : Any ) ->Tuple: """simple docstring""" a = self.get_tokenizer() a = self.get_image_processor() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) processor.save_pretrained(self.tmpdirname ) a = VisionTextDualEncoderProcessor.from_pretrained(self.tmpdirname ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer.get_vocab() ) self.assertIsInstance(processor.tokenizer , (BertTokenizer, BertTokenizerFast) ) self.assertEqual(processor.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertIsInstance(processor.image_processor , __UpperCAmelCase ) def __lowerCAmelCase ( self : int ) ->Dict: """simple docstring""" a = VisionTextDualEncoderProcessor( tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) a = self.get_tokenizer(bos_token='''(BOS)''' , eos_token='''(EOS)''' ) a = self.get_image_processor(do_normalize=__UpperCAmelCase , padding_value=1.0 ) a = VisionTextDualEncoderProcessor.from_pretrained( self.tmpdirname , bos_token='''(BOS)''' , eos_token='''(EOS)''' , do_normalize=__UpperCAmelCase , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , (BertTokenizer, BertTokenizerFast) ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , __UpperCAmelCase ) def __lowerCAmelCase ( self : Tuple ) ->Dict: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = self.prepare_image_inputs() a = image_processor(__UpperCAmelCase , return_tensors='''np''' ) a = processor(images=__UpperCAmelCase , return_tensors='''np''' ) for key in input_feat_extract.keys(): self.assertAlmostEqual(input_feat_extract[key].sum() , input_processor[key].sum() , delta=1e-2 ) def __lowerCAmelCase ( self : List[str] ) ->str: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = processor(text=__UpperCAmelCase ) a = tokenizer(__UpperCAmelCase ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def __lowerCAmelCase ( self : List[Any] ) ->List[str]: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = self.prepare_image_inputs() a = processor(text=__UpperCAmelCase , images=__UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , ['''input_ids''', '''token_type_ids''', '''attention_mask''', '''pixel_values'''] ) # test if it raises when no input is passed with self.assertRaises(__UpperCAmelCase ): processor() def __lowerCAmelCase ( self : Optional[int] ) ->List[str]: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] a = processor.batch_decode(__UpperCAmelCase ) a = tokenizer.batch_decode(__UpperCAmelCase ) self.assertListEqual(__UpperCAmelCase , __UpperCAmelCase ) def __lowerCAmelCase ( self : Optional[Any] ) ->Dict: """simple docstring""" a = self.get_image_processor() a = self.get_tokenizer() a = VisionTextDualEncoderProcessor(tokenizer=__UpperCAmelCase , image_processor=__UpperCAmelCase ) a = '''lower newer''' a = self.prepare_image_inputs() a = processor(text=__UpperCAmelCase , images=__UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , processor.model_input_names )

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

import argparse import json from collections import OrderedDict import torch from huggingface_hub import cached_download, hf_hub_url from transformers import AutoImageProcessor, CvtConfig, CvtForImageClassification def _a ( a :List[Any] ) -> Optional[int]: a = [] embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.weight""", F"""stage{idx}.patch_embed.proj.weight""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.bias""", F"""stage{idx}.patch_embed.proj.bias""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.weight""", F"""stage{idx}.patch_embed.norm.weight""", ) ) embed.append( ( F"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.bias""", F"""stage{idx}.patch_embed.norm.bias""", ) ) return embed def _a ( a :List[Any] , a :Optional[int] ) -> Dict: a = [] attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.convolution.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.conv.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.weight""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.bias""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_mean""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_mean""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_var""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_var""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.num_batches_tracked""", F"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.num_batches_tracked""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_q.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_q.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_k.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_k.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj_v.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj_v.bias""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.weight""", F"""stage{idx}.blocks.{cnt}.attn.proj.weight""", ) ) attention_weights.append( ( F"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.bias""", F"""stage{idx}.blocks.{cnt}.attn.proj.bias""", ) ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.weight""", F"""stage{idx}.blocks.{cnt}.mlp.fc1.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.bias""", F"""stage{idx}.blocks.{cnt}.mlp.fc1.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.weight""", F"""stage{idx}.blocks.{cnt}.mlp.fc2.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.bias""", F"""stage{idx}.blocks.{cnt}.mlp.fc2.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.weight""", F"""stage{idx}.blocks.{cnt}.norm1.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.bias""", F"""stage{idx}.blocks.{cnt}.norm1.bias""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.weight""", F"""stage{idx}.blocks.{cnt}.norm2.weight""") ) attention_weights.append( (F"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.bias""", F"""stage{idx}.blocks.{cnt}.norm2.bias""") ) return attention_weights def _a ( a :Any ) -> List[Any]: a = [] token.append((F"""cvt.encoder.stages.{idx}.cls_token""", '''stage2.cls_token''') ) return token def _a ( ) -> Optional[int]: a = [] head.append(('''layernorm.weight''', '''norm.weight''') ) head.append(('''layernorm.bias''', '''norm.bias''') ) head.append(('''classifier.weight''', '''head.weight''') ) head.append(('''classifier.bias''', '''head.bias''') ) return head def _a ( a :Tuple , a :Optional[int] , a :List[Any] , a :Union[str, Any] ) -> Optional[int]: a = '''imagenet-1k-id2label.json''' a = 1_000 a = '''huggingface/label-files''' a = num_labels a = json.load(open(cached_download(hf_hub_url(a , a , repo_type='''dataset''' ) ) , '''r''' ) ) a = {int(a ): v for k, v in idalabel.items()} a = idalabel a = {v: k for k, v in idalabel.items()} a = a = CvtConfig(num_labels=a , idalabel=a , labelaid=a ) # For depth size 13 (13 = 1+2+10) if cvt_model.rsplit('''/''' , 1 )[-1][4:6] == "13": a = [1, 2, 10] # For depth size 21 (21 = 1+4+16) elif cvt_model.rsplit('''/''' , 1 )[-1][4:6] == "21": a = [1, 4, 16] # For wide cvt (similar to wide-resnet) depth size 24 (w24 = 2 + 2 20) else: a = [2, 2, 20] a = [3, 12, 16] a = [192, 768, 1_024] a = CvtForImageClassification(a ) a = AutoImageProcessor.from_pretrained('''facebook/convnext-base-224-22k-1k''' ) a = image_size a = torch.load(a , map_location=torch.device('''cpu''' ) ) a = OrderedDict() a = [] for idx in range(len(config.depth ) ): if config.cls_token[idx]: a = list_of_state_dict + cls_token(a ) a = list_of_state_dict + embeddings(a ) for cnt in range(config.depth[idx] ): a = list_of_state_dict + attention(a , a ) a = list_of_state_dict + final() for gg in list_of_state_dict: print(a ) for i in range(len(a ) ): a = original_weights[list_of_state_dict[i][1]] model.load_state_dict(a ) model.save_pretrained(a ) image_processor.save_pretrained(a ) # Download the weights from zoo: https://1drv.ms/u/s!AhIXJn_J-blW9RzF3rMW7SsLHa8h?e=blQ0Al if __name__ == "__main__": UpperCAmelCase__ = argparse.ArgumentParser() parser.add_argument( "--cvt_model", default="cvt-w24", type=str, help="Name of the cvt model you'd like to convert.", ) parser.add_argument( "--image_size", default=384, type=int, help="Input Image Size", ) parser.add_argument( "--cvt_file_name", default=R"cvtmodels\CvT-w24-384x384-IN-22k.pth", type=str, help="Input Image Size", ) parser.add_argument( "--pytorch_dump_folder_path", default=None, type=str, help="Path to the output PyTorch model directory." ) UpperCAmelCase__ = parser.parse_args() convert_cvt_checkpoint(args.cvt_model, args.image_size, args.cvt_file_name, args.pytorch_dump_folder_path)

import multiprocessing import os from typing import BinaryIO, Optional, Union import fsspec from .. import Dataset, Features, NamedSplit, config from ..formatting import query_table from ..packaged_modules.json.json import Json from ..utils import logging from ..utils.typing import NestedDataStructureLike, PathLike from .abc import AbstractDatasetReader class lowercase_ ( lowercase ): '''simple docstring''' def __init__( self : Optional[int] , __UpperCAmelCase : NestedDataStructureLike[PathLike] , __UpperCAmelCase : Optional[NamedSplit] = None , __UpperCAmelCase : Optional[Features] = None , __UpperCAmelCase : str = None , __UpperCAmelCase : bool = False , __UpperCAmelCase : bool = False , __UpperCAmelCase : Optional[str] = None , __UpperCAmelCase : Optional[int] = None , **__UpperCAmelCase : Any , ) ->str: """simple docstring""" super().__init__( __UpperCAmelCase , split=__UpperCAmelCase , features=__UpperCAmelCase , cache_dir=__UpperCAmelCase , keep_in_memory=__UpperCAmelCase , streaming=__UpperCAmelCase , num_proc=__UpperCAmelCase , **__UpperCAmelCase , ) a = field a = path_or_paths if isinstance(__UpperCAmelCase , __UpperCAmelCase ) else {self.split: path_or_paths} a = Json( cache_dir=__UpperCAmelCase , data_files=__UpperCAmelCase , features=__UpperCAmelCase , field=__UpperCAmelCase , **__UpperCAmelCase , ) def __lowerCAmelCase ( self : Any ) ->Union[str, Any]: """simple docstring""" if self.streaming: a = self.builder.as_streaming_dataset(split=self.split ) # Build regular (map-style) dataset else: a = None a = None a = None a = None self.builder.download_and_prepare( download_config=__UpperCAmelCase , download_mode=__UpperCAmelCase , verification_mode=__UpperCAmelCase , base_path=__UpperCAmelCase , num_proc=self.num_proc , ) a = self.builder.as_dataset( split=self.split , verification_mode=__UpperCAmelCase , in_memory=self.keep_in_memory ) return dataset class lowercase_ : '''simple docstring''' def __init__( self : List[str] , __UpperCAmelCase : Dataset , __UpperCAmelCase : Union[PathLike, BinaryIO] , __UpperCAmelCase : Optional[int] = None , __UpperCAmelCase : Optional[int] = None , **__UpperCAmelCase : List[Any] , ) ->int: """simple docstring""" if num_proc is not None and num_proc <= 0: raise ValueError(F"""num_proc {num_proc} must be an integer > 0.""" ) a = dataset a = path_or_buf a = batch_size if batch_size else config.DEFAULT_MAX_BATCH_SIZE a = num_proc a = '''utf-8''' a = to_json_kwargs def __lowerCAmelCase ( self : Union[str, Any] ) ->int: """simple docstring""" a = self.to_json_kwargs.pop('''path_or_buf''' , __UpperCAmelCase ) a = self.to_json_kwargs.pop('''orient''' , '''records''' ) a = self.to_json_kwargs.pop('''lines''' , True if orient == '''records''' else False ) a = self.to_json_kwargs.pop('''index''' , False if orient in ['''split''', '''table'''] else True ) a = self.to_json_kwargs.pop('''compression''' , __UpperCAmelCase ) if compression not in [None, "infer", "gzip", "bz2", "xz"]: raise NotImplementedError(F"""`datasets` currently does not support {compression} compression""" ) if isinstance(self.path_or_buf , (str, bytes, os.PathLike) ): with fsspec.open(self.path_or_buf , '''wb''' , compression=__UpperCAmelCase ) as buffer: a = self._write(file_obj=__UpperCAmelCase , orient=__UpperCAmelCase , lines=__UpperCAmelCase , index=__UpperCAmelCase , **self.to_json_kwargs ) else: if compression: raise NotImplementedError( F"""The compression parameter is not supported when writing to a buffer, but compression={compression}""" ''' was passed. Please provide a local path instead.''' ) a = self._write( file_obj=self.path_or_buf , orient=__UpperCAmelCase , lines=__UpperCAmelCase , index=__UpperCAmelCase , **self.to_json_kwargs ) return written def __lowerCAmelCase ( self : Any , __UpperCAmelCase : Optional[Any] ) ->Dict: """simple docstring""" a , a , a , a , a = args a = query_table( table=self.dataset.data , key=slice(__UpperCAmelCase , offset + self.batch_size ) , indices=self.dataset._indices , ) a = batch.to_pandas().to_json( path_or_buf=__UpperCAmelCase , orient=__UpperCAmelCase , lines=__UpperCAmelCase , index=__UpperCAmelCase , **__UpperCAmelCase ) if not json_str.endswith('''\n''' ): json_str += "\n" return json_str.encode(self.encoding ) def __lowerCAmelCase ( self : Dict , __UpperCAmelCase : BinaryIO , __UpperCAmelCase : Tuple , __UpperCAmelCase : Optional[Any] , __UpperCAmelCase : Optional[int] , **__UpperCAmelCase : Optional[Any] , ) ->int: """simple docstring""" a = 0 if self.num_proc is None or self.num_proc == 1: for offset in logging.tqdm( range(0 , len(self.dataset ) , self.batch_size ) , unit='''ba''' , disable=not logging.is_progress_bar_enabled() , desc='''Creating json from Arrow format''' , ): a = self._batch_json((offset, orient, lines, index, to_json_kwargs) ) written += file_obj.write(__UpperCAmelCase ) else: a , a = len(self.dataset ), self.batch_size with multiprocessing.Pool(self.num_proc ) as pool: for json_str in logging.tqdm( pool.imap( self._batch_json , [(offset, orient, lines, index, to_json_kwargs) for offset in range(0 , __UpperCAmelCase , __UpperCAmelCase )] , ) , total=(num_rows // batch_size) + 1 if num_rows % batch_size else num_rows // batch_size , unit='''ba''' , disable=not logging.is_progress_bar_enabled() , desc='''Creating json from Arrow format''' , ): written += file_obj.write(__UpperCAmelCase ) return written

from __future__ import annotations UpperCAmelCase__ = list[list[int]] # assigning initial values to the grid UpperCAmelCase__ = [ [3, 0, 6, 5, 0, 8, 4, 0, 0], [5, 2, 0, 0, 0, 0, 0, 0, 0], [0, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] # a grid with no solution UpperCAmelCase__ = [ [5, 0, 6, 5, 0, 8, 4, 0, 3], [5, 2, 0, 0, 0, 0, 0, 0, 2], [1, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] def _a ( a :Matrix , a :int , a :int , a :int ) -> bool: for i in range(9 ): if grid[row][i] == n or grid[i][column] == n: return False for i in range(3 ): for j in range(3 ): if grid[(row - row % 3) + i][(column - column % 3) + j] == n: return False return True def _a ( a :Matrix ) -> tuple[int, int] | None: for i in range(9 ): for j in range(9 ): if grid[i][j] == 0: return i, j return None def _a ( a :Matrix ) -> Matrix | None: if location := find_empty_location(a ): a , a = location else: # If the location is ``None``, then the grid is solved. return grid for digit in range(1 , 10 ): if is_safe(a , a , a , a ): a = digit if sudoku(a ) is not None: return grid a = 0 return None def _a ( a :Matrix ) -> None: for row in grid: for cell in row: print(a , end=''' ''' ) print() if __name__ == "__main__": # make a copy of grid so that you can compare with the unmodified grid for example_grid in (initial_grid, no_solution): print("\nExample grid:\n" + "=" * 20) print_solution(example_grid) print("\nExample grid solution:") UpperCAmelCase__ = sudoku(example_grid) if solution is not None: print_solution(solution) else: print("Cannot find a solution.")

def _a ( a :float , a :float ) -> float: return price * (1 + tax_rate) if __name__ == "__main__": print(f"""{price_plus_tax(100, 0.25) = }""") print(f"""{price_plus_tax(125.50, 0.05) = }""")

import unittest import numpy as np import torch from torch import nn from transformers import ( CLIPImageProcessor, CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer, CLIPVisionConfig, CLIPVisionModelWithProjection, ) from diffusers import KandinskyVaaPriorPipeline, PriorTransformer, UnCLIPScheduler from diffusers.utils import torch_device from diffusers.utils.testing_utils import enable_full_determinism, skip_mps from ..test_pipelines_common import PipelineTesterMixin enable_full_determinism() class lowercase_ ( lowercase , unittest.TestCase ): '''simple docstring''' __snake_case = KandinskyVaaPriorPipeline __snake_case = ['''prompt'''] __snake_case = ['''prompt''', '''negative_prompt'''] __snake_case = [ '''num_images_per_prompt''', '''generator''', '''num_inference_steps''', '''latents''', '''negative_prompt''', '''guidance_scale''', '''output_type''', '''return_dict''', ] __snake_case = False @property def __lowerCAmelCase ( self : Optional[Any] ) ->Union[str, Any]: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : Dict ) ->Any: """simple docstring""" return 32 @property def __lowerCAmelCase ( self : int ) ->List[str]: """simple docstring""" return self.time_input_dim @property def __lowerCAmelCase ( self : Tuple ) ->Any: """simple docstring""" return self.time_input_dim * 4 @property def __lowerCAmelCase ( self : Any ) ->List[Any]: """simple docstring""" return 100 @property def __lowerCAmelCase ( self : List[Any] ) ->str: """simple docstring""" a = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''' ) return tokenizer @property def __lowerCAmelCase ( self : Tuple ) ->str: """simple docstring""" torch.manual_seed(0 ) a = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1e-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__UpperCAmelCase ) @property def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" torch.manual_seed(0 ) a = { '''num_attention_heads''': 2, '''attention_head_dim''': 12, '''embedding_dim''': self.text_embedder_hidden_size, '''num_layers''': 1, } a = PriorTransformer(**__UpperCAmelCase ) # clip_std and clip_mean is initialized to be 0 so PriorTransformer.post_process_latents will always return 0 - set clip_std to be 1 so it won't return 0 a = nn.Parameter(torch.ones(model.clip_std.shape ) ) return model @property def __lowerCAmelCase ( self : Optional[int] ) ->List[Any]: """simple docstring""" torch.manual_seed(0 ) a = CLIPVisionConfig( hidden_size=self.text_embedder_hidden_size , image_size=224 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=14 , ) a = CLIPVisionModelWithProjection(__UpperCAmelCase ) return model @property def __lowerCAmelCase ( self : Tuple ) ->int: """simple docstring""" a = CLIPImageProcessor( crop_size=224 , do_center_crop=__UpperCAmelCase , do_normalize=__UpperCAmelCase , do_resize=__UpperCAmelCase , image_mean=[0.48145466, 0.4578275, 0.40821073] , image_std=[0.26862954, 0.26130258, 0.27577711] , resample=3 , size=224 , ) return image_processor def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = self.dummy_prior a = self.dummy_image_encoder a = self.dummy_text_encoder a = self.dummy_tokenizer a = self.dummy_image_processor a = UnCLIPScheduler( variance_type='''fixed_small_log''' , prediction_type='''sample''' , num_train_timesteps=1_000 , clip_sample=__UpperCAmelCase , clip_sample_range=10.0 , ) a = { '''prior''': prior, '''image_encoder''': image_encoder, '''text_encoder''': text_encoder, '''tokenizer''': tokenizer, '''scheduler''': scheduler, '''image_processor''': image_processor, } return components def __lowerCAmelCase ( self : Optional[Any] , __UpperCAmelCase : List[Any] , __UpperCAmelCase : str=0 ) ->int: """simple docstring""" if str(__UpperCAmelCase ).startswith('''mps''' ): a = torch.manual_seed(__UpperCAmelCase ) else: a = torch.Generator(device=__UpperCAmelCase ).manual_seed(__UpperCAmelCase ) a = { '''prompt''': '''horse''', '''generator''': generator, '''guidance_scale''': 4.0, '''num_inference_steps''': 2, '''output_type''': '''np''', } return inputs def __lowerCAmelCase ( self : str ) ->Tuple: """simple docstring""" a = '''cpu''' a = self.get_dummy_components() a = self.pipeline_class(**__UpperCAmelCase ) a = pipe.to(__UpperCAmelCase ) pipe.set_progress_bar_config(disable=__UpperCAmelCase ) a = pipe(**self.get_dummy_inputs(__UpperCAmelCase ) ) a = output.image_embeds a = pipe( **self.get_dummy_inputs(__UpperCAmelCase ) , return_dict=__UpperCAmelCase , )[0] a = image[0, -10:] a = image_from_tuple[0, -10:] assert image.shape == (1, 32) a = np.array( [-0.0532, 1.7120, 0.3656, -1.0852, -0.8946, -1.1756, 0.4348, 0.2482, 0.5146, -0.1156] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1e-2 @skip_mps def __lowerCAmelCase ( self : List[Any] ) ->Optional[Any]: """simple docstring""" a = torch_device == '''cpu''' a = True a = False self._test_inference_batch_single_identical( test_max_difference=__UpperCAmelCase , relax_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , ) @skip_mps def __lowerCAmelCase ( self : List[str] ) ->Union[str, Any]: """simple docstring""" a = torch_device == '''cpu''' a = False self._test_attention_slicing_forward_pass( test_max_difference=__UpperCAmelCase , test_mean_pixel_difference=__UpperCAmelCase , )