code
stringlengths 87
55.2k
| code_codestyle
int64 0
349
| style_context
stringlengths 135
49.1k
| style_context_codestyle
int64 0
349
| label
int64 0
1
|
|---|---|---|---|---|
import requests
def lowerCamelCase__ ( A__ : str , A__ : str ):
'''simple docstring'''
__lowerCamelCase = {"""Content-Type""": """application/json"""}
__lowerCamelCase = requests.post(A__ , json={"""text""": message_body} , headers=A__ )
if response.status_code != 200:
__lowerCamelCase = (
"""Request to slack returned an error """
f'{response.status_code}, the response is:\n{response.text}'
)
raise ValueError(A__ )
if __name__ == "__main__":
# Set the slack url to the one provided by Slack when you create the webhook at
# https://my.slack.com/services/new/incoming-webhook/
send_slack_message('<YOUR MESSAGE BODY>', '<SLACK CHANNEL URL>')
| 12 |
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 lowerCamelCase__( __lowerCamelCase):
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = SMALL_MODEL_IDENTIFIER
__lowerCamelCase = """pt"""
__lowerCamelCase = """tf"""
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Optional[Any] ):
__lowerCamelCase = AutoModel.from_pretrained(self.test_model )
model_pt.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Union[str, Any] ):
__lowerCamelCase = TFAutoModel.from_pretrained(self.test_model , from_pt=UpperCamelCase_ )
model_tf.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = """mock_framework"""
# Framework provided - return whatever the user provides
__lowerCamelCase = 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_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
# PyTorch checkpoint
with TemporaryDirectory() as local_pt_ckpt:
self._setup_pt_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Invalid local checkpoint
with TemporaryDirectory() as local_invalid_ckpt:
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# PyTorch not in environment -> use TensorFlow
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Both in environment -> use PyTorch
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ), patch(
"""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# Both not in environment -> raise error
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = 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_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
| 12 | 1 |
import baseaa
def lowerCamelCase__ ( A__ : str ):
'''simple docstring'''
return baseaa.baaencode(string.encode("""utf-8""" ) )
def lowerCamelCase__ ( A__ : bytes ):
'''simple docstring'''
return baseaa.baadecode(A__ ).decode("""utf-8""" )
if __name__ == "__main__":
UpperCAmelCase_ = 'Hello World!'
UpperCAmelCase_ = baseaa_encode(test)
print(encoded)
UpperCAmelCase_ = baseaa_decode(encoded)
print(decoded)
| 12 |
from __future__ import annotations
from PIL import Image
# Define glider example
UpperCAmelCase_ = [
[0, 1, 0, 0, 0, 0, 0, 0],
[0, 0, 1, 0, 0, 0, 0, 0],
[1, 1, 1, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
]
# Define blinker example
UpperCAmelCase_ = [[0, 1, 0], [0, 1, 0], [0, 1, 0]]
def lowerCamelCase__ ( A__ : list[list[int]] ):
'''simple docstring'''
__lowerCamelCase = []
for i in range(len(A__ ) ):
__lowerCamelCase = []
for j in range(len(cells[i] ) ):
# Get the number of live neighbours
__lowerCamelCase = 0
if i > 0 and j > 0:
neighbour_count += cells[i - 1][j - 1]
if i > 0:
neighbour_count += cells[i - 1][j]
if i > 0 and j < len(cells[i] ) - 1:
neighbour_count += cells[i - 1][j + 1]
if j > 0:
neighbour_count += cells[i][j - 1]
if j < len(cells[i] ) - 1:
neighbour_count += cells[i][j + 1]
if i < len(A__ ) - 1 and j > 0:
neighbour_count += cells[i + 1][j - 1]
if i < len(A__ ) - 1:
neighbour_count += cells[i + 1][j]
if i < len(A__ ) - 1 and j < len(cells[i] ) - 1:
neighbour_count += cells[i + 1][j + 1]
# Rules of the game of life (excerpt from Wikipedia):
# 1. Any live cell with two or three live neighbours survives.
# 2. Any dead cell with three live neighbours becomes a live cell.
# 3. All other live cells die in the next generation.
# Similarly, all other dead cells stay dead.
__lowerCamelCase = cells[i][j] == 1
if (
(alive and 2 <= neighbour_count <= 3)
or not alive
and neighbour_count == 3
):
next_generation_row.append(1 )
else:
next_generation_row.append(0 )
next_generation.append(A__ )
return next_generation
def lowerCamelCase__ ( A__ : list[list[int]] , A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
for _ in range(A__ ):
# Create output image
__lowerCamelCase = Image.new("""RGB""" , (len(cells[0] ), len(A__ )) )
__lowerCamelCase = img.load()
# Save cells to image
for x in range(len(A__ ) ):
for y in range(len(cells[0] ) ):
__lowerCamelCase = 255 - cells[y][x] * 255
__lowerCamelCase = (colour, colour, colour)
# Save image
images.append(A__ )
__lowerCamelCase = new_generation(A__ )
return images
if __name__ == "__main__":
UpperCAmelCase_ = generate_images(GLIDER, 16)
images[0].save('out.gif', save_all=True, append_images=images[1:])
| 12 | 1 |
import random
import unittest
import numpy as np
import torch
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
DDIMScheduler,
UNetaDConditionModel,
VideoToVideoSDPipeline,
)
from diffusers.utils import floats_tensor, is_xformers_available, skip_mps
from diffusers.utils.testing_utils import enable_full_determinism, slow, torch_device
from ..pipeline_params import (
TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import PipelineTesterMixin
enable_full_determinism()
@skip_mps
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Optional[Any] = VideoToVideoSDPipeline
UpperCAmelCase__ : Tuple = TEXT_GUIDED_IMAGE_VARIATION_PARAMS.union({'video'}) - {'image', 'width', 'height'}
UpperCAmelCase__ : Dict = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS.union({'video'}) - {'image'}
UpperCAmelCase__ : Optional[int] = PipelineTesterMixin.required_optional_params - {'latents'}
UpperCAmelCase__ : Any = False
# No `output_type`.
UpperCAmelCase__ : Optional[Any] = frozenset(
[
'num_inference_steps',
'generator',
'latents',
'return_dict',
'callback',
'callback_steps',
])
def lowerCAmelCase__ ( self: Optional[Any] ):
torch.manual_seed(0 )
__lowerCamelCase = UNetaDConditionModel(
block_out_channels=(32, 64, 64, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""CrossAttnDownBlock3D""", """CrossAttnDownBlock3D""", """CrossAttnDownBlock3D""", """DownBlock3D""") , up_block_types=("""UpBlock3D""", """CrossAttnUpBlock3D""", """CrossAttnUpBlock3D""", """CrossAttnUpBlock3D""") , cross_attention_dim=32 , attention_head_dim=4 , )
__lowerCamelCase = DDIMScheduler(
beta_start=0.0_0085 , beta_end=0.012 , beta_schedule="""scaled_linear""" , clip_sample=UpperCamelCase_ , set_alpha_to_one=UpperCamelCase_ , )
torch.manual_seed(0 )
__lowerCamelCase = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , sample_size=1_28 , )
torch.manual_seed(0 )
__lowerCamelCase = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , hidden_act="""gelu""" , projection_dim=5_12 , )
__lowerCamelCase = CLIPTextModel(UpperCamelCase_ )
__lowerCamelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" )
__lowerCamelCase = {
"""unet""": unet,
"""scheduler""": scheduler,
"""vae""": vae,
"""text_encoder""": text_encoder,
"""tokenizer""": tokenizer,
}
return components
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Optional[Any] , UpperCamelCase_: Dict=0 ):
# 3 frames
__lowerCamelCase = floats_tensor((1, 3, 3, 32, 32) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""prompt""": """A painting of a squirrel eating a burger""",
"""video""": video,
"""generator""": generator,
"""num_inference_steps""": 2,
"""guidance_scale""": 6.0,
"""output_type""": """pt""",
}
return inputs
def lowerCAmelCase__ ( self: Optional[Any] ):
__lowerCamelCase = """cpu""" # ensure determinism for the device-dependent torch.Generator
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = VideoToVideoSDPipeline(**UpperCamelCase_ )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
__lowerCamelCase = """np"""
__lowerCamelCase = sd_pipe(**UpperCamelCase_ ).frames
__lowerCamelCase = frames[0][-3:, -3:, -1]
assert frames[0].shape == (32, 32, 3)
__lowerCamelCase = np.array([1_06, 1_17, 1_13, 1_74, 1_37, 1_12, 1_48, 1_51, 1_31] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
@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 ):
self._test_xformers_attention_forwardGenerator_pass(test_mean_pixel_difference=UpperCamelCase_ , expected_max_diff=5E-3 )
@unittest.skip(reason="""Batching needs to be properly figured out first for this pipeline.""" )
def lowerCAmelCase__ ( self: Optional[Any] ):
pass
@unittest.skip(reason="""Batching needs to be properly figured out first for this pipeline.""" )
def lowerCAmelCase__ ( self: Tuple ):
pass
@unittest.skip(reason="""`num_images_per_prompt` argument is not supported for this pipeline.""" )
def lowerCAmelCase__ ( self: Tuple ):
pass
def lowerCAmelCase__ ( self: int ):
return super().test_progress_bar()
@slow
@skip_mps
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = VideoToVideoSDPipeline.from_pretrained("""cerspense/zeroscope_v2_XL""" , torch_dtype=torch.floataa )
pipe.enable_model_cpu_offload()
# 10 frames
__lowerCamelCase = torch.Generator(device="""cpu""" ).manual_seed(0 )
__lowerCamelCase = torch.randn((1, 10, 3, 10_24, 5_76) , generator=UpperCamelCase_ )
__lowerCamelCase = video.to("""cuda""" )
__lowerCamelCase = """Spiderman is surfing"""
__lowerCamelCase = pipe(UpperCamelCase_ , video=UpperCamelCase_ , generator=UpperCamelCase_ , num_inference_steps=3 , output_type="""pt""" ).frames
__lowerCamelCase = np.array([-1.045_8984, -1.127_9297, -0.966_3086, -0.9150_3906, -0.7509_7656] )
assert np.abs(video_frames.cpu().numpy()[0, 0, 0, 0, -5:] - expected_array ).sum() < 1E-2
| 12 |
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import AutoencoderKL, PNDMScheduler, StableDiffusionInpaintPipeline, UNetaDConditionModel
from diffusers.utils import floats_tensor, load_image, load_numpy, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu, slow
from ..pipeline_params import TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS, TEXT_GUIDED_IMAGE_INPAINTING_PARAMS
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class lowerCamelCase__( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Union[str, Any] = StableDiffusionInpaintPipeline
UpperCAmelCase__ : Dict = TEXT_GUIDED_IMAGE_INPAINTING_PARAMS
UpperCAmelCase__ : str = TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS
UpperCAmelCase__ : int = frozenset(
[]) # TO-DO: update image_params once pipeline is refactored with VaeImageProcessor.preprocess
UpperCAmelCase__ : Union[str, Any] = frozenset([])
def lowerCAmelCase__ ( self: str ):
torch.manual_seed(0 )
__lowerCamelCase = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=9 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , attention_head_dim=(2, 4) , use_linear_projection=UpperCamelCase_ , )
__lowerCamelCase = PNDMScheduler(skip_prk_steps=UpperCamelCase_ )
torch.manual_seed(0 )
__lowerCamelCase = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , sample_size=1_28 , )
torch.manual_seed(0 )
__lowerCamelCase = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , hidden_act="""gelu""" , projection_dim=5_12 , )
__lowerCamelCase = CLIPTextModel(UpperCamelCase_ )
__lowerCamelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" )
__lowerCamelCase = {
"""unet""": unet,
"""scheduler""": scheduler,
"""vae""": vae,
"""text_encoder""": text_encoder,
"""tokenizer""": tokenizer,
"""safety_checker""": None,
"""feature_extractor""": None,
}
return components
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Any , UpperCamelCase_: List[Any]=0 ):
# TODO: use tensor inputs instead of PIL, this is here just to leave the old expected_slices untouched
__lowerCamelCase = floats_tensor((1, 3, 32, 32) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0]
__lowerCamelCase = Image.fromarray(np.uinta(UpperCamelCase_ ) ).convert("""RGB""" ).resize((64, 64) )
__lowerCamelCase = Image.fromarray(np.uinta(image + 4 ) ).convert("""RGB""" ).resize((64, 64) )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""prompt""": """A painting of a squirrel eating a burger""",
"""image""": init_image,
"""mask_image""": mask_image,
"""generator""": generator,
"""num_inference_steps""": 2,
"""guidance_scale""": 6.0,
"""output_type""": """numpy""",
}
return inputs
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = """cpu""" # ensure determinism for the device-dependent torch.Generator
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = StableDiffusionInpaintPipeline(**UpperCamelCase_ )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(**UpperCamelCase_ ).images
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (1, 64, 64, 3)
__lowerCamelCase = np.array([0.4727, 0.5735, 0.3941, 0.5446, 0.5926, 0.4394, 0.5062, 0.4654, 0.4476] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: int ):
super().test_inference_batch_single_identical(expected_max_diff=3E-3 )
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: str ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint"""
"""/yellow_cat_sitting_on_a_park_bench.npy""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(UpperCamelCase_ , safety_checker=UpperCamelCase_ )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (5_12, 5_12, 3)
assert np.abs(expected_image - image ).max() < 9E-3
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint"""
"""/yellow_cat_sitting_on_a_park_bench_fp16.npy""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(
UpperCamelCase_ , torch_dtype=torch.floataa , safety_checker=UpperCamelCase_ , )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (5_12, 5_12, 3)
assert np.abs(expected_image - image ).max() < 5E-1
def lowerCAmelCase__ ( self: int ):
torch.cuda.empty_cache()
torch.cuda.reset_max_memory_allocated()
torch.cuda.reset_peak_memory_stats()
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = PNDMScheduler.from_pretrained(UpperCamelCase_ , subfolder="""scheduler""" )
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(
UpperCamelCase_ , safety_checker=UpperCamelCase_ , scheduler=UpperCamelCase_ , torch_dtype=torch.floataa , )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing(1 )
pipe.enable_sequential_cpu_offload()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , num_inference_steps=2 , output_type="""np""" , )
__lowerCamelCase = torch.cuda.max_memory_allocated()
# make sure that less than 2.65 GB is allocated
assert mem_bytes < 2.65 * 10**9
| 12 | 1 |
from collections import OrderedDict
from ...utils import logging
from .auto_factory import _BaseAutoModelClass, _LazyAutoMapping, auto_class_update
from .configuration_auto import CONFIG_MAPPING_NAMES
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = OrderedDict(
[
# Base model mapping
('albert', 'FlaxAlbertModel'),
('bart', 'FlaxBartModel'),
('beit', 'FlaxBeitModel'),
('bert', 'FlaxBertModel'),
('big_bird', 'FlaxBigBirdModel'),
('blenderbot', 'FlaxBlenderbotModel'),
('blenderbot-small', 'FlaxBlenderbotSmallModel'),
('clip', 'FlaxCLIPModel'),
('distilbert', 'FlaxDistilBertModel'),
('electra', 'FlaxElectraModel'),
('gpt-sw3', 'FlaxGPT2Model'),
('gpt2', 'FlaxGPT2Model'),
('gpt_neo', 'FlaxGPTNeoModel'),
('gptj', 'FlaxGPTJModel'),
('longt5', 'FlaxLongT5Model'),
('marian', 'FlaxMarianModel'),
('mbart', 'FlaxMBartModel'),
('mt5', 'FlaxMT5Model'),
('opt', 'FlaxOPTModel'),
('pegasus', 'FlaxPegasusModel'),
('regnet', 'FlaxRegNetModel'),
('resnet', 'FlaxResNetModel'),
('roberta', 'FlaxRobertaModel'),
('roberta-prelayernorm', 'FlaxRobertaPreLayerNormModel'),
('roformer', 'FlaxRoFormerModel'),
('t5', 'FlaxT5Model'),
('vision-text-dual-encoder', 'FlaxVisionTextDualEncoderModel'),
('vit', 'FlaxViTModel'),
('wav2vec2', 'FlaxWav2Vec2Model'),
('whisper', 'FlaxWhisperModel'),
('xglm', 'FlaxXGLMModel'),
('xlm-roberta', 'FlaxXLMRobertaModel'),
]
)
UpperCAmelCase_ = OrderedDict(
[
# Model for pre-training mapping
('albert', 'FlaxAlbertForPreTraining'),
('bart', 'FlaxBartForConditionalGeneration'),
('bert', 'FlaxBertForPreTraining'),
('big_bird', 'FlaxBigBirdForPreTraining'),
('electra', 'FlaxElectraForPreTraining'),
('longt5', 'FlaxLongT5ForConditionalGeneration'),
('mbart', 'FlaxMBartForConditionalGeneration'),
('mt5', 'FlaxMT5ForConditionalGeneration'),
('roberta', 'FlaxRobertaForMaskedLM'),
('roberta-prelayernorm', 'FlaxRobertaPreLayerNormForMaskedLM'),
('roformer', 'FlaxRoFormerForMaskedLM'),
('t5', 'FlaxT5ForConditionalGeneration'),
('wav2vec2', 'FlaxWav2Vec2ForPreTraining'),
('whisper', 'FlaxWhisperForConditionalGeneration'),
('xlm-roberta', 'FlaxXLMRobertaForMaskedLM'),
]
)
UpperCAmelCase_ = OrderedDict(
[
# Model for Masked LM mapping
('albert', 'FlaxAlbertForMaskedLM'),
('bart', 'FlaxBartForConditionalGeneration'),
('bert', 'FlaxBertForMaskedLM'),
('big_bird', 'FlaxBigBirdForMaskedLM'),
('distilbert', 'FlaxDistilBertForMaskedLM'),
('electra', 'FlaxElectraForMaskedLM'),
('mbart', 'FlaxMBartForConditionalGeneration'),
('roberta', 'FlaxRobertaForMaskedLM'),
('roberta-prelayernorm', 'FlaxRobertaPreLayerNormForMaskedLM'),
('roformer', 'FlaxRoFormerForMaskedLM'),
('xlm-roberta', 'FlaxXLMRobertaForMaskedLM'),
]
)
UpperCAmelCase_ = OrderedDict(
[
# Model for Seq2Seq Causal LM mapping
('bart', 'FlaxBartForConditionalGeneration'),
('blenderbot', 'FlaxBlenderbotForConditionalGeneration'),
('blenderbot-small', 'FlaxBlenderbotSmallForConditionalGeneration'),
('encoder-decoder', 'FlaxEncoderDecoderModel'),
('longt5', 'FlaxLongT5ForConditionalGeneration'),
('marian', 'FlaxMarianMTModel'),
('mbart', 'FlaxMBartForConditionalGeneration'),
('mt5', 'FlaxMT5ForConditionalGeneration'),
('pegasus', 'FlaxPegasusForConditionalGeneration'),
('t5', 'FlaxT5ForConditionalGeneration'),
]
)
UpperCAmelCase_ = OrderedDict(
[
# Model for Image-classsification
('beit', 'FlaxBeitForImageClassification'),
('regnet', 'FlaxRegNetForImageClassification'),
('resnet', 'FlaxResNetForImageClassification'),
('vit', 'FlaxViTForImageClassification'),
]
)
UpperCAmelCase_ = OrderedDict(
[
('vision-encoder-decoder', 'FlaxVisionEncoderDecoderModel'),
]
)
UpperCAmelCase_ = OrderedDict(
[
# Model for Causal LM mapping
('bart', 'FlaxBartForCausalLM'),
('bert', 'FlaxBertForCausalLM'),
('big_bird', 'FlaxBigBirdForCausalLM'),
('electra', 'FlaxElectraForCausalLM'),
('gpt-sw3', 'FlaxGPT2LMHeadModel'),
('gpt2', 'FlaxGPT2LMHeadModel'),
('gpt_neo', 'FlaxGPTNeoForCausalLM'),
('gptj', 'FlaxGPTJForCausalLM'),
('opt', 'FlaxOPTForCausalLM'),
('roberta', 'FlaxRobertaForCausalLM'),
('roberta-prelayernorm', 'FlaxRobertaPreLayerNormForCausalLM'),
('xglm', 'FlaxXGLMForCausalLM'),
('xlm-roberta', 'FlaxXLMRobertaForCausalLM'),
]
)
UpperCAmelCase_ = OrderedDict(
[
# Model for Sequence Classification mapping
('albert', 'FlaxAlbertForSequenceClassification'),
('bart', 'FlaxBartForSequenceClassification'),
('bert', 'FlaxBertForSequenceClassification'),
('big_bird', 'FlaxBigBirdForSequenceClassification'),
('distilbert', 'FlaxDistilBertForSequenceClassification'),
('electra', 'FlaxElectraForSequenceClassification'),
('mbart', 'FlaxMBartForSequenceClassification'),
('roberta', 'FlaxRobertaForSequenceClassification'),
('roberta-prelayernorm', 'FlaxRobertaPreLayerNormForSequenceClassification'),
('roformer', 'FlaxRoFormerForSequenceClassification'),
('xlm-roberta', 'FlaxXLMRobertaForSequenceClassification'),
]
)
UpperCAmelCase_ = OrderedDict(
[
# Model for Question Answering mapping
('albert', 'FlaxAlbertForQuestionAnswering'),
('bart', 'FlaxBartForQuestionAnswering'),
('bert', 'FlaxBertForQuestionAnswering'),
('big_bird', 'FlaxBigBirdForQuestionAnswering'),
('distilbert', 'FlaxDistilBertForQuestionAnswering'),
('electra', 'FlaxElectraForQuestionAnswering'),
('mbart', 'FlaxMBartForQuestionAnswering'),
('roberta', 'FlaxRobertaForQuestionAnswering'),
('roberta-prelayernorm', 'FlaxRobertaPreLayerNormForQuestionAnswering'),
('roformer', 'FlaxRoFormerForQuestionAnswering'),
('xlm-roberta', 'FlaxXLMRobertaForQuestionAnswering'),
]
)
UpperCAmelCase_ = OrderedDict(
[
# Model for Token Classification mapping
('albert', 'FlaxAlbertForTokenClassification'),
('bert', 'FlaxBertForTokenClassification'),
('big_bird', 'FlaxBigBirdForTokenClassification'),
('distilbert', 'FlaxDistilBertForTokenClassification'),
('electra', 'FlaxElectraForTokenClassification'),
('roberta', 'FlaxRobertaForTokenClassification'),
('roberta-prelayernorm', 'FlaxRobertaPreLayerNormForTokenClassification'),
('roformer', 'FlaxRoFormerForTokenClassification'),
('xlm-roberta', 'FlaxXLMRobertaForTokenClassification'),
]
)
UpperCAmelCase_ = OrderedDict(
[
# Model for Multiple Choice mapping
('albert', 'FlaxAlbertForMultipleChoice'),
('bert', 'FlaxBertForMultipleChoice'),
('big_bird', 'FlaxBigBirdForMultipleChoice'),
('distilbert', 'FlaxDistilBertForMultipleChoice'),
('electra', 'FlaxElectraForMultipleChoice'),
('roberta', 'FlaxRobertaForMultipleChoice'),
('roberta-prelayernorm', 'FlaxRobertaPreLayerNormForMultipleChoice'),
('roformer', 'FlaxRoFormerForMultipleChoice'),
('xlm-roberta', 'FlaxXLMRobertaForMultipleChoice'),
]
)
UpperCAmelCase_ = OrderedDict(
[
('bert', 'FlaxBertForNextSentencePrediction'),
]
)
UpperCAmelCase_ = OrderedDict(
[
('speech-encoder-decoder', 'FlaxSpeechEncoderDecoderModel'),
('whisper', 'FlaxWhisperForConditionalGeneration'),
]
)
UpperCAmelCase_ = OrderedDict(
[
('whisper', 'FlaxWhisperForAudioClassification'),
]
)
UpperCAmelCase_ = _LazyAutoMapping(CONFIG_MAPPING_NAMES, FLAX_MODEL_MAPPING_NAMES)
UpperCAmelCase_ = _LazyAutoMapping(CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_PRETRAINING_MAPPING_NAMES)
UpperCAmelCase_ = _LazyAutoMapping(CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_MASKED_LM_MAPPING_NAMES)
UpperCAmelCase_ = _LazyAutoMapping(
CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING_NAMES
)
UpperCAmelCase_ = _LazyAutoMapping(
CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_IMAGE_CLASSIFICATION_MAPPING_NAMES
)
UpperCAmelCase_ = _LazyAutoMapping(CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_VISION_2_SEQ_MAPPING_NAMES)
UpperCAmelCase_ = _LazyAutoMapping(CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_CAUSAL_LM_MAPPING_NAMES)
UpperCAmelCase_ = _LazyAutoMapping(
CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING_NAMES
)
UpperCAmelCase_ = _LazyAutoMapping(
CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_QUESTION_ANSWERING_MAPPING_NAMES
)
UpperCAmelCase_ = _LazyAutoMapping(
CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_TOKEN_CLASSIFICATION_MAPPING_NAMES
)
UpperCAmelCase_ = _LazyAutoMapping(
CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_MULTIPLE_CHOICE_MAPPING_NAMES
)
UpperCAmelCase_ = _LazyAutoMapping(
CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_NEXT_SENTENCE_PREDICTION_MAPPING_NAMES
)
UpperCAmelCase_ = _LazyAutoMapping(
CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_SPEECH_SEQ_2_SEQ_MAPPING_NAMES
)
UpperCAmelCase_ = _LazyAutoMapping(
CONFIG_MAPPING_NAMES, FLAX_MODEL_FOR_AUDIO_CLASSIFICATION_MAPPING_NAMES
)
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : Optional[int] = FLAX_MODEL_MAPPING
UpperCAmelCase_ = auto_class_update(FlaxAutoModel)
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : Any = FLAX_MODEL_FOR_PRETRAINING_MAPPING
UpperCAmelCase_ = auto_class_update(FlaxAutoModelForPreTraining, head_doc='pretraining')
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : Dict = FLAX_MODEL_FOR_CAUSAL_LM_MAPPING
UpperCAmelCase_ = auto_class_update(FlaxAutoModelForCausalLM, head_doc='causal language modeling')
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : Union[str, Any] = FLAX_MODEL_FOR_MASKED_LM_MAPPING
UpperCAmelCase_ = auto_class_update(FlaxAutoModelForMaskedLM, head_doc='masked language modeling')
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : int = FLAX_MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING
UpperCAmelCase_ = auto_class_update(
FlaxAutoModelForSeqaSeqLM, head_doc='sequence-to-sequence language modeling', checkpoint_for_example='t5-base'
)
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : List[str] = FLAX_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
UpperCAmelCase_ = auto_class_update(
FlaxAutoModelForSequenceClassification, head_doc='sequence classification'
)
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : List[Any] = FLAX_MODEL_FOR_QUESTION_ANSWERING_MAPPING
UpperCAmelCase_ = auto_class_update(FlaxAutoModelForQuestionAnswering, head_doc='question answering')
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : Any = FLAX_MODEL_FOR_TOKEN_CLASSIFICATION_MAPPING
UpperCAmelCase_ = auto_class_update(
FlaxAutoModelForTokenClassification, head_doc='token classification'
)
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : Union[str, Any] = FLAX_MODEL_FOR_MULTIPLE_CHOICE_MAPPING
UpperCAmelCase_ = auto_class_update(FlaxAutoModelForMultipleChoice, head_doc='multiple choice')
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : Dict = FLAX_MODEL_FOR_NEXT_SENTENCE_PREDICTION_MAPPING
UpperCAmelCase_ = auto_class_update(
FlaxAutoModelForNextSentencePrediction, head_doc='next sentence prediction'
)
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : Dict = FLAX_MODEL_FOR_IMAGE_CLASSIFICATION_MAPPING
UpperCAmelCase_ = auto_class_update(
FlaxAutoModelForImageClassification, head_doc='image classification'
)
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : Tuple = FLAX_MODEL_FOR_VISION_2_SEQ_MAPPING
UpperCAmelCase_ = auto_class_update(FlaxAutoModelForVisionaSeq, head_doc='vision-to-text modeling')
class lowerCamelCase__( _BaseAutoModelClass):
UpperCAmelCase__ : List[str] = FLAX_MODEL_FOR_SPEECH_SEQ_2_SEQ_MAPPING
UpperCAmelCase_ = auto_class_update(
FlaxAutoModelForSpeechSeqaSeq, head_doc='sequence-to-sequence speech-to-text modeling'
)
| 12 |
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
UpperCAmelCase_ = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['MLukeTokenizer']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mluke import MLukeTokenizer
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 | 1 |
import os
import sys
UpperCAmelCase_ = os.path.join(os.path.dirname(__file__), 'src')
sys.path.append(SRC_DIR)
from transformers import (
AutoConfig,
AutoModel,
AutoModelForCausalLM,
AutoModelForMaskedLM,
AutoModelForQuestionAnswering,
AutoModelForSequenceClassification,
AutoTokenizer,
add_start_docstrings,
)
UpperCAmelCase_ = [
'torch',
'numpy',
'tokenizers',
'filelock',
'requests',
'tqdm',
'regex',
'sentencepiece',
'sacremoses',
'importlib_metadata',
'huggingface_hub',
]
@add_start_docstrings(AutoConfig.__doc__ )
def lowerCamelCase__ ( *A__ : Optional[int] , **A__ : Optional[Any] ):
'''simple docstring'''
return AutoConfig.from_pretrained(*A__ , **A__ )
@add_start_docstrings(AutoTokenizer.__doc__ )
def lowerCamelCase__ ( *A__ : Dict , **A__ : str ):
'''simple docstring'''
return AutoTokenizer.from_pretrained(*A__ , **A__ )
@add_start_docstrings(AutoModel.__doc__ )
def lowerCamelCase__ ( *A__ : Optional[int] , **A__ : Any ):
'''simple docstring'''
return AutoModel.from_pretrained(*A__ , **A__ )
@add_start_docstrings(AutoModelForCausalLM.__doc__ )
def lowerCamelCase__ ( *A__ : List[str] , **A__ : List[str] ):
'''simple docstring'''
return AutoModelForCausalLM.from_pretrained(*A__ , **A__ )
@add_start_docstrings(AutoModelForMaskedLM.__doc__ )
def lowerCamelCase__ ( *A__ : Union[str, Any] , **A__ : int ):
'''simple docstring'''
return AutoModelForMaskedLM.from_pretrained(*A__ , **A__ )
@add_start_docstrings(AutoModelForSequenceClassification.__doc__ )
def lowerCamelCase__ ( *A__ : Optional[int] , **A__ : List[Any] ):
'''simple docstring'''
return AutoModelForSequenceClassification.from_pretrained(*A__ , **A__ )
@add_start_docstrings(AutoModelForQuestionAnswering.__doc__ )
def lowerCamelCase__ ( *A__ : Optional[int] , **A__ : int ):
'''simple docstring'''
return AutoModelForQuestionAnswering.from_pretrained(*A__ , **A__ )
| 12 |
import os
import shutil
from pathlib import Path
from typing import Optional, Union
import numpy as np
from huggingface_hub import hf_hub_download
from ..utils import ONNX_EXTERNAL_WEIGHTS_NAME, ONNX_WEIGHTS_NAME, is_onnx_available, logging
if is_onnx_available():
import onnxruntime as ort
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'tensor(bool)': np.bool_,
'tensor(int8)': np.inta,
'tensor(uint8)': np.uinta,
'tensor(int16)': np.intaa,
'tensor(uint16)': np.uintaa,
'tensor(int32)': np.intaa,
'tensor(uint32)': np.uintaa,
'tensor(int64)': np.intaa,
'tensor(uint64)': np.uintaa,
'tensor(float16)': np.floataa,
'tensor(float)': np.floataa,
'tensor(double)': np.floataa,
}
class lowerCamelCase__:
def __init__( self: str , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: str ):
logger.info("""`diffusers.OnnxRuntimeModel` is experimental and might change in the future.""" )
__lowerCamelCase = model
__lowerCamelCase = kwargs.get("""model_save_dir""" , UpperCamelCase_ )
__lowerCamelCase = kwargs.get("""latest_model_name""" , UpperCamelCase_ )
def __call__( self: Dict , **UpperCamelCase_: Any ):
__lowerCamelCase = {k: np.array(UpperCamelCase_ ) for k, v in kwargs.items()}
return self.model.run(UpperCamelCase_ , UpperCamelCase_ )
@staticmethod
def lowerCAmelCase__ ( UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Tuple=None , UpperCamelCase_: Tuple=None ):
if provider is None:
logger.info("""No onnxruntime provider specified, using CPUExecutionProvider""" )
__lowerCamelCase = """CPUExecutionProvider"""
return ort.InferenceSession(UpperCamelCase_ , providers=[provider] , sess_options=UpperCamelCase_ )
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: Optional[int] ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
__lowerCamelCase = self.model_save_dir.joinpath(self.latest_model_name )
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
# copy external weights (for models >2GB)
__lowerCamelCase = self.model_save_dir.joinpath(UpperCamelCase_ )
if src_path.exists():
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Union[str, os.PathLike] , **UpperCamelCase_: Optional[Any] , ):
if os.path.isfile(UpperCamelCase_ ):
logger.error(F'Provided path ({save_directory}) should be a directory, not a file' )
return
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
# saving model weights/files
self._save_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: str , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[Union[bool, str, None]] = None , UpperCamelCase_: Optional[Union[str, None]] = None , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional["ort.SessionOptions"] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
# load model from local directory
if os.path.isdir(UpperCamelCase_ ):
__lowerCamelCase = OnnxRuntimeModel.load_model(
os.path.join(UpperCamelCase_ , UpperCamelCase_ ) , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
__lowerCamelCase = Path(UpperCamelCase_ )
# load model from hub
else:
# download model
__lowerCamelCase = hf_hub_download(
repo_id=UpperCamelCase_ , filename=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , )
__lowerCamelCase = Path(UpperCamelCase_ ).parent
__lowerCamelCase = Path(UpperCamelCase_ ).name
__lowerCamelCase = OnnxRuntimeModel.load_model(UpperCamelCase_ , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
return cls(model=UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: Optional[int] , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = None
if len(str(UpperCamelCase_ ).split("""@""" ) ) == 2:
__lowerCamelCase, __lowerCamelCase = model_id.split("""@""" )
return cls._from_pretrained(
model_id=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , **UpperCamelCase_ , )
| 12 | 1 |
from collections.abc import Callable
import numpy as np
def lowerCamelCase__ ( A__ : Callable , A__ : float , A__ : float , A__ : float , A__ : float ):
'''simple docstring'''
__lowerCamelCase = int(np.ceil((x_end - xa) / step_size ) )
__lowerCamelCase = np.zeros((n + 1,) )
__lowerCamelCase = ya
__lowerCamelCase = xa
for k in range(A__ ):
__lowerCamelCase = y[k] + step_size * ode_func(A__ , y[k] )
__lowerCamelCase = y[k] + (
(step_size / 2) * (ode_func(A__ , y[k] ) + ode_func(x + step_size , A__ ))
)
x += step_size
return y
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 |
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_torch_available,
)
UpperCAmelCase_ = {
'configuration_vision_encoder_decoder': ['VisionEncoderDecoderConfig', 'VisionEncoderDecoderOnnxConfig']
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['VisionEncoderDecoderModel']
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['TFVisionEncoderDecoderModel']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['FlaxVisionEncoderDecoderModel']
if TYPE_CHECKING:
from .configuration_vision_encoder_decoder import VisionEncoderDecoderConfig, VisionEncoderDecoderOnnxConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_vision_encoder_decoder import VisionEncoderDecoderModel
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_vision_encoder_decoder import TFVisionEncoderDecoderModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_vision_encoder_decoder import FlaxVisionEncoderDecoderModel
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 | 1 |
import itertools
import os
from collections import Counter, defaultdict
from concurrent.futures import ThreadPoolExecutor, as_completed
import numpy as np
import datasets
from .execute import check_correctness
UpperCAmelCase_ = '\\n@misc{chen2021evaluating,\n title={Evaluating Large Language Models Trained on Code},\n author={Mark Chen and Jerry Tworek and Heewoo Jun and Qiming Yuan \\nand Henrique Ponde de Oliveira Pinto and Jared Kaplan and Harri Edwards \\nand Yuri Burda and Nicholas Joseph and Greg Brockman and Alex Ray \\nand Raul Puri and Gretchen Krueger and Michael Petrov and Heidy Khlaaf \\nand Girish Sastry and Pamela Mishkin and Brooke Chan and Scott Gray \\nand Nick Ryder and Mikhail Pavlov and Alethea Power and Lukasz Kaiser \\nand Mohammad Bavarian and Clemens Winter and Philippe Tillet \\nand Felipe Petroski Such and Dave Cummings and Matthias Plappert \\nand Fotios Chantzis and Elizabeth Barnes and Ariel Herbert-Voss \\nand William Hebgen Guss and Alex Nichol and Alex Paino and Nikolas Tezak \\nand Jie Tang and Igor Babuschkin and Suchir Balaji and Shantanu Jain \\nand William Saunders and Christopher Hesse and Andrew N. Carr \\nand Jan Leike and Josh Achiam and Vedant Misra and Evan Morikawa \\nand Alec Radford and Matthew Knight and Miles Brundage and Mira Murati \\nand Katie Mayer and Peter Welinder and Bob McGrew and Dario Amodei \\nand Sam McCandlish and Ilya Sutskever and Wojciech Zaremba},\n year={2021},\n eprint={2107.03374},\n archivePrefix={arXiv},\n primaryClass={cs.LG}\n}\n'
UpperCAmelCase_ = '\\nThis metric implements the evaluation harness for the HumanEval problem solving dataset\ndescribed in the paper "Evaluating Large Language Models Trained on Code"\n(https://arxiv.org/abs/2107.03374).\n'
UpperCAmelCase_ = '\nCalculates how good are predictions given some references, using certain scores\nArgs:\n predictions: list of candidates to evaluate. Each candidates should be a list\n of strings with several code candidates to solve the problem.\n references: a list with a test for each prediction. Each test should evaluate the\n correctness of a code candidate.\n k: number of code candidates to consider in the evaluation (Default: [1, 10, 100])\n num_workers: number of workers used to evaluate the canidate programs (Default: 4).\n timeout:\nReturns:\n pass_at_k: dict with pass rates for each k\n results: dict with granular results of each unittest\nExamples:\n >>> code_eval = datasets.load_metric("code_eval")\n >>> test_cases = ["assert add(2,3)==5"]\n >>> candidates = [["def add(a,b): return a*b", "def add(a, b): return a+b"]]\n >>> pass_at_k, results = code_eval.compute(references=test_cases, predictions=candidates, k=[1, 2])\n >>> print(pass_at_k)\n {\'pass@1\': 0.5, \'pass@2\': 1.0}\n'
UpperCAmelCase_ = '\n################################################################################\n !!!WARNING!!!\n################################################################################\nThe "code_eval" metric executes untrusted model-generated code in Python.\nAlthough it is highly unlikely that model-generated code will do something\novertly malicious in response to this test suite, model-generated code may act\ndestructively due to a lack of model capability or alignment.\nUsers are strongly encouraged to sandbox this evaluation suite so that it\ndoes not perform destructive actions on their host or network. For more\ninformation on how OpenAI sandboxes its code, see the paper "Evaluating Large\nLanguage Models Trained on Code" (https://arxiv.org/abs/2107.03374).\n\nOnce you have read this disclaimer and taken appropriate precautions,\nset the environment variable HF_ALLOW_CODE_EVAL="1". Within Python you can to this\nwith:\n\n>>> import os\n>>> os.environ["HF_ALLOW_CODE_EVAL"] = "1"\n\n################################################################################\\n'
UpperCAmelCase_ = 'The MIT License\n\nCopyright (c) OpenAI (https://openai.com)\n\nPermission is hereby granted, free of charge, to any person obtaining a copy\nof this software and associated documentation files (the "Software"), to deal\nin the Software without restriction, including without limitation the rights\nto use, copy, modify, merge, publish, distribute, sublicense, and/or sell\ncopies of the Software, and to permit persons to whom the Software is\nfurnished to do so, subject to the following conditions:\n\nThe above copyright notice and this permission notice shall be included in\nall copies or substantial portions of the Software.\n\nTHE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR\nIMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,\nFITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE\nAUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER\nLIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,\nOUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN\nTHE SOFTWARE.'
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION)
class lowerCamelCase__( datasets.Metric):
def lowerCAmelCase__ ( self: Dict ):
return datasets.MetricInfo(
# This is the description that will appear on the metrics page.
description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
"""predictions""": datasets.Sequence(datasets.Value("""string""" ) ),
"""references""": datasets.Value("""string""" ),
} ) , homepage="""https://github.com/openai/human-eval""" , codebase_urls=["""https://github.com/openai/human-eval"""] , reference_urls=["""https://github.com/openai/human-eval"""] , license=_LICENSE , )
def lowerCAmelCase__ ( self: Optional[int] , UpperCamelCase_: Any , UpperCamelCase_: Tuple , UpperCamelCase_: Union[str, Any]=[1, 10, 1_00] , UpperCamelCase_: str=4 , UpperCamelCase_: Optional[Any]=3.0 ):
if os.getenv("""HF_ALLOW_CODE_EVAL""" , 0 ) != "1":
raise ValueError(_WARNING )
if os.name == "nt":
raise NotImplementedError("""This metric is currently not supported on Windows.""" )
with ThreadPoolExecutor(max_workers=UpperCamelCase_ ) as executor:
__lowerCamelCase = []
__lowerCamelCase = Counter()
__lowerCamelCase = 0
__lowerCamelCase = defaultdict(UpperCamelCase_ )
for task_id, (candidates, test_case) in enumerate(zip(UpperCamelCase_ , UpperCamelCase_ ) ):
for candidate in candidates:
__lowerCamelCase = candidate + """\n""" + test_case
__lowerCamelCase = (test_program, timeout, task_id, completion_id[task_id])
__lowerCamelCase = executor.submit(UpperCamelCase_ , *UpperCamelCase_ )
futures.append(UpperCamelCase_ )
completion_id[task_id] += 1
n_samples += 1
for future in as_completed(UpperCamelCase_ ):
__lowerCamelCase = future.result()
results[result["task_id"]].append((result["""completion_id"""], result) )
__lowerCamelCase, __lowerCamelCase = [], []
for result in results.values():
result.sort()
__lowerCamelCase = [r[1]["""passed"""] for r in result]
total.append(len(UpperCamelCase_ ) )
correct.append(sum(UpperCamelCase_ ) )
__lowerCamelCase = np.array(UpperCamelCase_ )
__lowerCamelCase = np.array(UpperCamelCase_ )
__lowerCamelCase = k
__lowerCamelCase = {F'pass@{k}': estimate_pass_at_k(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ ).mean() for k in ks if (total >= k).all()}
return pass_at_k, results
def lowerCamelCase__ ( A__ : int , A__ : List[Any] , A__ : List[Any] ):
'''simple docstring'''
def estimator(A__ : int , A__ : int , A__ : int ) -> float:
if n - c < k:
return 1.0
return 1.0 - np.prod(1.0 - k / np.arange(n - c + 1 , n + 1 ) )
if isinstance(A__ , A__ ):
__lowerCamelCase = itertools.repeat(A__ , len(A__ ) )
else:
assert len(A__ ) == len(A__ )
__lowerCamelCase = iter(A__ )
return np.array([estimator(int(A__ ) , int(A__ ) , A__ ) for n, c in zip(A__ , A__ )] )
| 12 |
import os
import torch
from ..logging import get_logger
from .constants import FSDP_PYTORCH_VERSION, MODEL_NAME, OPTIMIZER_NAME
from .versions import is_torch_version
if is_torch_version('>=', FSDP_PYTORCH_VERSION):
import torch.distributed.checkpoint as dist_cp
from torch.distributed.checkpoint.default_planner import DefaultLoadPlanner, DefaultSavePlanner
from torch.distributed.checkpoint.optimizer import load_sharded_optimizer_state_dict
from torch.distributed.fsdp.fully_sharded_data_parallel import FullyShardedDataParallel as FSDP
from torch.distributed.fsdp.fully_sharded_data_parallel import StateDictType
UpperCAmelCase_ = get_logger(__name__)
def lowerCamelCase__ ( A__ : Union[str, Any] , A__ : str , A__ : Any , A__ : Dict , A__ : Any=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = model.state_dict()
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
if accelerator.process_index == 0:
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving model to {ckpt_dir}' )
__lowerCamelCase = {"""model""": state_dict}
dist_cp.save_state_dict(
state_dict=A__ , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Model saved to {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : Dict , A__ : int , A__ : List[str] , A__ : Any=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if type(A__ ) != FSDP and accelerator.process_index != 0:
if not fsdp_plugin.sync_module_states:
raise ValueError(
"""Set the `sync_module_states` flag to `True` so that model states are synced across processes when """
"""initializing FSDP object""" )
return
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = (
os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
if f'{MODEL_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading model from {ckpt_dir}' )
__lowerCamelCase = {"""model""": model.state_dict()}
dist_cp.load_state_dict(
state_dict=A__ , storage_reader=dist_cp.FileSystemReader(A__ ) , planner=DefaultLoadPlanner() , )
__lowerCamelCase = state_dict["""model"""]
logger.info(f'Model loaded from {ckpt_dir}' )
model.load_state_dict(A__ )
def lowerCamelCase__ ( A__ : List[str] , A__ : List[str] , A__ : str , A__ : Dict , A__ : Optional[Any] , A__ : Optional[int]=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = FSDP.optim_state_dict(A__ , A__ )
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if accelerator.process_index == 0:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving Optimizer state to {output_optimizer_file}' )
torch.save(A__ , A__ )
logger.info(f'Optimizer state saved in {output_optimizer_file}' )
else:
__lowerCamelCase = os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving Optimizer state to {ckpt_dir}' )
dist_cp.save_state_dict(
state_dict={"""optimizer""": optim_state} , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Optimizer state saved in {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : List[str] , A__ : int , A__ : Any , A__ : Union[str, Any] , A__ : List[Any]=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = None
# below check should work but currently it isn't working (mostly opytorch issue),
# in the meantime disabling it at the cost of excess memory usage
# if accelerator.process_index == 0 or not fsdp_plugin.optim_state_dict_config.rank0_only:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading Optimizer state from {input_optimizer_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Optimizer state loaded from {input_optimizer_file}' )
else:
__lowerCamelCase = (
os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
if f'{OPTIMIZER_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading Optimizer from {ckpt_dir}' )
__lowerCamelCase = load_sharded_optimizer_state_dict(
model_state_dict=model.state_dict() , optimizer_key="""optimizer""" , storage_reader=dist_cp.FileSystemReader(A__ ) , )
__lowerCamelCase = optim_state["""optimizer"""]
logger.info(f'Optimizer loaded from {ckpt_dir}' )
__lowerCamelCase = FSDP.optim_state_dict_to_load(A__ , A__ , A__ )
optimizer.load_state_dict(A__ )
| 12 | 1 |
from __future__ import annotations
import unittest
from transformers import BlenderbotConfig, BlenderbotTokenizer, 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, TFBlenderbotForConditionalGeneration, TFBlenderbotModel
@require_tf
class lowerCamelCase__:
UpperCAmelCase__ : Union[str, Any] = BlenderbotConfig
UpperCAmelCase__ : Tuple = {}
UpperCAmelCase__ : Any = 'gelu'
def __init__( self: Optional[int] , UpperCamelCase_: Union[str, Any] , UpperCamelCase_: Optional[int]=13 , UpperCamelCase_: Optional[int]=7 , UpperCamelCase_: int=True , UpperCamelCase_: Union[str, Any]=False , UpperCamelCase_: Any=99 , UpperCamelCase_: Optional[Any]=32 , UpperCamelCase_: Any=2 , UpperCamelCase_: Tuple=4 , UpperCamelCase_: List[str]=37 , UpperCamelCase_: Tuple=0.1 , UpperCamelCase_: Union[str, Any]=0.1 , UpperCamelCase_: List[str]=20 , UpperCamelCase_: int=2 , UpperCamelCase_: Union[str, Any]=1 , UpperCamelCase_: List[Any]=0 , ):
__lowerCamelCase = parent
__lowerCamelCase = batch_size
__lowerCamelCase = seq_length
__lowerCamelCase = is_training
__lowerCamelCase = use_labels
__lowerCamelCase = vocab_size
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = intermediate_size
__lowerCamelCase = hidden_dropout_prob
__lowerCamelCase = attention_probs_dropout_prob
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = eos_token_id
__lowerCamelCase = pad_token_id
__lowerCamelCase = bos_token_id
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length - 1] , self.vocab_size )
__lowerCamelCase = tf.expand_dims(tf.constant([self.eos_token_id] * self.batch_size ) , 1 )
__lowerCamelCase = tf.concat([input_ids, eos_tensor] , axis=1 )
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__lowerCamelCase = 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 , )
__lowerCamelCase = prepare_blenderbot_inputs_dict(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
return config, inputs_dict
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Optional[Any] , UpperCamelCase_: str ):
__lowerCamelCase = TFBlenderbotModel(config=UpperCamelCase_ ).get_decoder()
__lowerCamelCase = inputs_dict["""input_ids"""]
__lowerCamelCase = input_ids[:1, :]
__lowerCamelCase = inputs_dict["""attention_mask"""][:1, :]
__lowerCamelCase = inputs_dict["""head_mask"""]
__lowerCamelCase = 1
# first forward pass
__lowerCamelCase = model(UpperCamelCase_ , attention_mask=UpperCamelCase_ , head_mask=UpperCamelCase_ , use_cache=UpperCamelCase_ )
__lowerCamelCase, __lowerCamelCase = outputs.to_tuple()
# create hypothetical next token and extent to next_input_ids
__lowerCamelCase = ids_tensor((self.batch_size, 3) , config.vocab_size )
__lowerCamelCase = tf.cast(ids_tensor((self.batch_size, 3) , 2 ) , tf.inta )
# append to next input_ids and
__lowerCamelCase = tf.concat([input_ids, next_tokens] , axis=-1 )
__lowerCamelCase = tf.concat([attention_mask, next_attn_mask] , axis=-1 )
__lowerCamelCase = model(UpperCamelCase_ , attention_mask=UpperCamelCase_ )[0]
__lowerCamelCase = 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
__lowerCamelCase = int(ids_tensor((1,) , output_from_past.shape[-1] ) )
__lowerCamelCase = output_from_no_past[:, -3:, random_slice_idx]
__lowerCamelCase = output_from_past[:, :, random_slice_idx]
# test that outputs are equal for slice
tf.debugging.assert_near(UpperCamelCase_ , UpperCamelCase_ , rtol=1E-3 )
def lowerCamelCase__ ( A__ : List[str] , A__ : Dict , A__ : Any , A__ : int=None , A__ : str=None , A__ : List[str]=None , A__ : Any=None , A__ : int=None , ):
'''simple docstring'''
if attention_mask is None:
__lowerCamelCase = tf.cast(tf.math.not_equal(A__ , config.pad_token_id ) , tf.inta )
if decoder_attention_mask is None:
__lowerCamelCase = 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:
__lowerCamelCase = tf.ones((config.encoder_layers, config.encoder_attention_heads) )
if decoder_head_mask is None:
__lowerCamelCase = tf.ones((config.decoder_layers, config.decoder_attention_heads) )
if cross_attn_head_mask is None:
__lowerCamelCase = 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 lowerCamelCase__( __lowerCamelCase , __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Union[str, Any] = (TFBlenderbotForConditionalGeneration, TFBlenderbotModel) if is_tf_available() else ()
UpperCAmelCase__ : str = (TFBlenderbotForConditionalGeneration,) if is_tf_available() else ()
UpperCAmelCase__ : Optional[Any] = (
{
'conversational': TFBlenderbotForConditionalGeneration,
'feature-extraction': TFBlenderbotModel,
'summarization': TFBlenderbotForConditionalGeneration,
'text2text-generation': TFBlenderbotForConditionalGeneration,
'translation': TFBlenderbotForConditionalGeneration,
}
if is_tf_available()
else {}
)
UpperCAmelCase__ : Optional[Any] = True
UpperCAmelCase__ : int = False
UpperCAmelCase__ : Tuple = False
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = TFBlenderbotModelTester(self )
__lowerCamelCase = ConfigTester(self , config_class=UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
self.config_tester.run_common_tests()
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.check_decoder_model_past_large_inputs(*UpperCamelCase_ )
@require_tokenizers
@require_tf
class lowerCamelCase__( unittest.TestCase):
UpperCAmelCase__ : Optional[Any] = ['My friends are cool but they eat too many carbs.']
UpperCAmelCase__ : Tuple = 'facebook/blenderbot-400M-distill'
@cached_property
def lowerCAmelCase__ ( self: Any ):
return BlenderbotTokenizer.from_pretrained(self.model_name )
@cached_property
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = TFAutoModelForSeqaSeqLM.from_pretrained(self.model_name )
return model
@slow
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = self.tokenizer(self.src_text , return_tensors="""tf""" )
__lowerCamelCase = self.model.generate(
model_inputs.input_ids , )
__lowerCamelCase = self.tokenizer.batch_decode(generated_ids.numpy() , skip_special_tokens=UpperCamelCase_ )[0]
assert (
generated_words
== " That's unfortunate. Are they trying to lose weight or are they just trying to be healthier?"
)
| 12 |
import gc
import random
import unittest
import numpy as np
import torch
from transformers import CLIPImageProcessor, CLIPVisionConfig, CLIPVisionModel
from diffusers import HeunDiscreteScheduler, PriorTransformer, ShapEImgaImgPipeline
from diffusers.pipelines.shap_e import ShapERenderer
from diffusers.utils import floats_tensor, load_image, 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 lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Tuple = ShapEImgaImgPipeline
UpperCAmelCase__ : Optional[Any] = ['image']
UpperCAmelCase__ : int = ['image']
UpperCAmelCase__ : Any = [
'num_images_per_prompt',
'num_inference_steps',
'generator',
'latents',
'guidance_scale',
'frame_size',
'output_type',
'return_dict',
]
UpperCAmelCase__ : int = False
@property
def lowerCAmelCase__ ( self: int ):
return 32
@property
def lowerCAmelCase__ ( self: List[str] ):
return 32
@property
def lowerCAmelCase__ ( self: Any ):
return self.time_input_dim * 4
@property
def lowerCAmelCase__ ( self: Dict ):
return 8
@property
def lowerCAmelCase__ ( self: int ):
torch.manual_seed(0 )
__lowerCamelCase = CLIPVisionConfig(
hidden_size=self.text_embedder_hidden_size , image_size=64 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=1 , )
__lowerCamelCase = CLIPVisionModel(UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = CLIPImageProcessor(
crop_size=2_24 , do_center_crop=UpperCamelCase_ , do_normalize=UpperCamelCase_ , do_resize=UpperCamelCase_ , image_mean=[0.4814_5466, 0.457_8275, 0.4082_1073] , image_std=[0.2686_2954, 0.2613_0258, 0.2757_7711] , resample=3 , size=2_24 , )
return image_processor
@property
def lowerCAmelCase__ ( self: Tuple ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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""",
"""embedding_proj_norm_type""": """layer""",
"""encoder_hid_proj_type""": None,
"""added_emb_type""": None,
}
__lowerCamelCase = PriorTransformer(**UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: List[Any] ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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,
),
}
__lowerCamelCase = ShapERenderer(**UpperCamelCase_ )
return model
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = self.dummy_prior
__lowerCamelCase = self.dummy_image_encoder
__lowerCamelCase = self.dummy_image_processor
__lowerCamelCase = self.dummy_renderer
__lowerCamelCase = HeunDiscreteScheduler(
beta_schedule="""exp""" , num_train_timesteps=10_24 , prediction_type="""sample""" , use_karras_sigmas=UpperCamelCase_ , clip_sample=UpperCamelCase_ , clip_sample_range=1.0 , )
__lowerCamelCase = {
"""prior""": prior,
"""image_encoder""": image_encoder,
"""image_processor""": image_processor,
"""renderer""": renderer,
"""scheduler""": scheduler,
}
return components
def lowerCAmelCase__ ( self: int , UpperCamelCase_: List[Any] , UpperCamelCase_: Dict=0 ):
__lowerCamelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""image""": input_image,
"""generator""": generator,
"""num_inference_steps""": 1,
"""frame_size""": 32,
"""output_type""": """np""",
}
return inputs
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = """cpu"""
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = pipe(**self.get_dummy_inputs(UpperCamelCase_ ) )
__lowerCamelCase = output.images[0]
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (20, 32, 32, 3)
__lowerCamelCase = np.array(
[
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: List[str] ):
# NOTE: Larger batch sizes cause this test to timeout, only test on smaller batches
self._test_inference_batch_consistent(batch_sizes=[1, 2] )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = torch_device == """cpu"""
__lowerCamelCase = True
self._test_inference_batch_single_identical(
batch_size=2 , test_max_difference=UpperCamelCase_ , relax_max_difference=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = 1
__lowerCamelCase = 2
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
for key in inputs.keys():
if key in self.batch_params:
__lowerCamelCase = batch_size * [inputs[key]]
__lowerCamelCase = pipe(**UpperCamelCase_ , num_images_per_prompt=UpperCamelCase_ )[0]
assert images.shape[0] == batch_size * num_images_per_prompt
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: Union[str, Any] ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/shap_e/corgi.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/shap_e/test_shap_e_img2img_out.npy""" )
__lowerCamelCase = ShapEImgaImgPipeline.from_pretrained("""openai/shap-e-img2img""" )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(0 )
__lowerCamelCase = pipe(
UpperCamelCase_ , generator=UpperCamelCase_ , guidance_scale=3.0 , 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_ )
| 12 | 1 |
import os
import unicodedata
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 SPIECE_UNDERLINE, logging
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {'vocab_file': 'spiece.model'}
UpperCAmelCase_ = {
'vocab_file': {
'xlnet-base-cased': 'https://huggingface.co/xlnet-base-cased/resolve/main/spiece.model',
'xlnet-large-cased': 'https://huggingface.co/xlnet-large-cased/resolve/main/spiece.model',
}
}
UpperCAmelCase_ = {
'xlnet-base-cased': None,
'xlnet-large-cased': None,
}
# Segments (not really needed)
UpperCAmelCase_ = 0
UpperCAmelCase_ = 1
UpperCAmelCase_ = 2
UpperCAmelCase_ = 3
UpperCAmelCase_ = 4
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : List[Any] = VOCAB_FILES_NAMES
UpperCAmelCase__ : Optional[Any] = PRETRAINED_VOCAB_FILES_MAP
UpperCAmelCase__ : Tuple = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
UpperCAmelCase__ : Any = 'left'
def __init__( self: str , UpperCamelCase_: List[str] , UpperCamelCase_: Tuple=False , UpperCamelCase_: str=True , UpperCamelCase_: Dict=False , UpperCamelCase_: Any="<s>" , UpperCamelCase_: Dict="</s>" , UpperCamelCase_: Optional[Any]="<unk>" , UpperCamelCase_: List[Any]="<sep>" , UpperCamelCase_: Any="<pad>" , UpperCamelCase_: str="<cls>" , UpperCamelCase_: str="<mask>" , UpperCamelCase_: Optional[int]=["<eop>", "<eod>"] , UpperCamelCase_: Optional[Dict[str, Any]] = None , **UpperCamelCase_: List[Any] , ):
# Mask token behave like a normal word, i.e. include the space before it
__lowerCamelCase = AddedToken(UpperCamelCase_ , lstrip=UpperCamelCase_ , rstrip=UpperCamelCase_ ) if isinstance(UpperCamelCase_ , UpperCamelCase_ ) else mask_token
__lowerCamelCase = {} if sp_model_kwargs is None else sp_model_kwargs
super().__init__(
do_lower_case=UpperCamelCase_ , remove_space=UpperCamelCase_ , keep_accents=UpperCamelCase_ , bos_token=UpperCamelCase_ , eos_token=UpperCamelCase_ , unk_token=UpperCamelCase_ , sep_token=UpperCamelCase_ , pad_token=UpperCamelCase_ , cls_token=UpperCamelCase_ , mask_token=UpperCamelCase_ , additional_special_tokens=UpperCamelCase_ , sp_model_kwargs=self.sp_model_kwargs , **UpperCamelCase_ , )
__lowerCamelCase = 3
__lowerCamelCase = do_lower_case
__lowerCamelCase = remove_space
__lowerCamelCase = keep_accents
__lowerCamelCase = vocab_file
__lowerCamelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs )
self.sp_model.Load(UpperCamelCase_ )
@property
def lowerCAmelCase__ ( self: Union[str, Any] ):
return len(self.sp_model )
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = {self.convert_ids_to_tokens(UpperCamelCase_ ): i for i in range(self.vocab_size )}
vocab.update(self.added_tokens_encoder )
return vocab
def __getstate__( self: Dict ):
__lowerCamelCase = self.__dict__.copy()
__lowerCamelCase = None
return state
def __setstate__( self: Optional[Any] , UpperCamelCase_: int ):
__lowerCamelCase = d
# for backward compatibility
if not hasattr(self , """sp_model_kwargs""" ):
__lowerCamelCase = {}
__lowerCamelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs )
self.sp_model.Load(self.vocab_file )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Optional[Any] ):
if self.remove_space:
__lowerCamelCase = """ """.join(inputs.strip().split() )
else:
__lowerCamelCase = inputs
__lowerCamelCase = outputs.replace("""``""" , """\"""" ).replace("""''""" , """\"""" )
if not self.keep_accents:
__lowerCamelCase = unicodedata.normalize("""NFKD""" , UpperCamelCase_ )
__lowerCamelCase = """""".join([c for c in outputs if not unicodedata.combining(UpperCamelCase_ )] )
if self.do_lower_case:
__lowerCamelCase = outputs.lower()
return outputs
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: str ):
__lowerCamelCase = self.preprocess_text(UpperCamelCase_ )
__lowerCamelCase = self.sp_model.encode(UpperCamelCase_ , out_type=UpperCamelCase_ )
__lowerCamelCase = []
for piece in pieces:
if len(UpperCamelCase_ ) > 1 and piece[-1] == str(""",""" ) and piece[-2].isdigit():
__lowerCamelCase = self.sp_model.EncodeAsPieces(piece[:-1].replace(UpperCamelCase_ , """""" ) )
if piece[0] != SPIECE_UNDERLINE and cur_pieces[0][0] == SPIECE_UNDERLINE:
if len(cur_pieces[0] ) == 1:
__lowerCamelCase = cur_pieces[1:]
else:
__lowerCamelCase = cur_pieces[0][1:]
cur_pieces.append(piece[-1] )
new_pieces.extend(UpperCamelCase_ )
else:
new_pieces.append(UpperCamelCase_ )
return new_pieces
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Union[str, Any] ):
return self.sp_model.PieceToId(UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: int ):
return self.sp_model.IdToPiece(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: Dict ):
__lowerCamelCase = """""".join(UpperCamelCase_ ).replace(UpperCamelCase_ , """ """ ).strip()
return out_string
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: List[int] , UpperCamelCase_: bool = False , UpperCamelCase_: bool = None , UpperCamelCase_: bool = True , **UpperCamelCase_: List[Any] , ):
__lowerCamelCase = kwargs.pop("""use_source_tokenizer""" , UpperCamelCase_ )
__lowerCamelCase = self.convert_ids_to_tokens(UpperCamelCase_ , skip_special_tokens=UpperCamelCase_ )
# To avoid mixing byte-level and unicode for byte-level BPT
# we need to build string separately for added tokens and byte-level tokens
# cf. https://github.com/huggingface/transformers/issues/1133
__lowerCamelCase = []
__lowerCamelCase = []
for token in filtered_tokens:
if skip_special_tokens and token in self.all_special_ids:
continue
if token in self.added_tokens_encoder:
if current_sub_text:
sub_texts.append(self.convert_tokens_to_string(UpperCamelCase_ ) )
__lowerCamelCase = []
sub_texts.append(UpperCamelCase_ )
else:
current_sub_text.append(UpperCamelCase_ )
if current_sub_text:
sub_texts.append(self.convert_tokens_to_string(UpperCamelCase_ ) )
# Mimic the behavior of the Rust tokenizer:
# By default, there are no spaces between special tokens
__lowerCamelCase = """""".join(UpperCamelCase_ )
__lowerCamelCase = (
clean_up_tokenization_spaces
if clean_up_tokenization_spaces is not None
else self.clean_up_tokenization_spaces
)
if clean_up_tokenization_spaces:
__lowerCamelCase = self.clean_up_tokenization(UpperCamelCase_ )
return clean_text
else:
return text
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: List[int] , UpperCamelCase_: Optional[List[int]] = None ):
__lowerCamelCase = [self.sep_token_id]
__lowerCamelCase = [self.cls_token_id]
if token_ids_a is None:
return token_ids_a + sep + cls
return token_ids_a + sep + token_ids_a + sep + cls
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: List[int] , UpperCamelCase_: Optional[List[int]] = None , UpperCamelCase_: bool = False ):
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 not None:
return ([0] * len(UpperCamelCase_ )) + [1] + ([0] * len(UpperCamelCase_ )) + [1, 1]
return ([0] * len(UpperCamelCase_ )) + [1, 1]
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: List[int] , UpperCamelCase_: Optional[List[int]] = None ):
__lowerCamelCase = [self.sep_token_id]
__lowerCamelCase = [2]
if token_ids_a is None:
return len(token_ids_a + sep ) * [0] + cls_segment_id
return len(token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] + cls_segment_id
def lowerCAmelCase__ ( self: str , UpperCamelCase_: str , UpperCamelCase_: Optional[str] = None ):
if not os.path.isdir(UpperCamelCase_ ):
logger.error(F'Vocabulary path ({save_directory}) should be a directory' )
return
__lowerCamelCase = 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:
__lowerCamelCase = self.sp_model.serialized_model_proto()
fi.write(UpperCamelCase_ )
return (out_vocab_file,)
| 12 |
from typing import List, Optional, Union
import torch
from ...models import UNetaDConditionModel, VQModel
from ...pipelines import DiffusionPipeline
from ...pipelines.pipeline_utils import ImagePipelineOutput
from ...schedulers import DDPMScheduler
from ...utils import (
is_accelerate_available,
is_accelerate_version,
logging,
randn_tensor,
replace_example_docstring,
)
UpperCAmelCase_ = logging.get_logger(__name__) # pylint: disable=invalid-name
UpperCAmelCase_ = '\n Examples:\n ```py\n >>> import torch\n >>> import numpy as np\n\n >>> from diffusers import KandinskyV22PriorPipeline, KandinskyV22ControlnetPipeline\n >>> from transformers import pipeline\n >>> from diffusers.utils import load_image\n\n\n >>> def make_hint(image, depth_estimator):\n ... image = depth_estimator(image)["depth"]\n ... image = np.array(image)\n ... image = image[:, :, None]\n ... image = np.concatenate([image, image, image], axis=2)\n ... detected_map = torch.from_numpy(image).float() / 255.0\n ... hint = detected_map.permute(2, 0, 1)\n ... return hint\n\n\n >>> depth_estimator = pipeline("depth-estimation")\n\n >>> pipe_prior = KandinskyV22PriorPipeline.from_pretrained(\n ... "kandinsky-community/kandinsky-2-2-prior", torch_dtype=torch.float16\n ... )\n >>> pipe_prior = pipe_prior.to("cuda")\n\n >>> pipe = KandinskyV22ControlnetPipeline.from_pretrained(\n ... "kandinsky-community/kandinsky-2-2-controlnet-depth", torch_dtype=torch.float16\n ... )\n >>> pipe = pipe.to("cuda")\n\n\n >>> img = load_image(\n ... "https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"\n ... "/kandinsky/cat.png"\n ... ).resize((768, 768))\n\n >>> hint = make_hint(img, depth_estimator).unsqueeze(0).half().to("cuda")\n\n >>> prompt = "A robot, 4k photo"\n >>> negative_prior_prompt = "lowres, text, error, cropped, worst quality, low quality, jpeg artifacts, ugly, duplicate, morbid, mutilated, out of frame, extra fingers, mutated hands, poorly drawn hands, poorly drawn face, mutation, deformed, blurry, dehydrated, bad anatomy, bad proportions, extra limbs, cloned face, disfigured, gross proportions, malformed limbs, missing arms, missing legs, extra arms, extra legs, fused fingers, too many fingers, long neck, username, watermark, signature"\n\n >>> generator = torch.Generator(device="cuda").manual_seed(43)\n\n >>> image_emb, zero_image_emb = pipe_prior(\n ... prompt=prompt, negative_prompt=negative_prior_prompt, generator=generator\n ... ).to_tuple()\n\n >>> images = pipe(\n ... image_embeds=image_emb,\n ... negative_image_embeds=zero_image_emb,\n ... hint=hint,\n ... num_inference_steps=50,\n ... generator=generator,\n ... height=768,\n ... width=768,\n ... ).images\n\n >>> images[0].save("robot_cat.png")\n ```\n'
def lowerCamelCase__ ( A__ : Optional[int] , A__ : Dict , A__ : Optional[int]=8 ):
'''simple docstring'''
__lowerCamelCase = height // scale_factor**2
if height % scale_factor**2 != 0:
new_height += 1
__lowerCamelCase = width // scale_factor**2
if width % scale_factor**2 != 0:
new_width += 1
return new_height * scale_factor, new_width * scale_factor
class lowerCamelCase__( __lowerCamelCase):
def __init__( self: List[Any] , UpperCamelCase_: UNetaDConditionModel , UpperCamelCase_: DDPMScheduler , UpperCamelCase_: VQModel , ):
super().__init__()
self.register_modules(
unet=UpperCamelCase_ , scheduler=UpperCamelCase_ , movq=UpperCamelCase_ , )
__lowerCamelCase = 2 ** (len(self.movq.config.block_out_channels ) - 1)
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Any , UpperCamelCase_: Tuple , UpperCamelCase_: int , UpperCamelCase_: Dict , UpperCamelCase_: Dict , UpperCamelCase_: int ):
if latents is None:
__lowerCamelCase = randn_tensor(UpperCamelCase_ , generator=UpperCamelCase_ , device=UpperCamelCase_ , dtype=UpperCamelCase_ )
else:
if latents.shape != shape:
raise ValueError(F'Unexpected latents shape, got {latents.shape}, expected {shape}' )
__lowerCamelCase = latents.to(UpperCamelCase_ )
__lowerCamelCase = latents * scheduler.init_noise_sigma
return latents
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: str=0 ):
if is_accelerate_available():
from accelerate import cpu_offload
else:
raise ImportError("""Please install accelerate via `pip install accelerate`""" )
__lowerCamelCase = torch.device(F'cuda:{gpu_id}' )
__lowerCamelCase = [
self.unet,
self.movq,
]
for cpu_offloaded_model in models:
if cpu_offloaded_model is not None:
cpu_offload(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[int]=0 ):
if is_accelerate_available() and is_accelerate_version(""">=""" , """0.17.0.dev0""" ):
from accelerate import cpu_offload_with_hook
else:
raise ImportError("""`enable_model_cpu_offload` requires `accelerate v0.17.0` or higher.""" )
__lowerCamelCase = torch.device(F'cuda:{gpu_id}' )
if self.device.type != "cpu":
self.to("""cpu""" , silence_dtype_warnings=UpperCamelCase_ )
torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist)
__lowerCamelCase = None
for cpu_offloaded_model in [self.unet, self.movq]:
__lowerCamelCase, __lowerCamelCase = cpu_offload_with_hook(UpperCamelCase_ , UpperCamelCase_ , prev_module_hook=UpperCamelCase_ )
# We'll offload the last model manually.
__lowerCamelCase = hook
@property
# Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device
def lowerCAmelCase__ ( self: int ):
if not hasattr(self.unet , """_hf_hook""" ):
return self.device
for module in self.unet.modules():
if (
hasattr(UpperCamelCase_ , """_hf_hook""" )
and hasattr(module._hf_hook , """execution_device""" )
and module._hf_hook.execution_device is not None
):
return torch.device(module._hf_hook.execution_device )
return self.device
@torch.no_grad()
@replace_example_docstring(UpperCamelCase_ )
def __call__( self: Tuple , UpperCamelCase_: Union[torch.FloatTensor, List[torch.FloatTensor]] , UpperCamelCase_: Union[torch.FloatTensor, List[torch.FloatTensor]] , UpperCamelCase_: torch.FloatTensor , UpperCamelCase_: int = 5_12 , UpperCamelCase_: int = 5_12 , UpperCamelCase_: int = 1_00 , UpperCamelCase_: float = 4.0 , UpperCamelCase_: int = 1 , UpperCamelCase_: Optional[Union[torch.Generator, List[torch.Generator]]] = None , UpperCamelCase_: Optional[torch.FloatTensor] = None , UpperCamelCase_: Optional[str] = "pil" , UpperCamelCase_: bool = True , ):
__lowerCamelCase = self._execution_device
__lowerCamelCase = guidance_scale > 1.0
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
__lowerCamelCase = image_embeds.shape[0] * num_images_per_prompt
if do_classifier_free_guidance:
__lowerCamelCase = image_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = negative_image_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = hint.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = torch.cat([negative_image_embeds, image_embeds] , dim=0 ).to(dtype=self.unet.dtype , device=UpperCamelCase_ )
__lowerCamelCase = torch.cat([hint, hint] , dim=0 ).to(dtype=self.unet.dtype , device=UpperCamelCase_ )
self.scheduler.set_timesteps(UpperCamelCase_ , device=UpperCamelCase_ )
__lowerCamelCase = self.scheduler.timesteps
__lowerCamelCase = self.movq.config.latent_channels
__lowerCamelCase, __lowerCamelCase = downscale_height_and_width(UpperCamelCase_ , UpperCamelCase_ , self.movq_scale_factor )
# create initial latent
__lowerCamelCase = self.prepare_latents(
(batch_size, num_channels_latents, height, width) , image_embeds.dtype , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , self.scheduler , )
for i, t in enumerate(self.progress_bar(UpperCamelCase_ ) ):
# expand the latents if we are doing classifier free guidance
__lowerCamelCase = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents
__lowerCamelCase = {"""image_embeds""": image_embeds, """hint""": hint}
__lowerCamelCase = self.unet(
sample=UpperCamelCase_ , timestep=UpperCamelCase_ , encoder_hidden_states=UpperCamelCase_ , added_cond_kwargs=UpperCamelCase_ , return_dict=UpperCamelCase_ , )[0]
if do_classifier_free_guidance:
__lowerCamelCase, __lowerCamelCase = noise_pred.split(latents.shape[1] , dim=1 )
__lowerCamelCase, __lowerCamelCase = noise_pred.chunk(2 )
__lowerCamelCase, __lowerCamelCase = variance_pred.chunk(2 )
__lowerCamelCase = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
__lowerCamelCase = torch.cat([noise_pred, variance_pred_text] , dim=1 )
if not (
hasattr(self.scheduler.config , """variance_type""" )
and self.scheduler.config.variance_type in ["learned", "learned_range"]
):
__lowerCamelCase, __lowerCamelCase = noise_pred.split(latents.shape[1] , dim=1 )
# compute the previous noisy sample x_t -> x_t-1
__lowerCamelCase = self.scheduler.step(
UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , generator=UpperCamelCase_ , )[0]
# post-processing
__lowerCamelCase = self.movq.decode(UpperCamelCase_ , force_not_quantize=UpperCamelCase_ )["""sample"""]
if output_type not in ["pt", "np", "pil"]:
raise ValueError(F'Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}' )
if output_type in ["np", "pil"]:
__lowerCamelCase = image * 0.5 + 0.5
__lowerCamelCase = image.clamp(0 , 1 )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy()
if output_type == "pil":
__lowerCamelCase = self.numpy_to_pil(UpperCamelCase_ )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=UpperCamelCase_ )
| 12 | 1 |
def lowerCamelCase__ ( A__ : list[list[int]] , A__ : int , A__ : int , A__ : set ):
'''simple docstring'''
__lowerCamelCase, __lowerCamelCase = len(A__ ), len(grid[0] )
if (
min(A__ , A__ ) < 0
or row == row_length
or col == col_length
or (row, col) in visit
or grid[row][col] == 1
):
return 0
if row == row_length - 1 and col == col_length - 1:
return 1
visit.add((row, col) )
__lowerCamelCase = 0
count += depth_first_search(A__ , row + 1 , A__ , A__ )
count += depth_first_search(A__ , row - 1 , A__ , A__ )
count += depth_first_search(A__ , A__ , col + 1 , A__ )
count += depth_first_search(A__ , A__ , col - 1 , A__ )
visit.remove((row, col) )
return count
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 |
import unittest
from transformers import BigBirdConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask
if is_flax_available():
import jax
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class lowerCamelCase__( unittest.TestCase):
def __init__( self: Optional[int] , UpperCamelCase_: Any , UpperCamelCase_: int=2 , UpperCamelCase_: Optional[Any]=56 , UpperCamelCase_: Tuple=True , UpperCamelCase_: Union[str, Any]=True , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: str=True , UpperCamelCase_: str=99 , UpperCamelCase_: Tuple=32 , UpperCamelCase_: int=2 , UpperCamelCase_: Optional[int]=2 , UpperCamelCase_: Tuple=7 , UpperCamelCase_: Optional[int]="gelu_new" , UpperCamelCase_: Any=0.1 , UpperCamelCase_: List[str]=0.1 , UpperCamelCase_: List[Any]=5_12 , UpperCamelCase_: Union[str, Any]=16 , UpperCamelCase_: int=2 , UpperCamelCase_: Dict=0.02 , UpperCamelCase_: Tuple=4 , UpperCamelCase_: Union[str, Any]="block_sparse" , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: Any=False , UpperCamelCase_: Any=2 , UpperCamelCase_: int=3 , ):
__lowerCamelCase = parent
__lowerCamelCase = batch_size
__lowerCamelCase = seq_length
__lowerCamelCase = is_training
__lowerCamelCase = use_attention_mask
__lowerCamelCase = use_token_type_ids
__lowerCamelCase = use_labels
__lowerCamelCase = vocab_size
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = intermediate_size
__lowerCamelCase = hidden_act
__lowerCamelCase = hidden_dropout_prob
__lowerCamelCase = attention_probs_dropout_prob
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = type_vocab_size
__lowerCamelCase = type_sequence_label_size
__lowerCamelCase = initializer_range
__lowerCamelCase = num_choices
__lowerCamelCase = rescale_embeddings
__lowerCamelCase = attention_type
__lowerCamelCase = use_bias
__lowerCamelCase = block_size
__lowerCamelCase = num_random_blocks
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__lowerCamelCase = None
if self.use_attention_mask:
__lowerCamelCase = random_attention_mask([self.batch_size, self.seq_length] )
__lowerCamelCase = None
if self.use_token_type_ids:
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
__lowerCamelCase = BigBirdConfig(
vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=UpperCamelCase_ , initializer_range=self.initializer_range , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = self.prepare_config_and_inputs()
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = config_and_inputs
__lowerCamelCase = {
"""input_ids""": input_ids,
"""token_type_ids""": token_type_ids,
"""attention_mask""": attention_mask,
}
return config, inputs_dict
@require_flax
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Optional[int] = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
UpperCAmelCase__ : Optional[int] = False
UpperCAmelCase__ : Optional[int] = False
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: Optional[Any] ):
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[str] ):
super().test_hidden_states_output()
@slow
def lowerCAmelCase__ ( self: Optional[Any] ):
for model_class_name in self.all_model_classes:
__lowerCamelCase = model_class_name.from_pretrained("""google/bigbird-roberta-base""" )
self.assertIsNotNone(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict ):
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
__lowerCamelCase = self._prepare_for_class(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = model_class(UpperCamelCase_ )
@jax.jit
def model_jitted(UpperCamelCase_: Tuple , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: Union[str, Any] ):
return model(input_ids=UpperCamelCase_ , attention_mask=UpperCamelCase_ , **UpperCamelCase_ )
with self.subTest("""JIT Enabled""" ):
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
with self.subTest("""JIT Disabled""" ):
with jax.disable_jit():
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
self.assertEqual(len(UpperCamelCase_ ) , len(UpperCamelCase_ ) )
for jitted_output, output in zip(UpperCamelCase_ , UpperCamelCase_ ):
self.assertEqual(jitted_output.shape , output.shape )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: int , UpperCamelCase_: List[str] , UpperCamelCase_: Any , UpperCamelCase_: Dict=1E-5 , UpperCamelCase_: List[str]="outputs" , UpperCamelCase_: List[str]=None ):
# `bigbird_block_sparse_attention` in `FlaxBigBird` returns `attention_probs = None`, while in PyTorch version,
# an effort was done to return `attention_probs` (yet to be verified).
if name.startswith("""outputs.attentions""" ):
return
else:
super().check_pt_flax_outputs(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
| 12 | 1 |
from ...configuration_utils import PretrainedConfig
UpperCAmelCase_ = {
'google/tapas-base-finetuned-sqa': (
'https://huggingface.co/google/tapas-base-finetuned-sqa/resolve/main/config.json'
),
'google/tapas-base-finetuned-wtq': (
'https://huggingface.co/google/tapas-base-finetuned-wtq/resolve/main/config.json'
),
'google/tapas-base-finetuned-wikisql-supervised': (
'https://huggingface.co/google/tapas-base-finetuned-wikisql-supervised/resolve/main/config.json'
),
'google/tapas-base-finetuned-tabfact': (
'https://huggingface.co/google/tapas-base-finetuned-tabfact/resolve/main/config.json'
),
}
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : str = 'tapas'
def __init__( self: Tuple , UpperCamelCase_: List[Any]=3_05_22 , UpperCamelCase_: Tuple=7_68 , UpperCamelCase_: Union[str, Any]=12 , UpperCamelCase_: str=12 , UpperCamelCase_: List[Any]=30_72 , UpperCamelCase_: Union[str, Any]="gelu" , UpperCamelCase_: Union[str, Any]=0.1 , UpperCamelCase_: List[str]=0.1 , UpperCamelCase_: Dict=10_24 , UpperCamelCase_: int=[3, 2_56, 2_56, 2, 2_56, 2_56, 10] , UpperCamelCase_: Optional[int]=0.02 , UpperCamelCase_: Optional[Any]=1E-12 , UpperCamelCase_: int=0 , UpperCamelCase_: Optional[Any]=10.0 , UpperCamelCase_: int=0 , UpperCamelCase_: Any=1.0 , UpperCamelCase_: Tuple=None , UpperCamelCase_: Dict=1.0 , UpperCamelCase_: Optional[Any]=False , UpperCamelCase_: Optional[Any]=None , UpperCamelCase_: Dict=1.0 , UpperCamelCase_: Optional[int]=1.0 , UpperCamelCase_: List[Any]=False , UpperCamelCase_: List[Any]=False , UpperCamelCase_: Any="ratio" , UpperCamelCase_: List[Any]=None , UpperCamelCase_: Optional[Any]=None , UpperCamelCase_: Optional[int]=64 , UpperCamelCase_: Optional[Any]=32 , UpperCamelCase_: List[str]=False , UpperCamelCase_: str=True , UpperCamelCase_: Optional[Any]=False , UpperCamelCase_: Optional[int]=False , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: Optional[int]=False , UpperCamelCase_: Dict=None , UpperCamelCase_: Tuple=None , **UpperCamelCase_: Union[str, Any] , ):
super().__init__(pad_token_id=UpperCamelCase_ , **UpperCamelCase_ )
# BERT hyperparameters (with updated max_position_embeddings and type_vocab_sizes)
__lowerCamelCase = vocab_size
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = hidden_act
__lowerCamelCase = intermediate_size
__lowerCamelCase = hidden_dropout_prob
__lowerCamelCase = attention_probs_dropout_prob
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = type_vocab_sizes
__lowerCamelCase = initializer_range
__lowerCamelCase = layer_norm_eps
# Fine-tuning task hyperparameters
__lowerCamelCase = positive_label_weight
__lowerCamelCase = num_aggregation_labels
__lowerCamelCase = aggregation_loss_weight
__lowerCamelCase = use_answer_as_supervision
__lowerCamelCase = answer_loss_importance
__lowerCamelCase = use_normalized_answer_loss
__lowerCamelCase = huber_loss_delta
__lowerCamelCase = temperature
__lowerCamelCase = aggregation_temperature
__lowerCamelCase = use_gumbel_for_cells
__lowerCamelCase = use_gumbel_for_aggregation
__lowerCamelCase = average_approximation_function
__lowerCamelCase = cell_selection_preference
__lowerCamelCase = answer_loss_cutoff
__lowerCamelCase = max_num_rows
__lowerCamelCase = max_num_columns
__lowerCamelCase = average_logits_per_cell
__lowerCamelCase = select_one_column
__lowerCamelCase = allow_empty_column_selection
__lowerCamelCase = init_cell_selection_weights_to_zero
__lowerCamelCase = reset_position_index_per_cell
__lowerCamelCase = disable_per_token_loss
# Aggregation hyperparameters
__lowerCamelCase = aggregation_labels
__lowerCamelCase = no_aggregation_label_index
if isinstance(self.aggregation_labels , UpperCamelCase_ ):
__lowerCamelCase = {int(UpperCamelCase_ ): v for k, v in aggregation_labels.items()}
| 12 |
def lowerCamelCase__ ( A__ : list ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
for _ in range(A__ ):
for i in range(_ % 2 , arr_size - 1 , 2 ):
if arr[i + 1] < arr[i]:
__lowerCamelCase, __lowerCamelCase = arr[i + 1], arr[i]
return arr
if __name__ == "__main__":
UpperCAmelCase_ = list(range(10, 0, -1))
print(f"""Original: {arr}. Sorted: {odd_even_transposition(arr)}""")
| 12 | 1 |
import numpy as np
def lowerCamelCase__ ( A__ : np.ndarray ):
'''simple docstring'''
return 1 / (1 + np.exp(-vector ))
def lowerCamelCase__ ( A__ : np.ndarray ):
'''simple docstring'''
return vector * sigmoid(A__ )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 |
import os
import warnings
from typing import List, Optional
from ...tokenization_utils_base import BatchEncoding
from ...utils import logging
from .configuration_rag import RagConfig
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__:
def __init__( self: Any , UpperCamelCase_: str , UpperCamelCase_: Dict ):
__lowerCamelCase = question_encoder
__lowerCamelCase = generator
__lowerCamelCase = self.question_encoder
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[Any] ):
if os.path.isfile(UpperCamelCase_ ):
raise ValueError(F'Provided path ({save_directory}) should be a directory, not a file' )
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
__lowerCamelCase = os.path.join(UpperCamelCase_ , """question_encoder_tokenizer""" )
__lowerCamelCase = os.path.join(UpperCamelCase_ , """generator_tokenizer""" )
self.question_encoder.save_pretrained(UpperCamelCase_ )
self.generator.save_pretrained(UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: List[Any] , UpperCamelCase_: Dict , **UpperCamelCase_: Union[str, Any] ):
# dynamically import AutoTokenizer
from ..auto.tokenization_auto import AutoTokenizer
__lowerCamelCase = kwargs.pop("""config""" , UpperCamelCase_ )
if config is None:
__lowerCamelCase = RagConfig.from_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoTokenizer.from_pretrained(
UpperCamelCase_ , config=config.question_encoder , subfolder="""question_encoder_tokenizer""" )
__lowerCamelCase = AutoTokenizer.from_pretrained(
UpperCamelCase_ , config=config.generator , subfolder="""generator_tokenizer""" )
return cls(question_encoder=UpperCamelCase_ , generator=UpperCamelCase_ )
def __call__( self: Tuple , *UpperCamelCase_: int , **UpperCamelCase_: int ):
return self.current_tokenizer(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , *UpperCamelCase_: List[Any] , **UpperCamelCase_: List[Any] ):
return self.generator.batch_decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[Any] , *UpperCamelCase_: str , **UpperCamelCase_: Union[str, Any] ):
return self.generator.decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = self.question_encoder
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = self.generator
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: List[str] , UpperCamelCase_: Optional[List[str]] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: str = "longest" , UpperCamelCase_: str = None , UpperCamelCase_: bool = True , **UpperCamelCase_: int , ):
warnings.warn(
"""`prepare_seq2seq_batch` is deprecated and will be removed in version 5 of 🤗 Transformers. Use the """
"""regular `__call__` method to prepare your inputs and the tokenizer under the `with_target_tokenizer` """
"""context manager to prepare your targets. See the documentation of your specific tokenizer for more """
"""details""" , UpperCamelCase_ , )
if max_length is None:
__lowerCamelCase = self.current_tokenizer.model_max_length
__lowerCamelCase = self(
UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , max_length=UpperCamelCase_ , padding=UpperCamelCase_ , truncation=UpperCamelCase_ , **UpperCamelCase_ , )
if tgt_texts is None:
return model_inputs
# Process tgt_texts
if max_target_length is None:
__lowerCamelCase = self.current_tokenizer.model_max_length
__lowerCamelCase = self(
text_target=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , padding=UpperCamelCase_ , max_length=UpperCamelCase_ , truncation=UpperCamelCase_ , **UpperCamelCase_ , )
__lowerCamelCase = labels["""input_ids"""]
return model_inputs
| 12 | 1 |
import webbrowser
from sys import argv
from urllib.parse import parse_qs, quote
import requests
from bsa import BeautifulSoup
from fake_useragent import UserAgent
if __name__ == "__main__":
UpperCAmelCase_ = '%20'.join(argv[1:]) if len(argv) > 1 else quote(str(input('Search: ')))
print('Googling.....')
UpperCAmelCase_ = f"""https://www.google.com/search?q={query}&num=100"""
UpperCAmelCase_ = requests.get(
url,
headers={'User-Agent': str(UserAgent().random)},
)
try:
UpperCAmelCase_ = (
BeautifulSoup(res.text, 'html.parser')
.find('div', attrs={'class': 'yuRUbf'})
.find('a')
.get('href')
)
except AttributeError:
UpperCAmelCase_ = parse_qs(
BeautifulSoup(res.text, 'html.parser')
.find('div', attrs={'class': 'kCrYT'})
.find('a')
.get('href')
)['url'][0]
webbrowser.open(link)
| 12 |
import json
import os
from datetime import date
from pathlib import Path
from tabulate import DataRow, TableFormat, tabulate
UpperCAmelCase_ = TableFormat(
lineabove=None,
linebelowheader=None,
linebetweenrows=None,
linebelow=None,
headerrow=DataRow('', '|', '|'),
datarow=DataRow('', '|', '|'),
padding=1,
with_header_hide=None,
)
UpperCAmelCase_ = []
UpperCAmelCase_ = []
UpperCAmelCase_ = {'type': 'section', 'text': {'type': 'plain_text', 'text': 'No failed tests! 🤗', 'emoji': True}}
UpperCAmelCase_ = [
{
'type': 'header',
'text': {
'type': 'plain_text',
'text': f"""🤗 Accelerate nightly {os.environ.get("TEST_TYPE", "")} test results""",
'emoji': True,
},
}
]
UpperCAmelCase_ = 0
for log in Path().glob('*.log'):
UpperCAmelCase_ = 0
with open(log, 'r') as f:
for line in f:
UpperCAmelCase_ = json.loads(line)
if line.get('nodeid', '') != "":
UpperCAmelCase_ = line['nodeid']
if line.get('duration', None) is not None:
UpperCAmelCase_ = f"""{line["duration"]:.4f}"""
if line.get('outcome', '') == "failed":
section_num_failed += 1
failed.append([test, duration, log.name.split('_')[0]])
total_num_failed += 1
group_info.append([str(log), section_num_failed, failed])
UpperCAmelCase_ = []
log.unlink()
UpperCAmelCase_ = ''
UpperCAmelCase_ = []
if total_num_failed > 0:
for name, num_failed, failed_tests in group_info:
if num_failed > 0:
if num_failed == 1:
message += f"*{name[1:]}: {num_failed} failed test*\n"
else:
message += f"*{name[1:]}: {num_failed} failed tests*\n"
UpperCAmelCase_ = []
UpperCAmelCase_ = {}
for test in failed_tests:
UpperCAmelCase_ = test[0].split('::')
UpperCAmelCase_ = data[0].split('/')[-1]
if data[0] not in filesafailed:
UpperCAmelCase_ = [data[1:]]
else:
filesafailed[data[0]] += [data[1:]]
failed_table.append(data)
UpperCAmelCase_ = [test[0] for test in failed_table]
UpperCAmelCase_ = list(set(files))
# Count number of instances in failed_tests
UpperCAmelCase_ = []
for file in individual_files:
table.append([file, len(filesafailed[file])])
UpperCAmelCase_ = tabulate(
table,
headers=['Test Location', 'Num Failed'],
tablefmt=hf_table_format,
stralign='right',
)
message += f"\n```\n{failed_table}\n```"
all_filesafailed.append(filesafailed)
if len(message) > 3_000:
UpperCAmelCase_ = 'Too many failed tests, please see the full report in the Action results.'
UpperCAmelCase_ = len(err) + 10
UpperCAmelCase_ = message[: 3_000 - offset] + f"""\n...\n```\n{err}"""
print(f"""### {message}""")
else:
UpperCAmelCase_ = 'No failed tests! 🤗'
print(f"""## {message}""")
payload.append(no_error_payload)
if os.environ.get('TEST_TYPE', '') != "":
from slack_sdk import WebClient
UpperCAmelCase_ = WebClient(token=os.environ['SLACK_API_TOKEN'])
if message != "No failed tests! 🤗":
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': message,
},
}
payload.append(md_report)
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': '*For more details:*',
},
'accessory': {
'type': 'button',
'text': {
'type': 'plain_text',
'text': 'Check Action results',
'emoji': True,
},
'url': f"""https://github.com/{os.environ["GITHUB_REPOSITORY"]}/actions/runs/{os.environ["GITHUB_RUN_ID"]}""",
},
}
payload.append(action_button)
UpperCAmelCase_ = {
'type': 'context',
'elements': [
{
'type': 'plain_text',
'text': f"""Nightly {os.environ.get("TEST_TYPE")} test results for {date.today()}""",
}
],
}
payload.append(date_report)
UpperCAmelCase_ = client.chat_postMessage(channel='#accelerate-ci-daily', text=message, blocks=payload)
UpperCAmelCase_ = response.data['ts']
for failed_file in all_filesafailed:
for test_location, test_failures in failed_file.items():
# Keep only the first instance of the test name
UpperCAmelCase_ = ''
for i, row in enumerate(test_failures):
if row[0] != test_class:
UpperCAmelCase_ = row[0]
else:
UpperCAmelCase_ = ''
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': f"""Test location: {test_location}\n```\n{tabulate(test_failures, headers=["Class", "Test"], tablefmt=hf_table_format, stralign="right")}\n```""",
},
}
client.chat_postMessage(
channel='#accelerate-ci-daily',
thread_ts=ts,
blocks=[payload],
)
| 12 | 1 |
from random import shuffle
import tensorflow as tf
from numpy import array
def lowerCamelCase__ ( A__ : List[str] , A__ : Optional[int] ):
'''simple docstring'''
__lowerCamelCase = int(A__ )
assert noofclusters < len(A__ )
# Find out the dimensionality
__lowerCamelCase = len(vectors[0] )
# Will help select random centroids from among the available vectors
__lowerCamelCase = list(range(len(A__ ) ) )
shuffle(A__ )
# GRAPH OF COMPUTATION
# We initialize a new graph and set it as the default during each run
# of this algorithm. This ensures that as this function is called
# multiple times, the default graph doesn't keep getting crowded with
# unused ops and Variables from previous function calls.
__lowerCamelCase = tf.Graph()
with graph.as_default():
# SESSION OF COMPUTATION
__lowerCamelCase = tf.Session()
##CONSTRUCTING THE ELEMENTS OF COMPUTATION
##First lets ensure we have a Variable vector for each centroid,
##initialized to one of the vectors from the available data points
__lowerCamelCase = [
tf.Variable(vectors[vector_indices[i]] ) for i in range(A__ )
]
##These nodes will assign the centroid Variables the appropriate
##values
__lowerCamelCase = tf.placeholder("""float64""" , [dim] )
__lowerCamelCase = []
for centroid in centroids:
cent_assigns.append(tf.assign(A__ , A__ ) )
##Variables for cluster assignments of individual vectors(initialized
##to 0 at first)
__lowerCamelCase = [tf.Variable(0 ) for i in range(len(A__ ) )]
##These nodes will assign an assignment Variable the appropriate
##value
__lowerCamelCase = tf.placeholder("""int32""" )
__lowerCamelCase = []
for assignment in assignments:
cluster_assigns.append(tf.assign(A__ , A__ ) )
##Now lets construct the node that will compute the mean
# The placeholder for the input
__lowerCamelCase = tf.placeholder("""float""" , [None, dim] )
# The Node/op takes the input and computes a mean along the 0th
# dimension, i.e. the list of input vectors
__lowerCamelCase = tf.reduce_mean(A__ , 0 )
##Node for computing Euclidean distances
# Placeholders for input
__lowerCamelCase = tf.placeholder("""float""" , [dim] )
__lowerCamelCase = tf.placeholder("""float""" , [dim] )
__lowerCamelCase = tf.sqrt(tf.reduce_sum(tf.pow(tf.sub(A__ , A__ ) , 2 ) ) )
##This node will figure out which cluster to assign a vector to,
##based on Euclidean distances of the vector from the centroids.
# Placeholder for input
__lowerCamelCase = tf.placeholder("""float""" , [noofclusters] )
__lowerCamelCase = tf.argmin(A__ , 0 )
##INITIALIZING STATE VARIABLES
##This will help initialization of all Variables defined with respect
##to the graph. The Variable-initializer should be defined after
##all the Variables have been constructed, so that each of them
##will be included in the initialization.
__lowerCamelCase = tf.initialize_all_variables()
# Initialize all variables
sess.run(A__ )
##CLUSTERING ITERATIONS
# Now perform the Expectation-Maximization steps of K-Means clustering
# iterations. To keep things simple, we will only do a set number of
# iterations, instead of using a Stopping Criterion.
__lowerCamelCase = 100
for _ in range(A__ ):
##EXPECTATION STEP
##Based on the centroid locations till last iteration, compute
##the _expected_ centroid assignments.
# Iterate over each vector
for vector_n in range(len(A__ ) ):
__lowerCamelCase = vectors[vector_n]
# Compute Euclidean distance between this vector and each
# centroid. Remember that this list cannot be named
#'centroid_distances', since that is the input to the
# cluster assignment node.
__lowerCamelCase = [
sess.run(A__ , feed_dict={va: vect, va: sess.run(A__ )} )
for centroid in centroids
]
# Now use the cluster assignment node, with the distances
# as the input
__lowerCamelCase = sess.run(
A__ , feed_dict={centroid_distances: distances} )
# Now assign the value to the appropriate state variable
sess.run(
cluster_assigns[vector_n] , feed_dict={assignment_value: assignment} )
##MAXIMIZATION STEP
# Based on the expected state computed from the Expectation Step,
# compute the locations of the centroids so as to maximize the
# overall objective of minimizing within-cluster Sum-of-Squares
for cluster_n in range(A__ ):
# Collect all the vectors assigned to this cluster
__lowerCamelCase = [
vectors[i]
for i in range(len(A__ ) )
if sess.run(assignments[i] ) == cluster_n
]
# Compute new centroid location
__lowerCamelCase = sess.run(
A__ , feed_dict={mean_input: array(A__ )} )
# Assign value to appropriate variable
sess.run(
cent_assigns[cluster_n] , feed_dict={centroid_value: new_location} )
# Return centroids and assignments
__lowerCamelCase = sess.run(A__ )
__lowerCamelCase = sess.run(A__ )
return centroids, assignments
| 12 |
from typing import Callable, List, Optional, Tuple, Union
import torch
from transformers import CLIPTextModel, CLIPTokenizer
from ...configuration_utils import ConfigMixin, register_to_config
from ...models import ModelMixin, TransformeraDModel, VQModel
from ...schedulers import VQDiffusionScheduler
from ...utils import logging
from ..pipeline_utils import DiffusionPipeline, ImagePipelineOutput
UpperCAmelCase_ = logging.get_logger(__name__) # pylint: disable=invalid-name
class lowerCamelCase__( __lowerCamelCase , __lowerCamelCase):
@register_to_config
def __init__( self: Optional[Any] , UpperCamelCase_: bool , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[int] = None ):
super().__init__()
__lowerCamelCase = learnable
if self.learnable:
assert hidden_size is not None, "learnable=True requires `hidden_size` to be set"
assert length is not None, "learnable=True requires `length` to be set"
__lowerCamelCase = torch.zeros(UpperCamelCase_ , UpperCamelCase_ )
else:
__lowerCamelCase = None
__lowerCamelCase = torch.nn.Parameter(UpperCamelCase_ )
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : VQModel
UpperCAmelCase__ : CLIPTextModel
UpperCAmelCase__ : CLIPTokenizer
UpperCAmelCase__ : TransformeraDModel
UpperCAmelCase__ : LearnedClassifierFreeSamplingEmbeddings
UpperCAmelCase__ : VQDiffusionScheduler
def __init__( self: str , UpperCamelCase_: VQModel , UpperCamelCase_: CLIPTextModel , UpperCamelCase_: CLIPTokenizer , UpperCamelCase_: TransformeraDModel , UpperCamelCase_: VQDiffusionScheduler , UpperCamelCase_: LearnedClassifierFreeSamplingEmbeddings , ):
super().__init__()
self.register_modules(
vqvae=UpperCamelCase_ , transformer=UpperCamelCase_ , text_encoder=UpperCamelCase_ , tokenizer=UpperCamelCase_ , scheduler=UpperCamelCase_ , learned_classifier_free_sampling_embeddings=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: Any , UpperCamelCase_: List[Any] , UpperCamelCase_: Any ):
__lowerCamelCase = len(UpperCamelCase_ ) if isinstance(UpperCamelCase_ , UpperCamelCase_ ) else 1
# get prompt text embeddings
__lowerCamelCase = self.tokenizer(
UpperCamelCase_ , padding="""max_length""" , max_length=self.tokenizer.model_max_length , return_tensors="""pt""" , )
__lowerCamelCase = text_inputs.input_ids
if text_input_ids.shape[-1] > self.tokenizer.model_max_length:
__lowerCamelCase = self.tokenizer.batch_decode(text_input_ids[:, self.tokenizer.model_max_length :] )
logger.warning(
"""The following part of your input was truncated because CLIP can only handle sequences up to"""
F' {self.tokenizer.model_max_length} tokens: {removed_text}' )
__lowerCamelCase = text_input_ids[:, : self.tokenizer.model_max_length]
__lowerCamelCase = self.text_encoder(text_input_ids.to(self.device ) )[0]
# NOTE: This additional step of normalizing the text embeddings is from VQ-Diffusion.
# While CLIP does normalize the pooled output of the text transformer when combining
# the image and text embeddings, CLIP does not directly normalize the last hidden state.
#
# CLIP normalizing the pooled output.
# https://github.com/huggingface/transformers/blob/d92e22d1f28324f513f3080e5c47c071a3916721/src/transformers/models/clip/modeling_clip.py#L1052-L1053
__lowerCamelCase = prompt_embeds / prompt_embeds.norm(dim=-1 , keepdim=UpperCamelCase_ )
# duplicate text embeddings for each generation per prompt
__lowerCamelCase = prompt_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
if do_classifier_free_guidance:
if self.learned_classifier_free_sampling_embeddings.learnable:
__lowerCamelCase = self.learned_classifier_free_sampling_embeddings.embeddings
__lowerCamelCase = negative_prompt_embeds.unsqueeze(0 ).repeat(UpperCamelCase_ , 1 , 1 )
else:
__lowerCamelCase = [""""""] * batch_size
__lowerCamelCase = text_input_ids.shape[-1]
__lowerCamelCase = self.tokenizer(
UpperCamelCase_ , padding="""max_length""" , max_length=UpperCamelCase_ , truncation=UpperCamelCase_ , return_tensors="""pt""" , )
__lowerCamelCase = self.text_encoder(uncond_input.input_ids.to(self.device ) )[0]
# See comment for normalizing text embeddings
__lowerCamelCase = negative_prompt_embeds / negative_prompt_embeds.norm(dim=-1 , keepdim=UpperCamelCase_ )
# duplicate unconditional embeddings for each generation per prompt, using mps friendly method
__lowerCamelCase = negative_prompt_embeds.shape[1]
__lowerCamelCase = negative_prompt_embeds.repeat(1 , UpperCamelCase_ , 1 )
__lowerCamelCase = negative_prompt_embeds.view(batch_size * num_images_per_prompt , UpperCamelCase_ , -1 )
# For classifier free guidance, we need to do two forward passes.
# Here we concatenate the unconditional and text embeddings into a single batch
# to avoid doing two forward passes
__lowerCamelCase = torch.cat([negative_prompt_embeds, prompt_embeds] )
return prompt_embeds
@torch.no_grad()
def __call__( self: Tuple , UpperCamelCase_: Union[str, List[str]] , UpperCamelCase_: int = 1_00 , UpperCamelCase_: float = 5.0 , UpperCamelCase_: float = 1.0 , UpperCamelCase_: int = 1 , UpperCamelCase_: Optional[Union[torch.Generator, List[torch.Generator]]] = None , UpperCamelCase_: Optional[torch.FloatTensor] = None , UpperCamelCase_: Optional[str] = "pil" , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[Callable[[int, int, torch.FloatTensor], None]] = None , UpperCamelCase_: int = 1 , ):
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = 1
elif isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = len(UpperCamelCase_ )
else:
raise ValueError(F'`prompt` has to be of type `str` or `list` but is {type(UpperCamelCase_ )}' )
__lowerCamelCase = batch_size * num_images_per_prompt
__lowerCamelCase = guidance_scale > 1.0
__lowerCamelCase = self._encode_prompt(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
if (callback_steps is None) or (
callback_steps is not None and (not isinstance(UpperCamelCase_ , UpperCamelCase_ ) or callback_steps <= 0)
):
raise ValueError(
F'`callback_steps` has to be a positive integer but is {callback_steps} of type'
F' {type(UpperCamelCase_ )}.' )
# get the initial completely masked latents unless the user supplied it
__lowerCamelCase = (batch_size, self.transformer.num_latent_pixels)
if latents is None:
__lowerCamelCase = self.transformer.num_vector_embeds - 1
__lowerCamelCase = torch.full(UpperCamelCase_ , UpperCamelCase_ ).to(self.device )
else:
if latents.shape != latents_shape:
raise ValueError(F'Unexpected latents shape, got {latents.shape}, expected {latents_shape}' )
if (latents < 0).any() or (latents >= self.transformer.num_vector_embeds).any():
raise ValueError(
"""Unexpected latents value(s). All latents be valid embedding indices i.e. in the range 0,"""
F' {self.transformer.num_vector_embeds - 1} (inclusive).' )
__lowerCamelCase = latents.to(self.device )
# set timesteps
self.scheduler.set_timesteps(UpperCamelCase_ , device=self.device )
__lowerCamelCase = self.scheduler.timesteps.to(self.device )
__lowerCamelCase = latents
for i, t in enumerate(self.progress_bar(UpperCamelCase_ ) ):
# expand the sample if we are doing classifier free guidance
__lowerCamelCase = torch.cat([sample] * 2 ) if do_classifier_free_guidance else sample
# predict the un-noised image
# model_output == `log_p_x_0`
__lowerCamelCase = self.transformer(UpperCamelCase_ , encoder_hidden_states=UpperCamelCase_ , timestep=UpperCamelCase_ ).sample
if do_classifier_free_guidance:
__lowerCamelCase, __lowerCamelCase = model_output.chunk(2 )
__lowerCamelCase = model_output_uncond + guidance_scale * (model_output_text - model_output_uncond)
model_output -= torch.logsumexp(UpperCamelCase_ , dim=1 , keepdim=UpperCamelCase_ )
__lowerCamelCase = self.truncate(UpperCamelCase_ , UpperCamelCase_ )
# remove `log(0)`'s (`-inf`s)
__lowerCamelCase = model_output.clamp(-70 )
# compute the previous noisy sample x_t -> x_t-1
__lowerCamelCase = self.scheduler.step(UpperCamelCase_ , timestep=UpperCamelCase_ , sample=UpperCamelCase_ , generator=UpperCamelCase_ ).prev_sample
# call the callback, if provided
if callback is not None and i % callback_steps == 0:
callback(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = self.vqvae.config.vq_embed_dim
__lowerCamelCase = (batch_size, self.transformer.height, self.transformer.width, embedding_channels)
__lowerCamelCase = self.vqvae.quantize.get_codebook_entry(UpperCamelCase_ , shape=UpperCamelCase_ )
__lowerCamelCase = self.vqvae.decode(UpperCamelCase_ , force_not_quantize=UpperCamelCase_ ).sample
__lowerCamelCase = (image / 2 + 0.5).clamp(0 , 1 )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 ).numpy()
if output_type == "pil":
__lowerCamelCase = self.numpy_to_pil(UpperCamelCase_ )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: torch.FloatTensor , UpperCamelCase_: float ):
__lowerCamelCase, __lowerCamelCase = torch.sort(UpperCamelCase_ , 1 , descending=UpperCamelCase_ )
__lowerCamelCase = torch.exp(UpperCamelCase_ )
__lowerCamelCase = sorted_p_x_0.cumsum(dim=1 ) < truncation_rate
# Ensure that at least the largest probability is not zeroed out
__lowerCamelCase = torch.full_like(keep_mask[:, 0:1, :] , UpperCamelCase_ )
__lowerCamelCase = torch.cat((all_true, keep_mask) , dim=1 )
__lowerCamelCase = keep_mask[:, :-1, :]
__lowerCamelCase = keep_mask.gather(1 , indices.argsort(1 ) )
__lowerCamelCase = log_p_x_0.clone()
__lowerCamelCase = -torch.inf # -inf = log(0)
return rv
| 12 | 1 |
from dataclasses import dataclass, field
from typing import Optional
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot/codeparrot' , metadata={'help': 'Model name or path of model to be trained.'})
UpperCAmelCase__ : Optional[str] = field(
default='./' , metadata={'help': 'Save dir where model repo is cloned and models updates are saved to.'})
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot/codeparrot-clean-train' , metadata={'help': 'Name or path of training dataset.'})
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot/codeparrot-clean-valid' , metadata={'help': 'Name or path of validation dataset.'})
UpperCAmelCase__ : Optional[int] = field(default=2 , metadata={'help': 'Batch size for training.'})
UpperCAmelCase__ : Optional[int] = field(default=2 , metadata={'help': 'Batch size for evaluation.'})
UpperCAmelCase__ : Optional[float] = field(default=0.1 , metadata={'help': 'Value of weight decay.'})
UpperCAmelCase__ : Optional[int] = field(
default=1_0000 , metadata={'help': 'Size of buffer used to shuffle streaming dataset.'})
UpperCAmelCase__ : Optional[float] = field(default=2E-4 , metadata={'help': 'Learning rate fo training.'})
UpperCAmelCase__ : Optional[str] = field(default='cosine' , metadata={'help': 'Learning rate.'})
UpperCAmelCase__ : Optional[int] = field(
default=750 , metadata={'help': 'Number of warmup steps in the learning rate schedule.'})
UpperCAmelCase__ : Optional[int] = field(
default=16 , metadata={'help': 'Number of gradient accumulation steps.'})
UpperCAmelCase__ : Optional[bool] = field(
default=__lowerCamelCase , metadata={'help': 'Use gradient checkpointing to reduce memory footprint.'})
UpperCAmelCase__ : Optional[int] = field(default=5_0000 , metadata={'help': 'Maximum number of training steps.'})
UpperCAmelCase__ : Optional[int] = field(
default=-1 , metadata={'help': 'Maximum number of evaluation steps. If -1 the full dataset is evaluated.'})
UpperCAmelCase__ : Optional[int] = field(default=1024 , metadata={'help': 'Sequence lengths used for training.'})
UpperCAmelCase__ : Optional[int] = field(default=1 , metadata={'help': 'Training seed.'})
UpperCAmelCase__ : Optional[int] = field(
default=1024 , metadata={'help': 'Interval to save checkpoints. Measured as number of forward passes not training steps.'} , )
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={'help': 'States path if the training should continue from a checkpoint folder.'})
UpperCAmelCase__ : Optional[bool] = field(default=__lowerCamelCase , metadata={'help': 'If True the data is pretokenized.'})
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot/codeparrot' , metadata={'help': 'Model name or path of model to be evaluated.'})
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot/codeparrot-clean-valid' , metadata={'help': 'Name or path of validation dataset.'})
UpperCAmelCase__ : Optional[int] = field(default=2 , metadata={'help': 'Batch size used for evaluation.'})
UpperCAmelCase__ : Optional[int] = field(
default=-1 , metadata={'help': 'Maximum number of evaluation steps. If -1 the full dataset is evaluated.'})
UpperCAmelCase__ : Optional[int] = field(default=1024 , metadata={'help': 'Length of sequences to be evaluated.'})
UpperCAmelCase__ : Optional[int] = field(default=1 , metadata={'help': 'Random seed used for evaluation.'})
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot/codeparrot' , metadata={'help': 'Model name or path of model to be evaluated.'})
UpperCAmelCase__ : Optional[int] = field(default=__lowerCamelCase , metadata={'help': 'Number of workers used for code evaluation.'})
UpperCAmelCase__ : Optional[int] = field(
default=__lowerCamelCase , metadata={'help': 'The number of human-eval tasks to run. If not included all tasks are evaluated.'} , )
UpperCAmelCase__ : Optional[bool] = field(
default=__lowerCamelCase , metadata={'help': 'Sample from the language model\'s output distribution.'})
UpperCAmelCase__ : Optional[float] = field(default=0.2 , metadata={'help': 'Sampling temperature used for generation.'})
UpperCAmelCase__ : Optional[int] = field(default=256 , metadata={'help': 'Maximum number of newly generated tokens.'})
UpperCAmelCase__ : Optional[int] = field(default=0 , metadata={'help': 'Top-k parameter used for generation.'})
UpperCAmelCase__ : Optional[float] = field(default=0.95 , metadata={'help': 'Top-p parameter used for nucleus sampling.'})
UpperCAmelCase__ : Optional[int] = field(default=10 , metadata={'help': 'Number of generations to run in parallel.'})
UpperCAmelCase__ : Optional[int] = field(
default=200 , metadata={'help': 'Number of completions to generate for each sample.'})
UpperCAmelCase__ : Optional[int] = field(default=1 , metadata={'help': 'Random seed used for evaluation.'})
UpperCAmelCase__ : Optional[str] = field(
default='eval_results.json' , metadata={'help': 'Random seed used for evaluation.'})
UpperCAmelCase__ : Optional[str] = field(
default='0' , metadata={'help': 'Allow `code_eval` to execute Python code on machine'})
UpperCAmelCase__ : Optional[int] = field(
default=-1 , metadata={
'help': (
'Determine which device to run the `text-generation` Pipeline on. -1 is CPU and any zero or positive'
' number corresponds to which GPU device id to run on.'
)
} , )
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : Optional[int] = field(
default=__lowerCamelCase , metadata={
'help': 'The number of CPU cores to use for parallel preprocessing. Default uses the maximum available.'
} , )
UpperCAmelCase__ : Optional[str] = field(
default='transformersbook/codeparrot' , metadata={'help': 'Folder or name of dataset to process.'})
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot-clean' , metadata={'help': 'Folder to save processed processed dataset.'})
UpperCAmelCase__ : Optional[int] = field(
default=10_0000 , metadata={'help': 'Number of files to save per JSON output file.'})
UpperCAmelCase__ : Optional[str] = field(default='content' , metadata={'help': 'Column containing text data to process.'})
UpperCAmelCase__ : Optional[float] = field(
default=1000 , metadata={'help': 'Maximum line length in file, otherwise file is filtered.'})
UpperCAmelCase__ : Optional[float] = field(
default=100 , metadata={'help': 'Maximum mean line length in file, otherwise file is filtered.'})
UpperCAmelCase__ : Optional[float] = field(
default=0.25 , metadata={'help': 'Maximum fraction of non-alphanumeric characters, otherwise file is filtered.'})
UpperCAmelCase__ : Optional[float] = field(
default=1.5 , metadata={'help': 'Minimum character token ratio for the file, otherwise file is filtered.'})
UpperCAmelCase__ : Optional[float] = field(
default=0.7 , metadata={'help': 'Probability for filtering config, test and uncommon files.'})
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot/codeparrot' , metadata={'help': 'Name or path to the tokenizer.'} , )
UpperCAmelCase__ : Optional[bool] = field(
default=__lowerCamelCase , metadata={'help': 'If True, near-duplicate samples are removed.'})
UpperCAmelCase__ : Optional[float] = field(
default=0.85 , metadata={'help': 'Jaccard threshold for near-duplicate samples.'})
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : Optional[str] = field(
default='gpt2' , metadata={'help': 'Base tokenizer to build new tokenizer from.'})
UpperCAmelCase__ : Optional[str] = field(
default='transformersbook/codeparrot-train' , metadata={'help': 'Dataset to train tokenizer on.'})
UpperCAmelCase__ : Optional[str] = field(default='content' , metadata={'help': 'Column containing text data to process.'})
UpperCAmelCase__ : Optional[int] = field(default=20_0000 , metadata={'help': 'Number of examples to train tokenizer on.'})
UpperCAmelCase__ : Optional[int] = field(
default=3_2768 , metadata={'help': 'Number of examples to train the tokenizer on.'})
UpperCAmelCase__ : Optional[str] = field(default='codeparrot' , metadata={'help': 'Name of new tokenizer.'})
UpperCAmelCase__ : Optional[bool] = field(default=__lowerCamelCase , metadata={'help': 'Push saved tokenizer to the hub.'})
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot/codeparrot' , metadata={'help': 'Name or path to the tokenizer.'})
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot/codeparrot-clean-train' , metadata={'help': 'Name or path to the dataset to pretokenize.'})
UpperCAmelCase__ : Optional[str] = field(
default='tokenized-codeparrot-train' , metadata={'help': 'Repo name of the pretokenized data.'})
UpperCAmelCase__ : Optional[int] = field(default=__lowerCamelCase , metadata={'help': 'Number of workers used for code evaluation.'})
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : Optional[str] = field(
default='gpt2-large' , metadata={'help': 'Configuration to use for model initialization.'})
UpperCAmelCase__ : Optional[str] = field(
default='codeparrot/codeparrot' , metadata={'help': 'Tokenizer attached to model.'})
UpperCAmelCase__ : Optional[str] = field(default='codeparrot' , metadata={'help': 'Name of the created model.'})
UpperCAmelCase__ : Optional[bool] = field(default=__lowerCamelCase , metadata={'help': 'Push saved tokenizer to the hub.'})
| 12 |
from transformers import DistilBertTokenizer, DistilBertTokenizerFast
from transformers.testing_utils import require_tokenizers, slow
from ..bert.test_tokenization_bert import BertTokenizationTest
@require_tokenizers
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Dict = DistilBertTokenizer
UpperCAmelCase__ : Dict = DistilBertTokenizerFast
UpperCAmelCase__ : Tuple = True
@slow
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = DistilBertTokenizer.from_pretrained("""distilbert-base-uncased""" )
__lowerCamelCase = tokenizer.encode("""sequence builders""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode("""multi-sequence build""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ , UpperCamelCase_ )
assert encoded_sentence == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id]
assert encoded_pair == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] + text_a + [
tokenizer.sep_token_id
]
| 12 | 1 |
from pathlib import Path
import fire
from tqdm import tqdm
def lowerCamelCase__ ( A__ : str="ro" , A__ : List[Any]="en" , A__ : Any="wmt16" , A__ : int=None ):
'''simple docstring'''
try:
import datasets
except (ModuleNotFoundError, ImportError):
raise ImportError("""run pip install datasets""" )
__lowerCamelCase = f'{src_lang}-{tgt_lang}'
print(f'Converting {dataset}-{pair}' )
__lowerCamelCase = datasets.load_dataset(A__ , A__ )
if save_dir is None:
__lowerCamelCase = f'{dataset}-{pair}'
__lowerCamelCase = Path(A__ )
save_dir.mkdir(exist_ok=A__ )
for split in ds.keys():
print(f'Splitting {split} with {ds[split].num_rows} records' )
# to save to val.source, val.target like summary datasets
__lowerCamelCase = """val""" if split == """validation""" else split
__lowerCamelCase = save_dir.joinpath(f'{fn}.source' )
__lowerCamelCase = save_dir.joinpath(f'{fn}.target' )
__lowerCamelCase = src_path.open("""w+""" )
__lowerCamelCase = tgt_path.open("""w+""" )
# reader is the bottleneck so writing one record at a time doesn't slow things down
for x in tqdm(ds[split] ):
__lowerCamelCase = x["""translation"""]
src_fp.write(ex[src_lang] + """\n""" )
tgt_fp.write(ex[tgt_lang] + """\n""" )
print(f'Saved {dataset} dataset to {save_dir}' )
if __name__ == "__main__":
fire.Fire(download_wmt_dataset)
| 12 |
import argparse
import json
import os
import evaluate
import torch
from datasets import load_dataset
from torch.optim import AdamW
from torch.utils.data import DataLoader
from transformers import AutoModelForSequenceClassification, AutoTokenizer, get_linear_schedule_with_warmup, set_seed
from accelerate import Accelerator, DistributedType
from accelerate.utils.deepspeed import DummyOptim, DummyScheduler
UpperCAmelCase_ = 16
UpperCAmelCase_ = 32
def lowerCamelCase__ ( A__ : Accelerator , A__ : int = 16 , A__ : str = "bert-base-cased" ):
'''simple docstring'''
__lowerCamelCase = AutoTokenizer.from_pretrained(A__ )
__lowerCamelCase = load_dataset("""glue""" , """mrpc""" )
def tokenize_function(A__ : int ):
# max_length=None => use the model max length (it's actually the default)
__lowerCamelCase = tokenizer(examples["""sentence1"""] , examples["""sentence2"""] , truncation=A__ , max_length=A__ )
return outputs
# Apply the method we just defined to all the examples in all the splits of the dataset
__lowerCamelCase = datasets.map(
A__ , batched=A__ , remove_columns=["""idx""", """sentence1""", """sentence2"""] , load_from_cache_file=A__ )
# We also rename the 'label' column to 'labels' which is the expected name for labels by the models of the
# transformers library
__lowerCamelCase = tokenized_datasets.rename_column("""label""" , """labels""" )
def collate_fn(A__ : Optional[int] ):
# On TPU it's best to pad everything to the same length or training will be very slow.
if accelerator.distributed_type == DistributedType.TPU:
return tokenizer.pad(A__ , padding="""max_length""" , max_length=128 , return_tensors="""pt""" )
return tokenizer.pad(A__ , padding="""longest""" , return_tensors="""pt""" )
# Instantiate dataloaders.
__lowerCamelCase = DataLoader(
tokenized_datasets["""train"""] , shuffle=A__ , collate_fn=A__ , batch_size=A__ )
__lowerCamelCase = DataLoader(
tokenized_datasets["""validation"""] , shuffle=A__ , collate_fn=A__ , batch_size=A__ )
return train_dataloader, eval_dataloader
def lowerCamelCase__ ( A__ : Tuple , A__ : Union[str, Any] , A__ : Tuple , A__ : Optional[Any] ):
'''simple docstring'''
model.eval()
__lowerCamelCase = 0
for step, batch in enumerate(A__ ):
# We could avoid this line since we set the accelerator with `device_placement=True`.
batch.to(accelerator.device )
with torch.no_grad():
__lowerCamelCase = model(**A__ )
__lowerCamelCase = outputs.logits.argmax(dim=-1 )
# It is slightly faster to call this once, than multiple times
__lowerCamelCase, __lowerCamelCase = accelerator.gather(
(predictions, batch["""labels"""]) ) # If we are in a multiprocess environment, the last batch has duplicates
if accelerator.use_distributed:
if step == len(A__ ) - 1:
__lowerCamelCase = predictions[: len(eval_dataloader.dataset ) - samples_seen]
__lowerCamelCase = references[: len(eval_dataloader.dataset ) - samples_seen]
else:
samples_seen += references.shape[0]
metric.add_batch(
predictions=A__ , references=A__ , )
__lowerCamelCase = metric.compute()
return eval_metric["accuracy"]
def lowerCamelCase__ ( A__ : Optional[Any] , A__ : Optional[int] ):
'''simple docstring'''
__lowerCamelCase = Accelerator()
# Sample hyper-parameters for learning rate, batch size, seed and a few other HPs
__lowerCamelCase = config["""lr"""]
__lowerCamelCase = int(config["""num_epochs"""] )
__lowerCamelCase = int(config["""seed"""] )
__lowerCamelCase = int(config["""batch_size"""] )
__lowerCamelCase = args.model_name_or_path
set_seed(A__ )
__lowerCamelCase, __lowerCamelCase = get_dataloaders(A__ , A__ , A__ )
# Instantiate the model (we build the model here so that the seed also control new weights initialization)
__lowerCamelCase = AutoModelForSequenceClassification.from_pretrained(A__ , return_dict=A__ )
# Instantiate optimizer
__lowerCamelCase = (
AdamW
if accelerator.state.deepspeed_plugin is None
or """optimizer""" not in accelerator.state.deepspeed_plugin.deepspeed_config
else DummyOptim
)
__lowerCamelCase = optimizer_cls(params=model.parameters() , lr=A__ )
if accelerator.state.deepspeed_plugin is not None:
__lowerCamelCase = accelerator.state.deepspeed_plugin.deepspeed_config[
"""gradient_accumulation_steps"""
]
else:
__lowerCamelCase = 1
__lowerCamelCase = (len(A__ ) * num_epochs) // gradient_accumulation_steps
# Instantiate scheduler
if (
accelerator.state.deepspeed_plugin is None
or "scheduler" not in accelerator.state.deepspeed_plugin.deepspeed_config
):
__lowerCamelCase = get_linear_schedule_with_warmup(
optimizer=A__ , num_warmup_steps=0 , num_training_steps=A__ , )
else:
__lowerCamelCase = DummyScheduler(A__ , total_num_steps=A__ , warmup_num_steps=0 )
# Prepare everything
# There is no specific order to remember, we just need to unpack the objects in the same order we gave them to the
# prepare method.
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = accelerator.prepare(
A__ , A__ , A__ , A__ , A__ )
# We need to keep track of how many total steps we have iterated over
__lowerCamelCase = 0
# We also need to keep track of the stating epoch so files are named properly
__lowerCamelCase = 0
__lowerCamelCase = evaluate.load("""glue""" , """mrpc""" )
__lowerCamelCase = num_epochs
if args.partial_train_epoch is not None:
__lowerCamelCase = args.partial_train_epoch
if args.resume_from_checkpoint:
accelerator.load_state(args.resume_from_checkpoint )
__lowerCamelCase = args.resume_from_checkpoint.split("""epoch_""" )[1]
__lowerCamelCase = """"""
for char in epoch_string:
if char.isdigit():
state_epoch_num += char
else:
break
__lowerCamelCase = int(A__ ) + 1
__lowerCamelCase = evaluation_loop(A__ , A__ , A__ , A__ )
accelerator.print("""resumed checkpoint performance:""" , A__ )
accelerator.print("""resumed checkpoint's scheduler's lr:""" , lr_scheduler.get_lr()[0] )
accelerator.print("""resumed optimizers's lr:""" , optimizer.param_groups[0]["""lr"""] )
with open(os.path.join(args.output_dir , f'state_{starting_epoch-1}.json' ) , """r""" ) as f:
__lowerCamelCase = json.load(A__ )
assert resumed_state["accuracy"] == accuracy, "Accuracy mismatch, loading from checkpoint failed"
assert (
resumed_state["lr"] == lr_scheduler.get_lr()[0]
), "Scheduler learning rate mismatch, loading from checkpoint failed"
assert (
resumed_state["optimizer_lr"] == optimizer.param_groups[0]["lr"]
), "Optimizer learning rate mismatch, loading from checkpoint failed"
assert resumed_state["epoch"] == starting_epoch - 1, "Epoch mismatch, loading from checkpoint failed"
return
# Now we train the model
__lowerCamelCase = {}
for epoch in range(A__ , A__ ):
model.train()
for step, batch in enumerate(A__ ):
__lowerCamelCase = model(**A__ )
__lowerCamelCase = outputs.loss
__lowerCamelCase = loss / gradient_accumulation_steps
accelerator.backward(A__ )
if step % gradient_accumulation_steps == 0:
optimizer.step()
lr_scheduler.step()
optimizer.zero_grad()
overall_step += 1
__lowerCamelCase = f'epoch_{epoch}'
__lowerCamelCase = os.path.join(args.output_dir , A__ )
accelerator.save_state(A__ )
__lowerCamelCase = evaluation_loop(A__ , A__ , A__ , A__ )
__lowerCamelCase = accuracy
__lowerCamelCase = lr_scheduler.get_lr()[0]
__lowerCamelCase = optimizer.param_groups[0]["""lr"""]
__lowerCamelCase = epoch
__lowerCamelCase = overall_step
accelerator.print(f'epoch {epoch}:' , A__ )
accelerator.wait_for_everyone()
if accelerator.is_main_process:
with open(os.path.join(args.output_dir , f'state_{epoch}.json' ) , """w""" ) as f:
json.dump(A__ , A__ )
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = argparse.ArgumentParser(description="""Simple example of training script tracking peak GPU memory usage.""" )
parser.add_argument(
"""--model_name_or_path""" , type=A__ , default="""bert-base-cased""" , help="""Path to pretrained model or model identifier from huggingface.co/models.""" , required=A__ , )
parser.add_argument(
"""--output_dir""" , type=A__ , default=""".""" , help="""Optional save directory where all checkpoint folders will be stored. Default is the current working directory.""" , )
parser.add_argument(
"""--resume_from_checkpoint""" , type=A__ , default=A__ , help="""If the training should continue from a checkpoint folder.""" , )
parser.add_argument(
"""--partial_train_epoch""" , type=A__ , default=A__ , help="""If passed, the training will stop after this number of epochs.""" , )
parser.add_argument(
"""--num_epochs""" , type=A__ , default=2 , help="""Number of train epochs.""" , )
__lowerCamelCase = parser.parse_args()
__lowerCamelCase = {"""lr""": 2E-5, """num_epochs""": args.num_epochs, """seed""": 42, """batch_size""": 16}
training_function(A__ , A__ )
if __name__ == "__main__":
main()
| 12 | 1 |
import unittest
import numpy as np
from transformers import MODEL_FOR_AUDIO_CLASSIFICATION_MAPPING, TF_MODEL_FOR_AUDIO_CLASSIFICATION_MAPPING
from transformers.pipelines import AudioClassificationPipeline, pipeline
from transformers.testing_utils import (
is_pipeline_test,
nested_simplify,
require_tf,
require_torch,
require_torchaudio,
slow,
)
from .test_pipelines_common import ANY
@is_pipeline_test
class lowerCamelCase__( unittest.TestCase):
UpperCAmelCase__ : str = MODEL_FOR_AUDIO_CLASSIFICATION_MAPPING
UpperCAmelCase__ : int = TF_MODEL_FOR_AUDIO_CLASSIFICATION_MAPPING
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: Tuple , UpperCamelCase_: List[Any] , UpperCamelCase_: List[str] ):
__lowerCamelCase = AudioClassificationPipeline(model=UpperCamelCase_ , feature_extractor=UpperCamelCase_ )
# test with a raw waveform
__lowerCamelCase = np.zeros((3_40_00,) )
__lowerCamelCase = np.zeros((1_40_00,) )
return audio_classifier, [audioa, audio]
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Any , UpperCamelCase_: Any ):
__lowerCamelCase, __lowerCamelCase = examples
__lowerCamelCase = audio_classifier(UpperCamelCase_ )
# by default a model is initialized with num_labels=2
self.assertEqual(
UpperCamelCase_ , [
{"""score""": ANY(UpperCamelCase_ ), """label""": ANY(UpperCamelCase_ )},
{"""score""": ANY(UpperCamelCase_ ), """label""": ANY(UpperCamelCase_ )},
] , )
__lowerCamelCase = audio_classifier(UpperCamelCase_ , top_k=1 )
self.assertEqual(
UpperCamelCase_ , [
{"""score""": ANY(UpperCamelCase_ ), """label""": ANY(UpperCamelCase_ )},
] , )
self.run_torchaudio(UpperCamelCase_ )
@require_torchaudio
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: Union[str, Any] ):
import datasets
# test with a local file
__lowerCamelCase = datasets.load_dataset("""hf-internal-testing/librispeech_asr_dummy""" , """clean""" , split="""validation""" )
__lowerCamelCase = dataset[0]["""audio"""]["""array"""]
__lowerCamelCase = audio_classifier(UpperCamelCase_ )
self.assertEqual(
UpperCamelCase_ , [
{"""score""": ANY(UpperCamelCase_ ), """label""": ANY(UpperCamelCase_ )},
{"""score""": ANY(UpperCamelCase_ ), """label""": ANY(UpperCamelCase_ )},
] , )
@require_torch
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = """anton-l/wav2vec2-random-tiny-classifier"""
__lowerCamelCase = pipeline("""audio-classification""" , model=UpperCamelCase_ )
__lowerCamelCase = np.ones((80_00,) )
__lowerCamelCase = audio_classifier(UpperCamelCase_ , top_k=4 )
__lowerCamelCase = [
{"""score""": 0.0842, """label""": """no"""},
{"""score""": 0.0838, """label""": """up"""},
{"""score""": 0.0837, """label""": """go"""},
{"""score""": 0.0834, """label""": """right"""},
]
__lowerCamelCase = [
{"""score""": 0.0845, """label""": """stop"""},
{"""score""": 0.0844, """label""": """on"""},
{"""score""": 0.0841, """label""": """right"""},
{"""score""": 0.0834, """label""": """left"""},
]
self.assertIn(nested_simplify(UpperCamelCase_ , decimals=4 ) , [EXPECTED_OUTPUT, EXPECTED_OUTPUT_PT_2] )
__lowerCamelCase = {"""array""": np.ones((80_00,) ), """sampling_rate""": audio_classifier.feature_extractor.sampling_rate}
__lowerCamelCase = audio_classifier(UpperCamelCase_ , top_k=4 )
self.assertIn(nested_simplify(UpperCamelCase_ , decimals=4 ) , [EXPECTED_OUTPUT, EXPECTED_OUTPUT_PT_2] )
@require_torch
@slow
def lowerCAmelCase__ ( self: List[Any] ):
import datasets
__lowerCamelCase = """superb/wav2vec2-base-superb-ks"""
__lowerCamelCase = pipeline("""audio-classification""" , model=UpperCamelCase_ )
__lowerCamelCase = datasets.load_dataset("""anton-l/superb_dummy""" , """ks""" , split="""test""" )
__lowerCamelCase = np.array(dataset[3]["""speech"""] , dtype=np.floataa )
__lowerCamelCase = audio_classifier(UpperCamelCase_ , top_k=4 )
self.assertEqual(
nested_simplify(UpperCamelCase_ , decimals=3 ) , [
{"""score""": 0.981, """label""": """go"""},
{"""score""": 0.007, """label""": """up"""},
{"""score""": 0.006, """label""": """_unknown_"""},
{"""score""": 0.001, """label""": """down"""},
] , )
@require_tf
@unittest.skip("""Audio classification is not implemented for TF""" )
def lowerCAmelCase__ ( self: Union[str, Any] ):
pass
| 12 |
import json
import sys
import tempfile
import unittest
from pathlib import Path
import transformers
from transformers import (
CONFIG_MAPPING,
FEATURE_EXTRACTOR_MAPPING,
AutoConfig,
AutoFeatureExtractor,
WavaVecaConfig,
WavaVecaFeatureExtractor,
)
from transformers.testing_utils import DUMMY_UNKNOWN_IDENTIFIER, get_tests_dir
sys.path.append(str(Path(__file__).parent.parent.parent.parent / 'utils'))
from test_module.custom_configuration import CustomConfig # noqa E402
from test_module.custom_feature_extraction import CustomFeatureExtractor # noqa E402
UpperCAmelCase_ = get_tests_dir('fixtures')
UpperCAmelCase_ = get_tests_dir('fixtures/dummy_feature_extractor_config.json')
UpperCAmelCase_ = get_tests_dir('fixtures/dummy-config.json')
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = 0
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""facebook/wav2vec2-base-960h""" )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
with tempfile.TemporaryDirectory() as tmpdirname:
__lowerCamelCase = WavaVecaConfig()
# remove feature_extractor_type to make sure config.json alone is enough to load feature processor locally
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ ).to_dict()
config_dict.pop("""feature_extractor_type""" )
__lowerCamelCase = WavaVecaFeatureExtractor(**UpperCamelCase_ )
# save in new folder
model_config.save_pretrained(UpperCamelCase_ )
config.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
# make sure private variable is not incorrectly saved
__lowerCamelCase = json.loads(config.to_json_string() )
self.assertTrue("""_processor_class""" not in dict_as_saved )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
with self.assertRaisesRegex(
UpperCamelCase_ , """bert-base is not a local folder and is not a valid model identifier""" ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""bert-base""" )
def lowerCAmelCase__ ( self: Tuple ):
with self.assertRaisesRegex(
UpperCamelCase_ , r"""aaaaaa is not a valid git identifier \(branch name, tag name or commit id\)""" ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ , revision="""aaaaaa""" )
def lowerCAmelCase__ ( self: Optional[Any] ):
with self.assertRaisesRegex(
UpperCamelCase_ , """hf-internal-testing/config-no-model does not appear to have a file named preprocessor_config.json.""" , ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""hf-internal-testing/config-no-model""" )
def lowerCAmelCase__ ( self: Tuple ):
# If remote code is not set, we will time out when asking whether to load the model.
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" )
# If remote code is disabled, we can't load this config.
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
# Test feature extractor can be reloaded.
with tempfile.TemporaryDirectory() as tmp_dir:
feature_extractor.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ , trust_remote_code=UpperCamelCase_ )
self.assertEqual(reloaded_feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
def lowerCAmelCase__ ( self: Any ):
try:
AutoConfig.register("""custom""" , UpperCamelCase_ )
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# Trying to register something existing in the Transformers library will raise an error
with self.assertRaises(UpperCamelCase_ ):
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# Now that the config is registered, it can be used as any other config with the auto-API
__lowerCamelCase = CustomFeatureExtractor.from_pretrained(UpperCamelCase_ )
with tempfile.TemporaryDirectory() as tmp_dir:
feature_extractor.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in FEATURE_EXTRACTOR_MAPPING._extra_content:
del FEATURE_EXTRACTOR_MAPPING._extra_content[CustomConfig]
def lowerCAmelCase__ ( self: Dict ):
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : str = True
try:
AutoConfig.register("""custom""" , UpperCamelCase_ )
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# If remote code is not set, the default is to use local
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(feature_extractor.is_local )
# If remote code is disabled, we load the local one.
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(feature_extractor.is_local )
# If remote is enabled, we load from the Hub
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(not hasattr(UpperCamelCase_ , """is_local""" ) )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in FEATURE_EXTRACTOR_MAPPING._extra_content:
del FEATURE_EXTRACTOR_MAPPING._extra_content[CustomConfig]
| 12 | 1 |
import os
import shutil
from pathlib import Path
from typing import Optional, Union
import numpy as np
from huggingface_hub import hf_hub_download
from ..utils import ONNX_EXTERNAL_WEIGHTS_NAME, ONNX_WEIGHTS_NAME, is_onnx_available, logging
if is_onnx_available():
import onnxruntime as ort
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'tensor(bool)': np.bool_,
'tensor(int8)': np.inta,
'tensor(uint8)': np.uinta,
'tensor(int16)': np.intaa,
'tensor(uint16)': np.uintaa,
'tensor(int32)': np.intaa,
'tensor(uint32)': np.uintaa,
'tensor(int64)': np.intaa,
'tensor(uint64)': np.uintaa,
'tensor(float16)': np.floataa,
'tensor(float)': np.floataa,
'tensor(double)': np.floataa,
}
class lowerCamelCase__:
def __init__( self: str , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: str ):
logger.info("""`diffusers.OnnxRuntimeModel` is experimental and might change in the future.""" )
__lowerCamelCase = model
__lowerCamelCase = kwargs.get("""model_save_dir""" , UpperCamelCase_ )
__lowerCamelCase = kwargs.get("""latest_model_name""" , UpperCamelCase_ )
def __call__( self: Dict , **UpperCamelCase_: Any ):
__lowerCamelCase = {k: np.array(UpperCamelCase_ ) for k, v in kwargs.items()}
return self.model.run(UpperCamelCase_ , UpperCamelCase_ )
@staticmethod
def lowerCAmelCase__ ( UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Tuple=None , UpperCamelCase_: Tuple=None ):
if provider is None:
logger.info("""No onnxruntime provider specified, using CPUExecutionProvider""" )
__lowerCamelCase = """CPUExecutionProvider"""
return ort.InferenceSession(UpperCamelCase_ , providers=[provider] , sess_options=UpperCamelCase_ )
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: Optional[int] ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
__lowerCamelCase = self.model_save_dir.joinpath(self.latest_model_name )
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
# copy external weights (for models >2GB)
__lowerCamelCase = self.model_save_dir.joinpath(UpperCamelCase_ )
if src_path.exists():
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Union[str, os.PathLike] , **UpperCamelCase_: Optional[Any] , ):
if os.path.isfile(UpperCamelCase_ ):
logger.error(F'Provided path ({save_directory}) should be a directory, not a file' )
return
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
# saving model weights/files
self._save_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: str , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[Union[bool, str, None]] = None , UpperCamelCase_: Optional[Union[str, None]] = None , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional["ort.SessionOptions"] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
# load model from local directory
if os.path.isdir(UpperCamelCase_ ):
__lowerCamelCase = OnnxRuntimeModel.load_model(
os.path.join(UpperCamelCase_ , UpperCamelCase_ ) , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
__lowerCamelCase = Path(UpperCamelCase_ )
# load model from hub
else:
# download model
__lowerCamelCase = hf_hub_download(
repo_id=UpperCamelCase_ , filename=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , )
__lowerCamelCase = Path(UpperCamelCase_ ).parent
__lowerCamelCase = Path(UpperCamelCase_ ).name
__lowerCamelCase = OnnxRuntimeModel.load_model(UpperCamelCase_ , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
return cls(model=UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: Optional[int] , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = None
if len(str(UpperCamelCase_ ).split("""@""" ) ) == 2:
__lowerCamelCase, __lowerCamelCase = model_id.split("""@""" )
return cls._from_pretrained(
model_id=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , **UpperCamelCase_ , )
| 12 |
# Lint as: python3
import os
import re
import urllib.parse
from pathlib import Path
from typing import Callable, List, Optional, Union
from zipfile import ZipFile
from ..utils.file_utils import cached_path, hf_github_url
from ..utils.logging import get_logger
from ..utils.version import Version
UpperCAmelCase_ = get_logger(__name__)
class lowerCamelCase__:
UpperCAmelCase__ : List[Any] = 'dummy_data'
UpperCAmelCase__ : str = 'datasets'
UpperCAmelCase__ : Tuple = False
def __init__( self: Optional[Any] , UpperCamelCase_: str , UpperCamelCase_: str , UpperCamelCase_: Union[Version, str] , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: bool = False , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[List[Callable]] = None , ):
__lowerCamelCase = 0
__lowerCamelCase = dataset_name
__lowerCamelCase = cache_dir
__lowerCamelCase = use_local_dummy_data
__lowerCamelCase = config
# download_callbacks take a single url as input
__lowerCamelCase = download_callbacks or []
# if False, it doesn't load existing files and it returns the paths of the dummy files relative
# to the dummy_data zip file root
__lowerCamelCase = load_existing_dummy_data
# TODO(PVP, QL) might need to make this more general
__lowerCamelCase = str(UpperCamelCase_ )
# to be downloaded
__lowerCamelCase = None
__lowerCamelCase = None
@property
def lowerCAmelCase__ ( self: List[Any] ):
if self._dummy_file is None:
__lowerCamelCase = self.download_dummy_data()
return self._dummy_file
@property
def lowerCAmelCase__ ( self: str ):
if self.config is not None:
# structure is dummy / config_name / version_name
return os.path.join("""dummy""" , self.config.name , self.version_name )
# structure is dummy / version_name
return os.path.join("""dummy""" , self.version_name )
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
return os.path.join(self.dummy_data_folder , """dummy_data.zip""" )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = (
self.local_path_to_dummy_data if self.use_local_dummy_data is True else self.github_path_to_dummy_data
)
__lowerCamelCase = cached_path(
UpperCamelCase_ , cache_dir=self.cache_dir , extract_compressed_file=UpperCamelCase_ , force_extract=UpperCamelCase_ )
return os.path.join(UpperCamelCase_ , self.dummy_file_name )
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
return os.path.join(self.datasets_scripts_dir , self.dataset_name , self.dummy_zip_file )
@property
def lowerCAmelCase__ ( self: Tuple ):
if self._bucket_url is None:
__lowerCamelCase = hf_github_url(self.dataset_name , self.dummy_zip_file.replace(os.sep , """/""" ) )
return self._bucket_url
@property
def lowerCAmelCase__ ( self: str ):
# return full path if its a dir
if os.path.isdir(self.dummy_file ):
return self.dummy_file
# else cut off path to file -> example `xsum`.
return "/".join(self.dummy_file.replace(os.sep , """/""" ).split("""/""" )[:-1] )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Dict , *UpperCamelCase_: str ):
if self.load_existing_dummy_data:
# dummy data is downloaded and tested
__lowerCamelCase = self.dummy_file
else:
# dummy data cannot be downloaded and only the path to dummy file is returned
__lowerCamelCase = self.dummy_file_name
# special case when data_url is a dict
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
return self.create_dummy_data_dict(UpperCamelCase_ , UpperCamelCase_ )
elif isinstance(UpperCamelCase_ , (list, tuple) ):
return self.create_dummy_data_list(UpperCamelCase_ , UpperCamelCase_ )
else:
return self.create_dummy_data_single(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: Optional[Any] , *UpperCamelCase_: str ):
return self.download_and_extract(UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Tuple , UpperCamelCase_: str ):
return self.download_and_extract(UpperCamelCase_ )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: int , *UpperCamelCase_: List[str] , **UpperCamelCase_: str ):
return path
def lowerCAmelCase__ ( self: Dict ):
return {}
def lowerCAmelCase__ ( self: str , UpperCamelCase_: List[Any] , UpperCamelCase_: Union[str, Any] ):
__lowerCamelCase = {}
for key, single_urls in data_url.items():
for download_callback in self.download_callbacks:
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
for single_url in single_urls:
download_callback(UpperCamelCase_ )
else:
__lowerCamelCase = single_urls
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = [os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(Path(UpperCamelCase_ ).name ) ) for x in single_urls]
else:
__lowerCamelCase = single_urls
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(Path(UpperCamelCase_ ).name ) )
__lowerCamelCase = value
# make sure that values are unique
if all(isinstance(UpperCamelCase_ , UpperCamelCase_ ) for i in dummy_data_dict.values() ) and len(set(dummy_data_dict.values() ) ) < len(
dummy_data_dict.values() ):
# append key to value to make its name unique
__lowerCamelCase = {key: value + key for key, value in dummy_data_dict.items()}
return dummy_data_dict
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Optional[Any] , UpperCamelCase_: Optional[int] ):
__lowerCamelCase = []
# trick: if there are many shards named like `data.txt-000001-of-00300`, only use the first one
__lowerCamelCase = all(bool(re.findall("""[0-9]{3,}-of-[0-9]{3,}""" , UpperCamelCase_ ) ) for url in data_url )
__lowerCamelCase = all(
url.startswith("""https://ftp.ncbi.nlm.nih.gov/pubmed/baseline/pubmed""" ) for url in data_url )
if data_url and (is_tf_records or is_pubmed_records):
__lowerCamelCase = [data_url[0]] * len(UpperCamelCase_ )
for single_url in data_url:
for download_callback in self.download_callbacks:
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(single_url.split("""/""" )[-1] ) )
dummy_data_list.append(UpperCamelCase_ )
return dummy_data_list
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Optional[int] , UpperCamelCase_: Optional[Any] ):
for download_callback in self.download_callbacks:
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(data_url.split("""/""" )[-1] ) )
if os.path.exists(UpperCamelCase_ ) or not self.load_existing_dummy_data:
return value
else:
# Backward compatibility, maybe deprecate at one point.
# For many datasets with single url calls to dl_manager.download_and_extract,
# the dummy_data.zip file is actually the zipped downloaded file
# while now we expected the dummy_data.zip file to be a directory containing
# the downloaded file.
return path_to_dummy_data
def lowerCAmelCase__ ( self: Optional[Any] ):
pass
def lowerCAmelCase__ ( self: List[Any] ):
pass
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: Dict ):
def _iter_archive_members(UpperCamelCase_: Any ):
# this preserves the order of the members inside the ZIP archive
__lowerCamelCase = Path(self.dummy_file ).parent
__lowerCamelCase = path.relative_to(UpperCamelCase_ )
with ZipFile(self.local_path_to_dummy_data ) as zip_file:
__lowerCamelCase = zip_file.namelist()
for member in members:
if member.startswith(relative_path.as_posix() ):
yield dummy_parent_path.joinpath(UpperCamelCase_ )
__lowerCamelCase = Path(UpperCamelCase_ )
__lowerCamelCase = _iter_archive_members(UpperCamelCase_ ) if self.use_local_dummy_data else path.rglob("""*""" )
for file_path in file_paths:
if file_path.is_file() and not file_path.name.startswith((""".""", """__""") ):
yield file_path.relative_to(UpperCamelCase_ ).as_posix(), file_path.open("""rb""" )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Dict ):
if not isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = [paths]
for path in paths:
if os.path.isfile(UpperCamelCase_ ):
if os.path.basename(UpperCamelCase_ ).startswith((""".""", """__""") ):
return
yield path
else:
for dirpath, dirnames, filenames in os.walk(UpperCamelCase_ ):
if os.path.basename(UpperCamelCase_ ).startswith((""".""", """__""") ):
continue
dirnames.sort()
for filename in sorted(UpperCamelCase_ ):
if filename.startswith((""".""", """__""") ):
continue
yield os.path.join(UpperCamelCase_ , UpperCamelCase_ )
| 12 | 1 |
from typing import Dict, List, Optional, Union
import numpy as np
from transformers.utils import is_vision_available
from transformers.utils.generic import TensorType
from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict
from ...image_transforms import (
center_crop,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
IMAGENET_STANDARD_MEAN,
IMAGENET_STANDARD_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
is_valid_image,
to_numpy_array,
valid_images,
)
from ...utils import logging
if is_vision_available():
import PIL
UpperCAmelCase_ = logging.get_logger(__name__)
def lowerCamelCase__ ( A__ : List[Any] ):
'''simple docstring'''
if isinstance(A__ , (list, tuple) ) and isinstance(videos[0] , (list, tuple) ) and is_valid_image(videos[0][0] ):
return videos
elif isinstance(A__ , (list, tuple) ) and is_valid_image(videos[0] ):
return [videos]
elif is_valid_image(A__ ):
return [[videos]]
raise ValueError(f'Could not make batched video from {videos}' )
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Optional[Any] = ['pixel_values']
def __init__( self: Any , UpperCamelCase_: bool = True , UpperCamelCase_: Dict[str, int] = None , UpperCamelCase_: PILImageResampling = PILImageResampling.BILINEAR , UpperCamelCase_: bool = True , UpperCamelCase_: Dict[str, int] = None , UpperCamelCase_: bool = True , UpperCamelCase_: Union[int, float] = 1 / 2_55 , UpperCamelCase_: bool = True , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[Union[float, List[float]]] = None , UpperCamelCase_: Optional[Union[float, List[float]]] = None , **UpperCamelCase_: Dict , ):
super().__init__(**UpperCamelCase_ )
__lowerCamelCase = size if size is not None else {"""shortest_edge""": 2_56}
__lowerCamelCase = get_size_dict(UpperCamelCase_ , default_to_square=UpperCamelCase_ )
__lowerCamelCase = crop_size if crop_size is not None else {"""height""": 2_24, """width""": 2_24}
__lowerCamelCase = get_size_dict(UpperCamelCase_ , param_name="""crop_size""" )
__lowerCamelCase = do_resize
__lowerCamelCase = size
__lowerCamelCase = do_center_crop
__lowerCamelCase = crop_size
__lowerCamelCase = resample
__lowerCamelCase = do_rescale
__lowerCamelCase = rescale_factor
__lowerCamelCase = offset
__lowerCamelCase = do_normalize
__lowerCamelCase = image_mean if image_mean is not None else IMAGENET_STANDARD_MEAN
__lowerCamelCase = image_std if image_std is not None else IMAGENET_STANDARD_STD
def lowerCAmelCase__ ( self: Optional[int] , UpperCamelCase_: np.ndarray , UpperCamelCase_: Dict[str, int] , UpperCamelCase_: PILImageResampling = PILImageResampling.BILINEAR , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None , **UpperCamelCase_: str , ):
__lowerCamelCase = get_size_dict(UpperCamelCase_ , default_to_square=UpperCamelCase_ )
if "shortest_edge" in size:
__lowerCamelCase = get_resize_output_image_size(UpperCamelCase_ , size["""shortest_edge"""] , default_to_square=UpperCamelCase_ )
elif "height" in size and "width" in size:
__lowerCamelCase = (size["""height"""], size["""width"""])
else:
raise ValueError(F'Size must have \'height\' and \'width\' or \'shortest_edge\' as keys. Got {size.keys()}' )
return resize(UpperCamelCase_ , size=UpperCamelCase_ , resample=UpperCamelCase_ , data_format=UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: np.ndarray , UpperCamelCase_: Dict[str, int] , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None , **UpperCamelCase_: List[Any] , ):
__lowerCamelCase = get_size_dict(UpperCamelCase_ )
if "height" not in size or "width" not in size:
raise ValueError(F'Size must have \'height\' and \'width\' as keys. Got {size.keys()}' )
return center_crop(UpperCamelCase_ , size=(size["""height"""], size["""width"""]) , data_format=UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: np.ndarray , UpperCamelCase_: Union[int, float] , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None , **UpperCamelCase_: Union[str, Any] , ):
__lowerCamelCase = image.astype(np.floataa )
if offset:
__lowerCamelCase = image - (scale / 2)
return rescale(UpperCamelCase_ , scale=UpperCamelCase_ , data_format=UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: np.ndarray , UpperCamelCase_: Union[float, List[float]] , UpperCamelCase_: Union[float, List[float]] , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None , **UpperCamelCase_: Optional[int] , ):
return normalize(UpperCamelCase_ , mean=UpperCamelCase_ , std=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_: Dict[str, int] = None , UpperCamelCase_: bool = None , UpperCamelCase_: float = None , UpperCamelCase_: bool = None , UpperCamelCase_: bool = None , UpperCamelCase_: Optional[Union[float, List[float]]] = None , UpperCamelCase_: Optional[Union[float, List[float]]] = None , UpperCamelCase_: Optional[ChannelDimension] = ChannelDimension.FIRST , ):
if do_resize and size is None or resample is None:
raise ValueError("""Size and resample must be specified if do_resize is True.""" )
if do_center_crop and crop_size is None:
raise ValueError("""Crop size must be specified if do_center_crop is True.""" )
if do_rescale and rescale_factor is None:
raise ValueError("""Rescale factor must be specified if do_rescale is True.""" )
if do_normalize and (image_mean is None or image_std is None):
raise ValueError("""Image mean and std must be specified if do_normalize is True.""" )
if offset and not do_rescale:
raise ValueError("""For offset, do_rescale must also be set to True.""" )
# All transformations expect numpy arrays.
__lowerCamelCase = to_numpy_array(UpperCamelCase_ )
if do_resize:
__lowerCamelCase = self.resize(image=UpperCamelCase_ , size=UpperCamelCase_ , resample=UpperCamelCase_ )
if do_center_crop:
__lowerCamelCase = self.center_crop(UpperCamelCase_ , size=UpperCamelCase_ )
if do_rescale:
__lowerCamelCase = self.rescale(image=UpperCamelCase_ , scale=UpperCamelCase_ , offset=UpperCamelCase_ )
if do_normalize:
__lowerCamelCase = self.normalize(image=UpperCamelCase_ , mean=UpperCamelCase_ , std=UpperCamelCase_ )
__lowerCamelCase = to_channel_dimension_format(UpperCamelCase_ , UpperCamelCase_ )
return image
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: ImageInput , UpperCamelCase_: bool = None , UpperCamelCase_: Dict[str, int] = None , UpperCamelCase_: PILImageResampling = None , UpperCamelCase_: bool = None , UpperCamelCase_: Dict[str, int] = None , UpperCamelCase_: bool = None , UpperCamelCase_: float = None , UpperCamelCase_: bool = 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_: str , ):
__lowerCamelCase = do_resize if do_resize is not None else self.do_resize
__lowerCamelCase = resample if resample is not None else self.resample
__lowerCamelCase = do_center_crop if do_center_crop is not None else self.do_center_crop
__lowerCamelCase = do_rescale if do_rescale is not None else self.do_rescale
__lowerCamelCase = rescale_factor if rescale_factor is not None else self.rescale_factor
__lowerCamelCase = offset if offset is not None else self.offset
__lowerCamelCase = do_normalize if do_normalize is not None else self.do_normalize
__lowerCamelCase = image_mean if image_mean is not None else self.image_mean
__lowerCamelCase = image_std if image_std is not None else self.image_std
__lowerCamelCase = size if size is not None else self.size
__lowerCamelCase = get_size_dict(UpperCamelCase_ , default_to_square=UpperCamelCase_ )
__lowerCamelCase = crop_size if crop_size is not None else self.crop_size
__lowerCamelCase = get_size_dict(UpperCamelCase_ , param_name="""crop_size""" )
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.""" )
__lowerCamelCase = make_batched(UpperCamelCase_ )
__lowerCamelCase = [
[
self._preprocess_image(
image=UpperCamelCase_ , do_resize=UpperCamelCase_ , size=UpperCamelCase_ , resample=UpperCamelCase_ , do_center_crop=UpperCamelCase_ , crop_size=UpperCamelCase_ , do_rescale=UpperCamelCase_ , rescale_factor=UpperCamelCase_ , offset=UpperCamelCase_ , do_normalize=UpperCamelCase_ , image_mean=UpperCamelCase_ , image_std=UpperCamelCase_ , data_format=UpperCamelCase_ , )
for img in video
]
for video in videos
]
__lowerCamelCase = {"""pixel_values""": videos}
return BatchFeature(data=UpperCamelCase_ , tensor_type=UpperCamelCase_ )
| 12 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : list[int] , A__ : list[int] , A__ : list[int] , A__ : list[list[str]] , A__ : int , ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
# If row is equal to the size of the board it means there are a queen in each row in
# the current board (possible_board)
if row == n:
# We convert the variable possible_board that looks like this: [1, 3, 0, 2] to
# this: ['. Q . . ', '. . . Q ', 'Q . . . ', '. . Q . ']
boards.append([""". """ * i + """Q """ + """. """ * (n - 1 - i) for i in possible_board] )
return
# We iterate each column in the row to find all possible results in each row
for col in range(A__ ):
# We apply that we learned previously. First we check that in the current board
# (possible_board) there are not other same value because if there is it means
# that there are a collision in vertical. Then we apply the two formulas we
# learned before:
#
# 45º: y - x = b or 45: row - col = b
# 135º: y + x = b or row + col = b.
#
# And we verify if the results of this two formulas not exist in their variables
# respectively. (diagonal_right_collisions, diagonal_left_collisions)
#
# If any or these are True it means there is a collision so we continue to the
# next value in the for loop.
if (
col in possible_board
or row - col in diagonal_right_collisions
or row + col in diagonal_left_collisions
):
continue
# If it is False we call dfs function again and we update the inputs
depth_first_search(
[*possible_board, col] , [*diagonal_right_collisions, row - col] , [*diagonal_left_collisions, row + col] , A__ , A__ , )
def lowerCamelCase__ ( A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
depth_first_search([] , [] , [] , A__ , A__ )
# Print all the boards
for board in boards:
for column in board:
print(A__ )
print("""""" )
print(len(A__ ) , """solutions were found.""" )
if __name__ == "__main__":
import doctest
doctest.testmod()
n_queens_solution(4)
| 12 | 1 |
import logging
from dataclasses import dataclass, field
from pathlib import Path
from typing import Optional, Union
from .generation.configuration_utils import GenerationConfig
from .training_args import TrainingArguments
from .utils import add_start_docstrings
UpperCAmelCase_ = logging.getLogger(__name__)
@dataclass
@add_start_docstrings(TrainingArguments.__doc__)
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : bool = field(default=__lowerCamelCase , metadata={'help': 'Whether to use SortishSampler or not.'})
UpperCAmelCase__ : bool = field(
default=__lowerCamelCase , metadata={'help': 'Whether to use generate to calculate generative metrics (ROUGE, BLEU).'})
UpperCAmelCase__ : Optional[int] = field(
default=__lowerCamelCase , metadata={
'help': (
'The `max_length` to use on each evaluation loop when `predict_with_generate=True`. Will default '
'to the `max_length` value of the model configuration.'
)
} , )
UpperCAmelCase__ : Optional[int] = field(
default=__lowerCamelCase , metadata={
'help': (
'The `num_beams` to use on each evaluation loop when `predict_with_generate=True`. Will default '
'to the `num_beams` value of the model configuration.'
)
} , )
UpperCAmelCase__ : Optional[Union[str, Path, GenerationConfig]] = field(
default=__lowerCamelCase , metadata={
'help': 'Model id, file path or url pointing to a GenerationConfig json file, to use during prediction.'
} , )
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = super().to_dict()
for k, v in d.items():
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = v.to_dict()
return d
| 12 |
from __future__ import annotations
from collections import namedtuple
from dataclasses import dataclass
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : int
UpperCAmelCase__ : TreeNode | None = None
UpperCAmelCase__ : TreeNode | None = None
UpperCAmelCase_ = namedtuple('CoinsDistribResult', 'moves excess')
def lowerCamelCase__ ( A__ : TreeNode | None ):
'''simple docstring'''
if root is None:
return 0
# Validation
def count_nodes(A__ : TreeNode | None ) -> int:
if node is None:
return 0
return count_nodes(node.left ) + count_nodes(node.right ) + 1
def count_coins(A__ : TreeNode | None ) -> int:
if node is None:
return 0
return count_coins(node.left ) + count_coins(node.right ) + node.data
if count_nodes(A__ ) != count_coins(A__ ):
raise ValueError("""The nodes number should be same as the number of coins""" )
# Main calculation
def get_distrib(A__ : TreeNode | None ) -> CoinsDistribResult:
if node is None:
return CoinsDistribResult(0 , 1 )
__lowerCamelCase, __lowerCamelCase = get_distrib(node.left )
__lowerCamelCase, __lowerCamelCase = get_distrib(node.right )
__lowerCamelCase = 1 - left_distrib_excess
__lowerCamelCase = 1 - right_distrib_excess
__lowerCamelCase = (
left_distrib_moves
+ right_distrib_moves
+ abs(A__ )
+ abs(A__ )
)
__lowerCamelCase = node.data - coins_to_left - coins_to_right
return CoinsDistribResult(A__ , A__ )
return get_distrib(A__ )[0]
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 | 1 |
# Lint as: python3
import itertools
import os
import re
UpperCAmelCase_ = re.compile(r'([A-Z]+)([A-Z][a-z])')
UpperCAmelCase_ = re.compile(r'([a-z\d])([A-Z])')
UpperCAmelCase_ = re.compile(r'(?<!_)_(?!_)')
UpperCAmelCase_ = re.compile(r'(_{2,})')
UpperCAmelCase_ = r'^\w+(\.\w+)*$'
UpperCAmelCase_ = r'<>:/\|?*'
def lowerCamelCase__ ( A__ : Dict ):
'''simple docstring'''
__lowerCamelCase = _uppercase_uppercase_re.sub(R"""\1_\2""" , A__ )
__lowerCamelCase = _lowercase_uppercase_re.sub(R"""\1_\2""" , A__ )
return name.lower()
def lowerCamelCase__ ( A__ : str ):
'''simple docstring'''
__lowerCamelCase = _single_underscore_re.split(A__ )
__lowerCamelCase = [_multiple_underscores_re.split(A__ ) for n in name]
return "".join(n.capitalize() for n in itertools.chain.from_iterable(A__ ) if n != """""" )
def lowerCamelCase__ ( A__ : Optional[Any] ):
'''simple docstring'''
if os.path.basename(A__ ) != name:
raise ValueError(f'Should be a dataset name, not a path: {name}' )
return camelcase_to_snakecase(A__ )
def lowerCamelCase__ ( A__ : Dict , A__ : Dict ):
'''simple docstring'''
if os.path.basename(A__ ) != name:
raise ValueError(f'Should be a dataset name, not a path: {name}' )
if not re.match(_split_re , A__ ):
raise ValueError(f'Split name should match \'{_split_re}\'\' but got \'{split}\'.' )
return f'{filename_prefix_for_name(A__ )}-{split}'
def lowerCamelCase__ ( A__ : int , A__ : Tuple , A__ : Optional[Any] , A__ : str=None ):
'''simple docstring'''
__lowerCamelCase = filename_prefix_for_split(A__ , A__ )
if filetype_suffix:
prefix += f'.{filetype_suffix}'
__lowerCamelCase = os.path.join(A__ , A__ )
return f'{filepath}*'
def lowerCamelCase__ ( A__ : List[str] , A__ : List[Any] , A__ : int , A__ : int=None , A__ : Any=None ):
'''simple docstring'''
__lowerCamelCase = filename_prefix_for_split(A__ , A__ )
__lowerCamelCase = os.path.join(A__ , A__ )
if shard_lengths:
__lowerCamelCase = len(A__ )
__lowerCamelCase = [f'{prefix}-{shard_id:05d}-of-{num_shards:05d}' for shard_id in range(A__ )]
if filetype_suffix:
__lowerCamelCase = [filename + f'.{filetype_suffix}' for filename in filenames]
return filenames
else:
__lowerCamelCase = prefix
if filetype_suffix:
filename += f'.{filetype_suffix}'
return [filename]
| 12 |
from typing import Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature
from ...image_transforms import get_image_size, pad, rescale, to_channel_dimension_format
from ...image_utils import ChannelDimension, ImageInput, make_list_of_images, to_numpy_array, valid_images
from ...utils import TensorType, logging
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Tuple = ['pixel_values']
def __init__( self: Any , UpperCamelCase_: bool = True , UpperCamelCase_: Union[int, float] = 1 / 2_55 , UpperCamelCase_: bool = True , UpperCamelCase_: int = 8 , **UpperCamelCase_: Tuple , ):
super().__init__(**UpperCamelCase_ )
__lowerCamelCase = do_rescale
__lowerCamelCase = rescale_factor
__lowerCamelCase = do_pad
__lowerCamelCase = pad_size
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: np.ndarray , UpperCamelCase_: float , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None , **UpperCamelCase_: Tuple ):
return rescale(UpperCamelCase_ , scale=UpperCamelCase_ , data_format=UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: np.ndarray , UpperCamelCase_: int , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None ):
__lowerCamelCase, __lowerCamelCase = get_image_size(UpperCamelCase_ )
__lowerCamelCase = (old_height // size + 1) * size - old_height
__lowerCamelCase = (old_width // size + 1) * size - old_width
return pad(UpperCamelCase_ , ((0, pad_height), (0, pad_width)) , mode="""symmetric""" , data_format=UpperCamelCase_ )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: ImageInput , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: Optional[float] = None , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[Union[str, TensorType]] = None , UpperCamelCase_: Union[str, ChannelDimension] = ChannelDimension.FIRST , **UpperCamelCase_: Any , ):
__lowerCamelCase = do_rescale if do_rescale is not None else self.do_rescale
__lowerCamelCase = rescale_factor if rescale_factor is not None else self.rescale_factor
__lowerCamelCase = do_pad if do_pad is not None else self.do_pad
__lowerCamelCase = pad_size if pad_size is not None else self.pad_size
__lowerCamelCase = 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_rescale and rescale_factor is None:
raise ValueError("""Rescale factor must be specified if do_rescale is True.""" )
# All transformations expect numpy arrays.
__lowerCamelCase = [to_numpy_array(UpperCamelCase_ ) for image in images]
if do_rescale:
__lowerCamelCase = [self.rescale(image=UpperCamelCase_ , scale=UpperCamelCase_ ) for image in images]
if do_pad:
__lowerCamelCase = [self.pad(UpperCamelCase_ , size=UpperCamelCase_ ) for image in images]
__lowerCamelCase = [to_channel_dimension_format(UpperCamelCase_ , UpperCamelCase_ ) for image in images]
__lowerCamelCase = {"""pixel_values""": images}
return BatchFeature(data=UpperCamelCase_ , tensor_type=UpperCamelCase_ )
| 12 | 1 |
# This code is adapted from OpenAI's release
# https://github.com/openai/human-eval/blob/master/human_eval/execution.py
import contextlib
import faulthandler
import io
import multiprocessing
import os
import platform
import signal
import tempfile
def lowerCamelCase__ ( A__ : Any , A__ : Any , A__ : Optional[Any] , A__ : Dict ):
'''simple docstring'''
__lowerCamelCase = multiprocessing.Manager()
__lowerCamelCase = manager.list()
__lowerCamelCase = multiprocessing.Process(target=A__ , args=(check_program, result, timeout) )
p.start()
p.join(timeout=timeout + 1 )
if p.is_alive():
p.kill()
if not result:
result.append("""timed out""" )
return {
"task_id": task_id,
"passed": result[0] == "passed",
"result": result[0],
"completion_id": completion_id,
}
def lowerCamelCase__ ( A__ : str , A__ : int , A__ : Optional[Any] ):
'''simple docstring'''
with create_tempdir():
# These system calls are needed when cleaning up tempdir.
import os
import shutil
__lowerCamelCase = shutil.rmtree
__lowerCamelCase = os.rmdir
__lowerCamelCase = os.chdir
# Disable functionalities that can make destructive changes to the test.
reliability_guard()
# Run program.
try:
__lowerCamelCase = {}
with swallow_io():
with time_limit(A__ ):
exec(A__ , A__ )
result.append("""passed""" )
except TimeoutException:
result.append("""timed out""" )
except BaseException as e:
result.append(f'failed: {e}' )
# Needed for cleaning up.
__lowerCamelCase = rmtree
__lowerCamelCase = rmdir
__lowerCamelCase = chdir
@contextlib.contextmanager
def lowerCamelCase__ ( A__ : Optional[int] ):
'''simple docstring'''
def signal_handler(A__ : Tuple , A__ : Optional[Any] ):
raise TimeoutException("""Timed out!""" )
signal.setitimer(signal.ITIMER_REAL , A__ )
signal.signal(signal.SIGALRM , A__ )
try:
yield
finally:
signal.setitimer(signal.ITIMER_REAL , 0 )
@contextlib.contextmanager
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = WriteOnlyStringIO()
with contextlib.redirect_stdout(A__ ):
with contextlib.redirect_stderr(A__ ):
with redirect_stdin(A__ ):
yield
@contextlib.contextmanager
def lowerCamelCase__ ( ):
'''simple docstring'''
with tempfile.TemporaryDirectory() as dirname:
with chdir(A__ ):
yield dirname
class lowerCamelCase__( __lowerCamelCase):
pass
class lowerCamelCase__( io.StringIO):
def lowerCAmelCase__ ( self: Tuple , *UpperCamelCase_: List[str] , **UpperCamelCase_: Union[str, Any] ):
raise OSError
def lowerCAmelCase__ ( self: str , *UpperCamelCase_: Tuple , **UpperCamelCase_: Tuple ):
raise OSError
def lowerCAmelCase__ ( self: Any , *UpperCamelCase_: Optional[int] , **UpperCamelCase_: List[str] ):
raise OSError
def lowerCAmelCase__ ( self: int , *UpperCamelCase_: List[str] , **UpperCamelCase_: Optional[int] ):
return False
class lowerCamelCase__( contextlib._RedirectStream): # type: ignore
UpperCAmelCase__ : Dict = 'stdin'
@contextlib.contextmanager
def lowerCamelCase__ ( A__ : List[str] ):
'''simple docstring'''
if root == ".":
yield
return
__lowerCamelCase = os.getcwd()
os.chdir(A__ )
try:
yield
except BaseException as exc:
raise exc
finally:
os.chdir(A__ )
def lowerCamelCase__ ( A__ : Optional[Any]=None ):
'''simple docstring'''
if maximum_memory_bytes is not None:
import resource
resource.setrlimit(resource.RLIMIT_AS , (maximum_memory_bytes, maximum_memory_bytes) )
resource.setrlimit(resource.RLIMIT_DATA , (maximum_memory_bytes, maximum_memory_bytes) )
if not platform.uname().system == "Darwin":
resource.setrlimit(resource.RLIMIT_STACK , (maximum_memory_bytes, maximum_memory_bytes) )
faulthandler.disable()
import builtins
__lowerCamelCase = None
__lowerCamelCase = None
import os
__lowerCamelCase = """1"""
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
import shutil
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
import subprocess
__lowerCamelCase = None # type: ignore
__lowerCamelCase = None
import sys
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
__lowerCamelCase = None
| 12 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : list[int | float] , A__ : int , A__ : int ):
'''simple docstring'''
if len(A__ ) == 0:
raise ValueError("""find_max() arg is an empty sequence""" )
if (
left >= len(A__ )
or left < -len(A__ )
or right >= len(A__ )
or right < -len(A__ )
):
raise IndexError("""list index out of range""" )
if left == right:
return nums[left]
__lowerCamelCase = (left + right) >> 1 # the middle
__lowerCamelCase = find_max(A__ , A__ , A__ ) # find max in range[left, mid]
__lowerCamelCase = find_max(A__ , mid + 1 , A__ ) # find max in range[mid + 1, right]
return left_max if left_max >= right_max else right_max
if __name__ == "__main__":
import doctest
doctest.testmod(verbose=True)
| 12 | 1 |
import re
def lowerCamelCase__ ( A__ : str ):
'''simple docstring'''
__lowerCamelCase = re.compile(R"""^(\+91[\-\s]?)?[0]?(91)?[789]\d{9}$""" )
if match := re.search(A__ , A__ ):
return match.string == phone
return False
if __name__ == "__main__":
print(indian_phone_validator('+918827897895'))
| 12 |
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 lowerCamelCase__( __lowerCamelCase):
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = SMALL_MODEL_IDENTIFIER
__lowerCamelCase = """pt"""
__lowerCamelCase = """tf"""
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Optional[Any] ):
__lowerCamelCase = AutoModel.from_pretrained(self.test_model )
model_pt.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Union[str, Any] ):
__lowerCamelCase = TFAutoModel.from_pretrained(self.test_model , from_pt=UpperCamelCase_ )
model_tf.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = """mock_framework"""
# Framework provided - return whatever the user provides
__lowerCamelCase = 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_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
# PyTorch checkpoint
with TemporaryDirectory() as local_pt_ckpt:
self._setup_pt_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Invalid local checkpoint
with TemporaryDirectory() as local_invalid_ckpt:
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# PyTorch not in environment -> use TensorFlow
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Both in environment -> use PyTorch
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ), patch(
"""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# Both not in environment -> raise error
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = 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_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
| 12 | 1 |
import argparse
import json
from collections import OrderedDict
from pathlib import Path
import requests
import torch
from huggingface_hub import hf_hub_download
from PIL import Image
from transformers import (
SegformerConfig,
SegformerForImageClassification,
SegformerForSemanticSegmentation,
SegformerImageProcessor,
)
from transformers.utils import logging
logging.set_verbosity_info()
UpperCAmelCase_ = logging.get_logger(__name__)
def lowerCamelCase__ ( A__ : Any , A__ : Union[str, Any]=False ):
'''simple docstring'''
__lowerCamelCase = OrderedDict()
for key, value in state_dict.items():
if encoder_only and not key.startswith("""head""" ):
__lowerCamelCase = """segformer.encoder.""" + key
if key.startswith("""backbone""" ):
__lowerCamelCase = key.replace("""backbone""" , """segformer.encoder""" )
if "patch_embed" in key:
# replace for example patch_embed1 by patch_embeddings.0
__lowerCamelCase = key[key.find("""patch_embed""" ) + len("""patch_embed""" )]
__lowerCamelCase = key.replace(f'patch_embed{idx}' , f'patch_embeddings.{int(A__ )-1}' )
if "norm" in key:
__lowerCamelCase = key.replace("""norm""" , """layer_norm""" )
if "segformer.encoder.layer_norm" in key:
# replace for example layer_norm1 by layer_norm.0
__lowerCamelCase = key[key.find("""segformer.encoder.layer_norm""" ) + len("""segformer.encoder.layer_norm""" )]
__lowerCamelCase = key.replace(f'layer_norm{idx}' , f'layer_norm.{int(A__ )-1}' )
if "layer_norm1" in key:
__lowerCamelCase = key.replace("""layer_norm1""" , """layer_norm_1""" )
if "layer_norm2" in key:
__lowerCamelCase = key.replace("""layer_norm2""" , """layer_norm_2""" )
if "block" in key:
# replace for example block1 by block.0
__lowerCamelCase = key[key.find("""block""" ) + len("""block""" )]
__lowerCamelCase = key.replace(f'block{idx}' , f'block.{int(A__ )-1}' )
if "attn.q" in key:
__lowerCamelCase = key.replace("""attn.q""" , """attention.self.query""" )
if "attn.proj" in key:
__lowerCamelCase = key.replace("""attn.proj""" , """attention.output.dense""" )
if "attn" in key:
__lowerCamelCase = key.replace("""attn""" , """attention.self""" )
if "fc1" in key:
__lowerCamelCase = key.replace("""fc1""" , """dense1""" )
if "fc2" in key:
__lowerCamelCase = key.replace("""fc2""" , """dense2""" )
if "linear_pred" in key:
__lowerCamelCase = key.replace("""linear_pred""" , """classifier""" )
if "linear_fuse" in key:
__lowerCamelCase = key.replace("""linear_fuse.conv""" , """linear_fuse""" )
__lowerCamelCase = key.replace("""linear_fuse.bn""" , """batch_norm""" )
if "linear_c" in key:
# replace for example linear_c4 by linear_c.3
__lowerCamelCase = key[key.find("""linear_c""" ) + len("""linear_c""" )]
__lowerCamelCase = key.replace(f'linear_c{idx}' , f'linear_c.{int(A__ )-1}' )
if key.startswith("""head""" ):
__lowerCamelCase = key.replace("""head""" , """classifier""" )
__lowerCamelCase = value
return new_state_dict
def lowerCamelCase__ ( A__ : List[Any] , A__ : int ):
'''simple docstring'''
for i in range(config.num_encoder_blocks ):
for j in range(config.depths[i] ):
# read in weights + bias of keys and values (which is a single matrix in the original implementation)
__lowerCamelCase = state_dict.pop(f'segformer.encoder.block.{i}.{j}.attention.self.kv.weight' )
__lowerCamelCase = state_dict.pop(f'segformer.encoder.block.{i}.{j}.attention.self.kv.bias' )
# next, add keys and values (in that order) to the state dict
__lowerCamelCase = kv_weight[
: config.hidden_sizes[i], :
]
__lowerCamelCase = kv_bias[: config.hidden_sizes[i]]
__lowerCamelCase = kv_weight[
config.hidden_sizes[i] :, :
]
__lowerCamelCase = kv_bias[
config.hidden_sizes[i] :
]
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = """http://images.cocodataset.org/val2017/000000039769.jpg"""
__lowerCamelCase = Image.open(requests.get(A__ , stream=A__ ).raw )
return image
@torch.no_grad()
def lowerCamelCase__ ( A__ : int , A__ : Optional[Any] , A__ : Union[str, Any] ):
'''simple docstring'''
__lowerCamelCase = SegformerConfig()
__lowerCamelCase = False
# set attributes based on model_name
__lowerCamelCase = """huggingface/label-files"""
if "segformer" in model_name:
__lowerCamelCase = model_name[len("""segformer.""" ) : len("""segformer.""" ) + 2]
if "ade" in model_name:
__lowerCamelCase = 150
__lowerCamelCase = """ade20k-id2label.json"""
__lowerCamelCase = (1, 150, 128, 128)
elif "city" in model_name:
__lowerCamelCase = 19
__lowerCamelCase = """cityscapes-id2label.json"""
__lowerCamelCase = (1, 19, 128, 128)
else:
raise ValueError(f'Model {model_name} not supported' )
elif "mit" in model_name:
__lowerCamelCase = True
__lowerCamelCase = model_name[4:6]
__lowerCamelCase = 1000
__lowerCamelCase = """imagenet-1k-id2label.json"""
__lowerCamelCase = (1, 1000)
else:
raise ValueError(f'Model {model_name} not supported' )
# set config attributes
__lowerCamelCase = json.load(open(hf_hub_download(A__ , A__ , repo_type="""dataset""" ) , """r""" ) )
__lowerCamelCase = {int(A__ ): v for k, v in idalabel.items()}
__lowerCamelCase = idalabel
__lowerCamelCase = {v: k for k, v in idalabel.items()}
if size == "b0":
pass
elif size == "b1":
__lowerCamelCase = [64, 128, 320, 512]
__lowerCamelCase = 256
elif size == "b2":
__lowerCamelCase = [64, 128, 320, 512]
__lowerCamelCase = 768
__lowerCamelCase = [3, 4, 6, 3]
elif size == "b3":
__lowerCamelCase = [64, 128, 320, 512]
__lowerCamelCase = 768
__lowerCamelCase = [3, 4, 18, 3]
elif size == "b4":
__lowerCamelCase = [64, 128, 320, 512]
__lowerCamelCase = 768
__lowerCamelCase = [3, 8, 27, 3]
elif size == "b5":
__lowerCamelCase = [64, 128, 320, 512]
__lowerCamelCase = 768
__lowerCamelCase = [3, 6, 40, 3]
else:
raise ValueError(f'Size {size} not supported' )
# load image processor (only resize + normalize)
__lowerCamelCase = SegformerImageProcessor(
image_scale=(512, 512) , keep_ratio=A__ , align=A__ , do_random_crop=A__ )
# prepare image
__lowerCamelCase = prepare_img()
__lowerCamelCase = image_processor(images=A__ , return_tensors="""pt""" ).pixel_values
logger.info(f'Converting model {model_name}...' )
# load original state dict
if encoder_only:
__lowerCamelCase = torch.load(A__ , map_location=torch.device("""cpu""" ) )
else:
__lowerCamelCase = torch.load(A__ , map_location=torch.device("""cpu""" ) )["""state_dict"""]
# rename keys
__lowerCamelCase = rename_keys(A__ , encoder_only=A__ )
if not encoder_only:
del state_dict["decode_head.conv_seg.weight"]
del state_dict["decode_head.conv_seg.bias"]
# key and value matrices need special treatment
read_in_k_v(A__ , A__ )
# create HuggingFace model and load state dict
if encoder_only:
__lowerCamelCase = False
__lowerCamelCase = SegformerForImageClassification(A__ )
else:
__lowerCamelCase = SegformerForSemanticSegmentation(A__ )
model.load_state_dict(A__ )
model.eval()
# forward pass
__lowerCamelCase = model(A__ )
__lowerCamelCase = outputs.logits
# set expected_slice based on model name
# ADE20k checkpoints
if model_name == "segformer.b0.512x512.ade.160k":
__lowerCamelCase = torch.tensor(
[
[[-4.6_310, -5.5_232, -6.2_356], [-5.1_921, -6.1_444, -6.5_996], [-5.4_424, -6.2_790, -6.7_574]],
[[-12.1_391, -13.3_122, -13.9_554], [-12.8_732, -13.9_352, -14.3_563], [-12.9_438, -13.8_226, -14.2_513]],
[[-12.5_134, -13.4_686, -14.4_915], [-12.8_669, -14.4_343, -14.7_758], [-13.2_523, -14.5_819, -15.0_694]],
] )
elif model_name == "segformer.b1.512x512.ade.160k":
__lowerCamelCase = torch.tensor(
[
[[-7.5_820, -8.7_231, -8.3_215], [-8.0_600, -10.3_529, -10.0_304], [-7.5_208, -9.4_103, -9.6_239]],
[[-12.6_918, -13.8_994, -13.7_137], [-13.3_196, -15.7_523, -15.4_789], [-12.9_343, -14.8_757, -14.9_689]],
[[-11.1_911, -11.9_421, -11.3_243], [-11.3_342, -13.6_839, -13.3_581], [-10.3_909, -12.1_832, -12.4_858]],
] )
elif model_name == "segformer.b2.512x512.ade.160k":
__lowerCamelCase = torch.tensor(
[
[[-11.8_173, -14.3_850, -16.3_128], [-14.5_648, -16.5_804, -18.6_568], [-14.7_223, -15.7_387, -18.4_218]],
[[-15.7_290, -17.9_171, -19.4_423], [-18.3_105, -19.9_448, -21.4_661], [-17.9_296, -18.6_497, -20.7_910]],
[[-15.0_783, -17.0_336, -18.2_789], [-16.8_771, -18.6_870, -20.1_612], [-16.2_454, -17.1_426, -19.5_055]],
] )
elif model_name == "segformer.b3.512x512.ade.160k":
__lowerCamelCase = torch.tensor(
[
[[-9.0_878, -10.2_081, -10.1_891], [-9.3_144, -10.7_941, -10.9_843], [-9.2_294, -10.3_855, -10.5_704]],
[[-12.2_316, -13.9_068, -13.6_102], [-12.9_161, -14.3_702, -14.3_235], [-12.5_233, -13.7_174, -13.7_932]],
[[-14.6_275, -15.2_490, -14.9_727], [-14.3_400, -15.9_687, -16.2_827], [-14.1_484, -15.4_033, -15.8_937]],
] )
elif model_name == "segformer.b4.512x512.ade.160k":
__lowerCamelCase = torch.tensor(
[
[[-12.3_144, -13.2_447, -14.0_802], [-13.3_614, -14.5_816, -15.6_117], [-13.3_340, -14.4_433, -16.2_219]],
[[-19.2_781, -20.4_128, -20.7_506], [-20.6_153, -21.6_566, -22.0_998], [-19.9_800, -21.0_430, -22.1_494]],
[[-18.8_739, -19.7_804, -21.1_834], [-20.1_233, -21.6_765, -23.2_944], [-20.0_315, -21.2_641, -23.6_944]],
] )
elif model_name == "segformer.b5.640x640.ade.160k":
__lowerCamelCase = torch.tensor(
[
[[-9.5_524, -12.0_835, -11.7_348], [-10.5_229, -13.6_446, -14.5_662], [-9.5_842, -12.8_851, -13.9_414]],
[[-15.3_432, -17.5_323, -17.0_818], [-16.3_330, -18.9_255, -19.2_101], [-15.1_340, -17.7_848, -18.3_971]],
[[-12.6_072, -14.9_486, -14.6_631], [-13.7_629, -17.0_907, -17.7_745], [-12.7_899, -16.1_695, -17.1_671]],
] )
# Cityscapes checkpoints
elif model_name == "segformer.b0.1024x1024.city.160k":
__lowerCamelCase = torch.tensor(
[
[[-11.9_295, -13.4_057, -14.8_106], [-13.3_431, -14.8_179, -15.3_781], [-14.2_836, -15.5_942, -16.1_588]],
[[-11.4_906, -12.8_067, -13.6_564], [-13.1_189, -14.0_500, -14.1_543], [-13.8_748, -14.5_136, -14.8_789]],
[[0.5_374, 0.1_067, -0.4_742], [0.1_141, -0.2_255, -0.7_099], [-0.3_000, -0.5_924, -1.3_105]],
] )
elif model_name == "segformer.b0.512x1024.city.160k":
__lowerCamelCase = torch.tensor(
[
[[-7.8_217, -9.8_767, -10.1_717], [-9.4_438, -10.9_058, -11.4_047], [-9.7_939, -12.3_495, -12.1_079]],
[[-7.1_514, -9.5_336, -10.0_860], [-9.7_776, -11.6_822, -11.8_439], [-10.1_411, -12.7_655, -12.8_972]],
[[0.3_021, 0.0_805, -0.2_310], [-0.0_328, -0.1_605, -0.2_714], [-0.1_408, -0.5_477, -0.6_976]],
] )
elif model_name == "segformer.b0.640x1280.city.160k":
__lowerCamelCase = torch.tensor(
[
[
[-1.1_3_7_2E0_1, -1.2_7_8_7E0_1, -1.3_4_7_7E0_1],
[-1.2_5_3_6E0_1, -1.4_1_9_4E0_1, -1.4_4_0_9E0_1],
[-1.3_2_1_7E0_1, -1.4_8_8_8E0_1, -1.5_3_2_7E0_1],
],
[
[-1.4_7_9_1E0_1, -1.7_1_2_2E0_1, -1.8_2_7_7E0_1],
[-1.7_1_6_3E0_1, -1.9_1_9_2E0_1, -1.9_5_3_3E0_1],
[-1.7_8_9_7E0_1, -1.9_9_9_1E0_1, -2.0_3_1_5E0_1],
],
[
[7.6_7_2_3E-0_1, 4.1_9_2_1E-0_1, -7.7_8_7_8E-0_2],
[4.7_7_7_2E-0_1, 9.5_5_5_7E-0_3, -2.8_0_8_2E-0_1],
[3.6_0_3_2E-0_1, -2.4_8_2_6E-0_1, -5.1_1_6_8E-0_1],
],
] )
elif model_name == "segformer.b0.768x768.city.160k":
__lowerCamelCase = torch.tensor(
[
[[-9.4_959, -11.3_087, -11.7_479], [-11.0_025, -12.6_540, -12.3_319], [-11.4_064, -13.0_487, -12.9_905]],
[[-9.8_905, -11.3_084, -12.0_854], [-11.1_726, -12.7_698, -12.9_583], [-11.5_985, -13.3_278, -14.1_774]],
[[0.2_213, 0.0_192, -0.2_466], [-0.1_731, -0.4_213, -0.4_874], [-0.3_126, -0.6_541, -1.1_389]],
] )
elif model_name == "segformer.b1.1024x1024.city.160k":
__lowerCamelCase = torch.tensor(
[
[[-13.5_748, -13.9_111, -12.6_500], [-14.3_500, -15.3_683, -14.2_328], [-14.7_532, -16.0_424, -15.6_087]],
[[-17.1_651, -15.8_725, -12.9_653], [-17.2_580, -17.3_718, -14.8_223], [-16.6_058, -16.8_783, -16.7_452]],
[[-3.6_456, -3.0_209, -1.4_203], [-3.0_797, -3.1_959, -2.0_000], [-1.8_757, -1.9_217, -1.6_997]],
] )
elif model_name == "segformer.b2.1024x1024.city.160k":
__lowerCamelCase = torch.tensor(
[
[[-16.0_976, -16.4_856, -17.3_962], [-16.6_234, -19.0_342, -19.7_685], [-16.0_900, -18.0_661, -19.1_180]],
[[-18.4_750, -18.8_488, -19.5_074], [-19.4_030, -22.1_570, -22.5_977], [-19.1_191, -20.8_486, -22.3_783]],
[[-4.5_178, -5.5_037, -6.5_109], [-5.0_884, -7.2_174, -8.0_334], [-4.4_156, -5.8_117, -7.2_970]],
] )
elif model_name == "segformer.b3.1024x1024.city.160k":
__lowerCamelCase = torch.tensor(
[
[[-14.2_081, -14.4_732, -14.1_977], [-14.5_867, -16.4_423, -16.6_356], [-13.4_441, -14.9_685, -16.8_696]],
[[-14.4_576, -14.7_073, -15.0_451], [-15.0_816, -17.6_237, -17.9_873], [-14.4_213, -16.0_199, -18.5_992]],
[[-4.7_349, -4.9_588, -5.0_966], [-4.3_210, -6.9_325, -7.2_591], [-3.4_312, -4.7_484, -7.1_917]],
] )
elif model_name == "segformer.b4.1024x1024.city.160k":
__lowerCamelCase = torch.tensor(
[
[[-11.7_737, -11.9_526, -11.3_273], [-13.6_692, -14.4_574, -13.8_878], [-13.8_937, -14.6_924, -15.9_345]],
[[-14.6_706, -14.5_330, -14.1_306], [-16.1_502, -16.8_180, -16.4_269], [-16.8_338, -17.8_939, -20.1_746]],
[[1.0_491, 0.8_289, 1.0_310], [1.1_044, 0.5_219, 0.8_055], [1.0_899, 0.6_926, 0.5_590]],
] )
elif model_name == "segformer.b5.1024x1024.city.160k":
__lowerCamelCase = torch.tensor(
[
[[-12.5_641, -13.4_777, -13.0_684], [-13.9_587, -15.8_983, -16.6_557], [-13.3_109, -15.7_350, -16.3_141]],
[[-14.7_074, -15.4_352, -14.5_944], [-16.6_353, -18.1_663, -18.6_120], [-15.1_702, -18.0_329, -18.1_547]],
[[-1.7_990, -2.0_951, -1.7_784], [-2.6_397, -3.8_245, -3.9_686], [-1.5_264, -2.8_126, -2.9_316]],
] )
else:
__lowerCamelCase = logits.argmax(-1 ).item()
print("""Predicted class:""" , model.config.idalabel[predicted_class_idx] )
# verify logits
if not encoder_only:
assert logits.shape == expected_shape
assert torch.allclose(logits[0, :3, :3, :3] , A__ , atol=1E-2 )
# finally, save model and image processor
logger.info(f'Saving PyTorch model and image processor to {pytorch_dump_folder_path}...' )
Path(A__ ).mkdir(exist_ok=A__ )
model.save_pretrained(A__ )
image_processor.save_pretrained(A__ )
if __name__ == "__main__":
UpperCAmelCase_ = argparse.ArgumentParser()
parser.add_argument(
'--model_name',
default='segformer.b0.512x512.ade.160k',
type=str,
help='Name of the model you\'d like to convert.',
)
parser.add_argument(
'--checkpoint_path', default=None, type=str, help='Path to the original PyTorch checkpoint (.pth file).'
)
parser.add_argument(
'--pytorch_dump_folder_path', default=None, type=str, help='Path to the folder to output PyTorch model.'
)
UpperCAmelCase_ = parser.parse_args()
convert_segformer_checkpoint(args.model_name, args.checkpoint_path, args.pytorch_dump_folder_path)
| 12 |
from __future__ import annotations
from PIL import Image
# Define glider example
UpperCAmelCase_ = [
[0, 1, 0, 0, 0, 0, 0, 0],
[0, 0, 1, 0, 0, 0, 0, 0],
[1, 1, 1, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
]
# Define blinker example
UpperCAmelCase_ = [[0, 1, 0], [0, 1, 0], [0, 1, 0]]
def lowerCamelCase__ ( A__ : list[list[int]] ):
'''simple docstring'''
__lowerCamelCase = []
for i in range(len(A__ ) ):
__lowerCamelCase = []
for j in range(len(cells[i] ) ):
# Get the number of live neighbours
__lowerCamelCase = 0
if i > 0 and j > 0:
neighbour_count += cells[i - 1][j - 1]
if i > 0:
neighbour_count += cells[i - 1][j]
if i > 0 and j < len(cells[i] ) - 1:
neighbour_count += cells[i - 1][j + 1]
if j > 0:
neighbour_count += cells[i][j - 1]
if j < len(cells[i] ) - 1:
neighbour_count += cells[i][j + 1]
if i < len(A__ ) - 1 and j > 0:
neighbour_count += cells[i + 1][j - 1]
if i < len(A__ ) - 1:
neighbour_count += cells[i + 1][j]
if i < len(A__ ) - 1 and j < len(cells[i] ) - 1:
neighbour_count += cells[i + 1][j + 1]
# Rules of the game of life (excerpt from Wikipedia):
# 1. Any live cell with two or three live neighbours survives.
# 2. Any dead cell with three live neighbours becomes a live cell.
# 3. All other live cells die in the next generation.
# Similarly, all other dead cells stay dead.
__lowerCamelCase = cells[i][j] == 1
if (
(alive and 2 <= neighbour_count <= 3)
or not alive
and neighbour_count == 3
):
next_generation_row.append(1 )
else:
next_generation_row.append(0 )
next_generation.append(A__ )
return next_generation
def lowerCamelCase__ ( A__ : list[list[int]] , A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
for _ in range(A__ ):
# Create output image
__lowerCamelCase = Image.new("""RGB""" , (len(cells[0] ), len(A__ )) )
__lowerCamelCase = img.load()
# Save cells to image
for x in range(len(A__ ) ):
for y in range(len(cells[0] ) ):
__lowerCamelCase = 255 - cells[y][x] * 255
__lowerCamelCase = (colour, colour, colour)
# Save image
images.append(A__ )
__lowerCamelCase = new_generation(A__ )
return images
if __name__ == "__main__":
UpperCAmelCase_ = generate_images(GLIDER, 16)
images[0].save('out.gif', save_all=True, append_images=images[1:])
| 12 | 1 |
from bisect import bisect
from itertools import accumulate
def lowerCamelCase__ ( A__ : List[Any] , A__ : Dict , A__ : str , A__ : Union[str, Any] ):
'''simple docstring'''
__lowerCamelCase = sorted(zip(A__ , A__ ) , key=lambda A__ : x[0] / x[1] , reverse=A__ )
__lowerCamelCase, __lowerCamelCase = [i[0] for i in r], [i[1] for i in r]
__lowerCamelCase = list(accumulate(A__ ) )
__lowerCamelCase = bisect(A__ , A__ )
return (
0
if k == 0
else sum(vl[:k] ) + (w - acc[k - 1]) * (vl[k]) / (wt[k])
if k != n
else sum(vl[:k] )
)
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 |
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import AutoencoderKL, PNDMScheduler, StableDiffusionInpaintPipeline, UNetaDConditionModel
from diffusers.utils import floats_tensor, load_image, load_numpy, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu, slow
from ..pipeline_params import TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS, TEXT_GUIDED_IMAGE_INPAINTING_PARAMS
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class lowerCamelCase__( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Union[str, Any] = StableDiffusionInpaintPipeline
UpperCAmelCase__ : Dict = TEXT_GUIDED_IMAGE_INPAINTING_PARAMS
UpperCAmelCase__ : str = TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS
UpperCAmelCase__ : int = frozenset(
[]) # TO-DO: update image_params once pipeline is refactored with VaeImageProcessor.preprocess
UpperCAmelCase__ : Union[str, Any] = frozenset([])
def lowerCAmelCase__ ( self: str ):
torch.manual_seed(0 )
__lowerCamelCase = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=9 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , attention_head_dim=(2, 4) , use_linear_projection=UpperCamelCase_ , )
__lowerCamelCase = PNDMScheduler(skip_prk_steps=UpperCamelCase_ )
torch.manual_seed(0 )
__lowerCamelCase = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , sample_size=1_28 , )
torch.manual_seed(0 )
__lowerCamelCase = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , hidden_act="""gelu""" , projection_dim=5_12 , )
__lowerCamelCase = CLIPTextModel(UpperCamelCase_ )
__lowerCamelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" )
__lowerCamelCase = {
"""unet""": unet,
"""scheduler""": scheduler,
"""vae""": vae,
"""text_encoder""": text_encoder,
"""tokenizer""": tokenizer,
"""safety_checker""": None,
"""feature_extractor""": None,
}
return components
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Any , UpperCamelCase_: List[Any]=0 ):
# TODO: use tensor inputs instead of PIL, this is here just to leave the old expected_slices untouched
__lowerCamelCase = floats_tensor((1, 3, 32, 32) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0]
__lowerCamelCase = Image.fromarray(np.uinta(UpperCamelCase_ ) ).convert("""RGB""" ).resize((64, 64) )
__lowerCamelCase = Image.fromarray(np.uinta(image + 4 ) ).convert("""RGB""" ).resize((64, 64) )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""prompt""": """A painting of a squirrel eating a burger""",
"""image""": init_image,
"""mask_image""": mask_image,
"""generator""": generator,
"""num_inference_steps""": 2,
"""guidance_scale""": 6.0,
"""output_type""": """numpy""",
}
return inputs
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = """cpu""" # ensure determinism for the device-dependent torch.Generator
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = StableDiffusionInpaintPipeline(**UpperCamelCase_ )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(**UpperCamelCase_ ).images
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (1, 64, 64, 3)
__lowerCamelCase = np.array([0.4727, 0.5735, 0.3941, 0.5446, 0.5926, 0.4394, 0.5062, 0.4654, 0.4476] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: int ):
super().test_inference_batch_single_identical(expected_max_diff=3E-3 )
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: str ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint"""
"""/yellow_cat_sitting_on_a_park_bench.npy""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(UpperCamelCase_ , safety_checker=UpperCamelCase_ )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (5_12, 5_12, 3)
assert np.abs(expected_image - image ).max() < 9E-3
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint"""
"""/yellow_cat_sitting_on_a_park_bench_fp16.npy""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(
UpperCamelCase_ , torch_dtype=torch.floataa , safety_checker=UpperCamelCase_ , )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (5_12, 5_12, 3)
assert np.abs(expected_image - image ).max() < 5E-1
def lowerCAmelCase__ ( self: int ):
torch.cuda.empty_cache()
torch.cuda.reset_max_memory_allocated()
torch.cuda.reset_peak_memory_stats()
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = PNDMScheduler.from_pretrained(UpperCamelCase_ , subfolder="""scheduler""" )
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(
UpperCamelCase_ , safety_checker=UpperCamelCase_ , scheduler=UpperCamelCase_ , torch_dtype=torch.floataa , )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing(1 )
pipe.enable_sequential_cpu_offload()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , num_inference_steps=2 , output_type="""np""" , )
__lowerCamelCase = torch.cuda.max_memory_allocated()
# make sure that less than 2.65 GB is allocated
assert mem_bytes < 2.65 * 10**9
| 12 | 1 |
import unittest
from transformers import (
MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
Pipeline,
ZeroShotClassificationPipeline,
pipeline,
)
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_tf, require_torch, slow
from .test_pipelines_common import ANY
# These 2 model types require different inputs than those of the usual text models.
UpperCAmelCase_ = {'LayoutLMv2Config', 'LayoutLMv3Config'}
@is_pipeline_test
class lowerCamelCase__( unittest.TestCase):
UpperCAmelCase__ : Optional[Any] = MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
UpperCAmelCase__ : Optional[int] = TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
if model_mapping is not None:
UpperCAmelCase__ : Tuple = {config: model for config, model in model_mapping.items() if config.__name__ not in _TO_SKIP}
if tf_model_mapping is not None:
UpperCAmelCase__ : Dict = {
config: model for config, model in tf_model_mapping.items() if config.__name__ not in _TO_SKIP
}
def lowerCAmelCase__ ( self: str , UpperCamelCase_: List[str] , UpperCamelCase_: str , UpperCamelCase_: int ):
__lowerCamelCase = ZeroShotClassificationPipeline(
model=UpperCamelCase_ , tokenizer=UpperCamelCase_ , candidate_labels=["""polics""", """health"""] )
return classifier, ["Who are you voting for in 2020?", "My stomach hurts."]
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: List[str] , UpperCamelCase_: List[str] ):
__lowerCamelCase = classifier("""Who are you voting for in 2020?""" , candidate_labels="""politics""" )
self.assertEqual(UpperCamelCase_ , {"""sequence""": ANY(UpperCamelCase_ ), """labels""": [ANY(UpperCamelCase_ )], """scores""": [ANY(UpperCamelCase_ )]} )
# No kwarg
__lowerCamelCase = classifier("""Who are you voting for in 2020?""" , ["""politics"""] )
self.assertEqual(UpperCamelCase_ , {"""sequence""": ANY(UpperCamelCase_ ), """labels""": [ANY(UpperCamelCase_ )], """scores""": [ANY(UpperCamelCase_ )]} )
__lowerCamelCase = classifier("""Who are you voting for in 2020?""" , candidate_labels=["""politics"""] )
self.assertEqual(UpperCamelCase_ , {"""sequence""": ANY(UpperCamelCase_ ), """labels""": [ANY(UpperCamelCase_ )], """scores""": [ANY(UpperCamelCase_ )]} )
__lowerCamelCase = classifier("""Who are you voting for in 2020?""" , candidate_labels="""politics, public health""" )
self.assertEqual(
UpperCamelCase_ , {"""sequence""": ANY(UpperCamelCase_ ), """labels""": [ANY(UpperCamelCase_ ), ANY(UpperCamelCase_ )], """scores""": [ANY(UpperCamelCase_ ), ANY(UpperCamelCase_ )]} )
self.assertAlmostEqual(sum(nested_simplify(outputs["""scores"""] ) ) , 1.0 )
__lowerCamelCase = classifier("""Who are you voting for in 2020?""" , candidate_labels=["""politics""", """public health"""] )
self.assertEqual(
UpperCamelCase_ , {"""sequence""": ANY(UpperCamelCase_ ), """labels""": [ANY(UpperCamelCase_ ), ANY(UpperCamelCase_ )], """scores""": [ANY(UpperCamelCase_ ), ANY(UpperCamelCase_ )]} )
self.assertAlmostEqual(sum(nested_simplify(outputs["""scores"""] ) ) , 1.0 )
__lowerCamelCase = classifier(
"""Who are you voting for in 2020?""" , candidate_labels="""politics""" , hypothesis_template="""This text is about {}""" )
self.assertEqual(UpperCamelCase_ , {"""sequence""": ANY(UpperCamelCase_ ), """labels""": [ANY(UpperCamelCase_ )], """scores""": [ANY(UpperCamelCase_ )]} )
# https://github.com/huggingface/transformers/issues/13846
__lowerCamelCase = classifier(["""I am happy"""] , ["""positive""", """negative"""] )
self.assertEqual(
UpperCamelCase_ , [
{"""sequence""": ANY(UpperCamelCase_ ), """labels""": [ANY(UpperCamelCase_ ), ANY(UpperCamelCase_ )], """scores""": [ANY(UpperCamelCase_ ), ANY(UpperCamelCase_ )]}
for i in range(1 )
] , )
__lowerCamelCase = classifier(["""I am happy""", """I am sad"""] , ["""positive""", """negative"""] )
self.assertEqual(
UpperCamelCase_ , [
{"""sequence""": ANY(UpperCamelCase_ ), """labels""": [ANY(UpperCamelCase_ ), ANY(UpperCamelCase_ )], """scores""": [ANY(UpperCamelCase_ ), ANY(UpperCamelCase_ )]}
for i in range(2 )
] , )
with self.assertRaises(UpperCamelCase_ ):
classifier("""""" , candidate_labels="""politics""" )
with self.assertRaises(UpperCamelCase_ ):
classifier(UpperCamelCase_ , candidate_labels="""politics""" )
with self.assertRaises(UpperCamelCase_ ):
classifier("""Who are you voting for in 2020?""" , candidate_labels="""""" )
with self.assertRaises(UpperCamelCase_ ):
classifier("""Who are you voting for in 2020?""" , candidate_labels=UpperCamelCase_ )
with self.assertRaises(UpperCamelCase_ ):
classifier(
"""Who are you voting for in 2020?""" , candidate_labels="""politics""" , hypothesis_template="""Not formatting template""" , )
with self.assertRaises(UpperCamelCase_ ):
classifier(
"""Who are you voting for in 2020?""" , candidate_labels="""politics""" , hypothesis_template=UpperCamelCase_ , )
self.run_entailment_id(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[int] , UpperCamelCase_: Pipeline ):
__lowerCamelCase = zero_shot_classifier.model.config
__lowerCamelCase = config.labelaid
__lowerCamelCase = zero_shot_classifier.entailment_id
__lowerCamelCase = {"""LABEL_0""": 0, """LABEL_1""": 1, """LABEL_2""": 2}
self.assertEqual(zero_shot_classifier.entailment_id , -1 )
__lowerCamelCase = {"""entailment""": 0, """neutral""": 1, """contradiction""": 2}
self.assertEqual(zero_shot_classifier.entailment_id , 0 )
__lowerCamelCase = {"""ENTAIL""": 0, """NON-ENTAIL""": 1}
self.assertEqual(zero_shot_classifier.entailment_id , 0 )
__lowerCamelCase = {"""ENTAIL""": 2, """NEUTRAL""": 1, """CONTR""": 0}
self.assertEqual(zero_shot_classifier.entailment_id , 2 )
__lowerCamelCase = original_labelaid
self.assertEqual(UpperCamelCase_ , zero_shot_classifier.entailment_id )
@require_torch
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = pipeline(
"""zero-shot-classification""" , model="""sshleifer/tiny-distilbert-base-cased-distilled-squad""" , framework="""pt""" , )
# There was a regression in 4.10 for this
# Adding a test so we don't make the mistake again.
# https://github.com/huggingface/transformers/issues/13381#issuecomment-912343499
zero_shot_classifier(
"""Who are you voting for in 2020?""" * 1_00 , candidate_labels=["""politics""", """public health""", """science"""] )
@require_torch
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = pipeline(
"""zero-shot-classification""" , model="""sshleifer/tiny-distilbert-base-cased-distilled-squad""" , framework="""pt""" , )
__lowerCamelCase = zero_shot_classifier(
"""Who are you voting for in 2020?""" , candidate_labels=["""politics""", """public health""", """science"""] )
self.assertEqual(
nested_simplify(UpperCamelCase_ ) , {
"""sequence""": """Who are you voting for in 2020?""",
"""labels""": ["""science""", """public health""", """politics"""],
"""scores""": [0.333, 0.333, 0.333],
} , )
@require_tf
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = pipeline(
"""zero-shot-classification""" , model="""sshleifer/tiny-distilbert-base-cased-distilled-squad""" , framework="""tf""" , )
__lowerCamelCase = zero_shot_classifier(
"""Who are you voting for in 2020?""" , candidate_labels=["""politics""", """public health""", """science"""] )
self.assertEqual(
nested_simplify(UpperCamelCase_ ) , {
"""sequence""": """Who are you voting for in 2020?""",
"""labels""": ["""science""", """public health""", """politics"""],
"""scores""": [0.333, 0.333, 0.333],
} , )
@slow
@require_torch
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = pipeline("""zero-shot-classification""" , model="""roberta-large-mnli""" , framework="""pt""" )
__lowerCamelCase = zero_shot_classifier(
"""Who are you voting for in 2020?""" , candidate_labels=["""politics""", """public health""", """science"""] )
self.assertEqual(
nested_simplify(UpperCamelCase_ ) , {
"""sequence""": """Who are you voting for in 2020?""",
"""labels""": ["""politics""", """public health""", """science"""],
"""scores""": [0.976, 0.015, 0.009],
} , )
__lowerCamelCase = zero_shot_classifier(
"""The dominant sequence transduction models are based on complex recurrent or convolutional neural networks"""
""" in an encoder-decoder configuration. The best performing models also connect the encoder and decoder"""
""" through an attention mechanism. We propose a new simple network architecture, the Transformer, based"""
""" solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two"""
""" machine translation tasks show these models to be superior in quality while being more parallelizable"""
""" and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014"""
""" English-to-German translation task, improving over the existing best results, including ensembles by"""
""" over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new"""
""" single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small"""
""" fraction of the training costs of the best models from the literature. We show that the Transformer"""
""" generalizes well to other tasks by applying it successfully to English constituency parsing both with"""
""" large and limited training data.""" , candidate_labels=["""machine learning""", """statistics""", """translation""", """vision"""] , multi_label=UpperCamelCase_ , )
self.assertEqual(
nested_simplify(UpperCamelCase_ ) , {
"""sequence""": (
"""The dominant sequence transduction models are based on complex recurrent or convolutional neural"""
""" networks in an encoder-decoder configuration. The best performing models also connect the"""
""" encoder and decoder through an attention mechanism. We propose a new simple network"""
""" architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence"""
""" and convolutions entirely. Experiments on two machine translation tasks show these models to be"""
""" superior in quality while being more parallelizable and requiring significantly less time to"""
""" train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task,"""
""" improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014"""
""" English-to-French translation task, our model establishes a new single-model state-of-the-art"""
""" BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training"""
""" costs of the best models from the literature. We show that the Transformer generalizes well to"""
""" other tasks by applying it successfully to English constituency parsing both with large and"""
""" limited training data."""
),
"""labels""": ["""translation""", """machine learning""", """vision""", """statistics"""],
"""scores""": [0.817, 0.713, 0.018, 0.018],
} , )
@slow
@require_tf
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = pipeline("""zero-shot-classification""" , model="""roberta-large-mnli""" , framework="""tf""" )
__lowerCamelCase = zero_shot_classifier(
"""Who are you voting for in 2020?""" , candidate_labels=["""politics""", """public health""", """science"""] )
self.assertEqual(
nested_simplify(UpperCamelCase_ ) , {
"""sequence""": """Who are you voting for in 2020?""",
"""labels""": ["""politics""", """public health""", """science"""],
"""scores""": [0.976, 0.015, 0.009],
} , )
__lowerCamelCase = zero_shot_classifier(
"""The dominant sequence transduction models are based on complex recurrent or convolutional neural networks"""
""" in an encoder-decoder configuration. The best performing models also connect the encoder and decoder"""
""" through an attention mechanism. We propose a new simple network architecture, the Transformer, based"""
""" solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two"""
""" machine translation tasks show these models to be superior in quality while being more parallelizable"""
""" and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014"""
""" English-to-German translation task, improving over the existing best results, including ensembles by"""
""" over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new"""
""" single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small"""
""" fraction of the training costs of the best models from the literature. We show that the Transformer"""
""" generalizes well to other tasks by applying it successfully to English constituency parsing both with"""
""" large and limited training data.""" , candidate_labels=["""machine learning""", """statistics""", """translation""", """vision"""] , multi_label=UpperCamelCase_ , )
self.assertEqual(
nested_simplify(UpperCamelCase_ ) , {
"""sequence""": (
"""The dominant sequence transduction models are based on complex recurrent or convolutional neural"""
""" networks in an encoder-decoder configuration. The best performing models also connect the"""
""" encoder and decoder through an attention mechanism. We propose a new simple network"""
""" architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence"""
""" and convolutions entirely. Experiments on two machine translation tasks show these models to be"""
""" superior in quality while being more parallelizable and requiring significantly less time to"""
""" train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task,"""
""" improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014"""
""" English-to-French translation task, our model establishes a new single-model state-of-the-art"""
""" BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training"""
""" costs of the best models from the literature. We show that the Transformer generalizes well to"""
""" other tasks by applying it successfully to English constituency parsing both with large and"""
""" limited training data."""
),
"""labels""": ["""translation""", """machine learning""", """vision""", """statistics"""],
"""scores""": [0.817, 0.713, 0.018, 0.018],
} , )
| 12 |
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
UpperCAmelCase_ = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['MLukeTokenizer']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mluke import MLukeTokenizer
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 | 1 |
import argparse
import json
import os
import evaluate
import torch
from datasets import load_dataset
from torch.optim import AdamW
from torch.utils.data import DataLoader
from transformers import AutoModelForSequenceClassification, AutoTokenizer, get_linear_schedule_with_warmup, set_seed
from accelerate import Accelerator, DistributedType
from accelerate.utils.deepspeed import DummyOptim, DummyScheduler
UpperCAmelCase_ = 16
UpperCAmelCase_ = 32
def lowerCamelCase__ ( A__ : Accelerator , A__ : int = 16 , A__ : str = "bert-base-cased" ):
'''simple docstring'''
__lowerCamelCase = AutoTokenizer.from_pretrained(A__ )
__lowerCamelCase = load_dataset("""glue""" , """mrpc""" )
def tokenize_function(A__ : int ):
# max_length=None => use the model max length (it's actually the default)
__lowerCamelCase = tokenizer(examples["""sentence1"""] , examples["""sentence2"""] , truncation=A__ , max_length=A__ )
return outputs
# Apply the method we just defined to all the examples in all the splits of the dataset
__lowerCamelCase = datasets.map(
A__ , batched=A__ , remove_columns=["""idx""", """sentence1""", """sentence2"""] , load_from_cache_file=A__ )
# We also rename the 'label' column to 'labels' which is the expected name for labels by the models of the
# transformers library
__lowerCamelCase = tokenized_datasets.rename_column("""label""" , """labels""" )
def collate_fn(A__ : Optional[int] ):
# On TPU it's best to pad everything to the same length or training will be very slow.
if accelerator.distributed_type == DistributedType.TPU:
return tokenizer.pad(A__ , padding="""max_length""" , max_length=128 , return_tensors="""pt""" )
return tokenizer.pad(A__ , padding="""longest""" , return_tensors="""pt""" )
# Instantiate dataloaders.
__lowerCamelCase = DataLoader(
tokenized_datasets["""train"""] , shuffle=A__ , collate_fn=A__ , batch_size=A__ )
__lowerCamelCase = DataLoader(
tokenized_datasets["""validation"""] , shuffle=A__ , collate_fn=A__ , batch_size=A__ )
return train_dataloader, eval_dataloader
def lowerCamelCase__ ( A__ : Tuple , A__ : Union[str, Any] , A__ : Tuple , A__ : Optional[Any] ):
'''simple docstring'''
model.eval()
__lowerCamelCase = 0
for step, batch in enumerate(A__ ):
# We could avoid this line since we set the accelerator with `device_placement=True`.
batch.to(accelerator.device )
with torch.no_grad():
__lowerCamelCase = model(**A__ )
__lowerCamelCase = outputs.logits.argmax(dim=-1 )
# It is slightly faster to call this once, than multiple times
__lowerCamelCase, __lowerCamelCase = accelerator.gather(
(predictions, batch["""labels"""]) ) # If we are in a multiprocess environment, the last batch has duplicates
if accelerator.use_distributed:
if step == len(A__ ) - 1:
__lowerCamelCase = predictions[: len(eval_dataloader.dataset ) - samples_seen]
__lowerCamelCase = references[: len(eval_dataloader.dataset ) - samples_seen]
else:
samples_seen += references.shape[0]
metric.add_batch(
predictions=A__ , references=A__ , )
__lowerCamelCase = metric.compute()
return eval_metric["accuracy"]
def lowerCamelCase__ ( A__ : Optional[Any] , A__ : Optional[int] ):
'''simple docstring'''
__lowerCamelCase = Accelerator()
# Sample hyper-parameters for learning rate, batch size, seed and a few other HPs
__lowerCamelCase = config["""lr"""]
__lowerCamelCase = int(config["""num_epochs"""] )
__lowerCamelCase = int(config["""seed"""] )
__lowerCamelCase = int(config["""batch_size"""] )
__lowerCamelCase = args.model_name_or_path
set_seed(A__ )
__lowerCamelCase, __lowerCamelCase = get_dataloaders(A__ , A__ , A__ )
# Instantiate the model (we build the model here so that the seed also control new weights initialization)
__lowerCamelCase = AutoModelForSequenceClassification.from_pretrained(A__ , return_dict=A__ )
# Instantiate optimizer
__lowerCamelCase = (
AdamW
if accelerator.state.deepspeed_plugin is None
or """optimizer""" not in accelerator.state.deepspeed_plugin.deepspeed_config
else DummyOptim
)
__lowerCamelCase = optimizer_cls(params=model.parameters() , lr=A__ )
if accelerator.state.deepspeed_plugin is not None:
__lowerCamelCase = accelerator.state.deepspeed_plugin.deepspeed_config[
"""gradient_accumulation_steps"""
]
else:
__lowerCamelCase = 1
__lowerCamelCase = (len(A__ ) * num_epochs) // gradient_accumulation_steps
# Instantiate scheduler
if (
accelerator.state.deepspeed_plugin is None
or "scheduler" not in accelerator.state.deepspeed_plugin.deepspeed_config
):
__lowerCamelCase = get_linear_schedule_with_warmup(
optimizer=A__ , num_warmup_steps=0 , num_training_steps=A__ , )
else:
__lowerCamelCase = DummyScheduler(A__ , total_num_steps=A__ , warmup_num_steps=0 )
# Prepare everything
# There is no specific order to remember, we just need to unpack the objects in the same order we gave them to the
# prepare method.
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = accelerator.prepare(
A__ , A__ , A__ , A__ , A__ )
# We need to keep track of how many total steps we have iterated over
__lowerCamelCase = 0
# We also need to keep track of the stating epoch so files are named properly
__lowerCamelCase = 0
__lowerCamelCase = evaluate.load("""glue""" , """mrpc""" )
__lowerCamelCase = num_epochs
if args.partial_train_epoch is not None:
__lowerCamelCase = args.partial_train_epoch
if args.resume_from_checkpoint:
accelerator.load_state(args.resume_from_checkpoint )
__lowerCamelCase = args.resume_from_checkpoint.split("""epoch_""" )[1]
__lowerCamelCase = """"""
for char in epoch_string:
if char.isdigit():
state_epoch_num += char
else:
break
__lowerCamelCase = int(A__ ) + 1
__lowerCamelCase = evaluation_loop(A__ , A__ , A__ , A__ )
accelerator.print("""resumed checkpoint performance:""" , A__ )
accelerator.print("""resumed checkpoint's scheduler's lr:""" , lr_scheduler.get_lr()[0] )
accelerator.print("""resumed optimizers's lr:""" , optimizer.param_groups[0]["""lr"""] )
with open(os.path.join(args.output_dir , f'state_{starting_epoch-1}.json' ) , """r""" ) as f:
__lowerCamelCase = json.load(A__ )
assert resumed_state["accuracy"] == accuracy, "Accuracy mismatch, loading from checkpoint failed"
assert (
resumed_state["lr"] == lr_scheduler.get_lr()[0]
), "Scheduler learning rate mismatch, loading from checkpoint failed"
assert (
resumed_state["optimizer_lr"] == optimizer.param_groups[0]["lr"]
), "Optimizer learning rate mismatch, loading from checkpoint failed"
assert resumed_state["epoch"] == starting_epoch - 1, "Epoch mismatch, loading from checkpoint failed"
return
# Now we train the model
__lowerCamelCase = {}
for epoch in range(A__ , A__ ):
model.train()
for step, batch in enumerate(A__ ):
__lowerCamelCase = model(**A__ )
__lowerCamelCase = outputs.loss
__lowerCamelCase = loss / gradient_accumulation_steps
accelerator.backward(A__ )
if step % gradient_accumulation_steps == 0:
optimizer.step()
lr_scheduler.step()
optimizer.zero_grad()
overall_step += 1
__lowerCamelCase = f'epoch_{epoch}'
__lowerCamelCase = os.path.join(args.output_dir , A__ )
accelerator.save_state(A__ )
__lowerCamelCase = evaluation_loop(A__ , A__ , A__ , A__ )
__lowerCamelCase = accuracy
__lowerCamelCase = lr_scheduler.get_lr()[0]
__lowerCamelCase = optimizer.param_groups[0]["""lr"""]
__lowerCamelCase = epoch
__lowerCamelCase = overall_step
accelerator.print(f'epoch {epoch}:' , A__ )
accelerator.wait_for_everyone()
if accelerator.is_main_process:
with open(os.path.join(args.output_dir , f'state_{epoch}.json' ) , """w""" ) as f:
json.dump(A__ , A__ )
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = argparse.ArgumentParser(description="""Simple example of training script tracking peak GPU memory usage.""" )
parser.add_argument(
"""--model_name_or_path""" , type=A__ , default="""bert-base-cased""" , help="""Path to pretrained model or model identifier from huggingface.co/models.""" , required=A__ , )
parser.add_argument(
"""--output_dir""" , type=A__ , default=""".""" , help="""Optional save directory where all checkpoint folders will be stored. Default is the current working directory.""" , )
parser.add_argument(
"""--resume_from_checkpoint""" , type=A__ , default=A__ , help="""If the training should continue from a checkpoint folder.""" , )
parser.add_argument(
"""--partial_train_epoch""" , type=A__ , default=A__ , help="""If passed, the training will stop after this number of epochs.""" , )
parser.add_argument(
"""--num_epochs""" , type=A__ , default=2 , help="""Number of train epochs.""" , )
__lowerCamelCase = parser.parse_args()
__lowerCamelCase = {"""lr""": 2E-5, """num_epochs""": args.num_epochs, """seed""": 42, """batch_size""": 16}
training_function(A__ , A__ )
if __name__ == "__main__":
main()
| 12 |
import os
import shutil
from pathlib import Path
from typing import Optional, Union
import numpy as np
from huggingface_hub import hf_hub_download
from ..utils import ONNX_EXTERNAL_WEIGHTS_NAME, ONNX_WEIGHTS_NAME, is_onnx_available, logging
if is_onnx_available():
import onnxruntime as ort
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'tensor(bool)': np.bool_,
'tensor(int8)': np.inta,
'tensor(uint8)': np.uinta,
'tensor(int16)': np.intaa,
'tensor(uint16)': np.uintaa,
'tensor(int32)': np.intaa,
'tensor(uint32)': np.uintaa,
'tensor(int64)': np.intaa,
'tensor(uint64)': np.uintaa,
'tensor(float16)': np.floataa,
'tensor(float)': np.floataa,
'tensor(double)': np.floataa,
}
class lowerCamelCase__:
def __init__( self: str , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: str ):
logger.info("""`diffusers.OnnxRuntimeModel` is experimental and might change in the future.""" )
__lowerCamelCase = model
__lowerCamelCase = kwargs.get("""model_save_dir""" , UpperCamelCase_ )
__lowerCamelCase = kwargs.get("""latest_model_name""" , UpperCamelCase_ )
def __call__( self: Dict , **UpperCamelCase_: Any ):
__lowerCamelCase = {k: np.array(UpperCamelCase_ ) for k, v in kwargs.items()}
return self.model.run(UpperCamelCase_ , UpperCamelCase_ )
@staticmethod
def lowerCAmelCase__ ( UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Tuple=None , UpperCamelCase_: Tuple=None ):
if provider is None:
logger.info("""No onnxruntime provider specified, using CPUExecutionProvider""" )
__lowerCamelCase = """CPUExecutionProvider"""
return ort.InferenceSession(UpperCamelCase_ , providers=[provider] , sess_options=UpperCamelCase_ )
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: Optional[int] ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
__lowerCamelCase = self.model_save_dir.joinpath(self.latest_model_name )
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
# copy external weights (for models >2GB)
__lowerCamelCase = self.model_save_dir.joinpath(UpperCamelCase_ )
if src_path.exists():
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Union[str, os.PathLike] , **UpperCamelCase_: Optional[Any] , ):
if os.path.isfile(UpperCamelCase_ ):
logger.error(F'Provided path ({save_directory}) should be a directory, not a file' )
return
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
# saving model weights/files
self._save_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: str , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[Union[bool, str, None]] = None , UpperCamelCase_: Optional[Union[str, None]] = None , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional["ort.SessionOptions"] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
# load model from local directory
if os.path.isdir(UpperCamelCase_ ):
__lowerCamelCase = OnnxRuntimeModel.load_model(
os.path.join(UpperCamelCase_ , UpperCamelCase_ ) , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
__lowerCamelCase = Path(UpperCamelCase_ )
# load model from hub
else:
# download model
__lowerCamelCase = hf_hub_download(
repo_id=UpperCamelCase_ , filename=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , )
__lowerCamelCase = Path(UpperCamelCase_ ).parent
__lowerCamelCase = Path(UpperCamelCase_ ).name
__lowerCamelCase = OnnxRuntimeModel.load_model(UpperCamelCase_ , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
return cls(model=UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: Optional[int] , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = None
if len(str(UpperCamelCase_ ).split("""@""" ) ) == 2:
__lowerCamelCase, __lowerCamelCase = model_id.split("""@""" )
return cls._from_pretrained(
model_id=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , **UpperCamelCase_ , )
| 12 | 1 |
from typing import Callable, Optional, Union
from ...configuration_utils import PretrainedConfig
from ...utils import logging
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'microsoft/xprophetnet-large-wiki100-cased': (
'https://huggingface.co/microsoft/xprophetnet-large-wiki100-cased/resolve/main/config.json'
),
}
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : List[str] = 'xlm-prophetnet'
UpperCAmelCase__ : List[Any] = ['past_key_values']
UpperCAmelCase__ : Optional[Any] = {
'num_attention_heads': 'num_encoder_attention_heads',
}
def __init__( self: Any , UpperCamelCase_: Optional[float] = 0.1 , UpperCamelCase_: Optional[Union[str, Callable]] = "gelu" , UpperCamelCase_: Optional[int] = 3_05_22 , UpperCamelCase_: Optional[int] = 10_24 , UpperCamelCase_: Optional[int] = 40_96 , UpperCamelCase_: Optional[int] = 12 , UpperCamelCase_: Optional[int] = 16 , UpperCamelCase_: Optional[int] = 40_96 , UpperCamelCase_: Optional[int] = 12 , UpperCamelCase_: Optional[int] = 16 , UpperCamelCase_: Optional[float] = 0.1 , UpperCamelCase_: Optional[float] = 0.1 , UpperCamelCase_: Optional[int] = 5_12 , UpperCamelCase_: Optional[float] = 0.02 , UpperCamelCase_: Optional[bool] = True , UpperCamelCase_: Optional[bool] = True , UpperCamelCase_: Optional[int] = 0 , UpperCamelCase_: Optional[int] = 2 , UpperCamelCase_: Optional[int] = 32 , UpperCamelCase_: Optional[int] = 1_28 , UpperCamelCase_: Optional[bool] = False , UpperCamelCase_: Optional[float] = 0.0 , UpperCamelCase_: Optional[bool] = True , UpperCamelCase_: Optional[int] = 0 , UpperCamelCase_: Optional[int] = 1 , UpperCamelCase_: Optional[int] = 2 , **UpperCamelCase_: Tuple , ):
__lowerCamelCase = vocab_size
__lowerCamelCase = hidden_size
__lowerCamelCase = encoder_ffn_dim
__lowerCamelCase = num_encoder_layers
__lowerCamelCase = num_encoder_attention_heads
__lowerCamelCase = decoder_ffn_dim
__lowerCamelCase = num_decoder_layers
__lowerCamelCase = num_decoder_attention_heads
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = init_std # Normal(0, this parameter)
__lowerCamelCase = activation_function
# parameters for xlmprophetnet
__lowerCamelCase = ngram
__lowerCamelCase = num_buckets
__lowerCamelCase = relative_max_distance
__lowerCamelCase = disable_ngram_loss
__lowerCamelCase = eps
# 3 Types of Dropout
__lowerCamelCase = attention_dropout
__lowerCamelCase = activation_dropout
__lowerCamelCase = dropout
__lowerCamelCase = use_cache
super().__init__(
pad_token_id=UpperCamelCase_ , bos_token_id=UpperCamelCase_ , eos_token_id=UpperCamelCase_ , is_encoder_decoder=UpperCamelCase_ , add_cross_attention=UpperCamelCase_ , decoder_start_token_id=UpperCamelCase_ , **UpperCamelCase_ , )
@property
def lowerCAmelCase__ ( self: Tuple ):
return self.num_encoder_layers + self.num_decoder_layers
@num_hidden_layers.setter
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: List[str] ):
raise NotImplementedError(
"""This model does not support the setting of `num_hidden_layers`. Please set `num_encoder_layers` and"""
""" `num_decoder_layers`.""" )
| 12 |
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_torch_available,
)
UpperCAmelCase_ = {
'configuration_vision_encoder_decoder': ['VisionEncoderDecoderConfig', 'VisionEncoderDecoderOnnxConfig']
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['VisionEncoderDecoderModel']
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['TFVisionEncoderDecoderModel']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['FlaxVisionEncoderDecoderModel']
if TYPE_CHECKING:
from .configuration_vision_encoder_decoder import VisionEncoderDecoderConfig, VisionEncoderDecoderOnnxConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_vision_encoder_decoder import VisionEncoderDecoderModel
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_vision_encoder_decoder import TFVisionEncoderDecoderModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_vision_encoder_decoder import FlaxVisionEncoderDecoderModel
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 | 1 |
from collections import OrderedDict
from typing import Any, Mapping, Optional
from ... import PreTrainedTokenizer
from ...configuration_utils import PretrainedConfig
from ...file_utils import TensorType, is_torch_available
from ...onnx import OnnxConfig, OnnxConfigWithPast, OnnxSeqaSeqConfigWithPast
from ...onnx.utils import compute_effective_axis_dimension
from ...utils import logging
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'facebook/blenderbot_small-90M': 'https://huggingface.co/facebook/blenderbot_small-90M/resolve/main/config.json',
# See all BlenderbotSmall models at https://huggingface.co/models?filter=blenderbot_small
}
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : List[str] = 'blenderbot-small'
UpperCAmelCase__ : int = ['past_key_values']
UpperCAmelCase__ : List[str] = {'num_attention_heads': 'encoder_attention_heads', 'hidden_size': 'd_model'}
def __init__( self: Tuple , UpperCamelCase_: Dict=5_02_65 , UpperCamelCase_: List[str]=5_12 , UpperCamelCase_: Any=8 , UpperCamelCase_: int=20_48 , UpperCamelCase_: str=16 , UpperCamelCase_: Tuple=8 , UpperCamelCase_: Optional[int]=20_48 , UpperCamelCase_: Any=16 , UpperCamelCase_: List[str]=0.0 , UpperCamelCase_: Any=0.0 , UpperCamelCase_: Tuple=True , UpperCamelCase_: Dict=True , UpperCamelCase_: str="gelu" , UpperCamelCase_: List[str]=5_12 , UpperCamelCase_: List[str]=0.1 , UpperCamelCase_: Union[str, Any]=0.0 , UpperCamelCase_: Dict=0.0 , UpperCamelCase_: List[str]=0.02 , UpperCamelCase_: Tuple=1 , UpperCamelCase_: Tuple=False , UpperCamelCase_: int=0 , UpperCamelCase_: List[Any]=1 , UpperCamelCase_: List[str]=2 , UpperCamelCase_: Union[str, Any]=2 , **UpperCamelCase_: Tuple , ):
__lowerCamelCase = vocab_size
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = d_model
__lowerCamelCase = encoder_ffn_dim
__lowerCamelCase = encoder_layers
__lowerCamelCase = encoder_attention_heads
__lowerCamelCase = decoder_ffn_dim
__lowerCamelCase = decoder_layers
__lowerCamelCase = decoder_attention_heads
__lowerCamelCase = dropout
__lowerCamelCase = attention_dropout
__lowerCamelCase = activation_dropout
__lowerCamelCase = activation_function
__lowerCamelCase = init_std
__lowerCamelCase = encoder_layerdrop
__lowerCamelCase = decoder_layerdrop
__lowerCamelCase = use_cache
__lowerCamelCase = encoder_layers
__lowerCamelCase = scale_embedding # scale factor will be sqrt(d_model) if True
super().__init__(
pad_token_id=UpperCamelCase_ , bos_token_id=UpperCamelCase_ , eos_token_id=UpperCamelCase_ , is_encoder_decoder=UpperCamelCase_ , decoder_start_token_id=UpperCamelCase_ , forced_eos_token_id=UpperCamelCase_ , **UpperCamelCase_ , )
class lowerCamelCase__( __lowerCamelCase):
@property
def lowerCAmelCase__ ( self: Union[str, Any] ):
if self.task in ["default", "seq2seq-lm"]:
__lowerCamelCase = OrderedDict(
[
("""input_ids""", {0: """batch""", 1: """encoder_sequence"""}),
("""attention_mask""", {0: """batch""", 1: """encoder_sequence"""}),
] )
if self.use_past:
__lowerCamelCase = {0: """batch"""}
__lowerCamelCase = {0: """batch""", 1: """past_decoder_sequence + sequence"""}
else:
__lowerCamelCase = {0: """batch""", 1: """decoder_sequence"""}
__lowerCamelCase = {0: """batch""", 1: """decoder_sequence"""}
if self.use_past:
self.fill_with_past_key_values_(UpperCamelCase_ , direction="""inputs""" )
elif self.task == "causal-lm":
# TODO: figure this case out.
__lowerCamelCase = OrderedDict(
[
("""input_ids""", {0: """batch""", 1: """encoder_sequence"""}),
("""attention_mask""", {0: """batch""", 1: """encoder_sequence"""}),
] )
if self.use_past:
__lowerCamelCase, __lowerCamelCase = self.num_layers
for i in range(UpperCamelCase_ ):
__lowerCamelCase = {0: """batch""", 2: """past_sequence + sequence"""}
__lowerCamelCase = {0: """batch""", 2: """past_sequence + sequence"""}
else:
__lowerCamelCase = OrderedDict(
[
("""input_ids""", {0: """batch""", 1: """encoder_sequence"""}),
("""attention_mask""", {0: """batch""", 1: """encoder_sequence"""}),
("""decoder_input_ids""", {0: """batch""", 1: """decoder_sequence"""}),
("""decoder_attention_mask""", {0: """batch""", 1: """decoder_sequence"""}),
] )
return common_inputs
@property
def lowerCAmelCase__ ( self: Union[str, Any] ):
if self.task in ["default", "seq2seq-lm"]:
__lowerCamelCase = super().outputs
else:
__lowerCamelCase = super(UpperCamelCase_ , self ).outputs
if self.use_past:
__lowerCamelCase, __lowerCamelCase = self.num_layers
for i in range(UpperCamelCase_ ):
__lowerCamelCase = {0: """batch""", 2: """past_sequence + sequence"""}
__lowerCamelCase = {0: """batch""", 2: """past_sequence + sequence"""}
return common_outputs
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: PreTrainedTokenizer , UpperCamelCase_: int = -1 , UpperCamelCase_: int = -1 , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[TensorType] = None , ):
__lowerCamelCase = self._generate_dummy_inputs_for_sequence_classification_and_question_answering(
UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
# Generate decoder inputs
__lowerCamelCase = seq_length if not self.use_past else 1
__lowerCamelCase = self._generate_dummy_inputs_for_sequence_classification_and_question_answering(
UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = {F'decoder_{name}': tensor for name, tensor in decoder_inputs.items()}
__lowerCamelCase = dict(**UpperCamelCase_ , **UpperCamelCase_ )
if self.use_past:
if not is_torch_available():
raise ValueError("""Cannot generate dummy past_keys inputs without PyTorch installed.""" )
else:
import torch
__lowerCamelCase, __lowerCamelCase = common_inputs["""input_ids"""].shape
__lowerCamelCase = common_inputs["""decoder_input_ids"""].shape[1]
__lowerCamelCase, __lowerCamelCase = self.num_attention_heads
__lowerCamelCase = (
batch,
num_encoder_attention_heads,
encoder_seq_length,
self._config.hidden_size // num_encoder_attention_heads,
)
__lowerCamelCase = decoder_seq_length + 3
__lowerCamelCase = (
batch,
num_decoder_attention_heads,
decoder_past_length,
self._config.hidden_size // num_decoder_attention_heads,
)
__lowerCamelCase = torch.cat(
[common_inputs["""decoder_attention_mask"""], torch.ones(UpperCamelCase_ , UpperCamelCase_ )] , dim=1 )
__lowerCamelCase = []
# If the number of encoder and decoder layers are present in the model configuration, both are considered
__lowerCamelCase, __lowerCamelCase = self.num_layers
__lowerCamelCase = min(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = max(UpperCamelCase_ , UpperCamelCase_ ) - min_num_layers
__lowerCamelCase = """encoder""" if num_encoder_layers > num_decoder_layers else """decoder"""
for _ in range(UpperCamelCase_ ):
common_inputs["past_key_values"].append(
(
torch.zeros(UpperCamelCase_ ),
torch.zeros(UpperCamelCase_ ),
torch.zeros(UpperCamelCase_ ),
torch.zeros(UpperCamelCase_ ),
) )
# TODO: test this.
__lowerCamelCase = encoder_shape if remaining_side_name == """encoder""" else decoder_shape
for _ in range(UpperCamelCase_ , UpperCamelCase_ ):
common_inputs["past_key_values"].append((torch.zeros(UpperCamelCase_ ), torch.zeros(UpperCamelCase_ )) )
return common_inputs
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: PreTrainedTokenizer , UpperCamelCase_: int = -1 , UpperCamelCase_: int = -1 , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[TensorType] = None , ):
__lowerCamelCase = self._generate_dummy_inputs_for_sequence_classification_and_question_answering(
UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
if self.use_past:
if not is_torch_available():
raise ValueError("""Cannot generate dummy past_keys inputs without PyTorch installed.""" )
else:
import torch
__lowerCamelCase, __lowerCamelCase = common_inputs["""input_ids"""].shape
# Not using the same length for past_key_values
__lowerCamelCase = seqlen + 2
__lowerCamelCase, __lowerCamelCase = self.num_layers
__lowerCamelCase, __lowerCamelCase = self.num_attention_heads
__lowerCamelCase = (
batch,
num_encoder_attention_heads,
past_key_values_length,
self._config.hidden_size // num_encoder_attention_heads,
)
__lowerCamelCase = common_inputs["""attention_mask"""].dtype
__lowerCamelCase = torch.cat(
[common_inputs["""attention_mask"""], torch.ones(UpperCamelCase_ , UpperCamelCase_ , dtype=UpperCamelCase_ )] , dim=1 )
__lowerCamelCase = [
(torch.zeros(UpperCamelCase_ ), torch.zeros(UpperCamelCase_ )) for _ in range(UpperCamelCase_ )
]
return common_inputs
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: PreTrainedTokenizer , UpperCamelCase_: int = -1 , UpperCamelCase_: int = -1 , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[TensorType] = None , ):
# Copied from OnnxConfig.generate_dummy_inputs
# Did not use super(OnnxConfigWithPast, self).generate_dummy_inputs for code clarity.
# If dynamic axis (-1) we forward with a fixed dimension of 2 samples to avoid optimizations made by ONNX
__lowerCamelCase = compute_effective_axis_dimension(
UpperCamelCase_ , fixed_dimension=OnnxConfig.default_fixed_batch , num_token_to_add=0 )
# If dynamic axis (-1) we forward with a fixed dimension of 8 tokens to avoid optimizations made by ONNX
__lowerCamelCase = tokenizer.num_special_tokens_to_add(UpperCamelCase_ )
__lowerCamelCase = compute_effective_axis_dimension(
UpperCamelCase_ , fixed_dimension=OnnxConfig.default_fixed_sequence , num_token_to_add=UpperCamelCase_ )
# Generate dummy inputs according to compute batch and sequence
__lowerCamelCase = [""" """.join([tokenizer.unk_token] ) * seq_length] * batch_size
__lowerCamelCase = dict(tokenizer(UpperCamelCase_ , return_tensors=UpperCamelCase_ ) )
return common_inputs
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: PreTrainedTokenizer , UpperCamelCase_: int = -1 , UpperCamelCase_: int = -1 , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[TensorType] = None , ):
if self.task in ["default", "seq2seq-lm"]:
__lowerCamelCase = self._generate_dummy_inputs_for_default_and_seqaseq_lm(
UpperCamelCase_ , batch_size=UpperCamelCase_ , seq_length=UpperCamelCase_ , is_pair=UpperCamelCase_ , framework=UpperCamelCase_ )
elif self.task == "causal-lm":
__lowerCamelCase = self._generate_dummy_inputs_for_causal_lm(
UpperCamelCase_ , batch_size=UpperCamelCase_ , seq_length=UpperCamelCase_ , is_pair=UpperCamelCase_ , framework=UpperCamelCase_ )
else:
__lowerCamelCase = self._generate_dummy_inputs_for_sequence_classification_and_question_answering(
UpperCamelCase_ , batch_size=UpperCamelCase_ , seq_length=UpperCamelCase_ , is_pair=UpperCamelCase_ , framework=UpperCamelCase_ )
return common_inputs
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: Optional[Any] , UpperCamelCase_: List[Any] , UpperCamelCase_: List[str] , UpperCamelCase_: List[str] ):
if self.task in ["default", "seq2seq-lm"]:
__lowerCamelCase = super()._flatten_past_key_values_(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
else:
__lowerCamelCase = super(UpperCamelCase_ , self )._flatten_past_key_values_(
UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
| 12 |
import os
import torch
from ..logging import get_logger
from .constants import FSDP_PYTORCH_VERSION, MODEL_NAME, OPTIMIZER_NAME
from .versions import is_torch_version
if is_torch_version('>=', FSDP_PYTORCH_VERSION):
import torch.distributed.checkpoint as dist_cp
from torch.distributed.checkpoint.default_planner import DefaultLoadPlanner, DefaultSavePlanner
from torch.distributed.checkpoint.optimizer import load_sharded_optimizer_state_dict
from torch.distributed.fsdp.fully_sharded_data_parallel import FullyShardedDataParallel as FSDP
from torch.distributed.fsdp.fully_sharded_data_parallel import StateDictType
UpperCAmelCase_ = get_logger(__name__)
def lowerCamelCase__ ( A__ : Union[str, Any] , A__ : str , A__ : Any , A__ : Dict , A__ : Any=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = model.state_dict()
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
if accelerator.process_index == 0:
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving model to {ckpt_dir}' )
__lowerCamelCase = {"""model""": state_dict}
dist_cp.save_state_dict(
state_dict=A__ , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Model saved to {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : Dict , A__ : int , A__ : List[str] , A__ : Any=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if type(A__ ) != FSDP and accelerator.process_index != 0:
if not fsdp_plugin.sync_module_states:
raise ValueError(
"""Set the `sync_module_states` flag to `True` so that model states are synced across processes when """
"""initializing FSDP object""" )
return
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = (
os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
if f'{MODEL_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading model from {ckpt_dir}' )
__lowerCamelCase = {"""model""": model.state_dict()}
dist_cp.load_state_dict(
state_dict=A__ , storage_reader=dist_cp.FileSystemReader(A__ ) , planner=DefaultLoadPlanner() , )
__lowerCamelCase = state_dict["""model"""]
logger.info(f'Model loaded from {ckpt_dir}' )
model.load_state_dict(A__ )
def lowerCamelCase__ ( A__ : List[str] , A__ : List[str] , A__ : str , A__ : Dict , A__ : Optional[Any] , A__ : Optional[int]=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = FSDP.optim_state_dict(A__ , A__ )
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if accelerator.process_index == 0:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving Optimizer state to {output_optimizer_file}' )
torch.save(A__ , A__ )
logger.info(f'Optimizer state saved in {output_optimizer_file}' )
else:
__lowerCamelCase = os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving Optimizer state to {ckpt_dir}' )
dist_cp.save_state_dict(
state_dict={"""optimizer""": optim_state} , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Optimizer state saved in {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : List[str] , A__ : int , A__ : Any , A__ : Union[str, Any] , A__ : List[Any]=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = None
# below check should work but currently it isn't working (mostly opytorch issue),
# in the meantime disabling it at the cost of excess memory usage
# if accelerator.process_index == 0 or not fsdp_plugin.optim_state_dict_config.rank0_only:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading Optimizer state from {input_optimizer_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Optimizer state loaded from {input_optimizer_file}' )
else:
__lowerCamelCase = (
os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
if f'{OPTIMIZER_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading Optimizer from {ckpt_dir}' )
__lowerCamelCase = load_sharded_optimizer_state_dict(
model_state_dict=model.state_dict() , optimizer_key="""optimizer""" , storage_reader=dist_cp.FileSystemReader(A__ ) , )
__lowerCamelCase = optim_state["""optimizer"""]
logger.info(f'Optimizer loaded from {ckpt_dir}' )
__lowerCamelCase = FSDP.optim_state_dict_to_load(A__ , A__ , A__ )
optimizer.load_state_dict(A__ )
| 12 | 1 |
import unittest
from transformers import is_torch_available
from transformers.testing_utils import require_torch
if is_torch_available():
import torch
from transformers.generation import DisjunctiveConstraint
@require_torch
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: int ):
# For consistency across different places the DisjunctiveConstraint is called,
# dc.token_ids is a list of integers. It is also initialized only by integers.
__lowerCamelCase = [[1, 2, 4], [1, 2, 3, 4]]
__lowerCamelCase = DisjunctiveConstraint(UpperCamelCase_ )
self.assertTrue(isinstance(dc.token_ids , UpperCamelCase_ ) )
with self.assertRaises(UpperCamelCase_ ):
DisjunctiveConstraint(torch.LongTensor([[1, 2, 4], [1, 2, 3]] ) )
with self.assertRaises(UpperCamelCase_ ):
DisjunctiveConstraint([torch.LongTensor([1, 2, 4] ), torch.LongTensor([1, 2, 3, 4, 5] )] )
def lowerCAmelCase__ ( self: Any ):
# We can't have constraints that are complete subsets of another. This leads to a preverse
# interpretation of "constraint fulfillment": does generating [1,2,3] fulfill the constraint?
# It would mean that it generated [1,2] which fulfills it, but it's in the middle of potentially
# fulfilling [1,2,3,4]. If we believe that [1,2,3] does fulfill the constraint, then the algorithm
# will necessarily never reach [1,2,3,4], giving users a false sense of control (better to just not allow it).
__lowerCamelCase = [[1, 2], [1, 2, 3, 4]]
with self.assertRaises(UpperCamelCase_ ):
DisjunctiveConstraint(UpperCamelCase_ ) # fails here
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = [[1, 2, 3], [1, 2, 4]]
__lowerCamelCase = DisjunctiveConstraint(UpperCamelCase_ )
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = dc.update(1 )
__lowerCamelCase = stepped is True and completed is False and reset is False
self.assertTrue(UpperCamelCase_ )
self.assertTrue(not dc.completed )
self.assertTrue(dc.current_seq == [1] )
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = dc.update(2 )
__lowerCamelCase = stepped is True and completed is False and reset is False
self.assertTrue(UpperCamelCase_ )
self.assertTrue(not dc.completed )
self.assertTrue(dc.current_seq == [1, 2] )
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = dc.update(3 )
__lowerCamelCase = stepped is True and completed is True and reset is False
self.assertTrue(UpperCamelCase_ )
self.assertTrue(dc.completed ) # Completed!
self.assertTrue(dc.current_seq == [1, 2, 3] )
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = [[1, 2, 3], [1, 2, 4, 5], [1, 2, 5]]
__lowerCamelCase = DisjunctiveConstraint(UpperCamelCase_ )
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = dc.update(1 )
self.assertTrue(not dc.completed )
self.assertTrue(dc.current_seq == [1] )
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = dc.update(2 )
self.assertTrue(not dc.completed )
self.assertTrue(dc.current_seq == [1, 2] )
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = dc.update(4 )
self.assertTrue(not dc.completed )
self.assertTrue(dc.current_seq == [1, 2, 4] )
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = dc.update(5 )
self.assertTrue(dc.completed ) # Completed!
self.assertTrue(dc.current_seq == [1, 2, 4, 5] )
dc.reset()
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = dc.update(1 )
self.assertTrue(not dc.completed )
self.assertTrue(dc.remaining() == 3 )
self.assertTrue(dc.current_seq == [1] )
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = dc.update(2 )
self.assertTrue(not dc.completed )
self.assertTrue(dc.remaining() == 2 )
self.assertTrue(dc.current_seq == [1, 2] )
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = dc.update(5 )
self.assertTrue(dc.completed ) # Completed!
self.assertTrue(dc.remaining() == 0 )
self.assertTrue(dc.current_seq == [1, 2, 5] )
| 12 |
import gc
import random
import unittest
import numpy as np
import torch
from transformers import CLIPImageProcessor, CLIPVisionConfig, CLIPVisionModel
from diffusers import HeunDiscreteScheduler, PriorTransformer, ShapEImgaImgPipeline
from diffusers.pipelines.shap_e import ShapERenderer
from diffusers.utils import floats_tensor, load_image, 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 lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Tuple = ShapEImgaImgPipeline
UpperCAmelCase__ : Optional[Any] = ['image']
UpperCAmelCase__ : int = ['image']
UpperCAmelCase__ : Any = [
'num_images_per_prompt',
'num_inference_steps',
'generator',
'latents',
'guidance_scale',
'frame_size',
'output_type',
'return_dict',
]
UpperCAmelCase__ : int = False
@property
def lowerCAmelCase__ ( self: int ):
return 32
@property
def lowerCAmelCase__ ( self: List[str] ):
return 32
@property
def lowerCAmelCase__ ( self: Any ):
return self.time_input_dim * 4
@property
def lowerCAmelCase__ ( self: Dict ):
return 8
@property
def lowerCAmelCase__ ( self: int ):
torch.manual_seed(0 )
__lowerCamelCase = CLIPVisionConfig(
hidden_size=self.text_embedder_hidden_size , image_size=64 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=1 , )
__lowerCamelCase = CLIPVisionModel(UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = CLIPImageProcessor(
crop_size=2_24 , do_center_crop=UpperCamelCase_ , do_normalize=UpperCamelCase_ , do_resize=UpperCamelCase_ , image_mean=[0.4814_5466, 0.457_8275, 0.4082_1073] , image_std=[0.2686_2954, 0.2613_0258, 0.2757_7711] , resample=3 , size=2_24 , )
return image_processor
@property
def lowerCAmelCase__ ( self: Tuple ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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""",
"""embedding_proj_norm_type""": """layer""",
"""encoder_hid_proj_type""": None,
"""added_emb_type""": None,
}
__lowerCamelCase = PriorTransformer(**UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: List[Any] ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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,
),
}
__lowerCamelCase = ShapERenderer(**UpperCamelCase_ )
return model
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = self.dummy_prior
__lowerCamelCase = self.dummy_image_encoder
__lowerCamelCase = self.dummy_image_processor
__lowerCamelCase = self.dummy_renderer
__lowerCamelCase = HeunDiscreteScheduler(
beta_schedule="""exp""" , num_train_timesteps=10_24 , prediction_type="""sample""" , use_karras_sigmas=UpperCamelCase_ , clip_sample=UpperCamelCase_ , clip_sample_range=1.0 , )
__lowerCamelCase = {
"""prior""": prior,
"""image_encoder""": image_encoder,
"""image_processor""": image_processor,
"""renderer""": renderer,
"""scheduler""": scheduler,
}
return components
def lowerCAmelCase__ ( self: int , UpperCamelCase_: List[Any] , UpperCamelCase_: Dict=0 ):
__lowerCamelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""image""": input_image,
"""generator""": generator,
"""num_inference_steps""": 1,
"""frame_size""": 32,
"""output_type""": """np""",
}
return inputs
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = """cpu"""
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = pipe(**self.get_dummy_inputs(UpperCamelCase_ ) )
__lowerCamelCase = output.images[0]
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (20, 32, 32, 3)
__lowerCamelCase = np.array(
[
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: List[str] ):
# NOTE: Larger batch sizes cause this test to timeout, only test on smaller batches
self._test_inference_batch_consistent(batch_sizes=[1, 2] )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = torch_device == """cpu"""
__lowerCamelCase = True
self._test_inference_batch_single_identical(
batch_size=2 , test_max_difference=UpperCamelCase_ , relax_max_difference=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = 1
__lowerCamelCase = 2
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
for key in inputs.keys():
if key in self.batch_params:
__lowerCamelCase = batch_size * [inputs[key]]
__lowerCamelCase = pipe(**UpperCamelCase_ , num_images_per_prompt=UpperCamelCase_ )[0]
assert images.shape[0] == batch_size * num_images_per_prompt
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: Union[str, Any] ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/shap_e/corgi.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/shap_e/test_shap_e_img2img_out.npy""" )
__lowerCamelCase = ShapEImgaImgPipeline.from_pretrained("""openai/shap-e-img2img""" )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(0 )
__lowerCamelCase = pipe(
UpperCamelCase_ , generator=UpperCamelCase_ , guidance_scale=3.0 , 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_ )
| 12 | 1 |
from __future__ import annotations
from collections.abc import Iterator
from typing import Generic, TypeVar
UpperCAmelCase_ = TypeVar('T')
class lowerCamelCase__( Generic[T]):
def __init__( self: List[str] , UpperCamelCase_: T ):
__lowerCamelCase = data
__lowerCamelCase = None
def __str__( self: Optional[Any] ):
return F'{self.data}'
class lowerCamelCase__( Generic[T]):
def __init__( self: List[str] ):
__lowerCamelCase = None
def __iter__( self: Tuple ):
__lowerCamelCase = self.top
while node:
yield node.data
__lowerCamelCase = node.next
def __str__( self: Any ):
return "->".join([str(UpperCamelCase_ ) for item in self] )
def __len__( self: List[Any] ):
return len(tuple(iter(self ) ) )
def lowerCAmelCase__ ( self: Union[str, Any] ):
return self.top is None
def lowerCAmelCase__ ( self: str , UpperCamelCase_: T ):
__lowerCamelCase = Node(UpperCamelCase_ )
if not self.is_empty():
__lowerCamelCase = self.top
__lowerCamelCase = node
def lowerCAmelCase__ ( self: int ):
if self.is_empty():
raise IndexError("""pop from empty stack""" )
assert isinstance(self.top , UpperCamelCase_ )
__lowerCamelCase = self.top
__lowerCamelCase = self.top.next
return pop_node.data
def lowerCAmelCase__ ( self: str ):
if self.is_empty():
raise IndexError("""peek from empty stack""" )
assert self.top is not None
return self.top.data
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = None
if __name__ == "__main__":
from doctest import testmod
testmod()
| 12 |
from typing import List, Optional, Union
import torch
from ...models import UNetaDConditionModel, VQModel
from ...pipelines import DiffusionPipeline
from ...pipelines.pipeline_utils import ImagePipelineOutput
from ...schedulers import DDPMScheduler
from ...utils import (
is_accelerate_available,
is_accelerate_version,
logging,
randn_tensor,
replace_example_docstring,
)
UpperCAmelCase_ = logging.get_logger(__name__) # pylint: disable=invalid-name
UpperCAmelCase_ = '\n Examples:\n ```py\n >>> import torch\n >>> import numpy as np\n\n >>> from diffusers import KandinskyV22PriorPipeline, KandinskyV22ControlnetPipeline\n >>> from transformers import pipeline\n >>> from diffusers.utils import load_image\n\n\n >>> def make_hint(image, depth_estimator):\n ... image = depth_estimator(image)["depth"]\n ... image = np.array(image)\n ... image = image[:, :, None]\n ... image = np.concatenate([image, image, image], axis=2)\n ... detected_map = torch.from_numpy(image).float() / 255.0\n ... hint = detected_map.permute(2, 0, 1)\n ... return hint\n\n\n >>> depth_estimator = pipeline("depth-estimation")\n\n >>> pipe_prior = KandinskyV22PriorPipeline.from_pretrained(\n ... "kandinsky-community/kandinsky-2-2-prior", torch_dtype=torch.float16\n ... )\n >>> pipe_prior = pipe_prior.to("cuda")\n\n >>> pipe = KandinskyV22ControlnetPipeline.from_pretrained(\n ... "kandinsky-community/kandinsky-2-2-controlnet-depth", torch_dtype=torch.float16\n ... )\n >>> pipe = pipe.to("cuda")\n\n\n >>> img = load_image(\n ... "https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"\n ... "/kandinsky/cat.png"\n ... ).resize((768, 768))\n\n >>> hint = make_hint(img, depth_estimator).unsqueeze(0).half().to("cuda")\n\n >>> prompt = "A robot, 4k photo"\n >>> negative_prior_prompt = "lowres, text, error, cropped, worst quality, low quality, jpeg artifacts, ugly, duplicate, morbid, mutilated, out of frame, extra fingers, mutated hands, poorly drawn hands, poorly drawn face, mutation, deformed, blurry, dehydrated, bad anatomy, bad proportions, extra limbs, cloned face, disfigured, gross proportions, malformed limbs, missing arms, missing legs, extra arms, extra legs, fused fingers, too many fingers, long neck, username, watermark, signature"\n\n >>> generator = torch.Generator(device="cuda").manual_seed(43)\n\n >>> image_emb, zero_image_emb = pipe_prior(\n ... prompt=prompt, negative_prompt=negative_prior_prompt, generator=generator\n ... ).to_tuple()\n\n >>> images = pipe(\n ... image_embeds=image_emb,\n ... negative_image_embeds=zero_image_emb,\n ... hint=hint,\n ... num_inference_steps=50,\n ... generator=generator,\n ... height=768,\n ... width=768,\n ... ).images\n\n >>> images[0].save("robot_cat.png")\n ```\n'
def lowerCamelCase__ ( A__ : Optional[int] , A__ : Dict , A__ : Optional[int]=8 ):
'''simple docstring'''
__lowerCamelCase = height // scale_factor**2
if height % scale_factor**2 != 0:
new_height += 1
__lowerCamelCase = width // scale_factor**2
if width % scale_factor**2 != 0:
new_width += 1
return new_height * scale_factor, new_width * scale_factor
class lowerCamelCase__( __lowerCamelCase):
def __init__( self: List[Any] , UpperCamelCase_: UNetaDConditionModel , UpperCamelCase_: DDPMScheduler , UpperCamelCase_: VQModel , ):
super().__init__()
self.register_modules(
unet=UpperCamelCase_ , scheduler=UpperCamelCase_ , movq=UpperCamelCase_ , )
__lowerCamelCase = 2 ** (len(self.movq.config.block_out_channels ) - 1)
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Any , UpperCamelCase_: Tuple , UpperCamelCase_: int , UpperCamelCase_: Dict , UpperCamelCase_: Dict , UpperCamelCase_: int ):
if latents is None:
__lowerCamelCase = randn_tensor(UpperCamelCase_ , generator=UpperCamelCase_ , device=UpperCamelCase_ , dtype=UpperCamelCase_ )
else:
if latents.shape != shape:
raise ValueError(F'Unexpected latents shape, got {latents.shape}, expected {shape}' )
__lowerCamelCase = latents.to(UpperCamelCase_ )
__lowerCamelCase = latents * scheduler.init_noise_sigma
return latents
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: str=0 ):
if is_accelerate_available():
from accelerate import cpu_offload
else:
raise ImportError("""Please install accelerate via `pip install accelerate`""" )
__lowerCamelCase = torch.device(F'cuda:{gpu_id}' )
__lowerCamelCase = [
self.unet,
self.movq,
]
for cpu_offloaded_model in models:
if cpu_offloaded_model is not None:
cpu_offload(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[int]=0 ):
if is_accelerate_available() and is_accelerate_version(""">=""" , """0.17.0.dev0""" ):
from accelerate import cpu_offload_with_hook
else:
raise ImportError("""`enable_model_cpu_offload` requires `accelerate v0.17.0` or higher.""" )
__lowerCamelCase = torch.device(F'cuda:{gpu_id}' )
if self.device.type != "cpu":
self.to("""cpu""" , silence_dtype_warnings=UpperCamelCase_ )
torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist)
__lowerCamelCase = None
for cpu_offloaded_model in [self.unet, self.movq]:
__lowerCamelCase, __lowerCamelCase = cpu_offload_with_hook(UpperCamelCase_ , UpperCamelCase_ , prev_module_hook=UpperCamelCase_ )
# We'll offload the last model manually.
__lowerCamelCase = hook
@property
# Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device
def lowerCAmelCase__ ( self: int ):
if not hasattr(self.unet , """_hf_hook""" ):
return self.device
for module in self.unet.modules():
if (
hasattr(UpperCamelCase_ , """_hf_hook""" )
and hasattr(module._hf_hook , """execution_device""" )
and module._hf_hook.execution_device is not None
):
return torch.device(module._hf_hook.execution_device )
return self.device
@torch.no_grad()
@replace_example_docstring(UpperCamelCase_ )
def __call__( self: Tuple , UpperCamelCase_: Union[torch.FloatTensor, List[torch.FloatTensor]] , UpperCamelCase_: Union[torch.FloatTensor, List[torch.FloatTensor]] , UpperCamelCase_: torch.FloatTensor , UpperCamelCase_: int = 5_12 , UpperCamelCase_: int = 5_12 , UpperCamelCase_: int = 1_00 , UpperCamelCase_: float = 4.0 , UpperCamelCase_: int = 1 , UpperCamelCase_: Optional[Union[torch.Generator, List[torch.Generator]]] = None , UpperCamelCase_: Optional[torch.FloatTensor] = None , UpperCamelCase_: Optional[str] = "pil" , UpperCamelCase_: bool = True , ):
__lowerCamelCase = self._execution_device
__lowerCamelCase = guidance_scale > 1.0
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
__lowerCamelCase = image_embeds.shape[0] * num_images_per_prompt
if do_classifier_free_guidance:
__lowerCamelCase = image_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = negative_image_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = hint.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = torch.cat([negative_image_embeds, image_embeds] , dim=0 ).to(dtype=self.unet.dtype , device=UpperCamelCase_ )
__lowerCamelCase = torch.cat([hint, hint] , dim=0 ).to(dtype=self.unet.dtype , device=UpperCamelCase_ )
self.scheduler.set_timesteps(UpperCamelCase_ , device=UpperCamelCase_ )
__lowerCamelCase = self.scheduler.timesteps
__lowerCamelCase = self.movq.config.latent_channels
__lowerCamelCase, __lowerCamelCase = downscale_height_and_width(UpperCamelCase_ , UpperCamelCase_ , self.movq_scale_factor )
# create initial latent
__lowerCamelCase = self.prepare_latents(
(batch_size, num_channels_latents, height, width) , image_embeds.dtype , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , self.scheduler , )
for i, t in enumerate(self.progress_bar(UpperCamelCase_ ) ):
# expand the latents if we are doing classifier free guidance
__lowerCamelCase = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents
__lowerCamelCase = {"""image_embeds""": image_embeds, """hint""": hint}
__lowerCamelCase = self.unet(
sample=UpperCamelCase_ , timestep=UpperCamelCase_ , encoder_hidden_states=UpperCamelCase_ , added_cond_kwargs=UpperCamelCase_ , return_dict=UpperCamelCase_ , )[0]
if do_classifier_free_guidance:
__lowerCamelCase, __lowerCamelCase = noise_pred.split(latents.shape[1] , dim=1 )
__lowerCamelCase, __lowerCamelCase = noise_pred.chunk(2 )
__lowerCamelCase, __lowerCamelCase = variance_pred.chunk(2 )
__lowerCamelCase = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
__lowerCamelCase = torch.cat([noise_pred, variance_pred_text] , dim=1 )
if not (
hasattr(self.scheduler.config , """variance_type""" )
and self.scheduler.config.variance_type in ["learned", "learned_range"]
):
__lowerCamelCase, __lowerCamelCase = noise_pred.split(latents.shape[1] , dim=1 )
# compute the previous noisy sample x_t -> x_t-1
__lowerCamelCase = self.scheduler.step(
UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , generator=UpperCamelCase_ , )[0]
# post-processing
__lowerCamelCase = self.movq.decode(UpperCamelCase_ , force_not_quantize=UpperCamelCase_ )["""sample"""]
if output_type not in ["pt", "np", "pil"]:
raise ValueError(F'Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}' )
if output_type in ["np", "pil"]:
__lowerCamelCase = image * 0.5 + 0.5
__lowerCamelCase = image.clamp(0 , 1 )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy()
if output_type == "pil":
__lowerCamelCase = self.numpy_to_pil(UpperCamelCase_ )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=UpperCamelCase_ )
| 12 | 1 |
from string import ascii_uppercase
UpperCAmelCase_ = {str(ord(c) - 55): c for c in ascii_uppercase}
def lowerCamelCase__ ( A__ : int , A__ : int ):
'''simple docstring'''
if isinstance(A__ , A__ ):
raise TypeError("""int() can't convert non-string with explicit base""" )
if num < 0:
raise ValueError("""parameter must be positive int""" )
if isinstance(A__ , A__ ):
raise TypeError("""'str' object cannot be interpreted as an integer""" )
if isinstance(A__ , A__ ):
raise TypeError("""'float' object cannot be interpreted as an integer""" )
if base in (0, 1):
raise ValueError("""base must be >= 2""" )
if base > 36:
raise ValueError("""base must be <= 36""" )
__lowerCamelCase = """"""
__lowerCamelCase = 0
__lowerCamelCase = 0
while div != 1:
__lowerCamelCase, __lowerCamelCase = divmod(A__ , A__ )
if base >= 11 and 9 < mod < 36:
__lowerCamelCase = ALPHABET_VALUES[str(A__ )]
else:
__lowerCamelCase = str(A__ )
new_value += actual_value
__lowerCamelCase = num // base
__lowerCamelCase = div
if div == 0:
return str(new_value[::-1] )
elif div == 1:
new_value += str(A__ )
return str(new_value[::-1] )
return new_value[::-1]
if __name__ == "__main__":
import doctest
doctest.testmod()
for base in range(2, 37):
for num in range(1_000):
assert int(decimal_to_any(num, base), base) == num, (
num,
base,
decimal_to_any(num, base),
int(decimal_to_any(num, base), base),
)
| 12 |
import unittest
from transformers import BigBirdConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask
if is_flax_available():
import jax
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class lowerCamelCase__( unittest.TestCase):
def __init__( self: Optional[int] , UpperCamelCase_: Any , UpperCamelCase_: int=2 , UpperCamelCase_: Optional[Any]=56 , UpperCamelCase_: Tuple=True , UpperCamelCase_: Union[str, Any]=True , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: str=True , UpperCamelCase_: str=99 , UpperCamelCase_: Tuple=32 , UpperCamelCase_: int=2 , UpperCamelCase_: Optional[int]=2 , UpperCamelCase_: Tuple=7 , UpperCamelCase_: Optional[int]="gelu_new" , UpperCamelCase_: Any=0.1 , UpperCamelCase_: List[str]=0.1 , UpperCamelCase_: List[Any]=5_12 , UpperCamelCase_: Union[str, Any]=16 , UpperCamelCase_: int=2 , UpperCamelCase_: Dict=0.02 , UpperCamelCase_: Tuple=4 , UpperCamelCase_: Union[str, Any]="block_sparse" , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: Any=False , UpperCamelCase_: Any=2 , UpperCamelCase_: int=3 , ):
__lowerCamelCase = parent
__lowerCamelCase = batch_size
__lowerCamelCase = seq_length
__lowerCamelCase = is_training
__lowerCamelCase = use_attention_mask
__lowerCamelCase = use_token_type_ids
__lowerCamelCase = use_labels
__lowerCamelCase = vocab_size
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = intermediate_size
__lowerCamelCase = hidden_act
__lowerCamelCase = hidden_dropout_prob
__lowerCamelCase = attention_probs_dropout_prob
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = type_vocab_size
__lowerCamelCase = type_sequence_label_size
__lowerCamelCase = initializer_range
__lowerCamelCase = num_choices
__lowerCamelCase = rescale_embeddings
__lowerCamelCase = attention_type
__lowerCamelCase = use_bias
__lowerCamelCase = block_size
__lowerCamelCase = num_random_blocks
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__lowerCamelCase = None
if self.use_attention_mask:
__lowerCamelCase = random_attention_mask([self.batch_size, self.seq_length] )
__lowerCamelCase = None
if self.use_token_type_ids:
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
__lowerCamelCase = BigBirdConfig(
vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=UpperCamelCase_ , initializer_range=self.initializer_range , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = self.prepare_config_and_inputs()
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = config_and_inputs
__lowerCamelCase = {
"""input_ids""": input_ids,
"""token_type_ids""": token_type_ids,
"""attention_mask""": attention_mask,
}
return config, inputs_dict
@require_flax
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Optional[int] = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
UpperCAmelCase__ : Optional[int] = False
UpperCAmelCase__ : Optional[int] = False
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: Optional[Any] ):
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[str] ):
super().test_hidden_states_output()
@slow
def lowerCAmelCase__ ( self: Optional[Any] ):
for model_class_name in self.all_model_classes:
__lowerCamelCase = model_class_name.from_pretrained("""google/bigbird-roberta-base""" )
self.assertIsNotNone(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict ):
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
__lowerCamelCase = self._prepare_for_class(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = model_class(UpperCamelCase_ )
@jax.jit
def model_jitted(UpperCamelCase_: Tuple , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: Union[str, Any] ):
return model(input_ids=UpperCamelCase_ , attention_mask=UpperCamelCase_ , **UpperCamelCase_ )
with self.subTest("""JIT Enabled""" ):
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
with self.subTest("""JIT Disabled""" ):
with jax.disable_jit():
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
self.assertEqual(len(UpperCamelCase_ ) , len(UpperCamelCase_ ) )
for jitted_output, output in zip(UpperCamelCase_ , UpperCamelCase_ ):
self.assertEqual(jitted_output.shape , output.shape )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: int , UpperCamelCase_: List[str] , UpperCamelCase_: Any , UpperCamelCase_: Dict=1E-5 , UpperCamelCase_: List[str]="outputs" , UpperCamelCase_: List[str]=None ):
# `bigbird_block_sparse_attention` in `FlaxBigBird` returns `attention_probs = None`, while in PyTorch version,
# an effort was done to return `attention_probs` (yet to be verified).
if name.startswith("""outputs.attentions""" ):
return
else:
super().check_pt_flax_outputs(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
| 12 | 1 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : list[int] , A__ : list[int] , A__ : list[int] , A__ : list[list[str]] , A__ : int , ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
# If row is equal to the size of the board it means there are a queen in each row in
# the current board (possible_board)
if row == n:
# We convert the variable possible_board that looks like this: [1, 3, 0, 2] to
# this: ['. Q . . ', '. . . Q ', 'Q . . . ', '. . Q . ']
boards.append([""". """ * i + """Q """ + """. """ * (n - 1 - i) for i in possible_board] )
return
# We iterate each column in the row to find all possible results in each row
for col in range(A__ ):
# We apply that we learned previously. First we check that in the current board
# (possible_board) there are not other same value because if there is it means
# that there are a collision in vertical. Then we apply the two formulas we
# learned before:
#
# 45º: y - x = b or 45: row - col = b
# 135º: y + x = b or row + col = b.
#
# And we verify if the results of this two formulas not exist in their variables
# respectively. (diagonal_right_collisions, diagonal_left_collisions)
#
# If any or these are True it means there is a collision so we continue to the
# next value in the for loop.
if (
col in possible_board
or row - col in diagonal_right_collisions
or row + col in diagonal_left_collisions
):
continue
# If it is False we call dfs function again and we update the inputs
depth_first_search(
[*possible_board, col] , [*diagonal_right_collisions, row - col] , [*diagonal_left_collisions, row + col] , A__ , A__ , )
def lowerCamelCase__ ( A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
depth_first_search([] , [] , [] , A__ , A__ )
# Print all the boards
for board in boards:
for column in board:
print(A__ )
print("""""" )
print(len(A__ ) , """solutions were found.""" )
if __name__ == "__main__":
import doctest
doctest.testmod()
n_queens_solution(4)
| 12 |
def lowerCamelCase__ ( A__ : list ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
for _ in range(A__ ):
for i in range(_ % 2 , arr_size - 1 , 2 ):
if arr[i + 1] < arr[i]:
__lowerCamelCase, __lowerCamelCase = arr[i + 1], arr[i]
return arr
if __name__ == "__main__":
UpperCAmelCase_ = list(range(10, 0, -1))
print(f"""Original: {arr}. Sorted: {odd_even_transposition(arr)}""")
| 12 | 1 |
import argparse
import torch
from transformers import (
WavaVecaConfig,
WavaVecaFeatureExtractor,
WavaVecaForAudioFrameClassification,
WavaVecaForSequenceClassification,
WavaVecaForXVector,
logging,
)
logging.set_verbosity_info()
UpperCAmelCase_ = logging.get_logger(__name__)
def lowerCamelCase__ ( A__ : Tuple , A__ : int , A__ : Any ):
'''simple docstring'''
__lowerCamelCase = WavaVecaForSequenceClassification.from_pretrained(A__ , config=A__ )
__lowerCamelCase = downstream_dict["""projector.weight"""]
__lowerCamelCase = downstream_dict["""projector.bias"""]
__lowerCamelCase = downstream_dict["""model.post_net.linear.weight"""]
__lowerCamelCase = downstream_dict["""model.post_net.linear.bias"""]
return model
def lowerCamelCase__ ( A__ : Optional[Any] , A__ : Optional[Any] , A__ : Union[str, Any] ):
'''simple docstring'''
__lowerCamelCase = WavaVecaForAudioFrameClassification.from_pretrained(A__ , config=A__ )
__lowerCamelCase = downstream_dict["""model.linear.weight"""]
__lowerCamelCase = downstream_dict["""model.linear.bias"""]
return model
def lowerCamelCase__ ( A__ : Optional[int] , A__ : Tuple , A__ : Dict ):
'''simple docstring'''
__lowerCamelCase = WavaVecaForXVector.from_pretrained(A__ , config=A__ )
__lowerCamelCase = downstream_dict["""connector.weight"""]
__lowerCamelCase = downstream_dict["""connector.bias"""]
for i, kernel_size in enumerate(hf_config.tdnn_kernel ):
__lowerCamelCase = downstream_dict[
f'model.framelevel_feature_extractor.module.{i}.kernel.weight'
]
__lowerCamelCase = downstream_dict[f'model.framelevel_feature_extractor.module.{i}.kernel.bias']
__lowerCamelCase = downstream_dict["""model.utterancelevel_feature_extractor.linear1.weight"""]
__lowerCamelCase = downstream_dict["""model.utterancelevel_feature_extractor.linear1.bias"""]
__lowerCamelCase = downstream_dict["""model.utterancelevel_feature_extractor.linear2.weight"""]
__lowerCamelCase = downstream_dict["""model.utterancelevel_feature_extractor.linear2.bias"""]
__lowerCamelCase = downstream_dict["""objective.W"""]
return model
@torch.no_grad()
def lowerCamelCase__ ( A__ : List[str] , A__ : Dict , A__ : List[str] , A__ : Tuple ):
'''simple docstring'''
__lowerCamelCase = torch.load(A__ , map_location="""cpu""" )
__lowerCamelCase = checkpoint["""Downstream"""]
__lowerCamelCase = WavaVecaConfig.from_pretrained(A__ )
__lowerCamelCase = WavaVecaFeatureExtractor.from_pretrained(
A__ , return_attention_mask=A__ , do_normalize=A__ )
__lowerCamelCase = hf_config.architectures[0]
if arch.endswith("""ForSequenceClassification""" ):
__lowerCamelCase = convert_classification(A__ , A__ , A__ )
elif arch.endswith("""ForAudioFrameClassification""" ):
__lowerCamelCase = convert_diarization(A__ , A__ , A__ )
elif arch.endswith("""ForXVector""" ):
__lowerCamelCase = convert_xvector(A__ , A__ , A__ )
else:
raise NotImplementedError(f'S3PRL weights conversion is not supported for {arch}' )
if hf_config.use_weighted_layer_sum:
__lowerCamelCase = checkpoint["""Featurizer"""]["""weights"""]
hf_feature_extractor.save_pretrained(A__ )
hf_model.save_pretrained(A__ )
if __name__ == "__main__":
UpperCAmelCase_ = argparse.ArgumentParser()
parser.add_argument(
'--base_model_name', default=None, type=str, help='Name of the huggingface pretrained base model.'
)
parser.add_argument('--config_path', default=None, type=str, help='Path to the huggingface classifier config.')
parser.add_argument('--checkpoint_path', default=None, type=str, help='Path to the s3prl checkpoint.')
parser.add_argument('--model_dump_path', default=None, type=str, help='Path to the final converted model.')
UpperCAmelCase_ = parser.parse_args()
convert_saprl_checkpoint(args.base_model_name, args.config_path, args.checkpoint_path, args.model_dump_path)
| 12 |
import os
import warnings
from typing import List, Optional
from ...tokenization_utils_base import BatchEncoding
from ...utils import logging
from .configuration_rag import RagConfig
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__:
def __init__( self: Any , UpperCamelCase_: str , UpperCamelCase_: Dict ):
__lowerCamelCase = question_encoder
__lowerCamelCase = generator
__lowerCamelCase = self.question_encoder
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[Any] ):
if os.path.isfile(UpperCamelCase_ ):
raise ValueError(F'Provided path ({save_directory}) should be a directory, not a file' )
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
__lowerCamelCase = os.path.join(UpperCamelCase_ , """question_encoder_tokenizer""" )
__lowerCamelCase = os.path.join(UpperCamelCase_ , """generator_tokenizer""" )
self.question_encoder.save_pretrained(UpperCamelCase_ )
self.generator.save_pretrained(UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: List[Any] , UpperCamelCase_: Dict , **UpperCamelCase_: Union[str, Any] ):
# dynamically import AutoTokenizer
from ..auto.tokenization_auto import AutoTokenizer
__lowerCamelCase = kwargs.pop("""config""" , UpperCamelCase_ )
if config is None:
__lowerCamelCase = RagConfig.from_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoTokenizer.from_pretrained(
UpperCamelCase_ , config=config.question_encoder , subfolder="""question_encoder_tokenizer""" )
__lowerCamelCase = AutoTokenizer.from_pretrained(
UpperCamelCase_ , config=config.generator , subfolder="""generator_tokenizer""" )
return cls(question_encoder=UpperCamelCase_ , generator=UpperCamelCase_ )
def __call__( self: Tuple , *UpperCamelCase_: int , **UpperCamelCase_: int ):
return self.current_tokenizer(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , *UpperCamelCase_: List[Any] , **UpperCamelCase_: List[Any] ):
return self.generator.batch_decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[Any] , *UpperCamelCase_: str , **UpperCamelCase_: Union[str, Any] ):
return self.generator.decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = self.question_encoder
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = self.generator
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: List[str] , UpperCamelCase_: Optional[List[str]] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: str = "longest" , UpperCamelCase_: str = None , UpperCamelCase_: bool = True , **UpperCamelCase_: int , ):
warnings.warn(
"""`prepare_seq2seq_batch` is deprecated and will be removed in version 5 of 🤗 Transformers. Use the """
"""regular `__call__` method to prepare your inputs and the tokenizer under the `with_target_tokenizer` """
"""context manager to prepare your targets. See the documentation of your specific tokenizer for more """
"""details""" , UpperCamelCase_ , )
if max_length is None:
__lowerCamelCase = self.current_tokenizer.model_max_length
__lowerCamelCase = self(
UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , max_length=UpperCamelCase_ , padding=UpperCamelCase_ , truncation=UpperCamelCase_ , **UpperCamelCase_ , )
if tgt_texts is None:
return model_inputs
# Process tgt_texts
if max_target_length is None:
__lowerCamelCase = self.current_tokenizer.model_max_length
__lowerCamelCase = self(
text_target=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , padding=UpperCamelCase_ , max_length=UpperCamelCase_ , truncation=UpperCamelCase_ , **UpperCamelCase_ , )
__lowerCamelCase = labels["""input_ids"""]
return model_inputs
| 12 | 1 |
import json
import os
import unittest
from transformers import DebertaTokenizer, DebertaTokenizerFast
from transformers.models.deberta.tokenization_deberta import VOCAB_FILES_NAMES
from transformers.testing_utils import slow
from ...test_tokenization_common import TokenizerTesterMixin
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Optional[int] = DebertaTokenizer
UpperCAmelCase__ : Tuple = True
UpperCAmelCase__ : str = DebertaTokenizerFast
def lowerCAmelCase__ ( self: str ):
super().setUp()
# Adapted from Sennrich et al. 2015 and https://github.com/rsennrich/subword-nmt
__lowerCamelCase = [
"""l""",
"""o""",
"""w""",
"""e""",
"""r""",
"""s""",
"""t""",
"""i""",
"""d""",
"""n""",
"""\u0120""",
"""\u0120l""",
"""\u0120n""",
"""\u0120lo""",
"""\u0120low""",
"""er""",
"""\u0120lowest""",
"""\u0120newer""",
"""\u0120wider""",
"""[UNK]""",
]
__lowerCamelCase = dict(zip(UpperCamelCase_ , range(len(UpperCamelCase_ ) ) ) )
__lowerCamelCase = ["""#version: 0.2""", """\u0120 l""", """\u0120l o""", """\u0120lo w""", """e r""", """"""]
__lowerCamelCase = {"""unk_token""": """[UNK]"""}
__lowerCamelCase = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["""vocab_file"""] )
__lowerCamelCase = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["""merges_file"""] )
with open(self.vocab_file , """w""" , encoding="""utf-8""" ) as fp:
fp.write(json.dumps(UpperCamelCase_ ) + """\n""" )
with open(self.merges_file , """w""" , encoding="""utf-8""" ) as fp:
fp.write("""\n""".join(UpperCamelCase_ ) )
def lowerCAmelCase__ ( self: List[Any] , **UpperCamelCase_: List[Any] ):
kwargs.update(self.special_tokens_map )
return self.tokenizer_class.from_pretrained(self.tmpdirname , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: Dict ):
__lowerCamelCase = """lower newer"""
__lowerCamelCase = """lower newer"""
return input_text, output_text
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = self.get_tokenizer()
__lowerCamelCase = """lower newer"""
__lowerCamelCase = ["""l""", """o""", """w""", """er""", """\u0120""", """n""", """e""", """w""", """er"""]
__lowerCamelCase = tokenizer.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = tokens + [tokenizer.unk_token]
__lowerCamelCase = [0, 1, 2, 15, 10, 9, 3, 2, 15, 19]
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCamelCase_ ) , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = self.get_tokenizer()
__lowerCamelCase = tokenizer("""Hello""" , """World""" )
__lowerCamelCase = [0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1]
self.assertListEqual(tokd["""token_type_ids"""] , UpperCamelCase_ )
@slow
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = self.tokenizer_class.from_pretrained("""microsoft/deberta-base""" )
__lowerCamelCase = tokenizer.encode("""sequence builders""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode("""multi-sequence build""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode(
"""sequence builders""" , add_special_tokens=UpperCamelCase_ , add_prefix_space=UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode(
"""sequence builders""" , """multi-sequence build""" , add_special_tokens=UpperCamelCase_ , add_prefix_space=UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ , UpperCamelCase_ )
assert encoded_sentence == encoded_text_from_decode
assert encoded_pair == encoded_pair_from_decode
@slow
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = [self.tokenizer_class]
if self.test_rust_tokenizer:
tokenizer_classes.append(self.rust_tokenizer_class )
for tokenizer_class in tokenizer_classes:
__lowerCamelCase = tokenizer_class.from_pretrained("""microsoft/deberta-base""" )
__lowerCamelCase = [
"""ALBERT: A Lite BERT for Self-supervised Learning of Language Representations""",
"""ALBERT incorporates two parameter reduction techniques""",
"""The first one is a factorized embedding parameterization. By decomposing the large vocabulary"""
""" embedding matrix into two small matrices, we separate the size of the hidden layers from the size of"""
""" vocabulary embedding.""",
]
__lowerCamelCase = tokenizer(UpperCamelCase_ , padding=UpperCamelCase_ )
__lowerCamelCase = [tokenizer.decode(UpperCamelCase_ , skip_special_tokens=UpperCamelCase_ ) for seq in encoding["""input_ids"""]]
# fmt: off
__lowerCamelCase = {
"""input_ids""": [
[1, 21_18, 1_11_26, 5_65, 35, 83, 2_51_91, 1_63, 1_88_54, 13, 1_21_56, 12, 1_61_01, 2_53_76, 1_38_07, 9, 2_22_05, 2_78_93, 16_35, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0],
[1, 21_18, 1_11_26, 5_65, 2_45_36, 80, 4_37_97, 48_78, 73_73, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0],
[1, 1_33, 78, 65, 16, 10, 37_24, 15_38, 3_31_83, 1_13_03, 4_37_97, 19_38, 4, 8_70, 2_41_65, 2_91_05, 5, 7_39, 3_26_44, 3_31_83, 1_13_03, 3_61_73, 88, 80, 6_50, 78_21, 4_59_40, 6, 52, 25_59, 5, 18_36, 9, 5, 73_97, 1_31_71, 31, 5, 18_36, 9, 3_26_44, 3_31_83, 1_13_03, 4, 2]
],
"""token_type_ids""": [
[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
],
"""attention_mask""": [
[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0],
[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0],
[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
]
}
# fmt: on
__lowerCamelCase = [
"""ALBERT: A Lite BERT for Self-supervised Learning of Language Representations""",
"""ALBERT incorporates two parameter reduction techniques""",
"""The first one is a factorized embedding parameterization. By decomposing the large vocabulary"""
""" embedding matrix into two small matrices, we separate the size of the hidden layers from the size of"""
""" vocabulary embedding.""",
]
self.assertDictEqual(encoding.data , UpperCamelCase_ )
for expected, decoded in zip(UpperCamelCase_ , UpperCamelCase_ ):
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
| 12 |
import json
import os
from datetime import date
from pathlib import Path
from tabulate import DataRow, TableFormat, tabulate
UpperCAmelCase_ = TableFormat(
lineabove=None,
linebelowheader=None,
linebetweenrows=None,
linebelow=None,
headerrow=DataRow('', '|', '|'),
datarow=DataRow('', '|', '|'),
padding=1,
with_header_hide=None,
)
UpperCAmelCase_ = []
UpperCAmelCase_ = []
UpperCAmelCase_ = {'type': 'section', 'text': {'type': 'plain_text', 'text': 'No failed tests! 🤗', 'emoji': True}}
UpperCAmelCase_ = [
{
'type': 'header',
'text': {
'type': 'plain_text',
'text': f"""🤗 Accelerate nightly {os.environ.get("TEST_TYPE", "")} test results""",
'emoji': True,
},
}
]
UpperCAmelCase_ = 0
for log in Path().glob('*.log'):
UpperCAmelCase_ = 0
with open(log, 'r') as f:
for line in f:
UpperCAmelCase_ = json.loads(line)
if line.get('nodeid', '') != "":
UpperCAmelCase_ = line['nodeid']
if line.get('duration', None) is not None:
UpperCAmelCase_ = f"""{line["duration"]:.4f}"""
if line.get('outcome', '') == "failed":
section_num_failed += 1
failed.append([test, duration, log.name.split('_')[0]])
total_num_failed += 1
group_info.append([str(log), section_num_failed, failed])
UpperCAmelCase_ = []
log.unlink()
UpperCAmelCase_ = ''
UpperCAmelCase_ = []
if total_num_failed > 0:
for name, num_failed, failed_tests in group_info:
if num_failed > 0:
if num_failed == 1:
message += f"*{name[1:]}: {num_failed} failed test*\n"
else:
message += f"*{name[1:]}: {num_failed} failed tests*\n"
UpperCAmelCase_ = []
UpperCAmelCase_ = {}
for test in failed_tests:
UpperCAmelCase_ = test[0].split('::')
UpperCAmelCase_ = data[0].split('/')[-1]
if data[0] not in filesafailed:
UpperCAmelCase_ = [data[1:]]
else:
filesafailed[data[0]] += [data[1:]]
failed_table.append(data)
UpperCAmelCase_ = [test[0] for test in failed_table]
UpperCAmelCase_ = list(set(files))
# Count number of instances in failed_tests
UpperCAmelCase_ = []
for file in individual_files:
table.append([file, len(filesafailed[file])])
UpperCAmelCase_ = tabulate(
table,
headers=['Test Location', 'Num Failed'],
tablefmt=hf_table_format,
stralign='right',
)
message += f"\n```\n{failed_table}\n```"
all_filesafailed.append(filesafailed)
if len(message) > 3_000:
UpperCAmelCase_ = 'Too many failed tests, please see the full report in the Action results.'
UpperCAmelCase_ = len(err) + 10
UpperCAmelCase_ = message[: 3_000 - offset] + f"""\n...\n```\n{err}"""
print(f"""### {message}""")
else:
UpperCAmelCase_ = 'No failed tests! 🤗'
print(f"""## {message}""")
payload.append(no_error_payload)
if os.environ.get('TEST_TYPE', '') != "":
from slack_sdk import WebClient
UpperCAmelCase_ = WebClient(token=os.environ['SLACK_API_TOKEN'])
if message != "No failed tests! 🤗":
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': message,
},
}
payload.append(md_report)
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': '*For more details:*',
},
'accessory': {
'type': 'button',
'text': {
'type': 'plain_text',
'text': 'Check Action results',
'emoji': True,
},
'url': f"""https://github.com/{os.environ["GITHUB_REPOSITORY"]}/actions/runs/{os.environ["GITHUB_RUN_ID"]}""",
},
}
payload.append(action_button)
UpperCAmelCase_ = {
'type': 'context',
'elements': [
{
'type': 'plain_text',
'text': f"""Nightly {os.environ.get("TEST_TYPE")} test results for {date.today()}""",
}
],
}
payload.append(date_report)
UpperCAmelCase_ = client.chat_postMessage(channel='#accelerate-ci-daily', text=message, blocks=payload)
UpperCAmelCase_ = response.data['ts']
for failed_file in all_filesafailed:
for test_location, test_failures in failed_file.items():
# Keep only the first instance of the test name
UpperCAmelCase_ = ''
for i, row in enumerate(test_failures):
if row[0] != test_class:
UpperCAmelCase_ = row[0]
else:
UpperCAmelCase_ = ''
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': f"""Test location: {test_location}\n```\n{tabulate(test_failures, headers=["Class", "Test"], tablefmt=hf_table_format, stralign="right")}\n```""",
},
}
client.chat_postMessage(
channel='#accelerate-ci-daily',
thread_ts=ts,
blocks=[payload],
)
| 12 | 1 |
from importlib import import_module
from .logging import get_logger
UpperCAmelCase_ = get_logger(__name__)
class lowerCamelCase__:
def __init__( self: int , UpperCamelCase_: Tuple , UpperCamelCase_: Tuple=None ):
__lowerCamelCase = attrs or []
if module is not None:
for key in module.__dict__:
if key in attrs or not key.startswith("""__""" ):
setattr(self , UpperCamelCase_ , getattr(UpperCamelCase_ , UpperCamelCase_ ) )
__lowerCamelCase = module._original_module if isinstance(UpperCamelCase_ , _PatchedModuleObj ) else module
class lowerCamelCase__:
UpperCAmelCase__ : Any = []
def __init__( self: Optional[Any] , UpperCamelCase_: int , UpperCamelCase_: str , UpperCamelCase_: Dict , UpperCamelCase_: Any=None ):
__lowerCamelCase = obj
__lowerCamelCase = target
__lowerCamelCase = new
__lowerCamelCase = target.split(""".""" )[0]
__lowerCamelCase = {}
__lowerCamelCase = attrs or []
def __enter__( self: Union[str, Any] ):
*__lowerCamelCase, __lowerCamelCase = self.target.split(""".""" )
# Patch modules:
# it's used to patch attributes of submodules like "os.path.join";
# in this case we need to patch "os" and "os.path"
for i in range(len(UpperCamelCase_ ) ):
try:
__lowerCamelCase = import_module(""".""".join(submodules[: i + 1] ) )
except ModuleNotFoundError:
continue
# We iterate over all the globals in self.obj in case we find "os" or "os.path"
for attr in self.obj.__dir__():
__lowerCamelCase = getattr(self.obj , UpperCamelCase_ )
# We don't check for the name of the global, but rather if its value *is* "os" or "os.path".
# This allows to patch renamed modules like "from os import path as ospath".
if obj_attr is submodule or (
(isinstance(UpperCamelCase_ , _PatchedModuleObj ) and obj_attr._original_module is submodule)
):
__lowerCamelCase = obj_attr
# patch at top level
setattr(self.obj , UpperCamelCase_ , _PatchedModuleObj(UpperCamelCase_ , attrs=self.attrs ) )
__lowerCamelCase = getattr(self.obj , UpperCamelCase_ )
# construct lower levels patches
for key in submodules[i + 1 :]:
setattr(UpperCamelCase_ , UpperCamelCase_ , _PatchedModuleObj(getattr(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ ) , attrs=self.attrs ) )
__lowerCamelCase = getattr(UpperCamelCase_ , UpperCamelCase_ )
# finally set the target attribute
setattr(UpperCamelCase_ , UpperCamelCase_ , self.new )
# Patch attribute itself:
# it's used for builtins like "open",
# and also to patch "os.path.join" we may also need to patch "join"
# itself if it was imported as "from os.path import join".
if submodules: # if it's an attribute of a submodule like "os.path.join"
try:
__lowerCamelCase = getattr(import_module(""".""".join(UpperCamelCase_ ) ) , UpperCamelCase_ )
except (AttributeError, ModuleNotFoundError):
return
# We iterate over all the globals in self.obj in case we find "os.path.join"
for attr in self.obj.__dir__():
# We don't check for the name of the global, but rather if its value *is* "os.path.join".
# This allows to patch renamed attributes like "from os.path import join as pjoin".
if getattr(self.obj , UpperCamelCase_ ) is attr_value:
__lowerCamelCase = getattr(self.obj , UpperCamelCase_ )
setattr(self.obj , UpperCamelCase_ , self.new )
elif target_attr in globals()["__builtins__"]: # if it'a s builtin like "open"
__lowerCamelCase = globals()["""__builtins__"""][target_attr]
setattr(self.obj , UpperCamelCase_ , self.new )
else:
raise RuntimeError(F'Tried to patch attribute {target_attr} instead of a submodule.' )
def __exit__( self: Any , *UpperCamelCase_: Optional[Any] ):
for attr in list(self.original ):
setattr(self.obj , UpperCamelCase_ , self.original.pop(UpperCamelCase_ ) )
def lowerCAmelCase__ ( self: Union[str, Any] ):
self.__enter__()
self._active_patches.append(self )
def lowerCAmelCase__ ( self: Dict ):
try:
self._active_patches.remove(self )
except ValueError:
# If the patch hasn't been started this will fail
return None
return self.__exit__()
| 12 |
from typing import Callable, List, Optional, Tuple, Union
import torch
from transformers import CLIPTextModel, CLIPTokenizer
from ...configuration_utils import ConfigMixin, register_to_config
from ...models import ModelMixin, TransformeraDModel, VQModel
from ...schedulers import VQDiffusionScheduler
from ...utils import logging
from ..pipeline_utils import DiffusionPipeline, ImagePipelineOutput
UpperCAmelCase_ = logging.get_logger(__name__) # pylint: disable=invalid-name
class lowerCamelCase__( __lowerCamelCase , __lowerCamelCase):
@register_to_config
def __init__( self: Optional[Any] , UpperCamelCase_: bool , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[int] = None ):
super().__init__()
__lowerCamelCase = learnable
if self.learnable:
assert hidden_size is not None, "learnable=True requires `hidden_size` to be set"
assert length is not None, "learnable=True requires `length` to be set"
__lowerCamelCase = torch.zeros(UpperCamelCase_ , UpperCamelCase_ )
else:
__lowerCamelCase = None
__lowerCamelCase = torch.nn.Parameter(UpperCamelCase_ )
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : VQModel
UpperCAmelCase__ : CLIPTextModel
UpperCAmelCase__ : CLIPTokenizer
UpperCAmelCase__ : TransformeraDModel
UpperCAmelCase__ : LearnedClassifierFreeSamplingEmbeddings
UpperCAmelCase__ : VQDiffusionScheduler
def __init__( self: str , UpperCamelCase_: VQModel , UpperCamelCase_: CLIPTextModel , UpperCamelCase_: CLIPTokenizer , UpperCamelCase_: TransformeraDModel , UpperCamelCase_: VQDiffusionScheduler , UpperCamelCase_: LearnedClassifierFreeSamplingEmbeddings , ):
super().__init__()
self.register_modules(
vqvae=UpperCamelCase_ , transformer=UpperCamelCase_ , text_encoder=UpperCamelCase_ , tokenizer=UpperCamelCase_ , scheduler=UpperCamelCase_ , learned_classifier_free_sampling_embeddings=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: Any , UpperCamelCase_: List[Any] , UpperCamelCase_: Any ):
__lowerCamelCase = len(UpperCamelCase_ ) if isinstance(UpperCamelCase_ , UpperCamelCase_ ) else 1
# get prompt text embeddings
__lowerCamelCase = self.tokenizer(
UpperCamelCase_ , padding="""max_length""" , max_length=self.tokenizer.model_max_length , return_tensors="""pt""" , )
__lowerCamelCase = text_inputs.input_ids
if text_input_ids.shape[-1] > self.tokenizer.model_max_length:
__lowerCamelCase = self.tokenizer.batch_decode(text_input_ids[:, self.tokenizer.model_max_length :] )
logger.warning(
"""The following part of your input was truncated because CLIP can only handle sequences up to"""
F' {self.tokenizer.model_max_length} tokens: {removed_text}' )
__lowerCamelCase = text_input_ids[:, : self.tokenizer.model_max_length]
__lowerCamelCase = self.text_encoder(text_input_ids.to(self.device ) )[0]
# NOTE: This additional step of normalizing the text embeddings is from VQ-Diffusion.
# While CLIP does normalize the pooled output of the text transformer when combining
# the image and text embeddings, CLIP does not directly normalize the last hidden state.
#
# CLIP normalizing the pooled output.
# https://github.com/huggingface/transformers/blob/d92e22d1f28324f513f3080e5c47c071a3916721/src/transformers/models/clip/modeling_clip.py#L1052-L1053
__lowerCamelCase = prompt_embeds / prompt_embeds.norm(dim=-1 , keepdim=UpperCamelCase_ )
# duplicate text embeddings for each generation per prompt
__lowerCamelCase = prompt_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
if do_classifier_free_guidance:
if self.learned_classifier_free_sampling_embeddings.learnable:
__lowerCamelCase = self.learned_classifier_free_sampling_embeddings.embeddings
__lowerCamelCase = negative_prompt_embeds.unsqueeze(0 ).repeat(UpperCamelCase_ , 1 , 1 )
else:
__lowerCamelCase = [""""""] * batch_size
__lowerCamelCase = text_input_ids.shape[-1]
__lowerCamelCase = self.tokenizer(
UpperCamelCase_ , padding="""max_length""" , max_length=UpperCamelCase_ , truncation=UpperCamelCase_ , return_tensors="""pt""" , )
__lowerCamelCase = self.text_encoder(uncond_input.input_ids.to(self.device ) )[0]
# See comment for normalizing text embeddings
__lowerCamelCase = negative_prompt_embeds / negative_prompt_embeds.norm(dim=-1 , keepdim=UpperCamelCase_ )
# duplicate unconditional embeddings for each generation per prompt, using mps friendly method
__lowerCamelCase = negative_prompt_embeds.shape[1]
__lowerCamelCase = negative_prompt_embeds.repeat(1 , UpperCamelCase_ , 1 )
__lowerCamelCase = negative_prompt_embeds.view(batch_size * num_images_per_prompt , UpperCamelCase_ , -1 )
# For classifier free guidance, we need to do two forward passes.
# Here we concatenate the unconditional and text embeddings into a single batch
# to avoid doing two forward passes
__lowerCamelCase = torch.cat([negative_prompt_embeds, prompt_embeds] )
return prompt_embeds
@torch.no_grad()
def __call__( self: Tuple , UpperCamelCase_: Union[str, List[str]] , UpperCamelCase_: int = 1_00 , UpperCamelCase_: float = 5.0 , UpperCamelCase_: float = 1.0 , UpperCamelCase_: int = 1 , UpperCamelCase_: Optional[Union[torch.Generator, List[torch.Generator]]] = None , UpperCamelCase_: Optional[torch.FloatTensor] = None , UpperCamelCase_: Optional[str] = "pil" , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[Callable[[int, int, torch.FloatTensor], None]] = None , UpperCamelCase_: int = 1 , ):
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = 1
elif isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = len(UpperCamelCase_ )
else:
raise ValueError(F'`prompt` has to be of type `str` or `list` but is {type(UpperCamelCase_ )}' )
__lowerCamelCase = batch_size * num_images_per_prompt
__lowerCamelCase = guidance_scale > 1.0
__lowerCamelCase = self._encode_prompt(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
if (callback_steps is None) or (
callback_steps is not None and (not isinstance(UpperCamelCase_ , UpperCamelCase_ ) or callback_steps <= 0)
):
raise ValueError(
F'`callback_steps` has to be a positive integer but is {callback_steps} of type'
F' {type(UpperCamelCase_ )}.' )
# get the initial completely masked latents unless the user supplied it
__lowerCamelCase = (batch_size, self.transformer.num_latent_pixels)
if latents is None:
__lowerCamelCase = self.transformer.num_vector_embeds - 1
__lowerCamelCase = torch.full(UpperCamelCase_ , UpperCamelCase_ ).to(self.device )
else:
if latents.shape != latents_shape:
raise ValueError(F'Unexpected latents shape, got {latents.shape}, expected {latents_shape}' )
if (latents < 0).any() or (latents >= self.transformer.num_vector_embeds).any():
raise ValueError(
"""Unexpected latents value(s). All latents be valid embedding indices i.e. in the range 0,"""
F' {self.transformer.num_vector_embeds - 1} (inclusive).' )
__lowerCamelCase = latents.to(self.device )
# set timesteps
self.scheduler.set_timesteps(UpperCamelCase_ , device=self.device )
__lowerCamelCase = self.scheduler.timesteps.to(self.device )
__lowerCamelCase = latents
for i, t in enumerate(self.progress_bar(UpperCamelCase_ ) ):
# expand the sample if we are doing classifier free guidance
__lowerCamelCase = torch.cat([sample] * 2 ) if do_classifier_free_guidance else sample
# predict the un-noised image
# model_output == `log_p_x_0`
__lowerCamelCase = self.transformer(UpperCamelCase_ , encoder_hidden_states=UpperCamelCase_ , timestep=UpperCamelCase_ ).sample
if do_classifier_free_guidance:
__lowerCamelCase, __lowerCamelCase = model_output.chunk(2 )
__lowerCamelCase = model_output_uncond + guidance_scale * (model_output_text - model_output_uncond)
model_output -= torch.logsumexp(UpperCamelCase_ , dim=1 , keepdim=UpperCamelCase_ )
__lowerCamelCase = self.truncate(UpperCamelCase_ , UpperCamelCase_ )
# remove `log(0)`'s (`-inf`s)
__lowerCamelCase = model_output.clamp(-70 )
# compute the previous noisy sample x_t -> x_t-1
__lowerCamelCase = self.scheduler.step(UpperCamelCase_ , timestep=UpperCamelCase_ , sample=UpperCamelCase_ , generator=UpperCamelCase_ ).prev_sample
# call the callback, if provided
if callback is not None and i % callback_steps == 0:
callback(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = self.vqvae.config.vq_embed_dim
__lowerCamelCase = (batch_size, self.transformer.height, self.transformer.width, embedding_channels)
__lowerCamelCase = self.vqvae.quantize.get_codebook_entry(UpperCamelCase_ , shape=UpperCamelCase_ )
__lowerCamelCase = self.vqvae.decode(UpperCamelCase_ , force_not_quantize=UpperCamelCase_ ).sample
__lowerCamelCase = (image / 2 + 0.5).clamp(0 , 1 )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 ).numpy()
if output_type == "pil":
__lowerCamelCase = self.numpy_to_pil(UpperCamelCase_ )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: torch.FloatTensor , UpperCamelCase_: float ):
__lowerCamelCase, __lowerCamelCase = torch.sort(UpperCamelCase_ , 1 , descending=UpperCamelCase_ )
__lowerCamelCase = torch.exp(UpperCamelCase_ )
__lowerCamelCase = sorted_p_x_0.cumsum(dim=1 ) < truncation_rate
# Ensure that at least the largest probability is not zeroed out
__lowerCamelCase = torch.full_like(keep_mask[:, 0:1, :] , UpperCamelCase_ )
__lowerCamelCase = torch.cat((all_true, keep_mask) , dim=1 )
__lowerCamelCase = keep_mask[:, :-1, :]
__lowerCamelCase = keep_mask.gather(1 , indices.argsort(1 ) )
__lowerCamelCase = log_p_x_0.clone()
__lowerCamelCase = -torch.inf # -inf = log(0)
return rv
| 12 | 1 |
import inspect
import unittest
from transformers import RegNetConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from transformers.utils import cached_property, is_vision_available
from ...test_configuration_common import ConfigTester
from ...test_modeling_flax_common import FlaxModelTesterMixin, floats_tensor
if is_flax_available():
import jax
import jax.numpy as jnp
from transformers.models.regnet.modeling_flax_regnet import FlaxRegNetForImageClassification, FlaxRegNetModel
if is_vision_available():
from PIL import Image
from transformers import AutoImageProcessor
class lowerCamelCase__( unittest.TestCase):
def __init__( self: Dict , UpperCamelCase_: List[str] , UpperCamelCase_: Optional[int]=3 , UpperCamelCase_: Optional[int]=32 , UpperCamelCase_: Dict=3 , UpperCamelCase_: Optional[Any]=10 , UpperCamelCase_: Optional[int]=[10, 20, 30, 40] , UpperCamelCase_: Dict=[1, 1, 2, 1] , UpperCamelCase_: str=True , UpperCamelCase_: Optional[int]=True , UpperCamelCase_: Optional[Any]="relu" , UpperCamelCase_: Optional[Any]=3 , UpperCamelCase_: List[str]=None , ):
__lowerCamelCase = parent
__lowerCamelCase = batch_size
__lowerCamelCase = image_size
__lowerCamelCase = num_channels
__lowerCamelCase = embeddings_size
__lowerCamelCase = hidden_sizes
__lowerCamelCase = depths
__lowerCamelCase = is_training
__lowerCamelCase = use_labels
__lowerCamelCase = hidden_act
__lowerCamelCase = num_labels
__lowerCamelCase = scope
__lowerCamelCase = len(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
__lowerCamelCase = self.get_config()
return config, pixel_values
def lowerCAmelCase__ ( self: Optional[Any] ):
return RegNetConfig(
num_channels=self.num_channels , embeddings_size=self.embeddings_size , hidden_sizes=self.hidden_sizes , depths=self.depths , hidden_act=self.hidden_act , num_labels=self.num_labels , image_size=self.image_size , )
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Optional[Any] , UpperCamelCase_: Optional[Any] ):
__lowerCamelCase = FlaxRegNetModel(config=UpperCamelCase_ )
__lowerCamelCase = model(UpperCamelCase_ )
# Output shape (b, c, h, w)
self.parent.assertEqual(
result.last_hidden_state.shape , (self.batch_size, self.hidden_sizes[-1], self.image_size // 32, self.image_size // 32) , )
def lowerCAmelCase__ ( self: int , UpperCamelCase_: List[str] , UpperCamelCase_: Optional[Any] ):
__lowerCamelCase = self.num_labels
__lowerCamelCase = FlaxRegNetForImageClassification(config=UpperCamelCase_ )
__lowerCamelCase = model(UpperCamelCase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) )
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = self.prepare_config_and_inputs()
__lowerCamelCase, __lowerCamelCase = config_and_inputs
__lowerCamelCase = {"""pixel_values""": pixel_values}
return config, inputs_dict
@require_flax
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Optional[int] = (FlaxRegNetModel, FlaxRegNetForImageClassification) if is_flax_available() else ()
UpperCAmelCase__ : str = False
UpperCAmelCase__ : Optional[int] = False
UpperCAmelCase__ : List[Any] = False
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = FlaxRegNetModelTester(self )
__lowerCamelCase = ConfigTester(self , config_class=UpperCamelCase_ , has_text_modality=UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[Any] ):
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def lowerCAmelCase__ ( self: Optional[Any] ):
return
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*UpperCamelCase_ )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*UpperCamelCase_ )
@unittest.skip(reason="""RegNet does not use inputs_embeds""" )
def lowerCAmelCase__ ( self: Union[str, Any] ):
pass
@unittest.skip(reason="""RegNet does not support input and output embeddings""" )
def lowerCAmelCase__ ( self: Optional[Any] ):
pass
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
__lowerCamelCase = model_class(UpperCamelCase_ )
__lowerCamelCase = inspect.signature(model.__call__ )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
__lowerCamelCase = [*signature.parameters.keys()]
__lowerCamelCase = ["""pixel_values"""]
self.assertListEqual(arg_names[:1] , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[Any] ):
def check_hidden_states_output(UpperCamelCase_: List[str] , UpperCamelCase_: Any , UpperCamelCase_: str ):
__lowerCamelCase = model_class(UpperCamelCase_ )
__lowerCamelCase = model(**self._prepare_for_class(UpperCamelCase_ , UpperCamelCase_ ) )
__lowerCamelCase = outputs.encoder_hidden_states if config.is_encoder_decoder else outputs.hidden_states
__lowerCamelCase = self.model_tester.num_stages
self.assertEqual(len(UpperCamelCase_ ) , expected_num_stages + 1 )
__lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
__lowerCamelCase = True
check_hidden_states_output(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
__lowerCamelCase = True
check_hidden_states_output(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
__lowerCamelCase = self._prepare_for_class(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = model_class(UpperCamelCase_ )
@jax.jit
def model_jitted(UpperCamelCase_: List[Any] , **UpperCamelCase_: Tuple ):
return model(pixel_values=UpperCamelCase_ , **UpperCamelCase_ )
with self.subTest("""JIT Enabled""" ):
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
with self.subTest("""JIT Disabled""" ):
with jax.disable_jit():
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
self.assertEqual(len(UpperCamelCase_ ) , len(UpperCamelCase_ ) )
for jitted_output, output in zip(UpperCamelCase_ , UpperCamelCase_ ):
self.assertEqual(jitted_output.shape , output.shape )
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" )
return image
@require_flax
class lowerCamelCase__( unittest.TestCase):
@cached_property
def lowerCAmelCase__ ( self: List[Any] ):
return AutoImageProcessor.from_pretrained("""facebook/regnet-y-040""" ) if is_vision_available() else None
@slow
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = FlaxRegNetForImageClassification.from_pretrained("""facebook/regnet-y-040""" )
__lowerCamelCase = self.default_image_processor
__lowerCamelCase = prepare_img()
__lowerCamelCase = image_processor(images=UpperCamelCase_ , return_tensors="""np""" )
__lowerCamelCase = model(**UpperCamelCase_ )
# verify the logits
__lowerCamelCase = (1, 10_00)
self.assertEqual(outputs.logits.shape , UpperCamelCase_ )
__lowerCamelCase = jnp.array([-0.4180, -1.5051, -3.4836] )
self.assertTrue(jnp.allclose(outputs.logits[0, :3] , UpperCamelCase_ , atol=1E-4 ) )
| 12 |
from transformers import DistilBertTokenizer, DistilBertTokenizerFast
from transformers.testing_utils import require_tokenizers, slow
from ..bert.test_tokenization_bert import BertTokenizationTest
@require_tokenizers
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Dict = DistilBertTokenizer
UpperCAmelCase__ : Dict = DistilBertTokenizerFast
UpperCAmelCase__ : Tuple = True
@slow
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = DistilBertTokenizer.from_pretrained("""distilbert-base-uncased""" )
__lowerCamelCase = tokenizer.encode("""sequence builders""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode("""multi-sequence build""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ , UpperCamelCase_ )
assert encoded_sentence == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id]
assert encoded_pair == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] + text_a + [
tokenizer.sep_token_id
]
| 12 | 1 |
import json
import os
import tempfile
import datasets
from utils import generate_example_dataset, get_duration
UpperCAmelCase_ = 50_000
UpperCAmelCase_ = 5_000
UpperCAmelCase_ , UpperCAmelCase_ = os.path.split(__file__)
UpperCAmelCase_ = os.path.join(RESULTS_BASEPATH, 'results', RESULTS_FILENAME.replace('.py', '.json'))
@get_duration
def lowerCamelCase__ ( A__ : datasets.Dataset , A__ : Optional[int] ):
'''simple docstring'''
for i in range(A__ ):
__lowerCamelCase = dataset[i]
@get_duration
def lowerCamelCase__ ( A__ : datasets.Dataset , A__ : Union[str, Any] , A__ : str ):
'''simple docstring'''
for i in range(0 , len(A__ ) , A__ ):
__lowerCamelCase = dataset[i : i + batch_size]
@get_duration
def lowerCamelCase__ ( A__ : datasets.Dataset , A__ : Optional[int] , A__ : Union[str, Any] ):
'''simple docstring'''
with dataset.formatted_as(type=A__ ):
for i in range(A__ ):
__lowerCamelCase = dataset[i]
@get_duration
def lowerCamelCase__ ( A__ : datasets.Dataset , A__ : int , A__ : Optional[int] , A__ : Any ):
'''simple docstring'''
with dataset.formatted_as(type=A__ ):
for i in range(0 , A__ , A__ ):
__lowerCamelCase = dataset[i : i + batch_size]
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = {"""num examples""": SPEED_TEST_N_EXAMPLES}
__lowerCamelCase = [
(read, {"""length""": SMALL_TEST}),
(read, {"""length""": SPEED_TEST_N_EXAMPLES}),
(read_batch, {"""length""": SPEED_TEST_N_EXAMPLES, """batch_size""": 10}),
(read_batch, {"""length""": SPEED_TEST_N_EXAMPLES, """batch_size""": 100}),
(read_batch, {"""length""": SPEED_TEST_N_EXAMPLES, """batch_size""": 1000}),
(read_formatted, {"""type""": """numpy""", """length""": SMALL_TEST}),
(read_formatted, {"""type""": """pandas""", """length""": SMALL_TEST}),
(read_formatted, {"""type""": """torch""", """length""": SMALL_TEST}),
(read_formatted, {"""type""": """tensorflow""", """length""": SMALL_TEST}),
(read_formatted_batch, {"""type""": """numpy""", """length""": SMALL_TEST, """batch_size""": 10}),
(read_formatted_batch, {"""type""": """numpy""", """length""": SMALL_TEST, """batch_size""": 1000}),
]
__lowerCamelCase = [
(read, {"""length""": SMALL_TEST}),
(read, {"""length""": SPEED_TEST_N_EXAMPLES}),
(read_batch, {"""length""": SPEED_TEST_N_EXAMPLES, """batch_size""": 10}),
(read_batch, {"""length""": SPEED_TEST_N_EXAMPLES, """batch_size""": 100}),
(read_batch, {"""length""": SPEED_TEST_N_EXAMPLES, """batch_size""": 1000}),
(read_formatted, {"""type""": """numpy""", """length""": SMALL_TEST}),
(read_formatted_batch, {"""type""": """numpy""", """length""": SMALL_TEST, """batch_size""": 10}),
(read_formatted_batch, {"""type""": """numpy""", """length""": SMALL_TEST, """batch_size""": 1000}),
]
with tempfile.TemporaryDirectory() as tmp_dir:
print("""generating dataset""" )
__lowerCamelCase = datasets.Features(
{"""list""": datasets.Sequence(datasets.Value("""float32""" ) ), """numbers""": datasets.Value("""float32""" )} )
__lowerCamelCase = generate_example_dataset(
os.path.join(A__ , """dataset.arrow""" ) , A__ , num_examples=A__ , seq_shapes={"""list""": (100,)} , )
print("""first set of iterations""" )
for func, kwargs in functions:
print(func.__name__ , str(A__ ) )
__lowerCamelCase = func(A__ , **A__ )
print("""shuffling dataset""" )
__lowerCamelCase = dataset.shuffle()
print("""Second set of iterations (after shuffling""" )
for func, kwargs in functions_shuffled:
print("""shuffled """ , func.__name__ , str(A__ ) )
__lowerCamelCase = func(
A__ , **A__ )
with open(A__ , """wb""" ) as f:
f.write(json.dumps(A__ ).encode("""utf-8""" ) )
if __name__ == "__main__": # useful to run the profiler
benchmark_iterating()
| 12 |
import argparse
import json
import os
import evaluate
import torch
from datasets import load_dataset
from torch.optim import AdamW
from torch.utils.data import DataLoader
from transformers import AutoModelForSequenceClassification, AutoTokenizer, get_linear_schedule_with_warmup, set_seed
from accelerate import Accelerator, DistributedType
from accelerate.utils.deepspeed import DummyOptim, DummyScheduler
UpperCAmelCase_ = 16
UpperCAmelCase_ = 32
def lowerCamelCase__ ( A__ : Accelerator , A__ : int = 16 , A__ : str = "bert-base-cased" ):
'''simple docstring'''
__lowerCamelCase = AutoTokenizer.from_pretrained(A__ )
__lowerCamelCase = load_dataset("""glue""" , """mrpc""" )
def tokenize_function(A__ : int ):
# max_length=None => use the model max length (it's actually the default)
__lowerCamelCase = tokenizer(examples["""sentence1"""] , examples["""sentence2"""] , truncation=A__ , max_length=A__ )
return outputs
# Apply the method we just defined to all the examples in all the splits of the dataset
__lowerCamelCase = datasets.map(
A__ , batched=A__ , remove_columns=["""idx""", """sentence1""", """sentence2"""] , load_from_cache_file=A__ )
# We also rename the 'label' column to 'labels' which is the expected name for labels by the models of the
# transformers library
__lowerCamelCase = tokenized_datasets.rename_column("""label""" , """labels""" )
def collate_fn(A__ : Optional[int] ):
# On TPU it's best to pad everything to the same length or training will be very slow.
if accelerator.distributed_type == DistributedType.TPU:
return tokenizer.pad(A__ , padding="""max_length""" , max_length=128 , return_tensors="""pt""" )
return tokenizer.pad(A__ , padding="""longest""" , return_tensors="""pt""" )
# Instantiate dataloaders.
__lowerCamelCase = DataLoader(
tokenized_datasets["""train"""] , shuffle=A__ , collate_fn=A__ , batch_size=A__ )
__lowerCamelCase = DataLoader(
tokenized_datasets["""validation"""] , shuffle=A__ , collate_fn=A__ , batch_size=A__ )
return train_dataloader, eval_dataloader
def lowerCamelCase__ ( A__ : Tuple , A__ : Union[str, Any] , A__ : Tuple , A__ : Optional[Any] ):
'''simple docstring'''
model.eval()
__lowerCamelCase = 0
for step, batch in enumerate(A__ ):
# We could avoid this line since we set the accelerator with `device_placement=True`.
batch.to(accelerator.device )
with torch.no_grad():
__lowerCamelCase = model(**A__ )
__lowerCamelCase = outputs.logits.argmax(dim=-1 )
# It is slightly faster to call this once, than multiple times
__lowerCamelCase, __lowerCamelCase = accelerator.gather(
(predictions, batch["""labels"""]) ) # If we are in a multiprocess environment, the last batch has duplicates
if accelerator.use_distributed:
if step == len(A__ ) - 1:
__lowerCamelCase = predictions[: len(eval_dataloader.dataset ) - samples_seen]
__lowerCamelCase = references[: len(eval_dataloader.dataset ) - samples_seen]
else:
samples_seen += references.shape[0]
metric.add_batch(
predictions=A__ , references=A__ , )
__lowerCamelCase = metric.compute()
return eval_metric["accuracy"]
def lowerCamelCase__ ( A__ : Optional[Any] , A__ : Optional[int] ):
'''simple docstring'''
__lowerCamelCase = Accelerator()
# Sample hyper-parameters for learning rate, batch size, seed and a few other HPs
__lowerCamelCase = config["""lr"""]
__lowerCamelCase = int(config["""num_epochs"""] )
__lowerCamelCase = int(config["""seed"""] )
__lowerCamelCase = int(config["""batch_size"""] )
__lowerCamelCase = args.model_name_or_path
set_seed(A__ )
__lowerCamelCase, __lowerCamelCase = get_dataloaders(A__ , A__ , A__ )
# Instantiate the model (we build the model here so that the seed also control new weights initialization)
__lowerCamelCase = AutoModelForSequenceClassification.from_pretrained(A__ , return_dict=A__ )
# Instantiate optimizer
__lowerCamelCase = (
AdamW
if accelerator.state.deepspeed_plugin is None
or """optimizer""" not in accelerator.state.deepspeed_plugin.deepspeed_config
else DummyOptim
)
__lowerCamelCase = optimizer_cls(params=model.parameters() , lr=A__ )
if accelerator.state.deepspeed_plugin is not None:
__lowerCamelCase = accelerator.state.deepspeed_plugin.deepspeed_config[
"""gradient_accumulation_steps"""
]
else:
__lowerCamelCase = 1
__lowerCamelCase = (len(A__ ) * num_epochs) // gradient_accumulation_steps
# Instantiate scheduler
if (
accelerator.state.deepspeed_plugin is None
or "scheduler" not in accelerator.state.deepspeed_plugin.deepspeed_config
):
__lowerCamelCase = get_linear_schedule_with_warmup(
optimizer=A__ , num_warmup_steps=0 , num_training_steps=A__ , )
else:
__lowerCamelCase = DummyScheduler(A__ , total_num_steps=A__ , warmup_num_steps=0 )
# Prepare everything
# There is no specific order to remember, we just need to unpack the objects in the same order we gave them to the
# prepare method.
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = accelerator.prepare(
A__ , A__ , A__ , A__ , A__ )
# We need to keep track of how many total steps we have iterated over
__lowerCamelCase = 0
# We also need to keep track of the stating epoch so files are named properly
__lowerCamelCase = 0
__lowerCamelCase = evaluate.load("""glue""" , """mrpc""" )
__lowerCamelCase = num_epochs
if args.partial_train_epoch is not None:
__lowerCamelCase = args.partial_train_epoch
if args.resume_from_checkpoint:
accelerator.load_state(args.resume_from_checkpoint )
__lowerCamelCase = args.resume_from_checkpoint.split("""epoch_""" )[1]
__lowerCamelCase = """"""
for char in epoch_string:
if char.isdigit():
state_epoch_num += char
else:
break
__lowerCamelCase = int(A__ ) + 1
__lowerCamelCase = evaluation_loop(A__ , A__ , A__ , A__ )
accelerator.print("""resumed checkpoint performance:""" , A__ )
accelerator.print("""resumed checkpoint's scheduler's lr:""" , lr_scheduler.get_lr()[0] )
accelerator.print("""resumed optimizers's lr:""" , optimizer.param_groups[0]["""lr"""] )
with open(os.path.join(args.output_dir , f'state_{starting_epoch-1}.json' ) , """r""" ) as f:
__lowerCamelCase = json.load(A__ )
assert resumed_state["accuracy"] == accuracy, "Accuracy mismatch, loading from checkpoint failed"
assert (
resumed_state["lr"] == lr_scheduler.get_lr()[0]
), "Scheduler learning rate mismatch, loading from checkpoint failed"
assert (
resumed_state["optimizer_lr"] == optimizer.param_groups[0]["lr"]
), "Optimizer learning rate mismatch, loading from checkpoint failed"
assert resumed_state["epoch"] == starting_epoch - 1, "Epoch mismatch, loading from checkpoint failed"
return
# Now we train the model
__lowerCamelCase = {}
for epoch in range(A__ , A__ ):
model.train()
for step, batch in enumerate(A__ ):
__lowerCamelCase = model(**A__ )
__lowerCamelCase = outputs.loss
__lowerCamelCase = loss / gradient_accumulation_steps
accelerator.backward(A__ )
if step % gradient_accumulation_steps == 0:
optimizer.step()
lr_scheduler.step()
optimizer.zero_grad()
overall_step += 1
__lowerCamelCase = f'epoch_{epoch}'
__lowerCamelCase = os.path.join(args.output_dir , A__ )
accelerator.save_state(A__ )
__lowerCamelCase = evaluation_loop(A__ , A__ , A__ , A__ )
__lowerCamelCase = accuracy
__lowerCamelCase = lr_scheduler.get_lr()[0]
__lowerCamelCase = optimizer.param_groups[0]["""lr"""]
__lowerCamelCase = epoch
__lowerCamelCase = overall_step
accelerator.print(f'epoch {epoch}:' , A__ )
accelerator.wait_for_everyone()
if accelerator.is_main_process:
with open(os.path.join(args.output_dir , f'state_{epoch}.json' ) , """w""" ) as f:
json.dump(A__ , A__ )
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = argparse.ArgumentParser(description="""Simple example of training script tracking peak GPU memory usage.""" )
parser.add_argument(
"""--model_name_or_path""" , type=A__ , default="""bert-base-cased""" , help="""Path to pretrained model or model identifier from huggingface.co/models.""" , required=A__ , )
parser.add_argument(
"""--output_dir""" , type=A__ , default=""".""" , help="""Optional save directory where all checkpoint folders will be stored. Default is the current working directory.""" , )
parser.add_argument(
"""--resume_from_checkpoint""" , type=A__ , default=A__ , help="""If the training should continue from a checkpoint folder.""" , )
parser.add_argument(
"""--partial_train_epoch""" , type=A__ , default=A__ , help="""If passed, the training will stop after this number of epochs.""" , )
parser.add_argument(
"""--num_epochs""" , type=A__ , default=2 , help="""Number of train epochs.""" , )
__lowerCamelCase = parser.parse_args()
__lowerCamelCase = {"""lr""": 2E-5, """num_epochs""": args.num_epochs, """seed""": 42, """batch_size""": 16}
training_function(A__ , A__ )
if __name__ == "__main__":
main()
| 12 | 1 |
UpperCAmelCase_ = '0.21.0'
from .accelerator import Accelerator
from .big_modeling import (
cpu_offload,
cpu_offload_with_hook,
disk_offload,
dispatch_model,
init_empty_weights,
init_on_device,
load_checkpoint_and_dispatch,
)
from .data_loader import skip_first_batches
from .launchers import debug_launcher, notebook_launcher
from .state import PartialState
from .utils import (
DeepSpeedPlugin,
DistributedDataParallelKwargs,
DistributedType,
FullyShardedDataParallelPlugin,
GradScalerKwargs,
InitProcessGroupKwargs,
find_executable_batch_size,
infer_auto_device_map,
is_rich_available,
load_checkpoint_in_model,
synchronize_rng_states,
)
if is_rich_available():
from .utils import rich
| 12 |
import json
import sys
import tempfile
import unittest
from pathlib import Path
import transformers
from transformers import (
CONFIG_MAPPING,
FEATURE_EXTRACTOR_MAPPING,
AutoConfig,
AutoFeatureExtractor,
WavaVecaConfig,
WavaVecaFeatureExtractor,
)
from transformers.testing_utils import DUMMY_UNKNOWN_IDENTIFIER, get_tests_dir
sys.path.append(str(Path(__file__).parent.parent.parent.parent / 'utils'))
from test_module.custom_configuration import CustomConfig # noqa E402
from test_module.custom_feature_extraction import CustomFeatureExtractor # noqa E402
UpperCAmelCase_ = get_tests_dir('fixtures')
UpperCAmelCase_ = get_tests_dir('fixtures/dummy_feature_extractor_config.json')
UpperCAmelCase_ = get_tests_dir('fixtures/dummy-config.json')
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = 0
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""facebook/wav2vec2-base-960h""" )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
with tempfile.TemporaryDirectory() as tmpdirname:
__lowerCamelCase = WavaVecaConfig()
# remove feature_extractor_type to make sure config.json alone is enough to load feature processor locally
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ ).to_dict()
config_dict.pop("""feature_extractor_type""" )
__lowerCamelCase = WavaVecaFeatureExtractor(**UpperCamelCase_ )
# save in new folder
model_config.save_pretrained(UpperCamelCase_ )
config.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
# make sure private variable is not incorrectly saved
__lowerCamelCase = json.loads(config.to_json_string() )
self.assertTrue("""_processor_class""" not in dict_as_saved )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
with self.assertRaisesRegex(
UpperCamelCase_ , """bert-base is not a local folder and is not a valid model identifier""" ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""bert-base""" )
def lowerCAmelCase__ ( self: Tuple ):
with self.assertRaisesRegex(
UpperCamelCase_ , r"""aaaaaa is not a valid git identifier \(branch name, tag name or commit id\)""" ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ , revision="""aaaaaa""" )
def lowerCAmelCase__ ( self: Optional[Any] ):
with self.assertRaisesRegex(
UpperCamelCase_ , """hf-internal-testing/config-no-model does not appear to have a file named preprocessor_config.json.""" , ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""hf-internal-testing/config-no-model""" )
def lowerCAmelCase__ ( self: Tuple ):
# If remote code is not set, we will time out when asking whether to load the model.
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" )
# If remote code is disabled, we can't load this config.
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
# Test feature extractor can be reloaded.
with tempfile.TemporaryDirectory() as tmp_dir:
feature_extractor.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ , trust_remote_code=UpperCamelCase_ )
self.assertEqual(reloaded_feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
def lowerCAmelCase__ ( self: Any ):
try:
AutoConfig.register("""custom""" , UpperCamelCase_ )
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# Trying to register something existing in the Transformers library will raise an error
with self.assertRaises(UpperCamelCase_ ):
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# Now that the config is registered, it can be used as any other config with the auto-API
__lowerCamelCase = CustomFeatureExtractor.from_pretrained(UpperCamelCase_ )
with tempfile.TemporaryDirectory() as tmp_dir:
feature_extractor.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in FEATURE_EXTRACTOR_MAPPING._extra_content:
del FEATURE_EXTRACTOR_MAPPING._extra_content[CustomConfig]
def lowerCAmelCase__ ( self: Dict ):
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : str = True
try:
AutoConfig.register("""custom""" , UpperCamelCase_ )
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# If remote code is not set, the default is to use local
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(feature_extractor.is_local )
# If remote code is disabled, we load the local one.
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(feature_extractor.is_local )
# If remote is enabled, we load from the Hub
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(not hasattr(UpperCamelCase_ , """is_local""" ) )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in FEATURE_EXTRACTOR_MAPPING._extra_content:
del FEATURE_EXTRACTOR_MAPPING._extra_content[CustomConfig]
| 12 | 1 |
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'distilbert-base-uncased': 'https://huggingface.co/distilbert-base-uncased/resolve/main/config.json',
'distilbert-base-uncased-distilled-squad': (
'https://huggingface.co/distilbert-base-uncased-distilled-squad/resolve/main/config.json'
),
'distilbert-base-cased': 'https://huggingface.co/distilbert-base-cased/resolve/main/config.json',
'distilbert-base-cased-distilled-squad': (
'https://huggingface.co/distilbert-base-cased-distilled-squad/resolve/main/config.json'
),
'distilbert-base-german-cased': 'https://huggingface.co/distilbert-base-german-cased/resolve/main/config.json',
'distilbert-base-multilingual-cased': (
'https://huggingface.co/distilbert-base-multilingual-cased/resolve/main/config.json'
),
'distilbert-base-uncased-finetuned-sst-2-english': (
'https://huggingface.co/distilbert-base-uncased-finetuned-sst-2-english/resolve/main/config.json'
),
}
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : str = 'distilbert'
UpperCAmelCase__ : Optional[Any] = {
'hidden_size': 'dim',
'num_attention_heads': 'n_heads',
'num_hidden_layers': 'n_layers',
}
def __init__( self: str , UpperCamelCase_: Union[str, Any]=3_05_22 , UpperCamelCase_: Tuple=5_12 , UpperCamelCase_: Union[str, Any]=False , UpperCamelCase_: Union[str, Any]=6 , UpperCamelCase_: Tuple=12 , UpperCamelCase_: int=7_68 , UpperCamelCase_: Any=4 * 7_68 , UpperCamelCase_: int=0.1 , UpperCamelCase_: List[str]=0.1 , UpperCamelCase_: Optional[Any]="gelu" , UpperCamelCase_: Union[str, Any]=0.02 , UpperCamelCase_: Optional[int]=0.1 , UpperCamelCase_: Optional[int]=0.2 , UpperCamelCase_: Any=0 , **UpperCamelCase_: Optional[Any] , ):
__lowerCamelCase = vocab_size
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = sinusoidal_pos_embds
__lowerCamelCase = n_layers
__lowerCamelCase = n_heads
__lowerCamelCase = dim
__lowerCamelCase = hidden_dim
__lowerCamelCase = dropout
__lowerCamelCase = attention_dropout
__lowerCamelCase = activation
__lowerCamelCase = initializer_range
__lowerCamelCase = qa_dropout
__lowerCamelCase = seq_classif_dropout
super().__init__(**UpperCamelCase_ , pad_token_id=UpperCamelCase_ )
class lowerCamelCase__( __lowerCamelCase):
@property
def lowerCAmelCase__ ( self: Tuple ):
if self.task == "multiple-choice":
__lowerCamelCase = {0: """batch""", 1: """choice""", 2: """sequence"""}
else:
__lowerCamelCase = {0: """batch""", 1: """sequence"""}
return OrderedDict(
[
("""input_ids""", dynamic_axis),
("""attention_mask""", dynamic_axis),
] )
| 12 |
# Lint as: python3
import os
import re
import urllib.parse
from pathlib import Path
from typing import Callable, List, Optional, Union
from zipfile import ZipFile
from ..utils.file_utils import cached_path, hf_github_url
from ..utils.logging import get_logger
from ..utils.version import Version
UpperCAmelCase_ = get_logger(__name__)
class lowerCamelCase__:
UpperCAmelCase__ : List[Any] = 'dummy_data'
UpperCAmelCase__ : str = 'datasets'
UpperCAmelCase__ : Tuple = False
def __init__( self: Optional[Any] , UpperCamelCase_: str , UpperCamelCase_: str , UpperCamelCase_: Union[Version, str] , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: bool = False , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[List[Callable]] = None , ):
__lowerCamelCase = 0
__lowerCamelCase = dataset_name
__lowerCamelCase = cache_dir
__lowerCamelCase = use_local_dummy_data
__lowerCamelCase = config
# download_callbacks take a single url as input
__lowerCamelCase = download_callbacks or []
# if False, it doesn't load existing files and it returns the paths of the dummy files relative
# to the dummy_data zip file root
__lowerCamelCase = load_existing_dummy_data
# TODO(PVP, QL) might need to make this more general
__lowerCamelCase = str(UpperCamelCase_ )
# to be downloaded
__lowerCamelCase = None
__lowerCamelCase = None
@property
def lowerCAmelCase__ ( self: List[Any] ):
if self._dummy_file is None:
__lowerCamelCase = self.download_dummy_data()
return self._dummy_file
@property
def lowerCAmelCase__ ( self: str ):
if self.config is not None:
# structure is dummy / config_name / version_name
return os.path.join("""dummy""" , self.config.name , self.version_name )
# structure is dummy / version_name
return os.path.join("""dummy""" , self.version_name )
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
return os.path.join(self.dummy_data_folder , """dummy_data.zip""" )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = (
self.local_path_to_dummy_data if self.use_local_dummy_data is True else self.github_path_to_dummy_data
)
__lowerCamelCase = cached_path(
UpperCamelCase_ , cache_dir=self.cache_dir , extract_compressed_file=UpperCamelCase_ , force_extract=UpperCamelCase_ )
return os.path.join(UpperCamelCase_ , self.dummy_file_name )
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
return os.path.join(self.datasets_scripts_dir , self.dataset_name , self.dummy_zip_file )
@property
def lowerCAmelCase__ ( self: Tuple ):
if self._bucket_url is None:
__lowerCamelCase = hf_github_url(self.dataset_name , self.dummy_zip_file.replace(os.sep , """/""" ) )
return self._bucket_url
@property
def lowerCAmelCase__ ( self: str ):
# return full path if its a dir
if os.path.isdir(self.dummy_file ):
return self.dummy_file
# else cut off path to file -> example `xsum`.
return "/".join(self.dummy_file.replace(os.sep , """/""" ).split("""/""" )[:-1] )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Dict , *UpperCamelCase_: str ):
if self.load_existing_dummy_data:
# dummy data is downloaded and tested
__lowerCamelCase = self.dummy_file
else:
# dummy data cannot be downloaded and only the path to dummy file is returned
__lowerCamelCase = self.dummy_file_name
# special case when data_url is a dict
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
return self.create_dummy_data_dict(UpperCamelCase_ , UpperCamelCase_ )
elif isinstance(UpperCamelCase_ , (list, tuple) ):
return self.create_dummy_data_list(UpperCamelCase_ , UpperCamelCase_ )
else:
return self.create_dummy_data_single(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: Optional[Any] , *UpperCamelCase_: str ):
return self.download_and_extract(UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Tuple , UpperCamelCase_: str ):
return self.download_and_extract(UpperCamelCase_ )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: int , *UpperCamelCase_: List[str] , **UpperCamelCase_: str ):
return path
def lowerCAmelCase__ ( self: Dict ):
return {}
def lowerCAmelCase__ ( self: str , UpperCamelCase_: List[Any] , UpperCamelCase_: Union[str, Any] ):
__lowerCamelCase = {}
for key, single_urls in data_url.items():
for download_callback in self.download_callbacks:
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
for single_url in single_urls:
download_callback(UpperCamelCase_ )
else:
__lowerCamelCase = single_urls
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = [os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(Path(UpperCamelCase_ ).name ) ) for x in single_urls]
else:
__lowerCamelCase = single_urls
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(Path(UpperCamelCase_ ).name ) )
__lowerCamelCase = value
# make sure that values are unique
if all(isinstance(UpperCamelCase_ , UpperCamelCase_ ) for i in dummy_data_dict.values() ) and len(set(dummy_data_dict.values() ) ) < len(
dummy_data_dict.values() ):
# append key to value to make its name unique
__lowerCamelCase = {key: value + key for key, value in dummy_data_dict.items()}
return dummy_data_dict
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Optional[Any] , UpperCamelCase_: Optional[int] ):
__lowerCamelCase = []
# trick: if there are many shards named like `data.txt-000001-of-00300`, only use the first one
__lowerCamelCase = all(bool(re.findall("""[0-9]{3,}-of-[0-9]{3,}""" , UpperCamelCase_ ) ) for url in data_url )
__lowerCamelCase = all(
url.startswith("""https://ftp.ncbi.nlm.nih.gov/pubmed/baseline/pubmed""" ) for url in data_url )
if data_url and (is_tf_records or is_pubmed_records):
__lowerCamelCase = [data_url[0]] * len(UpperCamelCase_ )
for single_url in data_url:
for download_callback in self.download_callbacks:
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(single_url.split("""/""" )[-1] ) )
dummy_data_list.append(UpperCamelCase_ )
return dummy_data_list
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Optional[int] , UpperCamelCase_: Optional[Any] ):
for download_callback in self.download_callbacks:
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(data_url.split("""/""" )[-1] ) )
if os.path.exists(UpperCamelCase_ ) or not self.load_existing_dummy_data:
return value
else:
# Backward compatibility, maybe deprecate at one point.
# For many datasets with single url calls to dl_manager.download_and_extract,
# the dummy_data.zip file is actually the zipped downloaded file
# while now we expected the dummy_data.zip file to be a directory containing
# the downloaded file.
return path_to_dummy_data
def lowerCAmelCase__ ( self: Optional[Any] ):
pass
def lowerCAmelCase__ ( self: List[Any] ):
pass
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: Dict ):
def _iter_archive_members(UpperCamelCase_: Any ):
# this preserves the order of the members inside the ZIP archive
__lowerCamelCase = Path(self.dummy_file ).parent
__lowerCamelCase = path.relative_to(UpperCamelCase_ )
with ZipFile(self.local_path_to_dummy_data ) as zip_file:
__lowerCamelCase = zip_file.namelist()
for member in members:
if member.startswith(relative_path.as_posix() ):
yield dummy_parent_path.joinpath(UpperCamelCase_ )
__lowerCamelCase = Path(UpperCamelCase_ )
__lowerCamelCase = _iter_archive_members(UpperCamelCase_ ) if self.use_local_dummy_data else path.rglob("""*""" )
for file_path in file_paths:
if file_path.is_file() and not file_path.name.startswith((""".""", """__""") ):
yield file_path.relative_to(UpperCamelCase_ ).as_posix(), file_path.open("""rb""" )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Dict ):
if not isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = [paths]
for path in paths:
if os.path.isfile(UpperCamelCase_ ):
if os.path.basename(UpperCamelCase_ ).startswith((""".""", """__""") ):
return
yield path
else:
for dirpath, dirnames, filenames in os.walk(UpperCamelCase_ ):
if os.path.basename(UpperCamelCase_ ).startswith((""".""", """__""") ):
continue
dirnames.sort()
for filename in sorted(UpperCamelCase_ ):
if filename.startswith((""".""", """__""") ):
continue
yield os.path.join(UpperCamelCase_ , UpperCamelCase_ )
| 12 | 1 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : int , A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
create_all_state(1 , A__ , A__ , [] , A__ )
return result
def lowerCamelCase__ ( A__ : int , A__ : int , A__ : int , A__ : list[int] , A__ : list[list[int]] , ):
'''simple docstring'''
if level == 0:
total_list.append(current_list[:] )
return
for i in range(A__ , total_number - level + 2 ):
current_list.append(A__ )
create_all_state(i + 1 , A__ , level - 1 , A__ , A__ )
current_list.pop()
def lowerCamelCase__ ( A__ : list[list[int]] ):
'''simple docstring'''
for i in total_list:
print(*A__ )
if __name__ == "__main__":
UpperCAmelCase_ = 4
UpperCAmelCase_ = 2
UpperCAmelCase_ = generate_all_combinations(n, k)
print_all_state(total_list)
| 12 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : list[int] , A__ : list[int] , A__ : list[int] , A__ : list[list[str]] , A__ : int , ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
# If row is equal to the size of the board it means there are a queen in each row in
# the current board (possible_board)
if row == n:
# We convert the variable possible_board that looks like this: [1, 3, 0, 2] to
# this: ['. Q . . ', '. . . Q ', 'Q . . . ', '. . Q . ']
boards.append([""". """ * i + """Q """ + """. """ * (n - 1 - i) for i in possible_board] )
return
# We iterate each column in the row to find all possible results in each row
for col in range(A__ ):
# We apply that we learned previously. First we check that in the current board
# (possible_board) there are not other same value because if there is it means
# that there are a collision in vertical. Then we apply the two formulas we
# learned before:
#
# 45º: y - x = b or 45: row - col = b
# 135º: y + x = b or row + col = b.
#
# And we verify if the results of this two formulas not exist in their variables
# respectively. (diagonal_right_collisions, diagonal_left_collisions)
#
# If any or these are True it means there is a collision so we continue to the
# next value in the for loop.
if (
col in possible_board
or row - col in diagonal_right_collisions
or row + col in diagonal_left_collisions
):
continue
# If it is False we call dfs function again and we update the inputs
depth_first_search(
[*possible_board, col] , [*diagonal_right_collisions, row - col] , [*diagonal_left_collisions, row + col] , A__ , A__ , )
def lowerCamelCase__ ( A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
depth_first_search([] , [] , [] , A__ , A__ )
# Print all the boards
for board in boards:
for column in board:
print(A__ )
print("""""" )
print(len(A__ ) , """solutions were found.""" )
if __name__ == "__main__":
import doctest
doctest.testmod()
n_queens_solution(4)
| 12 | 1 |
import os
import sys
import unittest
UpperCAmelCase_ = os.path.abspath(os.path.dirname(os.path.dirname(os.path.dirname(__file__))))
sys.path.append(os.path.join(git_repo_path, 'utils'))
import check_dummies # noqa: E402
from check_dummies import create_dummy_files, create_dummy_object, find_backend, read_init # noqa: E402
# Align TRANSFORMERS_PATH in check_dummies with the current path
UpperCAmelCase_ = os.path.join(git_repo_path, 'src', 'transformers')
UpperCAmelCase_ = '\n{0} = None\n'
UpperCAmelCase_ = '\nclass {0}(metaclass=DummyObject):\n _backends = {1}\n\n def __init__(self, *args, **kwargs):\n requires_backends(self, {1})\n'
UpperCAmelCase_ = '\ndef {0}(*args, **kwargs):\n requires_backends({0}, {1})\n'
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = find_backend(""" _import_structure[\"models.albert\"].append(\"AlbertTokenizerFast\")""" )
self.assertIsNone(UpperCamelCase_ )
__lowerCamelCase = find_backend(""" if not is_tokenizers_available():""" )
self.assertEqual(UpperCamelCase_ , """tokenizers""" )
__lowerCamelCase = find_backend(""" if not is_tensorflow_text_available():""" )
self.assertEqual(UpperCamelCase_ , """tensorflow_text""" )
__lowerCamelCase = find_backend(""" if not (is_sentencepiece_available() and is_tokenizers_available()):""" )
self.assertEqual(UpperCamelCase_ , """sentencepiece_and_tokenizers""" )
__lowerCamelCase = find_backend(
""" if not (is_sentencepiece_available() and is_tensorflow_text_available()):""" )
self.assertEqual(UpperCamelCase_ , """sentencepiece_and_tensorflow_text""" )
__lowerCamelCase = find_backend(
""" if not (is_sentencepiece_available() and is_tokenizers_available() and is_vision_available()):""" )
self.assertEqual(UpperCamelCase_ , """sentencepiece_and_tokenizers_and_vision""" )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = read_init()
# We don't assert on the exact list of keys to allow for smooth grow of backend-specific objects
self.assertIn("""torch""" , UpperCamelCase_ )
self.assertIn("""tensorflow_text""" , UpperCamelCase_ )
self.assertIn("""sentencepiece_and_tokenizers""" , UpperCamelCase_ )
# Likewise, we can't assert on the exact content of a key
self.assertIn("""BertModel""" , objects["""torch"""] )
self.assertIn("""TFBertModel""" , objects["""tf"""] )
self.assertIn("""FlaxBertModel""" , objects["""flax"""] )
self.assertIn("""BertModel""" , objects["""torch"""] )
self.assertIn("""TFBertTokenizer""" , objects["""tensorflow_text"""] )
self.assertIn("""convert_slow_tokenizer""" , objects["""sentencepiece_and_tokenizers"""] )
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = create_dummy_object("""CONSTANT""" , """'torch'""" )
self.assertEqual(UpperCamelCase_ , """\nCONSTANT = None\n""" )
__lowerCamelCase = create_dummy_object("""function""" , """'torch'""" )
self.assertEqual(
UpperCamelCase_ , """\ndef function(*args, **kwargs):\n requires_backends(function, 'torch')\n""" )
__lowerCamelCase = """
class FakeClass(metaclass=DummyObject):
_backends = 'torch'
def __init__(self, *args, **kwargs):
requires_backends(self, 'torch')
"""
__lowerCamelCase = create_dummy_object("""FakeClass""" , """'torch'""" )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = """# This file is autogenerated by the command `make fix-copies`, do not edit.
from ..utils import DummyObject, requires_backends
CONSTANT = None
def function(*args, **kwargs):
requires_backends(function, [\"torch\"])
class FakeClass(metaclass=DummyObject):
_backends = [\"torch\"]
def __init__(self, *args, **kwargs):
requires_backends(self, [\"torch\"])
"""
__lowerCamelCase = create_dummy_files({"""torch""": ["""CONSTANT""", """function""", """FakeClass"""]} )
self.assertEqual(dummy_files["""torch"""] , UpperCamelCase_ )
| 12 |
from __future__ import annotations
from collections import namedtuple
from dataclasses import dataclass
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : int
UpperCAmelCase__ : TreeNode | None = None
UpperCAmelCase__ : TreeNode | None = None
UpperCAmelCase_ = namedtuple('CoinsDistribResult', 'moves excess')
def lowerCamelCase__ ( A__ : TreeNode | None ):
'''simple docstring'''
if root is None:
return 0
# Validation
def count_nodes(A__ : TreeNode | None ) -> int:
if node is None:
return 0
return count_nodes(node.left ) + count_nodes(node.right ) + 1
def count_coins(A__ : TreeNode | None ) -> int:
if node is None:
return 0
return count_coins(node.left ) + count_coins(node.right ) + node.data
if count_nodes(A__ ) != count_coins(A__ ):
raise ValueError("""The nodes number should be same as the number of coins""" )
# Main calculation
def get_distrib(A__ : TreeNode | None ) -> CoinsDistribResult:
if node is None:
return CoinsDistribResult(0 , 1 )
__lowerCamelCase, __lowerCamelCase = get_distrib(node.left )
__lowerCamelCase, __lowerCamelCase = get_distrib(node.right )
__lowerCamelCase = 1 - left_distrib_excess
__lowerCamelCase = 1 - right_distrib_excess
__lowerCamelCase = (
left_distrib_moves
+ right_distrib_moves
+ abs(A__ )
+ abs(A__ )
)
__lowerCamelCase = node.data - coins_to_left - coins_to_right
return CoinsDistribResult(A__ , A__ )
return get_distrib(A__ )[0]
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 | 1 |
import json
import logging
import math
import os
import sys
from dataclasses import dataclass, field
from typing import Optional
from datasets import Dataset, load_dataset
import transformers
from transformers import (
CONFIG_MAPPING,
MODEL_FOR_MASKED_LM_MAPPING,
AutoConfig,
AutoModelForMaskedLM,
AutoTokenizer,
DataCollatorForWholeWordMask,
HfArgumentParser,
Trainer,
TrainingArguments,
set_seed,
)
from transformers.trainer_utils import get_last_checkpoint, is_main_process
UpperCAmelCase_ = logging.getLogger(__name__)
UpperCAmelCase_ = list(MODEL_FOR_MASKED_LM_MAPPING.keys())
UpperCAmelCase_ = tuple(conf.model_type for conf in MODEL_CONFIG_CLASSES)
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={
'help': (
'The model checkpoint for weights initialization.Don\'t set if you want to train a model from scratch.'
)
} , )
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={'help': 'If training from scratch, pass a model type from the list: ' + ', '.join(__lowerCamelCase)} , )
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={
'help': (
'Override some existing default config settings when a model is trained from scratch. Example: '
'n_embd=10,resid_pdrop=0.2,scale_attn_weights=false,summary_type=cls_index'
)
} , )
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={'help': 'Pretrained config name or path if not the same as model_name'})
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={'help': 'Pretrained tokenizer name or path if not the same as model_name'})
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={'help': 'Where do you want to store the pretrained models downloaded from huggingface.co'} , )
UpperCAmelCase__ : bool = field(
default=__lowerCamelCase , metadata={'help': 'Whether to use one of the fast tokenizer (backed by the tokenizers library) or not.'} , )
UpperCAmelCase__ : str = field(
default='main' , metadata={'help': 'The specific model version to use (can be a branch name, tag name or commit id).'} , )
UpperCAmelCase__ : bool = field(
default=__lowerCamelCase , metadata={
'help': (
'Will use the token generated when running `huggingface-cli login` (necessary to use this script '
'with private models).'
)
} , )
def lowerCAmelCase__ ( self: List[Any] ):
if self.config_overrides is not None and (self.config_name is not None or self.model_name_or_path is not None):
raise ValueError(
"""--config_overrides can't be used in combination with --config_name or --model_name_or_path""" )
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={'help': 'The name of the dataset to use (via the datasets library).'})
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={'help': 'The configuration name of the dataset to use (via the datasets library).'})
UpperCAmelCase__ : Optional[str] = field(default=__lowerCamelCase , metadata={'help': 'The input training data file (a text file).'})
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={'help': 'An optional input evaluation data file to evaluate the perplexity on (a text file).'} , )
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={'help': 'An optional input train ref data file for whole word masking in Chinese.'} , )
UpperCAmelCase__ : Optional[str] = field(
default=__lowerCamelCase , metadata={'help': 'An optional input validation ref data file for whole word masking in Chinese.'} , )
UpperCAmelCase__ : bool = field(
default=__lowerCamelCase , metadata={'help': 'Overwrite the cached training and evaluation sets'})
UpperCAmelCase__ : Optional[int] = field(
default=5 , metadata={
'help': 'The percentage of the train set used as validation set in case there\'s no validation split'
} , )
UpperCAmelCase__ : Optional[int] = field(
default=__lowerCamelCase , metadata={
'help': (
'The maximum total input sequence length after tokenization. Sequences longer '
'than this will be truncated. Default to the max input length of the model.'
)
} , )
UpperCAmelCase__ : Optional[int] = field(
default=__lowerCamelCase , metadata={'help': 'The number of processes to use for the preprocessing.'} , )
UpperCAmelCase__ : float = field(
default=0.15 , metadata={'help': 'Ratio of tokens to mask for masked language modeling loss'})
UpperCAmelCase__ : bool = field(
default=__lowerCamelCase , metadata={
'help': (
'Whether to pad all samples to `max_seq_length`. '
'If False, will pad the samples dynamically when batching to the maximum length in the batch.'
)
} , )
def lowerCAmelCase__ ( self: str ):
if self.train_file is not None:
__lowerCamelCase = self.train_file.split(""".""" )[-1]
assert extension in ["csv", "json", "txt"], "`train_file` should be a csv, a json or a txt file."
if self.validation_file is not None:
__lowerCamelCase = self.validation_file.split(""".""" )[-1]
assert extension in ["csv", "json", "txt"], "`validation_file` should be a csv, a json or a txt file."
def lowerCamelCase__ ( A__ : List[str] , A__ : List[str] ):
'''simple docstring'''
with open(A__ , """r""" , encoding="""utf-8""" ) as f:
__lowerCamelCase = [json.loads(A__ ) for line in f.read().splitlines() if (len(A__ ) > 0 and not line.isspace())]
assert len(A__ ) == len(A__ )
__lowerCamelCase = {c: dataset[c] for c in dataset.column_names}
__lowerCamelCase = refs
return Dataset.from_dict(A__ )
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = HfArgumentParser((ModelArguments, DataTrainingArguments, TrainingArguments) )
if len(sys.argv ) == 2 and sys.argv[1].endswith(""".json""" ):
# If we pass only one argument to the script and it's the path to a json file,
# let's parse it to get our arguments.
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = parser.parse_json_file(json_file=os.path.abspath(sys.argv[1] ) )
else:
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = parser.parse_args_into_dataclasses()
# Detecting last checkpoint.
__lowerCamelCase = None
if os.path.isdir(training_args.output_dir ) and training_args.do_train and not training_args.overwrite_output_dir:
__lowerCamelCase = get_last_checkpoint(training_args.output_dir )
if last_checkpoint is None and len(os.listdir(training_args.output_dir ) ) > 0:
raise ValueError(
f'Output directory ({training_args.output_dir}) already exists and is not empty. '
"""Use --overwrite_output_dir to overcome.""" )
elif last_checkpoint is not None:
logger.info(
f'Checkpoint detected, resuming training at {last_checkpoint}. To avoid this behavior, change '
"""the `--output_dir` or add `--overwrite_output_dir` to train from scratch.""" )
# Setup logging
logging.basicConfig(
format="""%(asctime)s - %(levelname)s - %(name)s - %(message)s""" , datefmt="""%m/%d/%Y %H:%M:%S""" , handlers=[logging.StreamHandler(sys.stdout )] , )
logger.setLevel(logging.INFO if is_main_process(training_args.local_rank ) else logging.WARN )
# Log on each process the small summary:
logger.warning(
f'Process rank: {training_args.local_rank}, device: {training_args.device}, n_gpu: {training_args.n_gpu}'
+ f'distributed training: {bool(training_args.local_rank != -1 )}, 16-bits training: {training_args.fpaa}' )
# Set the verbosity to info of the Transformers logger (on main process only):
if is_main_process(training_args.local_rank ):
transformers.utils.logging.set_verbosity_info()
transformers.utils.logging.enable_default_handler()
transformers.utils.logging.enable_explicit_format()
logger.info("""Training/evaluation parameters %s""" , A__ )
# Set seed before initializing model.
set_seed(training_args.seed )
# Get the datasets: you can either provide your own CSV/JSON/TXT training and evaluation files (see below)
# or just provide the name of one of the public datasets available on the hub at https://huggingface.co/datasets/
# (the dataset will be downloaded automatically from the datasets Hub).
#
# For CSV/JSON files, this script will use the column called 'text' or the first column if no column called
# 'text' is found. You can easily tweak this behavior (see below).
#
# In distributed training, the load_dataset function guarantee that only one local process can concurrently
# download the dataset.
if data_args.dataset_name is not None:
# Downloading and loading a dataset from the hub.
__lowerCamelCase = load_dataset(data_args.dataset_name , data_args.dataset_config_name )
if "validation" not in datasets.keys():
__lowerCamelCase = load_dataset(
data_args.dataset_name , data_args.dataset_config_name , split=f'train[:{data_args.validation_split_percentage}%]' , )
__lowerCamelCase = load_dataset(
data_args.dataset_name , data_args.dataset_config_name , split=f'train[{data_args.validation_split_percentage}%:]' , )
else:
__lowerCamelCase = {}
if data_args.train_file is not None:
__lowerCamelCase = data_args.train_file
if data_args.validation_file is not None:
__lowerCamelCase = data_args.validation_file
__lowerCamelCase = data_args.train_file.split(""".""" )[-1]
if extension == "txt":
__lowerCamelCase = """text"""
__lowerCamelCase = load_dataset(A__ , data_files=A__ )
# See more about loading any type of standard or custom dataset (from files, python dict, pandas DataFrame, etc) at
# https://huggingface.co/docs/datasets/loading_datasets.html.
# Load pretrained model and tokenizer
#
# Distributed training:
# The .from_pretrained methods guarantee that only one local process can concurrently
# download model & vocab.
__lowerCamelCase = {
"""cache_dir""": model_args.cache_dir,
"""revision""": model_args.model_revision,
"""use_auth_token""": True if model_args.use_auth_token else None,
}
if model_args.config_name:
__lowerCamelCase = AutoConfig.from_pretrained(model_args.config_name , **A__ )
elif model_args.model_name_or_path:
__lowerCamelCase = AutoConfig.from_pretrained(model_args.model_name_or_path , **A__ )
else:
__lowerCamelCase = CONFIG_MAPPING[model_args.model_type]()
logger.warning("""You are instantiating a new config instance from scratch.""" )
if model_args.config_overrides is not None:
logger.info(f'Overriding config: {model_args.config_overrides}' )
config.update_from_string(model_args.config_overrides )
logger.info(f'New config: {config}' )
__lowerCamelCase = {
"""cache_dir""": model_args.cache_dir,
"""use_fast""": model_args.use_fast_tokenizer,
"""revision""": model_args.model_revision,
"""use_auth_token""": True if model_args.use_auth_token else None,
}
if model_args.tokenizer_name:
__lowerCamelCase = AutoTokenizer.from_pretrained(model_args.tokenizer_name , **A__ )
elif model_args.model_name_or_path:
__lowerCamelCase = AutoTokenizer.from_pretrained(model_args.model_name_or_path , **A__ )
else:
raise ValueError(
"""You are instantiating a new tokenizer from scratch. This is not supported by this script."""
"""You can do it from another script, save it, and load it from here, using --tokenizer_name.""" )
if model_args.model_name_or_path:
__lowerCamelCase = AutoModelForMaskedLM.from_pretrained(
model_args.model_name_or_path , from_tf=bool(""".ckpt""" in model_args.model_name_or_path ) , config=A__ , cache_dir=model_args.cache_dir , revision=model_args.model_revision , use_auth_token=True if model_args.use_auth_token else None , )
else:
logger.info("""Training new model from scratch""" )
__lowerCamelCase = AutoModelForMaskedLM.from_config(A__ )
model.resize_token_embeddings(len(A__ ) )
# Preprocessing the datasets.
# First we tokenize all the texts.
if training_args.do_train:
__lowerCamelCase = datasets["""train"""].column_names
else:
__lowerCamelCase = datasets["""validation"""].column_names
__lowerCamelCase = """text""" if """text""" in column_names else column_names[0]
__lowerCamelCase = """max_length""" if data_args.pad_to_max_length else False
def tokenize_function(A__ : Optional[Any] ):
# Remove empty lines
__lowerCamelCase = [line for line in examples["""text"""] if len(A__ ) > 0 and not line.isspace()]
return tokenizer(examples["""text"""] , padding=A__ , truncation=A__ , max_length=data_args.max_seq_length )
__lowerCamelCase = datasets.map(
A__ , batched=A__ , num_proc=data_args.preprocessing_num_workers , remove_columns=[text_column_name] , load_from_cache_file=not data_args.overwrite_cache , )
# Add the chinese references if provided
if data_args.train_ref_file is not None:
__lowerCamelCase = add_chinese_references(tokenized_datasets["""train"""] , data_args.train_ref_file )
if data_args.validation_ref_file is not None:
__lowerCamelCase = add_chinese_references(
tokenized_datasets["""validation"""] , data_args.validation_ref_file )
# If we have ref files, need to avoid it removed by trainer
__lowerCamelCase = data_args.train_ref_file or data_args.validation_ref_file
if has_ref:
__lowerCamelCase = False
# Data collator
# This one will take care of randomly masking the tokens.
__lowerCamelCase = DataCollatorForWholeWordMask(tokenizer=A__ , mlm_probability=data_args.mlm_probability )
# Initialize our Trainer
__lowerCamelCase = Trainer(
model=A__ , args=A__ , train_dataset=tokenized_datasets["""train"""] if training_args.do_train else None , eval_dataset=tokenized_datasets["""validation"""] if training_args.do_eval else None , tokenizer=A__ , data_collator=A__ , )
# Training
if training_args.do_train:
if last_checkpoint is not None:
__lowerCamelCase = last_checkpoint
elif model_args.model_name_or_path is not None and os.path.isdir(model_args.model_name_or_path ):
__lowerCamelCase = model_args.model_name_or_path
else:
__lowerCamelCase = None
__lowerCamelCase = trainer.train(resume_from_checkpoint=A__ )
trainer.save_model() # Saves the tokenizer too for easy upload
__lowerCamelCase = os.path.join(training_args.output_dir , """train_results.txt""" )
if trainer.is_world_process_zero():
with open(A__ , """w""" ) as writer:
logger.info("""***** Train results *****""" )
for key, value in sorted(train_result.metrics.items() ):
logger.info(f' {key} = {value}' )
writer.write(f'{key} = {value}\n' )
# Need to save the state, since Trainer.save_model saves only the tokenizer with the model
trainer.state.save_to_json(os.path.join(training_args.output_dir , """trainer_state.json""" ) )
# Evaluation
__lowerCamelCase = {}
if training_args.do_eval:
logger.info("""*** Evaluate ***""" )
__lowerCamelCase = trainer.evaluate()
__lowerCamelCase = math.exp(eval_output["""eval_loss"""] )
__lowerCamelCase = perplexity
__lowerCamelCase = os.path.join(training_args.output_dir , """eval_results_mlm_wwm.txt""" )
if trainer.is_world_process_zero():
with open(A__ , """w""" ) as writer:
logger.info("""***** Eval results *****""" )
for key, value in sorted(results.items() ):
logger.info(f' {key} = {value}' )
writer.write(f'{key} = {value}\n' )
return results
def lowerCamelCase__ ( A__ : Dict ):
'''simple docstring'''
main()
if __name__ == "__main__":
main()
| 12 |
from typing import Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature
from ...image_transforms import get_image_size, pad, rescale, to_channel_dimension_format
from ...image_utils import ChannelDimension, ImageInput, make_list_of_images, to_numpy_array, valid_images
from ...utils import TensorType, logging
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Tuple = ['pixel_values']
def __init__( self: Any , UpperCamelCase_: bool = True , UpperCamelCase_: Union[int, float] = 1 / 2_55 , UpperCamelCase_: bool = True , UpperCamelCase_: int = 8 , **UpperCamelCase_: Tuple , ):
super().__init__(**UpperCamelCase_ )
__lowerCamelCase = do_rescale
__lowerCamelCase = rescale_factor
__lowerCamelCase = do_pad
__lowerCamelCase = pad_size
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: np.ndarray , UpperCamelCase_: float , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None , **UpperCamelCase_: Tuple ):
return rescale(UpperCamelCase_ , scale=UpperCamelCase_ , data_format=UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: np.ndarray , UpperCamelCase_: int , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None ):
__lowerCamelCase, __lowerCamelCase = get_image_size(UpperCamelCase_ )
__lowerCamelCase = (old_height // size + 1) * size - old_height
__lowerCamelCase = (old_width // size + 1) * size - old_width
return pad(UpperCamelCase_ , ((0, pad_height), (0, pad_width)) , mode="""symmetric""" , data_format=UpperCamelCase_ )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: ImageInput , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: Optional[float] = None , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[Union[str, TensorType]] = None , UpperCamelCase_: Union[str, ChannelDimension] = ChannelDimension.FIRST , **UpperCamelCase_: Any , ):
__lowerCamelCase = do_rescale if do_rescale is not None else self.do_rescale
__lowerCamelCase = rescale_factor if rescale_factor is not None else self.rescale_factor
__lowerCamelCase = do_pad if do_pad is not None else self.do_pad
__lowerCamelCase = pad_size if pad_size is not None else self.pad_size
__lowerCamelCase = 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_rescale and rescale_factor is None:
raise ValueError("""Rescale factor must be specified if do_rescale is True.""" )
# All transformations expect numpy arrays.
__lowerCamelCase = [to_numpy_array(UpperCamelCase_ ) for image in images]
if do_rescale:
__lowerCamelCase = [self.rescale(image=UpperCamelCase_ , scale=UpperCamelCase_ ) for image in images]
if do_pad:
__lowerCamelCase = [self.pad(UpperCamelCase_ , size=UpperCamelCase_ ) for image in images]
__lowerCamelCase = [to_channel_dimension_format(UpperCamelCase_ , UpperCamelCase_ ) for image in images]
__lowerCamelCase = {"""pixel_values""": images}
return BatchFeature(data=UpperCamelCase_ , tensor_type=UpperCamelCase_ )
| 12 | 1 |
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_torch_available,
)
UpperCAmelCase_ = {
'configuration_mega': ['MEGA_PRETRAINED_CONFIG_ARCHIVE_MAP', 'MegaConfig', 'MegaOnnxConfig'],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = [
'MEGA_PRETRAINED_MODEL_ARCHIVE_LIST',
'MegaForCausalLM',
'MegaForMaskedLM',
'MegaForMultipleChoice',
'MegaForQuestionAnswering',
'MegaForSequenceClassification',
'MegaForTokenClassification',
'MegaModel',
'MegaPreTrainedModel',
]
if TYPE_CHECKING:
from .configuration_mega import MEGA_PRETRAINED_CONFIG_ARCHIVE_MAP, MegaConfig, MegaOnnxConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_mega import (
MEGA_PRETRAINED_MODEL_ARCHIVE_LIST,
MegaForCausalLM,
MegaForMaskedLM,
MegaForMultipleChoice,
MegaForQuestionAnswering,
MegaForSequenceClassification,
MegaForTokenClassification,
MegaModel,
MegaPreTrainedModel,
)
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : list[int | float] , A__ : int , A__ : int ):
'''simple docstring'''
if len(A__ ) == 0:
raise ValueError("""find_max() arg is an empty sequence""" )
if (
left >= len(A__ )
or left < -len(A__ )
or right >= len(A__ )
or right < -len(A__ )
):
raise IndexError("""list index out of range""" )
if left == right:
return nums[left]
__lowerCamelCase = (left + right) >> 1 # the middle
__lowerCamelCase = find_max(A__ , A__ , A__ ) # find max in range[left, mid]
__lowerCamelCase = find_max(A__ , mid + 1 , A__ ) # find max in range[mid + 1, right]
return left_max if left_max >= right_max else right_max
if __name__ == "__main__":
import doctest
doctest.testmod(verbose=True)
| 12 | 1 |
# XXX: we want transformers master here - in the absense of conftest manipulating sys.path:
# hack it in for now:
import sys
from pathlib import Path
UpperCAmelCase_ = Path(__file__).resolve().parents[3] / 'src'
sys.path.insert(1, str(git_repo_path))
import dataclasses # noqa
import io # noqa
import itertools # noqa
import json # noqa
import os # noqa
import unittest # noqa
from copy import deepcopy # noqa
from parameterized import parameterized # noqa
from transformers import TrainingArguments, is_torch_available # noqa
from transformers.deepspeed import is_deepspeed_available # noqa
from transformers.file_utils import WEIGHTS_NAME # noqa
from transformers.testing_utils import ( # noqa
CaptureLogger,
ExtendSysPath,
TestCasePlus,
execute_subprocess_async,
get_gpu_count,
mockenv_context,
require_deepspeed,
require_torch_gpu,
require_torch_multi_gpu,
slow,
)
from transformers.trainer_utils import set_seed # noqa
set_seed(42)
UpperCAmelCase_ = {'base': 'patrickvonplaten/wav2vec2_tiny_random', 'robust': 'patrickvonplaten/wav2vec2_tiny_random_robust'}
UpperCAmelCase_ = 'zero2'
UpperCAmelCase_ = 'zero3'
UpperCAmelCase_ = [ZEROa, ZEROa]
def lowerCamelCase__ ( A__ : int , A__ : Union[str, Any] , A__ : List[Any] ):
'''simple docstring'''
__lowerCamelCase = parameterized.to_safe_name("""_""".join(str(A__ ) for x in param.args ) )
return f'{func.__name__}_{param_based_name}'
# Cartesian-product of zero stages with models to test
UpperCAmelCase_ = list(itertools.product(stages, models.keys()))
@slow
@require_deepspeed
@require_torch_gpu
class lowerCamelCase__( __lowerCamelCase):
@parameterized.expand(UpperCamelCase_ , name_func=UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: List[str] , UpperCamelCase_: int ):
self.run_and_check(
stage=UpperCamelCase_ , model=UpperCamelCase_ , distributed=UpperCamelCase_ , fpaa=UpperCamelCase_ , )
@require_torch_multi_gpu
@parameterized.expand(UpperCamelCase_ , name_func=UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[Any] , UpperCamelCase_: Optional[Any] ):
self.run_and_check(
stage=UpperCamelCase_ , model=UpperCamelCase_ , distributed=UpperCamelCase_ , fpaa=UpperCamelCase_ , )
@parameterized.expand(UpperCamelCase_ , name_func=UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[int] , UpperCamelCase_: int , UpperCamelCase_: List[Any] ):
self.run_and_check(
stage=UpperCamelCase_ , model=UpperCamelCase_ , distributed=UpperCamelCase_ , fpaa=UpperCamelCase_ , )
@require_torch_multi_gpu
@parameterized.expand(UpperCamelCase_ , name_func=UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: List[str] , UpperCamelCase_: List[str] ):
self.run_and_check(
stage=UpperCamelCase_ , model=UpperCamelCase_ , distributed=UpperCamelCase_ , fpaa=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: str ):
# XXX: run_asr is premature and doesn't save any results
# so all we check for now is that the process didn't fail
pass
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: str , UpperCamelCase_: str , UpperCamelCase_: int = 10 , UpperCamelCase_: bool = True , UpperCamelCase_: bool = True , UpperCamelCase_: bool = True , ):
__lowerCamelCase = models[model]
__lowerCamelCase = self.run_trainer(
stage=UpperCamelCase_ , model_name=UpperCamelCase_ , eval_steps=UpperCamelCase_ , num_train_epochs=1 , distributed=UpperCamelCase_ , fpaa=UpperCamelCase_ , )
self.do_checks(UpperCamelCase_ )
return output_dir
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: str , UpperCamelCase_: str , UpperCamelCase_: int = 10 , UpperCamelCase_: int = 1 , UpperCamelCase_: bool = True , UpperCamelCase_: bool = True , ):
__lowerCamelCase = self.get_auto_remove_tmp_dir("""./xxx""" , after=UpperCamelCase_ )
__lowerCamelCase = F'\n --model_name_or_path {model_name}\n --dataset_name hf-internal-testing/librispeech_asr_dummy\n --dataset_config_name clean\n --train_split_name validation\n --validation_split_name validation\n --output_dir {output_dir}\n --num_train_epochs {str(UpperCamelCase_ )}\n --per_device_train_batch_size 2\n --per_device_eval_batch_size 2\n --evaluation_strategy steps\n --learning_rate 5e-4\n --warmup_steps 8\n --orthography timit\n --preprocessing_num_workers 1\n --group_by_length\n --freeze_feature_extractor\n --report_to none\n --save_steps 0\n --eval_steps {eval_steps}\n --report_to none\n '.split()
if fpaa:
args.extend(["""--fp16"""] )
# currently ds_config_wav2vec2_zero.json requires "zero_optimization.find_unused_parameters": true,
# hence the separate config files
__lowerCamelCase = F'--deepspeed {self.test_file_dir_str}/ds_config_wav2vec2_{stage}.json'.split()
__lowerCamelCase = [F'{self.examples_dir_str}/research_projects/wav2vec2/run_asr.py']
__lowerCamelCase = self.get_launcher(UpperCamelCase_ )
__lowerCamelCase = launcher + script + args + ds_args
# keep for quick debug
# print(" ".join([f"\nPYTHONPATH={self.src_dir_str}"] +cmd)); die
execute_subprocess_async(UpperCamelCase_ , env=self.get_env() )
return output_dir
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Optional[Any]=False ):
# 1. explicitly set --num_nodes=1 just in case these tests end up run on a multi-node setup
# - it won't be able to handle that
# 2. for now testing with just 2 gpus max (since some quality tests may give different
# results with mode gpus because we use very little data)
__lowerCamelCase = min(2 , get_gpu_count() ) if distributed else 1
return F'deepspeed --num_nodes 1 --num_gpus {num_gpus}'.split()
| 12 |
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 lowerCamelCase__( __lowerCamelCase):
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = SMALL_MODEL_IDENTIFIER
__lowerCamelCase = """pt"""
__lowerCamelCase = """tf"""
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Optional[Any] ):
__lowerCamelCase = AutoModel.from_pretrained(self.test_model )
model_pt.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Union[str, Any] ):
__lowerCamelCase = TFAutoModel.from_pretrained(self.test_model , from_pt=UpperCamelCase_ )
model_tf.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = """mock_framework"""
# Framework provided - return whatever the user provides
__lowerCamelCase = 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_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
# PyTorch checkpoint
with TemporaryDirectory() as local_pt_ckpt:
self._setup_pt_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Invalid local checkpoint
with TemporaryDirectory() as local_invalid_ckpt:
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# PyTorch not in environment -> use TensorFlow
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Both in environment -> use PyTorch
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ), patch(
"""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# Both not in environment -> raise error
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = 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_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
| 12 | 1 |
import os
from shutil import copyfile
from typing import List, Optional, Tuple
from tokenizers import processors
from ...tokenization_utils import AddedToken, BatchEncoding
from ...tokenization_utils_fast import PreTrainedTokenizerFast
from ...utils import is_sentencepiece_available, logging
if is_sentencepiece_available():
from .tokenization_nllb import NllbTokenizer
else:
UpperCAmelCase_ = None
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {'vocab_file': 'sentencepiece.bpe.model', 'tokenizer_file': 'tokenizer.json'}
UpperCAmelCase_ = {
'vocab_file': {
'facebook/nllb-200-distilled-600M': (
'https://huggingface.co/facebook/nllb-200-distilled-600M/resolve/main/sentencepiece.bpe.model'
),
},
'tokenizer_file': {
'facebook/nllb-200-distilled-600M': (
'https://huggingface.co/facebook/nllb-200-distilled-600M/resolve/main/tokenizer.json'
),
},
}
UpperCAmelCase_ = {
'facebook/nllb-large-en-ro': 1_024,
'facebook/nllb-200-distilled-600M': 1_024,
}
# fmt: off
UpperCAmelCase_ = ['ace_Arab', 'ace_Latn', 'acm_Arab', 'acq_Arab', 'aeb_Arab', 'afr_Latn', 'ajp_Arab', 'aka_Latn', 'amh_Ethi', 'apc_Arab', 'arb_Arab', 'ars_Arab', 'ary_Arab', 'arz_Arab', 'asm_Beng', 'ast_Latn', 'awa_Deva', 'ayr_Latn', 'azb_Arab', 'azj_Latn', 'bak_Cyrl', 'bam_Latn', 'ban_Latn', 'bel_Cyrl', 'bem_Latn', 'ben_Beng', 'bho_Deva', 'bjn_Arab', 'bjn_Latn', 'bod_Tibt', 'bos_Latn', 'bug_Latn', 'bul_Cyrl', 'cat_Latn', 'ceb_Latn', 'ces_Latn', 'cjk_Latn', 'ckb_Arab', 'crh_Latn', 'cym_Latn', 'dan_Latn', 'deu_Latn', 'dik_Latn', 'dyu_Latn', 'dzo_Tibt', 'ell_Grek', 'eng_Latn', 'epo_Latn', 'est_Latn', 'eus_Latn', 'ewe_Latn', 'fao_Latn', 'pes_Arab', 'fij_Latn', 'fin_Latn', 'fon_Latn', 'fra_Latn', 'fur_Latn', 'fuv_Latn', 'gla_Latn', 'gle_Latn', 'glg_Latn', 'grn_Latn', 'guj_Gujr', 'hat_Latn', 'hau_Latn', 'heb_Hebr', 'hin_Deva', 'hne_Deva', 'hrv_Latn', 'hun_Latn', 'hye_Armn', 'ibo_Latn', 'ilo_Latn', 'ind_Latn', 'isl_Latn', 'ita_Latn', 'jav_Latn', 'jpn_Jpan', 'kab_Latn', 'kac_Latn', 'kam_Latn', 'kan_Knda', 'kas_Arab', 'kas_Deva', 'kat_Geor', 'knc_Arab', 'knc_Latn', 'kaz_Cyrl', 'kbp_Latn', 'kea_Latn', 'khm_Khmr', 'kik_Latn', 'kin_Latn', 'kir_Cyrl', 'kmb_Latn', 'kon_Latn', 'kor_Hang', 'kmr_Latn', 'lao_Laoo', 'lvs_Latn', 'lij_Latn', 'lim_Latn', 'lin_Latn', 'lit_Latn', 'lmo_Latn', 'ltg_Latn', 'ltz_Latn', 'lua_Latn', 'lug_Latn', 'luo_Latn', 'lus_Latn', 'mag_Deva', 'mai_Deva', 'mal_Mlym', 'mar_Deva', 'min_Latn', 'mkd_Cyrl', 'plt_Latn', 'mlt_Latn', 'mni_Beng', 'khk_Cyrl', 'mos_Latn', 'mri_Latn', 'zsm_Latn', 'mya_Mymr', 'nld_Latn', 'nno_Latn', 'nob_Latn', 'npi_Deva', 'nso_Latn', 'nus_Latn', 'nya_Latn', 'oci_Latn', 'gaz_Latn', 'ory_Orya', 'pag_Latn', 'pan_Guru', 'pap_Latn', 'pol_Latn', 'por_Latn', 'prs_Arab', 'pbt_Arab', 'quy_Latn', 'ron_Latn', 'run_Latn', 'rus_Cyrl', 'sag_Latn', 'san_Deva', 'sat_Beng', 'scn_Latn', 'shn_Mymr', 'sin_Sinh', 'slk_Latn', 'slv_Latn', 'smo_Latn', 'sna_Latn', 'snd_Arab', 'som_Latn', 'sot_Latn', 'spa_Latn', 'als_Latn', 'srd_Latn', 'srp_Cyrl', 'ssw_Latn', 'sun_Latn', 'swe_Latn', 'swh_Latn', 'szl_Latn', 'tam_Taml', 'tat_Cyrl', 'tel_Telu', 'tgk_Cyrl', 'tgl_Latn', 'tha_Thai', 'tir_Ethi', 'taq_Latn', 'taq_Tfng', 'tpi_Latn', 'tsn_Latn', 'tso_Latn', 'tuk_Latn', 'tum_Latn', 'tur_Latn', 'twi_Latn', 'tzm_Tfng', 'uig_Arab', 'ukr_Cyrl', 'umb_Latn', 'urd_Arab', 'uzn_Latn', 'vec_Latn', 'vie_Latn', 'war_Latn', 'wol_Latn', 'xho_Latn', 'ydd_Hebr', 'yor_Latn', 'yue_Hant', 'zho_Hans', 'zho_Hant', 'zul_Latn']
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Optional[int] = VOCAB_FILES_NAMES
UpperCAmelCase__ : Tuple = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
UpperCAmelCase__ : int = PRETRAINED_VOCAB_FILES_MAP
UpperCAmelCase__ : str = ['input_ids', 'attention_mask']
UpperCAmelCase__ : str = NllbTokenizer
UpperCAmelCase__ : List[int] = []
UpperCAmelCase__ : List[int] = []
def __init__( self: Dict , UpperCamelCase_: Union[str, Any]=None , UpperCamelCase_: Optional[int]=None , UpperCamelCase_: Any="<s>" , UpperCamelCase_: Any="</s>" , UpperCamelCase_: List[Any]="</s>" , UpperCamelCase_: Optional[Any]="<s>" , UpperCamelCase_: int="<unk>" , UpperCamelCase_: Union[str, Any]="<pad>" , UpperCamelCase_: Union[str, Any]="<mask>" , UpperCamelCase_: Union[str, Any]=None , UpperCamelCase_: str=None , UpperCamelCase_: Dict=None , UpperCamelCase_: Optional[Any]=False , **UpperCamelCase_: int , ):
# Mask token behave like a normal word, i.e. include the space before it
__lowerCamelCase = AddedToken(UpperCamelCase_ , lstrip=UpperCamelCase_ , rstrip=UpperCamelCase_ ) if isinstance(UpperCamelCase_ , UpperCamelCase_ ) else mask_token
__lowerCamelCase = legacy_behaviour
super().__init__(
vocab_file=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_ , src_lang=UpperCamelCase_ , tgt_lang=UpperCamelCase_ , additional_special_tokens=UpperCamelCase_ , legacy_behaviour=UpperCamelCase_ , **UpperCamelCase_ , )
__lowerCamelCase = vocab_file
__lowerCamelCase = False if not self.vocab_file else True
__lowerCamelCase = FAIRSEQ_LANGUAGE_CODES.copy()
if additional_special_tokens is not None:
# Only add those special tokens if they are not already there.
_additional_special_tokens.extend(
[t for t in additional_special_tokens if t not in _additional_special_tokens] )
self.add_special_tokens({"""additional_special_tokens""": _additional_special_tokens} )
__lowerCamelCase = {
lang_code: self.convert_tokens_to_ids(UpperCamelCase_ ) for lang_code in FAIRSEQ_LANGUAGE_CODES
}
__lowerCamelCase = src_lang if src_lang is not None else """eng_Latn"""
__lowerCamelCase = self.convert_tokens_to_ids(self._src_lang )
__lowerCamelCase = tgt_lang
self.set_src_lang_special_tokens(self._src_lang )
@property
def lowerCAmelCase__ ( self: int ):
return self._src_lang
@src_lang.setter
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: str ):
__lowerCamelCase = new_src_lang
self.set_src_lang_special_tokens(self._src_lang )
def lowerCAmelCase__ ( self: int , UpperCamelCase_: List[int] , UpperCamelCase_: Optional[List[int]] = None ):
if token_ids_a is None:
return self.prefix_tokens + token_ids_a + self.suffix_tokens
# We don't expect to process pairs, but leave the pair logic for API consistency
return self.prefix_tokens + token_ids_a + token_ids_a + self.suffix_tokens
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: List[int] , UpperCamelCase_: Optional[List[int]] = None ):
__lowerCamelCase = [self.sep_token_id]
__lowerCamelCase = [self.cls_token_id]
if token_ids_a is None:
return len(cls + token_ids_a + sep ) * [0]
return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: str , UpperCamelCase_: str , UpperCamelCase_: Optional[str] , UpperCamelCase_: Optional[str] , **UpperCamelCase_: int ):
if src_lang is None or tgt_lang is None:
raise ValueError("""Translation requires a `src_lang` and a `tgt_lang` for this model""" )
__lowerCamelCase = src_lang
__lowerCamelCase = self(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = self.convert_tokens_to_ids(UpperCamelCase_ )
__lowerCamelCase = tgt_lang_id
return inputs
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: List[str] , UpperCamelCase_: str = "eng_Latn" , UpperCamelCase_: Optional[List[str]] = None , UpperCamelCase_: str = "fra_Latn" , **UpperCamelCase_: Optional[int] , ):
__lowerCamelCase = src_lang
__lowerCamelCase = tgt_lang
return super().prepare_seqaseq_batch(UpperCamelCase_ , UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict ):
return self.set_src_lang_special_tokens(self.src_lang )
def lowerCAmelCase__ ( self: List[str] ):
return self.set_tgt_lang_special_tokens(self.tgt_lang )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Optional[int] ):
__lowerCamelCase = self.convert_tokens_to_ids(UpperCamelCase_ )
if self.legacy_behaviour:
__lowerCamelCase = []
__lowerCamelCase = [self.eos_token_id, self.cur_lang_code]
else:
__lowerCamelCase = [self.cur_lang_code]
__lowerCamelCase = [self.eos_token_id]
__lowerCamelCase = self.convert_ids_to_tokens(self.prefix_tokens )
__lowerCamelCase = self.convert_ids_to_tokens(self.suffix_tokens )
__lowerCamelCase = processors.TemplateProcessing(
single=prefix_tokens_str + ["""$A"""] + suffix_tokens_str , pair=prefix_tokens_str + ["""$A""", """$B"""] + suffix_tokens_str , special_tokens=list(zip(prefix_tokens_str + suffix_tokens_str , self.prefix_tokens + self.suffix_tokens ) ) , )
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: str ):
__lowerCamelCase = self.convert_tokens_to_ids(UpperCamelCase_ )
if self.legacy_behaviour:
__lowerCamelCase = []
__lowerCamelCase = [self.eos_token_id, self.cur_lang_code]
else:
__lowerCamelCase = [self.cur_lang_code]
__lowerCamelCase = [self.eos_token_id]
__lowerCamelCase = self.convert_ids_to_tokens(self.prefix_tokens )
__lowerCamelCase = self.convert_ids_to_tokens(self.suffix_tokens )
__lowerCamelCase = processors.TemplateProcessing(
single=prefix_tokens_str + ["""$A"""] + suffix_tokens_str , pair=prefix_tokens_str + ["""$A""", """$B"""] + suffix_tokens_str , special_tokens=list(zip(prefix_tokens_str + suffix_tokens_str , self.prefix_tokens + self.suffix_tokens ) ) , )
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: str , UpperCamelCase_: Optional[str] = None ):
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
__lowerCamelCase = 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,)
| 12 |
from __future__ import annotations
from PIL import Image
# Define glider example
UpperCAmelCase_ = [
[0, 1, 0, 0, 0, 0, 0, 0],
[0, 0, 1, 0, 0, 0, 0, 0],
[1, 1, 1, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
]
# Define blinker example
UpperCAmelCase_ = [[0, 1, 0], [0, 1, 0], [0, 1, 0]]
def lowerCamelCase__ ( A__ : list[list[int]] ):
'''simple docstring'''
__lowerCamelCase = []
for i in range(len(A__ ) ):
__lowerCamelCase = []
for j in range(len(cells[i] ) ):
# Get the number of live neighbours
__lowerCamelCase = 0
if i > 0 and j > 0:
neighbour_count += cells[i - 1][j - 1]
if i > 0:
neighbour_count += cells[i - 1][j]
if i > 0 and j < len(cells[i] ) - 1:
neighbour_count += cells[i - 1][j + 1]
if j > 0:
neighbour_count += cells[i][j - 1]
if j < len(cells[i] ) - 1:
neighbour_count += cells[i][j + 1]
if i < len(A__ ) - 1 and j > 0:
neighbour_count += cells[i + 1][j - 1]
if i < len(A__ ) - 1:
neighbour_count += cells[i + 1][j]
if i < len(A__ ) - 1 and j < len(cells[i] ) - 1:
neighbour_count += cells[i + 1][j + 1]
# Rules of the game of life (excerpt from Wikipedia):
# 1. Any live cell with two or three live neighbours survives.
# 2. Any dead cell with three live neighbours becomes a live cell.
# 3. All other live cells die in the next generation.
# Similarly, all other dead cells stay dead.
__lowerCamelCase = cells[i][j] == 1
if (
(alive and 2 <= neighbour_count <= 3)
or not alive
and neighbour_count == 3
):
next_generation_row.append(1 )
else:
next_generation_row.append(0 )
next_generation.append(A__ )
return next_generation
def lowerCamelCase__ ( A__ : list[list[int]] , A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
for _ in range(A__ ):
# Create output image
__lowerCamelCase = Image.new("""RGB""" , (len(cells[0] ), len(A__ )) )
__lowerCamelCase = img.load()
# Save cells to image
for x in range(len(A__ ) ):
for y in range(len(cells[0] ) ):
__lowerCamelCase = 255 - cells[y][x] * 255
__lowerCamelCase = (colour, colour, colour)
# Save image
images.append(A__ )
__lowerCamelCase = new_generation(A__ )
return images
if __name__ == "__main__":
UpperCAmelCase_ = generate_images(GLIDER, 16)
images[0].save('out.gif', save_all=True, append_images=images[1:])
| 12 | 1 |
import json
import os
import unittest
from transformers import CLIPTokenizer, CLIPTokenizerFast
from transformers.models.clip.tokenization_clip import VOCAB_FILES_NAMES
from transformers.testing_utils import require_ftfy, require_tokenizers
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : str = CLIPTokenizer
UpperCAmelCase__ : Any = CLIPTokenizerFast
UpperCAmelCase__ : List[str] = True
UpperCAmelCase__ : Dict = {}
UpperCAmelCase__ : Dict = False
def lowerCAmelCase__ ( self: int ):
super().setUp()
# fmt: off
__lowerCamelCase = ["""l""", """o""", """w""", """e""", """r""", """s""", """t""", """i""", """d""", """n""", """lo""", """l</w>""", """w</w>""", """r</w>""", """t</w>""", """low</w>""", """er</w>""", """lowest</w>""", """newer</w>""", """wider""", """<unk>""", """<|startoftext|>""", """<|endoftext|>"""]
# fmt: on
__lowerCamelCase = dict(zip(UpperCamelCase_ , range(len(UpperCamelCase_ ) ) ) )
__lowerCamelCase = ["""#version: 0.2""", """l o""", """lo w</w>""", """e r</w>"""]
__lowerCamelCase = {"""unk_token""": """<unk>"""}
__lowerCamelCase = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["""vocab_file"""] )
__lowerCamelCase = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["""merges_file"""] )
with open(self.vocab_file , """w""" , encoding="""utf-8""" ) as fp:
fp.write(json.dumps(UpperCamelCase_ ) + """\n""" )
with open(self.merges_file , """w""" , encoding="""utf-8""" ) as fp:
fp.write("""\n""".join(UpperCamelCase_ ) )
def lowerCAmelCase__ ( self: Dict , **UpperCamelCase_: List[Any] ):
kwargs.update(self.special_tokens_map )
return CLIPTokenizer.from_pretrained(self.tmpdirname , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Any , **UpperCamelCase_: str ):
kwargs.update(self.special_tokens_map )
return CLIPTokenizerFast.from_pretrained(self.tmpdirname , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: Any ):
__lowerCamelCase = """lower newer"""
__lowerCamelCase = """lower newer"""
return input_text, output_text
def lowerCAmelCase__ ( self: Optional[Any] ):
__lowerCamelCase = CLIPTokenizer(self.vocab_file , self.merges_file , **self.special_tokens_map )
__lowerCamelCase = """lower newer"""
__lowerCamelCase = ["""lo""", """w""", """er</w>""", """n""", """e""", """w""", """er</w>"""]
__lowerCamelCase = tokenizer.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = tokens + [tokenizer.unk_token]
__lowerCamelCase = [10, 2, 16, 9, 3, 2, 16, 20]
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCamelCase_ ) , UpperCamelCase_ )
@require_ftfy
def lowerCAmelCase__ ( self: Optional[int] ):
for tokenizer, pretrained_name, kwargs in self.tokenizers_list:
with self.subTest(F'{tokenizer.__class__.__name__} ({pretrained_name})' ):
__lowerCamelCase = self.tokenizer_class.from_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = self.rust_tokenizer_class.from_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = """A\n'll 11p223RF☆ho!!to?'d'd''d of a cat to-$''d."""
__lowerCamelCase = tokenizer_s.tokenize(UpperCamelCase_ )
__lowerCamelCase = tokenizer_r.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
# Test that the tokenization is identical on an example containing a character (Latin Small Letter A
# with Tilde) encoded in 2 different ways
__lowerCamelCase = """xa\u0303y""" + """ """ + """x\xe3y"""
__lowerCamelCase = tokenizer_s.tokenize(UpperCamelCase_ )
__lowerCamelCase = tokenizer_r.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
# Test that the tokenization is identical on unicode of space type
__lowerCamelCase = [
"""\u0009""", # (horizontal tab, '\t')
"""\u000B""", # (vertical tab)
"""\u000C""", # (form feed)
"""\u0020""", # (space, ' ')
"""\u200E""", # (left-to-right mark):w
"""\u200F""", # (right-to-left mark)
]
for unicode_seq in spaces_unicodes:
__lowerCamelCase = tokenizer_s.tokenize(UpperCamelCase_ )
__lowerCamelCase = tokenizer_r.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
# Test that the tokenization is identical on unicode of line break type
__lowerCamelCase = [
"""\u000A""", # (line feed, '\n')
"""\r\n""", # (carriage return and line feed, '\r\n')
"""\u000D""", # (carriage return, '\r')
"""\r""", # (carriage return, '\r')
"""\u000D""", # (carriage return, '\r')
"""\u2028""", # (line separator)
"""\u2029""", # (paragraph separator)
# "\u0085", # (next line)
]
# The tokenization is not identical for the character "\u0085" (next line). The slow version using ftfy transforms
# it into the Horizontal Ellipsis character "…" ("\u2026") while the fast version transforms it into a
# space (and thus into an empty list).
for unicode_seq in line_break_unicodes:
__lowerCamelCase = tokenizer_s.tokenize(UpperCamelCase_ )
__lowerCamelCase = tokenizer_r.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[Any] ):
# Test which aims to verify that the offsets are well adapted to the argument `add_prefix_space`
for tokenizer, pretrained_name, kwargs in self.tokenizers_list:
with self.subTest(F'{tokenizer.__class__.__name__} ({pretrained_name})' ):
__lowerCamelCase = """hello""" # `hello` is a token in the vocabulary of `pretrained_name`
__lowerCamelCase = F'{text_of_1_token} {text_of_1_token}'
__lowerCamelCase = self.rust_tokenizer_class.from_pretrained(
UpperCamelCase_ , use_fast=UpperCamelCase_ , )
__lowerCamelCase = tokenizer_r(UpperCamelCase_ , return_offsets_mapping=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
self.assertEqual(encoding.offset_mapping[0] , (0, len(UpperCamelCase_ )) )
self.assertEqual(
encoding.offset_mapping[1] , (len(UpperCamelCase_ ) + 1, len(UpperCamelCase_ ) + 1 + len(UpperCamelCase_ )) , )
__lowerCamelCase = F' {text}'
__lowerCamelCase = self.rust_tokenizer_class.from_pretrained(
UpperCamelCase_ , use_fast=UpperCamelCase_ , )
__lowerCamelCase = tokenizer_r(UpperCamelCase_ , return_offsets_mapping=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
self.assertEqual(encoding.offset_mapping[0] , (1, 1 + len(UpperCamelCase_ )) )
self.assertEqual(
encoding.offset_mapping[1] , (1 + len(UpperCamelCase_ ) + 1, 1 + len(UpperCamelCase_ ) + 1 + len(UpperCamelCase_ )) , )
def lowerCAmelCase__ ( self: int ):
# Test related to the breaking change introduced in transformers v4.17.0
# We need to check that an error in raised when the user try to load a previous version of the tokenizer.
with self.assertRaises(UpperCamelCase_ ) as context:
self.rust_tokenizer_class.from_pretrained("""robot-test/old-clip-tokenizer""" )
self.assertTrue(
context.exception.args[0].startswith(
"""The `backend_tokenizer` provided does not match the expected format.""" ) )
@require_ftfy
def lowerCAmelCase__ ( self: Tuple ):
super().test_tokenization_python_rust_equals()
def lowerCAmelCase__ ( self: Any ):
# CLIP always lower cases letters
pass
| 12 |
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import AutoencoderKL, PNDMScheduler, StableDiffusionInpaintPipeline, UNetaDConditionModel
from diffusers.utils import floats_tensor, load_image, load_numpy, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu, slow
from ..pipeline_params import TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS, TEXT_GUIDED_IMAGE_INPAINTING_PARAMS
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class lowerCamelCase__( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Union[str, Any] = StableDiffusionInpaintPipeline
UpperCAmelCase__ : Dict = TEXT_GUIDED_IMAGE_INPAINTING_PARAMS
UpperCAmelCase__ : str = TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS
UpperCAmelCase__ : int = frozenset(
[]) # TO-DO: update image_params once pipeline is refactored with VaeImageProcessor.preprocess
UpperCAmelCase__ : Union[str, Any] = frozenset([])
def lowerCAmelCase__ ( self: str ):
torch.manual_seed(0 )
__lowerCamelCase = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=9 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , attention_head_dim=(2, 4) , use_linear_projection=UpperCamelCase_ , )
__lowerCamelCase = PNDMScheduler(skip_prk_steps=UpperCamelCase_ )
torch.manual_seed(0 )
__lowerCamelCase = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , sample_size=1_28 , )
torch.manual_seed(0 )
__lowerCamelCase = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , hidden_act="""gelu""" , projection_dim=5_12 , )
__lowerCamelCase = CLIPTextModel(UpperCamelCase_ )
__lowerCamelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" )
__lowerCamelCase = {
"""unet""": unet,
"""scheduler""": scheduler,
"""vae""": vae,
"""text_encoder""": text_encoder,
"""tokenizer""": tokenizer,
"""safety_checker""": None,
"""feature_extractor""": None,
}
return components
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Any , UpperCamelCase_: List[Any]=0 ):
# TODO: use tensor inputs instead of PIL, this is here just to leave the old expected_slices untouched
__lowerCamelCase = floats_tensor((1, 3, 32, 32) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0]
__lowerCamelCase = Image.fromarray(np.uinta(UpperCamelCase_ ) ).convert("""RGB""" ).resize((64, 64) )
__lowerCamelCase = Image.fromarray(np.uinta(image + 4 ) ).convert("""RGB""" ).resize((64, 64) )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""prompt""": """A painting of a squirrel eating a burger""",
"""image""": init_image,
"""mask_image""": mask_image,
"""generator""": generator,
"""num_inference_steps""": 2,
"""guidance_scale""": 6.0,
"""output_type""": """numpy""",
}
return inputs
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = """cpu""" # ensure determinism for the device-dependent torch.Generator
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = StableDiffusionInpaintPipeline(**UpperCamelCase_ )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(**UpperCamelCase_ ).images
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (1, 64, 64, 3)
__lowerCamelCase = np.array([0.4727, 0.5735, 0.3941, 0.5446, 0.5926, 0.4394, 0.5062, 0.4654, 0.4476] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: int ):
super().test_inference_batch_single_identical(expected_max_diff=3E-3 )
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: str ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint"""
"""/yellow_cat_sitting_on_a_park_bench.npy""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(UpperCamelCase_ , safety_checker=UpperCamelCase_ )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (5_12, 5_12, 3)
assert np.abs(expected_image - image ).max() < 9E-3
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint"""
"""/yellow_cat_sitting_on_a_park_bench_fp16.npy""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(
UpperCamelCase_ , torch_dtype=torch.floataa , safety_checker=UpperCamelCase_ , )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (5_12, 5_12, 3)
assert np.abs(expected_image - image ).max() < 5E-1
def lowerCAmelCase__ ( self: int ):
torch.cuda.empty_cache()
torch.cuda.reset_max_memory_allocated()
torch.cuda.reset_peak_memory_stats()
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = PNDMScheduler.from_pretrained(UpperCamelCase_ , subfolder="""scheduler""" )
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(
UpperCamelCase_ , safety_checker=UpperCamelCase_ , scheduler=UpperCamelCase_ , torch_dtype=torch.floataa , )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing(1 )
pipe.enable_sequential_cpu_offload()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , num_inference_steps=2 , output_type="""np""" , )
__lowerCamelCase = torch.cuda.max_memory_allocated()
# make sure that less than 2.65 GB is allocated
assert mem_bytes < 2.65 * 10**9
| 12 | 1 |
def lowerCamelCase__ ( A__ : int , A__ : int ):
'''simple docstring'''
if a < 0 or b < 0:
raise ValueError("""the value of both inputs must be positive""" )
__lowerCamelCase = str(bin(A__ ) )[2:] # remove the leading "0b"
__lowerCamelCase = str(bin(A__ ) )[2:] # remove the leading "0b"
__lowerCamelCase = max(len(A__ ) , len(A__ ) )
return "0b" + "".join(
str(int(char_a == """1""" and char_b == """1""" ) )
for char_a, char_b in zip(a_binary.zfill(A__ ) , b_binary.zfill(A__ ) ) )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 |
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
UpperCAmelCase_ = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['MLukeTokenizer']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mluke import MLukeTokenizer
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 | 1 |
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tokenizers_available, is_torch_available
UpperCAmelCase_ = {
'configuration_nezha': ['NEZHA_PRETRAINED_CONFIG_ARCHIVE_MAP', 'NezhaConfig'],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = [
'NEZHA_PRETRAINED_MODEL_ARCHIVE_LIST',
'NezhaForNextSentencePrediction',
'NezhaForMaskedLM',
'NezhaForPreTraining',
'NezhaForMultipleChoice',
'NezhaForQuestionAnswering',
'NezhaForSequenceClassification',
'NezhaForTokenClassification',
'NezhaModel',
'NezhaPreTrainedModel',
]
if TYPE_CHECKING:
from .configuration_nezha import NEZHA_PRETRAINED_CONFIG_ARCHIVE_MAP, NezhaConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_nezha import (
NEZHA_PRETRAINED_MODEL_ARCHIVE_LIST,
NezhaForMaskedLM,
NezhaForMultipleChoice,
NezhaForNextSentencePrediction,
NezhaForPreTraining,
NezhaForQuestionAnswering,
NezhaForSequenceClassification,
NezhaForTokenClassification,
NezhaModel,
NezhaPreTrainedModel,
)
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 |
import os
import shutil
from pathlib import Path
from typing import Optional, Union
import numpy as np
from huggingface_hub import hf_hub_download
from ..utils import ONNX_EXTERNAL_WEIGHTS_NAME, ONNX_WEIGHTS_NAME, is_onnx_available, logging
if is_onnx_available():
import onnxruntime as ort
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'tensor(bool)': np.bool_,
'tensor(int8)': np.inta,
'tensor(uint8)': np.uinta,
'tensor(int16)': np.intaa,
'tensor(uint16)': np.uintaa,
'tensor(int32)': np.intaa,
'tensor(uint32)': np.uintaa,
'tensor(int64)': np.intaa,
'tensor(uint64)': np.uintaa,
'tensor(float16)': np.floataa,
'tensor(float)': np.floataa,
'tensor(double)': np.floataa,
}
class lowerCamelCase__:
def __init__( self: str , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: str ):
logger.info("""`diffusers.OnnxRuntimeModel` is experimental and might change in the future.""" )
__lowerCamelCase = model
__lowerCamelCase = kwargs.get("""model_save_dir""" , UpperCamelCase_ )
__lowerCamelCase = kwargs.get("""latest_model_name""" , UpperCamelCase_ )
def __call__( self: Dict , **UpperCamelCase_: Any ):
__lowerCamelCase = {k: np.array(UpperCamelCase_ ) for k, v in kwargs.items()}
return self.model.run(UpperCamelCase_ , UpperCamelCase_ )
@staticmethod
def lowerCAmelCase__ ( UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Tuple=None , UpperCamelCase_: Tuple=None ):
if provider is None:
logger.info("""No onnxruntime provider specified, using CPUExecutionProvider""" )
__lowerCamelCase = """CPUExecutionProvider"""
return ort.InferenceSession(UpperCamelCase_ , providers=[provider] , sess_options=UpperCamelCase_ )
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: Optional[int] ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
__lowerCamelCase = self.model_save_dir.joinpath(self.latest_model_name )
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
# copy external weights (for models >2GB)
__lowerCamelCase = self.model_save_dir.joinpath(UpperCamelCase_ )
if src_path.exists():
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Union[str, os.PathLike] , **UpperCamelCase_: Optional[Any] , ):
if os.path.isfile(UpperCamelCase_ ):
logger.error(F'Provided path ({save_directory}) should be a directory, not a file' )
return
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
# saving model weights/files
self._save_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: str , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[Union[bool, str, None]] = None , UpperCamelCase_: Optional[Union[str, None]] = None , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional["ort.SessionOptions"] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
# load model from local directory
if os.path.isdir(UpperCamelCase_ ):
__lowerCamelCase = OnnxRuntimeModel.load_model(
os.path.join(UpperCamelCase_ , UpperCamelCase_ ) , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
__lowerCamelCase = Path(UpperCamelCase_ )
# load model from hub
else:
# download model
__lowerCamelCase = hf_hub_download(
repo_id=UpperCamelCase_ , filename=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , )
__lowerCamelCase = Path(UpperCamelCase_ ).parent
__lowerCamelCase = Path(UpperCamelCase_ ).name
__lowerCamelCase = OnnxRuntimeModel.load_model(UpperCamelCase_ , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
return cls(model=UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: Optional[int] , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = None
if len(str(UpperCamelCase_ ).split("""@""" ) ) == 2:
__lowerCamelCase, __lowerCamelCase = model_id.split("""@""" )
return cls._from_pretrained(
model_id=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , **UpperCamelCase_ , )
| 12 | 1 |
def lowerCamelCase__ ( A__ : float , A__ : float ):
'''simple docstring'''
if mass < 0:
raise ValueError("""The mass of a body cannot be negative""" )
return 0.5 * mass * abs(A__ ) * abs(A__ )
if __name__ == "__main__":
import doctest
doctest.testmod(verbose=True)
| 12 |
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_torch_available,
)
UpperCAmelCase_ = {
'configuration_vision_encoder_decoder': ['VisionEncoderDecoderConfig', 'VisionEncoderDecoderOnnxConfig']
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['VisionEncoderDecoderModel']
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['TFVisionEncoderDecoderModel']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['FlaxVisionEncoderDecoderModel']
if TYPE_CHECKING:
from .configuration_vision_encoder_decoder import VisionEncoderDecoderConfig, VisionEncoderDecoderOnnxConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_vision_encoder_decoder import VisionEncoderDecoderModel
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_vision_encoder_decoder import TFVisionEncoderDecoderModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_vision_encoder_decoder import FlaxVisionEncoderDecoderModel
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 | 1 |
import importlib
import inspect
import os
import re
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_config_docstrings.py
UpperCAmelCase_ = 'src/transformers'
# This is to make sure the transformers module imported is the one in the repo.
UpperCAmelCase_ = importlib.util.spec_from_file_location(
'transformers',
os.path.join(PATH_TO_TRANSFORMERS, '__init__.py'),
submodule_search_locations=[PATH_TO_TRANSFORMERS],
)
UpperCAmelCase_ = spec.loader.load_module()
UpperCAmelCase_ = transformers.models.auto.configuration_auto.CONFIG_MAPPING
# Regex pattern used to find the checkpoint mentioned in the docstring of `config_class`.
# For example, `[bert-base-uncased](https://huggingface.co/bert-base-uncased)`
UpperCAmelCase_ = re.compile('\[(.+?)\]\((https://huggingface\.co/.+?)\)')
UpperCAmelCase_ = {
'CLIPConfigMixin',
'DecisionTransformerConfigMixin',
'EncoderDecoderConfigMixin',
'RagConfigMixin',
'SpeechEncoderDecoderConfigMixin',
'VisionEncoderDecoderConfigMixin',
'VisionTextDualEncoderConfigMixin',
}
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = []
for config_class in list(CONFIG_MAPPING.values() ):
__lowerCamelCase = False
# source code of `config_class`
__lowerCamelCase = inspect.getsource(A__ )
__lowerCamelCase = _re_checkpoint.findall(A__ )
for checkpoint in checkpoints:
# Each `checkpoint` is a tuple of a checkpoint name and a checkpoint link.
# For example, `('bert-base-uncased', 'https://huggingface.co/bert-base-uncased')`
__lowerCamelCase, __lowerCamelCase = checkpoint
# verify the checkpoint name corresponds to the checkpoint link
__lowerCamelCase = f'https://huggingface.co/{ckpt_name}'
if ckpt_link == ckpt_link_from_name:
__lowerCamelCase = True
break
__lowerCamelCase = config_class.__name__
if not checkpoint_found and name not in CONFIG_CLASSES_TO_IGNORE_FOR_DOCSTRING_CHECKPOINT_CHECK:
configs_without_checkpoint.append(A__ )
if len(A__ ) > 0:
__lowerCamelCase = """\n""".join(sorted(A__ ) )
raise ValueError(f'The following configurations don\'t contain any valid checkpoint:\n{message}' )
if __name__ == "__main__":
check_config_docstrings_have_checkpoints()
| 12 |
import os
import torch
from ..logging import get_logger
from .constants import FSDP_PYTORCH_VERSION, MODEL_NAME, OPTIMIZER_NAME
from .versions import is_torch_version
if is_torch_version('>=', FSDP_PYTORCH_VERSION):
import torch.distributed.checkpoint as dist_cp
from torch.distributed.checkpoint.default_planner import DefaultLoadPlanner, DefaultSavePlanner
from torch.distributed.checkpoint.optimizer import load_sharded_optimizer_state_dict
from torch.distributed.fsdp.fully_sharded_data_parallel import FullyShardedDataParallel as FSDP
from torch.distributed.fsdp.fully_sharded_data_parallel import StateDictType
UpperCAmelCase_ = get_logger(__name__)
def lowerCamelCase__ ( A__ : Union[str, Any] , A__ : str , A__ : Any , A__ : Dict , A__ : Any=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = model.state_dict()
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
if accelerator.process_index == 0:
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving model to {ckpt_dir}' )
__lowerCamelCase = {"""model""": state_dict}
dist_cp.save_state_dict(
state_dict=A__ , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Model saved to {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : Dict , A__ : int , A__ : List[str] , A__ : Any=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if type(A__ ) != FSDP and accelerator.process_index != 0:
if not fsdp_plugin.sync_module_states:
raise ValueError(
"""Set the `sync_module_states` flag to `True` so that model states are synced across processes when """
"""initializing FSDP object""" )
return
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = (
os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
if f'{MODEL_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading model from {ckpt_dir}' )
__lowerCamelCase = {"""model""": model.state_dict()}
dist_cp.load_state_dict(
state_dict=A__ , storage_reader=dist_cp.FileSystemReader(A__ ) , planner=DefaultLoadPlanner() , )
__lowerCamelCase = state_dict["""model"""]
logger.info(f'Model loaded from {ckpt_dir}' )
model.load_state_dict(A__ )
def lowerCamelCase__ ( A__ : List[str] , A__ : List[str] , A__ : str , A__ : Dict , A__ : Optional[Any] , A__ : Optional[int]=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = FSDP.optim_state_dict(A__ , A__ )
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if accelerator.process_index == 0:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving Optimizer state to {output_optimizer_file}' )
torch.save(A__ , A__ )
logger.info(f'Optimizer state saved in {output_optimizer_file}' )
else:
__lowerCamelCase = os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving Optimizer state to {ckpt_dir}' )
dist_cp.save_state_dict(
state_dict={"""optimizer""": optim_state} , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Optimizer state saved in {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : List[str] , A__ : int , A__ : Any , A__ : Union[str, Any] , A__ : List[Any]=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = None
# below check should work but currently it isn't working (mostly opytorch issue),
# in the meantime disabling it at the cost of excess memory usage
# if accelerator.process_index == 0 or not fsdp_plugin.optim_state_dict_config.rank0_only:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading Optimizer state from {input_optimizer_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Optimizer state loaded from {input_optimizer_file}' )
else:
__lowerCamelCase = (
os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
if f'{OPTIMIZER_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading Optimizer from {ckpt_dir}' )
__lowerCamelCase = load_sharded_optimizer_state_dict(
model_state_dict=model.state_dict() , optimizer_key="""optimizer""" , storage_reader=dist_cp.FileSystemReader(A__ ) , )
__lowerCamelCase = optim_state["""optimizer"""]
logger.info(f'Optimizer loaded from {ckpt_dir}' )
__lowerCamelCase = FSDP.optim_state_dict_to_load(A__ , A__ , A__ )
optimizer.load_state_dict(A__ )
| 12 | 1 |
from torch import nn
def lowerCamelCase__ ( A__ : Any ):
'''simple docstring'''
if act_fn in ["swish", "silu"]:
return nn.SiLU()
elif act_fn == "mish":
return nn.Mish()
elif act_fn == "gelu":
return nn.GELU()
else:
raise ValueError(f'Unsupported activation function: {act_fn}' )
| 12 |
import gc
import random
import unittest
import numpy as np
import torch
from transformers import CLIPImageProcessor, CLIPVisionConfig, CLIPVisionModel
from diffusers import HeunDiscreteScheduler, PriorTransformer, ShapEImgaImgPipeline
from diffusers.pipelines.shap_e import ShapERenderer
from diffusers.utils import floats_tensor, load_image, 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 lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Tuple = ShapEImgaImgPipeline
UpperCAmelCase__ : Optional[Any] = ['image']
UpperCAmelCase__ : int = ['image']
UpperCAmelCase__ : Any = [
'num_images_per_prompt',
'num_inference_steps',
'generator',
'latents',
'guidance_scale',
'frame_size',
'output_type',
'return_dict',
]
UpperCAmelCase__ : int = False
@property
def lowerCAmelCase__ ( self: int ):
return 32
@property
def lowerCAmelCase__ ( self: List[str] ):
return 32
@property
def lowerCAmelCase__ ( self: Any ):
return self.time_input_dim * 4
@property
def lowerCAmelCase__ ( self: Dict ):
return 8
@property
def lowerCAmelCase__ ( self: int ):
torch.manual_seed(0 )
__lowerCamelCase = CLIPVisionConfig(
hidden_size=self.text_embedder_hidden_size , image_size=64 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=1 , )
__lowerCamelCase = CLIPVisionModel(UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = CLIPImageProcessor(
crop_size=2_24 , do_center_crop=UpperCamelCase_ , do_normalize=UpperCamelCase_ , do_resize=UpperCamelCase_ , image_mean=[0.4814_5466, 0.457_8275, 0.4082_1073] , image_std=[0.2686_2954, 0.2613_0258, 0.2757_7711] , resample=3 , size=2_24 , )
return image_processor
@property
def lowerCAmelCase__ ( self: Tuple ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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""",
"""embedding_proj_norm_type""": """layer""",
"""encoder_hid_proj_type""": None,
"""added_emb_type""": None,
}
__lowerCamelCase = PriorTransformer(**UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: List[Any] ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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,
),
}
__lowerCamelCase = ShapERenderer(**UpperCamelCase_ )
return model
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = self.dummy_prior
__lowerCamelCase = self.dummy_image_encoder
__lowerCamelCase = self.dummy_image_processor
__lowerCamelCase = self.dummy_renderer
__lowerCamelCase = HeunDiscreteScheduler(
beta_schedule="""exp""" , num_train_timesteps=10_24 , prediction_type="""sample""" , use_karras_sigmas=UpperCamelCase_ , clip_sample=UpperCamelCase_ , clip_sample_range=1.0 , )
__lowerCamelCase = {
"""prior""": prior,
"""image_encoder""": image_encoder,
"""image_processor""": image_processor,
"""renderer""": renderer,
"""scheduler""": scheduler,
}
return components
def lowerCAmelCase__ ( self: int , UpperCamelCase_: List[Any] , UpperCamelCase_: Dict=0 ):
__lowerCamelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""image""": input_image,
"""generator""": generator,
"""num_inference_steps""": 1,
"""frame_size""": 32,
"""output_type""": """np""",
}
return inputs
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = """cpu"""
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = pipe(**self.get_dummy_inputs(UpperCamelCase_ ) )
__lowerCamelCase = output.images[0]
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (20, 32, 32, 3)
__lowerCamelCase = np.array(
[
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: List[str] ):
# NOTE: Larger batch sizes cause this test to timeout, only test on smaller batches
self._test_inference_batch_consistent(batch_sizes=[1, 2] )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = torch_device == """cpu"""
__lowerCamelCase = True
self._test_inference_batch_single_identical(
batch_size=2 , test_max_difference=UpperCamelCase_ , relax_max_difference=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = 1
__lowerCamelCase = 2
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
for key in inputs.keys():
if key in self.batch_params:
__lowerCamelCase = batch_size * [inputs[key]]
__lowerCamelCase = pipe(**UpperCamelCase_ , num_images_per_prompt=UpperCamelCase_ )[0]
assert images.shape[0] == batch_size * num_images_per_prompt
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: Union[str, Any] ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/shap_e/corgi.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/shap_e/test_shap_e_img2img_out.npy""" )
__lowerCamelCase = ShapEImgaImgPipeline.from_pretrained("""openai/shap-e-img2img""" )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(0 )
__lowerCamelCase = pipe(
UpperCamelCase_ , generator=UpperCamelCase_ , guidance_scale=3.0 , 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_ )
| 12 | 1 |
from __future__ import annotations
from math import pi
# Define the Reduced Planck Constant ℏ (H bar), speed of light C, value of
# Pi and the function
UpperCAmelCase_ = 1.054_571_817E-34 # unit of ℏ : J * s
UpperCAmelCase_ = 3E8 # unit of c : m * s^-1
def lowerCamelCase__ ( A__ : float , A__ : float , A__ : float ):
'''simple docstring'''
if (force, area, distance).count(0 ) != 1:
raise ValueError("""One and only one argument must be 0""" )
if force < 0:
raise ValueError("""Magnitude of force can not be negative""" )
if distance < 0:
raise ValueError("""Distance can not be negative""" )
if area < 0:
raise ValueError("""Area can not be negative""" )
if force == 0:
__lowerCamelCase = (REDUCED_PLANCK_CONSTANT * SPEED_OF_LIGHT * pi**2 * area) / (
240 * (distance) ** 4
)
return {"force": force}
elif area == 0:
__lowerCamelCase = (240 * force * (distance) ** 4) / (
REDUCED_PLANCK_CONSTANT * SPEED_OF_LIGHT * pi**2
)
return {"area": area}
elif distance == 0:
__lowerCamelCase = (
(REDUCED_PLANCK_CONSTANT * SPEED_OF_LIGHT * pi**2 * area) / (240 * force)
) ** (1 / 4)
return {"distance": distance}
raise ValueError("""One and only one argument must be 0""" )
# Run doctest
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 |
from typing import List, Optional, Union
import torch
from ...models import UNetaDConditionModel, VQModel
from ...pipelines import DiffusionPipeline
from ...pipelines.pipeline_utils import ImagePipelineOutput
from ...schedulers import DDPMScheduler
from ...utils import (
is_accelerate_available,
is_accelerate_version,
logging,
randn_tensor,
replace_example_docstring,
)
UpperCAmelCase_ = logging.get_logger(__name__) # pylint: disable=invalid-name
UpperCAmelCase_ = '\n Examples:\n ```py\n >>> import torch\n >>> import numpy as np\n\n >>> from diffusers import KandinskyV22PriorPipeline, KandinskyV22ControlnetPipeline\n >>> from transformers import pipeline\n >>> from diffusers.utils import load_image\n\n\n >>> def make_hint(image, depth_estimator):\n ... image = depth_estimator(image)["depth"]\n ... image = np.array(image)\n ... image = image[:, :, None]\n ... image = np.concatenate([image, image, image], axis=2)\n ... detected_map = torch.from_numpy(image).float() / 255.0\n ... hint = detected_map.permute(2, 0, 1)\n ... return hint\n\n\n >>> depth_estimator = pipeline("depth-estimation")\n\n >>> pipe_prior = KandinskyV22PriorPipeline.from_pretrained(\n ... "kandinsky-community/kandinsky-2-2-prior", torch_dtype=torch.float16\n ... )\n >>> pipe_prior = pipe_prior.to("cuda")\n\n >>> pipe = KandinskyV22ControlnetPipeline.from_pretrained(\n ... "kandinsky-community/kandinsky-2-2-controlnet-depth", torch_dtype=torch.float16\n ... )\n >>> pipe = pipe.to("cuda")\n\n\n >>> img = load_image(\n ... "https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"\n ... "/kandinsky/cat.png"\n ... ).resize((768, 768))\n\n >>> hint = make_hint(img, depth_estimator).unsqueeze(0).half().to("cuda")\n\n >>> prompt = "A robot, 4k photo"\n >>> negative_prior_prompt = "lowres, text, error, cropped, worst quality, low quality, jpeg artifacts, ugly, duplicate, morbid, mutilated, out of frame, extra fingers, mutated hands, poorly drawn hands, poorly drawn face, mutation, deformed, blurry, dehydrated, bad anatomy, bad proportions, extra limbs, cloned face, disfigured, gross proportions, malformed limbs, missing arms, missing legs, extra arms, extra legs, fused fingers, too many fingers, long neck, username, watermark, signature"\n\n >>> generator = torch.Generator(device="cuda").manual_seed(43)\n\n >>> image_emb, zero_image_emb = pipe_prior(\n ... prompt=prompt, negative_prompt=negative_prior_prompt, generator=generator\n ... ).to_tuple()\n\n >>> images = pipe(\n ... image_embeds=image_emb,\n ... negative_image_embeds=zero_image_emb,\n ... hint=hint,\n ... num_inference_steps=50,\n ... generator=generator,\n ... height=768,\n ... width=768,\n ... ).images\n\n >>> images[0].save("robot_cat.png")\n ```\n'
def lowerCamelCase__ ( A__ : Optional[int] , A__ : Dict , A__ : Optional[int]=8 ):
'''simple docstring'''
__lowerCamelCase = height // scale_factor**2
if height % scale_factor**2 != 0:
new_height += 1
__lowerCamelCase = width // scale_factor**2
if width % scale_factor**2 != 0:
new_width += 1
return new_height * scale_factor, new_width * scale_factor
class lowerCamelCase__( __lowerCamelCase):
def __init__( self: List[Any] , UpperCamelCase_: UNetaDConditionModel , UpperCamelCase_: DDPMScheduler , UpperCamelCase_: VQModel , ):
super().__init__()
self.register_modules(
unet=UpperCamelCase_ , scheduler=UpperCamelCase_ , movq=UpperCamelCase_ , )
__lowerCamelCase = 2 ** (len(self.movq.config.block_out_channels ) - 1)
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Any , UpperCamelCase_: Tuple , UpperCamelCase_: int , UpperCamelCase_: Dict , UpperCamelCase_: Dict , UpperCamelCase_: int ):
if latents is None:
__lowerCamelCase = randn_tensor(UpperCamelCase_ , generator=UpperCamelCase_ , device=UpperCamelCase_ , dtype=UpperCamelCase_ )
else:
if latents.shape != shape:
raise ValueError(F'Unexpected latents shape, got {latents.shape}, expected {shape}' )
__lowerCamelCase = latents.to(UpperCamelCase_ )
__lowerCamelCase = latents * scheduler.init_noise_sigma
return latents
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: str=0 ):
if is_accelerate_available():
from accelerate import cpu_offload
else:
raise ImportError("""Please install accelerate via `pip install accelerate`""" )
__lowerCamelCase = torch.device(F'cuda:{gpu_id}' )
__lowerCamelCase = [
self.unet,
self.movq,
]
for cpu_offloaded_model in models:
if cpu_offloaded_model is not None:
cpu_offload(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[int]=0 ):
if is_accelerate_available() and is_accelerate_version(""">=""" , """0.17.0.dev0""" ):
from accelerate import cpu_offload_with_hook
else:
raise ImportError("""`enable_model_cpu_offload` requires `accelerate v0.17.0` or higher.""" )
__lowerCamelCase = torch.device(F'cuda:{gpu_id}' )
if self.device.type != "cpu":
self.to("""cpu""" , silence_dtype_warnings=UpperCamelCase_ )
torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist)
__lowerCamelCase = None
for cpu_offloaded_model in [self.unet, self.movq]:
__lowerCamelCase, __lowerCamelCase = cpu_offload_with_hook(UpperCamelCase_ , UpperCamelCase_ , prev_module_hook=UpperCamelCase_ )
# We'll offload the last model manually.
__lowerCamelCase = hook
@property
# Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device
def lowerCAmelCase__ ( self: int ):
if not hasattr(self.unet , """_hf_hook""" ):
return self.device
for module in self.unet.modules():
if (
hasattr(UpperCamelCase_ , """_hf_hook""" )
and hasattr(module._hf_hook , """execution_device""" )
and module._hf_hook.execution_device is not None
):
return torch.device(module._hf_hook.execution_device )
return self.device
@torch.no_grad()
@replace_example_docstring(UpperCamelCase_ )
def __call__( self: Tuple , UpperCamelCase_: Union[torch.FloatTensor, List[torch.FloatTensor]] , UpperCamelCase_: Union[torch.FloatTensor, List[torch.FloatTensor]] , UpperCamelCase_: torch.FloatTensor , UpperCamelCase_: int = 5_12 , UpperCamelCase_: int = 5_12 , UpperCamelCase_: int = 1_00 , UpperCamelCase_: float = 4.0 , UpperCamelCase_: int = 1 , UpperCamelCase_: Optional[Union[torch.Generator, List[torch.Generator]]] = None , UpperCamelCase_: Optional[torch.FloatTensor] = None , UpperCamelCase_: Optional[str] = "pil" , UpperCamelCase_: bool = True , ):
__lowerCamelCase = self._execution_device
__lowerCamelCase = guidance_scale > 1.0
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
__lowerCamelCase = image_embeds.shape[0] * num_images_per_prompt
if do_classifier_free_guidance:
__lowerCamelCase = image_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = negative_image_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = hint.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = torch.cat([negative_image_embeds, image_embeds] , dim=0 ).to(dtype=self.unet.dtype , device=UpperCamelCase_ )
__lowerCamelCase = torch.cat([hint, hint] , dim=0 ).to(dtype=self.unet.dtype , device=UpperCamelCase_ )
self.scheduler.set_timesteps(UpperCamelCase_ , device=UpperCamelCase_ )
__lowerCamelCase = self.scheduler.timesteps
__lowerCamelCase = self.movq.config.latent_channels
__lowerCamelCase, __lowerCamelCase = downscale_height_and_width(UpperCamelCase_ , UpperCamelCase_ , self.movq_scale_factor )
# create initial latent
__lowerCamelCase = self.prepare_latents(
(batch_size, num_channels_latents, height, width) , image_embeds.dtype , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , self.scheduler , )
for i, t in enumerate(self.progress_bar(UpperCamelCase_ ) ):
# expand the latents if we are doing classifier free guidance
__lowerCamelCase = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents
__lowerCamelCase = {"""image_embeds""": image_embeds, """hint""": hint}
__lowerCamelCase = self.unet(
sample=UpperCamelCase_ , timestep=UpperCamelCase_ , encoder_hidden_states=UpperCamelCase_ , added_cond_kwargs=UpperCamelCase_ , return_dict=UpperCamelCase_ , )[0]
if do_classifier_free_guidance:
__lowerCamelCase, __lowerCamelCase = noise_pred.split(latents.shape[1] , dim=1 )
__lowerCamelCase, __lowerCamelCase = noise_pred.chunk(2 )
__lowerCamelCase, __lowerCamelCase = variance_pred.chunk(2 )
__lowerCamelCase = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
__lowerCamelCase = torch.cat([noise_pred, variance_pred_text] , dim=1 )
if not (
hasattr(self.scheduler.config , """variance_type""" )
and self.scheduler.config.variance_type in ["learned", "learned_range"]
):
__lowerCamelCase, __lowerCamelCase = noise_pred.split(latents.shape[1] , dim=1 )
# compute the previous noisy sample x_t -> x_t-1
__lowerCamelCase = self.scheduler.step(
UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , generator=UpperCamelCase_ , )[0]
# post-processing
__lowerCamelCase = self.movq.decode(UpperCamelCase_ , force_not_quantize=UpperCamelCase_ )["""sample"""]
if output_type not in ["pt", "np", "pil"]:
raise ValueError(F'Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}' )
if output_type in ["np", "pil"]:
__lowerCamelCase = image * 0.5 + 0.5
__lowerCamelCase = image.clamp(0 , 1 )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy()
if output_type == "pil":
__lowerCamelCase = self.numpy_to_pil(UpperCamelCase_ )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=UpperCamelCase_ )
| 12 | 1 |
from collections import OrderedDict
from typing import TYPE_CHECKING, Any, Mapping, Optional, Union
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
if TYPE_CHECKING:
from ... import FeatureExtractionMixin, PreTrainedTokenizerBase, TensorType
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'microsoft/deberta-v2-xlarge': 'https://huggingface.co/microsoft/deberta-v2-xlarge/resolve/main/config.json',
'microsoft/deberta-v2-xxlarge': 'https://huggingface.co/microsoft/deberta-v2-xxlarge/resolve/main/config.json',
'microsoft/deberta-v2-xlarge-mnli': (
'https://huggingface.co/microsoft/deberta-v2-xlarge-mnli/resolve/main/config.json'
),
'microsoft/deberta-v2-xxlarge-mnli': (
'https://huggingface.co/microsoft/deberta-v2-xxlarge-mnli/resolve/main/config.json'
),
}
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Dict = 'deberta-v2'
def __init__( self: Optional[Any] , UpperCamelCase_: Union[str, Any]=12_81_00 , UpperCamelCase_: Optional[int]=15_36 , UpperCamelCase_: str=24 , UpperCamelCase_: Optional[Any]=24 , UpperCamelCase_: int=61_44 , UpperCamelCase_: Dict="gelu" , UpperCamelCase_: Optional[Any]=0.1 , UpperCamelCase_: List[Any]=0.1 , UpperCamelCase_: List[Any]=5_12 , UpperCamelCase_: List[Any]=0 , UpperCamelCase_: Any=0.02 , UpperCamelCase_: Tuple=1E-7 , UpperCamelCase_: List[Any]=False , UpperCamelCase_: Any=-1 , UpperCamelCase_: Tuple=0 , UpperCamelCase_: str=True , UpperCamelCase_: Any=None , UpperCamelCase_: List[Any]=0 , UpperCamelCase_: str="gelu" , **UpperCamelCase_: Tuple , ):
super().__init__(**UpperCamelCase_ )
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = intermediate_size
__lowerCamelCase = hidden_act
__lowerCamelCase = hidden_dropout_prob
__lowerCamelCase = attention_probs_dropout_prob
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = type_vocab_size
__lowerCamelCase = initializer_range
__lowerCamelCase = relative_attention
__lowerCamelCase = max_relative_positions
__lowerCamelCase = pad_token_id
__lowerCamelCase = position_biased_input
# Backwards compatibility
if type(UpperCamelCase_ ) == str:
__lowerCamelCase = [x.strip() for x in pos_att_type.lower().split("""|""" )]
__lowerCamelCase = pos_att_type
__lowerCamelCase = vocab_size
__lowerCamelCase = layer_norm_eps
__lowerCamelCase = kwargs.get("""pooler_hidden_size""" , UpperCamelCase_ )
__lowerCamelCase = pooler_dropout
__lowerCamelCase = pooler_hidden_act
class lowerCamelCase__( __lowerCamelCase):
@property
def lowerCAmelCase__ ( self: int ):
if self.task == "multiple-choice":
__lowerCamelCase = {0: """batch""", 1: """choice""", 2: """sequence"""}
else:
__lowerCamelCase = {0: """batch""", 1: """sequence"""}
if self._config.type_vocab_size > 0:
return OrderedDict(
[("""input_ids""", dynamic_axis), ("""attention_mask""", dynamic_axis), ("""token_type_ids""", dynamic_axis)] )
else:
return OrderedDict([("""input_ids""", dynamic_axis), ("""attention_mask""", dynamic_axis)] )
@property
def lowerCAmelCase__ ( self: Any ):
return 12
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Union["PreTrainedTokenizerBase", "FeatureExtractionMixin"] , UpperCamelCase_: int = -1 , UpperCamelCase_: int = -1 , UpperCamelCase_: int = -1 , UpperCamelCase_: bool = False , UpperCamelCase_: Optional["TensorType"] = None , UpperCamelCase_: int = 3 , UpperCamelCase_: int = 40 , UpperCamelCase_: int = 40 , UpperCamelCase_: "PreTrainedTokenizerBase" = None , ):
__lowerCamelCase = super().generate_dummy_inputs(preprocessor=UpperCamelCase_ , framework=UpperCamelCase_ )
if self._config.type_vocab_size == 0 and "token_type_ids" in dummy_inputs:
del dummy_inputs["token_type_ids"]
return dummy_inputs
| 12 |
import unittest
from transformers import BigBirdConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask
if is_flax_available():
import jax
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class lowerCamelCase__( unittest.TestCase):
def __init__( self: Optional[int] , UpperCamelCase_: Any , UpperCamelCase_: int=2 , UpperCamelCase_: Optional[Any]=56 , UpperCamelCase_: Tuple=True , UpperCamelCase_: Union[str, Any]=True , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: str=True , UpperCamelCase_: str=99 , UpperCamelCase_: Tuple=32 , UpperCamelCase_: int=2 , UpperCamelCase_: Optional[int]=2 , UpperCamelCase_: Tuple=7 , UpperCamelCase_: Optional[int]="gelu_new" , UpperCamelCase_: Any=0.1 , UpperCamelCase_: List[str]=0.1 , UpperCamelCase_: List[Any]=5_12 , UpperCamelCase_: Union[str, Any]=16 , UpperCamelCase_: int=2 , UpperCamelCase_: Dict=0.02 , UpperCamelCase_: Tuple=4 , UpperCamelCase_: Union[str, Any]="block_sparse" , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: Any=False , UpperCamelCase_: Any=2 , UpperCamelCase_: int=3 , ):
__lowerCamelCase = parent
__lowerCamelCase = batch_size
__lowerCamelCase = seq_length
__lowerCamelCase = is_training
__lowerCamelCase = use_attention_mask
__lowerCamelCase = use_token_type_ids
__lowerCamelCase = use_labels
__lowerCamelCase = vocab_size
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = intermediate_size
__lowerCamelCase = hidden_act
__lowerCamelCase = hidden_dropout_prob
__lowerCamelCase = attention_probs_dropout_prob
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = type_vocab_size
__lowerCamelCase = type_sequence_label_size
__lowerCamelCase = initializer_range
__lowerCamelCase = num_choices
__lowerCamelCase = rescale_embeddings
__lowerCamelCase = attention_type
__lowerCamelCase = use_bias
__lowerCamelCase = block_size
__lowerCamelCase = num_random_blocks
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__lowerCamelCase = None
if self.use_attention_mask:
__lowerCamelCase = random_attention_mask([self.batch_size, self.seq_length] )
__lowerCamelCase = None
if self.use_token_type_ids:
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
__lowerCamelCase = BigBirdConfig(
vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=UpperCamelCase_ , initializer_range=self.initializer_range , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = self.prepare_config_and_inputs()
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = config_and_inputs
__lowerCamelCase = {
"""input_ids""": input_ids,
"""token_type_ids""": token_type_ids,
"""attention_mask""": attention_mask,
}
return config, inputs_dict
@require_flax
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Optional[int] = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
UpperCAmelCase__ : Optional[int] = False
UpperCAmelCase__ : Optional[int] = False
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: Optional[Any] ):
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[str] ):
super().test_hidden_states_output()
@slow
def lowerCAmelCase__ ( self: Optional[Any] ):
for model_class_name in self.all_model_classes:
__lowerCamelCase = model_class_name.from_pretrained("""google/bigbird-roberta-base""" )
self.assertIsNotNone(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict ):
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
__lowerCamelCase = self._prepare_for_class(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = model_class(UpperCamelCase_ )
@jax.jit
def model_jitted(UpperCamelCase_: Tuple , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: Union[str, Any] ):
return model(input_ids=UpperCamelCase_ , attention_mask=UpperCamelCase_ , **UpperCamelCase_ )
with self.subTest("""JIT Enabled""" ):
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
with self.subTest("""JIT Disabled""" ):
with jax.disable_jit():
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
self.assertEqual(len(UpperCamelCase_ ) , len(UpperCamelCase_ ) )
for jitted_output, output in zip(UpperCamelCase_ , UpperCamelCase_ ):
self.assertEqual(jitted_output.shape , output.shape )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: int , UpperCamelCase_: List[str] , UpperCamelCase_: Any , UpperCamelCase_: Dict=1E-5 , UpperCamelCase_: List[str]="outputs" , UpperCamelCase_: List[str]=None ):
# `bigbird_block_sparse_attention` in `FlaxBigBird` returns `attention_probs = None`, while in PyTorch version,
# an effort was done to return `attention_probs` (yet to be verified).
if name.startswith("""outputs.attentions""" ):
return
else:
super().check_pt_flax_outputs(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
| 12 | 1 |
from typing import TYPE_CHECKING
# rely on isort to merge the imports
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available
UpperCAmelCase_ = {'configuration_focalnet': ['FOCALNET_PRETRAINED_CONFIG_ARCHIVE_MAP', 'FocalNetConfig']}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = [
'FOCALNET_PRETRAINED_MODEL_ARCHIVE_LIST',
'FocalNetForImageClassification',
'FocalNetForMaskedImageModeling',
'FocalNetBackbone',
'FocalNetModel',
'FocalNetPreTrainedModel',
]
if TYPE_CHECKING:
from .configuration_focalnet import FOCALNET_PRETRAINED_CONFIG_ARCHIVE_MAP, FocalNetConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_focalnet import (
FOCALNET_PRETRAINED_MODEL_ARCHIVE_LIST,
FocalNetBackbone,
FocalNetForImageClassification,
FocalNetForMaskedImageModeling,
FocalNetModel,
FocalNetPreTrainedModel,
)
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 |
def lowerCamelCase__ ( A__ : list ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
for _ in range(A__ ):
for i in range(_ % 2 , arr_size - 1 , 2 ):
if arr[i + 1] < arr[i]:
__lowerCamelCase, __lowerCamelCase = arr[i + 1], arr[i]
return arr
if __name__ == "__main__":
UpperCAmelCase_ = list(range(10, 0, -1))
print(f"""Original: {arr}. Sorted: {odd_even_transposition(arr)}""")
| 12 | 1 |
import os
import torch
from ..logging import get_logger
from .constants import FSDP_PYTORCH_VERSION, MODEL_NAME, OPTIMIZER_NAME
from .versions import is_torch_version
if is_torch_version('>=', FSDP_PYTORCH_VERSION):
import torch.distributed.checkpoint as dist_cp
from torch.distributed.checkpoint.default_planner import DefaultLoadPlanner, DefaultSavePlanner
from torch.distributed.checkpoint.optimizer import load_sharded_optimizer_state_dict
from torch.distributed.fsdp.fully_sharded_data_parallel import FullyShardedDataParallel as FSDP
from torch.distributed.fsdp.fully_sharded_data_parallel import StateDictType
UpperCAmelCase_ = get_logger(__name__)
def lowerCamelCase__ ( A__ : Union[str, Any] , A__ : str , A__ : Any , A__ : Dict , A__ : Any=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = model.state_dict()
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
if accelerator.process_index == 0:
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving model to {ckpt_dir}' )
__lowerCamelCase = {"""model""": state_dict}
dist_cp.save_state_dict(
state_dict=A__ , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Model saved to {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : Dict , A__ : int , A__ : List[str] , A__ : Any=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if type(A__ ) != FSDP and accelerator.process_index != 0:
if not fsdp_plugin.sync_module_states:
raise ValueError(
"""Set the `sync_module_states` flag to `True` so that model states are synced across processes when """
"""initializing FSDP object""" )
return
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = (
os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
if f'{MODEL_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading model from {ckpt_dir}' )
__lowerCamelCase = {"""model""": model.state_dict()}
dist_cp.load_state_dict(
state_dict=A__ , storage_reader=dist_cp.FileSystemReader(A__ ) , planner=DefaultLoadPlanner() , )
__lowerCamelCase = state_dict["""model"""]
logger.info(f'Model loaded from {ckpt_dir}' )
model.load_state_dict(A__ )
def lowerCamelCase__ ( A__ : List[str] , A__ : List[str] , A__ : str , A__ : Dict , A__ : Optional[Any] , A__ : Optional[int]=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = FSDP.optim_state_dict(A__ , A__ )
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if accelerator.process_index == 0:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving Optimizer state to {output_optimizer_file}' )
torch.save(A__ , A__ )
logger.info(f'Optimizer state saved in {output_optimizer_file}' )
else:
__lowerCamelCase = os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving Optimizer state to {ckpt_dir}' )
dist_cp.save_state_dict(
state_dict={"""optimizer""": optim_state} , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Optimizer state saved in {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : List[str] , A__ : int , A__ : Any , A__ : Union[str, Any] , A__ : List[Any]=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = None
# below check should work but currently it isn't working (mostly opytorch issue),
# in the meantime disabling it at the cost of excess memory usage
# if accelerator.process_index == 0 or not fsdp_plugin.optim_state_dict_config.rank0_only:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading Optimizer state from {input_optimizer_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Optimizer state loaded from {input_optimizer_file}' )
else:
__lowerCamelCase = (
os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
if f'{OPTIMIZER_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading Optimizer from {ckpt_dir}' )
__lowerCamelCase = load_sharded_optimizer_state_dict(
model_state_dict=model.state_dict() , optimizer_key="""optimizer""" , storage_reader=dist_cp.FileSystemReader(A__ ) , )
__lowerCamelCase = optim_state["""optimizer"""]
logger.info(f'Optimizer loaded from {ckpt_dir}' )
__lowerCamelCase = FSDP.optim_state_dict_to_load(A__ , A__ , A__ )
optimizer.load_state_dict(A__ )
| 12 |
import os
import warnings
from typing import List, Optional
from ...tokenization_utils_base import BatchEncoding
from ...utils import logging
from .configuration_rag import RagConfig
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__:
def __init__( self: Any , UpperCamelCase_: str , UpperCamelCase_: Dict ):
__lowerCamelCase = question_encoder
__lowerCamelCase = generator
__lowerCamelCase = self.question_encoder
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[Any] ):
if os.path.isfile(UpperCamelCase_ ):
raise ValueError(F'Provided path ({save_directory}) should be a directory, not a file' )
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
__lowerCamelCase = os.path.join(UpperCamelCase_ , """question_encoder_tokenizer""" )
__lowerCamelCase = os.path.join(UpperCamelCase_ , """generator_tokenizer""" )
self.question_encoder.save_pretrained(UpperCamelCase_ )
self.generator.save_pretrained(UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: List[Any] , UpperCamelCase_: Dict , **UpperCamelCase_: Union[str, Any] ):
# dynamically import AutoTokenizer
from ..auto.tokenization_auto import AutoTokenizer
__lowerCamelCase = kwargs.pop("""config""" , UpperCamelCase_ )
if config is None:
__lowerCamelCase = RagConfig.from_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoTokenizer.from_pretrained(
UpperCamelCase_ , config=config.question_encoder , subfolder="""question_encoder_tokenizer""" )
__lowerCamelCase = AutoTokenizer.from_pretrained(
UpperCamelCase_ , config=config.generator , subfolder="""generator_tokenizer""" )
return cls(question_encoder=UpperCamelCase_ , generator=UpperCamelCase_ )
def __call__( self: Tuple , *UpperCamelCase_: int , **UpperCamelCase_: int ):
return self.current_tokenizer(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , *UpperCamelCase_: List[Any] , **UpperCamelCase_: List[Any] ):
return self.generator.batch_decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[Any] , *UpperCamelCase_: str , **UpperCamelCase_: Union[str, Any] ):
return self.generator.decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = self.question_encoder
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = self.generator
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: List[str] , UpperCamelCase_: Optional[List[str]] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: str = "longest" , UpperCamelCase_: str = None , UpperCamelCase_: bool = True , **UpperCamelCase_: int , ):
warnings.warn(
"""`prepare_seq2seq_batch` is deprecated and will be removed in version 5 of 🤗 Transformers. Use the """
"""regular `__call__` method to prepare your inputs and the tokenizer under the `with_target_tokenizer` """
"""context manager to prepare your targets. See the documentation of your specific tokenizer for more """
"""details""" , UpperCamelCase_ , )
if max_length is None:
__lowerCamelCase = self.current_tokenizer.model_max_length
__lowerCamelCase = self(
UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , max_length=UpperCamelCase_ , padding=UpperCamelCase_ , truncation=UpperCamelCase_ , **UpperCamelCase_ , )
if tgt_texts is None:
return model_inputs
# Process tgt_texts
if max_target_length is None:
__lowerCamelCase = self.current_tokenizer.model_max_length
__lowerCamelCase = self(
text_target=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , padding=UpperCamelCase_ , max_length=UpperCamelCase_ , truncation=UpperCamelCase_ , **UpperCamelCase_ , )
__lowerCamelCase = labels["""input_ids"""]
return model_inputs
| 12 | 1 |
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 lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Dict = ShapEPipeline
UpperCAmelCase__ : Any = ['prompt']
UpperCAmelCase__ : List[Any] = ['prompt']
UpperCAmelCase__ : str = [
'num_images_per_prompt',
'num_inference_steps',
'generator',
'latents',
'guidance_scale',
'frame_size',
'output_type',
'return_dict',
]
UpperCAmelCase__ : Dict = False
@property
def lowerCAmelCase__ ( self: int ):
return 32
@property
def lowerCAmelCase__ ( self: Union[str, Any] ):
return 32
@property
def lowerCAmelCase__ ( self: int ):
return self.time_input_dim * 4
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
return 8
@property
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" )
return tokenizer
@property
def lowerCAmelCase__ ( self: str ):
torch.manual_seed(0 )
__lowerCamelCase = 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-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , )
return CLIPTextModelWithProjection(UpperCamelCase_ )
@property
def lowerCAmelCase__ ( self: List[str] ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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,
}
__lowerCamelCase = PriorTransformer(**UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: Dict ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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,
),
}
__lowerCamelCase = ShapERenderer(**UpperCamelCase_ )
return model
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = self.dummy_prior
__lowerCamelCase = self.dummy_text_encoder
__lowerCamelCase = self.dummy_tokenizer
__lowerCamelCase = self.dummy_renderer
__lowerCamelCase = HeunDiscreteScheduler(
beta_schedule="""exp""" , num_train_timesteps=10_24 , prediction_type="""sample""" , use_karras_sigmas=UpperCamelCase_ , clip_sample=UpperCamelCase_ , clip_sample_range=1.0 , )
__lowerCamelCase = {
"""prior""": prior,
"""text_encoder""": text_encoder,
"""tokenizer""": tokenizer,
"""renderer""": renderer,
"""scheduler""": scheduler,
}
return components
def lowerCAmelCase__ ( self: str , UpperCamelCase_: Dict , UpperCamelCase_: Optional[Any]=0 ):
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""prompt""": """horse""",
"""generator""": generator,
"""num_inference_steps""": 1,
"""frame_size""": 32,
"""output_type""": """np""",
}
return inputs
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = """cpu"""
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = pipe(**self.get_dummy_inputs(UpperCamelCase_ ) )
__lowerCamelCase = output.images[0]
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (20, 32, 32, 3)
__lowerCamelCase = np.array(
[
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: List[str] ):
# NOTE: Larger batch sizes cause this test to timeout, only test on smaller batches
self._test_inference_batch_consistent(batch_sizes=[1, 2] )
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = torch_device == """cpu"""
__lowerCamelCase = True
self._test_inference_batch_single_identical(
batch_size=2 , test_max_difference=UpperCamelCase_ , relax_max_difference=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = 1
__lowerCamelCase = 2
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
for key in inputs.keys():
if key in self.batch_params:
__lowerCamelCase = batch_size * [inputs[key]]
__lowerCamelCase = pipe(**UpperCamelCase_ , num_images_per_prompt=UpperCamelCase_ )[0]
assert images.shape[0] == batch_size * num_images_per_prompt
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: List[Any] ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/shap_e/test_shap_e_np_out.npy""" )
__lowerCamelCase = ShapEPipeline.from_pretrained("""openai/shap-e""" )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(0 )
__lowerCamelCase = 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_ )
| 12 |
import json
import os
from datetime import date
from pathlib import Path
from tabulate import DataRow, TableFormat, tabulate
UpperCAmelCase_ = TableFormat(
lineabove=None,
linebelowheader=None,
linebetweenrows=None,
linebelow=None,
headerrow=DataRow('', '|', '|'),
datarow=DataRow('', '|', '|'),
padding=1,
with_header_hide=None,
)
UpperCAmelCase_ = []
UpperCAmelCase_ = []
UpperCAmelCase_ = {'type': 'section', 'text': {'type': 'plain_text', 'text': 'No failed tests! 🤗', 'emoji': True}}
UpperCAmelCase_ = [
{
'type': 'header',
'text': {
'type': 'plain_text',
'text': f"""🤗 Accelerate nightly {os.environ.get("TEST_TYPE", "")} test results""",
'emoji': True,
},
}
]
UpperCAmelCase_ = 0
for log in Path().glob('*.log'):
UpperCAmelCase_ = 0
with open(log, 'r') as f:
for line in f:
UpperCAmelCase_ = json.loads(line)
if line.get('nodeid', '') != "":
UpperCAmelCase_ = line['nodeid']
if line.get('duration', None) is not None:
UpperCAmelCase_ = f"""{line["duration"]:.4f}"""
if line.get('outcome', '') == "failed":
section_num_failed += 1
failed.append([test, duration, log.name.split('_')[0]])
total_num_failed += 1
group_info.append([str(log), section_num_failed, failed])
UpperCAmelCase_ = []
log.unlink()
UpperCAmelCase_ = ''
UpperCAmelCase_ = []
if total_num_failed > 0:
for name, num_failed, failed_tests in group_info:
if num_failed > 0:
if num_failed == 1:
message += f"*{name[1:]}: {num_failed} failed test*\n"
else:
message += f"*{name[1:]}: {num_failed} failed tests*\n"
UpperCAmelCase_ = []
UpperCAmelCase_ = {}
for test in failed_tests:
UpperCAmelCase_ = test[0].split('::')
UpperCAmelCase_ = data[0].split('/')[-1]
if data[0] not in filesafailed:
UpperCAmelCase_ = [data[1:]]
else:
filesafailed[data[0]] += [data[1:]]
failed_table.append(data)
UpperCAmelCase_ = [test[0] for test in failed_table]
UpperCAmelCase_ = list(set(files))
# Count number of instances in failed_tests
UpperCAmelCase_ = []
for file in individual_files:
table.append([file, len(filesafailed[file])])
UpperCAmelCase_ = tabulate(
table,
headers=['Test Location', 'Num Failed'],
tablefmt=hf_table_format,
stralign='right',
)
message += f"\n```\n{failed_table}\n```"
all_filesafailed.append(filesafailed)
if len(message) > 3_000:
UpperCAmelCase_ = 'Too many failed tests, please see the full report in the Action results.'
UpperCAmelCase_ = len(err) + 10
UpperCAmelCase_ = message[: 3_000 - offset] + f"""\n...\n```\n{err}"""
print(f"""### {message}""")
else:
UpperCAmelCase_ = 'No failed tests! 🤗'
print(f"""## {message}""")
payload.append(no_error_payload)
if os.environ.get('TEST_TYPE', '') != "":
from slack_sdk import WebClient
UpperCAmelCase_ = WebClient(token=os.environ['SLACK_API_TOKEN'])
if message != "No failed tests! 🤗":
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': message,
},
}
payload.append(md_report)
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': '*For more details:*',
},
'accessory': {
'type': 'button',
'text': {
'type': 'plain_text',
'text': 'Check Action results',
'emoji': True,
},
'url': f"""https://github.com/{os.environ["GITHUB_REPOSITORY"]}/actions/runs/{os.environ["GITHUB_RUN_ID"]}""",
},
}
payload.append(action_button)
UpperCAmelCase_ = {
'type': 'context',
'elements': [
{
'type': 'plain_text',
'text': f"""Nightly {os.environ.get("TEST_TYPE")} test results for {date.today()}""",
}
],
}
payload.append(date_report)
UpperCAmelCase_ = client.chat_postMessage(channel='#accelerate-ci-daily', text=message, blocks=payload)
UpperCAmelCase_ = response.data['ts']
for failed_file in all_filesafailed:
for test_location, test_failures in failed_file.items():
# Keep only the first instance of the test name
UpperCAmelCase_ = ''
for i, row in enumerate(test_failures):
if row[0] != test_class:
UpperCAmelCase_ = row[0]
else:
UpperCAmelCase_ = ''
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': f"""Test location: {test_location}\n```\n{tabulate(test_failures, headers=["Class", "Test"], tablefmt=hf_table_format, stralign="right")}\n```""",
},
}
client.chat_postMessage(
channel='#accelerate-ci-daily',
thread_ts=ts,
blocks=[payload],
)
| 12 | 1 |
import gc
import random
import tempfile
import unittest
import numpy as np
import torch
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import AutoencoderKL, DDIMScheduler, LMSDiscreteScheduler, PNDMScheduler, UNetaDConditionModel
from diffusers.pipelines.stable_diffusion_safe import StableDiffusionPipelineSafe as StableDiffusionPipeline
from diffusers.utils import floats_tensor, nightly, torch_device
from diffusers.utils.testing_utils import require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: List[str] ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
@property
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = 1
__lowerCamelCase = 3
__lowerCamelCase = (32, 32)
__lowerCamelCase = floats_tensor((batch_size, num_channels) + sizes , rng=random.Random(0 ) ).to(UpperCamelCase_ )
return image
@property
def lowerCAmelCase__ ( self: List[str] ):
torch.manual_seed(0 )
__lowerCamelCase = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , )
return model
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
torch.manual_seed(0 )
__lowerCamelCase = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , )
return model
@property
def lowerCAmelCase__ ( self: Any ):
torch.manual_seed(0 )
__lowerCamelCase = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , )
return CLIPTextModel(UpperCamelCase_ )
@property
def lowerCAmelCase__ ( self: Tuple ):
def extract(*UpperCamelCase_: Tuple , **UpperCamelCase_: Union[str, Any] ):
class lowerCamelCase__:
def __init__( self: Dict ):
__lowerCamelCase = torch.ones([0] )
def lowerCAmelCase__ ( self: Optional[int] , UpperCamelCase_: List[Any] ):
self.pixel_values.to(UpperCamelCase_ )
return self
return Out()
return extract
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = """cpu""" # ensure determinism for the device-dependent torch.Generator
__lowerCamelCase = self.dummy_cond_unet
__lowerCamelCase = DDIMScheduler(
beta_start=0.0_0085 , beta_end=0.012 , beta_schedule="""scaled_linear""" , clip_sample=UpperCamelCase_ , set_alpha_to_one=UpperCamelCase_ , )
__lowerCamelCase = self.dummy_vae
__lowerCamelCase = self.dummy_text_encoder
__lowerCamelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" )
# make sure here that pndm scheduler skips prk
__lowerCamelCase = StableDiffusionPipeline(
unet=UpperCamelCase_ , scheduler=UpperCamelCase_ , vae=UpperCamelCase_ , text_encoder=UpperCamelCase_ , tokenizer=UpperCamelCase_ , safety_checker=UpperCamelCase_ , feature_extractor=self.dummy_extractor , )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = """A painting of a squirrel eating a burger"""
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(0 )
__lowerCamelCase = sd_pipe([prompt] , generator=UpperCamelCase_ , guidance_scale=6.0 , num_inference_steps=2 , output_type="""np""" )
__lowerCamelCase = output.images
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(0 )
__lowerCamelCase = sd_pipe(
[prompt] , generator=UpperCamelCase_ , guidance_scale=6.0 , num_inference_steps=2 , output_type="""np""" , return_dict=UpperCamelCase_ , )[0]
__lowerCamelCase = image[0, -3:, -3:, -1]
__lowerCamelCase = image_from_tuple[0, -3:, -3:, -1]
assert image.shape == (1, 64, 64, 3)
__lowerCamelCase = np.array([0.5756, 0.6118, 0.5005, 0.5041, 0.5471, 0.4726, 0.4976, 0.4865, 0.4864] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = """cpu""" # ensure determinism for the device-dependent torch.Generator
__lowerCamelCase = self.dummy_cond_unet
__lowerCamelCase = PNDMScheduler(skip_prk_steps=UpperCamelCase_ )
__lowerCamelCase = self.dummy_vae
__lowerCamelCase = self.dummy_text_encoder
__lowerCamelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" )
# make sure here that pndm scheduler skips prk
__lowerCamelCase = StableDiffusionPipeline(
unet=UpperCamelCase_ , scheduler=UpperCamelCase_ , vae=UpperCamelCase_ , text_encoder=UpperCamelCase_ , tokenizer=UpperCamelCase_ , safety_checker=UpperCamelCase_ , feature_extractor=self.dummy_extractor , )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = """A painting of a squirrel eating a burger"""
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(0 )
__lowerCamelCase = sd_pipe([prompt] , generator=UpperCamelCase_ , guidance_scale=6.0 , num_inference_steps=2 , output_type="""np""" )
__lowerCamelCase = output.images
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(0 )
__lowerCamelCase = sd_pipe(
[prompt] , generator=UpperCamelCase_ , guidance_scale=6.0 , num_inference_steps=2 , output_type="""np""" , return_dict=UpperCamelCase_ , )[0]
__lowerCamelCase = image[0, -3:, -3:, -1]
__lowerCamelCase = image_from_tuple[0, -3:, -3:, -1]
assert image.shape == (1, 64, 64, 3)
__lowerCamelCase = np.array([0.5125, 0.5716, 0.4828, 0.5060, 0.5650, 0.4768, 0.5185, 0.4895, 0.4993] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = StableDiffusionPipeline.from_pretrained(
"""hf-internal-testing/tiny-stable-diffusion-lms-pipe""" , safety_checker=UpperCamelCase_ )
assert isinstance(UpperCamelCase_ , UpperCamelCase_ )
assert isinstance(pipe.scheduler , UpperCamelCase_ )
assert pipe.safety_checker is None
__lowerCamelCase = pipe("""example prompt""" , num_inference_steps=2 ).images[0]
assert image is not None
# check that there's no error when saving a pipeline with one of the models being None
with tempfile.TemporaryDirectory() as tmpdirname:
pipe.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = StableDiffusionPipeline.from_pretrained(UpperCamelCase_ )
# sanity check that the pipeline still works
assert pipe.safety_checker is None
__lowerCamelCase = pipe("""example prompt""" , num_inference_steps=2 ).images[0]
assert image is not None
@unittest.skipIf(torch_device != """cuda""" , """This test requires a GPU""" )
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = self.dummy_cond_unet
__lowerCamelCase = PNDMScheduler(skip_prk_steps=UpperCamelCase_ )
__lowerCamelCase = self.dummy_vae
__lowerCamelCase = self.dummy_text_encoder
__lowerCamelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" )
# put models in fp16
__lowerCamelCase = unet.half()
__lowerCamelCase = vae.half()
__lowerCamelCase = bert.half()
# make sure here that pndm scheduler skips prk
__lowerCamelCase = StableDiffusionPipeline(
unet=UpperCamelCase_ , scheduler=UpperCamelCase_ , vae=UpperCamelCase_ , text_encoder=UpperCamelCase_ , tokenizer=UpperCamelCase_ , safety_checker=UpperCamelCase_ , feature_extractor=self.dummy_extractor , )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = """A painting of a squirrel eating a burger"""
__lowerCamelCase = sd_pipe([prompt] , num_inference_steps=2 , output_type="""np""" ).images
assert image.shape == (1, 64, 64, 3)
@nightly
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: Any ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = StableDiffusionPipeline.from_pretrained("""runwayml/stable-diffusion-v1-5""" , safety_checker=UpperCamelCase_ )
__lowerCamelCase = LMSDiscreteScheduler.from_config(sd_pipe.scheduler.config )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = (
"""portrait of girl with smokey eyes makeup in abandoned hotel, grange clothes, redshift, wide high angle"""
""" coloured polaroid photograph with flash, kodak film, hyper real, stunning moody cinematography, with"""
""" anamorphic lenses, by maripol, fallen angels by wong kar - wai, style of suspiria and neon demon and"""
""" children from bahnhof zoo, detailed """
)
__lowerCamelCase = 40_03_66_03_46
__lowerCamelCase = 7
# without safety guidance (sld_guidance_scale = 0)
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(
[prompt] , generator=UpperCamelCase_ , guidance_scale=UpperCamelCase_ , num_inference_steps=50 , output_type="""np""" , width=5_12 , height=5_12 , sld_guidance_scale=0 , )
__lowerCamelCase = output.images
__lowerCamelCase = image[0, -3:, -3:, -1]
__lowerCamelCase = [0.2278, 0.2231, 0.2249, 0.2333, 0.2303, 0.1885, 0.2273, 0.2144, 0.2176]
assert image.shape == (1, 5_12, 5_12, 3)
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
# without safety guidance (strong configuration)
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(
[prompt] , generator=UpperCamelCase_ , guidance_scale=UpperCamelCase_ , num_inference_steps=50 , output_type="""np""" , width=5_12 , height=5_12 , sld_guidance_scale=20_00 , sld_warmup_steps=7 , sld_threshold=0.025 , sld_momentum_scale=0.5 , sld_mom_beta=0.7 , )
__lowerCamelCase = output.images
__lowerCamelCase = image[0, -3:, -3:, -1]
__lowerCamelCase = [0.2383, 0.2276, 0.236, 0.2192, 0.2186, 0.2053, 0.1971, 0.1901, 0.1719]
assert image.shape == (1, 5_12, 5_12, 3)
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = StableDiffusionPipeline.from_pretrained("""runwayml/stable-diffusion-v1-5""" , safety_checker=UpperCamelCase_ )
__lowerCamelCase = LMSDiscreteScheduler.from_config(sd_pipe.scheduler.config )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = """padme amidala taking a bath artwork, safe for work, no nudity"""
__lowerCamelCase = 27_34_97_17_55
__lowerCamelCase = 7
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(
[prompt] , generator=UpperCamelCase_ , guidance_scale=UpperCamelCase_ , num_inference_steps=50 , output_type="""np""" , width=5_12 , height=5_12 , sld_guidance_scale=0 , )
__lowerCamelCase = output.images
__lowerCamelCase = image[0, -3:, -3:, -1]
__lowerCamelCase = [0.3502, 0.3622, 0.3396, 0.3642, 0.3478, 0.3318, 0.35, 0.3348, 0.3297]
assert image.shape == (1, 5_12, 5_12, 3)
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(
[prompt] , generator=UpperCamelCase_ , guidance_scale=UpperCamelCase_ , num_inference_steps=50 , output_type="""np""" , width=5_12 , height=5_12 , sld_guidance_scale=20_00 , sld_warmup_steps=7 , sld_threshold=0.025 , sld_momentum_scale=0.5 , sld_mom_beta=0.7 , )
__lowerCamelCase = output.images
__lowerCamelCase = image[0, -3:, -3:, -1]
__lowerCamelCase = [0.5531, 0.5206, 0.4895, 0.5156, 0.5182, 0.4751, 0.4802, 0.4803, 0.4443]
assert image.shape == (1, 5_12, 5_12, 3)
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = StableDiffusionPipeline.from_pretrained("""runwayml/stable-diffusion-v1-5""" )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = (
"""the four horsewomen of the apocalypse, painting by tom of finland, gaston bussiere, craig mullins, j. c."""
""" leyendecker"""
)
__lowerCamelCase = 10_44_35_52_34
__lowerCamelCase = 12
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(
[prompt] , generator=UpperCamelCase_ , guidance_scale=UpperCamelCase_ , num_inference_steps=50 , output_type="""np""" , width=5_12 , height=5_12 , sld_guidance_scale=0 , )
__lowerCamelCase = output.images
__lowerCamelCase = image[0, -3:, -3:, -1]
__lowerCamelCase = np.array([0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0] )
assert image.shape == (1, 5_12, 5_12, 3)
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-7
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(
[prompt] , generator=UpperCamelCase_ , guidance_scale=UpperCamelCase_ , num_inference_steps=50 , output_type="""np""" , width=5_12 , height=5_12 , sld_guidance_scale=20_00 , sld_warmup_steps=7 , sld_threshold=0.025 , sld_momentum_scale=0.5 , sld_mom_beta=0.7 , )
__lowerCamelCase = output.images
__lowerCamelCase = image[0, -3:, -3:, -1]
__lowerCamelCase = np.array([0.5818, 0.6285, 0.6835, 0.6019, 0.625, 0.6754, 0.6096, 0.6334, 0.6561] )
assert image.shape == (1, 5_12, 5_12, 3)
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
| 12 |
from typing import Callable, List, Optional, Tuple, Union
import torch
from transformers import CLIPTextModel, CLIPTokenizer
from ...configuration_utils import ConfigMixin, register_to_config
from ...models import ModelMixin, TransformeraDModel, VQModel
from ...schedulers import VQDiffusionScheduler
from ...utils import logging
from ..pipeline_utils import DiffusionPipeline, ImagePipelineOutput
UpperCAmelCase_ = logging.get_logger(__name__) # pylint: disable=invalid-name
class lowerCamelCase__( __lowerCamelCase , __lowerCamelCase):
@register_to_config
def __init__( self: Optional[Any] , UpperCamelCase_: bool , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[int] = None ):
super().__init__()
__lowerCamelCase = learnable
if self.learnable:
assert hidden_size is not None, "learnable=True requires `hidden_size` to be set"
assert length is not None, "learnable=True requires `length` to be set"
__lowerCamelCase = torch.zeros(UpperCamelCase_ , UpperCamelCase_ )
else:
__lowerCamelCase = None
__lowerCamelCase = torch.nn.Parameter(UpperCamelCase_ )
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : VQModel
UpperCAmelCase__ : CLIPTextModel
UpperCAmelCase__ : CLIPTokenizer
UpperCAmelCase__ : TransformeraDModel
UpperCAmelCase__ : LearnedClassifierFreeSamplingEmbeddings
UpperCAmelCase__ : VQDiffusionScheduler
def __init__( self: str , UpperCamelCase_: VQModel , UpperCamelCase_: CLIPTextModel , UpperCamelCase_: CLIPTokenizer , UpperCamelCase_: TransformeraDModel , UpperCamelCase_: VQDiffusionScheduler , UpperCamelCase_: LearnedClassifierFreeSamplingEmbeddings , ):
super().__init__()
self.register_modules(
vqvae=UpperCamelCase_ , transformer=UpperCamelCase_ , text_encoder=UpperCamelCase_ , tokenizer=UpperCamelCase_ , scheduler=UpperCamelCase_ , learned_classifier_free_sampling_embeddings=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: Any , UpperCamelCase_: List[Any] , UpperCamelCase_: Any ):
__lowerCamelCase = len(UpperCamelCase_ ) if isinstance(UpperCamelCase_ , UpperCamelCase_ ) else 1
# get prompt text embeddings
__lowerCamelCase = self.tokenizer(
UpperCamelCase_ , padding="""max_length""" , max_length=self.tokenizer.model_max_length , return_tensors="""pt""" , )
__lowerCamelCase = text_inputs.input_ids
if text_input_ids.shape[-1] > self.tokenizer.model_max_length:
__lowerCamelCase = self.tokenizer.batch_decode(text_input_ids[:, self.tokenizer.model_max_length :] )
logger.warning(
"""The following part of your input was truncated because CLIP can only handle sequences up to"""
F' {self.tokenizer.model_max_length} tokens: {removed_text}' )
__lowerCamelCase = text_input_ids[:, : self.tokenizer.model_max_length]
__lowerCamelCase = self.text_encoder(text_input_ids.to(self.device ) )[0]
# NOTE: This additional step of normalizing the text embeddings is from VQ-Diffusion.
# While CLIP does normalize the pooled output of the text transformer when combining
# the image and text embeddings, CLIP does not directly normalize the last hidden state.
#
# CLIP normalizing the pooled output.
# https://github.com/huggingface/transformers/blob/d92e22d1f28324f513f3080e5c47c071a3916721/src/transformers/models/clip/modeling_clip.py#L1052-L1053
__lowerCamelCase = prompt_embeds / prompt_embeds.norm(dim=-1 , keepdim=UpperCamelCase_ )
# duplicate text embeddings for each generation per prompt
__lowerCamelCase = prompt_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
if do_classifier_free_guidance:
if self.learned_classifier_free_sampling_embeddings.learnable:
__lowerCamelCase = self.learned_classifier_free_sampling_embeddings.embeddings
__lowerCamelCase = negative_prompt_embeds.unsqueeze(0 ).repeat(UpperCamelCase_ , 1 , 1 )
else:
__lowerCamelCase = [""""""] * batch_size
__lowerCamelCase = text_input_ids.shape[-1]
__lowerCamelCase = self.tokenizer(
UpperCamelCase_ , padding="""max_length""" , max_length=UpperCamelCase_ , truncation=UpperCamelCase_ , return_tensors="""pt""" , )
__lowerCamelCase = self.text_encoder(uncond_input.input_ids.to(self.device ) )[0]
# See comment for normalizing text embeddings
__lowerCamelCase = negative_prompt_embeds / negative_prompt_embeds.norm(dim=-1 , keepdim=UpperCamelCase_ )
# duplicate unconditional embeddings for each generation per prompt, using mps friendly method
__lowerCamelCase = negative_prompt_embeds.shape[1]
__lowerCamelCase = negative_prompt_embeds.repeat(1 , UpperCamelCase_ , 1 )
__lowerCamelCase = negative_prompt_embeds.view(batch_size * num_images_per_prompt , UpperCamelCase_ , -1 )
# For classifier free guidance, we need to do two forward passes.
# Here we concatenate the unconditional and text embeddings into a single batch
# to avoid doing two forward passes
__lowerCamelCase = torch.cat([negative_prompt_embeds, prompt_embeds] )
return prompt_embeds
@torch.no_grad()
def __call__( self: Tuple , UpperCamelCase_: Union[str, List[str]] , UpperCamelCase_: int = 1_00 , UpperCamelCase_: float = 5.0 , UpperCamelCase_: float = 1.0 , UpperCamelCase_: int = 1 , UpperCamelCase_: Optional[Union[torch.Generator, List[torch.Generator]]] = None , UpperCamelCase_: Optional[torch.FloatTensor] = None , UpperCamelCase_: Optional[str] = "pil" , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[Callable[[int, int, torch.FloatTensor], None]] = None , UpperCamelCase_: int = 1 , ):
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = 1
elif isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = len(UpperCamelCase_ )
else:
raise ValueError(F'`prompt` has to be of type `str` or `list` but is {type(UpperCamelCase_ )}' )
__lowerCamelCase = batch_size * num_images_per_prompt
__lowerCamelCase = guidance_scale > 1.0
__lowerCamelCase = self._encode_prompt(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
if (callback_steps is None) or (
callback_steps is not None and (not isinstance(UpperCamelCase_ , UpperCamelCase_ ) or callback_steps <= 0)
):
raise ValueError(
F'`callback_steps` has to be a positive integer but is {callback_steps} of type'
F' {type(UpperCamelCase_ )}.' )
# get the initial completely masked latents unless the user supplied it
__lowerCamelCase = (batch_size, self.transformer.num_latent_pixels)
if latents is None:
__lowerCamelCase = self.transformer.num_vector_embeds - 1
__lowerCamelCase = torch.full(UpperCamelCase_ , UpperCamelCase_ ).to(self.device )
else:
if latents.shape != latents_shape:
raise ValueError(F'Unexpected latents shape, got {latents.shape}, expected {latents_shape}' )
if (latents < 0).any() or (latents >= self.transformer.num_vector_embeds).any():
raise ValueError(
"""Unexpected latents value(s). All latents be valid embedding indices i.e. in the range 0,"""
F' {self.transformer.num_vector_embeds - 1} (inclusive).' )
__lowerCamelCase = latents.to(self.device )
# set timesteps
self.scheduler.set_timesteps(UpperCamelCase_ , device=self.device )
__lowerCamelCase = self.scheduler.timesteps.to(self.device )
__lowerCamelCase = latents
for i, t in enumerate(self.progress_bar(UpperCamelCase_ ) ):
# expand the sample if we are doing classifier free guidance
__lowerCamelCase = torch.cat([sample] * 2 ) if do_classifier_free_guidance else sample
# predict the un-noised image
# model_output == `log_p_x_0`
__lowerCamelCase = self.transformer(UpperCamelCase_ , encoder_hidden_states=UpperCamelCase_ , timestep=UpperCamelCase_ ).sample
if do_classifier_free_guidance:
__lowerCamelCase, __lowerCamelCase = model_output.chunk(2 )
__lowerCamelCase = model_output_uncond + guidance_scale * (model_output_text - model_output_uncond)
model_output -= torch.logsumexp(UpperCamelCase_ , dim=1 , keepdim=UpperCamelCase_ )
__lowerCamelCase = self.truncate(UpperCamelCase_ , UpperCamelCase_ )
# remove `log(0)`'s (`-inf`s)
__lowerCamelCase = model_output.clamp(-70 )
# compute the previous noisy sample x_t -> x_t-1
__lowerCamelCase = self.scheduler.step(UpperCamelCase_ , timestep=UpperCamelCase_ , sample=UpperCamelCase_ , generator=UpperCamelCase_ ).prev_sample
# call the callback, if provided
if callback is not None and i % callback_steps == 0:
callback(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = self.vqvae.config.vq_embed_dim
__lowerCamelCase = (batch_size, self.transformer.height, self.transformer.width, embedding_channels)
__lowerCamelCase = self.vqvae.quantize.get_codebook_entry(UpperCamelCase_ , shape=UpperCamelCase_ )
__lowerCamelCase = self.vqvae.decode(UpperCamelCase_ , force_not_quantize=UpperCamelCase_ ).sample
__lowerCamelCase = (image / 2 + 0.5).clamp(0 , 1 )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 ).numpy()
if output_type == "pil":
__lowerCamelCase = self.numpy_to_pil(UpperCamelCase_ )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: torch.FloatTensor , UpperCamelCase_: float ):
__lowerCamelCase, __lowerCamelCase = torch.sort(UpperCamelCase_ , 1 , descending=UpperCamelCase_ )
__lowerCamelCase = torch.exp(UpperCamelCase_ )
__lowerCamelCase = sorted_p_x_0.cumsum(dim=1 ) < truncation_rate
# Ensure that at least the largest probability is not zeroed out
__lowerCamelCase = torch.full_like(keep_mask[:, 0:1, :] , UpperCamelCase_ )
__lowerCamelCase = torch.cat((all_true, keep_mask) , dim=1 )
__lowerCamelCase = keep_mask[:, :-1, :]
__lowerCamelCase = keep_mask.gather(1 , indices.argsort(1 ) )
__lowerCamelCase = log_p_x_0.clone()
__lowerCamelCase = -torch.inf # -inf = log(0)
return rv
| 12 | 1 |
def lowerCamelCase__ ( A__ : list ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
for _ in range(A__ ):
for i in range(_ % 2 , arr_size - 1 , 2 ):
if arr[i + 1] < arr[i]:
__lowerCamelCase, __lowerCamelCase = arr[i + 1], arr[i]
return arr
if __name__ == "__main__":
UpperCAmelCase_ = list(range(10, 0, -1))
print(f"""Original: {arr}. Sorted: {odd_even_transposition(arr)}""")
| 12 |
from transformers import DistilBertTokenizer, DistilBertTokenizerFast
from transformers.testing_utils import require_tokenizers, slow
from ..bert.test_tokenization_bert import BertTokenizationTest
@require_tokenizers
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Dict = DistilBertTokenizer
UpperCAmelCase__ : Dict = DistilBertTokenizerFast
UpperCAmelCase__ : Tuple = True
@slow
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = DistilBertTokenizer.from_pretrained("""distilbert-base-uncased""" )
__lowerCamelCase = tokenizer.encode("""sequence builders""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode("""multi-sequence build""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ , UpperCamelCase_ )
assert encoded_sentence == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id]
assert encoded_pair == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] + text_a + [
tokenizer.sep_token_id
]
| 12 | 1 |
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 lowerCamelCase__ ( A__ : Any ):
'''simple docstring'''
__lowerCamelCase = torch.load(A__ , map_location="""cpu""" )
if "model" in sd.keys():
__lowerCamelCase = torch.load(A__ , map_location="""cpu""" )["""model"""]
# pop unnecessary weights
__lowerCamelCase = [
"""decoder.version""",
"""decoder.output_projection.weight""",
]
for key in keys_to_delete:
if key in sd:
sd.pop(A__ )
__lowerCamelCase = {
"""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:
__lowerCamelCase = sd.pop(A__ )
__lowerCamelCase = list(sd.keys() )
for key in keys:
if ".qkv_proj." in key:
__lowerCamelCase = sd[key]
# We split QKV in separate Q,K,V
__lowerCamelCase = key.replace(""".qkv_proj.""" , """.q_proj.""" )
__lowerCamelCase = key.replace(""".qkv_proj.""" , """.k_proj.""" )
__lowerCamelCase = key.replace(""".qkv_proj.""" , """.v_proj.""" )
__lowerCamelCase = 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
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = torch.split(A__ , depth // 3 , dim=0 )
__lowerCamelCase = q
__lowerCamelCase = k
__lowerCamelCase = v
del sd[key]
return sd
@torch.no_grad()
def lowerCamelCase__ ( A__ : Tuple , A__ : List[Any] , A__ : str=None ):
'''simple docstring'''
__lowerCamelCase = load_checkpoint(A__ )
if config is not None:
__lowerCamelCase = OPTConfig.from_pretrained(A__ )
else:
__lowerCamelCase = OPTConfig()
__lowerCamelCase = 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)
| 12 |
import argparse
import json
import os
import evaluate
import torch
from datasets import load_dataset
from torch.optim import AdamW
from torch.utils.data import DataLoader
from transformers import AutoModelForSequenceClassification, AutoTokenizer, get_linear_schedule_with_warmup, set_seed
from accelerate import Accelerator, DistributedType
from accelerate.utils.deepspeed import DummyOptim, DummyScheduler
UpperCAmelCase_ = 16
UpperCAmelCase_ = 32
def lowerCamelCase__ ( A__ : Accelerator , A__ : int = 16 , A__ : str = "bert-base-cased" ):
'''simple docstring'''
__lowerCamelCase = AutoTokenizer.from_pretrained(A__ )
__lowerCamelCase = load_dataset("""glue""" , """mrpc""" )
def tokenize_function(A__ : int ):
# max_length=None => use the model max length (it's actually the default)
__lowerCamelCase = tokenizer(examples["""sentence1"""] , examples["""sentence2"""] , truncation=A__ , max_length=A__ )
return outputs
# Apply the method we just defined to all the examples in all the splits of the dataset
__lowerCamelCase = datasets.map(
A__ , batched=A__ , remove_columns=["""idx""", """sentence1""", """sentence2"""] , load_from_cache_file=A__ )
# We also rename the 'label' column to 'labels' which is the expected name for labels by the models of the
# transformers library
__lowerCamelCase = tokenized_datasets.rename_column("""label""" , """labels""" )
def collate_fn(A__ : Optional[int] ):
# On TPU it's best to pad everything to the same length or training will be very slow.
if accelerator.distributed_type == DistributedType.TPU:
return tokenizer.pad(A__ , padding="""max_length""" , max_length=128 , return_tensors="""pt""" )
return tokenizer.pad(A__ , padding="""longest""" , return_tensors="""pt""" )
# Instantiate dataloaders.
__lowerCamelCase = DataLoader(
tokenized_datasets["""train"""] , shuffle=A__ , collate_fn=A__ , batch_size=A__ )
__lowerCamelCase = DataLoader(
tokenized_datasets["""validation"""] , shuffle=A__ , collate_fn=A__ , batch_size=A__ )
return train_dataloader, eval_dataloader
def lowerCamelCase__ ( A__ : Tuple , A__ : Union[str, Any] , A__ : Tuple , A__ : Optional[Any] ):
'''simple docstring'''
model.eval()
__lowerCamelCase = 0
for step, batch in enumerate(A__ ):
# We could avoid this line since we set the accelerator with `device_placement=True`.
batch.to(accelerator.device )
with torch.no_grad():
__lowerCamelCase = model(**A__ )
__lowerCamelCase = outputs.logits.argmax(dim=-1 )
# It is slightly faster to call this once, than multiple times
__lowerCamelCase, __lowerCamelCase = accelerator.gather(
(predictions, batch["""labels"""]) ) # If we are in a multiprocess environment, the last batch has duplicates
if accelerator.use_distributed:
if step == len(A__ ) - 1:
__lowerCamelCase = predictions[: len(eval_dataloader.dataset ) - samples_seen]
__lowerCamelCase = references[: len(eval_dataloader.dataset ) - samples_seen]
else:
samples_seen += references.shape[0]
metric.add_batch(
predictions=A__ , references=A__ , )
__lowerCamelCase = metric.compute()
return eval_metric["accuracy"]
def lowerCamelCase__ ( A__ : Optional[Any] , A__ : Optional[int] ):
'''simple docstring'''
__lowerCamelCase = Accelerator()
# Sample hyper-parameters for learning rate, batch size, seed and a few other HPs
__lowerCamelCase = config["""lr"""]
__lowerCamelCase = int(config["""num_epochs"""] )
__lowerCamelCase = int(config["""seed"""] )
__lowerCamelCase = int(config["""batch_size"""] )
__lowerCamelCase = args.model_name_or_path
set_seed(A__ )
__lowerCamelCase, __lowerCamelCase = get_dataloaders(A__ , A__ , A__ )
# Instantiate the model (we build the model here so that the seed also control new weights initialization)
__lowerCamelCase = AutoModelForSequenceClassification.from_pretrained(A__ , return_dict=A__ )
# Instantiate optimizer
__lowerCamelCase = (
AdamW
if accelerator.state.deepspeed_plugin is None
or """optimizer""" not in accelerator.state.deepspeed_plugin.deepspeed_config
else DummyOptim
)
__lowerCamelCase = optimizer_cls(params=model.parameters() , lr=A__ )
if accelerator.state.deepspeed_plugin is not None:
__lowerCamelCase = accelerator.state.deepspeed_plugin.deepspeed_config[
"""gradient_accumulation_steps"""
]
else:
__lowerCamelCase = 1
__lowerCamelCase = (len(A__ ) * num_epochs) // gradient_accumulation_steps
# Instantiate scheduler
if (
accelerator.state.deepspeed_plugin is None
or "scheduler" not in accelerator.state.deepspeed_plugin.deepspeed_config
):
__lowerCamelCase = get_linear_schedule_with_warmup(
optimizer=A__ , num_warmup_steps=0 , num_training_steps=A__ , )
else:
__lowerCamelCase = DummyScheduler(A__ , total_num_steps=A__ , warmup_num_steps=0 )
# Prepare everything
# There is no specific order to remember, we just need to unpack the objects in the same order we gave them to the
# prepare method.
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = accelerator.prepare(
A__ , A__ , A__ , A__ , A__ )
# We need to keep track of how many total steps we have iterated over
__lowerCamelCase = 0
# We also need to keep track of the stating epoch so files are named properly
__lowerCamelCase = 0
__lowerCamelCase = evaluate.load("""glue""" , """mrpc""" )
__lowerCamelCase = num_epochs
if args.partial_train_epoch is not None:
__lowerCamelCase = args.partial_train_epoch
if args.resume_from_checkpoint:
accelerator.load_state(args.resume_from_checkpoint )
__lowerCamelCase = args.resume_from_checkpoint.split("""epoch_""" )[1]
__lowerCamelCase = """"""
for char in epoch_string:
if char.isdigit():
state_epoch_num += char
else:
break
__lowerCamelCase = int(A__ ) + 1
__lowerCamelCase = evaluation_loop(A__ , A__ , A__ , A__ )
accelerator.print("""resumed checkpoint performance:""" , A__ )
accelerator.print("""resumed checkpoint's scheduler's lr:""" , lr_scheduler.get_lr()[0] )
accelerator.print("""resumed optimizers's lr:""" , optimizer.param_groups[0]["""lr"""] )
with open(os.path.join(args.output_dir , f'state_{starting_epoch-1}.json' ) , """r""" ) as f:
__lowerCamelCase = json.load(A__ )
assert resumed_state["accuracy"] == accuracy, "Accuracy mismatch, loading from checkpoint failed"
assert (
resumed_state["lr"] == lr_scheduler.get_lr()[0]
), "Scheduler learning rate mismatch, loading from checkpoint failed"
assert (
resumed_state["optimizer_lr"] == optimizer.param_groups[0]["lr"]
), "Optimizer learning rate mismatch, loading from checkpoint failed"
assert resumed_state["epoch"] == starting_epoch - 1, "Epoch mismatch, loading from checkpoint failed"
return
# Now we train the model
__lowerCamelCase = {}
for epoch in range(A__ , A__ ):
model.train()
for step, batch in enumerate(A__ ):
__lowerCamelCase = model(**A__ )
__lowerCamelCase = outputs.loss
__lowerCamelCase = loss / gradient_accumulation_steps
accelerator.backward(A__ )
if step % gradient_accumulation_steps == 0:
optimizer.step()
lr_scheduler.step()
optimizer.zero_grad()
overall_step += 1
__lowerCamelCase = f'epoch_{epoch}'
__lowerCamelCase = os.path.join(args.output_dir , A__ )
accelerator.save_state(A__ )
__lowerCamelCase = evaluation_loop(A__ , A__ , A__ , A__ )
__lowerCamelCase = accuracy
__lowerCamelCase = lr_scheduler.get_lr()[0]
__lowerCamelCase = optimizer.param_groups[0]["""lr"""]
__lowerCamelCase = epoch
__lowerCamelCase = overall_step
accelerator.print(f'epoch {epoch}:' , A__ )
accelerator.wait_for_everyone()
if accelerator.is_main_process:
with open(os.path.join(args.output_dir , f'state_{epoch}.json' ) , """w""" ) as f:
json.dump(A__ , A__ )
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = argparse.ArgumentParser(description="""Simple example of training script tracking peak GPU memory usage.""" )
parser.add_argument(
"""--model_name_or_path""" , type=A__ , default="""bert-base-cased""" , help="""Path to pretrained model or model identifier from huggingface.co/models.""" , required=A__ , )
parser.add_argument(
"""--output_dir""" , type=A__ , default=""".""" , help="""Optional save directory where all checkpoint folders will be stored. Default is the current working directory.""" , )
parser.add_argument(
"""--resume_from_checkpoint""" , type=A__ , default=A__ , help="""If the training should continue from a checkpoint folder.""" , )
parser.add_argument(
"""--partial_train_epoch""" , type=A__ , default=A__ , help="""If passed, the training will stop after this number of epochs.""" , )
parser.add_argument(
"""--num_epochs""" , type=A__ , default=2 , help="""Number of train epochs.""" , )
__lowerCamelCase = parser.parse_args()
__lowerCamelCase = {"""lr""": 2E-5, """num_epochs""": args.num_epochs, """seed""": 42, """batch_size""": 16}
training_function(A__ , A__ )
if __name__ == "__main__":
main()
| 12 | 1 |
import warnings
from ...utils import is_sklearn_available, requires_backends
if is_sklearn_available():
from scipy.stats import pearsonr, spearmanr
from sklearn.metrics import fa_score, matthews_corrcoef
UpperCAmelCase_ = (
'This metric will be removed from the library soon, metrics should be handled with the 🤗 Evaluate '
'library. You can have a look at this example script for pointers: '
'https://github.com/huggingface/transformers/blob/main/examples/pytorch/text-classification/run_glue.py'
)
def lowerCamelCase__ ( A__ : int , A__ : List[Any] ):
'''simple docstring'''
warnings.warn(A__ , A__ )
requires_backends(A__ , """sklearn""" )
return (preds == labels).mean()
def lowerCamelCase__ ( A__ : List[str] , A__ : Any ):
'''simple docstring'''
warnings.warn(A__ , A__ )
requires_backends(A__ , """sklearn""" )
__lowerCamelCase = simple_accuracy(A__ , A__ )
__lowerCamelCase = fa_score(y_true=A__ , y_pred=A__ )
return {
"acc": acc,
"f1": fa,
"acc_and_f1": (acc + fa) / 2,
}
def lowerCamelCase__ ( A__ : Tuple , A__ : Union[str, Any] ):
'''simple docstring'''
warnings.warn(A__ , A__ )
requires_backends(A__ , """sklearn""" )
__lowerCamelCase = pearsonr(A__ , A__ )[0]
__lowerCamelCase = spearmanr(A__ , A__ )[0]
return {
"pearson": pearson_corr,
"spearmanr": spearman_corr,
"corr": (pearson_corr + spearman_corr) / 2,
}
def lowerCamelCase__ ( A__ : Tuple , A__ : List[str] , A__ : int ):
'''simple docstring'''
warnings.warn(A__ , A__ )
requires_backends(A__ , """sklearn""" )
assert len(A__ ) == len(A__ ), f'Predictions and labels have mismatched lengths {len(A__ )} and {len(A__ )}'
if task_name == "cola":
return {"mcc": matthews_corrcoef(A__ , A__ )}
elif task_name == "sst-2":
return {"acc": simple_accuracy(A__ , A__ )}
elif task_name == "mrpc":
return acc_and_fa(A__ , A__ )
elif task_name == "sts-b":
return pearson_and_spearman(A__ , A__ )
elif task_name == "qqp":
return acc_and_fa(A__ , A__ )
elif task_name == "mnli":
return {"mnli/acc": simple_accuracy(A__ , A__ )}
elif task_name == "mnli-mm":
return {"mnli-mm/acc": simple_accuracy(A__ , A__ )}
elif task_name == "qnli":
return {"acc": simple_accuracy(A__ , A__ )}
elif task_name == "rte":
return {"acc": simple_accuracy(A__ , A__ )}
elif task_name == "wnli":
return {"acc": simple_accuracy(A__ , A__ )}
elif task_name == "hans":
return {"acc": simple_accuracy(A__ , A__ )}
else:
raise KeyError(A__ )
def lowerCamelCase__ ( A__ : Union[str, Any] , A__ : int , A__ : Optional[int] ):
'''simple docstring'''
warnings.warn(A__ , A__ )
requires_backends(A__ , """sklearn""" )
if len(A__ ) != len(A__ ):
raise ValueError(f'Predictions and labels have mismatched lengths {len(A__ )} and {len(A__ )}' )
if task_name == "xnli":
return {"acc": simple_accuracy(A__ , A__ )}
else:
raise KeyError(A__ )
| 12 |
import json
import sys
import tempfile
import unittest
from pathlib import Path
import transformers
from transformers import (
CONFIG_MAPPING,
FEATURE_EXTRACTOR_MAPPING,
AutoConfig,
AutoFeatureExtractor,
WavaVecaConfig,
WavaVecaFeatureExtractor,
)
from transformers.testing_utils import DUMMY_UNKNOWN_IDENTIFIER, get_tests_dir
sys.path.append(str(Path(__file__).parent.parent.parent.parent / 'utils'))
from test_module.custom_configuration import CustomConfig # noqa E402
from test_module.custom_feature_extraction import CustomFeatureExtractor # noqa E402
UpperCAmelCase_ = get_tests_dir('fixtures')
UpperCAmelCase_ = get_tests_dir('fixtures/dummy_feature_extractor_config.json')
UpperCAmelCase_ = get_tests_dir('fixtures/dummy-config.json')
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = 0
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""facebook/wav2vec2-base-960h""" )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
with tempfile.TemporaryDirectory() as tmpdirname:
__lowerCamelCase = WavaVecaConfig()
# remove feature_extractor_type to make sure config.json alone is enough to load feature processor locally
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ ).to_dict()
config_dict.pop("""feature_extractor_type""" )
__lowerCamelCase = WavaVecaFeatureExtractor(**UpperCamelCase_ )
# save in new folder
model_config.save_pretrained(UpperCamelCase_ )
config.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
# make sure private variable is not incorrectly saved
__lowerCamelCase = json.loads(config.to_json_string() )
self.assertTrue("""_processor_class""" not in dict_as_saved )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
with self.assertRaisesRegex(
UpperCamelCase_ , """bert-base is not a local folder and is not a valid model identifier""" ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""bert-base""" )
def lowerCAmelCase__ ( self: Tuple ):
with self.assertRaisesRegex(
UpperCamelCase_ , r"""aaaaaa is not a valid git identifier \(branch name, tag name or commit id\)""" ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ , revision="""aaaaaa""" )
def lowerCAmelCase__ ( self: Optional[Any] ):
with self.assertRaisesRegex(
UpperCamelCase_ , """hf-internal-testing/config-no-model does not appear to have a file named preprocessor_config.json.""" , ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""hf-internal-testing/config-no-model""" )
def lowerCAmelCase__ ( self: Tuple ):
# If remote code is not set, we will time out when asking whether to load the model.
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" )
# If remote code is disabled, we can't load this config.
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
# Test feature extractor can be reloaded.
with tempfile.TemporaryDirectory() as tmp_dir:
feature_extractor.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ , trust_remote_code=UpperCamelCase_ )
self.assertEqual(reloaded_feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
def lowerCAmelCase__ ( self: Any ):
try:
AutoConfig.register("""custom""" , UpperCamelCase_ )
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# Trying to register something existing in the Transformers library will raise an error
with self.assertRaises(UpperCamelCase_ ):
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# Now that the config is registered, it can be used as any other config with the auto-API
__lowerCamelCase = CustomFeatureExtractor.from_pretrained(UpperCamelCase_ )
with tempfile.TemporaryDirectory() as tmp_dir:
feature_extractor.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in FEATURE_EXTRACTOR_MAPPING._extra_content:
del FEATURE_EXTRACTOR_MAPPING._extra_content[CustomConfig]
def lowerCAmelCase__ ( self: Dict ):
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : str = True
try:
AutoConfig.register("""custom""" , UpperCamelCase_ )
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# If remote code is not set, the default is to use local
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(feature_extractor.is_local )
# If remote code is disabled, we load the local one.
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(feature_extractor.is_local )
# If remote is enabled, we load from the Hub
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(not hasattr(UpperCamelCase_ , """is_local""" ) )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in FEATURE_EXTRACTOR_MAPPING._extra_content:
del FEATURE_EXTRACTOR_MAPPING._extra_content[CustomConfig]
| 12 | 1 |
import csv
import tweepy
# Twitter API credentials
UpperCAmelCase_ = ''
UpperCAmelCase_ = ''
UpperCAmelCase_ = ''
UpperCAmelCase_ = ''
def lowerCamelCase__ ( A__ : str ):
'''simple docstring'''
__lowerCamelCase = tweepy.OAuthHandler(A__ , A__ )
auth.set_access_token(A__ , A__ )
__lowerCamelCase = tweepy.API(A__ )
# initialize a list to hold all the tweepy Tweets
__lowerCamelCase = []
# make initial request for most recent tweets (200 is the maximum allowed count)
__lowerCamelCase = api.user_timeline(screen_name=A__ , count=200 )
# save most recent tweets
alltweets.extend(A__ )
# save the id of the oldest tweet less one
__lowerCamelCase = 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
__lowerCamelCase = 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
__lowerCamelCase = 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
__lowerCamelCase = [[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:
__lowerCamelCase = 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')
| 12 |
# Lint as: python3
import os
import re
import urllib.parse
from pathlib import Path
from typing import Callable, List, Optional, Union
from zipfile import ZipFile
from ..utils.file_utils import cached_path, hf_github_url
from ..utils.logging import get_logger
from ..utils.version import Version
UpperCAmelCase_ = get_logger(__name__)
class lowerCamelCase__:
UpperCAmelCase__ : List[Any] = 'dummy_data'
UpperCAmelCase__ : str = 'datasets'
UpperCAmelCase__ : Tuple = False
def __init__( self: Optional[Any] , UpperCamelCase_: str , UpperCamelCase_: str , UpperCamelCase_: Union[Version, str] , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: bool = False , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[List[Callable]] = None , ):
__lowerCamelCase = 0
__lowerCamelCase = dataset_name
__lowerCamelCase = cache_dir
__lowerCamelCase = use_local_dummy_data
__lowerCamelCase = config
# download_callbacks take a single url as input
__lowerCamelCase = download_callbacks or []
# if False, it doesn't load existing files and it returns the paths of the dummy files relative
# to the dummy_data zip file root
__lowerCamelCase = load_existing_dummy_data
# TODO(PVP, QL) might need to make this more general
__lowerCamelCase = str(UpperCamelCase_ )
# to be downloaded
__lowerCamelCase = None
__lowerCamelCase = None
@property
def lowerCAmelCase__ ( self: List[Any] ):
if self._dummy_file is None:
__lowerCamelCase = self.download_dummy_data()
return self._dummy_file
@property
def lowerCAmelCase__ ( self: str ):
if self.config is not None:
# structure is dummy / config_name / version_name
return os.path.join("""dummy""" , self.config.name , self.version_name )
# structure is dummy / version_name
return os.path.join("""dummy""" , self.version_name )
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
return os.path.join(self.dummy_data_folder , """dummy_data.zip""" )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = (
self.local_path_to_dummy_data if self.use_local_dummy_data is True else self.github_path_to_dummy_data
)
__lowerCamelCase = cached_path(
UpperCamelCase_ , cache_dir=self.cache_dir , extract_compressed_file=UpperCamelCase_ , force_extract=UpperCamelCase_ )
return os.path.join(UpperCamelCase_ , self.dummy_file_name )
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
return os.path.join(self.datasets_scripts_dir , self.dataset_name , self.dummy_zip_file )
@property
def lowerCAmelCase__ ( self: Tuple ):
if self._bucket_url is None:
__lowerCamelCase = hf_github_url(self.dataset_name , self.dummy_zip_file.replace(os.sep , """/""" ) )
return self._bucket_url
@property
def lowerCAmelCase__ ( self: str ):
# return full path if its a dir
if os.path.isdir(self.dummy_file ):
return self.dummy_file
# else cut off path to file -> example `xsum`.
return "/".join(self.dummy_file.replace(os.sep , """/""" ).split("""/""" )[:-1] )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Dict , *UpperCamelCase_: str ):
if self.load_existing_dummy_data:
# dummy data is downloaded and tested
__lowerCamelCase = self.dummy_file
else:
# dummy data cannot be downloaded and only the path to dummy file is returned
__lowerCamelCase = self.dummy_file_name
# special case when data_url is a dict
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
return self.create_dummy_data_dict(UpperCamelCase_ , UpperCamelCase_ )
elif isinstance(UpperCamelCase_ , (list, tuple) ):
return self.create_dummy_data_list(UpperCamelCase_ , UpperCamelCase_ )
else:
return self.create_dummy_data_single(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: Optional[Any] , *UpperCamelCase_: str ):
return self.download_and_extract(UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Tuple , UpperCamelCase_: str ):
return self.download_and_extract(UpperCamelCase_ )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: int , *UpperCamelCase_: List[str] , **UpperCamelCase_: str ):
return path
def lowerCAmelCase__ ( self: Dict ):
return {}
def lowerCAmelCase__ ( self: str , UpperCamelCase_: List[Any] , UpperCamelCase_: Union[str, Any] ):
__lowerCamelCase = {}
for key, single_urls in data_url.items():
for download_callback in self.download_callbacks:
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
for single_url in single_urls:
download_callback(UpperCamelCase_ )
else:
__lowerCamelCase = single_urls
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = [os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(Path(UpperCamelCase_ ).name ) ) for x in single_urls]
else:
__lowerCamelCase = single_urls
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(Path(UpperCamelCase_ ).name ) )
__lowerCamelCase = value
# make sure that values are unique
if all(isinstance(UpperCamelCase_ , UpperCamelCase_ ) for i in dummy_data_dict.values() ) and len(set(dummy_data_dict.values() ) ) < len(
dummy_data_dict.values() ):
# append key to value to make its name unique
__lowerCamelCase = {key: value + key for key, value in dummy_data_dict.items()}
return dummy_data_dict
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Optional[Any] , UpperCamelCase_: Optional[int] ):
__lowerCamelCase = []
# trick: if there are many shards named like `data.txt-000001-of-00300`, only use the first one
__lowerCamelCase = all(bool(re.findall("""[0-9]{3,}-of-[0-9]{3,}""" , UpperCamelCase_ ) ) for url in data_url )
__lowerCamelCase = all(
url.startswith("""https://ftp.ncbi.nlm.nih.gov/pubmed/baseline/pubmed""" ) for url in data_url )
if data_url and (is_tf_records or is_pubmed_records):
__lowerCamelCase = [data_url[0]] * len(UpperCamelCase_ )
for single_url in data_url:
for download_callback in self.download_callbacks:
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(single_url.split("""/""" )[-1] ) )
dummy_data_list.append(UpperCamelCase_ )
return dummy_data_list
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Optional[int] , UpperCamelCase_: Optional[Any] ):
for download_callback in self.download_callbacks:
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(data_url.split("""/""" )[-1] ) )
if os.path.exists(UpperCamelCase_ ) or not self.load_existing_dummy_data:
return value
else:
# Backward compatibility, maybe deprecate at one point.
# For many datasets with single url calls to dl_manager.download_and_extract,
# the dummy_data.zip file is actually the zipped downloaded file
# while now we expected the dummy_data.zip file to be a directory containing
# the downloaded file.
return path_to_dummy_data
def lowerCAmelCase__ ( self: Optional[Any] ):
pass
def lowerCAmelCase__ ( self: List[Any] ):
pass
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: Dict ):
def _iter_archive_members(UpperCamelCase_: Any ):
# this preserves the order of the members inside the ZIP archive
__lowerCamelCase = Path(self.dummy_file ).parent
__lowerCamelCase = path.relative_to(UpperCamelCase_ )
with ZipFile(self.local_path_to_dummy_data ) as zip_file:
__lowerCamelCase = zip_file.namelist()
for member in members:
if member.startswith(relative_path.as_posix() ):
yield dummy_parent_path.joinpath(UpperCamelCase_ )
__lowerCamelCase = Path(UpperCamelCase_ )
__lowerCamelCase = _iter_archive_members(UpperCamelCase_ ) if self.use_local_dummy_data else path.rglob("""*""" )
for file_path in file_paths:
if file_path.is_file() and not file_path.name.startswith((""".""", """__""") ):
yield file_path.relative_to(UpperCamelCase_ ).as_posix(), file_path.open("""rb""" )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Dict ):
if not isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = [paths]
for path in paths:
if os.path.isfile(UpperCamelCase_ ):
if os.path.basename(UpperCamelCase_ ).startswith((""".""", """__""") ):
return
yield path
else:
for dirpath, dirnames, filenames in os.walk(UpperCamelCase_ ):
if os.path.basename(UpperCamelCase_ ).startswith((""".""", """__""") ):
continue
dirnames.sort()
for filename in sorted(UpperCamelCase_ ):
if filename.startswith((""".""", """__""") ):
continue
yield os.path.join(UpperCamelCase_ , UpperCamelCase_ )
| 12 | 1 |
class lowerCamelCase__:
def __init__( self: Dict , UpperCamelCase_: int ):
__lowerCamelCase = n
__lowerCamelCase = [None] * self.n
__lowerCamelCase = 0 # index of the first element
__lowerCamelCase = 0
__lowerCamelCase = 0
def __len__( self: Optional[int] ):
return self.size
def lowerCAmelCase__ ( self: str ):
return self.size == 0
def lowerCAmelCase__ ( self: Union[str, Any] ):
return False if self.is_empty() else self.array[self.front]
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: List[Any] ):
if self.size >= self.n:
raise Exception("""QUEUE IS FULL""" )
__lowerCamelCase = data
__lowerCamelCase = (self.rear + 1) % self.n
self.size += 1
return self
def lowerCAmelCase__ ( self: Union[str, Any] ):
if self.size == 0:
raise Exception("""UNDERFLOW""" )
__lowerCamelCase = self.array[self.front]
__lowerCamelCase = None
__lowerCamelCase = (self.front + 1) % self.n
self.size -= 1
return temp
| 12 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : list[int] , A__ : list[int] , A__ : list[int] , A__ : list[list[str]] , A__ : int , ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
# If row is equal to the size of the board it means there are a queen in each row in
# the current board (possible_board)
if row == n:
# We convert the variable possible_board that looks like this: [1, 3, 0, 2] to
# this: ['. Q . . ', '. . . Q ', 'Q . . . ', '. . Q . ']
boards.append([""". """ * i + """Q """ + """. """ * (n - 1 - i) for i in possible_board] )
return
# We iterate each column in the row to find all possible results in each row
for col in range(A__ ):
# We apply that we learned previously. First we check that in the current board
# (possible_board) there are not other same value because if there is it means
# that there are a collision in vertical. Then we apply the two formulas we
# learned before:
#
# 45º: y - x = b or 45: row - col = b
# 135º: y + x = b or row + col = b.
#
# And we verify if the results of this two formulas not exist in their variables
# respectively. (diagonal_right_collisions, diagonal_left_collisions)
#
# If any or these are True it means there is a collision so we continue to the
# next value in the for loop.
if (
col in possible_board
or row - col in diagonal_right_collisions
or row + col in diagonal_left_collisions
):
continue
# If it is False we call dfs function again and we update the inputs
depth_first_search(
[*possible_board, col] , [*diagonal_right_collisions, row - col] , [*diagonal_left_collisions, row + col] , A__ , A__ , )
def lowerCamelCase__ ( A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
depth_first_search([] , [] , [] , A__ , A__ )
# Print all the boards
for board in boards:
for column in board:
print(A__ )
print("""""" )
print(len(A__ ) , """solutions were found.""" )
if __name__ == "__main__":
import doctest
doctest.testmod()
n_queens_solution(4)
| 12 | 1 |
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxSeqaSeqConfigWithPast
from ...utils import logging
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'google/umt5-small': 'https://huggingface.co/google/umt5-small/resolve/main/config.json',
# See all umt5 models at https://huggingface.co/models?filter=umt5
}
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : List[str] = 'umt5'
UpperCAmelCase__ : Optional[int] = ['past_key_values']
def __init__( self: str , UpperCamelCase_: Optional[Any]=25_01_12 , UpperCamelCase_: Tuple=5_12 , UpperCamelCase_: int=64 , UpperCamelCase_: Union[str, Any]=10_24 , UpperCamelCase_: Tuple=8 , UpperCamelCase_: List[Any]=None , UpperCamelCase_: int=6 , UpperCamelCase_: Dict=32 , UpperCamelCase_: List[Any]=1_28 , UpperCamelCase_: str=0.1 , UpperCamelCase_: List[Any]=1E-6 , UpperCamelCase_: str=1.0 , UpperCamelCase_: int="gated-gelu" , UpperCamelCase_: Optional[int]=True , UpperCamelCase_: Tuple=True , UpperCamelCase_: List[str]="T5Tokenizer" , UpperCamelCase_: Dict=True , UpperCamelCase_: Any=0 , UpperCamelCase_: int=1 , UpperCamelCase_: Optional[int]=0 , **UpperCamelCase_: List[Any] , ):
super().__init__(
is_encoder_decoder=UpperCamelCase_ , tokenizer_class=UpperCamelCase_ , tie_word_embeddings=UpperCamelCase_ , pad_token_id=UpperCamelCase_ , eos_token_id=UpperCamelCase_ , decoder_start_token_id=UpperCamelCase_ , **UpperCamelCase_ , )
__lowerCamelCase = vocab_size
__lowerCamelCase = d_model
__lowerCamelCase = d_kv
__lowerCamelCase = d_ff
__lowerCamelCase = num_layers
__lowerCamelCase = (
num_decoder_layers if num_decoder_layers is not None else self.num_layers
) # default = symmetry
__lowerCamelCase = num_heads
__lowerCamelCase = relative_attention_num_buckets
__lowerCamelCase = relative_attention_max_distance
__lowerCamelCase = dropout_rate
__lowerCamelCase = layer_norm_epsilon
__lowerCamelCase = initializer_factor
__lowerCamelCase = feed_forward_proj
__lowerCamelCase = use_cache
__lowerCamelCase = self.feed_forward_proj.split("""-""" )
__lowerCamelCase = act_info[-1]
__lowerCamelCase = 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'""" )
if feed_forward_proj == "gated-gelu":
__lowerCamelCase = """gelu_new"""
@property
def lowerCAmelCase__ ( self: int ):
return self.d_model
@property
def lowerCAmelCase__ ( self: int ):
return self.num_heads
@property
def lowerCAmelCase__ ( self: Optional[int] ):
return self.num_layers
class lowerCamelCase__( __lowerCamelCase):
@property
# Copied from transformers.models.t5.configuration_t5.T5OnnxConfig.inputs
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = {
"""input_ids""": {0: """batch""", 1: """encoder_sequence"""},
"""attention_mask""": {0: """batch""", 1: """encoder_sequence"""},
}
if self.use_past:
__lowerCamelCase = """past_encoder_sequence + sequence"""
__lowerCamelCase = {0: """batch"""}
__lowerCamelCase = {0: """batch""", 1: """past_decoder_sequence + sequence"""}
else:
__lowerCamelCase = {0: """batch""", 1: """decoder_sequence"""}
__lowerCamelCase = {0: """batch""", 1: """decoder_sequence"""}
if self.use_past:
self.fill_with_past_key_values_(UpperCamelCase_ , direction="""inputs""" )
return common_inputs
@property
# Copied from transformers.models.t5.configuration_t5.T5OnnxConfig.default_onnx_opset
def lowerCAmelCase__ ( self: List[Any] ):
return 13
@property
def lowerCAmelCase__ ( self: int ):
return 5E-4
| 12 |
from __future__ import annotations
from collections import namedtuple
from dataclasses import dataclass
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : int
UpperCAmelCase__ : TreeNode | None = None
UpperCAmelCase__ : TreeNode | None = None
UpperCAmelCase_ = namedtuple('CoinsDistribResult', 'moves excess')
def lowerCamelCase__ ( A__ : TreeNode | None ):
'''simple docstring'''
if root is None:
return 0
# Validation
def count_nodes(A__ : TreeNode | None ) -> int:
if node is None:
return 0
return count_nodes(node.left ) + count_nodes(node.right ) + 1
def count_coins(A__ : TreeNode | None ) -> int:
if node is None:
return 0
return count_coins(node.left ) + count_coins(node.right ) + node.data
if count_nodes(A__ ) != count_coins(A__ ):
raise ValueError("""The nodes number should be same as the number of coins""" )
# Main calculation
def get_distrib(A__ : TreeNode | None ) -> CoinsDistribResult:
if node is None:
return CoinsDistribResult(0 , 1 )
__lowerCamelCase, __lowerCamelCase = get_distrib(node.left )
__lowerCamelCase, __lowerCamelCase = get_distrib(node.right )
__lowerCamelCase = 1 - left_distrib_excess
__lowerCamelCase = 1 - right_distrib_excess
__lowerCamelCase = (
left_distrib_moves
+ right_distrib_moves
+ abs(A__ )
+ abs(A__ )
)
__lowerCamelCase = node.data - coins_to_left - coins_to_right
return CoinsDistribResult(A__ , A__ )
return get_distrib(A__ )[0]
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 | 1 |
import heapq
def lowerCamelCase__ ( A__ : dict ):
'''simple docstring'''
__lowerCamelCase = []
# for each node and his adjacency list add them and the rank of the node to queue
# using heapq module the queue will be filled like a Priority Queue
# heapq works with a min priority queue, so I used -1*len(v) to build it
for key, value in graph.items():
# O(log(n))
heapq.heappush(A__ , [-1 * len(A__ ), (key, value)] )
# chosen_vertices = set of chosen vertices
__lowerCamelCase = set()
# while queue isn't empty and there are still edges
# (queue[0][0] is the rank of the node with max rank)
while queue and queue[0][0] != 0:
# extract vertex with max rank from queue and add it to chosen_vertices
__lowerCamelCase = heapq.heappop(A__ )[1][0]
chosen_vertices.add(A__ )
# Remove all arcs adjacent to argmax
for elem in queue:
# if v haven't adjacent node, skip
if elem[0] == 0:
continue
# if argmax is reachable from elem
# remove argmax from elem's adjacent list and update his rank
if argmax in elem[1][1]:
__lowerCamelCase = elem[1][1].index(A__ )
del elem[1][1][index]
elem[0] += 1
# re-order the queue
heapq.heapify(A__ )
return chosen_vertices
if __name__ == "__main__":
import doctest
doctest.testmod()
UpperCAmelCase_ = {0: [1, 3], 1: [0, 3], 2: [0, 3, 4], 3: [0, 1, 2], 4: [2, 3]}
print(f"""Minimum vertex cover:\n{greedy_min_vertex_cover(graph)}""")
| 12 |
from typing import Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature
from ...image_transforms import get_image_size, pad, rescale, to_channel_dimension_format
from ...image_utils import ChannelDimension, ImageInput, make_list_of_images, to_numpy_array, valid_images
from ...utils import TensorType, logging
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Tuple = ['pixel_values']
def __init__( self: Any , UpperCamelCase_: bool = True , UpperCamelCase_: Union[int, float] = 1 / 2_55 , UpperCamelCase_: bool = True , UpperCamelCase_: int = 8 , **UpperCamelCase_: Tuple , ):
super().__init__(**UpperCamelCase_ )
__lowerCamelCase = do_rescale
__lowerCamelCase = rescale_factor
__lowerCamelCase = do_pad
__lowerCamelCase = pad_size
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: np.ndarray , UpperCamelCase_: float , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None , **UpperCamelCase_: Tuple ):
return rescale(UpperCamelCase_ , scale=UpperCamelCase_ , data_format=UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: np.ndarray , UpperCamelCase_: int , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None ):
__lowerCamelCase, __lowerCamelCase = get_image_size(UpperCamelCase_ )
__lowerCamelCase = (old_height // size + 1) * size - old_height
__lowerCamelCase = (old_width // size + 1) * size - old_width
return pad(UpperCamelCase_ , ((0, pad_height), (0, pad_width)) , mode="""symmetric""" , data_format=UpperCamelCase_ )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: ImageInput , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: Optional[float] = None , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[Union[str, TensorType]] = None , UpperCamelCase_: Union[str, ChannelDimension] = ChannelDimension.FIRST , **UpperCamelCase_: Any , ):
__lowerCamelCase = do_rescale if do_rescale is not None else self.do_rescale
__lowerCamelCase = rescale_factor if rescale_factor is not None else self.rescale_factor
__lowerCamelCase = do_pad if do_pad is not None else self.do_pad
__lowerCamelCase = pad_size if pad_size is not None else self.pad_size
__lowerCamelCase = 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_rescale and rescale_factor is None:
raise ValueError("""Rescale factor must be specified if do_rescale is True.""" )
# All transformations expect numpy arrays.
__lowerCamelCase = [to_numpy_array(UpperCamelCase_ ) for image in images]
if do_rescale:
__lowerCamelCase = [self.rescale(image=UpperCamelCase_ , scale=UpperCamelCase_ ) for image in images]
if do_pad:
__lowerCamelCase = [self.pad(UpperCamelCase_ , size=UpperCamelCase_ ) for image in images]
__lowerCamelCase = [to_channel_dimension_format(UpperCamelCase_ , UpperCamelCase_ ) for image in images]
__lowerCamelCase = {"""pixel_values""": images}
return BatchFeature(data=UpperCamelCase_ , tensor_type=UpperCamelCase_ )
| 12 | 1 |
import os
import textwrap
import pyarrow as pa
import pytest
from datasets import ClassLabel, Features, Image
from datasets.packaged_modules.csv.csv import Csv
from ..utils import require_pil
@pytest.fixture
def lowerCamelCase__ ( A__ : Dict ):
'''simple docstring'''
__lowerCamelCase = tmp_path / """file.csv"""
__lowerCamelCase = textwrap.dedent(
"""\
header1,header2
1,2
10,20
""" )
with open(A__ , """w""" ) as f:
f.write(A__ )
return str(A__ )
@pytest.fixture
def lowerCamelCase__ ( A__ : str ):
'''simple docstring'''
__lowerCamelCase = tmp_path / """malformed_file.csv"""
__lowerCamelCase = textwrap.dedent(
"""\
header1,header2
1,2
10,20,
""" )
with open(A__ , """w""" ) as f:
f.write(A__ )
return str(A__ )
@pytest.fixture
def lowerCamelCase__ ( A__ : List[str] , A__ : List[str] ):
'''simple docstring'''
__lowerCamelCase = tmp_path / """csv_with_image.csv"""
__lowerCamelCase = textwrap.dedent(
f'\\n image\n {image_file}\n ' )
with open(A__ , """w""" ) as f:
f.write(A__ )
return str(A__ )
@pytest.fixture
def lowerCamelCase__ ( A__ : List[str] ):
'''simple docstring'''
__lowerCamelCase = tmp_path / """csv_with_label.csv"""
__lowerCamelCase = textwrap.dedent(
"""\
label
good
bad
good
""" )
with open(A__ , """w""" ) as f:
f.write(A__ )
return str(A__ )
@pytest.fixture
def lowerCamelCase__ ( A__ : Any ):
'''simple docstring'''
__lowerCamelCase = tmp_path / """csv_with_int_list.csv"""
__lowerCamelCase = textwrap.dedent(
"""\
int_list
1 2 3
4 5 6
7 8 9
""" )
with open(A__ , """w""" ) as f:
f.write(A__ )
return str(A__ )
def lowerCamelCase__ ( A__ : Any , A__ : str , A__ : Any ):
'''simple docstring'''
__lowerCamelCase = Csv()
__lowerCamelCase = csv._generate_tables([[csv_file, malformed_csv_file]] )
with pytest.raises(A__ , match="""Error tokenizing data""" ):
for _ in generator:
pass
assert any(
record.levelname == """ERROR"""
and """Failed to read file""" in record.message
and os.path.basename(A__ ) in record.message
for record in caplog.records )
@require_pil
def lowerCamelCase__ ( A__ : int ):
'''simple docstring'''
with open(A__ , encoding="""utf-8""" ) as f:
__lowerCamelCase = f.read().splitlines()[1]
__lowerCamelCase = Csv(encoding="""utf-8""" , features=Features({"""image""": Image()} ) )
__lowerCamelCase = csv._generate_tables([[csv_file_with_image]] )
__lowerCamelCase = pa.concat_tables([table for _, table in generator] )
assert pa_table.schema.field("""image""" ).type == Image()()
__lowerCamelCase = pa_table.to_pydict()["""image"""]
assert generated_content == [{"path": image_file, "bytes": None}]
def lowerCamelCase__ ( A__ : str ):
'''simple docstring'''
with open(A__ , encoding="""utf-8""" ) as f:
__lowerCamelCase = f.read().splitlines()[1:]
__lowerCamelCase = Csv(encoding="""utf-8""" , features=Features({"""label""": ClassLabel(names=["""good""", """bad"""] )} ) )
__lowerCamelCase = csv._generate_tables([[csv_file_with_label]] )
__lowerCamelCase = pa.concat_tables([table for _, table in generator] )
assert pa_table.schema.field("""label""" ).type == ClassLabel(names=["""good""", """bad"""] )()
__lowerCamelCase = pa_table.to_pydict()["""label"""]
assert generated_content == [ClassLabel(names=["""good""", """bad"""] ).straint(A__ ) for label in labels]
def lowerCamelCase__ ( A__ : Any ):
'''simple docstring'''
__lowerCamelCase = Csv(encoding="""utf-8""" , sep=""",""" , converters={"""int_list""": lambda A__ : [int(A__ ) for i in x.split()]} )
__lowerCamelCase = csv._generate_tables([[csv_file_with_int_list]] )
__lowerCamelCase = pa.concat_tables([table for _, table in generator] )
assert pa.types.is_list(pa_table.schema.field("""int_list""" ).type )
__lowerCamelCase = pa_table.to_pydict()["""int_list"""]
assert generated_content == [[1, 2, 3], [4, 5, 6], [7, 8, 9]]
| 12 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : list[int | float] , A__ : int , A__ : int ):
'''simple docstring'''
if len(A__ ) == 0:
raise ValueError("""find_max() arg is an empty sequence""" )
if (
left >= len(A__ )
or left < -len(A__ )
or right >= len(A__ )
or right < -len(A__ )
):
raise IndexError("""list index out of range""" )
if left == right:
return nums[left]
__lowerCamelCase = (left + right) >> 1 # the middle
__lowerCamelCase = find_max(A__ , A__ , A__ ) # find max in range[left, mid]
__lowerCamelCase = find_max(A__ , mid + 1 , A__ ) # find max in range[mid + 1, right]
return left_max if left_max >= right_max else right_max
if __name__ == "__main__":
import doctest
doctest.testmod(verbose=True)
| 12 | 1 |
from .glue import GlueDataset, GlueDataTrainingArguments
from .language_modeling import (
LineByLineTextDataset,
LineByLineWithRefDataset,
LineByLineWithSOPTextDataset,
TextDataset,
TextDatasetForNextSentencePrediction,
)
from .squad import SquadDataset, SquadDataTrainingArguments
| 12 |
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 lowerCamelCase__( __lowerCamelCase):
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = SMALL_MODEL_IDENTIFIER
__lowerCamelCase = """pt"""
__lowerCamelCase = """tf"""
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Optional[Any] ):
__lowerCamelCase = AutoModel.from_pretrained(self.test_model )
model_pt.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Union[str, Any] ):
__lowerCamelCase = TFAutoModel.from_pretrained(self.test_model , from_pt=UpperCamelCase_ )
model_tf.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = """mock_framework"""
# Framework provided - return whatever the user provides
__lowerCamelCase = 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_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
# PyTorch checkpoint
with TemporaryDirectory() as local_pt_ckpt:
self._setup_pt_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Invalid local checkpoint
with TemporaryDirectory() as local_invalid_ckpt:
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# PyTorch not in environment -> use TensorFlow
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Both in environment -> use PyTorch
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ), patch(
"""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# Both not in environment -> raise error
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = 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_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
| 12 | 1 |
import argparse
import ast
import logging
import os
import sys
import pandas as pd
import torch
from tqdm import tqdm
from transformers import BartForConditionalGeneration, RagRetriever, RagSequenceForGeneration, RagTokenForGeneration
from transformers import logging as transformers_logging
sys.path.append(os.path.join(os.getcwd())) # noqa: E402 # isort:skip
from utils_rag import exact_match_score, fa_score # noqa: E402 # isort:skip
UpperCAmelCase_ = logging.getLogger(__name__)
logging.basicConfig(level=logging.INFO)
transformers_logging.set_verbosity_info()
def lowerCamelCase__ ( A__ : Optional[int] ):
'''simple docstring'''
if "token" in model_name_or_path:
return "rag_token"
if "sequence" in model_name_or_path:
return "rag_sequence"
if "bart" in model_name_or_path:
return "bart"
return None
def lowerCamelCase__ ( A__ : List[str] , A__ : Any , A__ : Optional[int] ):
'''simple docstring'''
return max(metric_fn(A__ , A__ ) for gt in ground_truths )
def lowerCamelCase__ ( A__ : Dict , A__ : Optional[int] , A__ : List[str] ):
'''simple docstring'''
__lowerCamelCase = [line.strip() for line in open(A__ , """r""" ).readlines()]
__lowerCamelCase = []
if args.gold_data_mode == "qa":
__lowerCamelCase = pd.read_csv(A__ , sep="""\t""" , header=A__ )
for answer_list in data[1]:
__lowerCamelCase = ast.literal_eval(A__ )
answers.append(A__ )
else:
__lowerCamelCase = [line.strip() for line in open(A__ , """r""" ).readlines()]
__lowerCamelCase = [[reference] for reference in references]
__lowerCamelCase = __lowerCamelCase = __lowerCamelCase = 0
for prediction, ground_truths in zip(A__ , A__ ):
total += 1
em += metric_max_over_ground_truths(A__ , A__ , A__ )
fa += metric_max_over_ground_truths(A__ , A__ , A__ )
__lowerCamelCase = 100.0 * em / total
__lowerCamelCase = 100.0 * fa / total
logger.info(f'F1: {fa:.2f}' )
logger.info(f'EM: {em:.2f}' )
def lowerCamelCase__ ( A__ : List[str] , A__ : Union[str, Any] , A__ : Optional[int] ):
'''simple docstring'''
__lowerCamelCase = args.k
__lowerCamelCase = [line.strip() for line in open(A__ , """r""" ).readlines()]
__lowerCamelCase = [line.strip() for line in open(A__ , """r""" ).readlines()]
__lowerCamelCase = __lowerCamelCase = 0
for hypo, reference in zip(A__ , A__ ):
__lowerCamelCase = set(hypo.split("""\t""" )[:k] )
__lowerCamelCase = set(reference.split("""\t""" ) )
total += 1
em += len(hypo_provenance & ref_provenance ) / k
__lowerCamelCase = 100.0 * em / total
logger.info(f'Precision@{k}: {em: .2f}' )
def lowerCamelCase__ ( A__ : int , A__ : Union[str, Any] , A__ : str ):
'''simple docstring'''
def strip_title(A__ : int ):
if title.startswith("""\"""" ):
__lowerCamelCase = title[1:]
if title.endswith("""\"""" ):
__lowerCamelCase = title[:-1]
return title
__lowerCamelCase = rag_model.retriever.question_encoder_tokenizer.batch_encode_plus(
A__ , return_tensors="""pt""" , padding=A__ , truncation=A__ , )["""input_ids"""].to(args.device )
__lowerCamelCase = rag_model.rag.question_encoder(A__ )
__lowerCamelCase = question_enc_outputs[0]
__lowerCamelCase = rag_model.retriever(
A__ , question_enc_pool_output.cpu().detach().to(torch.floataa ).numpy() , prefix=rag_model.rag.generator.config.prefix , n_docs=rag_model.config.n_docs , return_tensors="""pt""" , )
__lowerCamelCase = rag_model.retriever.index.get_doc_dicts(result.doc_ids )
__lowerCamelCase = []
for docs in all_docs:
__lowerCamelCase = [strip_title(A__ ) for title in docs["""title"""]]
provenance_strings.append("""\t""".join(A__ ) )
return provenance_strings
def lowerCamelCase__ ( A__ : Optional[int] , A__ : Dict , A__ : List[Any] ):
'''simple docstring'''
with torch.no_grad():
__lowerCamelCase = rag_model.retriever.question_encoder_tokenizer.batch_encode_plus(
A__ , return_tensors="""pt""" , padding=A__ , truncation=A__ )
__lowerCamelCase = inputs_dict.input_ids.to(args.device )
__lowerCamelCase = inputs_dict.attention_mask.to(args.device )
__lowerCamelCase = rag_model.generate( # rag_model overwrites generate
A__ , attention_mask=A__ , num_beams=args.num_beams , min_length=args.min_length , max_length=args.max_length , early_stopping=A__ , num_return_sequences=1 , bad_words_ids=[[0, 0]] , )
__lowerCamelCase = rag_model.retriever.generator_tokenizer.batch_decode(A__ , skip_special_tokens=A__ )
if args.print_predictions:
for q, a in zip(A__ , A__ ):
logger.info("""Q: {} - A: {}""".format(A__ , A__ ) )
return answers
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = argparse.ArgumentParser()
parser.add_argument(
"""--model_type""" , choices=["""rag_sequence""", """rag_token""", """bart"""] , type=A__ , help=(
"""RAG model type: rag_sequence, rag_token or bart, if none specified, the type is inferred from the"""
""" model_name_or_path"""
) , )
parser.add_argument(
"""--index_name""" , default=A__ , choices=["""exact""", """compressed""", """legacy"""] , type=A__ , help="""RAG model retriever type""" , )
parser.add_argument(
"""--index_path""" , default=A__ , type=A__ , help="""Path to the retrieval index""" , )
parser.add_argument("""--n_docs""" , default=5 , type=A__ , help="""Number of retrieved docs""" )
parser.add_argument(
"""--model_name_or_path""" , default=A__ , type=A__ , required=A__ , help="""Path to pretrained checkpoints or model identifier from huggingface.co/models""" , )
parser.add_argument(
"""--eval_mode""" , choices=["""e2e""", """retrieval"""] , default="""e2e""" , type=A__ , help=(
"""Evaluation mode, e2e calculates exact match and F1 of the downstream task, retrieval calculates"""
""" precision@k."""
) , )
parser.add_argument("""--k""" , default=1 , type=A__ , help="""k for the precision@k calculation""" )
parser.add_argument(
"""--evaluation_set""" , default=A__ , type=A__ , required=A__ , help="""Path to a file containing evaluation samples""" , )
parser.add_argument(
"""--gold_data_path""" , default=A__ , type=A__ , required=A__ , help="""Path to a tab-separated file with gold samples""" , )
parser.add_argument(
"""--gold_data_mode""" , default="""qa""" , type=A__ , choices=["""qa""", """ans"""] , help=(
"""Format of the gold data file"""
"""qa - a single line in the following format: question [tab] answer_list"""
"""ans - a single line of the gold file contains the expected answer string"""
) , )
parser.add_argument(
"""--predictions_path""" , type=A__ , default="""predictions.txt""" , help="""Name of the predictions file, to be stored in the checkpoints directory""" , )
parser.add_argument(
"""--eval_all_checkpoints""" , action="""store_true""" , help="""Evaluate all checkpoints starting with the same prefix as model_name ending and ending with step number""" , )
parser.add_argument(
"""--eval_batch_size""" , default=8 , type=A__ , help="""Batch size per GPU/CPU for evaluation.""" , )
parser.add_argument(
"""--recalculate""" , help="""Recalculate predictions even if the prediction file exists""" , action="""store_true""" , )
parser.add_argument(
"""--num_beams""" , default=4 , type=A__ , help="""Number of beams to be used when generating answers""" , )
parser.add_argument("""--min_length""" , default=1 , type=A__ , help="""Min length of the generated answers""" )
parser.add_argument("""--max_length""" , default=50 , type=A__ , help="""Max length of the generated answers""" )
parser.add_argument(
"""--print_predictions""" , action="""store_true""" , help="""If True, prints predictions while evaluating.""" , )
parser.add_argument(
"""--print_docs""" , action="""store_true""" , help="""If True, prints docs retried while generating.""" , )
__lowerCamelCase = parser.parse_args()
__lowerCamelCase = torch.device("""cuda""" if torch.cuda.is_available() else """cpu""" )
return args
def lowerCamelCase__ ( A__ : List[Any] ):
'''simple docstring'''
__lowerCamelCase = {}
if args.model_type is None:
__lowerCamelCase = infer_model_type(args.model_name_or_path )
assert args.model_type is not None
if args.model_type.startswith("""rag""" ):
__lowerCamelCase = RagTokenForGeneration if args.model_type == """rag_token""" else RagSequenceForGeneration
__lowerCamelCase = args.n_docs
if args.index_name is not None:
__lowerCamelCase = args.index_name
if args.index_path is not None:
__lowerCamelCase = args.index_path
else:
__lowerCamelCase = BartForConditionalGeneration
__lowerCamelCase = (
[f.path for f in os.scandir(args.model_name_or_path ) if f.is_dir()]
if args.eval_all_checkpoints
else [args.model_name_or_path]
)
logger.info("""Evaluate the following checkpoints: %s""" , A__ )
__lowerCamelCase = get_scores if args.eval_mode == """e2e""" else get_precision_at_k
__lowerCamelCase = evaluate_batch_eae if args.eval_mode == """e2e""" else evaluate_batch_retrieval
for checkpoint in checkpoints:
if os.path.exists(args.predictions_path ) and (not args.recalculate):
logger.info("""Calculating metrics based on an existing predictions file: {}""".format(args.predictions_path ) )
score_fn(A__ , args.predictions_path , args.gold_data_path )
continue
logger.info("""***** Running evaluation for {} *****""".format(A__ ) )
logger.info(""" Batch size = %d""" , args.eval_batch_size )
logger.info(""" Predictions will be stored under {}""".format(args.predictions_path ) )
if args.model_type.startswith("""rag""" ):
__lowerCamelCase = RagRetriever.from_pretrained(A__ , **A__ )
__lowerCamelCase = model_class.from_pretrained(A__ , retriever=A__ , **A__ )
model.retriever.init_retrieval()
else:
__lowerCamelCase = model_class.from_pretrained(A__ , **A__ )
model.to(args.device )
with open(args.evaluation_set , """r""" ) as eval_file, open(args.predictions_path , """w""" ) as preds_file:
__lowerCamelCase = []
for line in tqdm(A__ ):
questions.append(line.strip() )
if len(A__ ) == args.eval_batch_size:
__lowerCamelCase = evaluate_batch_fn(A__ , A__ , A__ )
preds_file.write("""\n""".join(A__ ) + """\n""" )
preds_file.flush()
__lowerCamelCase = []
if len(A__ ) > 0:
__lowerCamelCase = evaluate_batch_fn(A__ , A__ , A__ )
preds_file.write("""\n""".join(A__ ) )
preds_file.flush()
score_fn(A__ , args.predictions_path , args.gold_data_path )
if __name__ == "__main__":
UpperCAmelCase_ = get_args()
main(args)
| 12 |
from __future__ import annotations
from PIL import Image
# Define glider example
UpperCAmelCase_ = [
[0, 1, 0, 0, 0, 0, 0, 0],
[0, 0, 1, 0, 0, 0, 0, 0],
[1, 1, 1, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
]
# Define blinker example
UpperCAmelCase_ = [[0, 1, 0], [0, 1, 0], [0, 1, 0]]
def lowerCamelCase__ ( A__ : list[list[int]] ):
'''simple docstring'''
__lowerCamelCase = []
for i in range(len(A__ ) ):
__lowerCamelCase = []
for j in range(len(cells[i] ) ):
# Get the number of live neighbours
__lowerCamelCase = 0
if i > 0 and j > 0:
neighbour_count += cells[i - 1][j - 1]
if i > 0:
neighbour_count += cells[i - 1][j]
if i > 0 and j < len(cells[i] ) - 1:
neighbour_count += cells[i - 1][j + 1]
if j > 0:
neighbour_count += cells[i][j - 1]
if j < len(cells[i] ) - 1:
neighbour_count += cells[i][j + 1]
if i < len(A__ ) - 1 and j > 0:
neighbour_count += cells[i + 1][j - 1]
if i < len(A__ ) - 1:
neighbour_count += cells[i + 1][j]
if i < len(A__ ) - 1 and j < len(cells[i] ) - 1:
neighbour_count += cells[i + 1][j + 1]
# Rules of the game of life (excerpt from Wikipedia):
# 1. Any live cell with two or three live neighbours survives.
# 2. Any dead cell with three live neighbours becomes a live cell.
# 3. All other live cells die in the next generation.
# Similarly, all other dead cells stay dead.
__lowerCamelCase = cells[i][j] == 1
if (
(alive and 2 <= neighbour_count <= 3)
or not alive
and neighbour_count == 3
):
next_generation_row.append(1 )
else:
next_generation_row.append(0 )
next_generation.append(A__ )
return next_generation
def lowerCamelCase__ ( A__ : list[list[int]] , A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
for _ in range(A__ ):
# Create output image
__lowerCamelCase = Image.new("""RGB""" , (len(cells[0] ), len(A__ )) )
__lowerCamelCase = img.load()
# Save cells to image
for x in range(len(A__ ) ):
for y in range(len(cells[0] ) ):
__lowerCamelCase = 255 - cells[y][x] * 255
__lowerCamelCase = (colour, colour, colour)
# Save image
images.append(A__ )
__lowerCamelCase = new_generation(A__ )
return images
if __name__ == "__main__":
UpperCAmelCase_ = generate_images(GLIDER, 16)
images[0].save('out.gif', save_all=True, append_images=images[1:])
| 12 | 1 |
# A Bipartite Graph is a graph whose vertices can be divided into two independent sets,
# U and V such that every edge (u, v) either connects a vertex from U to V or a vertex
# from V to U. In other words, for every edge (u, v), either u belongs to U and v to V,
# or u belongs to V and v to U. We can also say that there is no edge that connects
# vertices of same set.
def lowerCamelCase__ ( A__ : Optional[Any] ):
'''simple docstring'''
__lowerCamelCase = [False] * len(A__ )
__lowerCamelCase = [-1] * len(A__ )
def dfs(A__ : str , A__ : Tuple ):
__lowerCamelCase = True
__lowerCamelCase = c
for u in graph[v]:
if not visited[u]:
dfs(A__ , 1 - c )
for i in range(len(A__ ) ):
if not visited[i]:
dfs(A__ , 0 )
for i in range(len(A__ ) ):
for j in graph[i]:
if color[i] == color[j]:
return False
return True
# Adjacency list of graph
UpperCAmelCase_ = {0: [1, 3], 1: [0, 2], 2: [1, 3], 3: [0, 2], 4: []}
print(check_bipartite_dfs(graph))
| 12 |
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import AutoencoderKL, PNDMScheduler, StableDiffusionInpaintPipeline, UNetaDConditionModel
from diffusers.utils import floats_tensor, load_image, load_numpy, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu, slow
from ..pipeline_params import TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS, TEXT_GUIDED_IMAGE_INPAINTING_PARAMS
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class lowerCamelCase__( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Union[str, Any] = StableDiffusionInpaintPipeline
UpperCAmelCase__ : Dict = TEXT_GUIDED_IMAGE_INPAINTING_PARAMS
UpperCAmelCase__ : str = TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS
UpperCAmelCase__ : int = frozenset(
[]) # TO-DO: update image_params once pipeline is refactored with VaeImageProcessor.preprocess
UpperCAmelCase__ : Union[str, Any] = frozenset([])
def lowerCAmelCase__ ( self: str ):
torch.manual_seed(0 )
__lowerCamelCase = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=9 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , attention_head_dim=(2, 4) , use_linear_projection=UpperCamelCase_ , )
__lowerCamelCase = PNDMScheduler(skip_prk_steps=UpperCamelCase_ )
torch.manual_seed(0 )
__lowerCamelCase = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , sample_size=1_28 , )
torch.manual_seed(0 )
__lowerCamelCase = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , hidden_act="""gelu""" , projection_dim=5_12 , )
__lowerCamelCase = CLIPTextModel(UpperCamelCase_ )
__lowerCamelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" )
__lowerCamelCase = {
"""unet""": unet,
"""scheduler""": scheduler,
"""vae""": vae,
"""text_encoder""": text_encoder,
"""tokenizer""": tokenizer,
"""safety_checker""": None,
"""feature_extractor""": None,
}
return components
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Any , UpperCamelCase_: List[Any]=0 ):
# TODO: use tensor inputs instead of PIL, this is here just to leave the old expected_slices untouched
__lowerCamelCase = floats_tensor((1, 3, 32, 32) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0]
__lowerCamelCase = Image.fromarray(np.uinta(UpperCamelCase_ ) ).convert("""RGB""" ).resize((64, 64) )
__lowerCamelCase = Image.fromarray(np.uinta(image + 4 ) ).convert("""RGB""" ).resize((64, 64) )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""prompt""": """A painting of a squirrel eating a burger""",
"""image""": init_image,
"""mask_image""": mask_image,
"""generator""": generator,
"""num_inference_steps""": 2,
"""guidance_scale""": 6.0,
"""output_type""": """numpy""",
}
return inputs
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = """cpu""" # ensure determinism for the device-dependent torch.Generator
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = StableDiffusionInpaintPipeline(**UpperCamelCase_ )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(**UpperCamelCase_ ).images
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (1, 64, 64, 3)
__lowerCamelCase = np.array([0.4727, 0.5735, 0.3941, 0.5446, 0.5926, 0.4394, 0.5062, 0.4654, 0.4476] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: int ):
super().test_inference_batch_single_identical(expected_max_diff=3E-3 )
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: str ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint"""
"""/yellow_cat_sitting_on_a_park_bench.npy""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(UpperCamelCase_ , safety_checker=UpperCamelCase_ )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (5_12, 5_12, 3)
assert np.abs(expected_image - image ).max() < 9E-3
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint"""
"""/yellow_cat_sitting_on_a_park_bench_fp16.npy""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(
UpperCamelCase_ , torch_dtype=torch.floataa , safety_checker=UpperCamelCase_ , )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (5_12, 5_12, 3)
assert np.abs(expected_image - image ).max() < 5E-1
def lowerCAmelCase__ ( self: int ):
torch.cuda.empty_cache()
torch.cuda.reset_max_memory_allocated()
torch.cuda.reset_peak_memory_stats()
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = PNDMScheduler.from_pretrained(UpperCamelCase_ , subfolder="""scheduler""" )
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(
UpperCamelCase_ , safety_checker=UpperCamelCase_ , scheduler=UpperCamelCase_ , torch_dtype=torch.floataa , )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing(1 )
pipe.enable_sequential_cpu_offload()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , num_inference_steps=2 , output_type="""np""" , )
__lowerCamelCase = torch.cuda.max_memory_allocated()
# make sure that less than 2.65 GB is allocated
assert mem_bytes < 2.65 * 10**9
| 12 | 1 |
UpperCAmelCase_ = [
999,
800,
799,
600,
599,
500,
400,
399,
377,
355,
333,
311,
288,
266,
244,
222,
200,
199,
177,
155,
133,
111,
88,
66,
44,
22,
0,
]
UpperCAmelCase_ = [
999,
976,
952,
928,
905,
882,
858,
857,
810,
762,
715,
714,
572,
429,
428,
286,
285,
238,
190,
143,
142,
118,
95,
71,
47,
24,
0,
]
UpperCAmelCase_ = [
999,
988,
977,
966,
955,
944,
933,
922,
911,
900,
899,
879,
859,
840,
820,
800,
799,
766,
733,
700,
699,
650,
600,
599,
500,
499,
400,
399,
350,
300,
299,
266,
233,
200,
199,
179,
159,
140,
120,
100,
99,
88,
77,
66,
55,
44,
33,
22,
11,
0,
]
UpperCAmelCase_ = [
999,
995,
992,
989,
985,
981,
978,
975,
971,
967,
964,
961,
957,
956,
951,
947,
942,
937,
933,
928,
923,
919,
914,
913,
908,
903,
897,
892,
887,
881,
876,
871,
870,
864,
858,
852,
846,
840,
834,
828,
827,
820,
813,
806,
799,
792,
785,
784,
777,
770,
763,
756,
749,
742,
741,
733,
724,
716,
707,
699,
698,
688,
677,
666,
656,
655,
645,
634,
623,
613,
612,
598,
584,
570,
569,
555,
541,
527,
526,
505,
484,
483,
462,
440,
439,
396,
395,
352,
351,
308,
307,
264,
263,
220,
219,
176,
132,
88,
44,
0,
]
UpperCAmelCase_ = [
999,
997,
995,
992,
990,
988,
986,
984,
981,
979,
977,
975,
972,
970,
968,
966,
964,
961,
959,
957,
956,
954,
951,
949,
946,
944,
941,
939,
936,
934,
931,
929,
926,
924,
921,
919,
916,
914,
913,
910,
907,
905,
902,
899,
896,
893,
891,
888,
885,
882,
879,
877,
874,
871,
870,
867,
864,
861,
858,
855,
852,
849,
846,
843,
840,
837,
834,
831,
828,
827,
824,
821,
817,
814,
811,
808,
804,
801,
798,
795,
791,
788,
785,
784,
780,
777,
774,
770,
766,
763,
760,
756,
752,
749,
746,
742,
741,
737,
733,
730,
726,
722,
718,
714,
710,
707,
703,
699,
698,
694,
690,
685,
681,
677,
673,
669,
664,
660,
656,
655,
650,
646,
641,
636,
632,
627,
622,
618,
613,
612,
607,
602,
596,
591,
586,
580,
575,
570,
569,
563,
557,
551,
545,
539,
533,
527,
526,
519,
512,
505,
498,
491,
484,
483,
474,
466,
457,
449,
440,
439,
428,
418,
407,
396,
395,
381,
366,
352,
351,
330,
308,
307,
286,
264,
263,
242,
220,
219,
176,
175,
132,
131,
88,
44,
0,
]
UpperCAmelCase_ = [
999,
991,
982,
974,
966,
958,
950,
941,
933,
925,
916,
908,
900,
899,
874,
850,
825,
800,
799,
700,
600,
500,
400,
300,
200,
100,
0,
]
UpperCAmelCase_ = [
999,
992,
985,
978,
971,
964,
957,
949,
942,
935,
928,
921,
914,
907,
900,
899,
879,
859,
840,
820,
800,
799,
766,
733,
700,
699,
650,
600,
599,
500,
499,
400,
399,
300,
299,
200,
199,
100,
99,
0,
]
UpperCAmelCase_ = [
999,
996,
992,
989,
985,
982,
979,
975,
972,
968,
965,
961,
958,
955,
951,
948,
944,
941,
938,
934,
931,
927,
924,
920,
917,
914,
910,
907,
903,
900,
899,
891,
884,
876,
869,
861,
853,
846,
838,
830,
823,
815,
808,
800,
799,
788,
777,
766,
755,
744,
733,
722,
711,
700,
699,
688,
677,
666,
655,
644,
633,
622,
611,
600,
599,
585,
571,
557,
542,
528,
514,
500,
499,
485,
471,
457,
442,
428,
414,
400,
399,
379,
359,
340,
320,
300,
299,
279,
259,
240,
220,
200,
199,
166,
133,
100,
99,
66,
33,
0,
]
| 12 |
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
UpperCAmelCase_ = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['MLukeTokenizer']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mluke import MLukeTokenizer
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 | 1 |
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Tuple = ['image_processor', 'tokenizer']
UpperCAmelCase__ : Dict = 'Pix2StructImageProcessor'
UpperCAmelCase__ : Any = ('T5Tokenizer', 'T5TokenizerFast')
def __init__( self: Dict , UpperCamelCase_: Any , UpperCamelCase_: str ):
__lowerCamelCase = False
super().__init__(UpperCamelCase_ , UpperCamelCase_ )
def __call__( self: List[Any] , UpperCamelCase_: Tuple=None , UpperCamelCase_: Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]] = None , UpperCamelCase_: bool = True , UpperCamelCase_: Union[bool, str, PaddingStrategy] = False , UpperCamelCase_: Union[bool, str, TruncationStrategy] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[int] = 20_48 , UpperCamelCase_: int = 0 , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: bool = False , UpperCamelCase_: bool = False , UpperCamelCase_: bool = False , UpperCamelCase_: bool = False , UpperCamelCase_: bool = False , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[Union[str, TensorType]] = None , **UpperCamelCase_: Tuple , ):
if images is None and text is None:
raise ValueError("""You have to specify either images or text.""" )
# Get only text
if images is None and not self.image_processor.is_vqa:
__lowerCamelCase = self.tokenizer
__lowerCamelCase = self.tokenizer(
text=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , padding=UpperCamelCase_ , truncation=UpperCamelCase_ , max_length=UpperCamelCase_ , stride=UpperCamelCase_ , pad_to_multiple_of=UpperCamelCase_ , return_attention_mask=UpperCamelCase_ , return_overflowing_tokens=UpperCamelCase_ , return_special_tokens_mask=UpperCamelCase_ , return_offsets_mapping=UpperCamelCase_ , return_token_type_ids=UpperCamelCase_ , return_length=UpperCamelCase_ , verbose=UpperCamelCase_ , return_tensors=UpperCamelCase_ , **UpperCamelCase_ , )
return text_encoding
if not self.image_processor.is_vqa:
# add pixel_values
__lowerCamelCase = self.image_processor(
UpperCamelCase_ , return_tensors=UpperCamelCase_ , max_patches=UpperCamelCase_ , **UpperCamelCase_ )
else:
# add pixel_values and bbox
__lowerCamelCase = self.image_processor(
UpperCamelCase_ , return_tensors=UpperCamelCase_ , max_patches=UpperCamelCase_ , header_text=UpperCamelCase_ , **UpperCamelCase_ )
if text is not None and not self.image_processor.is_vqa:
__lowerCamelCase = self.tokenizer(
text=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , padding=UpperCamelCase_ , truncation=UpperCamelCase_ , max_length=UpperCamelCase_ , stride=UpperCamelCase_ , pad_to_multiple_of=UpperCamelCase_ , return_attention_mask=UpperCamelCase_ , return_overflowing_tokens=UpperCamelCase_ , return_special_tokens_mask=UpperCamelCase_ , return_offsets_mapping=UpperCamelCase_ , return_token_type_ids=UpperCamelCase_ , return_length=UpperCamelCase_ , verbose=UpperCamelCase_ , return_tensors=UpperCamelCase_ , **UpperCamelCase_ , )
if "attention_mask" in text_encoding:
__lowerCamelCase = text_encoding.pop("""attention_mask""" )
if "input_ids" in text_encoding:
__lowerCamelCase = text_encoding.pop("""input_ids""" )
else:
__lowerCamelCase = None
if text_encoding is not None:
encoding_image_processor.update(UpperCamelCase_ )
return encoding_image_processor
def lowerCAmelCase__ ( self: Optional[Any] , *UpperCamelCase_: List[str] , **UpperCamelCase_: List[Any] ):
return self.tokenizer.batch_decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] , *UpperCamelCase_: str , **UpperCamelCase_: int ):
return self.tokenizer.decode(*UpperCamelCase_ , **UpperCamelCase_ )
@property
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = self.tokenizer.model_input_names
__lowerCamelCase = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )
| 12 |
import os
import shutil
from pathlib import Path
from typing import Optional, Union
import numpy as np
from huggingface_hub import hf_hub_download
from ..utils import ONNX_EXTERNAL_WEIGHTS_NAME, ONNX_WEIGHTS_NAME, is_onnx_available, logging
if is_onnx_available():
import onnxruntime as ort
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'tensor(bool)': np.bool_,
'tensor(int8)': np.inta,
'tensor(uint8)': np.uinta,
'tensor(int16)': np.intaa,
'tensor(uint16)': np.uintaa,
'tensor(int32)': np.intaa,
'tensor(uint32)': np.uintaa,
'tensor(int64)': np.intaa,
'tensor(uint64)': np.uintaa,
'tensor(float16)': np.floataa,
'tensor(float)': np.floataa,
'tensor(double)': np.floataa,
}
class lowerCamelCase__:
def __init__( self: str , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: str ):
logger.info("""`diffusers.OnnxRuntimeModel` is experimental and might change in the future.""" )
__lowerCamelCase = model
__lowerCamelCase = kwargs.get("""model_save_dir""" , UpperCamelCase_ )
__lowerCamelCase = kwargs.get("""latest_model_name""" , UpperCamelCase_ )
def __call__( self: Dict , **UpperCamelCase_: Any ):
__lowerCamelCase = {k: np.array(UpperCamelCase_ ) for k, v in kwargs.items()}
return self.model.run(UpperCamelCase_ , UpperCamelCase_ )
@staticmethod
def lowerCAmelCase__ ( UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Tuple=None , UpperCamelCase_: Tuple=None ):
if provider is None:
logger.info("""No onnxruntime provider specified, using CPUExecutionProvider""" )
__lowerCamelCase = """CPUExecutionProvider"""
return ort.InferenceSession(UpperCamelCase_ , providers=[provider] , sess_options=UpperCamelCase_ )
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: Optional[int] ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
__lowerCamelCase = self.model_save_dir.joinpath(self.latest_model_name )
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
# copy external weights (for models >2GB)
__lowerCamelCase = self.model_save_dir.joinpath(UpperCamelCase_ )
if src_path.exists():
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Union[str, os.PathLike] , **UpperCamelCase_: Optional[Any] , ):
if os.path.isfile(UpperCamelCase_ ):
logger.error(F'Provided path ({save_directory}) should be a directory, not a file' )
return
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
# saving model weights/files
self._save_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: str , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[Union[bool, str, None]] = None , UpperCamelCase_: Optional[Union[str, None]] = None , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional["ort.SessionOptions"] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
# load model from local directory
if os.path.isdir(UpperCamelCase_ ):
__lowerCamelCase = OnnxRuntimeModel.load_model(
os.path.join(UpperCamelCase_ , UpperCamelCase_ ) , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
__lowerCamelCase = Path(UpperCamelCase_ )
# load model from hub
else:
# download model
__lowerCamelCase = hf_hub_download(
repo_id=UpperCamelCase_ , filename=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , )
__lowerCamelCase = Path(UpperCamelCase_ ).parent
__lowerCamelCase = Path(UpperCamelCase_ ).name
__lowerCamelCase = OnnxRuntimeModel.load_model(UpperCamelCase_ , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
return cls(model=UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: Optional[int] , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = None
if len(str(UpperCamelCase_ ).split("""@""" ) ) == 2:
__lowerCamelCase, __lowerCamelCase = model_id.split("""@""" )
return cls._from_pretrained(
model_id=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , **UpperCamelCase_ , )
| 12 | 1 |
UpperCAmelCase_ = [
'Audio',
'Array2D',
'Array3D',
'Array4D',
'Array5D',
'ClassLabel',
'Features',
'Sequence',
'Value',
'Image',
'Translation',
'TranslationVariableLanguages',
]
from .audio import Audio
from .features import ArrayaD, ArrayaD, ArrayaD, ArrayaD, ClassLabel, Features, Sequence, Value
from .image import Image
from .translation import Translation, TranslationVariableLanguages
| 12 |
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_torch_available,
)
UpperCAmelCase_ = {
'configuration_vision_encoder_decoder': ['VisionEncoderDecoderConfig', 'VisionEncoderDecoderOnnxConfig']
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['VisionEncoderDecoderModel']
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['TFVisionEncoderDecoderModel']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['FlaxVisionEncoderDecoderModel']
if TYPE_CHECKING:
from .configuration_vision_encoder_decoder import VisionEncoderDecoderConfig, VisionEncoderDecoderOnnxConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_vision_encoder_decoder import VisionEncoderDecoderModel
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_vision_encoder_decoder import TFVisionEncoderDecoderModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_vision_encoder_decoder import FlaxVisionEncoderDecoderModel
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 | 1 |
import itertools
import random
import unittest
import numpy as np
from transformers import is_speech_available
from transformers.testing_utils import require_torch, require_torchaudio
from ...test_sequence_feature_extraction_common import SequenceFeatureExtractionTestMixin
if is_speech_available():
from transformers import SpeechaTextFeatureExtractor
UpperCAmelCase_ = random.Random()
def lowerCamelCase__ ( A__ : Any , A__ : Union[str, Any]=1.0 , A__ : int=None , A__ : Union[str, Any]=None ):
'''simple docstring'''
if rng is None:
__lowerCamelCase = global_rng
__lowerCamelCase = []
for batch_idx in range(shape[0] ):
values.append([] )
for _ in range(shape[1] ):
values[-1].append(rng.random() * scale )
return values
@require_torch
@require_torchaudio
class lowerCamelCase__( unittest.TestCase):
def __init__( self: Tuple , UpperCamelCase_: int , UpperCamelCase_: Union[str, Any]=7 , UpperCamelCase_: List[str]=4_00 , UpperCamelCase_: Union[str, Any]=20_00 , UpperCamelCase_: Union[str, Any]=24 , UpperCamelCase_: List[Any]=24 , UpperCamelCase_: Union[str, Any]=0.0 , UpperCamelCase_: List[str]=1_60_00 , UpperCamelCase_: Union[str, Any]=True , UpperCamelCase_: Union[str, Any]=True , ):
__lowerCamelCase = parent
__lowerCamelCase = batch_size
__lowerCamelCase = min_seq_length
__lowerCamelCase = max_seq_length
__lowerCamelCase = (self.max_seq_length - self.min_seq_length) // (self.batch_size - 1)
__lowerCamelCase = feature_size
__lowerCamelCase = num_mel_bins
__lowerCamelCase = padding_value
__lowerCamelCase = sampling_rate
__lowerCamelCase = return_attention_mask
__lowerCamelCase = do_normalize
def lowerCAmelCase__ ( self: Optional[int] ):
return {
"feature_size": self.feature_size,
"num_mel_bins": self.num_mel_bins,
"padding_value": self.padding_value,
"sampling_rate": self.sampling_rate,
"return_attention_mask": self.return_attention_mask,
"do_normalize": self.do_normalize,
}
def lowerCAmelCase__ ( self: str , UpperCamelCase_: List[Any]=False , UpperCamelCase_: Tuple=False ):
def _flatten(UpperCamelCase_: int ):
return list(itertools.chain(*UpperCamelCase_ ) )
if equal_length:
__lowerCamelCase = [floats_list((self.max_seq_length, self.feature_size) ) for _ in range(self.batch_size )]
else:
# make sure that inputs increase in size
__lowerCamelCase = [
floats_list((x, self.feature_size) )
for x in range(self.min_seq_length , self.max_seq_length , self.seq_length_diff )
]
if numpify:
__lowerCamelCase = [np.asarray(UpperCamelCase_ ) for x in speech_inputs]
return speech_inputs
@require_torch
@require_torchaudio
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : str = SpeechaTextFeatureExtractor if is_speech_available() else None
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = SpeechaTextFeatureExtractionTester(self )
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Any ):
self.assertTrue(np.all(np.mean(UpperCamelCase_ , axis=0 ) < 1E-3 ) )
self.assertTrue(np.all(np.abs(np.var(UpperCamelCase_ , axis=0 ) - 1 ) < 1E-3 ) )
def lowerCAmelCase__ ( self: Union[str, Any] ):
# Tests that all call wrap to encode_plus and batch_encode_plus
__lowerCamelCase = self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
# create three inputs of length 800, 1000, and 1200
__lowerCamelCase = [floats_list((1, x) )[0] for x in range(8_00 , 14_00 , 2_00 )]
__lowerCamelCase = [np.asarray(UpperCamelCase_ ) for speech_input in speech_inputs]
# Test feature size
__lowerCamelCase = feature_extractor(UpperCamelCase_ , padding=UpperCamelCase_ , return_tensors="""np""" ).input_features
self.assertTrue(input_features.ndim == 3 )
self.assertTrue(input_features.shape[-1] == feature_extractor.feature_size )
# Test not batched input
__lowerCamelCase = feature_extractor(speech_inputs[0] , return_tensors="""np""" ).input_features
__lowerCamelCase = feature_extractor(np_speech_inputs[0] , return_tensors="""np""" ).input_features
self.assertTrue(np.allclose(UpperCamelCase_ , UpperCamelCase_ , atol=1E-3 ) )
# Test batched
__lowerCamelCase = feature_extractor(UpperCamelCase_ , return_tensors="""np""" ).input_features
__lowerCamelCase = feature_extractor(UpperCamelCase_ , return_tensors="""np""" ).input_features
for enc_seq_a, enc_seq_a in zip(UpperCamelCase_ , UpperCamelCase_ ):
self.assertTrue(np.allclose(UpperCamelCase_ , UpperCamelCase_ , atol=1E-3 ) )
# Test 2-D numpy arrays are batched.
__lowerCamelCase = [floats_list((1, x) )[0] for x in (8_00, 8_00, 8_00)]
__lowerCamelCase = np.asarray(UpperCamelCase_ )
__lowerCamelCase = feature_extractor(UpperCamelCase_ , return_tensors="""np""" ).input_features
__lowerCamelCase = feature_extractor(UpperCamelCase_ , return_tensors="""np""" ).input_features
for enc_seq_a, enc_seq_a in zip(UpperCamelCase_ , UpperCamelCase_ ):
self.assertTrue(np.allclose(UpperCamelCase_ , UpperCamelCase_ , atol=1E-3 ) )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
__lowerCamelCase = [floats_list((1, x) )[0] for x in range(8_00 , 14_00 , 2_00 )]
__lowerCamelCase = ["""longest""", """max_length""", """do_not_pad"""]
__lowerCamelCase = [None, 16, None]
for max_length, padding in zip(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = feature_extractor(
UpperCamelCase_ , padding=UpperCamelCase_ , max_length=UpperCamelCase_ , return_attention_mask=UpperCamelCase_ )
__lowerCamelCase = inputs.input_features
__lowerCamelCase = inputs.attention_mask
__lowerCamelCase = [np.sum(UpperCamelCase_ ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
__lowerCamelCase = [floats_list((1, x) )[0] for x in range(8_00 , 14_00 , 2_00 )]
__lowerCamelCase = ["""longest""", """max_length""", """do_not_pad"""]
__lowerCamelCase = [None, 16, None]
for max_length, padding in zip(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = feature_extractor(
UpperCamelCase_ , max_length=UpperCamelCase_ , padding=UpperCamelCase_ , return_tensors="""np""" , return_attention_mask=UpperCamelCase_ )
__lowerCamelCase = inputs.input_features
__lowerCamelCase = inputs.attention_mask
__lowerCamelCase = [np.sum(UpperCamelCase_ ) for x in attention_mask]
self._check_zero_mean_unit_variance(input_features[0][: fbank_feat_lengths[0]] )
self.assertTrue(input_features[0][fbank_feat_lengths[0] :].sum() < 1E-6 )
self._check_zero_mean_unit_variance(input_features[1][: fbank_feat_lengths[1]] )
self.assertTrue(input_features[0][fbank_feat_lengths[1] :].sum() < 1E-6 )
self._check_zero_mean_unit_variance(input_features[2][: fbank_feat_lengths[2]] )
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
__lowerCamelCase = [floats_list((1, x) )[0] for x in range(8_00 , 14_00 , 2_00 )]
__lowerCamelCase = feature_extractor(
UpperCamelCase_ , padding="""max_length""" , max_length=4 , truncation=UpperCamelCase_ , return_tensors="""np""" , return_attention_mask=UpperCamelCase_ , )
__lowerCamelCase = inputs.input_features
__lowerCamelCase = inputs.attention_mask
__lowerCamelCase = np.sum(attention_mask == 1 , axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1] )
self._check_zero_mean_unit_variance(input_features[2] )
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
__lowerCamelCase = [floats_list((1, x) )[0] for x in range(8_00 , 14_00 , 2_00 )]
__lowerCamelCase = feature_extractor(
UpperCamelCase_ , padding="""longest""" , max_length=4 , truncation=UpperCamelCase_ , return_tensors="""np""" , return_attention_mask=UpperCamelCase_ , )
__lowerCamelCase = inputs.input_features
__lowerCamelCase = inputs.attention_mask
__lowerCamelCase = np.sum(attention_mask == 1 , axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape , (3, 4, 24) )
__lowerCamelCase = [floats_list((1, x) )[0] for x in range(8_00 , 14_00 , 2_00 )]
__lowerCamelCase = feature_extractor(
UpperCamelCase_ , padding="""longest""" , max_length=16 , truncation=UpperCamelCase_ , return_tensors="""np""" , return_attention_mask=UpperCamelCase_ , )
__lowerCamelCase = inputs.input_features
__lowerCamelCase = inputs.attention_mask
__lowerCamelCase = np.sum(attention_mask == 1 , axis=1 )
self._check_zero_mean_unit_variance(input_features[0, : fbank_feat_lengths[0]] )
self._check_zero_mean_unit_variance(input_features[1, : fbank_feat_lengths[1]] )
self._check_zero_mean_unit_variance(input_features[2] )
# make sure that if max_length < longest -> then pad to max_length
self.assertEqual(input_features.shape , (3, 6, 24) )
def lowerCAmelCase__ ( self: List[Any] ):
import torch
__lowerCamelCase = self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
__lowerCamelCase = np.random.rand(1_00 , 32 ).astype(np.floataa )
__lowerCamelCase = np_speech_inputs.tolist()
for inputs in [py_speech_inputs, np_speech_inputs]:
__lowerCamelCase = feature_extractor.pad([{"""input_features""": inputs}] , return_tensors="""np""" )
self.assertTrue(np_processed.input_features.dtype == np.floataa )
__lowerCamelCase = feature_extractor.pad([{"""input_features""": inputs}] , return_tensors="""pt""" )
self.assertTrue(pt_processed.input_features.dtype == torch.floataa )
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: Tuple ):
from datasets import load_dataset
__lowerCamelCase = load_dataset("""hf-internal-testing/librispeech_asr_dummy""" , """clean""" , split="""validation""" )
# automatic decoding with librispeech
__lowerCamelCase = ds.sort("""id""" ).select(range(UpperCamelCase_ ) )[:num_samples]["""audio"""]
return [x["array"] for x in speech_samples]
def lowerCAmelCase__ ( self: Any ):
# fmt: off
__lowerCamelCase = np.array([
-1.5745, -1.7713, -1.7020, -1.6069, -1.2250, -1.1105, -0.9072, -0.8241,
-1.2310, -0.8098, -0.3320, -0.4101, -0.7985, -0.4996, -0.8213, -0.9128,
-1.0420, -1.1286, -1.0440, -0.7999, -0.8405, -1.2275, -1.5443, -1.4625,
] )
# fmt: on
__lowerCamelCase = self._load_datasamples(1 )
__lowerCamelCase = self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() )
__lowerCamelCase = feature_extractor(UpperCamelCase_ , return_tensors="""pt""" ).input_features
self.assertEquals(input_features.shape , (1, 5_84, 24) )
self.assertTrue(np.allclose(input_features[0, 0, :30] , UpperCamelCase_ , atol=1E-4 ) )
| 12 |
import os
import torch
from ..logging import get_logger
from .constants import FSDP_PYTORCH_VERSION, MODEL_NAME, OPTIMIZER_NAME
from .versions import is_torch_version
if is_torch_version('>=', FSDP_PYTORCH_VERSION):
import torch.distributed.checkpoint as dist_cp
from torch.distributed.checkpoint.default_planner import DefaultLoadPlanner, DefaultSavePlanner
from torch.distributed.checkpoint.optimizer import load_sharded_optimizer_state_dict
from torch.distributed.fsdp.fully_sharded_data_parallel import FullyShardedDataParallel as FSDP
from torch.distributed.fsdp.fully_sharded_data_parallel import StateDictType
UpperCAmelCase_ = get_logger(__name__)
def lowerCamelCase__ ( A__ : Union[str, Any] , A__ : str , A__ : Any , A__ : Dict , A__ : Any=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = model.state_dict()
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
if accelerator.process_index == 0:
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving model to {ckpt_dir}' )
__lowerCamelCase = {"""model""": state_dict}
dist_cp.save_state_dict(
state_dict=A__ , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Model saved to {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : Dict , A__ : int , A__ : List[str] , A__ : Any=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if type(A__ ) != FSDP and accelerator.process_index != 0:
if not fsdp_plugin.sync_module_states:
raise ValueError(
"""Set the `sync_module_states` flag to `True` so that model states are synced across processes when """
"""initializing FSDP object""" )
return
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = (
os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
if f'{MODEL_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading model from {ckpt_dir}' )
__lowerCamelCase = {"""model""": model.state_dict()}
dist_cp.load_state_dict(
state_dict=A__ , storage_reader=dist_cp.FileSystemReader(A__ ) , planner=DefaultLoadPlanner() , )
__lowerCamelCase = state_dict["""model"""]
logger.info(f'Model loaded from {ckpt_dir}' )
model.load_state_dict(A__ )
def lowerCamelCase__ ( A__ : List[str] , A__ : List[str] , A__ : str , A__ : Dict , A__ : Optional[Any] , A__ : Optional[int]=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = FSDP.optim_state_dict(A__ , A__ )
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if accelerator.process_index == 0:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving Optimizer state to {output_optimizer_file}' )
torch.save(A__ , A__ )
logger.info(f'Optimizer state saved in {output_optimizer_file}' )
else:
__lowerCamelCase = os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving Optimizer state to {ckpt_dir}' )
dist_cp.save_state_dict(
state_dict={"""optimizer""": optim_state} , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Optimizer state saved in {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : List[str] , A__ : int , A__ : Any , A__ : Union[str, Any] , A__ : List[Any]=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = None
# below check should work but currently it isn't working (mostly opytorch issue),
# in the meantime disabling it at the cost of excess memory usage
# if accelerator.process_index == 0 or not fsdp_plugin.optim_state_dict_config.rank0_only:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading Optimizer state from {input_optimizer_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Optimizer state loaded from {input_optimizer_file}' )
else:
__lowerCamelCase = (
os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
if f'{OPTIMIZER_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading Optimizer from {ckpt_dir}' )
__lowerCamelCase = load_sharded_optimizer_state_dict(
model_state_dict=model.state_dict() , optimizer_key="""optimizer""" , storage_reader=dist_cp.FileSystemReader(A__ ) , )
__lowerCamelCase = optim_state["""optimizer"""]
logger.info(f'Optimizer loaded from {ckpt_dir}' )
__lowerCamelCase = FSDP.optim_state_dict_to_load(A__ , A__ , A__ )
optimizer.load_state_dict(A__ )
| 12 | 1 |
import json
import sys
import tempfile
import unittest
from pathlib import Path
import transformers
from transformers import (
CONFIG_MAPPING,
FEATURE_EXTRACTOR_MAPPING,
AutoConfig,
AutoFeatureExtractor,
WavaVecaConfig,
WavaVecaFeatureExtractor,
)
from transformers.testing_utils import DUMMY_UNKNOWN_IDENTIFIER, get_tests_dir
sys.path.append(str(Path(__file__).parent.parent.parent.parent / 'utils'))
from test_module.custom_configuration import CustomConfig # noqa E402
from test_module.custom_feature_extraction import CustomFeatureExtractor # noqa E402
UpperCAmelCase_ = get_tests_dir('fixtures')
UpperCAmelCase_ = get_tests_dir('fixtures/dummy_feature_extractor_config.json')
UpperCAmelCase_ = get_tests_dir('fixtures/dummy-config.json')
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = 0
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""facebook/wav2vec2-base-960h""" )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
with tempfile.TemporaryDirectory() as tmpdirname:
__lowerCamelCase = WavaVecaConfig()
# remove feature_extractor_type to make sure config.json alone is enough to load feature processor locally
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ ).to_dict()
config_dict.pop("""feature_extractor_type""" )
__lowerCamelCase = WavaVecaFeatureExtractor(**UpperCamelCase_ )
# save in new folder
model_config.save_pretrained(UpperCamelCase_ )
config.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
# make sure private variable is not incorrectly saved
__lowerCamelCase = json.loads(config.to_json_string() )
self.assertTrue("""_processor_class""" not in dict_as_saved )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
with self.assertRaisesRegex(
UpperCamelCase_ , """bert-base is not a local folder and is not a valid model identifier""" ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""bert-base""" )
def lowerCAmelCase__ ( self: Tuple ):
with self.assertRaisesRegex(
UpperCamelCase_ , r"""aaaaaa is not a valid git identifier \(branch name, tag name or commit id\)""" ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ , revision="""aaaaaa""" )
def lowerCAmelCase__ ( self: Optional[Any] ):
with self.assertRaisesRegex(
UpperCamelCase_ , """hf-internal-testing/config-no-model does not appear to have a file named preprocessor_config.json.""" , ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""hf-internal-testing/config-no-model""" )
def lowerCAmelCase__ ( self: Tuple ):
# If remote code is not set, we will time out when asking whether to load the model.
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" )
# If remote code is disabled, we can't load this config.
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
# Test feature extractor can be reloaded.
with tempfile.TemporaryDirectory() as tmp_dir:
feature_extractor.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ , trust_remote_code=UpperCamelCase_ )
self.assertEqual(reloaded_feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
def lowerCAmelCase__ ( self: Any ):
try:
AutoConfig.register("""custom""" , UpperCamelCase_ )
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# Trying to register something existing in the Transformers library will raise an error
with self.assertRaises(UpperCamelCase_ ):
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# Now that the config is registered, it can be used as any other config with the auto-API
__lowerCamelCase = CustomFeatureExtractor.from_pretrained(UpperCamelCase_ )
with tempfile.TemporaryDirectory() as tmp_dir:
feature_extractor.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in FEATURE_EXTRACTOR_MAPPING._extra_content:
del FEATURE_EXTRACTOR_MAPPING._extra_content[CustomConfig]
def lowerCAmelCase__ ( self: Dict ):
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : str = True
try:
AutoConfig.register("""custom""" , UpperCamelCase_ )
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# If remote code is not set, the default is to use local
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(feature_extractor.is_local )
# If remote code is disabled, we load the local one.
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(feature_extractor.is_local )
# If remote is enabled, we load from the Hub
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(not hasattr(UpperCamelCase_ , """is_local""" ) )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in FEATURE_EXTRACTOR_MAPPING._extra_content:
del FEATURE_EXTRACTOR_MAPPING._extra_content[CustomConfig]
| 12 |
import gc
import random
import unittest
import numpy as np
import torch
from transformers import CLIPImageProcessor, CLIPVisionConfig, CLIPVisionModel
from diffusers import HeunDiscreteScheduler, PriorTransformer, ShapEImgaImgPipeline
from diffusers.pipelines.shap_e import ShapERenderer
from diffusers.utils import floats_tensor, load_image, 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 lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Tuple = ShapEImgaImgPipeline
UpperCAmelCase__ : Optional[Any] = ['image']
UpperCAmelCase__ : int = ['image']
UpperCAmelCase__ : Any = [
'num_images_per_prompt',
'num_inference_steps',
'generator',
'latents',
'guidance_scale',
'frame_size',
'output_type',
'return_dict',
]
UpperCAmelCase__ : int = False
@property
def lowerCAmelCase__ ( self: int ):
return 32
@property
def lowerCAmelCase__ ( self: List[str] ):
return 32
@property
def lowerCAmelCase__ ( self: Any ):
return self.time_input_dim * 4
@property
def lowerCAmelCase__ ( self: Dict ):
return 8
@property
def lowerCAmelCase__ ( self: int ):
torch.manual_seed(0 )
__lowerCamelCase = CLIPVisionConfig(
hidden_size=self.text_embedder_hidden_size , image_size=64 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=1 , )
__lowerCamelCase = CLIPVisionModel(UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = CLIPImageProcessor(
crop_size=2_24 , do_center_crop=UpperCamelCase_ , do_normalize=UpperCamelCase_ , do_resize=UpperCamelCase_ , image_mean=[0.4814_5466, 0.457_8275, 0.4082_1073] , image_std=[0.2686_2954, 0.2613_0258, 0.2757_7711] , resample=3 , size=2_24 , )
return image_processor
@property
def lowerCAmelCase__ ( self: Tuple ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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""",
"""embedding_proj_norm_type""": """layer""",
"""encoder_hid_proj_type""": None,
"""added_emb_type""": None,
}
__lowerCamelCase = PriorTransformer(**UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: List[Any] ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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,
),
}
__lowerCamelCase = ShapERenderer(**UpperCamelCase_ )
return model
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = self.dummy_prior
__lowerCamelCase = self.dummy_image_encoder
__lowerCamelCase = self.dummy_image_processor
__lowerCamelCase = self.dummy_renderer
__lowerCamelCase = HeunDiscreteScheduler(
beta_schedule="""exp""" , num_train_timesteps=10_24 , prediction_type="""sample""" , use_karras_sigmas=UpperCamelCase_ , clip_sample=UpperCamelCase_ , clip_sample_range=1.0 , )
__lowerCamelCase = {
"""prior""": prior,
"""image_encoder""": image_encoder,
"""image_processor""": image_processor,
"""renderer""": renderer,
"""scheduler""": scheduler,
}
return components
def lowerCAmelCase__ ( self: int , UpperCamelCase_: List[Any] , UpperCamelCase_: Dict=0 ):
__lowerCamelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""image""": input_image,
"""generator""": generator,
"""num_inference_steps""": 1,
"""frame_size""": 32,
"""output_type""": """np""",
}
return inputs
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = """cpu"""
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = pipe(**self.get_dummy_inputs(UpperCamelCase_ ) )
__lowerCamelCase = output.images[0]
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (20, 32, 32, 3)
__lowerCamelCase = np.array(
[
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: List[str] ):
# NOTE: Larger batch sizes cause this test to timeout, only test on smaller batches
self._test_inference_batch_consistent(batch_sizes=[1, 2] )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = torch_device == """cpu"""
__lowerCamelCase = True
self._test_inference_batch_single_identical(
batch_size=2 , test_max_difference=UpperCamelCase_ , relax_max_difference=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = 1
__lowerCamelCase = 2
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
for key in inputs.keys():
if key in self.batch_params:
__lowerCamelCase = batch_size * [inputs[key]]
__lowerCamelCase = pipe(**UpperCamelCase_ , num_images_per_prompt=UpperCamelCase_ )[0]
assert images.shape[0] == batch_size * num_images_per_prompt
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: Union[str, Any] ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/shap_e/corgi.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/shap_e/test_shap_e_img2img_out.npy""" )
__lowerCamelCase = ShapEImgaImgPipeline.from_pretrained("""openai/shap-e-img2img""" )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(0 )
__lowerCamelCase = pipe(
UpperCamelCase_ , generator=UpperCamelCase_ , guidance_scale=3.0 , 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_ )
| 12 | 1 |
def lowerCamelCase__ ( A__ : list ):
'''simple docstring'''
if any(not isinstance(A__ , A__ ) or x < 0 for x in sequence ):
raise TypeError("""Sequence must be list of non-negative integers""" )
for _ in range(len(A__ ) ):
for i, (rod_upper, rod_lower) in enumerate(zip(A__ , sequence[1:] ) ):
if rod_upper > rod_lower:
sequence[i] -= rod_upper - rod_lower
sequence[i + 1] += rod_upper - rod_lower
return sequence
if __name__ == "__main__":
assert bead_sort([5, 4, 3, 2, 1]) == [1, 2, 3, 4, 5]
assert bead_sort([7, 9, 4, 3, 5]) == [3, 4, 5, 7, 9]
| 12 |
from typing import List, Optional, Union
import torch
from ...models import UNetaDConditionModel, VQModel
from ...pipelines import DiffusionPipeline
from ...pipelines.pipeline_utils import ImagePipelineOutput
from ...schedulers import DDPMScheduler
from ...utils import (
is_accelerate_available,
is_accelerate_version,
logging,
randn_tensor,
replace_example_docstring,
)
UpperCAmelCase_ = logging.get_logger(__name__) # pylint: disable=invalid-name
UpperCAmelCase_ = '\n Examples:\n ```py\n >>> import torch\n >>> import numpy as np\n\n >>> from diffusers import KandinskyV22PriorPipeline, KandinskyV22ControlnetPipeline\n >>> from transformers import pipeline\n >>> from diffusers.utils import load_image\n\n\n >>> def make_hint(image, depth_estimator):\n ... image = depth_estimator(image)["depth"]\n ... image = np.array(image)\n ... image = image[:, :, None]\n ... image = np.concatenate([image, image, image], axis=2)\n ... detected_map = torch.from_numpy(image).float() / 255.0\n ... hint = detected_map.permute(2, 0, 1)\n ... return hint\n\n\n >>> depth_estimator = pipeline("depth-estimation")\n\n >>> pipe_prior = KandinskyV22PriorPipeline.from_pretrained(\n ... "kandinsky-community/kandinsky-2-2-prior", torch_dtype=torch.float16\n ... )\n >>> pipe_prior = pipe_prior.to("cuda")\n\n >>> pipe = KandinskyV22ControlnetPipeline.from_pretrained(\n ... "kandinsky-community/kandinsky-2-2-controlnet-depth", torch_dtype=torch.float16\n ... )\n >>> pipe = pipe.to("cuda")\n\n\n >>> img = load_image(\n ... "https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"\n ... "/kandinsky/cat.png"\n ... ).resize((768, 768))\n\n >>> hint = make_hint(img, depth_estimator).unsqueeze(0).half().to("cuda")\n\n >>> prompt = "A robot, 4k photo"\n >>> negative_prior_prompt = "lowres, text, error, cropped, worst quality, low quality, jpeg artifacts, ugly, duplicate, morbid, mutilated, out of frame, extra fingers, mutated hands, poorly drawn hands, poorly drawn face, mutation, deformed, blurry, dehydrated, bad anatomy, bad proportions, extra limbs, cloned face, disfigured, gross proportions, malformed limbs, missing arms, missing legs, extra arms, extra legs, fused fingers, too many fingers, long neck, username, watermark, signature"\n\n >>> generator = torch.Generator(device="cuda").manual_seed(43)\n\n >>> image_emb, zero_image_emb = pipe_prior(\n ... prompt=prompt, negative_prompt=negative_prior_prompt, generator=generator\n ... ).to_tuple()\n\n >>> images = pipe(\n ... image_embeds=image_emb,\n ... negative_image_embeds=zero_image_emb,\n ... hint=hint,\n ... num_inference_steps=50,\n ... generator=generator,\n ... height=768,\n ... width=768,\n ... ).images\n\n >>> images[0].save("robot_cat.png")\n ```\n'
def lowerCamelCase__ ( A__ : Optional[int] , A__ : Dict , A__ : Optional[int]=8 ):
'''simple docstring'''
__lowerCamelCase = height // scale_factor**2
if height % scale_factor**2 != 0:
new_height += 1
__lowerCamelCase = width // scale_factor**2
if width % scale_factor**2 != 0:
new_width += 1
return new_height * scale_factor, new_width * scale_factor
class lowerCamelCase__( __lowerCamelCase):
def __init__( self: List[Any] , UpperCamelCase_: UNetaDConditionModel , UpperCamelCase_: DDPMScheduler , UpperCamelCase_: VQModel , ):
super().__init__()
self.register_modules(
unet=UpperCamelCase_ , scheduler=UpperCamelCase_ , movq=UpperCamelCase_ , )
__lowerCamelCase = 2 ** (len(self.movq.config.block_out_channels ) - 1)
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Any , UpperCamelCase_: Tuple , UpperCamelCase_: int , UpperCamelCase_: Dict , UpperCamelCase_: Dict , UpperCamelCase_: int ):
if latents is None:
__lowerCamelCase = randn_tensor(UpperCamelCase_ , generator=UpperCamelCase_ , device=UpperCamelCase_ , dtype=UpperCamelCase_ )
else:
if latents.shape != shape:
raise ValueError(F'Unexpected latents shape, got {latents.shape}, expected {shape}' )
__lowerCamelCase = latents.to(UpperCamelCase_ )
__lowerCamelCase = latents * scheduler.init_noise_sigma
return latents
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: str=0 ):
if is_accelerate_available():
from accelerate import cpu_offload
else:
raise ImportError("""Please install accelerate via `pip install accelerate`""" )
__lowerCamelCase = torch.device(F'cuda:{gpu_id}' )
__lowerCamelCase = [
self.unet,
self.movq,
]
for cpu_offloaded_model in models:
if cpu_offloaded_model is not None:
cpu_offload(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[int]=0 ):
if is_accelerate_available() and is_accelerate_version(""">=""" , """0.17.0.dev0""" ):
from accelerate import cpu_offload_with_hook
else:
raise ImportError("""`enable_model_cpu_offload` requires `accelerate v0.17.0` or higher.""" )
__lowerCamelCase = torch.device(F'cuda:{gpu_id}' )
if self.device.type != "cpu":
self.to("""cpu""" , silence_dtype_warnings=UpperCamelCase_ )
torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist)
__lowerCamelCase = None
for cpu_offloaded_model in [self.unet, self.movq]:
__lowerCamelCase, __lowerCamelCase = cpu_offload_with_hook(UpperCamelCase_ , UpperCamelCase_ , prev_module_hook=UpperCamelCase_ )
# We'll offload the last model manually.
__lowerCamelCase = hook
@property
# Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device
def lowerCAmelCase__ ( self: int ):
if not hasattr(self.unet , """_hf_hook""" ):
return self.device
for module in self.unet.modules():
if (
hasattr(UpperCamelCase_ , """_hf_hook""" )
and hasattr(module._hf_hook , """execution_device""" )
and module._hf_hook.execution_device is not None
):
return torch.device(module._hf_hook.execution_device )
return self.device
@torch.no_grad()
@replace_example_docstring(UpperCamelCase_ )
def __call__( self: Tuple , UpperCamelCase_: Union[torch.FloatTensor, List[torch.FloatTensor]] , UpperCamelCase_: Union[torch.FloatTensor, List[torch.FloatTensor]] , UpperCamelCase_: torch.FloatTensor , UpperCamelCase_: int = 5_12 , UpperCamelCase_: int = 5_12 , UpperCamelCase_: int = 1_00 , UpperCamelCase_: float = 4.0 , UpperCamelCase_: int = 1 , UpperCamelCase_: Optional[Union[torch.Generator, List[torch.Generator]]] = None , UpperCamelCase_: Optional[torch.FloatTensor] = None , UpperCamelCase_: Optional[str] = "pil" , UpperCamelCase_: bool = True , ):
__lowerCamelCase = self._execution_device
__lowerCamelCase = guidance_scale > 1.0
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
__lowerCamelCase = image_embeds.shape[0] * num_images_per_prompt
if do_classifier_free_guidance:
__lowerCamelCase = image_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = negative_image_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = hint.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = torch.cat([negative_image_embeds, image_embeds] , dim=0 ).to(dtype=self.unet.dtype , device=UpperCamelCase_ )
__lowerCamelCase = torch.cat([hint, hint] , dim=0 ).to(dtype=self.unet.dtype , device=UpperCamelCase_ )
self.scheduler.set_timesteps(UpperCamelCase_ , device=UpperCamelCase_ )
__lowerCamelCase = self.scheduler.timesteps
__lowerCamelCase = self.movq.config.latent_channels
__lowerCamelCase, __lowerCamelCase = downscale_height_and_width(UpperCamelCase_ , UpperCamelCase_ , self.movq_scale_factor )
# create initial latent
__lowerCamelCase = self.prepare_latents(
(batch_size, num_channels_latents, height, width) , image_embeds.dtype , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , self.scheduler , )
for i, t in enumerate(self.progress_bar(UpperCamelCase_ ) ):
# expand the latents if we are doing classifier free guidance
__lowerCamelCase = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents
__lowerCamelCase = {"""image_embeds""": image_embeds, """hint""": hint}
__lowerCamelCase = self.unet(
sample=UpperCamelCase_ , timestep=UpperCamelCase_ , encoder_hidden_states=UpperCamelCase_ , added_cond_kwargs=UpperCamelCase_ , return_dict=UpperCamelCase_ , )[0]
if do_classifier_free_guidance:
__lowerCamelCase, __lowerCamelCase = noise_pred.split(latents.shape[1] , dim=1 )
__lowerCamelCase, __lowerCamelCase = noise_pred.chunk(2 )
__lowerCamelCase, __lowerCamelCase = variance_pred.chunk(2 )
__lowerCamelCase = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
__lowerCamelCase = torch.cat([noise_pred, variance_pred_text] , dim=1 )
if not (
hasattr(self.scheduler.config , """variance_type""" )
and self.scheduler.config.variance_type in ["learned", "learned_range"]
):
__lowerCamelCase, __lowerCamelCase = noise_pred.split(latents.shape[1] , dim=1 )
# compute the previous noisy sample x_t -> x_t-1
__lowerCamelCase = self.scheduler.step(
UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , generator=UpperCamelCase_ , )[0]
# post-processing
__lowerCamelCase = self.movq.decode(UpperCamelCase_ , force_not_quantize=UpperCamelCase_ )["""sample"""]
if output_type not in ["pt", "np", "pil"]:
raise ValueError(F'Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}' )
if output_type in ["np", "pil"]:
__lowerCamelCase = image * 0.5 + 0.5
__lowerCamelCase = image.clamp(0 , 1 )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy()
if output_type == "pil":
__lowerCamelCase = self.numpy_to_pil(UpperCamelCase_ )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=UpperCamelCase_ )
| 12 | 1 |
import math
import os
import sys
def lowerCamelCase__ ( A__ : str ):
'''simple docstring'''
__lowerCamelCase = """"""
try:
with open(A__ , """rb""" ) as binary_file:
__lowerCamelCase = binary_file.read()
for dat in data:
__lowerCamelCase = f'{dat:08b}'
result += curr_byte
return result
except OSError:
print("""File not accessible""" )
sys.exit()
def lowerCamelCase__ ( A__ : dict[str, str] , A__ : str , A__ : int , A__ : str ):
'''simple docstring'''
lexicon.pop(A__ )
__lowerCamelCase = last_match_id
if math.loga(A__ ).is_integer():
for curr_key in lexicon:
__lowerCamelCase = """0""" + lexicon[curr_key]
__lowerCamelCase = bin(A__ )[2:]
def lowerCamelCase__ ( A__ : str ):
'''simple docstring'''
__lowerCamelCase = {"""0""": """0""", """1""": """1"""}
__lowerCamelCase, __lowerCamelCase = """""", """"""
__lowerCamelCase = len(A__ )
for i in range(len(A__ ) ):
curr_string += data_bits[i]
if curr_string not in lexicon:
continue
__lowerCamelCase = lexicon[curr_string]
result += last_match_id
add_key_to_lexicon(A__ , A__ , A__ , A__ )
index += 1
__lowerCamelCase = """"""
while curr_string != "" and curr_string not in lexicon:
curr_string += "0"
if curr_string != "":
__lowerCamelCase = lexicon[curr_string]
result += last_match_id
return result
def lowerCamelCase__ ( A__ : str , A__ : str ):
'''simple docstring'''
__lowerCamelCase = os.path.getsize(A__ )
__lowerCamelCase = bin(A__ )[2:]
__lowerCamelCase = len(A__ )
return "0" * (length_length - 1) + file_length_binary + compressed
def lowerCamelCase__ ( A__ : str , A__ : str ):
'''simple docstring'''
__lowerCamelCase = 8
try:
with open(A__ , """wb""" ) as opened_file:
__lowerCamelCase = [
to_write[i : i + byte_length]
for i in range(0 , len(A__ ) , A__ )
]
if len(result_byte_array[-1] ) % byte_length == 0:
result_byte_array.append("""10000000""" )
else:
result_byte_array[-1] += "1" + "0" * (
byte_length - len(result_byte_array[-1] ) - 1
)
for elem in result_byte_array:
opened_file.write(int(A__ , 2 ).to_bytes(1 , byteorder="""big""" ) )
except OSError:
print("""File not accessible""" )
sys.exit()
def lowerCamelCase__ ( A__ : str , A__ : str ):
'''simple docstring'''
__lowerCamelCase = read_file_binary(A__ )
__lowerCamelCase = compress_data(A__ )
__lowerCamelCase = add_file_length(A__ , A__ )
write_file_binary(A__ , A__ )
if __name__ == "__main__":
compress(sys.argv[1], sys.argv[2])
| 12 |
import unittest
from transformers import BigBirdConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask
if is_flax_available():
import jax
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class lowerCamelCase__( unittest.TestCase):
def __init__( self: Optional[int] , UpperCamelCase_: Any , UpperCamelCase_: int=2 , UpperCamelCase_: Optional[Any]=56 , UpperCamelCase_: Tuple=True , UpperCamelCase_: Union[str, Any]=True , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: str=True , UpperCamelCase_: str=99 , UpperCamelCase_: Tuple=32 , UpperCamelCase_: int=2 , UpperCamelCase_: Optional[int]=2 , UpperCamelCase_: Tuple=7 , UpperCamelCase_: Optional[int]="gelu_new" , UpperCamelCase_: Any=0.1 , UpperCamelCase_: List[str]=0.1 , UpperCamelCase_: List[Any]=5_12 , UpperCamelCase_: Union[str, Any]=16 , UpperCamelCase_: int=2 , UpperCamelCase_: Dict=0.02 , UpperCamelCase_: Tuple=4 , UpperCamelCase_: Union[str, Any]="block_sparse" , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: Any=False , UpperCamelCase_: Any=2 , UpperCamelCase_: int=3 , ):
__lowerCamelCase = parent
__lowerCamelCase = batch_size
__lowerCamelCase = seq_length
__lowerCamelCase = is_training
__lowerCamelCase = use_attention_mask
__lowerCamelCase = use_token_type_ids
__lowerCamelCase = use_labels
__lowerCamelCase = vocab_size
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = intermediate_size
__lowerCamelCase = hidden_act
__lowerCamelCase = hidden_dropout_prob
__lowerCamelCase = attention_probs_dropout_prob
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = type_vocab_size
__lowerCamelCase = type_sequence_label_size
__lowerCamelCase = initializer_range
__lowerCamelCase = num_choices
__lowerCamelCase = rescale_embeddings
__lowerCamelCase = attention_type
__lowerCamelCase = use_bias
__lowerCamelCase = block_size
__lowerCamelCase = num_random_blocks
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__lowerCamelCase = None
if self.use_attention_mask:
__lowerCamelCase = random_attention_mask([self.batch_size, self.seq_length] )
__lowerCamelCase = None
if self.use_token_type_ids:
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
__lowerCamelCase = BigBirdConfig(
vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=UpperCamelCase_ , initializer_range=self.initializer_range , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = self.prepare_config_and_inputs()
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = config_and_inputs
__lowerCamelCase = {
"""input_ids""": input_ids,
"""token_type_ids""": token_type_ids,
"""attention_mask""": attention_mask,
}
return config, inputs_dict
@require_flax
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Optional[int] = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
UpperCAmelCase__ : Optional[int] = False
UpperCAmelCase__ : Optional[int] = False
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: Optional[Any] ):
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[str] ):
super().test_hidden_states_output()
@slow
def lowerCAmelCase__ ( self: Optional[Any] ):
for model_class_name in self.all_model_classes:
__lowerCamelCase = model_class_name.from_pretrained("""google/bigbird-roberta-base""" )
self.assertIsNotNone(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict ):
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
__lowerCamelCase = self._prepare_for_class(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = model_class(UpperCamelCase_ )
@jax.jit
def model_jitted(UpperCamelCase_: Tuple , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: Union[str, Any] ):
return model(input_ids=UpperCamelCase_ , attention_mask=UpperCamelCase_ , **UpperCamelCase_ )
with self.subTest("""JIT Enabled""" ):
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
with self.subTest("""JIT Disabled""" ):
with jax.disable_jit():
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
self.assertEqual(len(UpperCamelCase_ ) , len(UpperCamelCase_ ) )
for jitted_output, output in zip(UpperCamelCase_ , UpperCamelCase_ ):
self.assertEqual(jitted_output.shape , output.shape )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: int , UpperCamelCase_: List[str] , UpperCamelCase_: Any , UpperCamelCase_: Dict=1E-5 , UpperCamelCase_: List[str]="outputs" , UpperCamelCase_: List[str]=None ):
# `bigbird_block_sparse_attention` in `FlaxBigBird` returns `attention_probs = None`, while in PyTorch version,
# an effort was done to return `attention_probs` (yet to be verified).
if name.startswith("""outputs.attentions""" ):
return
else:
super().check_pt_flax_outputs(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
| 12 | 1 |
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 lowerCamelCase__( unittest.TestCase):
def __init__( self: Tuple , UpperCamelCase_: Optional[Any] , UpperCamelCase_: List[str]=13 , UpperCamelCase_: Any=7 , UpperCamelCase_: str=True , UpperCamelCase_: Any=True , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: int=True , UpperCamelCase_: Optional[Any]=99 , UpperCamelCase_: Optional[int]=32 , UpperCamelCase_: Optional[Any]=5 , UpperCamelCase_: List[Any]=4 , UpperCamelCase_: Optional[int]=37 , UpperCamelCase_: List[str]="gelu" , UpperCamelCase_: Tuple=0.1 , UpperCamelCase_: Dict=0.1 , UpperCamelCase_: List[Any]=5_12 , UpperCamelCase_: Union[str, Any]=16 , UpperCamelCase_: Optional[Any]=2 , UpperCamelCase_: Optional[Any]=0.02 , UpperCamelCase_: Dict=4 , ):
__lowerCamelCase = parent
__lowerCamelCase = batch_size
__lowerCamelCase = seq_length
__lowerCamelCase = is_training
__lowerCamelCase = use_attention_mask
__lowerCamelCase = use_token_type_ids
__lowerCamelCase = use_labels
__lowerCamelCase = vocab_size
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = intermediate_size
__lowerCamelCase = hidden_act
__lowerCamelCase = hidden_dropout_prob
__lowerCamelCase = attention_probs_dropout_prob
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = type_vocab_size
__lowerCamelCase = type_sequence_label_size
__lowerCamelCase = initializer_range
__lowerCamelCase = num_choices
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__lowerCamelCase = None
if self.use_attention_mask:
__lowerCamelCase = random_attention_mask([self.batch_size, self.seq_length] )
__lowerCamelCase = 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: int ):
__lowerCamelCase = self.prepare_config_and_inputs()
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase = config_and_inputs
__lowerCamelCase = {"""input_ids""": input_ids, """attention_mask""": attention_mask}
return config, inputs_dict
@require_flax
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : int = (
(
FlaxDistilBertModel,
FlaxDistilBertForMaskedLM,
FlaxDistilBertForMultipleChoice,
FlaxDistilBertForQuestionAnswering,
FlaxDistilBertForSequenceClassification,
FlaxDistilBertForTokenClassification,
FlaxDistilBertForQuestionAnswering,
)
if is_flax_available()
else ()
)
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = FlaxDistilBertModelTester(self )
@slow
def lowerCAmelCase__ ( self: Any ):
for model_class_name in self.all_model_classes:
__lowerCamelCase = model_class_name.from_pretrained("""distilbert-base-uncased""" )
__lowerCamelCase = model(np.ones((1, 1) ) )
self.assertIsNotNone(UpperCamelCase_ )
@require_flax
class lowerCamelCase__( unittest.TestCase):
@slow
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = FlaxDistilBertModel.from_pretrained("""distilbert-base-uncased""" )
__lowerCamelCase = np.array([[0, 3_45, 2_32, 3_28, 7_40, 1_40, 16_95, 69, 60_78, 15_88, 2]] )
__lowerCamelCase = np.array([[0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]] )
__lowerCamelCase = model(UpperCamelCase_ , attention_mask=UpperCamelCase_ )[0]
__lowerCamelCase = (1, 11, 7_68)
self.assertEqual(output.shape , UpperCamelCase_ )
__lowerCamelCase = 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 ) )
| 12 |
def lowerCamelCase__ ( A__ : list ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
for _ in range(A__ ):
for i in range(_ % 2 , arr_size - 1 , 2 ):
if arr[i + 1] < arr[i]:
__lowerCamelCase, __lowerCamelCase = arr[i + 1], arr[i]
return arr
if __name__ == "__main__":
UpperCAmelCase_ = list(range(10, 0, -1))
print(f"""Original: {arr}. Sorted: {odd_even_transposition(arr)}""")
| 12 | 1 |
import unittest
from transformers import RoFormerTokenizer, RoFormerTokenizerFast
from transformers.testing_utils import require_rjieba, require_tokenizers
from ...test_tokenization_common import TokenizerTesterMixin
@require_rjieba
@require_tokenizers
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Union[str, Any] = RoFormerTokenizer
UpperCAmelCase__ : Dict = RoFormerTokenizerFast
UpperCAmelCase__ : Union[str, Any] = True
UpperCAmelCase__ : Tuple = True
def lowerCAmelCase__ ( self: str ):
super().setUp()
def lowerCAmelCase__ ( self: Optional[int] , **UpperCamelCase_: List[str] ):
return self.tokenizer_class.from_pretrained("""junnyu/roformer_chinese_base""" , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict , **UpperCamelCase_: str ):
return self.rust_tokenizer_class.from_pretrained("""junnyu/roformer_chinese_base""" , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = """永和服装饰品有限公司,今天天气非常好"""
__lowerCamelCase = """永和 服装 饰品 有限公司 , 今 天 天 气 非常 好"""
return input_text, output_text
def lowerCAmelCase__ ( self: Optional[Any] ):
__lowerCamelCase = self.get_tokenizer()
__lowerCamelCase, __lowerCamelCase = self.get_chinese_input_output_texts()
__lowerCamelCase = tokenizer.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , output_text.split() )
__lowerCamelCase = tokens + [tokenizer.unk_token]
__lowerCamelCase = [2_29_43, 2_13_32, 3_44_31, 4_59_04, 1_17, 3_06, 12_31, 12_31, 26_53, 3_39_94, 12_66, 1_00]
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCamelCase_ ) , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[Any] ):
__lowerCamelCase = self.get_rust_tokenizer()
__lowerCamelCase, __lowerCamelCase = self.get_chinese_input_output_texts()
__lowerCamelCase = tokenizer.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , output_text.split() )
__lowerCamelCase = tokens + [tokenizer.unk_token]
__lowerCamelCase = [2_29_43, 2_13_32, 3_44_31, 4_59_04, 1_17, 3_06, 12_31, 12_31, 26_53, 3_39_94, 12_66, 1_00]
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCamelCase_ ) , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Any ):
pass
def lowerCAmelCase__ ( self: Union[str, Any] ):
pass
def lowerCAmelCase__ ( self: Any ):
pass
| 12 |
import os
import warnings
from typing import List, Optional
from ...tokenization_utils_base import BatchEncoding
from ...utils import logging
from .configuration_rag import RagConfig
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__:
def __init__( self: Any , UpperCamelCase_: str , UpperCamelCase_: Dict ):
__lowerCamelCase = question_encoder
__lowerCamelCase = generator
__lowerCamelCase = self.question_encoder
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[Any] ):
if os.path.isfile(UpperCamelCase_ ):
raise ValueError(F'Provided path ({save_directory}) should be a directory, not a file' )
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
__lowerCamelCase = os.path.join(UpperCamelCase_ , """question_encoder_tokenizer""" )
__lowerCamelCase = os.path.join(UpperCamelCase_ , """generator_tokenizer""" )
self.question_encoder.save_pretrained(UpperCamelCase_ )
self.generator.save_pretrained(UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: List[Any] , UpperCamelCase_: Dict , **UpperCamelCase_: Union[str, Any] ):
# dynamically import AutoTokenizer
from ..auto.tokenization_auto import AutoTokenizer
__lowerCamelCase = kwargs.pop("""config""" , UpperCamelCase_ )
if config is None:
__lowerCamelCase = RagConfig.from_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoTokenizer.from_pretrained(
UpperCamelCase_ , config=config.question_encoder , subfolder="""question_encoder_tokenizer""" )
__lowerCamelCase = AutoTokenizer.from_pretrained(
UpperCamelCase_ , config=config.generator , subfolder="""generator_tokenizer""" )
return cls(question_encoder=UpperCamelCase_ , generator=UpperCamelCase_ )
def __call__( self: Tuple , *UpperCamelCase_: int , **UpperCamelCase_: int ):
return self.current_tokenizer(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , *UpperCamelCase_: List[Any] , **UpperCamelCase_: List[Any] ):
return self.generator.batch_decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[Any] , *UpperCamelCase_: str , **UpperCamelCase_: Union[str, Any] ):
return self.generator.decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = self.question_encoder
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = self.generator
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: List[str] , UpperCamelCase_: Optional[List[str]] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: str = "longest" , UpperCamelCase_: str = None , UpperCamelCase_: bool = True , **UpperCamelCase_: int , ):
warnings.warn(
"""`prepare_seq2seq_batch` is deprecated and will be removed in version 5 of 🤗 Transformers. Use the """
"""regular `__call__` method to prepare your inputs and the tokenizer under the `with_target_tokenizer` """
"""context manager to prepare your targets. See the documentation of your specific tokenizer for more """
"""details""" , UpperCamelCase_ , )
if max_length is None:
__lowerCamelCase = self.current_tokenizer.model_max_length
__lowerCamelCase = self(
UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , max_length=UpperCamelCase_ , padding=UpperCamelCase_ , truncation=UpperCamelCase_ , **UpperCamelCase_ , )
if tgt_texts is None:
return model_inputs
# Process tgt_texts
if max_target_length is None:
__lowerCamelCase = self.current_tokenizer.model_max_length
__lowerCamelCase = self(
text_target=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , padding=UpperCamelCase_ , max_length=UpperCamelCase_ , truncation=UpperCamelCase_ , **UpperCamelCase_ , )
__lowerCamelCase = labels["""input_ids"""]
return model_inputs
| 12 | 1 |
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from diffusers import (
DDIMScheduler,
KandinskyVaaImgaImgPipeline,
KandinskyVaaPriorPipeline,
UNetaDConditionModel,
VQModel,
)
from diffusers.utils import floats_tensor, load_image, load_numpy, slow, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference
enable_full_determinism()
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Dict = KandinskyVaaImgaImgPipeline
UpperCAmelCase__ : Optional[int] = ['image_embeds', 'negative_image_embeds', 'image']
UpperCAmelCase__ : Optional[int] = [
'image_embeds',
'negative_image_embeds',
'image',
]
UpperCAmelCase__ : Optional[Any] = [
'generator',
'height',
'width',
'strength',
'guidance_scale',
'num_inference_steps',
'return_dict',
'guidance_scale',
'num_images_per_prompt',
'output_type',
'return_dict',
]
UpperCAmelCase__ : Optional[Any] = False
@property
def lowerCAmelCase__ ( self: str ):
return 32
@property
def lowerCAmelCase__ ( self: Tuple ):
return 32
@property
def lowerCAmelCase__ ( self: int ):
return self.time_input_dim
@property
def lowerCAmelCase__ ( self: int ):
return self.time_input_dim * 4
@property
def lowerCAmelCase__ ( self: Tuple ):
return 1_00
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""in_channels""": 4,
# Out channels is double in channels because predicts mean and variance
"""out_channels""": 8,
"""addition_embed_type""": """image""",
"""down_block_types""": ("""ResnetDownsampleBlock2D""", """SimpleCrossAttnDownBlock2D"""),
"""up_block_types""": ("""SimpleCrossAttnUpBlock2D""", """ResnetUpsampleBlock2D"""),
"""mid_block_type""": """UNetMidBlock2DSimpleCrossAttn""",
"""block_out_channels""": (self.block_out_channels_a, self.block_out_channels_a * 2),
"""layers_per_block""": 1,
"""encoder_hid_dim""": self.text_embedder_hidden_size,
"""encoder_hid_dim_type""": """image_proj""",
"""cross_attention_dim""": self.cross_attention_dim,
"""attention_head_dim""": 4,
"""resnet_time_scale_shift""": """scale_shift""",
"""class_embed_type""": None,
}
__lowerCamelCase = UNetaDConditionModel(**UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: Any ):
return {
"block_out_channels": [32, 64],
"down_block_types": ["DownEncoderBlock2D", "AttnDownEncoderBlock2D"],
"in_channels": 3,
"latent_channels": 4,
"layers_per_block": 1,
"norm_num_groups": 8,
"norm_type": "spatial",
"num_vq_embeddings": 12,
"out_channels": 3,
"up_block_types": [
"AttnUpDecoderBlock2D",
"UpDecoderBlock2D",
],
"vq_embed_dim": 4,
}
@property
def lowerCAmelCase__ ( self: int ):
torch.manual_seed(0 )
__lowerCamelCase = VQModel(**self.dummy_movq_kwargs )
return model
def lowerCAmelCase__ ( self: Optional[Any] ):
__lowerCamelCase = self.dummy_unet
__lowerCamelCase = self.dummy_movq
__lowerCamelCase = {
"""num_train_timesteps""": 10_00,
"""beta_schedule""": """linear""",
"""beta_start""": 0.0_0085,
"""beta_end""": 0.012,
"""clip_sample""": False,
"""set_alpha_to_one""": False,
"""steps_offset""": 0,
"""prediction_type""": """epsilon""",
"""thresholding""": False,
}
__lowerCamelCase = DDIMScheduler(**UpperCamelCase_ )
__lowerCamelCase = {
"""unet""": unet,
"""scheduler""": scheduler,
"""movq""": movq,
}
return components
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: str , UpperCamelCase_: Optional[int]=0 ):
__lowerCamelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
__lowerCamelCase = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(seed + 1 ) ).to(
UpperCamelCase_ )
# create init_image
__lowerCamelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0]
__lowerCamelCase = Image.fromarray(np.uinta(UpperCamelCase_ ) ).convert("""RGB""" ).resize((2_56, 2_56) )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""image""": init_image,
"""image_embeds""": image_embeds,
"""negative_image_embeds""": negative_image_embeds,
"""generator""": generator,
"""height""": 64,
"""width""": 64,
"""num_inference_steps""": 10,
"""guidance_scale""": 7.0,
"""strength""": 0.2,
"""output_type""": """np""",
}
return inputs
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = """cpu"""
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = pipe(**self.get_dummy_inputs(UpperCamelCase_ ) )
__lowerCamelCase = output.images
__lowerCamelCase = pipe(
**self.get_dummy_inputs(UpperCamelCase_ ) , return_dict=UpperCamelCase_ , )[0]
__lowerCamelCase = image[0, -3:, -3:, -1]
__lowerCamelCase = image_from_tuple[0, -3:, -3:, -1]
assert image.shape == (1, 64, 64, 3)
__lowerCamelCase = np.array(
[0.619_9778, 0.6398_4406, 0.4614_5785, 0.6294_4984, 0.562_2215, 0.4730_6132, 0.4744_1456, 0.460_7606, 0.4871_9263] )
assert (
np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
), F' expected_slice {expected_slice}, but got {image_slice.flatten()}'
assert (
np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2
), F' expected_slice {expected_slice}, but got {image_from_tuple_slice.flatten()}'
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: Dict ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/kandinskyv22/kandinskyv22_img2img_frog.npy""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/kandinsky/cat.png""" )
__lowerCamelCase = """A red cartoon frog, 4k"""
__lowerCamelCase = KandinskyVaaPriorPipeline.from_pretrained(
"""kandinsky-community/kandinsky-2-2-prior""" , torch_dtype=torch.floataa )
pipe_prior.to(UpperCamelCase_ )
__lowerCamelCase = KandinskyVaaImgaImgPipeline.from_pretrained(
"""kandinsky-community/kandinsky-2-2-decoder""" , torch_dtype=torch.floataa )
__lowerCamelCase = pipeline.to(UpperCamelCase_ )
pipeline.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = torch.Generator(device="""cpu""" ).manual_seed(0 )
__lowerCamelCase, __lowerCamelCase = pipe_prior(
UpperCamelCase_ , generator=UpperCamelCase_ , num_inference_steps=5 , negative_prompt="""""" , ).to_tuple()
__lowerCamelCase = pipeline(
image=UpperCamelCase_ , image_embeds=UpperCamelCase_ , negative_image_embeds=UpperCamelCase_ , generator=UpperCamelCase_ , num_inference_steps=1_00 , height=7_68 , width=7_68 , strength=0.2 , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (7_68, 7_68, 3)
assert_mean_pixel_difference(UpperCamelCase_ , UpperCamelCase_ )
| 12 |
import json
import os
from datetime import date
from pathlib import Path
from tabulate import DataRow, TableFormat, tabulate
UpperCAmelCase_ = TableFormat(
lineabove=None,
linebelowheader=None,
linebetweenrows=None,
linebelow=None,
headerrow=DataRow('', '|', '|'),
datarow=DataRow('', '|', '|'),
padding=1,
with_header_hide=None,
)
UpperCAmelCase_ = []
UpperCAmelCase_ = []
UpperCAmelCase_ = {'type': 'section', 'text': {'type': 'plain_text', 'text': 'No failed tests! 🤗', 'emoji': True}}
UpperCAmelCase_ = [
{
'type': 'header',
'text': {
'type': 'plain_text',
'text': f"""🤗 Accelerate nightly {os.environ.get("TEST_TYPE", "")} test results""",
'emoji': True,
},
}
]
UpperCAmelCase_ = 0
for log in Path().glob('*.log'):
UpperCAmelCase_ = 0
with open(log, 'r') as f:
for line in f:
UpperCAmelCase_ = json.loads(line)
if line.get('nodeid', '') != "":
UpperCAmelCase_ = line['nodeid']
if line.get('duration', None) is not None:
UpperCAmelCase_ = f"""{line["duration"]:.4f}"""
if line.get('outcome', '') == "failed":
section_num_failed += 1
failed.append([test, duration, log.name.split('_')[0]])
total_num_failed += 1
group_info.append([str(log), section_num_failed, failed])
UpperCAmelCase_ = []
log.unlink()
UpperCAmelCase_ = ''
UpperCAmelCase_ = []
if total_num_failed > 0:
for name, num_failed, failed_tests in group_info:
if num_failed > 0:
if num_failed == 1:
message += f"*{name[1:]}: {num_failed} failed test*\n"
else:
message += f"*{name[1:]}: {num_failed} failed tests*\n"
UpperCAmelCase_ = []
UpperCAmelCase_ = {}
for test in failed_tests:
UpperCAmelCase_ = test[0].split('::')
UpperCAmelCase_ = data[0].split('/')[-1]
if data[0] not in filesafailed:
UpperCAmelCase_ = [data[1:]]
else:
filesafailed[data[0]] += [data[1:]]
failed_table.append(data)
UpperCAmelCase_ = [test[0] for test in failed_table]
UpperCAmelCase_ = list(set(files))
# Count number of instances in failed_tests
UpperCAmelCase_ = []
for file in individual_files:
table.append([file, len(filesafailed[file])])
UpperCAmelCase_ = tabulate(
table,
headers=['Test Location', 'Num Failed'],
tablefmt=hf_table_format,
stralign='right',
)
message += f"\n```\n{failed_table}\n```"
all_filesafailed.append(filesafailed)
if len(message) > 3_000:
UpperCAmelCase_ = 'Too many failed tests, please see the full report in the Action results.'
UpperCAmelCase_ = len(err) + 10
UpperCAmelCase_ = message[: 3_000 - offset] + f"""\n...\n```\n{err}"""
print(f"""### {message}""")
else:
UpperCAmelCase_ = 'No failed tests! 🤗'
print(f"""## {message}""")
payload.append(no_error_payload)
if os.environ.get('TEST_TYPE', '') != "":
from slack_sdk import WebClient
UpperCAmelCase_ = WebClient(token=os.environ['SLACK_API_TOKEN'])
if message != "No failed tests! 🤗":
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': message,
},
}
payload.append(md_report)
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': '*For more details:*',
},
'accessory': {
'type': 'button',
'text': {
'type': 'plain_text',
'text': 'Check Action results',
'emoji': True,
},
'url': f"""https://github.com/{os.environ["GITHUB_REPOSITORY"]}/actions/runs/{os.environ["GITHUB_RUN_ID"]}""",
},
}
payload.append(action_button)
UpperCAmelCase_ = {
'type': 'context',
'elements': [
{
'type': 'plain_text',
'text': f"""Nightly {os.environ.get("TEST_TYPE")} test results for {date.today()}""",
}
],
}
payload.append(date_report)
UpperCAmelCase_ = client.chat_postMessage(channel='#accelerate-ci-daily', text=message, blocks=payload)
UpperCAmelCase_ = response.data['ts']
for failed_file in all_filesafailed:
for test_location, test_failures in failed_file.items():
# Keep only the first instance of the test name
UpperCAmelCase_ = ''
for i, row in enumerate(test_failures):
if row[0] != test_class:
UpperCAmelCase_ = row[0]
else:
UpperCAmelCase_ = ''
UpperCAmelCase_ = {
'type': 'section',
'text': {
'type': 'mrkdwn',
'text': f"""Test location: {test_location}\n```\n{tabulate(test_failures, headers=["Class", "Test"], tablefmt=hf_table_format, stralign="right")}\n```""",
},
}
client.chat_postMessage(
channel='#accelerate-ci-daily',
thread_ts=ts,
blocks=[payload],
)
| 12 | 1 |
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 lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : int = 'gpt_neo'
UpperCAmelCase__ : Union[str, Any] = ['past_key_values']
UpperCAmelCase__ : int = {'num_attention_heads': 'num_heads', 'num_hidden_layers': 'num_layers'}
def __init__( self: List[Any] , UpperCamelCase_: Union[str, Any]=5_02_57 , UpperCamelCase_: Any=20_48 , UpperCamelCase_: Optional[Any]=20_48 , UpperCamelCase_: Any=24 , UpperCamelCase_: int=[[["global", "local"], 12]] , UpperCamelCase_: Optional[int]=16 , UpperCamelCase_: str=None , UpperCamelCase_: Any=2_56 , UpperCamelCase_: List[str]="gelu_new" , UpperCamelCase_: Union[str, Any]=0.0 , UpperCamelCase_: Optional[Any]=0.0 , UpperCamelCase_: Union[str, Any]=0.0 , UpperCamelCase_: Dict=0.1 , UpperCamelCase_: List[Any]=1E-5 , UpperCamelCase_: Optional[Any]=0.02 , UpperCamelCase_: int=True , UpperCamelCase_: Optional[Any]=5_02_56 , UpperCamelCase_: Dict=5_02_56 , **UpperCamelCase_: int , ):
__lowerCamelCase = vocab_size
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = hidden_size
__lowerCamelCase = num_layers
__lowerCamelCase = num_heads
__lowerCamelCase = intermediate_size
__lowerCamelCase = window_size
__lowerCamelCase = activation_function
__lowerCamelCase = resid_dropout
__lowerCamelCase = embed_dropout
__lowerCamelCase = attention_dropout
__lowerCamelCase = classifier_dropout
__lowerCamelCase = layer_norm_epsilon
__lowerCamelCase = initializer_range
__lowerCamelCase = use_cache
__lowerCamelCase = bos_token_id
__lowerCamelCase = eos_token_id
__lowerCamelCase = attention_types
__lowerCamelCase = 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_: Tuple ):
__lowerCamelCase = []
for item in attention_types:
for _ in range(item[1] ):
attentions.extend(item[0] )
return attentions
def lowerCamelCase__ ( A__ : int , A__ : Optional[Any] , A__ : Optional[int] , A__ : List[Any] ):
'''simple docstring'''
import torch
__lowerCamelCase = input.size()
__lowerCamelCase = len(A__ )
__lowerCamelCase = shape[dimension]
__lowerCamelCase = torch.arange(0 , A__ , A__ )
__lowerCamelCase = torch.div(sizedim - size , A__ , rounding_mode="""floor""" ) + 1
__lowerCamelCase = torch.arange(A__ ) + low_indices[:min_length][:, None]
__lowerCamelCase = [slice(A__ )] * rank
__lowerCamelCase = indices
__lowerCamelCase = input[s]
__lowerCamelCase = list(range(0 , rank + 1 ) )
perm.append(perm.pop(dimension + 1 ) )
return sliced.permute(A__ )
def lowerCamelCase__ ( A__ : Optional[int] , A__ : List[str] ):
'''simple docstring'''
import torch
__lowerCamelCase = torch.arange(1 , A__ )
__lowerCamelCase = torch.remainder(A__ , A__ )
__lowerCamelCase = remainders == 0
__lowerCamelCase = candidates[divisor_indices]
__lowerCamelCase = torch.max(A__ )
return largest_divisor, torch.div(A__ , A__ , rounding_mode="""floor""" )
class lowerCamelCase__( __lowerCamelCase):
@property
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = OrderedDict({"""input_ids""": {0: """batch""", 1: """sequence"""}} )
if self.use_past:
self.fill_with_past_key_values_(UpperCamelCase_ , direction="""inputs""" )
__lowerCamelCase = {0: """batch""", 1: """past_sequence + sequence"""}
else:
__lowerCamelCase = {0: """batch""", 1: """sequence"""}
return common_inputs
@property
def lowerCAmelCase__ ( self: Dict ):
return self._config.num_heads
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: PreTrainedTokenizer , UpperCamelCase_: int = -1 , UpperCamelCase_: int = -1 , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[TensorType] = None , ):
__lowerCamelCase = 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()
__lowerCamelCase = 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
__lowerCamelCase, __lowerCamelCase = common_inputs["""input_ids"""].shape
# Not using the same length for past_key_values
__lowerCamelCase = seqlen + 2
__lowerCamelCase = (
batch,
self.num_attention_heads,
past_key_values_length,
self._config.hidden_size // self.num_attention_heads,
)
__lowerCamelCase = [
(torch.zeros(UpperCamelCase_ ), torch.zeros(UpperCamelCase_ )) for _ in range(self.num_layers )
]
__lowerCamelCase = common_inputs["""attention_mask"""]
if self.use_past:
__lowerCamelCase = ordered_inputs["""attention_mask"""].dtype
__lowerCamelCase = torch.cat(
[ordered_inputs["""attention_mask"""], torch.ones(UpperCamelCase_ , UpperCamelCase_ , dtype=UpperCamelCase_ )] , dim=1 )
return ordered_inputs
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
return 13
| 12 |
from typing import Callable, List, Optional, Tuple, Union
import torch
from transformers import CLIPTextModel, CLIPTokenizer
from ...configuration_utils import ConfigMixin, register_to_config
from ...models import ModelMixin, TransformeraDModel, VQModel
from ...schedulers import VQDiffusionScheduler
from ...utils import logging
from ..pipeline_utils import DiffusionPipeline, ImagePipelineOutput
UpperCAmelCase_ = logging.get_logger(__name__) # pylint: disable=invalid-name
class lowerCamelCase__( __lowerCamelCase , __lowerCamelCase):
@register_to_config
def __init__( self: Optional[Any] , UpperCamelCase_: bool , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[int] = None ):
super().__init__()
__lowerCamelCase = learnable
if self.learnable:
assert hidden_size is not None, "learnable=True requires `hidden_size` to be set"
assert length is not None, "learnable=True requires `length` to be set"
__lowerCamelCase = torch.zeros(UpperCamelCase_ , UpperCamelCase_ )
else:
__lowerCamelCase = None
__lowerCamelCase = torch.nn.Parameter(UpperCamelCase_ )
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : VQModel
UpperCAmelCase__ : CLIPTextModel
UpperCAmelCase__ : CLIPTokenizer
UpperCAmelCase__ : TransformeraDModel
UpperCAmelCase__ : LearnedClassifierFreeSamplingEmbeddings
UpperCAmelCase__ : VQDiffusionScheduler
def __init__( self: str , UpperCamelCase_: VQModel , UpperCamelCase_: CLIPTextModel , UpperCamelCase_: CLIPTokenizer , UpperCamelCase_: TransformeraDModel , UpperCamelCase_: VQDiffusionScheduler , UpperCamelCase_: LearnedClassifierFreeSamplingEmbeddings , ):
super().__init__()
self.register_modules(
vqvae=UpperCamelCase_ , transformer=UpperCamelCase_ , text_encoder=UpperCamelCase_ , tokenizer=UpperCamelCase_ , scheduler=UpperCamelCase_ , learned_classifier_free_sampling_embeddings=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: Any , UpperCamelCase_: List[Any] , UpperCamelCase_: Any ):
__lowerCamelCase = len(UpperCamelCase_ ) if isinstance(UpperCamelCase_ , UpperCamelCase_ ) else 1
# get prompt text embeddings
__lowerCamelCase = self.tokenizer(
UpperCamelCase_ , padding="""max_length""" , max_length=self.tokenizer.model_max_length , return_tensors="""pt""" , )
__lowerCamelCase = text_inputs.input_ids
if text_input_ids.shape[-1] > self.tokenizer.model_max_length:
__lowerCamelCase = self.tokenizer.batch_decode(text_input_ids[:, self.tokenizer.model_max_length :] )
logger.warning(
"""The following part of your input was truncated because CLIP can only handle sequences up to"""
F' {self.tokenizer.model_max_length} tokens: {removed_text}' )
__lowerCamelCase = text_input_ids[:, : self.tokenizer.model_max_length]
__lowerCamelCase = self.text_encoder(text_input_ids.to(self.device ) )[0]
# NOTE: This additional step of normalizing the text embeddings is from VQ-Diffusion.
# While CLIP does normalize the pooled output of the text transformer when combining
# the image and text embeddings, CLIP does not directly normalize the last hidden state.
#
# CLIP normalizing the pooled output.
# https://github.com/huggingface/transformers/blob/d92e22d1f28324f513f3080e5c47c071a3916721/src/transformers/models/clip/modeling_clip.py#L1052-L1053
__lowerCamelCase = prompt_embeds / prompt_embeds.norm(dim=-1 , keepdim=UpperCamelCase_ )
# duplicate text embeddings for each generation per prompt
__lowerCamelCase = prompt_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
if do_classifier_free_guidance:
if self.learned_classifier_free_sampling_embeddings.learnable:
__lowerCamelCase = self.learned_classifier_free_sampling_embeddings.embeddings
__lowerCamelCase = negative_prompt_embeds.unsqueeze(0 ).repeat(UpperCamelCase_ , 1 , 1 )
else:
__lowerCamelCase = [""""""] * batch_size
__lowerCamelCase = text_input_ids.shape[-1]
__lowerCamelCase = self.tokenizer(
UpperCamelCase_ , padding="""max_length""" , max_length=UpperCamelCase_ , truncation=UpperCamelCase_ , return_tensors="""pt""" , )
__lowerCamelCase = self.text_encoder(uncond_input.input_ids.to(self.device ) )[0]
# See comment for normalizing text embeddings
__lowerCamelCase = negative_prompt_embeds / negative_prompt_embeds.norm(dim=-1 , keepdim=UpperCamelCase_ )
# duplicate unconditional embeddings for each generation per prompt, using mps friendly method
__lowerCamelCase = negative_prompt_embeds.shape[1]
__lowerCamelCase = negative_prompt_embeds.repeat(1 , UpperCamelCase_ , 1 )
__lowerCamelCase = negative_prompt_embeds.view(batch_size * num_images_per_prompt , UpperCamelCase_ , -1 )
# For classifier free guidance, we need to do two forward passes.
# Here we concatenate the unconditional and text embeddings into a single batch
# to avoid doing two forward passes
__lowerCamelCase = torch.cat([negative_prompt_embeds, prompt_embeds] )
return prompt_embeds
@torch.no_grad()
def __call__( self: Tuple , UpperCamelCase_: Union[str, List[str]] , UpperCamelCase_: int = 1_00 , UpperCamelCase_: float = 5.0 , UpperCamelCase_: float = 1.0 , UpperCamelCase_: int = 1 , UpperCamelCase_: Optional[Union[torch.Generator, List[torch.Generator]]] = None , UpperCamelCase_: Optional[torch.FloatTensor] = None , UpperCamelCase_: Optional[str] = "pil" , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[Callable[[int, int, torch.FloatTensor], None]] = None , UpperCamelCase_: int = 1 , ):
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = 1
elif isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = len(UpperCamelCase_ )
else:
raise ValueError(F'`prompt` has to be of type `str` or `list` but is {type(UpperCamelCase_ )}' )
__lowerCamelCase = batch_size * num_images_per_prompt
__lowerCamelCase = guidance_scale > 1.0
__lowerCamelCase = self._encode_prompt(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
if (callback_steps is None) or (
callback_steps is not None and (not isinstance(UpperCamelCase_ , UpperCamelCase_ ) or callback_steps <= 0)
):
raise ValueError(
F'`callback_steps` has to be a positive integer but is {callback_steps} of type'
F' {type(UpperCamelCase_ )}.' )
# get the initial completely masked latents unless the user supplied it
__lowerCamelCase = (batch_size, self.transformer.num_latent_pixels)
if latents is None:
__lowerCamelCase = self.transformer.num_vector_embeds - 1
__lowerCamelCase = torch.full(UpperCamelCase_ , UpperCamelCase_ ).to(self.device )
else:
if latents.shape != latents_shape:
raise ValueError(F'Unexpected latents shape, got {latents.shape}, expected {latents_shape}' )
if (latents < 0).any() or (latents >= self.transformer.num_vector_embeds).any():
raise ValueError(
"""Unexpected latents value(s). All latents be valid embedding indices i.e. in the range 0,"""
F' {self.transformer.num_vector_embeds - 1} (inclusive).' )
__lowerCamelCase = latents.to(self.device )
# set timesteps
self.scheduler.set_timesteps(UpperCamelCase_ , device=self.device )
__lowerCamelCase = self.scheduler.timesteps.to(self.device )
__lowerCamelCase = latents
for i, t in enumerate(self.progress_bar(UpperCamelCase_ ) ):
# expand the sample if we are doing classifier free guidance
__lowerCamelCase = torch.cat([sample] * 2 ) if do_classifier_free_guidance else sample
# predict the un-noised image
# model_output == `log_p_x_0`
__lowerCamelCase = self.transformer(UpperCamelCase_ , encoder_hidden_states=UpperCamelCase_ , timestep=UpperCamelCase_ ).sample
if do_classifier_free_guidance:
__lowerCamelCase, __lowerCamelCase = model_output.chunk(2 )
__lowerCamelCase = model_output_uncond + guidance_scale * (model_output_text - model_output_uncond)
model_output -= torch.logsumexp(UpperCamelCase_ , dim=1 , keepdim=UpperCamelCase_ )
__lowerCamelCase = self.truncate(UpperCamelCase_ , UpperCamelCase_ )
# remove `log(0)`'s (`-inf`s)
__lowerCamelCase = model_output.clamp(-70 )
# compute the previous noisy sample x_t -> x_t-1
__lowerCamelCase = self.scheduler.step(UpperCamelCase_ , timestep=UpperCamelCase_ , sample=UpperCamelCase_ , generator=UpperCamelCase_ ).prev_sample
# call the callback, if provided
if callback is not None and i % callback_steps == 0:
callback(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = self.vqvae.config.vq_embed_dim
__lowerCamelCase = (batch_size, self.transformer.height, self.transformer.width, embedding_channels)
__lowerCamelCase = self.vqvae.quantize.get_codebook_entry(UpperCamelCase_ , shape=UpperCamelCase_ )
__lowerCamelCase = self.vqvae.decode(UpperCamelCase_ , force_not_quantize=UpperCamelCase_ ).sample
__lowerCamelCase = (image / 2 + 0.5).clamp(0 , 1 )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 ).numpy()
if output_type == "pil":
__lowerCamelCase = self.numpy_to_pil(UpperCamelCase_ )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: torch.FloatTensor , UpperCamelCase_: float ):
__lowerCamelCase, __lowerCamelCase = torch.sort(UpperCamelCase_ , 1 , descending=UpperCamelCase_ )
__lowerCamelCase = torch.exp(UpperCamelCase_ )
__lowerCamelCase = sorted_p_x_0.cumsum(dim=1 ) < truncation_rate
# Ensure that at least the largest probability is not zeroed out
__lowerCamelCase = torch.full_like(keep_mask[:, 0:1, :] , UpperCamelCase_ )
__lowerCamelCase = torch.cat((all_true, keep_mask) , dim=1 )
__lowerCamelCase = keep_mask[:, :-1, :]
__lowerCamelCase = keep_mask.gather(1 , indices.argsort(1 ) )
__lowerCamelCase = log_p_x_0.clone()
__lowerCamelCase = -torch.inf # -inf = log(0)
return rv
| 12 | 1 |
import warnings
from ...utils import logging
from .image_processing_owlvit import OwlViTImageProcessor
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__( __lowerCamelCase):
def __init__( self: int , *UpperCamelCase_: Optional[Any] , **UpperCamelCase_: Optional[int] ):
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_ )
| 12 |
from transformers import DistilBertTokenizer, DistilBertTokenizerFast
from transformers.testing_utils import require_tokenizers, slow
from ..bert.test_tokenization_bert import BertTokenizationTest
@require_tokenizers
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Dict = DistilBertTokenizer
UpperCAmelCase__ : Dict = DistilBertTokenizerFast
UpperCAmelCase__ : Tuple = True
@slow
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = DistilBertTokenizer.from_pretrained("""distilbert-base-uncased""" )
__lowerCamelCase = tokenizer.encode("""sequence builders""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode("""multi-sequence build""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ , UpperCamelCase_ )
assert encoded_sentence == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id]
assert encoded_pair == [tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] + text_a + [
tokenizer.sep_token_id
]
| 12 | 1 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : list , A__ : int ):
'''simple docstring'''
if len(A__ ) <= 1 or n <= 1:
return
insert_next(A__ , n - 1 )
rec_insertion_sort(A__ , n - 1 )
def lowerCamelCase__ ( A__ : list , A__ : int ):
'''simple docstring'''
if index >= len(A__ ) or collection[index - 1] <= collection[index]:
return
# Swaps adjacent elements since they are not in ascending order
__lowerCamelCase, __lowerCamelCase = (
collection[index],
collection[index - 1],
)
insert_next(A__ , index + 1 )
if __name__ == "__main__":
UpperCAmelCase_ = input('Enter integers separated by spaces: ')
UpperCAmelCase_ = [int(num) for num in numbers.split()]
rec_insertion_sort(number_list, len(number_list))
print(number_list)
| 12 |
import argparse
import json
import os
import evaluate
import torch
from datasets import load_dataset
from torch.optim import AdamW
from torch.utils.data import DataLoader
from transformers import AutoModelForSequenceClassification, AutoTokenizer, get_linear_schedule_with_warmup, set_seed
from accelerate import Accelerator, DistributedType
from accelerate.utils.deepspeed import DummyOptim, DummyScheduler
UpperCAmelCase_ = 16
UpperCAmelCase_ = 32
def lowerCamelCase__ ( A__ : Accelerator , A__ : int = 16 , A__ : str = "bert-base-cased" ):
'''simple docstring'''
__lowerCamelCase = AutoTokenizer.from_pretrained(A__ )
__lowerCamelCase = load_dataset("""glue""" , """mrpc""" )
def tokenize_function(A__ : int ):
# max_length=None => use the model max length (it's actually the default)
__lowerCamelCase = tokenizer(examples["""sentence1"""] , examples["""sentence2"""] , truncation=A__ , max_length=A__ )
return outputs
# Apply the method we just defined to all the examples in all the splits of the dataset
__lowerCamelCase = datasets.map(
A__ , batched=A__ , remove_columns=["""idx""", """sentence1""", """sentence2"""] , load_from_cache_file=A__ )
# We also rename the 'label' column to 'labels' which is the expected name for labels by the models of the
# transformers library
__lowerCamelCase = tokenized_datasets.rename_column("""label""" , """labels""" )
def collate_fn(A__ : Optional[int] ):
# On TPU it's best to pad everything to the same length or training will be very slow.
if accelerator.distributed_type == DistributedType.TPU:
return tokenizer.pad(A__ , padding="""max_length""" , max_length=128 , return_tensors="""pt""" )
return tokenizer.pad(A__ , padding="""longest""" , return_tensors="""pt""" )
# Instantiate dataloaders.
__lowerCamelCase = DataLoader(
tokenized_datasets["""train"""] , shuffle=A__ , collate_fn=A__ , batch_size=A__ )
__lowerCamelCase = DataLoader(
tokenized_datasets["""validation"""] , shuffle=A__ , collate_fn=A__ , batch_size=A__ )
return train_dataloader, eval_dataloader
def lowerCamelCase__ ( A__ : Tuple , A__ : Union[str, Any] , A__ : Tuple , A__ : Optional[Any] ):
'''simple docstring'''
model.eval()
__lowerCamelCase = 0
for step, batch in enumerate(A__ ):
# We could avoid this line since we set the accelerator with `device_placement=True`.
batch.to(accelerator.device )
with torch.no_grad():
__lowerCamelCase = model(**A__ )
__lowerCamelCase = outputs.logits.argmax(dim=-1 )
# It is slightly faster to call this once, than multiple times
__lowerCamelCase, __lowerCamelCase = accelerator.gather(
(predictions, batch["""labels"""]) ) # If we are in a multiprocess environment, the last batch has duplicates
if accelerator.use_distributed:
if step == len(A__ ) - 1:
__lowerCamelCase = predictions[: len(eval_dataloader.dataset ) - samples_seen]
__lowerCamelCase = references[: len(eval_dataloader.dataset ) - samples_seen]
else:
samples_seen += references.shape[0]
metric.add_batch(
predictions=A__ , references=A__ , )
__lowerCamelCase = metric.compute()
return eval_metric["accuracy"]
def lowerCamelCase__ ( A__ : Optional[Any] , A__ : Optional[int] ):
'''simple docstring'''
__lowerCamelCase = Accelerator()
# Sample hyper-parameters for learning rate, batch size, seed and a few other HPs
__lowerCamelCase = config["""lr"""]
__lowerCamelCase = int(config["""num_epochs"""] )
__lowerCamelCase = int(config["""seed"""] )
__lowerCamelCase = int(config["""batch_size"""] )
__lowerCamelCase = args.model_name_or_path
set_seed(A__ )
__lowerCamelCase, __lowerCamelCase = get_dataloaders(A__ , A__ , A__ )
# Instantiate the model (we build the model here so that the seed also control new weights initialization)
__lowerCamelCase = AutoModelForSequenceClassification.from_pretrained(A__ , return_dict=A__ )
# Instantiate optimizer
__lowerCamelCase = (
AdamW
if accelerator.state.deepspeed_plugin is None
or """optimizer""" not in accelerator.state.deepspeed_plugin.deepspeed_config
else DummyOptim
)
__lowerCamelCase = optimizer_cls(params=model.parameters() , lr=A__ )
if accelerator.state.deepspeed_plugin is not None:
__lowerCamelCase = accelerator.state.deepspeed_plugin.deepspeed_config[
"""gradient_accumulation_steps"""
]
else:
__lowerCamelCase = 1
__lowerCamelCase = (len(A__ ) * num_epochs) // gradient_accumulation_steps
# Instantiate scheduler
if (
accelerator.state.deepspeed_plugin is None
or "scheduler" not in accelerator.state.deepspeed_plugin.deepspeed_config
):
__lowerCamelCase = get_linear_schedule_with_warmup(
optimizer=A__ , num_warmup_steps=0 , num_training_steps=A__ , )
else:
__lowerCamelCase = DummyScheduler(A__ , total_num_steps=A__ , warmup_num_steps=0 )
# Prepare everything
# There is no specific order to remember, we just need to unpack the objects in the same order we gave them to the
# prepare method.
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = accelerator.prepare(
A__ , A__ , A__ , A__ , A__ )
# We need to keep track of how many total steps we have iterated over
__lowerCamelCase = 0
# We also need to keep track of the stating epoch so files are named properly
__lowerCamelCase = 0
__lowerCamelCase = evaluate.load("""glue""" , """mrpc""" )
__lowerCamelCase = num_epochs
if args.partial_train_epoch is not None:
__lowerCamelCase = args.partial_train_epoch
if args.resume_from_checkpoint:
accelerator.load_state(args.resume_from_checkpoint )
__lowerCamelCase = args.resume_from_checkpoint.split("""epoch_""" )[1]
__lowerCamelCase = """"""
for char in epoch_string:
if char.isdigit():
state_epoch_num += char
else:
break
__lowerCamelCase = int(A__ ) + 1
__lowerCamelCase = evaluation_loop(A__ , A__ , A__ , A__ )
accelerator.print("""resumed checkpoint performance:""" , A__ )
accelerator.print("""resumed checkpoint's scheduler's lr:""" , lr_scheduler.get_lr()[0] )
accelerator.print("""resumed optimizers's lr:""" , optimizer.param_groups[0]["""lr"""] )
with open(os.path.join(args.output_dir , f'state_{starting_epoch-1}.json' ) , """r""" ) as f:
__lowerCamelCase = json.load(A__ )
assert resumed_state["accuracy"] == accuracy, "Accuracy mismatch, loading from checkpoint failed"
assert (
resumed_state["lr"] == lr_scheduler.get_lr()[0]
), "Scheduler learning rate mismatch, loading from checkpoint failed"
assert (
resumed_state["optimizer_lr"] == optimizer.param_groups[0]["lr"]
), "Optimizer learning rate mismatch, loading from checkpoint failed"
assert resumed_state["epoch"] == starting_epoch - 1, "Epoch mismatch, loading from checkpoint failed"
return
# Now we train the model
__lowerCamelCase = {}
for epoch in range(A__ , A__ ):
model.train()
for step, batch in enumerate(A__ ):
__lowerCamelCase = model(**A__ )
__lowerCamelCase = outputs.loss
__lowerCamelCase = loss / gradient_accumulation_steps
accelerator.backward(A__ )
if step % gradient_accumulation_steps == 0:
optimizer.step()
lr_scheduler.step()
optimizer.zero_grad()
overall_step += 1
__lowerCamelCase = f'epoch_{epoch}'
__lowerCamelCase = os.path.join(args.output_dir , A__ )
accelerator.save_state(A__ )
__lowerCamelCase = evaluation_loop(A__ , A__ , A__ , A__ )
__lowerCamelCase = accuracy
__lowerCamelCase = lr_scheduler.get_lr()[0]
__lowerCamelCase = optimizer.param_groups[0]["""lr"""]
__lowerCamelCase = epoch
__lowerCamelCase = overall_step
accelerator.print(f'epoch {epoch}:' , A__ )
accelerator.wait_for_everyone()
if accelerator.is_main_process:
with open(os.path.join(args.output_dir , f'state_{epoch}.json' ) , """w""" ) as f:
json.dump(A__ , A__ )
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = argparse.ArgumentParser(description="""Simple example of training script tracking peak GPU memory usage.""" )
parser.add_argument(
"""--model_name_or_path""" , type=A__ , default="""bert-base-cased""" , help="""Path to pretrained model or model identifier from huggingface.co/models.""" , required=A__ , )
parser.add_argument(
"""--output_dir""" , type=A__ , default=""".""" , help="""Optional save directory where all checkpoint folders will be stored. Default is the current working directory.""" , )
parser.add_argument(
"""--resume_from_checkpoint""" , type=A__ , default=A__ , help="""If the training should continue from a checkpoint folder.""" , )
parser.add_argument(
"""--partial_train_epoch""" , type=A__ , default=A__ , help="""If passed, the training will stop after this number of epochs.""" , )
parser.add_argument(
"""--num_epochs""" , type=A__ , default=2 , help="""Number of train epochs.""" , )
__lowerCamelCase = parser.parse_args()
__lowerCamelCase = {"""lr""": 2E-5, """num_epochs""": args.num_epochs, """seed""": 42, """batch_size""": 16}
training_function(A__ , A__ )
if __name__ == "__main__":
main()
| 12 | 1 |
import unittest
from transformers import GPTNeoXJapaneseConfig, is_torch_available
from transformers.models.gpt_neox_japanese.tokenization_gpt_neox_japanese import GPTNeoXJapaneseTokenizer
from transformers.testing_utils import require_torch, slow, torch_device
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, ids_tensor, random_attention_mask
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import GPTNeoXJapaneseForCausalLM, GPTNeoXJapaneseModel
class lowerCamelCase__:
def __init__( self: Optional[int] , UpperCamelCase_: str , UpperCamelCase_: Any=13 , UpperCamelCase_: Optional[int]=7 , UpperCamelCase_: Any=True , UpperCamelCase_: Union[str, Any]=True , UpperCamelCase_: Dict=True , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: List[Any]=99 , UpperCamelCase_: Optional[int]=32 , UpperCamelCase_: List[Any]=5 , UpperCamelCase_: int=4 , UpperCamelCase_: List[str]=4 , UpperCamelCase_: Union[str, Any]="gelu" , UpperCamelCase_: List[Any]=0.0 , UpperCamelCase_: Dict=0.1 , UpperCamelCase_: str=True , UpperCamelCase_: Optional[Any]=5_12 , UpperCamelCase_: int=16 , UpperCamelCase_: Optional[Any]=2 , UpperCamelCase_: List[Any]=0.02 , UpperCamelCase_: Union[str, Any]=3 , UpperCamelCase_: Optional[Any]=4 , UpperCamelCase_: Tuple=None , ):
__lowerCamelCase = parent
__lowerCamelCase = batch_size
__lowerCamelCase = seq_length
__lowerCamelCase = is_training
__lowerCamelCase = use_input_mask
__lowerCamelCase = use_token_type_ids
__lowerCamelCase = use_labels
__lowerCamelCase = vocab_size
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = intermediate_multiple_size
__lowerCamelCase = hidden_act
__lowerCamelCase = hidden_dropout
__lowerCamelCase = attention_dropout
__lowerCamelCase = weight_tying
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = type_vocab_size
__lowerCamelCase = type_sequence_label_size
__lowerCamelCase = initializer_range
__lowerCamelCase = num_labels
__lowerCamelCase = num_choices
__lowerCamelCase = scope
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__lowerCamelCase = None
if self.use_input_mask:
__lowerCamelCase = random_attention_mask([self.batch_size, self.seq_length] )
__lowerCamelCase = None
if self.use_labels:
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.num_labels )
__lowerCamelCase = self.get_config()
return config, input_ids, input_mask, token_labels
def lowerCAmelCase__ ( self: Any ):
return GPTNeoXJapaneseConfig(
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_multiple_size=self.intermediate_multiple_size , hidden_act=self.hidden_act , hidden_dropout=self.hidden_dropout , attention_dropout=self.attention_dropout , weight_tying=self.weight_tying , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=UpperCamelCase_ , initializer_range=self.initializer_range , )
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = self.prepare_config_and_inputs()
__lowerCamelCase = True
return config, input_ids, input_mask, token_labels
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: str , UpperCamelCase_: Optional[int] , UpperCamelCase_: List[Any] ):
__lowerCamelCase = GPTNeoXJapaneseModel(config=UpperCamelCase_ )
model.to(UpperCamelCase_ )
model.eval()
__lowerCamelCase = model(UpperCamelCase_ , attention_mask=UpperCamelCase_ )
__lowerCamelCase = model(UpperCamelCase_ )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: List[Any] , UpperCamelCase_: Union[str, Any] , UpperCamelCase_: List[Any] ):
__lowerCamelCase = True
__lowerCamelCase = GPTNeoXJapaneseModel(UpperCamelCase_ )
model.to(UpperCamelCase_ )
model.eval()
__lowerCamelCase = 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: Union[str, Any] , UpperCamelCase_: Union[str, Any] , UpperCamelCase_: int , UpperCamelCase_: str , UpperCamelCase_: int ):
__lowerCamelCase = GPTNeoXJapaneseForCausalLM(config=UpperCamelCase_ )
model.to(UpperCamelCase_ )
model.eval()
__lowerCamelCase = 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: int , UpperCamelCase_: Union[str, Any] , UpperCamelCase_: List[Any] , UpperCamelCase_: Any ):
__lowerCamelCase = True
__lowerCamelCase = GPTNeoXJapaneseForCausalLM(config=UpperCamelCase_ )
model.to(UpperCamelCase_ )
model.eval()
# first forward pass
__lowerCamelCase = model(UpperCamelCase_ , attention_mask=UpperCamelCase_ , use_cache=UpperCamelCase_ )
__lowerCamelCase = outputs.past_key_values
# create hypothetical multiple next token and extent to next_input_ids
__lowerCamelCase = ids_tensor((self.batch_size, 3) , config.vocab_size )
__lowerCamelCase = ids_tensor((self.batch_size, 3) , vocab_size=2 )
# append to next input_ids and
__lowerCamelCase = torch.cat([input_ids, next_tokens] , dim=-1 )
__lowerCamelCase = torch.cat([input_mask, next_mask] , dim=-1 )
__lowerCamelCase = model(UpperCamelCase_ , attention_mask=UpperCamelCase_ , output_hidden_states=UpperCamelCase_ )
__lowerCamelCase = output_from_no_past["""hidden_states"""][0]
__lowerCamelCase = model(
UpperCamelCase_ , attention_mask=UpperCamelCase_ , past_key_values=UpperCamelCase_ , output_hidden_states=UpperCamelCase_ , )["""hidden_states"""][0]
# select random slice
__lowerCamelCase = ids_tensor((1,) , output_from_past.shape[-1] ).item()
__lowerCamelCase = output_from_no_past[:, -3:, random_slice_idx].detach()
__lowerCamelCase = 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 ):
__lowerCamelCase = self.prepare_config_and_inputs()
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = config_and_inputs
__lowerCamelCase = {"""input_ids""": input_ids, """attention_mask""": input_mask}
return config, inputs_dict
@require_torch
class lowerCamelCase__( __lowerCamelCase , __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : List[Any] = (GPTNeoXJapaneseModel, GPTNeoXJapaneseForCausalLM) if is_torch_available() else ()
UpperCAmelCase__ : Dict = (GPTNeoXJapaneseForCausalLM,) if is_torch_available() else ()
UpperCAmelCase__ : Dict = (
{'feature-extraction': GPTNeoXJapaneseModel, 'text-generation': GPTNeoXJapaneseForCausalLM}
if is_torch_available()
else {}
)
UpperCAmelCase__ : Optional[int] = False
UpperCAmelCase__ : List[Any] = False
UpperCAmelCase__ : Tuple = False
UpperCAmelCase__ : Optional[int] = False
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = GPTNeoXJapaneseModelTester(self )
__lowerCamelCase = ConfigTester(self , config_class=UpperCamelCase_ , hidden_size=37 )
def lowerCAmelCase__ ( self: Optional[Any] ):
self.config_tester.run_common_tests()
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_decoder()
self.model_tester.create_and_check_model_as_decoder(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Any ):
# This regression test was failing with PyTorch < 1.3
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_decoder()
__lowerCamelCase = None
self.model_tester.create_and_check_model_as_decoder(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_decoder_model_past_large_inputs(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_causal_lm(*UpperCamelCase_ )
@slow
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = """abeja/gpt-neox-japanese-2.7b"""
__lowerCamelCase = ["""データサイエンティストとは、""", """100年後に必要とされる会社は、""", """フルリモートの環境で働くために必要なことは、""", """国境の長いトンネルを抜けると""", """美味しい日本食といえば、"""]
__lowerCamelCase = [
"""データサイエンティストとは、データを分析し、ビジネスに役立つ知見を導き出す専門家のことです。""",
"""100年後に必要とされる会社は、「人」が中心の会社です。""",
"""フルリモートの環境で働くために必要なことは、「自分の時間をコントロールする」ことです。""",
"""国境の長いトンネルを抜けると、そこは雪国だった。""",
"""美味しい日本食といえば、やっぱりお寿司ですよね。""",
]
__lowerCamelCase = GPTNeoXJapaneseTokenizer.from_pretrained(UpperCamelCase_ )
__lowerCamelCase = GPTNeoXJapaneseForCausalLM.from_pretrained(UpperCamelCase_ )
__lowerCamelCase = []
for prompt in prompts:
__lowerCamelCase = tokenizer(UpperCamelCase_ , return_tensors="""pt""" ).input_ids
__lowerCamelCase = model.generate(UpperCamelCase_ , max_length=50 )
__lowerCamelCase = tokenizer.batch_decode(UpperCamelCase_ , skip_special_tokens=UpperCamelCase_ )
predicted_outputs += generated_string
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
| 12 |
import json
import sys
import tempfile
import unittest
from pathlib import Path
import transformers
from transformers import (
CONFIG_MAPPING,
FEATURE_EXTRACTOR_MAPPING,
AutoConfig,
AutoFeatureExtractor,
WavaVecaConfig,
WavaVecaFeatureExtractor,
)
from transformers.testing_utils import DUMMY_UNKNOWN_IDENTIFIER, get_tests_dir
sys.path.append(str(Path(__file__).parent.parent.parent.parent / 'utils'))
from test_module.custom_configuration import CustomConfig # noqa E402
from test_module.custom_feature_extraction import CustomFeatureExtractor # noqa E402
UpperCAmelCase_ = get_tests_dir('fixtures')
UpperCAmelCase_ = get_tests_dir('fixtures/dummy_feature_extractor_config.json')
UpperCAmelCase_ = get_tests_dir('fixtures/dummy-config.json')
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = 0
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""facebook/wav2vec2-base-960h""" )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
with tempfile.TemporaryDirectory() as tmpdirname:
__lowerCamelCase = WavaVecaConfig()
# remove feature_extractor_type to make sure config.json alone is enough to load feature processor locally
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ ).to_dict()
config_dict.pop("""feature_extractor_type""" )
__lowerCamelCase = WavaVecaFeatureExtractor(**UpperCamelCase_ )
# save in new folder
model_config.save_pretrained(UpperCamelCase_ )
config.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
# make sure private variable is not incorrectly saved
__lowerCamelCase = json.loads(config.to_json_string() )
self.assertTrue("""_processor_class""" not in dict_as_saved )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
with self.assertRaisesRegex(
UpperCamelCase_ , """bert-base is not a local folder and is not a valid model identifier""" ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""bert-base""" )
def lowerCAmelCase__ ( self: Tuple ):
with self.assertRaisesRegex(
UpperCamelCase_ , r"""aaaaaa is not a valid git identifier \(branch name, tag name or commit id\)""" ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ , revision="""aaaaaa""" )
def lowerCAmelCase__ ( self: Optional[Any] ):
with self.assertRaisesRegex(
UpperCamelCase_ , """hf-internal-testing/config-no-model does not appear to have a file named preprocessor_config.json.""" , ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained("""hf-internal-testing/config-no-model""" )
def lowerCAmelCase__ ( self: Tuple ):
# If remote code is not set, we will time out when asking whether to load the model.
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" )
# If remote code is disabled, we can't load this config.
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
# Test feature extractor can be reloaded.
with tempfile.TemporaryDirectory() as tmp_dir:
feature_extractor.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ , trust_remote_code=UpperCamelCase_ )
self.assertEqual(reloaded_feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
def lowerCAmelCase__ ( self: Any ):
try:
AutoConfig.register("""custom""" , UpperCamelCase_ )
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# Trying to register something existing in the Transformers library will raise an error
with self.assertRaises(UpperCamelCase_ ):
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# Now that the config is registered, it can be used as any other config with the auto-API
__lowerCamelCase = CustomFeatureExtractor.from_pretrained(UpperCamelCase_ )
with tempfile.TemporaryDirectory() as tmp_dir:
feature_extractor.save_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(UpperCamelCase_ )
self.assertIsInstance(UpperCamelCase_ , UpperCamelCase_ )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in FEATURE_EXTRACTOR_MAPPING._extra_content:
del FEATURE_EXTRACTOR_MAPPING._extra_content[CustomConfig]
def lowerCAmelCase__ ( self: Dict ):
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : str = True
try:
AutoConfig.register("""custom""" , UpperCamelCase_ )
AutoFeatureExtractor.register(UpperCamelCase_ , UpperCamelCase_ )
# If remote code is not set, the default is to use local
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(feature_extractor.is_local )
# If remote code is disabled, we load the local one.
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(feature_extractor.is_local )
# If remote is enabled, we load from the Hub
__lowerCamelCase = AutoFeatureExtractor.from_pretrained(
"""hf-internal-testing/test_dynamic_feature_extractor""" , trust_remote_code=UpperCamelCase_ )
self.assertEqual(feature_extractor.__class__.__name__ , """NewFeatureExtractor""" )
self.assertTrue(not hasattr(UpperCamelCase_ , """is_local""" ) )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in FEATURE_EXTRACTOR_MAPPING._extra_content:
del FEATURE_EXTRACTOR_MAPPING._extra_content[CustomConfig]
| 12 | 1 |
from ...configuration_utils import PretrainedConfig
from ...utils import logging
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'facebook/s2t-wav2vec2-large-en-de': (
'https://huggingface.co/facebook/s2t-wav2vec2-large-en-de/resolve/main/config.json'
),
# See all Speech2Text models at https://huggingface.co/models?filter=speech2text2
}
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : List[str] = 'speech_to_text_2'
UpperCAmelCase__ : Dict = ['past_key_values']
UpperCAmelCase__ : Tuple = {'num_attention_heads': 'decoder_attention_heads', 'hidden_size': 'd_model'}
def __init__( self: Optional[int] , UpperCamelCase_: List[str]=1_00_00 , UpperCamelCase_: int=6 , UpperCamelCase_: Dict=20_48 , UpperCamelCase_: Tuple=4 , UpperCamelCase_: List[Any]=0.0 , UpperCamelCase_: Union[str, Any]=True , UpperCamelCase_: int="relu" , UpperCamelCase_: Optional[Any]=2_56 , UpperCamelCase_: Tuple=0.1 , UpperCamelCase_: Optional[int]=0.0 , UpperCamelCase_: Union[str, Any]=0.0 , UpperCamelCase_: int=0.02 , UpperCamelCase_: str=2 , UpperCamelCase_: Optional[int]=True , UpperCamelCase_: Optional[Any]=1 , UpperCamelCase_: Optional[int]=0 , UpperCamelCase_: Any=2 , UpperCamelCase_: Optional[int]=10_24 , **UpperCamelCase_: Optional[Any] , ):
__lowerCamelCase = vocab_size
__lowerCamelCase = d_model
__lowerCamelCase = decoder_ffn_dim
__lowerCamelCase = decoder_layers
__lowerCamelCase = decoder_attention_heads
__lowerCamelCase = dropout
__lowerCamelCase = attention_dropout
__lowerCamelCase = activation_dropout
__lowerCamelCase = activation_function
__lowerCamelCase = init_std
__lowerCamelCase = decoder_layerdrop
__lowerCamelCase = use_cache
__lowerCamelCase = decoder_layers
__lowerCamelCase = scale_embedding # scale factor will be sqrt(d_model) if True
__lowerCamelCase = max_target_positions
super().__init__(
pad_token_id=UpperCamelCase_ , bos_token_id=UpperCamelCase_ , eos_token_id=UpperCamelCase_ , decoder_start_token_id=UpperCamelCase_ , **UpperCamelCase_ , )
| 12 |
# Lint as: python3
import os
import re
import urllib.parse
from pathlib import Path
from typing import Callable, List, Optional, Union
from zipfile import ZipFile
from ..utils.file_utils import cached_path, hf_github_url
from ..utils.logging import get_logger
from ..utils.version import Version
UpperCAmelCase_ = get_logger(__name__)
class lowerCamelCase__:
UpperCAmelCase__ : List[Any] = 'dummy_data'
UpperCAmelCase__ : str = 'datasets'
UpperCAmelCase__ : Tuple = False
def __init__( self: Optional[Any] , UpperCamelCase_: str , UpperCamelCase_: str , UpperCamelCase_: Union[Version, str] , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: bool = False , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[List[Callable]] = None , ):
__lowerCamelCase = 0
__lowerCamelCase = dataset_name
__lowerCamelCase = cache_dir
__lowerCamelCase = use_local_dummy_data
__lowerCamelCase = config
# download_callbacks take a single url as input
__lowerCamelCase = download_callbacks or []
# if False, it doesn't load existing files and it returns the paths of the dummy files relative
# to the dummy_data zip file root
__lowerCamelCase = load_existing_dummy_data
# TODO(PVP, QL) might need to make this more general
__lowerCamelCase = str(UpperCamelCase_ )
# to be downloaded
__lowerCamelCase = None
__lowerCamelCase = None
@property
def lowerCAmelCase__ ( self: List[Any] ):
if self._dummy_file is None:
__lowerCamelCase = self.download_dummy_data()
return self._dummy_file
@property
def lowerCAmelCase__ ( self: str ):
if self.config is not None:
# structure is dummy / config_name / version_name
return os.path.join("""dummy""" , self.config.name , self.version_name )
# structure is dummy / version_name
return os.path.join("""dummy""" , self.version_name )
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
return os.path.join(self.dummy_data_folder , """dummy_data.zip""" )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = (
self.local_path_to_dummy_data if self.use_local_dummy_data is True else self.github_path_to_dummy_data
)
__lowerCamelCase = cached_path(
UpperCamelCase_ , cache_dir=self.cache_dir , extract_compressed_file=UpperCamelCase_ , force_extract=UpperCamelCase_ )
return os.path.join(UpperCamelCase_ , self.dummy_file_name )
@property
def lowerCAmelCase__ ( self: Optional[Any] ):
return os.path.join(self.datasets_scripts_dir , self.dataset_name , self.dummy_zip_file )
@property
def lowerCAmelCase__ ( self: Tuple ):
if self._bucket_url is None:
__lowerCamelCase = hf_github_url(self.dataset_name , self.dummy_zip_file.replace(os.sep , """/""" ) )
return self._bucket_url
@property
def lowerCAmelCase__ ( self: str ):
# return full path if its a dir
if os.path.isdir(self.dummy_file ):
return self.dummy_file
# else cut off path to file -> example `xsum`.
return "/".join(self.dummy_file.replace(os.sep , """/""" ).split("""/""" )[:-1] )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Dict , *UpperCamelCase_: str ):
if self.load_existing_dummy_data:
# dummy data is downloaded and tested
__lowerCamelCase = self.dummy_file
else:
# dummy data cannot be downloaded and only the path to dummy file is returned
__lowerCamelCase = self.dummy_file_name
# special case when data_url is a dict
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
return self.create_dummy_data_dict(UpperCamelCase_ , UpperCamelCase_ )
elif isinstance(UpperCamelCase_ , (list, tuple) ):
return self.create_dummy_data_list(UpperCamelCase_ , UpperCamelCase_ )
else:
return self.create_dummy_data_single(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: Optional[Any] , *UpperCamelCase_: str ):
return self.download_and_extract(UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Tuple , UpperCamelCase_: str ):
return self.download_and_extract(UpperCamelCase_ )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: int , *UpperCamelCase_: List[str] , **UpperCamelCase_: str ):
return path
def lowerCAmelCase__ ( self: Dict ):
return {}
def lowerCAmelCase__ ( self: str , UpperCamelCase_: List[Any] , UpperCamelCase_: Union[str, Any] ):
__lowerCamelCase = {}
for key, single_urls in data_url.items():
for download_callback in self.download_callbacks:
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
for single_url in single_urls:
download_callback(UpperCamelCase_ )
else:
__lowerCamelCase = single_urls
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = [os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(Path(UpperCamelCase_ ).name ) ) for x in single_urls]
else:
__lowerCamelCase = single_urls
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(Path(UpperCamelCase_ ).name ) )
__lowerCamelCase = value
# make sure that values are unique
if all(isinstance(UpperCamelCase_ , UpperCamelCase_ ) for i in dummy_data_dict.values() ) and len(set(dummy_data_dict.values() ) ) < len(
dummy_data_dict.values() ):
# append key to value to make its name unique
__lowerCamelCase = {key: value + key for key, value in dummy_data_dict.items()}
return dummy_data_dict
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Optional[Any] , UpperCamelCase_: Optional[int] ):
__lowerCamelCase = []
# trick: if there are many shards named like `data.txt-000001-of-00300`, only use the first one
__lowerCamelCase = all(bool(re.findall("""[0-9]{3,}-of-[0-9]{3,}""" , UpperCamelCase_ ) ) for url in data_url )
__lowerCamelCase = all(
url.startswith("""https://ftp.ncbi.nlm.nih.gov/pubmed/baseline/pubmed""" ) for url in data_url )
if data_url and (is_tf_records or is_pubmed_records):
__lowerCamelCase = [data_url[0]] * len(UpperCamelCase_ )
for single_url in data_url:
for download_callback in self.download_callbacks:
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(single_url.split("""/""" )[-1] ) )
dummy_data_list.append(UpperCamelCase_ )
return dummy_data_list
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Optional[int] , UpperCamelCase_: Optional[Any] ):
for download_callback in self.download_callbacks:
download_callback(UpperCamelCase_ )
# we force the name of each key to be the last file / folder name of the url path
# if the url has arguments, we need to encode them with urllib.parse.quote_plus
__lowerCamelCase = os.path.join(UpperCamelCase_ , urllib.parse.quote_plus(data_url.split("""/""" )[-1] ) )
if os.path.exists(UpperCamelCase_ ) or not self.load_existing_dummy_data:
return value
else:
# Backward compatibility, maybe deprecate at one point.
# For many datasets with single url calls to dl_manager.download_and_extract,
# the dummy_data.zip file is actually the zipped downloaded file
# while now we expected the dummy_data.zip file to be a directory containing
# the downloaded file.
return path_to_dummy_data
def lowerCAmelCase__ ( self: Optional[Any] ):
pass
def lowerCAmelCase__ ( self: List[Any] ):
pass
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: Dict ):
def _iter_archive_members(UpperCamelCase_: Any ):
# this preserves the order of the members inside the ZIP archive
__lowerCamelCase = Path(self.dummy_file ).parent
__lowerCamelCase = path.relative_to(UpperCamelCase_ )
with ZipFile(self.local_path_to_dummy_data ) as zip_file:
__lowerCamelCase = zip_file.namelist()
for member in members:
if member.startswith(relative_path.as_posix() ):
yield dummy_parent_path.joinpath(UpperCamelCase_ )
__lowerCamelCase = Path(UpperCamelCase_ )
__lowerCamelCase = _iter_archive_members(UpperCamelCase_ ) if self.use_local_dummy_data else path.rglob("""*""" )
for file_path in file_paths:
if file_path.is_file() and not file_path.name.startswith((""".""", """__""") ):
yield file_path.relative_to(UpperCamelCase_ ).as_posix(), file_path.open("""rb""" )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Dict ):
if not isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = [paths]
for path in paths:
if os.path.isfile(UpperCamelCase_ ):
if os.path.basename(UpperCamelCase_ ).startswith((""".""", """__""") ):
return
yield path
else:
for dirpath, dirnames, filenames in os.walk(UpperCamelCase_ ):
if os.path.basename(UpperCamelCase_ ).startswith((""".""", """__""") ):
continue
dirnames.sort()
for filename in sorted(UpperCamelCase_ ):
if filename.startswith((""".""", """__""") ):
continue
yield os.path.join(UpperCamelCase_ , UpperCamelCase_ )
| 12 | 1 |
import unittest
from transformers import CamembertTokenizer, CamembertTokenizerFast
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from transformers.utils import is_torch_available
from ...test_tokenization_common import TokenizerTesterMixin
UpperCAmelCase_ = get_tests_dir('fixtures/test_sentencepiece.model')
UpperCAmelCase_ = get_tests_dir('fixtures/test_sentencepiece_bpe.model')
UpperCAmelCase_ = 'pt' if is_torch_available() else 'tf'
@require_sentencepiece
@require_tokenizers
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Tuple = CamembertTokenizer
UpperCAmelCase__ : Tuple = CamembertTokenizerFast
UpperCAmelCase__ : List[Any] = True
UpperCAmelCase__ : str = True
def lowerCAmelCase__ ( self: int ):
super().setUp()
# We have a SentencePiece fixture for testing
__lowerCamelCase = CamembertTokenizer(UpperCamelCase_ )
tokenizer.save_pretrained(self.tmpdirname )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = """<pad>"""
__lowerCamelCase = 1
self.assertEqual(self.get_tokenizer()._convert_token_to_id(UpperCamelCase_ ) , UpperCamelCase_ )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(UpperCamelCase_ ) , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0] , """<s>NOTUSED""" )
self.assertEqual(vocab_keys[1] , """<pad>""" )
self.assertEqual(vocab_keys[-1] , """<mask>""" )
self.assertEqual(len(UpperCamelCase_ ) , 10_04 )
def lowerCAmelCase__ ( self: Any ):
self.assertEqual(self.get_tokenizer().vocab_size , 10_05 )
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = CamembertTokenizer(UpperCamelCase_ )
tokenizer.save_pretrained(self.tmpdirname )
__lowerCamelCase = CamembertTokenizerFast.from_pretrained(self.tmpdirname )
__lowerCamelCase = """I was born in 92000, and this is falsé."""
__lowerCamelCase = tokenizer.encode(UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.encode(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
# <unk> tokens are not the same for `rust` than for `slow`.
# Because spm gives back raw token instead of `unk` in EncodeAsPieces
# tokens = tokenizer.tokenize(sequence)
__lowerCamelCase = tokenizer.convert_ids_to_tokens(UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple ):
if not self.test_rust_tokenizer:
return
__lowerCamelCase = self.get_tokenizer()
__lowerCamelCase = self.get_rust_tokenizer()
__lowerCamelCase = """I was born in 92000, and this is falsé."""
__lowerCamelCase = tokenizer.tokenize(UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = self.get_rust_tokenizer()
__lowerCamelCase = tokenizer.encode(UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.encode(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
@slow
def lowerCAmelCase__ ( self: Dict ):
# fmt: off
__lowerCamelCase = {"""input_ids""": [[5, 54, 71_96, 2_97, 30, 23, 7_76, 18, 11, 32_15, 37_05, 82_52, 22, 31_64, 11_81, 21_16, 29, 16, 8_13, 25, 7_91, 33_14, 20, 34_46, 38, 2_75_75, 1_20, 6, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [5, 4_68, 17, 11, 90_88, 20, 15_17, 8, 2_28_04, 1_88_18, 10, 38, 6_29, 6_07, 6_07, 1_42, 19, 71_96, 8_67, 56, 1_03_26, 24, 22_67, 20, 4_16, 50_72, 1_56_12, 2_33, 7_34, 7, 23_99, 27, 16, 30_15, 16_49, 7, 24, 20, 43_38, 23_99, 27, 13, 34_00, 14, 13, 61_89, 8, 9_30, 9, 6]], """attention_mask""": [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]]} # noqa: E501
# fmt: on
# camembert is a french model. So we also use french texts.
__lowerCamelCase = [
"""Le transformeur est un modèle d'apprentissage profond introduit en 2017, """
"""utilisé principalement dans le domaine du traitement automatique des langues (TAL).""",
"""À l'instar des réseaux de neurones récurrents (RNN), les transformeurs sont conçus """
"""pour gérer des données séquentielles, telles que le langage naturel, pour des tâches """
"""telles que la traduction et la synthèse de texte.""",
]
self.tokenizer_integration_test_util(
expected_encoding=UpperCamelCase_ , model_name="""camembert-base""" , revision="""3a0641d9a1aeb7e848a74299e7e4c4bca216b4cf""" , sequences=UpperCamelCase_ , )
| 12 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : list[int] , A__ : list[int] , A__ : list[int] , A__ : list[list[str]] , A__ : int , ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
# If row is equal to the size of the board it means there are a queen in each row in
# the current board (possible_board)
if row == n:
# We convert the variable possible_board that looks like this: [1, 3, 0, 2] to
# this: ['. Q . . ', '. . . Q ', 'Q . . . ', '. . Q . ']
boards.append([""". """ * i + """Q """ + """. """ * (n - 1 - i) for i in possible_board] )
return
# We iterate each column in the row to find all possible results in each row
for col in range(A__ ):
# We apply that we learned previously. First we check that in the current board
# (possible_board) there are not other same value because if there is it means
# that there are a collision in vertical. Then we apply the two formulas we
# learned before:
#
# 45º: y - x = b or 45: row - col = b
# 135º: y + x = b or row + col = b.
#
# And we verify if the results of this two formulas not exist in their variables
# respectively. (diagonal_right_collisions, diagonal_left_collisions)
#
# If any or these are True it means there is a collision so we continue to the
# next value in the for loop.
if (
col in possible_board
or row - col in diagonal_right_collisions
or row + col in diagonal_left_collisions
):
continue
# If it is False we call dfs function again and we update the inputs
depth_first_search(
[*possible_board, col] , [*diagonal_right_collisions, row - col] , [*diagonal_left_collisions, row + col] , A__ , A__ , )
def lowerCamelCase__ ( A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
depth_first_search([] , [] , [] , A__ , A__ )
# Print all the boards
for board in boards:
for column in board:
print(A__ )
print("""""" )
print(len(A__ ) , """solutions were found.""" )
if __name__ == "__main__":
import doctest
doctest.testmod()
n_queens_solution(4)
| 12 | 1 |
from __future__ import annotations
import queue
class lowerCamelCase__:
def __init__( self: Any , UpperCamelCase_: str ):
__lowerCamelCase = data
__lowerCamelCase = None
__lowerCamelCase = None
def lowerCamelCase__ ( ):
'''simple docstring'''
print("""\n********Press N to stop entering at any point of time********\n""" )
__lowerCamelCase = input("""Enter the value of the root node: """ ).strip().lower()
__lowerCamelCase = queue.Queue()
__lowerCamelCase = TreeNode(int(A__ ) )
q.put(A__ )
while not q.empty():
__lowerCamelCase = q.get()
__lowerCamelCase = f'Enter the left node of {node_found.data}: '
__lowerCamelCase = input(A__ ).strip().lower() or """n"""
if check == "n":
return tree_node
__lowerCamelCase = TreeNode(int(A__ ) )
__lowerCamelCase = left_node
q.put(A__ )
__lowerCamelCase = f'Enter the right node of {node_found.data}: '
__lowerCamelCase = input(A__ ).strip().lower() or """n"""
if check == "n":
return tree_node
__lowerCamelCase = TreeNode(int(A__ ) )
__lowerCamelCase = right_node
q.put(A__ )
raise
def lowerCamelCase__ ( A__ : TreeNode ):
'''simple docstring'''
if not isinstance(A__ , A__ ) or not node:
return
print(node.data , end=""",""" )
pre_order(node.left )
pre_order(node.right )
def lowerCamelCase__ ( A__ : TreeNode ):
'''simple docstring'''
if not isinstance(A__ , A__ ) or not node:
return
in_order(node.left )
print(node.data , end=""",""" )
in_order(node.right )
def lowerCamelCase__ ( A__ : TreeNode ):
'''simple docstring'''
if not isinstance(A__ , A__ ) or not node:
return
post_order(node.left )
post_order(node.right )
print(node.data , end=""",""" )
def lowerCamelCase__ ( A__ : TreeNode ):
'''simple docstring'''
if not isinstance(A__ , A__ ) or not node:
return
__lowerCamelCase = queue.Queue()
q.put(A__ )
while not q.empty():
__lowerCamelCase = q.get()
print(node_dequeued.data , end=""",""" )
if node_dequeued.left:
q.put(node_dequeued.left )
if node_dequeued.right:
q.put(node_dequeued.right )
def lowerCamelCase__ ( A__ : TreeNode ):
'''simple docstring'''
if not isinstance(A__ , A__ ) or not node:
return
__lowerCamelCase = queue.Queue()
q.put(A__ )
while not q.empty():
__lowerCamelCase = []
while not q.empty():
__lowerCamelCase = q.get()
print(node_dequeued.data , end=""",""" )
if node_dequeued.left:
list_.append(node_dequeued.left )
if node_dequeued.right:
list_.append(node_dequeued.right )
print()
for node in list_:
q.put(A__ )
def lowerCamelCase__ ( A__ : TreeNode ):
'''simple docstring'''
if not isinstance(A__ , A__ ) or not node:
return
__lowerCamelCase = []
__lowerCamelCase = node
while n or stack:
while n: # start from root node, find its left child
print(n.data , end=""",""" )
stack.append(A__ )
__lowerCamelCase = n.left
# end of while means current node doesn't have left child
__lowerCamelCase = stack.pop()
# start to traverse its right child
__lowerCamelCase = n.right
def lowerCamelCase__ ( A__ : TreeNode ):
'''simple docstring'''
if not isinstance(A__ , A__ ) or not node:
return
__lowerCamelCase = []
__lowerCamelCase = node
while n or stack:
while n:
stack.append(A__ )
__lowerCamelCase = n.left
__lowerCamelCase = stack.pop()
print(n.data , end=""",""" )
__lowerCamelCase = n.right
def lowerCamelCase__ ( A__ : TreeNode ):
'''simple docstring'''
if not isinstance(A__ , A__ ) or not node:
return
__lowerCamelCase, __lowerCamelCase = [], []
__lowerCamelCase = node
stacka.append(A__ )
while stacka: # to find the reversed order of post order, store it in stack2
__lowerCamelCase = stacka.pop()
if n.left:
stacka.append(n.left )
if n.right:
stacka.append(n.right )
stacka.append(A__ )
while stacka: # pop up from stack2 will be the post order
print(stacka.pop().data , end=""",""" )
def lowerCamelCase__ ( A__ : str = "" , A__ : Tuple=50 , A__ : Optional[int]="*" ):
'''simple docstring'''
if not s:
return "\n" + width * char
__lowerCamelCase, __lowerCamelCase = divmod(width - len(A__ ) - 2 , 2 )
return f'{left * char} {s} {(left + extra) * char}'
if __name__ == "__main__":
import doctest
doctest.testmod()
print(prompt('Binary Tree Traversals'))
UpperCAmelCase_ = build_tree()
print(prompt('Pre Order Traversal'))
pre_order(node)
print(prompt() + '\n')
print(prompt('In Order Traversal'))
in_order(node)
print(prompt() + '\n')
print(prompt('Post Order Traversal'))
post_order(node)
print(prompt() + '\n')
print(prompt('Level Order Traversal'))
level_order(node)
print(prompt() + '\n')
print(prompt('Actual Level Order Traversal'))
level_order_actual(node)
print('*' * 50 + '\n')
print(prompt('Pre Order Traversal - Iteration Version'))
pre_order_iter(node)
print(prompt() + '\n')
print(prompt('In Order Traversal - Iteration Version'))
in_order_iter(node)
print(prompt() + '\n')
print(prompt('Post Order Traversal - Iteration Version'))
post_order_iter(node)
print(prompt())
| 12 |
from __future__ import annotations
from collections import namedtuple
from dataclasses import dataclass
@dataclass
class lowerCamelCase__:
UpperCAmelCase__ : int
UpperCAmelCase__ : TreeNode | None = None
UpperCAmelCase__ : TreeNode | None = None
UpperCAmelCase_ = namedtuple('CoinsDistribResult', 'moves excess')
def lowerCamelCase__ ( A__ : TreeNode | None ):
'''simple docstring'''
if root is None:
return 0
# Validation
def count_nodes(A__ : TreeNode | None ) -> int:
if node is None:
return 0
return count_nodes(node.left ) + count_nodes(node.right ) + 1
def count_coins(A__ : TreeNode | None ) -> int:
if node is None:
return 0
return count_coins(node.left ) + count_coins(node.right ) + node.data
if count_nodes(A__ ) != count_coins(A__ ):
raise ValueError("""The nodes number should be same as the number of coins""" )
# Main calculation
def get_distrib(A__ : TreeNode | None ) -> CoinsDistribResult:
if node is None:
return CoinsDistribResult(0 , 1 )
__lowerCamelCase, __lowerCamelCase = get_distrib(node.left )
__lowerCamelCase, __lowerCamelCase = get_distrib(node.right )
__lowerCamelCase = 1 - left_distrib_excess
__lowerCamelCase = 1 - right_distrib_excess
__lowerCamelCase = (
left_distrib_moves
+ right_distrib_moves
+ abs(A__ )
+ abs(A__ )
)
__lowerCamelCase = node.data - coins_to_left - coins_to_right
return CoinsDistribResult(A__ , A__ )
return get_distrib(A__ )[0]
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 | 1 |
import os
import unittest
from transformers import MobileBertTokenizer, MobileBertTokenizerFast
from transformers.models.bert.tokenization_bert import (
VOCAB_FILES_NAMES,
BasicTokenizer,
WordpieceTokenizer,
_is_control,
_is_punctuation,
_is_whitespace,
)
from transformers.testing_utils import require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin, filter_non_english
@require_tokenizers
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : int = MobileBertTokenizer
UpperCAmelCase__ : Any = MobileBertTokenizerFast
UpperCAmelCase__ : int = True
UpperCAmelCase__ : Any = True
UpperCAmelCase__ : List[str] = filter_non_english
UpperCAmelCase__ : Any = 'google/mobilebert-uncased'
def lowerCAmelCase__ ( self: List[str] ):
super().setUp()
__lowerCamelCase = [
"""[UNK]""",
"""[CLS]""",
"""[SEP]""",
"""[PAD]""",
"""[MASK]""",
"""want""",
"""##want""",
"""##ed""",
"""wa""",
"""un""",
"""runn""",
"""##ing""",
""",""",
"""low""",
"""lowest""",
]
__lowerCamelCase = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["""vocab_file"""] )
with open(self.vocab_file , """w""" , encoding="""utf-8""" ) as vocab_writer:
vocab_writer.write("""""".join([x + """\n""" for x in vocab_tokens] ) )
__lowerCamelCase = [
(tokenizer_def[0], self.pre_trained_model_path, tokenizer_def[2]) # else the 'google/' prefix is stripped
for tokenizer_def in self.tokenizers_list
]
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: int ):
__lowerCamelCase = """UNwant\u00E9d,running"""
__lowerCamelCase = """unwanted, running"""
return input_text, output_text
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = self.tokenizer_class(self.vocab_file )
__lowerCamelCase = 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: List[str] ):
if not self.test_rust_tokenizer:
return
__lowerCamelCase = self.get_tokenizer()
__lowerCamelCase = self.get_rust_tokenizer()
__lowerCamelCase = """UNwant\u00E9d,running"""
__lowerCamelCase = tokenizer.tokenize(UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = self.get_rust_tokenizer()
__lowerCamelCase = tokenizer.encode(UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.encode(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
# With lower casing
__lowerCamelCase = self.get_tokenizer(do_lower_case=UpperCamelCase_ )
__lowerCamelCase = self.get_rust_tokenizer(do_lower_case=UpperCamelCase_ )
__lowerCamelCase = """UNwant\u00E9d,running"""
__lowerCamelCase = tokenizer.tokenize(UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.tokenize(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = self.get_rust_tokenizer()
__lowerCamelCase = tokenizer.encode(UpperCamelCase_ )
__lowerCamelCase = rust_tokenizer.encode(UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = BasicTokenizer()
self.assertListEqual(tokenizer.tokenize("""ah\u535A\u63A8zz""" ) , ["""ah""", """\u535A""", """\u63A8""", """zz"""] )
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = 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: Dict ):
__lowerCamelCase = 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: int ):
__lowerCamelCase = 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: Union[str, Any] ):
__lowerCamelCase = 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: List[Any] ):
__lowerCamelCase = BasicTokenizer(do_lower_case=UpperCamelCase_ )
self.assertListEqual(
tokenizer.tokenize(""" \tHeLLo!how \n Are yoU? """ ) , ["""HeLLo""", """!""", """how""", """Are""", """yoU""", """?"""] )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = BasicTokenizer(do_lower_case=UpperCamelCase_ , strip_accents=UpperCamelCase_ )
self.assertListEqual(
tokenizer.tokenize(""" \tHäLLo!how \n Are yoU? """ ) , ["""HäLLo""", """!""", """how""", """Are""", """yoU""", """?"""] )
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = BasicTokenizer(do_lower_case=UpperCamelCase_ , strip_accents=UpperCamelCase_ )
self.assertListEqual(
tokenizer.tokenize(""" \tHäLLo!how \n Are yoU? """ ) , ["""HaLLo""", """!""", """how""", """Are""", """yoU""", """?"""] )
def lowerCAmelCase__ ( self: Optional[Any] ):
__lowerCamelCase = 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: Dict ):
__lowerCamelCase = ["""[UNK]""", """[CLS]""", """[SEP]""", """want""", """##want""", """##ed""", """wa""", """un""", """runn""", """##ing"""]
__lowerCamelCase = {}
for i, token in enumerate(UpperCamelCase_ ):
__lowerCamelCase = i
__lowerCamelCase = 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"""] )
def lowerCAmelCase__ ( self: str ):
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: Union[str, Any] ):
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: Union[str, Any] ):
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(""" """ ) )
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = self.get_tokenizer()
__lowerCamelCase = self.get_rust_tokenizer()
# Example taken from the issue https://github.com/huggingface/tokenizers/issues/340
self.assertListEqual([tokenizer.tokenize(UpperCamelCase_ ) for t in ["""Test""", """\xad""", """test"""]] , [["""[UNK]"""], [], ["""[UNK]"""]] )
self.assertListEqual(
[rust_tokenizer.tokenize(UpperCamelCase_ ) for t in ["""Test""", """\xad""", """test"""]] , [["""[UNK]"""], [], ["""[UNK]"""]] )
@slow
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = self.tokenizer_class.from_pretrained("""google/mobilebert-uncased""" )
__lowerCamelCase = tokenizer.encode("""sequence builders""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.encode("""multi-sequence build""" , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ )
__lowerCamelCase = tokenizer.build_inputs_with_special_tokens(UpperCamelCase_ , UpperCamelCase_ )
assert encoded_sentence == [1_01] + text + [1_02]
assert encoded_pair == [1_01] + text + [1_02] + text_a + [1_02]
def lowerCAmelCase__ ( self: Dict ):
for tokenizer, pretrained_name, kwargs in self.tokenizers_list:
with self.subTest(F'{tokenizer.__class__.__name__} ({pretrained_name})' ):
__lowerCamelCase = self.rust_tokenizer_class.from_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = F'A, naïve {tokenizer_r.mask_token} AllenNLP sentence.'
__lowerCamelCase = tokenizer_r.encode_plus(
UpperCamelCase_ , return_attention_mask=UpperCamelCase_ , return_token_type_ids=UpperCamelCase_ , return_offsets_mapping=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , )
__lowerCamelCase = tokenizer_r.do_lower_case if hasattr(UpperCamelCase_ , """do_lower_case""" ) else False
__lowerCamelCase = (
[
((0, 0), tokenizer_r.cls_token),
((0, 1), """A"""),
((1, 2), ""","""),
((3, 5), """na"""),
((5, 6), """##ï"""),
((6, 8), """##ve"""),
((9, 15), tokenizer_r.mask_token),
((16, 21), """Allen"""),
((21, 23), """##NL"""),
((23, 24), """##P"""),
((25, 33), """sentence"""),
((33, 34), """."""),
((0, 0), tokenizer_r.sep_token),
]
if not do_lower_case
else [
((0, 0), tokenizer_r.cls_token),
((0, 1), """a"""),
((1, 2), ""","""),
((3, 8), """naive"""),
((9, 15), tokenizer_r.mask_token),
((16, 21), """allen"""),
((21, 23), """##nl"""),
((23, 24), """##p"""),
((25, 33), """sentence"""),
((33, 34), """."""),
((0, 0), tokenizer_r.sep_token),
]
)
self.assertEqual(
[e[1] for e in expected_results] , tokenizer_r.convert_ids_to_tokens(tokens["""input_ids"""] ) )
self.assertEqual([e[0] for e in expected_results] , tokens["""offset_mapping"""] )
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = ["""的""", """人""", """有"""]
__lowerCamelCase = """""".join(UpperCamelCase_ )
for tokenizer, pretrained_name, kwargs in self.tokenizers_list:
with self.subTest(F'{tokenizer.__class__.__name__} ({pretrained_name})' ):
__lowerCamelCase = True
__lowerCamelCase = self.tokenizer_class.from_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = self.rust_tokenizer_class.from_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = tokenizer_p.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer_r.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer_r.convert_ids_to_tokens(UpperCamelCase_ )
__lowerCamelCase = tokenizer_p.convert_ids_to_tokens(UpperCamelCase_ )
# it is expected that each Chinese character is not preceded by "##"
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = False
__lowerCamelCase = self.rust_tokenizer_class.from_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = self.tokenizer_class.from_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = tokenizer_r.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer_p.encode(UpperCamelCase_ , add_special_tokens=UpperCamelCase_ )
__lowerCamelCase = tokenizer_r.convert_ids_to_tokens(UpperCamelCase_ )
__lowerCamelCase = tokenizer_p.convert_ids_to_tokens(UpperCamelCase_ )
# it is expected that only the first Chinese character is not preceded by "##".
__lowerCamelCase = [
F'##{token}' if idx != 0 else token for idx, token in enumerate(UpperCamelCase_ )
]
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
self.assertListEqual(UpperCamelCase_ , UpperCamelCase_ )
| 12 |
from typing import Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature
from ...image_transforms import get_image_size, pad, rescale, to_channel_dimension_format
from ...image_utils import ChannelDimension, ImageInput, make_list_of_images, to_numpy_array, valid_images
from ...utils import TensorType, logging
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Tuple = ['pixel_values']
def __init__( self: Any , UpperCamelCase_: bool = True , UpperCamelCase_: Union[int, float] = 1 / 2_55 , UpperCamelCase_: bool = True , UpperCamelCase_: int = 8 , **UpperCamelCase_: Tuple , ):
super().__init__(**UpperCamelCase_ )
__lowerCamelCase = do_rescale
__lowerCamelCase = rescale_factor
__lowerCamelCase = do_pad
__lowerCamelCase = pad_size
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: np.ndarray , UpperCamelCase_: float , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None , **UpperCamelCase_: Tuple ):
return rescale(UpperCamelCase_ , scale=UpperCamelCase_ , data_format=UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: np.ndarray , UpperCamelCase_: int , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None ):
__lowerCamelCase, __lowerCamelCase = get_image_size(UpperCamelCase_ )
__lowerCamelCase = (old_height // size + 1) * size - old_height
__lowerCamelCase = (old_width // size + 1) * size - old_width
return pad(UpperCamelCase_ , ((0, pad_height), (0, pad_width)) , mode="""symmetric""" , data_format=UpperCamelCase_ )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: ImageInput , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: Optional[float] = None , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[Union[str, TensorType]] = None , UpperCamelCase_: Union[str, ChannelDimension] = ChannelDimension.FIRST , **UpperCamelCase_: Any , ):
__lowerCamelCase = do_rescale if do_rescale is not None else self.do_rescale
__lowerCamelCase = rescale_factor if rescale_factor is not None else self.rescale_factor
__lowerCamelCase = do_pad if do_pad is not None else self.do_pad
__lowerCamelCase = pad_size if pad_size is not None else self.pad_size
__lowerCamelCase = 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_rescale and rescale_factor is None:
raise ValueError("""Rescale factor must be specified if do_rescale is True.""" )
# All transformations expect numpy arrays.
__lowerCamelCase = [to_numpy_array(UpperCamelCase_ ) for image in images]
if do_rescale:
__lowerCamelCase = [self.rescale(image=UpperCamelCase_ , scale=UpperCamelCase_ ) for image in images]
if do_pad:
__lowerCamelCase = [self.pad(UpperCamelCase_ , size=UpperCamelCase_ ) for image in images]
__lowerCamelCase = [to_channel_dimension_format(UpperCamelCase_ , UpperCamelCase_ ) for image in images]
__lowerCamelCase = {"""pixel_values""": images}
return BatchFeature(data=UpperCamelCase_ , tensor_type=UpperCamelCase_ )
| 12 | 1 |
from collections import namedtuple
UpperCAmelCase_ = namedtuple('from_to', 'from_ to')
UpperCAmelCase_ = {
'cubicmeter': from_to(1, 1),
'litre': from_to(0.001, 1_000),
'kilolitre': from_to(1, 1),
'gallon': from_to(0.0_0454, 264.172),
'cubicyard': from_to(0.7_6455, 1.3_0795),
'cubicfoot': from_to(0.028, 35.3147),
'cup': from_to(0.0_0023_6588, 4226.75),
}
def lowerCamelCase__ ( A__ : float , A__ : str , A__ : str ):
'''simple docstring'''
if from_type not in METRIC_CONVERSION:
raise ValueError(
f'Invalid \'from_type\' value: {from_type!r} Supported values are:\n'
+ """, """.join(A__ ) )
if to_type not in METRIC_CONVERSION:
raise ValueError(
f'Invalid \'to_type\' value: {to_type!r}. Supported values are:\n'
+ """, """.join(A__ ) )
return value * METRIC_CONVERSION[from_type].from_ * METRIC_CONVERSION[to_type].to
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : list[int | float] , A__ : int , A__ : int ):
'''simple docstring'''
if len(A__ ) == 0:
raise ValueError("""find_max() arg is an empty sequence""" )
if (
left >= len(A__ )
or left < -len(A__ )
or right >= len(A__ )
or right < -len(A__ )
):
raise IndexError("""list index out of range""" )
if left == right:
return nums[left]
__lowerCamelCase = (left + right) >> 1 # the middle
__lowerCamelCase = find_max(A__ , A__ , A__ ) # find max in range[left, mid]
__lowerCamelCase = find_max(A__ , mid + 1 , A__ ) # find max in range[mid + 1, right]
return left_max if left_max >= right_max else right_max
if __name__ == "__main__":
import doctest
doctest.testmod(verbose=True)
| 12 | 1 |
import math
def lowerCamelCase__ ( A__ : float , A__ : float ):
'''simple docstring'''
return math.pow(A__ , 2 ) - a
def lowerCamelCase__ ( A__ : float ):
'''simple docstring'''
return 2 * x
def lowerCamelCase__ ( A__ : float ):
'''simple docstring'''
__lowerCamelCase = 2.0
while start <= a:
__lowerCamelCase = math.pow(A__ , 2 )
return start
def lowerCamelCase__ ( A__ : float , A__ : int = 9999 , A__ : float = 0.00_000_000_000_001 ):
'''simple docstring'''
if a < 0:
raise ValueError("""math domain error""" )
__lowerCamelCase = get_initial_point(A__ )
for _ in range(A__ ):
__lowerCamelCase = value
__lowerCamelCase = value - fx(A__ , A__ ) / fx_derivative(A__ )
if abs(prev_value - value ) < tolerance:
return value
return value
if __name__ == "__main__":
from doctest import testmod
testmod()
| 12 |
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 lowerCamelCase__( __lowerCamelCase):
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = SMALL_MODEL_IDENTIFIER
__lowerCamelCase = """pt"""
__lowerCamelCase = """tf"""
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Optional[Any] ):
__lowerCamelCase = AutoModel.from_pretrained(self.test_model )
model_pt.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Union[str, Any] ):
__lowerCamelCase = TFAutoModel.from_pretrained(self.test_model , from_pt=UpperCamelCase_ )
model_tf.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = """mock_framework"""
# Framework provided - return whatever the user provides
__lowerCamelCase = 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_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
# PyTorch checkpoint
with TemporaryDirectory() as local_pt_ckpt:
self._setup_pt_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Invalid local checkpoint
with TemporaryDirectory() as local_invalid_ckpt:
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# PyTorch not in environment -> use TensorFlow
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Both in environment -> use PyTorch
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ), patch(
"""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# Both not in environment -> raise error
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = 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_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
| 12 | 1 |
import json
import os
from typing import Optional
import numpy as np
from ...feature_extraction_utils import BatchFeature
from ...processing_utils import ProcessorMixin
from ...utils import logging
from ...utils.hub import get_file_from_repo
from ..auto import AutoTokenizer
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Tuple = 'AutoTokenizer'
UpperCAmelCase__ : Union[str, Any] = ['tokenizer']
UpperCAmelCase__ : Optional[Any] = {
'semantic_prompt': 1,
'coarse_prompt': 2,
'fine_prompt': 2,
}
def __init__( self: str , UpperCamelCase_: Dict , UpperCamelCase_: Optional[Any]=None ):
super().__init__(UpperCamelCase_ )
__lowerCamelCase = speaker_embeddings
@classmethod
def lowerCAmelCase__ ( cls: List[str] , UpperCamelCase_: List[str] , UpperCamelCase_: Tuple="speaker_embeddings_path.json" , **UpperCamelCase_: Dict ):
if speaker_embeddings_dict_path is not None:
__lowerCamelCase = get_file_from_repo(
UpperCamelCase_ , UpperCamelCase_ , subfolder=kwargs.pop("""subfolder""" , UpperCamelCase_ ) , cache_dir=kwargs.pop("""cache_dir""" , UpperCamelCase_ ) , force_download=kwargs.pop("""force_download""" , UpperCamelCase_ ) , proxies=kwargs.pop("""proxies""" , UpperCamelCase_ ) , resume_download=kwargs.pop("""resume_download""" , UpperCamelCase_ ) , local_files_only=kwargs.pop("""local_files_only""" , UpperCamelCase_ ) , use_auth_token=kwargs.pop("""use_auth_token""" , UpperCamelCase_ ) , revision=kwargs.pop("""revision""" , UpperCamelCase_ ) , )
if speaker_embeddings_path is None:
logger.warning(
F'`{os.path.join(UpperCamelCase_ , UpperCamelCase_ )}` does not exists\n , no preloaded speaker embeddings will be used - Make sure to provide a correct path to the json\n dictionnary if wanted, otherwise set `speaker_embeddings_dict_path=None`.' )
__lowerCamelCase = None
else:
with open(UpperCamelCase_ ) as speaker_embeddings_json:
__lowerCamelCase = json.load(UpperCamelCase_ )
else:
__lowerCamelCase = None
__lowerCamelCase = AutoTokenizer.from_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
return cls(tokenizer=UpperCamelCase_ , speaker_embeddings=UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: int , UpperCamelCase_: int="speaker_embeddings_path.json" , UpperCamelCase_: Optional[Any]="speaker_embeddings" , UpperCamelCase_: bool = False , **UpperCamelCase_: Union[str, Any] , ):
if self.speaker_embeddings is not None:
os.makedirs(os.path.join(UpperCamelCase_ , UpperCamelCase_ , """v2""" ) , exist_ok=UpperCamelCase_ )
__lowerCamelCase = {}
__lowerCamelCase = save_directory
for prompt_key in self.speaker_embeddings:
if prompt_key != "repo_or_path":
__lowerCamelCase = self._load_voice_preset(UpperCamelCase_ )
__lowerCamelCase = {}
for key in self.speaker_embeddings[prompt_key]:
np.save(
os.path.join(
embeddings_dict["""repo_or_path"""] , UpperCamelCase_ , F'{prompt_key}_{key}' ) , voice_preset[key] , allow_pickle=UpperCamelCase_ , )
__lowerCamelCase = os.path.join(UpperCamelCase_ , F'{prompt_key}_{key}.npy' )
__lowerCamelCase = tmp_dict
with open(os.path.join(UpperCamelCase_ , UpperCamelCase_ ) , """w""" ) as fp:
json.dump(UpperCamelCase_ , UpperCamelCase_ )
super().save_pretrained(UpperCamelCase_ , UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: str = None , **UpperCamelCase_: List[Any] ):
__lowerCamelCase = self.speaker_embeddings[voice_preset]
__lowerCamelCase = {}
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset_paths:
raise ValueError(
F'Voice preset unrecognized, missing {key} as a key in self.speaker_embeddings[{voice_preset}].' )
__lowerCamelCase = get_file_from_repo(
self.speaker_embeddings.get("""repo_or_path""" , """/""" ) , voice_preset_paths[key] , subfolder=kwargs.pop("""subfolder""" , UpperCamelCase_ ) , cache_dir=kwargs.pop("""cache_dir""" , UpperCamelCase_ ) , force_download=kwargs.pop("""force_download""" , UpperCamelCase_ ) , proxies=kwargs.pop("""proxies""" , UpperCamelCase_ ) , resume_download=kwargs.pop("""resume_download""" , UpperCamelCase_ ) , local_files_only=kwargs.pop("""local_files_only""" , UpperCamelCase_ ) , use_auth_token=kwargs.pop("""use_auth_token""" , UpperCamelCase_ ) , revision=kwargs.pop("""revision""" , UpperCamelCase_ ) , )
if path is None:
raise ValueError(
F'`{os.path.join(self.speaker_embeddings.get("repo_or_path" , "/" ) , voice_preset_paths[key] )}` does not exists\n , no preloaded voice preset will be used - Make sure to provide correct paths to the {voice_preset}\n embeddings.' )
__lowerCamelCase = np.load(UpperCamelCase_ )
return voice_preset_dict
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Optional[dict] = None ):
for key in ["semantic_prompt", "coarse_prompt", "fine_prompt"]:
if key not in voice_preset:
raise ValueError(F'Voice preset unrecognized, missing {key} as a key.' )
if not isinstance(voice_preset[key] , np.ndarray ):
raise ValueError(F'{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.' )
if len(voice_preset[key].shape ) != self.preset_shape[key]:
raise ValueError(F'{key} voice preset must be a {str(self.preset_shape[key] )}D ndarray.' )
def __call__( self: Any , UpperCamelCase_: Optional[int]=None , UpperCamelCase_: Optional[Any]=None , UpperCamelCase_: List[Any]="pt" , UpperCamelCase_: str=2_56 , UpperCamelCase_: List[Any]=False , UpperCamelCase_: Union[str, Any]=True , UpperCamelCase_: Optional[Any]=False , **UpperCamelCase_: Dict , ):
if voice_preset is not None and not isinstance(UpperCamelCase_ , UpperCamelCase_ ):
if (
isinstance(UpperCamelCase_ , UpperCamelCase_ )
and self.speaker_embeddings is not None
and voice_preset in self.speaker_embeddings
):
__lowerCamelCase = self._load_voice_preset(UpperCamelCase_ )
else:
if isinstance(UpperCamelCase_ , UpperCamelCase_ ) and not voice_preset.endswith(""".npz""" ):
__lowerCamelCase = voice_preset + """.npz"""
__lowerCamelCase = np.load(UpperCamelCase_ )
if voice_preset is not None:
self._validate_voice_preset_dict(UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = BatchFeature(data=UpperCamelCase_ , tensor_type=UpperCamelCase_ )
__lowerCamelCase = self.tokenizer(
UpperCamelCase_ , return_tensors=UpperCamelCase_ , padding="""max_length""" , max_length=UpperCamelCase_ , return_attention_mask=UpperCamelCase_ , return_token_type_ids=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , **UpperCamelCase_ , )
if voice_preset is not None:
__lowerCamelCase = voice_preset
return encoded_text
| 12 |
from __future__ import annotations
from PIL import Image
# Define glider example
UpperCAmelCase_ = [
[0, 1, 0, 0, 0, 0, 0, 0],
[0, 0, 1, 0, 0, 0, 0, 0],
[1, 1, 1, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
]
# Define blinker example
UpperCAmelCase_ = [[0, 1, 0], [0, 1, 0], [0, 1, 0]]
def lowerCamelCase__ ( A__ : list[list[int]] ):
'''simple docstring'''
__lowerCamelCase = []
for i in range(len(A__ ) ):
__lowerCamelCase = []
for j in range(len(cells[i] ) ):
# Get the number of live neighbours
__lowerCamelCase = 0
if i > 0 and j > 0:
neighbour_count += cells[i - 1][j - 1]
if i > 0:
neighbour_count += cells[i - 1][j]
if i > 0 and j < len(cells[i] ) - 1:
neighbour_count += cells[i - 1][j + 1]
if j > 0:
neighbour_count += cells[i][j - 1]
if j < len(cells[i] ) - 1:
neighbour_count += cells[i][j + 1]
if i < len(A__ ) - 1 and j > 0:
neighbour_count += cells[i + 1][j - 1]
if i < len(A__ ) - 1:
neighbour_count += cells[i + 1][j]
if i < len(A__ ) - 1 and j < len(cells[i] ) - 1:
neighbour_count += cells[i + 1][j + 1]
# Rules of the game of life (excerpt from Wikipedia):
# 1. Any live cell with two or three live neighbours survives.
# 2. Any dead cell with three live neighbours becomes a live cell.
# 3. All other live cells die in the next generation.
# Similarly, all other dead cells stay dead.
__lowerCamelCase = cells[i][j] == 1
if (
(alive and 2 <= neighbour_count <= 3)
or not alive
and neighbour_count == 3
):
next_generation_row.append(1 )
else:
next_generation_row.append(0 )
next_generation.append(A__ )
return next_generation
def lowerCamelCase__ ( A__ : list[list[int]] , A__ : int ):
'''simple docstring'''
__lowerCamelCase = []
for _ in range(A__ ):
# Create output image
__lowerCamelCase = Image.new("""RGB""" , (len(cells[0] ), len(A__ )) )
__lowerCamelCase = img.load()
# Save cells to image
for x in range(len(A__ ) ):
for y in range(len(cells[0] ) ):
__lowerCamelCase = 255 - cells[y][x] * 255
__lowerCamelCase = (colour, colour, colour)
# Save image
images.append(A__ )
__lowerCamelCase = new_generation(A__ )
return images
if __name__ == "__main__":
UpperCAmelCase_ = generate_images(GLIDER, 16)
images[0].save('out.gif', save_all=True, append_images=images[1:])
| 12 | 1 |
from typing import Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature
from ...image_transforms import get_image_size, pad, rescale, to_channel_dimension_format
from ...image_utils import ChannelDimension, ImageInput, make_list_of_images, to_numpy_array, valid_images
from ...utils import TensorType, logging
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Tuple = ['pixel_values']
def __init__( self: Any , UpperCamelCase_: bool = True , UpperCamelCase_: Union[int, float] = 1 / 2_55 , UpperCamelCase_: bool = True , UpperCamelCase_: int = 8 , **UpperCamelCase_: Tuple , ):
super().__init__(**UpperCamelCase_ )
__lowerCamelCase = do_rescale
__lowerCamelCase = rescale_factor
__lowerCamelCase = do_pad
__lowerCamelCase = pad_size
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: np.ndarray , UpperCamelCase_: float , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None , **UpperCamelCase_: Tuple ):
return rescale(UpperCamelCase_ , scale=UpperCamelCase_ , data_format=UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: np.ndarray , UpperCamelCase_: int , UpperCamelCase_: Optional[Union[str, ChannelDimension]] = None ):
__lowerCamelCase, __lowerCamelCase = get_image_size(UpperCamelCase_ )
__lowerCamelCase = (old_height // size + 1) * size - old_height
__lowerCamelCase = (old_width // size + 1) * size - old_width
return pad(UpperCamelCase_ , ((0, pad_height), (0, pad_width)) , mode="""symmetric""" , data_format=UpperCamelCase_ )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: ImageInput , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: Optional[float] = None , UpperCamelCase_: Optional[bool] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[Union[str, TensorType]] = None , UpperCamelCase_: Union[str, ChannelDimension] = ChannelDimension.FIRST , **UpperCamelCase_: Any , ):
__lowerCamelCase = do_rescale if do_rescale is not None else self.do_rescale
__lowerCamelCase = rescale_factor if rescale_factor is not None else self.rescale_factor
__lowerCamelCase = do_pad if do_pad is not None else self.do_pad
__lowerCamelCase = pad_size if pad_size is not None else self.pad_size
__lowerCamelCase = 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_rescale and rescale_factor is None:
raise ValueError("""Rescale factor must be specified if do_rescale is True.""" )
# All transformations expect numpy arrays.
__lowerCamelCase = [to_numpy_array(UpperCamelCase_ ) for image in images]
if do_rescale:
__lowerCamelCase = [self.rescale(image=UpperCamelCase_ , scale=UpperCamelCase_ ) for image in images]
if do_pad:
__lowerCamelCase = [self.pad(UpperCamelCase_ , size=UpperCamelCase_ ) for image in images]
__lowerCamelCase = [to_channel_dimension_format(UpperCamelCase_ , UpperCamelCase_ ) for image in images]
__lowerCamelCase = {"""pixel_values""": images}
return BatchFeature(data=UpperCamelCase_ , tensor_type=UpperCamelCase_ )
| 12 |
import gc
import random
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import AutoencoderKL, PNDMScheduler, StableDiffusionInpaintPipeline, UNetaDConditionModel
from diffusers.utils import floats_tensor, load_image, load_numpy, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu, slow
from ..pipeline_params import TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS, TEXT_GUIDED_IMAGE_INPAINTING_PARAMS
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class lowerCamelCase__( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Union[str, Any] = StableDiffusionInpaintPipeline
UpperCAmelCase__ : Dict = TEXT_GUIDED_IMAGE_INPAINTING_PARAMS
UpperCAmelCase__ : str = TEXT_GUIDED_IMAGE_INPAINTING_BATCH_PARAMS
UpperCAmelCase__ : int = frozenset(
[]) # TO-DO: update image_params once pipeline is refactored with VaeImageProcessor.preprocess
UpperCAmelCase__ : Union[str, Any] = frozenset([])
def lowerCAmelCase__ ( self: str ):
torch.manual_seed(0 )
__lowerCamelCase = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=9 , out_channels=4 , down_block_types=("""DownBlock2D""", """CrossAttnDownBlock2D""") , up_block_types=("""CrossAttnUpBlock2D""", """UpBlock2D""") , cross_attention_dim=32 , attention_head_dim=(2, 4) , use_linear_projection=UpperCamelCase_ , )
__lowerCamelCase = PNDMScheduler(skip_prk_steps=UpperCamelCase_ )
torch.manual_seed(0 )
__lowerCamelCase = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=["""DownEncoderBlock2D""", """DownEncoderBlock2D"""] , up_block_types=["""UpDecoderBlock2D""", """UpDecoderBlock2D"""] , latent_channels=4 , sample_size=1_28 , )
torch.manual_seed(0 )
__lowerCamelCase = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1E-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , hidden_act="""gelu""" , projection_dim=5_12 , )
__lowerCamelCase = CLIPTextModel(UpperCamelCase_ )
__lowerCamelCase = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" )
__lowerCamelCase = {
"""unet""": unet,
"""scheduler""": scheduler,
"""vae""": vae,
"""text_encoder""": text_encoder,
"""tokenizer""": tokenizer,
"""safety_checker""": None,
"""feature_extractor""": None,
}
return components
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Any , UpperCamelCase_: List[Any]=0 ):
# TODO: use tensor inputs instead of PIL, this is here just to leave the old expected_slices untouched
__lowerCamelCase = floats_tensor((1, 3, 32, 32) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 )[0]
__lowerCamelCase = Image.fromarray(np.uinta(UpperCamelCase_ ) ).convert("""RGB""" ).resize((64, 64) )
__lowerCamelCase = Image.fromarray(np.uinta(image + 4 ) ).convert("""RGB""" ).resize((64, 64) )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""prompt""": """A painting of a squirrel eating a burger""",
"""image""": init_image,
"""mask_image""": mask_image,
"""generator""": generator,
"""num_inference_steps""": 2,
"""guidance_scale""": 6.0,
"""output_type""": """numpy""",
}
return inputs
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = """cpu""" # ensure determinism for the device-dependent torch.Generator
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = StableDiffusionInpaintPipeline(**UpperCamelCase_ )
__lowerCamelCase = sd_pipe.to(UpperCamelCase_ )
sd_pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
__lowerCamelCase = sd_pipe(**UpperCamelCase_ ).images
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (1, 64, 64, 3)
__lowerCamelCase = np.array([0.4727, 0.5735, 0.3941, 0.5446, 0.5926, 0.4394, 0.5062, 0.4654, 0.4476] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: int ):
super().test_inference_batch_single_identical(expected_max_diff=3E-3 )
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: str ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint"""
"""/yellow_cat_sitting_on_a_park_bench.npy""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(UpperCamelCase_ , safety_checker=UpperCamelCase_ )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (5_12, 5_12, 3)
assert np.abs(expected_image - image ).max() < 9E-3
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint"""
"""/yellow_cat_sitting_on_a_park_bench_fp16.npy""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(
UpperCamelCase_ , torch_dtype=torch.floataa , safety_checker=UpperCamelCase_ , )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , output_type="""np""" , )
__lowerCamelCase = output.images[0]
assert image.shape == (5_12, 5_12, 3)
assert np.abs(expected_image - image ).max() < 5E-1
def lowerCAmelCase__ ( self: int ):
torch.cuda.empty_cache()
torch.cuda.reset_max_memory_allocated()
torch.cuda.reset_peak_memory_stats()
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/sd2-inpaint/init_image.png""" )
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd2-inpaint/mask.png""" )
__lowerCamelCase = """stabilityai/stable-diffusion-2-inpainting"""
__lowerCamelCase = PNDMScheduler.from_pretrained(UpperCamelCase_ , subfolder="""scheduler""" )
__lowerCamelCase = StableDiffusionInpaintPipeline.from_pretrained(
UpperCamelCase_ , safety_checker=UpperCamelCase_ , scheduler=UpperCamelCase_ , torch_dtype=torch.floataa , )
pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
pipe.enable_attention_slicing(1 )
pipe.enable_sequential_cpu_offload()
__lowerCamelCase = """Face of a yellow cat, high resolution, sitting on a park bench"""
__lowerCamelCase = torch.manual_seed(0 )
__lowerCamelCase = pipe(
prompt=UpperCamelCase_ , image=UpperCamelCase_ , mask_image=UpperCamelCase_ , generator=UpperCamelCase_ , num_inference_steps=2 , output_type="""np""" , )
__lowerCamelCase = torch.cuda.max_memory_allocated()
# make sure that less than 2.65 GB is allocated
assert mem_bytes < 2.65 * 10**9
| 12 | 1 |
import functools
def lowerCamelCase__ ( A__ : str , A__ : str ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
__lowerCamelCase = len(A__ )
@functools.cache
def min_distance(A__ : int , A__ : int ) -> int:
# if first word index is overflow - delete all from the second word
if indexa >= len_worda:
return len_worda - indexa
# if second word index is overflow - delete all from the first word
if indexa >= len_worda:
return len_worda - indexa
__lowerCamelCase = int(worda[indexa] != worda[indexa] ) # current letters not identical
return min(
1 + min_distance(indexa + 1 , A__ ) , 1 + min_distance(A__ , indexa + 1 ) , diff + min_distance(indexa + 1 , indexa + 1 ) , )
return min_distance(0 , 0 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 12 |
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
UpperCAmelCase_ = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['MLukeTokenizer']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mluke import MLukeTokenizer
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 | 1 |
UpperCAmelCase_ = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = input("""Enter message: """ )
__lowerCamelCase = input("""Enter key [alphanumeric]: """ )
__lowerCamelCase = input("""Encrypt/Decrypt [e/d]: """ )
if mode.lower().startswith("""e""" ):
__lowerCamelCase = """encrypt"""
__lowerCamelCase = encrypt_message(A__ , A__ )
elif mode.lower().startswith("""d""" ):
__lowerCamelCase = """decrypt"""
__lowerCamelCase = decrypt_message(A__ , A__ )
print(f'\n{mode.title()}ed message:' )
print(A__ )
def lowerCamelCase__ ( A__ : str , A__ : str ):
'''simple docstring'''
return translate_message(A__ , A__ , """encrypt""" )
def lowerCamelCase__ ( A__ : str , A__ : str ):
'''simple docstring'''
return translate_message(A__ , A__ , """decrypt""" )
def lowerCamelCase__ ( A__ : str , A__ : str , A__ : str ):
'''simple docstring'''
__lowerCamelCase = []
__lowerCamelCase = 0
__lowerCamelCase = key.upper()
for symbol in message:
__lowerCamelCase = LETTERS.find(symbol.upper() )
if num != -1:
if mode == "encrypt":
num += LETTERS.find(key[key_index] )
elif mode == "decrypt":
num -= LETTERS.find(key[key_index] )
num %= len(A__ )
if symbol.isupper():
translated.append(LETTERS[num] )
elif symbol.islower():
translated.append(LETTERS[num].lower() )
key_index += 1
if key_index == len(A__ ):
__lowerCamelCase = 0
else:
translated.append(A__ )
return "".join(A__ )
if __name__ == "__main__":
main()
| 12 |
import os
import shutil
from pathlib import Path
from typing import Optional, Union
import numpy as np
from huggingface_hub import hf_hub_download
from ..utils import ONNX_EXTERNAL_WEIGHTS_NAME, ONNX_WEIGHTS_NAME, is_onnx_available, logging
if is_onnx_available():
import onnxruntime as ort
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'tensor(bool)': np.bool_,
'tensor(int8)': np.inta,
'tensor(uint8)': np.uinta,
'tensor(int16)': np.intaa,
'tensor(uint16)': np.uintaa,
'tensor(int32)': np.intaa,
'tensor(uint32)': np.uintaa,
'tensor(int64)': np.intaa,
'tensor(uint64)': np.uintaa,
'tensor(float16)': np.floataa,
'tensor(float)': np.floataa,
'tensor(double)': np.floataa,
}
class lowerCamelCase__:
def __init__( self: str , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: str ):
logger.info("""`diffusers.OnnxRuntimeModel` is experimental and might change in the future.""" )
__lowerCamelCase = model
__lowerCamelCase = kwargs.get("""model_save_dir""" , UpperCamelCase_ )
__lowerCamelCase = kwargs.get("""latest_model_name""" , UpperCamelCase_ )
def __call__( self: Dict , **UpperCamelCase_: Any ):
__lowerCamelCase = {k: np.array(UpperCamelCase_ ) for k, v in kwargs.items()}
return self.model.run(UpperCamelCase_ , UpperCamelCase_ )
@staticmethod
def lowerCAmelCase__ ( UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Tuple=None , UpperCamelCase_: Tuple=None ):
if provider is None:
logger.info("""No onnxruntime provider specified, using CPUExecutionProvider""" )
__lowerCamelCase = """CPUExecutionProvider"""
return ort.InferenceSession(UpperCamelCase_ , providers=[provider] , sess_options=UpperCamelCase_ )
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: Optional[int] ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
__lowerCamelCase = self.model_save_dir.joinpath(self.latest_model_name )
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
# copy external weights (for models >2GB)
__lowerCamelCase = self.model_save_dir.joinpath(UpperCamelCase_ )
if src_path.exists():
__lowerCamelCase = Path(UpperCamelCase_ ).joinpath(UpperCamelCase_ )
try:
shutil.copyfile(UpperCamelCase_ , UpperCamelCase_ )
except shutil.SameFileError:
pass
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: Union[str, os.PathLike] , **UpperCamelCase_: Optional[Any] , ):
if os.path.isfile(UpperCamelCase_ ):
logger.error(F'Provided path ({save_directory}) should be a directory, not a file' )
return
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
# saving model weights/files
self._save_pretrained(UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: str , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: Optional[Union[bool, str, None]] = None , UpperCamelCase_: Optional[Union[str, None]] = None , UpperCamelCase_: bool = False , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional["ort.SessionOptions"] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME
# load model from local directory
if os.path.isdir(UpperCamelCase_ ):
__lowerCamelCase = OnnxRuntimeModel.load_model(
os.path.join(UpperCamelCase_ , UpperCamelCase_ ) , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
__lowerCamelCase = Path(UpperCamelCase_ )
# load model from hub
else:
# download model
__lowerCamelCase = hf_hub_download(
repo_id=UpperCamelCase_ , filename=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , )
__lowerCamelCase = Path(UpperCamelCase_ ).parent
__lowerCamelCase = Path(UpperCamelCase_ ).name
__lowerCamelCase = OnnxRuntimeModel.load_model(UpperCamelCase_ , provider=UpperCamelCase_ , sess_options=UpperCamelCase_ )
return cls(model=UpperCamelCase_ , **UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: Optional[int] , UpperCamelCase_: Union[str, Path] , UpperCamelCase_: bool = True , UpperCamelCase_: Optional[str] = None , UpperCamelCase_: Optional[str] = None , **UpperCamelCase_: int , ):
__lowerCamelCase = None
if len(str(UpperCamelCase_ ).split("""@""" ) ) == 2:
__lowerCamelCase, __lowerCamelCase = model_id.split("""@""" )
return cls._from_pretrained(
model_id=UpperCamelCase_ , revision=UpperCamelCase_ , cache_dir=UpperCamelCase_ , force_download=UpperCamelCase_ , use_auth_token=UpperCamelCase_ , **UpperCamelCase_ , )
| 12 | 1 |
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 lowerCamelCase__( __lowerCamelCase):
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase = SMALL_MODEL_IDENTIFIER
__lowerCamelCase = """pt"""
__lowerCamelCase = """tf"""
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: Optional[Any] ):
__lowerCamelCase = AutoModel.from_pretrained(self.test_model )
model_pt.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Union[str, Any] ):
__lowerCamelCase = TFAutoModel.from_pretrained(self.test_model , from_pt=UpperCamelCase_ )
model_tf.save_pretrained(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Union[str, Any] ):
__lowerCamelCase = """mock_framework"""
# Framework provided - return whatever the user provides
__lowerCamelCase = 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_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ , UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: int ):
# PyTorch checkpoint
with TemporaryDirectory() as local_pt_ckpt:
self._setup_pt_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# TensorFlow checkpoint
with TemporaryDirectory() as local_tf_ckpt:
self._setup_tf_ckpt(UpperCamelCase_ )
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Invalid local checkpoint
with TemporaryDirectory() as local_invalid_ckpt:
with self.assertRaises(UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# PyTorch not in environment -> use TensorFlow
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_tf )
# Both in environment -> use PyTorch
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
with patch("""transformers.onnx.features.is_tf_available""" , UpperCamelCase_ ), patch(
"""transformers.onnx.features.is_torch_available""" , UpperCamelCase_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
self.assertEqual(UpperCamelCase_ , self.framework_pt )
# Both not in environment -> raise error
__lowerCamelCase = MagicMock(return_value=UpperCamelCase_ )
__lowerCamelCase = 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_ ):
__lowerCamelCase = FeaturesManager.determine_framework(self.test_model )
| 12 |
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_torch_available,
)
UpperCAmelCase_ = {
'configuration_vision_encoder_decoder': ['VisionEncoderDecoderConfig', 'VisionEncoderDecoderOnnxConfig']
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['VisionEncoderDecoderModel']
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['TFVisionEncoderDecoderModel']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ = ['FlaxVisionEncoderDecoderModel']
if TYPE_CHECKING:
from .configuration_vision_encoder_decoder import VisionEncoderDecoderConfig, VisionEncoderDecoderOnnxConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_vision_encoder_decoder import VisionEncoderDecoderModel
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_vision_encoder_decoder import TFVisionEncoderDecoderModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_vision_encoder_decoder import FlaxVisionEncoderDecoderModel
else:
import sys
UpperCAmelCase_ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 12 | 1 |
from __future__ import annotations
def lowerCamelCase__ ( A__ : str , A__ : list[str] | None = None , A__ : dict[str, float] | None = None , A__ : bool = False , ):
'''simple docstring'''
__lowerCamelCase = cipher_alphabet or [chr(A__ ) for i in range(97 , 123 )]
# If the argument is None or the user provided an empty dictionary
if not frequencies_dict:
# Frequencies of letters in the english language (how much they show up)
__lowerCamelCase = {
"""a""": 0.08_497,
"""b""": 0.01_492,
"""c""": 0.02_202,
"""d""": 0.04_253,
"""e""": 0.11_162,
"""f""": 0.02_228,
"""g""": 0.02_015,
"""h""": 0.06_094,
"""i""": 0.07_546,
"""j""": 0.00_153,
"""k""": 0.01_292,
"""l""": 0.04_025,
"""m""": 0.02_406,
"""n""": 0.06_749,
"""o""": 0.07_507,
"""p""": 0.01_929,
"""q""": 0.00_095,
"""r""": 0.07_587,
"""s""": 0.06_327,
"""t""": 0.09_356,
"""u""": 0.02_758,
"""v""": 0.00_978,
"""w""": 0.02_560,
"""x""": 0.00_150,
"""y""": 0.01_994,
"""z""": 0.00_077,
}
else:
# Custom frequencies dictionary
__lowerCamelCase = frequencies_dict
if not case_sensitive:
__lowerCamelCase = ciphertext.lower()
# Chi squared statistic values
__lowerCamelCase = {}
# cycle through all of the shifts
for shift in range(len(A__ ) ):
__lowerCamelCase = """"""
# decrypt the message with the shift
for letter in ciphertext:
try:
# Try to index the letter in the alphabet
__lowerCamelCase = (alphabet_letters.index(letter.lower() ) - shift) % len(
A__ )
decrypted_with_shift += (
alphabet_letters[new_key].upper()
if case_sensitive and letter.isupper()
else alphabet_letters[new_key]
)
except ValueError:
# Append the character if it isn't in the alphabet
decrypted_with_shift += letter
__lowerCamelCase = 0.0
# Loop through each letter in the decoded message with the shift
for letter in decrypted_with_shift:
if case_sensitive:
__lowerCamelCase = letter.lower()
if letter in frequencies:
# Get the amount of times the letter occurs in the message
__lowerCamelCase = decrypted_with_shift.lower().count(A__ )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
__lowerCamelCase = frequencies[letter] * occurrences
# Complete the chi squared statistic formula
__lowerCamelCase = ((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
else:
if letter.lower() in frequencies:
# Get the amount of times the letter occurs in the message
__lowerCamelCase = decrypted_with_shift.count(A__ )
# Get the excepcted amount of times the letter should appear based
# on letter frequencies
__lowerCamelCase = frequencies[letter] * occurrences
# Complete the chi squared statistic formula
__lowerCamelCase = ((occurrences - expected) ** 2) / expected
# Add the margin of error to the total chi squared statistic
chi_squared_statistic += chi_letter_value
# Add the data to the chi_squared_statistic_values dictionary
__lowerCamelCase = (
chi_squared_statistic,
decrypted_with_shift,
)
# Get the most likely cipher by finding the cipher with the smallest chi squared
# statistic
def chi_squared_statistic_values_sorting_key(A__ : int ) -> tuple[float, str]:
return chi_squared_statistic_values[key]
__lowerCamelCase = min(
A__ , key=A__ , )
# Get all the data from the most likely cipher (key, decoded message)
(
(
__lowerCamelCase
), (
__lowerCamelCase
),
) = chi_squared_statistic_values[most_likely_cipher]
# Return the data on the most likely shift
return (
most_likely_cipher,
most_likely_cipher_chi_squared_value,
decoded_most_likely_cipher,
)
| 12 |
import os
import torch
from ..logging import get_logger
from .constants import FSDP_PYTORCH_VERSION, MODEL_NAME, OPTIMIZER_NAME
from .versions import is_torch_version
if is_torch_version('>=', FSDP_PYTORCH_VERSION):
import torch.distributed.checkpoint as dist_cp
from torch.distributed.checkpoint.default_planner import DefaultLoadPlanner, DefaultSavePlanner
from torch.distributed.checkpoint.optimizer import load_sharded_optimizer_state_dict
from torch.distributed.fsdp.fully_sharded_data_parallel import FullyShardedDataParallel as FSDP
from torch.distributed.fsdp.fully_sharded_data_parallel import StateDictType
UpperCAmelCase_ = get_logger(__name__)
def lowerCamelCase__ ( A__ : Union[str, Any] , A__ : str , A__ : Any , A__ : Dict , A__ : Any=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = model.state_dict()
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
if accelerator.process_index == 0:
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving model to {output_model_file}' )
torch.save(A__ , A__ )
logger.info(f'Model saved to {output_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving model to {ckpt_dir}' )
__lowerCamelCase = {"""model""": state_dict}
dist_cp.save_state_dict(
state_dict=A__ , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Model saved to {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : Dict , A__ : int , A__ : List[str] , A__ : Any=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if type(A__ ) != FSDP and accelerator.process_index != 0:
if not fsdp_plugin.sync_module_states:
raise ValueError(
"""Set the `sync_module_states` flag to `True` so that model states are synced across processes when """
"""initializing FSDP object""" )
return
__lowerCamelCase = f'{MODEL_NAME}.bin' if model_index == 0 else f'{MODEL_NAME}_{model_index}.bin'
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.LOCAL_STATE_DICT:
__lowerCamelCase = (
f'{MODEL_NAME}_rank{accelerator.process_index}.bin'
if model_index == 0
else f'{MODEL_NAME}_{model_index}_rank{accelerator.process_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading model from {input_model_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Model loaded from {input_model_file}' )
elif fsdp_plugin.state_dict_type == StateDictType.SHARDED_STATE_DICT:
__lowerCamelCase = (
os.path.join(A__ , f'{MODEL_NAME}_{model_index}' )
if f'{MODEL_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading model from {ckpt_dir}' )
__lowerCamelCase = {"""model""": model.state_dict()}
dist_cp.load_state_dict(
state_dict=A__ , storage_reader=dist_cp.FileSystemReader(A__ ) , planner=DefaultLoadPlanner() , )
__lowerCamelCase = state_dict["""model"""]
logger.info(f'Model loaded from {ckpt_dir}' )
model.load_state_dict(A__ )
def lowerCamelCase__ ( A__ : List[str] , A__ : List[str] , A__ : str , A__ : Dict , A__ : Optional[Any] , A__ : Optional[int]=0 ):
'''simple docstring'''
os.makedirs(A__ , exist_ok=A__ )
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
__lowerCamelCase = FSDP.optim_state_dict(A__ , A__ )
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
if accelerator.process_index == 0:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Saving Optimizer state to {output_optimizer_file}' )
torch.save(A__ , A__ )
logger.info(f'Optimizer state saved in {output_optimizer_file}' )
else:
__lowerCamelCase = os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
os.makedirs(A__ , exist_ok=A__ )
logger.info(f'Saving Optimizer state to {ckpt_dir}' )
dist_cp.save_state_dict(
state_dict={"""optimizer""": optim_state} , storage_writer=dist_cp.FileSystemWriter(A__ ) , planner=DefaultSavePlanner() , )
logger.info(f'Optimizer state saved in {ckpt_dir}' )
def lowerCamelCase__ ( A__ : int , A__ : List[str] , A__ : int , A__ : Any , A__ : Union[str, Any] , A__ : List[Any]=0 ):
'''simple docstring'''
accelerator.wait_for_everyone()
with FSDP.state_dict_type(
A__ , fsdp_plugin.state_dict_type , fsdp_plugin.state_dict_config , fsdp_plugin.optim_state_dict_config ):
if fsdp_plugin.state_dict_type == StateDictType.FULL_STATE_DICT:
__lowerCamelCase = None
# below check should work but currently it isn't working (mostly opytorch issue),
# in the meantime disabling it at the cost of excess memory usage
# if accelerator.process_index == 0 or not fsdp_plugin.optim_state_dict_config.rank0_only:
__lowerCamelCase = (
f'{OPTIMIZER_NAME}.bin' if optimizer_index == 0 else f'{OPTIMIZER_NAME}_{optimizer_index}.bin'
)
__lowerCamelCase = os.path.join(A__ , A__ )
logger.info(f'Loading Optimizer state from {input_optimizer_file}' )
__lowerCamelCase = torch.load(A__ )
logger.info(f'Optimizer state loaded from {input_optimizer_file}' )
else:
__lowerCamelCase = (
os.path.join(A__ , f'{OPTIMIZER_NAME}_{optimizer_index}' )
if f'{OPTIMIZER_NAME}' not in input_dir
else input_dir
)
logger.info(f'Loading Optimizer from {ckpt_dir}' )
__lowerCamelCase = load_sharded_optimizer_state_dict(
model_state_dict=model.state_dict() , optimizer_key="""optimizer""" , storage_reader=dist_cp.FileSystemReader(A__ ) , )
__lowerCamelCase = optim_state["""optimizer"""]
logger.info(f'Optimizer loaded from {ckpt_dir}' )
__lowerCamelCase = FSDP.optim_state_dict_to_load(A__ , A__ , A__ )
optimizer.load_state_dict(A__ )
| 12 | 1 |
import os
import re
import warnings
from shutil import copyfile
from typing import TYPE_CHECKING, Any, Dict, List, Optional, Tuple
import sentencepiece as spm
from ...tokenization_utils import PreTrainedTokenizer
if TYPE_CHECKING:
from ...tokenization_utils_base import TextInput
from ...utils import logging
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {'vocab_file': 'spiece.model'}
UpperCAmelCase_ = {
'vocab_file': {
't5-small': 'https://huggingface.co/t5-small/resolve/main/spiece.model',
't5-base': 'https://huggingface.co/t5-base/resolve/main/spiece.model',
't5-large': 'https://huggingface.co/t5-large/resolve/main/spiece.model',
't5-3b': 'https://huggingface.co/t5-3b/resolve/main/spiece.model',
't5-11b': 'https://huggingface.co/t5-11b/resolve/main/spiece.model',
}
}
# TODO(PVP) - this should be removed in Transformers v5
UpperCAmelCase_ = {
't5-small': 512,
't5-base': 512,
't5-large': 512,
't5-3b': 512,
't5-11b': 512,
}
UpperCAmelCase_ = '▁'
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : List[str] = VOCAB_FILES_NAMES
UpperCAmelCase__ : int = PRETRAINED_VOCAB_FILES_MAP
UpperCAmelCase__ : List[str] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
UpperCAmelCase__ : Any = ['input_ids', 'attention_mask']
def __init__( self: Dict , UpperCamelCase_: Optional[Any] , UpperCamelCase_: Union[str, Any]="</s>" , UpperCamelCase_: Optional[Any]="<unk>" , UpperCamelCase_: Any="<pad>" , UpperCamelCase_: Optional[Any]=1_00 , UpperCamelCase_: Optional[int]=None , UpperCamelCase_: Optional[Dict[str, Any]] = None , UpperCamelCase_: Optional[int]=True , **UpperCamelCase_: str , ):
# Add extra_ids to the special token list
if extra_ids > 0 and additional_special_tokens is None:
__lowerCamelCase = [F'<extra_id_{i}>' for i in range(UpperCamelCase_ )]
elif extra_ids > 0 and additional_special_tokens is not None:
# Check that we have the right number of extra_id special tokens
__lowerCamelCase = len(set(filter(lambda UpperCamelCase_ : bool("""extra_id""" in str(UpperCamelCase_ ) ) , UpperCamelCase_ ) ) )
if extra_tokens != extra_ids:
raise ValueError(
F'Both extra_ids ({extra_ids}) and additional_special_tokens ({additional_special_tokens}) are'
""" provided to T5Tokenizer. In this case the additional_special_tokens must include the extra_ids"""
""" tokens""" )
if legacy:
logger.warning_once(
F'You are using the legacy behaviour of the {self.__class__}. This means that tokens that come after special tokens will not be properly handled. We recommend you to'
""" read the related pull request available at https://github.com/huggingface/transformers/pull/24565""" )
__lowerCamelCase = legacy
__lowerCamelCase = {} if sp_model_kwargs is None else sp_model_kwargs
super().__init__(
eos_token=UpperCamelCase_ , unk_token=UpperCamelCase_ , pad_token=UpperCamelCase_ , extra_ids=UpperCamelCase_ , additional_special_tokens=UpperCamelCase_ , sp_model_kwargs=self.sp_model_kwargs , legacy=UpperCamelCase_ , **UpperCamelCase_ , )
__lowerCamelCase = vocab_file
__lowerCamelCase = extra_ids
__lowerCamelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs )
self.sp_model.Load(UpperCamelCase_ )
@staticmethod
def lowerCAmelCase__ ( UpperCamelCase_: Optional[int] , UpperCamelCase_: str , UpperCamelCase_: Optional[int] ):
if pretrained_model_name_or_path in TaTokenizer.max_model_input_sizes:
__lowerCamelCase = TaTokenizer.max_model_input_sizes[pretrained_model_name_or_path]
if init_max_model_length is not None and init_max_model_length != max_model_length:
return init_max_model_length
elif init_max_model_length is None:
warnings.warn(
"""This tokenizer was incorrectly instantiated with a model max length of"""
F' {deprecated_max_model_length} which will be corrected in Transformers v5.\nFor now, this'
""" behavior is kept to avoid breaking backwards compatibility when padding/encoding with"""
""" `truncation is True`.\n- Be aware that you SHOULD NOT rely on"""
F' {pretrained_model_name_or_path} automatically truncating your input to'
F' {deprecated_max_model_length} when padding/encoding.\n- If you want to encode/pad to sequences'
F' longer than {deprecated_max_model_length} you can either instantiate this tokenizer with'
""" `model_max_length` or pass `max_length` when encoding/padding.\n- To avoid this warning, please"""
""" instantiate this tokenizer with `model_max_length` set to your preferred value.""" , UpperCamelCase_ , )
return max_model_length
@property
def lowerCAmelCase__ ( self: List[Any] ):
return self.sp_model.get_piece_size() + self._extra_ids
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = {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: List[str] , UpperCamelCase_: List[int] , UpperCamelCase_: Optional[List[int]] = None , UpperCamelCase_: bool = False ):
if already_has_special_tokens:
return super().get_special_tokens_mask(
token_ids_a=UpperCamelCase_ , token_ids_a=UpperCamelCase_ , already_has_special_tokens=UpperCamelCase_ )
# normal case: some special tokens
if token_ids_a is None:
return ([0] * len(UpperCamelCase_ )) + [1]
return ([0] * len(UpperCamelCase_ )) + [1] + ([0] * len(UpperCamelCase_ )) + [1]
def lowerCAmelCase__ ( self: List[str] ):
return list(
set(filter(lambda UpperCamelCase_ : bool(re.search(r"""<extra_id_\d+>""" , UpperCamelCase_ ) ) is not None , self.additional_special_tokens ) ) )
def lowerCAmelCase__ ( self: Union[str, Any] ):
return [self._convert_token_to_id(UpperCamelCase_ ) for token in self.get_sentinel_tokens()]
def lowerCAmelCase__ ( self: int , UpperCamelCase_: List[int] ):
if len(UpperCamelCase_ ) > 0 and token_ids[-1] == self.eos_token_id:
warnings.warn(
F'This sequence already has {self.eos_token}. In future versions this behavior may lead to duplicated'
""" eos tokens being added.""" )
return token_ids
else:
return token_ids + [self.eos_token_id]
def lowerCAmelCase__ ( self: Optional[Any] , UpperCamelCase_: List[int] , UpperCamelCase_: Optional[List[int]] = None ):
__lowerCamelCase = [self.eos_token_id]
if token_ids_a is None:
return len(token_ids_a + eos ) * [0]
return len(token_ids_a + eos + token_ids_a + eos ) * [0]
def lowerCAmelCase__ ( self: Optional[int] , UpperCamelCase_: List[int] , UpperCamelCase_: Optional[List[int]] = None ):
__lowerCamelCase = self._add_eos_if_not_present(UpperCamelCase_ )
if token_ids_a is None:
return token_ids_a
else:
__lowerCamelCase = self._add_eos_if_not_present(UpperCamelCase_ )
return token_ids_a + token_ids_a
def __getstate__( self: Dict ):
__lowerCamelCase = self.__dict__.copy()
__lowerCamelCase = None
return state
def __setstate__( self: int , UpperCamelCase_: Dict ):
__lowerCamelCase = d
# for backward compatibility
if not hasattr(self , """sp_model_kwargs""" ):
__lowerCamelCase = {}
__lowerCamelCase = spm.SentencePieceProcessor(**self.sp_model_kwargs )
self.sp_model.Load(self.vocab_file )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: "TextInput" , **UpperCamelCase_: Dict ):
# Replace the SPIECE_UNDERLINE with a space to make sure SPIECE_UNDERLINE is only used at
# the beginning of the text
if not self.legacy:
__lowerCamelCase = SPIECE_UNDERLINE + text.replace(UpperCamelCase_ , """ """ )
return super().tokenize(UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: Any , **UpperCamelCase_: List[Any] ):
if not self.legacy:
__lowerCamelCase = text.startswith(UpperCamelCase_ )
if is_first:
__lowerCamelCase = text[1:]
__lowerCamelCase = self.sp_model.encode(UpperCamelCase_ , out_type=UpperCamelCase_ )
if not self.legacy and not is_first and not text.startswith(""" """ ) and tokens[0].startswith(UpperCamelCase_ ):
__lowerCamelCase = ([tokens[0][1:]] if len(tokens[0] ) > 1 else []) + tokens[1:]
return tokens
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: Tuple ):
if token.startswith("""<extra_id_""" ):
__lowerCamelCase = re.match(r"""<extra_id_(\d+)>""" , UpperCamelCase_ )
__lowerCamelCase = int(match.group(1 ) )
return self.vocab_size - num - 1
return self.sp_model.piece_to_id(UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[int] ):
if index < self.sp_model.get_piece_size():
__lowerCamelCase = self.sp_model.IdToPiece(UpperCamelCase_ )
else:
__lowerCamelCase = F'<extra_id_{self.vocab_size - 1 - index}>'
return token
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: Dict ):
__lowerCamelCase = []
__lowerCamelCase = """"""
__lowerCamelCase = False
for token in tokens:
# make sure that special tokens are not decoded using sentencepiece model
if token in self.all_special_tokens:
if not prev_is_special:
out_string += " "
out_string += self.sp_model.decode(UpperCamelCase_ ) + token
__lowerCamelCase = True
__lowerCamelCase = []
else:
current_sub_tokens.append(UpperCamelCase_ )
__lowerCamelCase = False
out_string += self.sp_model.decode(UpperCamelCase_ )
return out_string.strip()
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: str , UpperCamelCase_: Optional[str] = None ):
if not os.path.isdir(UpperCamelCase_ ):
logger.error(F'Vocabulary path ({save_directory}) should be a directory' )
return
__lowerCamelCase = 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:
__lowerCamelCase = self.sp_model.serialized_model_proto()
fi.write(UpperCamelCase_ )
return (out_vocab_file,)
| 12 |
import gc
import random
import unittest
import numpy as np
import torch
from transformers import CLIPImageProcessor, CLIPVisionConfig, CLIPVisionModel
from diffusers import HeunDiscreteScheduler, PriorTransformer, ShapEImgaImgPipeline
from diffusers.pipelines.shap_e import ShapERenderer
from diffusers.utils import floats_tensor, load_image, 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 lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Tuple = ShapEImgaImgPipeline
UpperCAmelCase__ : Optional[Any] = ['image']
UpperCAmelCase__ : int = ['image']
UpperCAmelCase__ : Any = [
'num_images_per_prompt',
'num_inference_steps',
'generator',
'latents',
'guidance_scale',
'frame_size',
'output_type',
'return_dict',
]
UpperCAmelCase__ : int = False
@property
def lowerCAmelCase__ ( self: int ):
return 32
@property
def lowerCAmelCase__ ( self: List[str] ):
return 32
@property
def lowerCAmelCase__ ( self: Any ):
return self.time_input_dim * 4
@property
def lowerCAmelCase__ ( self: Dict ):
return 8
@property
def lowerCAmelCase__ ( self: int ):
torch.manual_seed(0 )
__lowerCamelCase = CLIPVisionConfig(
hidden_size=self.text_embedder_hidden_size , image_size=64 , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , num_attention_heads=4 , num_channels=3 , num_hidden_layers=5 , patch_size=1 , )
__lowerCamelCase = CLIPVisionModel(UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = CLIPImageProcessor(
crop_size=2_24 , do_center_crop=UpperCamelCase_ , do_normalize=UpperCamelCase_ , do_resize=UpperCamelCase_ , image_mean=[0.4814_5466, 0.457_8275, 0.4082_1073] , image_std=[0.2686_2954, 0.2613_0258, 0.2757_7711] , resample=3 , size=2_24 , )
return image_processor
@property
def lowerCAmelCase__ ( self: Tuple ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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""",
"""embedding_proj_norm_type""": """layer""",
"""encoder_hid_proj_type""": None,
"""added_emb_type""": None,
}
__lowerCamelCase = PriorTransformer(**UpperCamelCase_ )
return model
@property
def lowerCAmelCase__ ( self: List[Any] ):
torch.manual_seed(0 )
__lowerCamelCase = {
"""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,
),
}
__lowerCamelCase = ShapERenderer(**UpperCamelCase_ )
return model
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = self.dummy_prior
__lowerCamelCase = self.dummy_image_encoder
__lowerCamelCase = self.dummy_image_processor
__lowerCamelCase = self.dummy_renderer
__lowerCamelCase = HeunDiscreteScheduler(
beta_schedule="""exp""" , num_train_timesteps=10_24 , prediction_type="""sample""" , use_karras_sigmas=UpperCamelCase_ , clip_sample=UpperCamelCase_ , clip_sample_range=1.0 , )
__lowerCamelCase = {
"""prior""": prior,
"""image_encoder""": image_encoder,
"""image_processor""": image_processor,
"""renderer""": renderer,
"""scheduler""": scheduler,
}
return components
def lowerCAmelCase__ ( self: int , UpperCamelCase_: List[Any] , UpperCamelCase_: Dict=0 ):
__lowerCamelCase = floats_tensor((1, 3, 64, 64) , rng=random.Random(UpperCamelCase_ ) ).to(UpperCamelCase_ )
if str(UpperCamelCase_ ).startswith("""mps""" ):
__lowerCamelCase = torch.manual_seed(UpperCamelCase_ )
else:
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(UpperCamelCase_ )
__lowerCamelCase = {
"""image""": input_image,
"""generator""": generator,
"""num_inference_steps""": 1,
"""frame_size""": 32,
"""output_type""": """np""",
}
return inputs
def lowerCAmelCase__ ( self: Tuple ):
__lowerCamelCase = """cpu"""
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = pipe(**self.get_dummy_inputs(UpperCamelCase_ ) )
__lowerCamelCase = output.images[0]
__lowerCamelCase = image[0, -3:, -3:, -1]
assert image.shape == (20, 32, 32, 3)
__lowerCamelCase = np.array(
[
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
0.0003_9216,
] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def lowerCAmelCase__ ( self: List[str] ):
# NOTE: Larger batch sizes cause this test to timeout, only test on smaller batches
self._test_inference_batch_consistent(batch_sizes=[1, 2] )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = torch_device == """cpu"""
__lowerCamelCase = True
self._test_inference_batch_single_identical(
batch_size=2 , test_max_difference=UpperCamelCase_ , relax_max_difference=UpperCamelCase_ , )
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = self.get_dummy_components()
__lowerCamelCase = self.pipeline_class(**UpperCamelCase_ )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = 1
__lowerCamelCase = 2
__lowerCamelCase = self.get_dummy_inputs(UpperCamelCase_ )
for key in inputs.keys():
if key in self.batch_params:
__lowerCamelCase = batch_size * [inputs[key]]
__lowerCamelCase = pipe(**UpperCamelCase_ , num_images_per_prompt=UpperCamelCase_ )[0]
assert images.shape[0] == batch_size * num_images_per_prompt
@slow
@require_torch_gpu
class lowerCamelCase__( unittest.TestCase):
def lowerCAmelCase__ ( self: Union[str, Any] ):
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCAmelCase__ ( self: Any ):
__lowerCamelCase = load_image(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/shap_e/corgi.png""" )
__lowerCamelCase = load_numpy(
"""https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"""
"""/shap_e/test_shap_e_img2img_out.npy""" )
__lowerCamelCase = ShapEImgaImgPipeline.from_pretrained("""openai/shap-e-img2img""" )
__lowerCamelCase = pipe.to(UpperCamelCase_ )
pipe.set_progress_bar_config(disable=UpperCamelCase_ )
__lowerCamelCase = torch.Generator(device=UpperCamelCase_ ).manual_seed(0 )
__lowerCamelCase = pipe(
UpperCamelCase_ , generator=UpperCamelCase_ , guidance_scale=3.0 , 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_ )
| 12 | 1 |
from collections import OrderedDict
from typing import Mapping
from packaging import version
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
UpperCAmelCase_ = logging.get_logger(__name__)
UpperCAmelCase_ = {
'hustvl/yolos-small': 'https://huggingface.co/hustvl/yolos-small/resolve/main/config.json',
# See all YOLOS models at https://huggingface.co/models?filter=yolos
}
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : int = 'yolos'
def __init__( self: Union[str, Any] , UpperCamelCase_: List[Any]=7_68 , UpperCamelCase_: Dict=12 , UpperCamelCase_: Any=12 , UpperCamelCase_: Tuple=30_72 , UpperCamelCase_: Dict="gelu" , UpperCamelCase_: Optional[Any]=0.0 , UpperCamelCase_: str=0.0 , UpperCamelCase_: List[Any]=0.02 , UpperCamelCase_: Optional[int]=1E-12 , UpperCamelCase_: Union[str, Any]=[5_12, 8_64] , UpperCamelCase_: Union[str, Any]=16 , UpperCamelCase_: List[Any]=3 , UpperCamelCase_: Dict=True , UpperCamelCase_: int=1_00 , UpperCamelCase_: str=True , UpperCamelCase_: Optional[Any]=False , UpperCamelCase_: Tuple=1 , UpperCamelCase_: int=5 , UpperCamelCase_: Tuple=2 , UpperCamelCase_: Dict=5 , UpperCamelCase_: Tuple=2 , UpperCamelCase_: Any=0.1 , **UpperCamelCase_: Tuple , ):
super().__init__(**UpperCamelCase_ )
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = intermediate_size
__lowerCamelCase = hidden_act
__lowerCamelCase = hidden_dropout_prob
__lowerCamelCase = attention_probs_dropout_prob
__lowerCamelCase = initializer_range
__lowerCamelCase = layer_norm_eps
__lowerCamelCase = image_size
__lowerCamelCase = patch_size
__lowerCamelCase = num_channels
__lowerCamelCase = qkv_bias
__lowerCamelCase = num_detection_tokens
__lowerCamelCase = use_mid_position_embeddings
__lowerCamelCase = auxiliary_loss
# Hungarian matcher
__lowerCamelCase = class_cost
__lowerCamelCase = bbox_cost
__lowerCamelCase = giou_cost
# Loss coefficients
__lowerCamelCase = bbox_loss_coefficient
__lowerCamelCase = giou_loss_coefficient
__lowerCamelCase = eos_coefficient
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Any = version.parse('1.11')
@property
def lowerCAmelCase__ ( self: Dict ):
return OrderedDict(
[
("""pixel_values""", {0: """batch""", 1: """num_channels""", 2: """height""", 3: """width"""}),
] )
@property
def lowerCAmelCase__ ( self: Union[str, Any] ):
return 1E-4
@property
def lowerCAmelCase__ ( self: Union[str, Any] ):
return 12
| 12 |
from typing import List, Optional, Union
import torch
from ...models import UNetaDConditionModel, VQModel
from ...pipelines import DiffusionPipeline
from ...pipelines.pipeline_utils import ImagePipelineOutput
from ...schedulers import DDPMScheduler
from ...utils import (
is_accelerate_available,
is_accelerate_version,
logging,
randn_tensor,
replace_example_docstring,
)
UpperCAmelCase_ = logging.get_logger(__name__) # pylint: disable=invalid-name
UpperCAmelCase_ = '\n Examples:\n ```py\n >>> import torch\n >>> import numpy as np\n\n >>> from diffusers import KandinskyV22PriorPipeline, KandinskyV22ControlnetPipeline\n >>> from transformers import pipeline\n >>> from diffusers.utils import load_image\n\n\n >>> def make_hint(image, depth_estimator):\n ... image = depth_estimator(image)["depth"]\n ... image = np.array(image)\n ... image = image[:, :, None]\n ... image = np.concatenate([image, image, image], axis=2)\n ... detected_map = torch.from_numpy(image).float() / 255.0\n ... hint = detected_map.permute(2, 0, 1)\n ... return hint\n\n\n >>> depth_estimator = pipeline("depth-estimation")\n\n >>> pipe_prior = KandinskyV22PriorPipeline.from_pretrained(\n ... "kandinsky-community/kandinsky-2-2-prior", torch_dtype=torch.float16\n ... )\n >>> pipe_prior = pipe_prior.to("cuda")\n\n >>> pipe = KandinskyV22ControlnetPipeline.from_pretrained(\n ... "kandinsky-community/kandinsky-2-2-controlnet-depth", torch_dtype=torch.float16\n ... )\n >>> pipe = pipe.to("cuda")\n\n\n >>> img = load_image(\n ... "https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"\n ... "/kandinsky/cat.png"\n ... ).resize((768, 768))\n\n >>> hint = make_hint(img, depth_estimator).unsqueeze(0).half().to("cuda")\n\n >>> prompt = "A robot, 4k photo"\n >>> negative_prior_prompt = "lowres, text, error, cropped, worst quality, low quality, jpeg artifacts, ugly, duplicate, morbid, mutilated, out of frame, extra fingers, mutated hands, poorly drawn hands, poorly drawn face, mutation, deformed, blurry, dehydrated, bad anatomy, bad proportions, extra limbs, cloned face, disfigured, gross proportions, malformed limbs, missing arms, missing legs, extra arms, extra legs, fused fingers, too many fingers, long neck, username, watermark, signature"\n\n >>> generator = torch.Generator(device="cuda").manual_seed(43)\n\n >>> image_emb, zero_image_emb = pipe_prior(\n ... prompt=prompt, negative_prompt=negative_prior_prompt, generator=generator\n ... ).to_tuple()\n\n >>> images = pipe(\n ... image_embeds=image_emb,\n ... negative_image_embeds=zero_image_emb,\n ... hint=hint,\n ... num_inference_steps=50,\n ... generator=generator,\n ... height=768,\n ... width=768,\n ... ).images\n\n >>> images[0].save("robot_cat.png")\n ```\n'
def lowerCamelCase__ ( A__ : Optional[int] , A__ : Dict , A__ : Optional[int]=8 ):
'''simple docstring'''
__lowerCamelCase = height // scale_factor**2
if height % scale_factor**2 != 0:
new_height += 1
__lowerCamelCase = width // scale_factor**2
if width % scale_factor**2 != 0:
new_width += 1
return new_height * scale_factor, new_width * scale_factor
class lowerCamelCase__( __lowerCamelCase):
def __init__( self: List[Any] , UpperCamelCase_: UNetaDConditionModel , UpperCamelCase_: DDPMScheduler , UpperCamelCase_: VQModel , ):
super().__init__()
self.register_modules(
unet=UpperCamelCase_ , scheduler=UpperCamelCase_ , movq=UpperCamelCase_ , )
__lowerCamelCase = 2 ** (len(self.movq.config.block_out_channels ) - 1)
def lowerCAmelCase__ ( self: int , UpperCamelCase_: Any , UpperCamelCase_: Tuple , UpperCamelCase_: int , UpperCamelCase_: Dict , UpperCamelCase_: Dict , UpperCamelCase_: int ):
if latents is None:
__lowerCamelCase = randn_tensor(UpperCamelCase_ , generator=UpperCamelCase_ , device=UpperCamelCase_ , dtype=UpperCamelCase_ )
else:
if latents.shape != shape:
raise ValueError(F'Unexpected latents shape, got {latents.shape}, expected {shape}' )
__lowerCamelCase = latents.to(UpperCamelCase_ )
__lowerCamelCase = latents * scheduler.init_noise_sigma
return latents
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: str=0 ):
if is_accelerate_available():
from accelerate import cpu_offload
else:
raise ImportError("""Please install accelerate via `pip install accelerate`""" )
__lowerCamelCase = torch.device(F'cuda:{gpu_id}' )
__lowerCamelCase = [
self.unet,
self.movq,
]
for cpu_offloaded_model in models:
if cpu_offloaded_model is not None:
cpu_offload(UpperCamelCase_ , UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[int]=0 ):
if is_accelerate_available() and is_accelerate_version(""">=""" , """0.17.0.dev0""" ):
from accelerate import cpu_offload_with_hook
else:
raise ImportError("""`enable_model_cpu_offload` requires `accelerate v0.17.0` or higher.""" )
__lowerCamelCase = torch.device(F'cuda:{gpu_id}' )
if self.device.type != "cpu":
self.to("""cpu""" , silence_dtype_warnings=UpperCamelCase_ )
torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist)
__lowerCamelCase = None
for cpu_offloaded_model in [self.unet, self.movq]:
__lowerCamelCase, __lowerCamelCase = cpu_offload_with_hook(UpperCamelCase_ , UpperCamelCase_ , prev_module_hook=UpperCamelCase_ )
# We'll offload the last model manually.
__lowerCamelCase = hook
@property
# Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device
def lowerCAmelCase__ ( self: int ):
if not hasattr(self.unet , """_hf_hook""" ):
return self.device
for module in self.unet.modules():
if (
hasattr(UpperCamelCase_ , """_hf_hook""" )
and hasattr(module._hf_hook , """execution_device""" )
and module._hf_hook.execution_device is not None
):
return torch.device(module._hf_hook.execution_device )
return self.device
@torch.no_grad()
@replace_example_docstring(UpperCamelCase_ )
def __call__( self: Tuple , UpperCamelCase_: Union[torch.FloatTensor, List[torch.FloatTensor]] , UpperCamelCase_: Union[torch.FloatTensor, List[torch.FloatTensor]] , UpperCamelCase_: torch.FloatTensor , UpperCamelCase_: int = 5_12 , UpperCamelCase_: int = 5_12 , UpperCamelCase_: int = 1_00 , UpperCamelCase_: float = 4.0 , UpperCamelCase_: int = 1 , UpperCamelCase_: Optional[Union[torch.Generator, List[torch.Generator]]] = None , UpperCamelCase_: Optional[torch.FloatTensor] = None , UpperCamelCase_: Optional[str] = "pil" , UpperCamelCase_: bool = True , ):
__lowerCamelCase = self._execution_device
__lowerCamelCase = guidance_scale > 1.0
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
__lowerCamelCase = torch.cat(UpperCamelCase_ , dim=0 )
__lowerCamelCase = image_embeds.shape[0] * num_images_per_prompt
if do_classifier_free_guidance:
__lowerCamelCase = image_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = negative_image_embeds.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = hint.repeat_interleave(UpperCamelCase_ , dim=0 )
__lowerCamelCase = torch.cat([negative_image_embeds, image_embeds] , dim=0 ).to(dtype=self.unet.dtype , device=UpperCamelCase_ )
__lowerCamelCase = torch.cat([hint, hint] , dim=0 ).to(dtype=self.unet.dtype , device=UpperCamelCase_ )
self.scheduler.set_timesteps(UpperCamelCase_ , device=UpperCamelCase_ )
__lowerCamelCase = self.scheduler.timesteps
__lowerCamelCase = self.movq.config.latent_channels
__lowerCamelCase, __lowerCamelCase = downscale_height_and_width(UpperCamelCase_ , UpperCamelCase_ , self.movq_scale_factor )
# create initial latent
__lowerCamelCase = self.prepare_latents(
(batch_size, num_channels_latents, height, width) , image_embeds.dtype , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , self.scheduler , )
for i, t in enumerate(self.progress_bar(UpperCamelCase_ ) ):
# expand the latents if we are doing classifier free guidance
__lowerCamelCase = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents
__lowerCamelCase = {"""image_embeds""": image_embeds, """hint""": hint}
__lowerCamelCase = self.unet(
sample=UpperCamelCase_ , timestep=UpperCamelCase_ , encoder_hidden_states=UpperCamelCase_ , added_cond_kwargs=UpperCamelCase_ , return_dict=UpperCamelCase_ , )[0]
if do_classifier_free_guidance:
__lowerCamelCase, __lowerCamelCase = noise_pred.split(latents.shape[1] , dim=1 )
__lowerCamelCase, __lowerCamelCase = noise_pred.chunk(2 )
__lowerCamelCase, __lowerCamelCase = variance_pred.chunk(2 )
__lowerCamelCase = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
__lowerCamelCase = torch.cat([noise_pred, variance_pred_text] , dim=1 )
if not (
hasattr(self.scheduler.config , """variance_type""" )
and self.scheduler.config.variance_type in ["learned", "learned_range"]
):
__lowerCamelCase, __lowerCamelCase = noise_pred.split(latents.shape[1] , dim=1 )
# compute the previous noisy sample x_t -> x_t-1
__lowerCamelCase = self.scheduler.step(
UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , generator=UpperCamelCase_ , )[0]
# post-processing
__lowerCamelCase = self.movq.decode(UpperCamelCase_ , force_not_quantize=UpperCamelCase_ )["""sample"""]
if output_type not in ["pt", "np", "pil"]:
raise ValueError(F'Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}' )
if output_type in ["np", "pil"]:
__lowerCamelCase = image * 0.5 + 0.5
__lowerCamelCase = image.clamp(0 , 1 )
__lowerCamelCase = image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy()
if output_type == "pil":
__lowerCamelCase = self.numpy_to_pil(UpperCamelCase_ )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=UpperCamelCase_ )
| 12 | 1 |
# Copyright 2023 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from ..models.auto import AutoModelForSeqaSeqLM, AutoTokenizer
from .base import PipelineTool
UpperCAmelCase_ = {
'Acehnese Arabic': 'ace_Arab',
'Acehnese Latin': 'ace_Latn',
'Mesopotamian Arabic': 'acm_Arab',
'Ta\'izzi-Adeni Arabic': 'acq_Arab',
'Tunisian Arabic': 'aeb_Arab',
'Afrikaans': 'afr_Latn',
'South Levantine Arabic': 'ajp_Arab',
'Akan': 'aka_Latn',
'Amharic': 'amh_Ethi',
'North Levantine Arabic': 'apc_Arab',
'Modern Standard Arabic': 'arb_Arab',
'Modern Standard Arabic Romanized': 'arb_Latn',
'Najdi Arabic': 'ars_Arab',
'Moroccan Arabic': 'ary_Arab',
'Egyptian Arabic': 'arz_Arab',
'Assamese': 'asm_Beng',
'Asturian': 'ast_Latn',
'Awadhi': 'awa_Deva',
'Central Aymara': 'ayr_Latn',
'South Azerbaijani': 'azb_Arab',
'North Azerbaijani': 'azj_Latn',
'Bashkir': 'bak_Cyrl',
'Bambara': 'bam_Latn',
'Balinese': 'ban_Latn',
'Belarusian': 'bel_Cyrl',
'Bemba': 'bem_Latn',
'Bengali': 'ben_Beng',
'Bhojpuri': 'bho_Deva',
'Banjar Arabic': 'bjn_Arab',
'Banjar Latin': 'bjn_Latn',
'Standard Tibetan': 'bod_Tibt',
'Bosnian': 'bos_Latn',
'Buginese': 'bug_Latn',
'Bulgarian': 'bul_Cyrl',
'Catalan': 'cat_Latn',
'Cebuano': 'ceb_Latn',
'Czech': 'ces_Latn',
'Chokwe': 'cjk_Latn',
'Central Kurdish': 'ckb_Arab',
'Crimean Tatar': 'crh_Latn',
'Welsh': 'cym_Latn',
'Danish': 'dan_Latn',
'German': 'deu_Latn',
'Southwestern Dinka': 'dik_Latn',
'Dyula': 'dyu_Latn',
'Dzongkha': 'dzo_Tibt',
'Greek': 'ell_Grek',
'English': 'eng_Latn',
'Esperanto': 'epo_Latn',
'Estonian': 'est_Latn',
'Basque': 'eus_Latn',
'Ewe': 'ewe_Latn',
'Faroese': 'fao_Latn',
'Fijian': 'fij_Latn',
'Finnish': 'fin_Latn',
'Fon': 'fon_Latn',
'French': 'fra_Latn',
'Friulian': 'fur_Latn',
'Nigerian Fulfulde': 'fuv_Latn',
'Scottish Gaelic': 'gla_Latn',
'Irish': 'gle_Latn',
'Galician': 'glg_Latn',
'Guarani': 'grn_Latn',
'Gujarati': 'guj_Gujr',
'Haitian Creole': 'hat_Latn',
'Hausa': 'hau_Latn',
'Hebrew': 'heb_Hebr',
'Hindi': 'hin_Deva',
'Chhattisgarhi': 'hne_Deva',
'Croatian': 'hrv_Latn',
'Hungarian': 'hun_Latn',
'Armenian': 'hye_Armn',
'Igbo': 'ibo_Latn',
'Ilocano': 'ilo_Latn',
'Indonesian': 'ind_Latn',
'Icelandic': 'isl_Latn',
'Italian': 'ita_Latn',
'Javanese': 'jav_Latn',
'Japanese': 'jpn_Jpan',
'Kabyle': 'kab_Latn',
'Jingpho': 'kac_Latn',
'Kamba': 'kam_Latn',
'Kannada': 'kan_Knda',
'Kashmiri Arabic': 'kas_Arab',
'Kashmiri Devanagari': 'kas_Deva',
'Georgian': 'kat_Geor',
'Central Kanuri Arabic': 'knc_Arab',
'Central Kanuri Latin': 'knc_Latn',
'Kazakh': 'kaz_Cyrl',
'Kabiyè': 'kbp_Latn',
'Kabuverdianu': 'kea_Latn',
'Khmer': 'khm_Khmr',
'Kikuyu': 'kik_Latn',
'Kinyarwanda': 'kin_Latn',
'Kyrgyz': 'kir_Cyrl',
'Kimbundu': 'kmb_Latn',
'Northern Kurdish': 'kmr_Latn',
'Kikongo': 'kon_Latn',
'Korean': 'kor_Hang',
'Lao': 'lao_Laoo',
'Ligurian': 'lij_Latn',
'Limburgish': 'lim_Latn',
'Lingala': 'lin_Latn',
'Lithuanian': 'lit_Latn',
'Lombard': 'lmo_Latn',
'Latgalian': 'ltg_Latn',
'Luxembourgish': 'ltz_Latn',
'Luba-Kasai': 'lua_Latn',
'Ganda': 'lug_Latn',
'Luo': 'luo_Latn',
'Mizo': 'lus_Latn',
'Standard Latvian': 'lvs_Latn',
'Magahi': 'mag_Deva',
'Maithili': 'mai_Deva',
'Malayalam': 'mal_Mlym',
'Marathi': 'mar_Deva',
'Minangkabau Arabic ': 'min_Arab',
'Minangkabau Latin': 'min_Latn',
'Macedonian': 'mkd_Cyrl',
'Plateau Malagasy': 'plt_Latn',
'Maltese': 'mlt_Latn',
'Meitei Bengali': 'mni_Beng',
'Halh Mongolian': 'khk_Cyrl',
'Mossi': 'mos_Latn',
'Maori': 'mri_Latn',
'Burmese': 'mya_Mymr',
'Dutch': 'nld_Latn',
'Norwegian Nynorsk': 'nno_Latn',
'Norwegian Bokmål': 'nob_Latn',
'Nepali': 'npi_Deva',
'Northern Sotho': 'nso_Latn',
'Nuer': 'nus_Latn',
'Nyanja': 'nya_Latn',
'Occitan': 'oci_Latn',
'West Central Oromo': 'gaz_Latn',
'Odia': 'ory_Orya',
'Pangasinan': 'pag_Latn',
'Eastern Panjabi': 'pan_Guru',
'Papiamento': 'pap_Latn',
'Western Persian': 'pes_Arab',
'Polish': 'pol_Latn',
'Portuguese': 'por_Latn',
'Dari': 'prs_Arab',
'Southern Pashto': 'pbt_Arab',
'Ayacucho Quechua': 'quy_Latn',
'Romanian': 'ron_Latn',
'Rundi': 'run_Latn',
'Russian': 'rus_Cyrl',
'Sango': 'sag_Latn',
'Sanskrit': 'san_Deva',
'Santali': 'sat_Olck',
'Sicilian': 'scn_Latn',
'Shan': 'shn_Mymr',
'Sinhala': 'sin_Sinh',
'Slovak': 'slk_Latn',
'Slovenian': 'slv_Latn',
'Samoan': 'smo_Latn',
'Shona': 'sna_Latn',
'Sindhi': 'snd_Arab',
'Somali': 'som_Latn',
'Southern Sotho': 'sot_Latn',
'Spanish': 'spa_Latn',
'Tosk Albanian': 'als_Latn',
'Sardinian': 'srd_Latn',
'Serbian': 'srp_Cyrl',
'Swati': 'ssw_Latn',
'Sundanese': 'sun_Latn',
'Swedish': 'swe_Latn',
'Swahili': 'swh_Latn',
'Silesian': 'szl_Latn',
'Tamil': 'tam_Taml',
'Tatar': 'tat_Cyrl',
'Telugu': 'tel_Telu',
'Tajik': 'tgk_Cyrl',
'Tagalog': 'tgl_Latn',
'Thai': 'tha_Thai',
'Tigrinya': 'tir_Ethi',
'Tamasheq Latin': 'taq_Latn',
'Tamasheq Tifinagh': 'taq_Tfng',
'Tok Pisin': 'tpi_Latn',
'Tswana': 'tsn_Latn',
'Tsonga': 'tso_Latn',
'Turkmen': 'tuk_Latn',
'Tumbuka': 'tum_Latn',
'Turkish': 'tur_Latn',
'Twi': 'twi_Latn',
'Central Atlas Tamazight': 'tzm_Tfng',
'Uyghur': 'uig_Arab',
'Ukrainian': 'ukr_Cyrl',
'Umbundu': 'umb_Latn',
'Urdu': 'urd_Arab',
'Northern Uzbek': 'uzn_Latn',
'Venetian': 'vec_Latn',
'Vietnamese': 'vie_Latn',
'Waray': 'war_Latn',
'Wolof': 'wol_Latn',
'Xhosa': 'xho_Latn',
'Eastern Yiddish': 'ydd_Hebr',
'Yoruba': 'yor_Latn',
'Yue Chinese': 'yue_Hant',
'Chinese Simplified': 'zho_Hans',
'Chinese Traditional': 'zho_Hant',
'Standard Malay': 'zsm_Latn',
'Zulu': 'zul_Latn',
}
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Dict = 'facebook/nllb-200-distilled-600M'
UpperCAmelCase__ : Optional[int] = (
'This is a tool that translates text from a language to another. It takes three inputs: `text`, which should '
'be the text to translate, `src_lang`, which should be the language of the text to translate and `tgt_lang`, '
'which should be the language for the desired ouput language. Both `src_lang` and `tgt_lang` are written in '
'plain English, such as \'Romanian\', or \'Albanian\'. It returns the text translated in `tgt_lang`.'
)
UpperCAmelCase__ : str = 'translator'
UpperCAmelCase__ : List[Any] = AutoTokenizer
UpperCAmelCase__ : Optional[Any] = AutoModelForSeqaSeqLM
UpperCAmelCase__ : List[Any] = LANGUAGE_CODES
UpperCAmelCase__ : List[Any] = ['text', 'text', 'text']
UpperCAmelCase__ : Any = ['text']
def lowerCAmelCase__ ( self: Optional[int] , UpperCamelCase_: List[str] , UpperCamelCase_: Union[str, Any] , UpperCamelCase_: Union[str, Any] ):
if src_lang not in self.lang_to_code:
raise ValueError(F'{src_lang} is not a supported language.' )
if tgt_lang not in self.lang_to_code:
raise ValueError(F'{tgt_lang} is not a supported language.' )
__lowerCamelCase = self.lang_to_code[src_lang]
__lowerCamelCase = self.lang_to_code[tgt_lang]
return self.pre_processor._build_translation_inputs(
UpperCamelCase_ , return_tensors="""pt""" , src_lang=UpperCamelCase_ , tgt_lang=UpperCamelCase_ )
def lowerCAmelCase__ ( self: str , UpperCamelCase_: List[Any] ):
return self.model.generate(**UpperCamelCase_ )
def lowerCAmelCase__ ( self: Any , UpperCamelCase_: Dict ):
return self.post_processor.decode(outputs[0].tolist() , skip_special_tokens=UpperCamelCase_ )
| 12 |
import unittest
from transformers import BigBirdConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask
if is_flax_available():
import jax
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class lowerCamelCase__( unittest.TestCase):
def __init__( self: Optional[int] , UpperCamelCase_: Any , UpperCamelCase_: int=2 , UpperCamelCase_: Optional[Any]=56 , UpperCamelCase_: Tuple=True , UpperCamelCase_: Union[str, Any]=True , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: str=True , UpperCamelCase_: str=99 , UpperCamelCase_: Tuple=32 , UpperCamelCase_: int=2 , UpperCamelCase_: Optional[int]=2 , UpperCamelCase_: Tuple=7 , UpperCamelCase_: Optional[int]="gelu_new" , UpperCamelCase_: Any=0.1 , UpperCamelCase_: List[str]=0.1 , UpperCamelCase_: List[Any]=5_12 , UpperCamelCase_: Union[str, Any]=16 , UpperCamelCase_: int=2 , UpperCamelCase_: Dict=0.02 , UpperCamelCase_: Tuple=4 , UpperCamelCase_: Union[str, Any]="block_sparse" , UpperCamelCase_: Optional[Any]=True , UpperCamelCase_: Any=False , UpperCamelCase_: Any=2 , UpperCamelCase_: int=3 , ):
__lowerCamelCase = parent
__lowerCamelCase = batch_size
__lowerCamelCase = seq_length
__lowerCamelCase = is_training
__lowerCamelCase = use_attention_mask
__lowerCamelCase = use_token_type_ids
__lowerCamelCase = use_labels
__lowerCamelCase = vocab_size
__lowerCamelCase = hidden_size
__lowerCamelCase = num_hidden_layers
__lowerCamelCase = num_attention_heads
__lowerCamelCase = intermediate_size
__lowerCamelCase = hidden_act
__lowerCamelCase = hidden_dropout_prob
__lowerCamelCase = attention_probs_dropout_prob
__lowerCamelCase = max_position_embeddings
__lowerCamelCase = type_vocab_size
__lowerCamelCase = type_sequence_label_size
__lowerCamelCase = initializer_range
__lowerCamelCase = num_choices
__lowerCamelCase = rescale_embeddings
__lowerCamelCase = attention_type
__lowerCamelCase = use_bias
__lowerCamelCase = block_size
__lowerCamelCase = num_random_blocks
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__lowerCamelCase = None
if self.use_attention_mask:
__lowerCamelCase = random_attention_mask([self.batch_size, self.seq_length] )
__lowerCamelCase = None
if self.use_token_type_ids:
__lowerCamelCase = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
__lowerCamelCase = BigBirdConfig(
vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=UpperCamelCase_ , initializer_range=self.initializer_range , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def lowerCAmelCase__ ( self: Dict ):
__lowerCamelCase = self.prepare_config_and_inputs()
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = config_and_inputs
__lowerCamelCase = {
"""input_ids""": input_ids,
"""token_type_ids""": token_type_ids,
"""attention_mask""": attention_mask,
}
return config, inputs_dict
@require_flax
class lowerCamelCase__( __lowerCamelCase , unittest.TestCase):
UpperCAmelCase__ : Optional[int] = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
UpperCAmelCase__ : Optional[int] = False
UpperCAmelCase__ : Optional[int] = False
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: Optional[Any] ):
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[str] ):
super().test_hidden_states_output()
@slow
def lowerCAmelCase__ ( self: Optional[Any] ):
for model_class_name in self.all_model_classes:
__lowerCamelCase = model_class_name.from_pretrained("""google/bigbird-roberta-base""" )
self.assertIsNotNone(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict ):
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def lowerCAmelCase__ ( self: List[Any] ):
__lowerCamelCase, __lowerCamelCase = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
__lowerCamelCase = self._prepare_for_class(UpperCamelCase_ , UpperCamelCase_ )
__lowerCamelCase = model_class(UpperCamelCase_ )
@jax.jit
def model_jitted(UpperCamelCase_: Tuple , UpperCamelCase_: List[Any]=None , **UpperCamelCase_: Union[str, Any] ):
return model(input_ids=UpperCamelCase_ , attention_mask=UpperCamelCase_ , **UpperCamelCase_ )
with self.subTest("""JIT Enabled""" ):
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
with self.subTest("""JIT Disabled""" ):
with jax.disable_jit():
__lowerCamelCase = model_jitted(**UpperCamelCase_ ).to_tuple()
self.assertEqual(len(UpperCamelCase_ ) , len(UpperCamelCase_ ) )
for jitted_output, output in zip(UpperCamelCase_ , UpperCamelCase_ ):
self.assertEqual(jitted_output.shape , output.shape )
def lowerCAmelCase__ ( self: List[Any] , UpperCamelCase_: int , UpperCamelCase_: List[str] , UpperCamelCase_: Any , UpperCamelCase_: Dict=1E-5 , UpperCamelCase_: List[str]="outputs" , UpperCamelCase_: List[str]=None ):
# `bigbird_block_sparse_attention` in `FlaxBigBird` returns `attention_probs = None`, while in PyTorch version,
# an effort was done to return `attention_probs` (yet to be verified).
if name.startswith("""outputs.attentions""" ):
return
else:
super().check_pt_flax_outputs(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
| 12 | 1 |
from PIL import Image
def lowerCamelCase__ ( A__ : Image , A__ : float ):
'''simple docstring'''
def brightness(A__ : int ) -> float:
return 128 + level + (c - 128)
if not -255.0 <= level <= 255.0:
raise ValueError("""level must be between -255.0 (black) and 255.0 (white)""" )
return img.point(A__ )
if __name__ == "__main__":
# Load image
with Image.open('image_data/lena.jpg') as img:
# Change brightness to 100
UpperCAmelCase_ = change_brightness(img, 100)
brigt_img.save('image_data/lena_brightness.png', format='png')
| 12 |
def lowerCamelCase__ ( A__ : list ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
for _ in range(A__ ):
for i in range(_ % 2 , arr_size - 1 , 2 ):
if arr[i + 1] < arr[i]:
__lowerCamelCase, __lowerCamelCase = arr[i + 1], arr[i]
return arr
if __name__ == "__main__":
UpperCAmelCase_ = list(range(10, 0, -1))
print(f"""Original: {arr}. Sorted: {odd_even_transposition(arr)}""")
| 12 | 1 |
import copy
from typing import TYPE_CHECKING, Any, Mapping, Optional, OrderedDict
from packaging import version
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
from ..auto.configuration_auto import AutoConfig
if TYPE_CHECKING:
from ... import PreTrainedTokenizerBase, TensorType
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : int = 'vision-encoder-decoder'
UpperCAmelCase__ : Union[str, Any] = True
def __init__( self: List[str] , **UpperCamelCase_: List[Any] ):
super().__init__(**UpperCamelCase_ )
if "encoder" not in kwargs or "decoder" not in kwargs:
raise ValueError(
F'A configuraton of type {self.model_type} cannot be instantiated because '
F'not both `encoder` and `decoder` sub-configurations are passed, but only {kwargs}' )
__lowerCamelCase = kwargs.pop("""encoder""" )
__lowerCamelCase = encoder_config.pop("""model_type""" )
__lowerCamelCase = kwargs.pop("""decoder""" )
__lowerCamelCase = decoder_config.pop("""model_type""" )
__lowerCamelCase = AutoConfig.for_model(UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = AutoConfig.for_model(UpperCamelCase_ , **UpperCamelCase_ )
__lowerCamelCase = True
@classmethod
def lowerCAmelCase__ ( cls: Tuple , UpperCamelCase_: PretrainedConfig , UpperCamelCase_: PretrainedConfig , **UpperCamelCase_: Any ):
logger.info("""Setting `config.is_decoder=True` and `config.add_cross_attention=True` for decoder_config""" )
__lowerCamelCase = True
__lowerCamelCase = True
return cls(encoder=encoder_config.to_dict() , decoder=decoder_config.to_dict() , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: List[str] ):
__lowerCamelCase = copy.deepcopy(self.__dict__ )
__lowerCamelCase = self.encoder.to_dict()
__lowerCamelCase = self.decoder.to_dict()
__lowerCamelCase = self.__class__.model_type
return output
class lowerCamelCase__( __lowerCamelCase):
UpperCAmelCase__ : Tuple = version.parse('1.11')
@property
def lowerCAmelCase__ ( self: Any ):
return OrderedDict(
[
("""pixel_values""", {0: """batch""", 1: """num_channels""", 2: """height""", 3: """width"""}),
] )
@property
def lowerCAmelCase__ ( self: Union[str, Any] ):
return 1E-4
@property
def lowerCAmelCase__ ( self: Any ):
return OrderedDict({"""last_hidden_state""": {0: """batch""", 1: """encoder_sequence"""}} )
class lowerCamelCase__( __lowerCamelCase):
@property
def lowerCAmelCase__ ( self: int ):
__lowerCamelCase = OrderedDict()
__lowerCamelCase = {0: """batch""", 1: """past_decoder_sequence + sequence"""}
__lowerCamelCase = {0: """batch""", 1: """past_decoder_sequence + sequence"""}
__lowerCamelCase = {0: """batch""", 1: """encoder_sequence"""}
return common_inputs
def lowerCAmelCase__ ( self: Union[str, Any] , UpperCamelCase_: "PreTrainedTokenizerBase" , UpperCamelCase_: int = -1 , UpperCamelCase_: int = -1 , UpperCamelCase_: bool = False , UpperCamelCase_: Optional["TensorType"] = None , ):
import torch
__lowerCamelCase = OrderedDict()
__lowerCamelCase = super().generate_dummy_inputs(
UpperCamelCase_ , batch_size=UpperCamelCase_ , seq_length=UpperCamelCase_ , is_pair=UpperCamelCase_ , framework=UpperCamelCase_ )
__lowerCamelCase, __lowerCamelCase = dummy_input["""input_ids"""].shape
__lowerCamelCase = (batch, encoder_sequence, self._config.encoder_hidden_size)
__lowerCamelCase = dummy_input.pop("""input_ids""" )
__lowerCamelCase = dummy_input.pop("""attention_mask""" )
__lowerCamelCase = torch.zeros(UpperCamelCase_ )
return common_inputs
class lowerCamelCase__( __lowerCamelCase):
@property
def lowerCAmelCase__ ( self: Union[str, Any] ):
pass
def lowerCAmelCase__ ( self: str , UpperCamelCase_: PretrainedConfig ):
return VisionEncoderDecoderEncoderOnnxConfig(UpperCamelCase_ )
def lowerCAmelCase__ ( self: Dict , UpperCamelCase_: PretrainedConfig , UpperCamelCase_: PretrainedConfig , UpperCamelCase_: str = "default" ):
__lowerCamelCase = encoder_config.hidden_size
return VisionEncoderDecoderDecoderOnnxConfig(UpperCamelCase_ , UpperCamelCase_ )
| 12 |
import os
import warnings
from typing import List, Optional
from ...tokenization_utils_base import BatchEncoding
from ...utils import logging
from .configuration_rag import RagConfig
UpperCAmelCase_ = logging.get_logger(__name__)
class lowerCamelCase__:
def __init__( self: Any , UpperCamelCase_: str , UpperCamelCase_: Dict ):
__lowerCamelCase = question_encoder
__lowerCamelCase = generator
__lowerCamelCase = self.question_encoder
def lowerCAmelCase__ ( self: List[str] , UpperCamelCase_: Optional[Any] ):
if os.path.isfile(UpperCamelCase_ ):
raise ValueError(F'Provided path ({save_directory}) should be a directory, not a file' )
os.makedirs(UpperCamelCase_ , exist_ok=UpperCamelCase_ )
__lowerCamelCase = os.path.join(UpperCamelCase_ , """question_encoder_tokenizer""" )
__lowerCamelCase = os.path.join(UpperCamelCase_ , """generator_tokenizer""" )
self.question_encoder.save_pretrained(UpperCamelCase_ )
self.generator.save_pretrained(UpperCamelCase_ )
@classmethod
def lowerCAmelCase__ ( cls: List[Any] , UpperCamelCase_: Dict , **UpperCamelCase_: Union[str, Any] ):
# dynamically import AutoTokenizer
from ..auto.tokenization_auto import AutoTokenizer
__lowerCamelCase = kwargs.pop("""config""" , UpperCamelCase_ )
if config is None:
__lowerCamelCase = RagConfig.from_pretrained(UpperCamelCase_ )
__lowerCamelCase = AutoTokenizer.from_pretrained(
UpperCamelCase_ , config=config.question_encoder , subfolder="""question_encoder_tokenizer""" )
__lowerCamelCase = AutoTokenizer.from_pretrained(
UpperCamelCase_ , config=config.generator , subfolder="""generator_tokenizer""" )
return cls(question_encoder=UpperCamelCase_ , generator=UpperCamelCase_ )
def __call__( self: Tuple , *UpperCamelCase_: int , **UpperCamelCase_: int ):
return self.current_tokenizer(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Tuple , *UpperCamelCase_: List[Any] , **UpperCamelCase_: List[Any] ):
return self.generator.batch_decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: Optional[Any] , *UpperCamelCase_: str , **UpperCamelCase_: Union[str, Any] ):
return self.generator.decode(*UpperCamelCase_ , **UpperCamelCase_ )
def lowerCAmelCase__ ( self: str ):
__lowerCamelCase = self.question_encoder
def lowerCAmelCase__ ( self: Optional[int] ):
__lowerCamelCase = self.generator
def lowerCAmelCase__ ( self: Tuple , UpperCamelCase_: List[str] , UpperCamelCase_: Optional[List[str]] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: Optional[int] = None , UpperCamelCase_: str = "longest" , UpperCamelCase_: str = None , UpperCamelCase_: bool = True , **UpperCamelCase_: int , ):
warnings.warn(
"""`prepare_seq2seq_batch` is deprecated and will be removed in version 5 of 🤗 Transformers. Use the """
"""regular `__call__` method to prepare your inputs and the tokenizer under the `with_target_tokenizer` """
"""context manager to prepare your targets. See the documentation of your specific tokenizer for more """
"""details""" , UpperCamelCase_ , )
if max_length is None:
__lowerCamelCase = self.current_tokenizer.model_max_length
__lowerCamelCase = self(
UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , max_length=UpperCamelCase_ , padding=UpperCamelCase_ , truncation=UpperCamelCase_ , **UpperCamelCase_ , )
if tgt_texts is None:
return model_inputs
# Process tgt_texts
if max_target_length is None:
__lowerCamelCase = self.current_tokenizer.model_max_length
__lowerCamelCase = self(
text_target=UpperCamelCase_ , add_special_tokens=UpperCamelCase_ , return_tensors=UpperCamelCase_ , padding=UpperCamelCase_ , max_length=UpperCamelCase_ , truncation=UpperCamelCase_ , **UpperCamelCase_ , )
__lowerCamelCase = labels["""input_ids"""]
return model_inputs
| 12 | 1 |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.