End of training

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	import unittest

	import numpy as np
	import torch
	from transformers import CLIPTextConfig, CLIPTextModel, CLIPTextModelWithProjection, CLIPTokenizer

	import diffusers
	from diffusers import (
	AnimateDiffSDXLPipeline,
	AutoencoderKL,
	DDIMScheduler,
	MotionAdapter,
	UNet2DConditionModel,
	UNetMotionModel,
	)
	from diffusers.utils import is_xformers_available, logging
	from diffusers.utils.testing_utils import torch_device

	from ..pipeline_params import TEXT_TO_IMAGE_BATCH_PARAMS, TEXT_TO_IMAGE_CALLBACK_CFG_PARAMS, TEXT_TO_IMAGE_PARAMS
	from ..test_pipelines_common import (
	IPAdapterTesterMixin,
	PipelineTesterMixin,
	SDFunctionTesterMixin,
	SDXLOptionalComponentsTesterMixin,
	)


	def to_np(tensor):
	if isinstance(tensor, torch.Tensor):
	tensor = tensor.detach().cpu().numpy()

	return tensor


	class AnimateDiffPipelineSDXLFastTests(
	IPAdapterTesterMixin,
	SDFunctionTesterMixin,
	PipelineTesterMixin,
	SDXLOptionalComponentsTesterMixin,
	unittest.TestCase,
	):
	pipeline_class = AnimateDiffSDXLPipeline
	params = TEXT_TO_IMAGE_PARAMS
	batch_params = TEXT_TO_IMAGE_BATCH_PARAMS
	required_optional_params = frozenset(
	[
	"num_inference_steps",
	"generator",
	"latents",
	"return_dict",
	"callback_on_step_end",
	"callback_on_step_end_tensor_inputs",
	]
	)
	callback_cfg_params = TEXT_TO_IMAGE_CALLBACK_CFG_PARAMS.union({"add_text_embeds", "add_time_ids"})

	def get_dummy_components(self, time_cond_proj_dim=None):
	torch.manual_seed(0)
	unet = UNet2DConditionModel(
	block_out_channels=(32, 64, 128),
	layers_per_block=2,
	time_cond_proj_dim=time_cond_proj_dim,
	sample_size=32,
	in_channels=4,
	out_channels=4,
	down_block_types=("DownBlock2D", "CrossAttnDownBlock2D", "CrossAttnDownBlock2D"),
	up_block_types=("CrossAttnUpBlock2D", "CrossAttnUpBlock2D", "UpBlock2D"),
	# SD2-specific config below
	attention_head_dim=(2, 4, 8),
	use_linear_projection=True,
	addition_embed_type="text_time",
	addition_time_embed_dim=8,
	transformer_layers_per_block=(1, 2, 4),
	projection_class_embeddings_input_dim=80, # 6 * 8 + 32
	cross_attention_dim=64,
	norm_num_groups=1,
	)
	scheduler = DDIMScheduler(
	beta_start=0.00085,
	beta_end=0.012,
	beta_schedule="linear",
	clip_sample=False,
	)
	torch.manual_seed(0)
	vae = AutoencoderKL(
	block_out_channels=[32, 64],
	in_channels=3,
	out_channels=3,
	down_block_types=["DownEncoderBlock2D", "DownEncoderBlock2D"],
	up_block_types=["UpDecoderBlock2D", "UpDecoderBlock2D"],
	latent_channels=4,
	sample_size=128,
	)
	torch.manual_seed(0)
	text_encoder_config = CLIPTextConfig(
	bos_token_id=0,
	eos_token_id=2,
	hidden_size=32,
	intermediate_size=37,
	layer_norm_eps=1e-05,
	num_attention_heads=4,
	num_hidden_layers=5,
	pad_token_id=1,
	vocab_size=1000,
	# SD2-specific config below
	hidden_act="gelu",
	projection_dim=32,
	)
	text_encoder = CLIPTextModel(text_encoder_config)
	tokenizer = CLIPTokenizer.from_pretrained("hf-internal-testing/tiny-random-clip")
	text_encoder_2 = CLIPTextModelWithProjection(text_encoder_config)
	tokenizer_2 = CLIPTokenizer.from_pretrained("hf-internal-testing/tiny-random-clip")
	motion_adapter = MotionAdapter(
	block_out_channels=(32, 64, 128),
	motion_layers_per_block=2,
	motion_norm_num_groups=2,
	motion_num_attention_heads=4,
	use_motion_mid_block=False,
	)

	components = {
	"unet": unet,
	"scheduler": scheduler,
	"vae": vae,
	"motion_adapter": motion_adapter,
	"text_encoder": text_encoder,
	"tokenizer": tokenizer,
	"text_encoder_2": text_encoder_2,
	"tokenizer_2": tokenizer_2,
	"feature_extractor": None,
	"image_encoder": None,
	}
	return components

	def get_dummy_inputs(self, device, seed=0):
	if str(device).startswith("mps"):
	generator = torch.manual_seed(seed)
	else:
	generator = torch.Generator(device=device).manual_seed(seed)

	inputs = {
	"prompt": "A painting of a squirrel eating a burger",
	"generator": generator,
	"num_inference_steps": 2,
	"guidance_scale": 7.5,
	"output_type": "np",
	}
	return inputs

	def test_motion_unet_loading(self):
	components = self.get_dummy_components()
	pipe = AnimateDiffSDXLPipeline(**components)

	assert isinstance(pipe.unet, UNetMotionModel)

	@unittest.skip("Attention slicing is not enabled in this pipeline")
	def test_attention_slicing_forward_pass(self):
	pass

	def test_inference_batch_single_identical(
	self,
	batch_size=2,
	expected_max_diff=1e-4,
	additional_params_copy_to_batched_inputs=["num_inference_steps"],
	):
	components = self.get_dummy_components()
	pipe = self.pipeline_class(**components)
	for components in pipe.components.values():
	if hasattr(components, "set_default_attn_processor"):
	components.set_default_attn_processor()

	pipe.to(torch_device)
	pipe.set_progress_bar_config(disable=None)
	inputs = self.get_dummy_inputs(torch_device)
	# Reset generator in case it is has been used in self.get_dummy_inputs
	inputs["generator"] = self.get_generator(0)

	logger = logging.get_logger(pipe.__module__)
	logger.setLevel(level=diffusers.logging.FATAL)

	# batchify inputs
	batched_inputs = {}
	batched_inputs.update(inputs)

	for name in self.batch_params:
	if name not in inputs:
	continue

	value = inputs[name]
	if name == "prompt":
	len_prompt = len(value)
	batched_inputs[name] = [value[: len_prompt // i] for i in range(1, batch_size + 1)]
	batched_inputs[name][-1] = 100 * "very long"

	else:
	batched_inputs[name] = batch_size * [value]

	if "generator" in inputs:
	batched_inputs["generator"] = [self.get_generator(i) for i in range(batch_size)]

	if "batch_size" in inputs:
	batched_inputs["batch_size"] = batch_size

	for arg in additional_params_copy_to_batched_inputs:
	batched_inputs[arg] = inputs[arg]

	output = pipe(**inputs)
	output_batch = pipe(**batched_inputs)

	assert output_batch[0].shape[0] == batch_size

	max_diff = np.abs(to_np(output_batch[0][0]) - to_np(output[0][0])).max()
	assert max_diff < expected_max_diff

	@unittest.skipIf(torch_device != "cuda", reason="CUDA and CPU are required to switch devices")
	def test_to_device(self):
	components = self.get_dummy_components()
	pipe = self.pipeline_class(**components)
	pipe.set_progress_bar_config(disable=None)

	pipe.to("cpu")
	# pipeline creates a new motion UNet under the hood. So we need to check the device from pipe.components
	model_devices = [
	component.device.type for component in pipe.components.values() if hasattr(component, "device")
	]
	self.assertTrue(all(device == "cpu" for device in model_devices))

	output_cpu = pipe(**self.get_dummy_inputs("cpu"))[0]
	self.assertTrue(np.isnan(output_cpu).sum() == 0)

	pipe.to("cuda")
	model_devices = [
	component.device.type for component in pipe.components.values() if hasattr(component, "device")
	]
	self.assertTrue(all(device == "cuda" for device in model_devices))

	output_cuda = pipe(**self.get_dummy_inputs("cuda"))[0]
	self.assertTrue(np.isnan(to_np(output_cuda)).sum() == 0)

	def test_to_dtype(self):
	components = self.get_dummy_components()
	pipe = self.pipeline_class(**components)
	pipe.set_progress_bar_config(disable=None)

	# pipeline creates a new motion UNet under the hood. So we need to check the dtype from pipe.components
	model_dtypes = [component.dtype for component in pipe.components.values() if hasattr(component, "dtype")]
	self.assertTrue(all(dtype == torch.float32 for dtype in model_dtypes))

	pipe.to(dtype=torch.float16)
	model_dtypes = [component.dtype for component in pipe.components.values() if hasattr(component, "dtype")]
	self.assertTrue(all(dtype == torch.float16 for dtype in model_dtypes))

	def test_prompt_embeds(self):
	components = self.get_dummy_components()
	pipe = self.pipeline_class(**components)
	pipe.set_progress_bar_config(disable=None)
	pipe.to(torch_device)

	inputs = self.get_dummy_inputs(torch_device)
	prompt = inputs.pop("prompt")

	(
	prompt_embeds,
	negative_prompt_embeds,
	pooled_prompt_embeds,
	negative_pooled_prompt_embeds,
	) = pipe.encode_prompt(prompt)

	pipe(
	**inputs,
	prompt_embeds=prompt_embeds,
	negative_prompt_embeds=negative_prompt_embeds,
	pooled_prompt_embeds=pooled_prompt_embeds,
	negative_pooled_prompt_embeds=negative_pooled_prompt_embeds,
	)

	def test_save_load_optional_components(self):
	self._test_save_load_optional_components()

	@unittest.skipIf(
	torch_device != "cuda" or not is_xformers_available(),
	reason="XFormers attention is only available with CUDA and `xformers` installed",
	)
	def test_xformers_attention_forwardGenerator_pass(self):
	components = self.get_dummy_components()
	pipe = self.pipeline_class(**components)
	for component in pipe.components.values():
	if hasattr(component, "set_default_attn_processor"):
	component.set_default_attn_processor()
	pipe.to(torch_device)
	pipe.set_progress_bar_config(disable=None)

	inputs = self.get_dummy_inputs(torch_device)
	output_without_offload = pipe(**inputs).frames[0]
	output_without_offload = (
	output_without_offload.cpu() if torch.is_tensor(output_without_offload) else output_without_offload
	)

	pipe.enable_xformers_memory_efficient_attention()
	inputs = self.get_dummy_inputs(torch_device)
	output_with_offload = pipe(**inputs).frames[0]
	output_with_offload = (
	output_with_offload.cpu() if torch.is_tensor(output_with_offload) else output_without_offload
	)

	max_diff = np.abs(to_np(output_with_offload) - to_np(output_without_offload)).max()
	self.assertLess(max_diff, 1e-4, "XFormers attention should not affect the inference results")