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mustango / diffusers /tests /test_unet_blocks_common.py

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	# coding=utf-8
	# Copyright 2023 HuggingFace Inc.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	import unittest
	from typing import Tuple

	import torch

	from diffusers.utils import floats_tensor, randn_tensor, torch_all_close, torch_device
	from diffusers.utils.testing_utils import require_torch


	@require_torch
	class UNetBlockTesterMixin:
	@property
	def dummy_input(self):
	return self.get_dummy_input()

	@property
	def output_shape(self):
	if self.block_type == "down":
	return (4, 32, 16, 16)
	elif self.block_type == "mid":
	return (4, 32, 32, 32)
	elif self.block_type == "up":
	return (4, 32, 64, 64)

	raise ValueError(f"'{self.block_type}' is not a supported block_type. Set it to 'up', 'mid', or 'down'.")

	def get_dummy_input(
	self,
	include_temb=True,
	include_res_hidden_states_tuple=False,
	include_encoder_hidden_states=False,
	include_skip_sample=False,
	):
	batch_size = 4
	num_channels = 32
	sizes = (32, 32)

	generator = torch.manual_seed(0)
	device = torch.device(torch_device)
	shape = (batch_size, num_channels) + sizes
	hidden_states = randn_tensor(shape, generator=generator, device=device)
	dummy_input = {"hidden_states": hidden_states}

	if include_temb:
	temb_channels = 128
	dummy_input["temb"] = randn_tensor((batch_size, temb_channels), generator=generator, device=device)

	if include_res_hidden_states_tuple:
	generator_1 = torch.manual_seed(1)
	dummy_input["res_hidden_states_tuple"] = (randn_tensor(shape, generator=generator_1, device=device),)

	if include_encoder_hidden_states:
	dummy_input["encoder_hidden_states"] = floats_tensor((batch_size, 32, 32)).to(torch_device)

	if include_skip_sample:
	dummy_input["skip_sample"] = randn_tensor(((batch_size, 3) + sizes), generator=generator, device=device)

	return dummy_input

	def prepare_init_args_and_inputs_for_common(self):
	init_dict = {
	"in_channels": 32,
	"out_channels": 32,
	"temb_channels": 128,
	}
	if self.block_type == "up":
	init_dict["prev_output_channel"] = 32

	if self.block_type == "mid":
	init_dict.pop("out_channels")

	inputs_dict = self.dummy_input
	return init_dict, inputs_dict

	def test_output(self, expected_slice):
	init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
	unet_block = self.block_class(**init_dict)
	unet_block.to(torch_device)
	unet_block.eval()

	with torch.no_grad():
	output = unet_block(**inputs_dict)

	if isinstance(output, Tuple):
	output = output[0]

	self.assertEqual(output.shape, self.output_shape)

	output_slice = output[0, -1, -3:, -3:]
	expected_slice = torch.tensor(expected_slice).to(torch_device)
	assert torch_all_close(output_slice.flatten(), expected_slice, atol=5e-3)

	@unittest.skipIf(torch_device == "mps", "Training is not supported in mps")
	def test_training(self):
	init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
	model = self.block_class(**init_dict)
	model.to(torch_device)
	model.train()
	output = model(**inputs_dict)

	if isinstance(output, Tuple):
	output = output[0]

	device = torch.device(torch_device)
	noise = randn_tensor(output.shape, device=device)
	loss = torch.nn.functional.mse_loss(output, noise)
	loss.backward()