205 lines
7.3 KiB
Python
205 lines
7.3 KiB
Python
# coding=utf-8
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# Copyright 2022 HuggingFace Inc.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import inspect
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import tempfile
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from typing import Dict, List, Tuple
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import numpy as np
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import torch
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from diffusers.testing_utils import torch_device
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from diffusers.training_utils import EMAModel
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class ModelTesterMixin:
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def test_from_pretrained_save_pretrained(self):
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init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
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model = self.model_class(**init_dict)
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model.to(torch_device)
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model.eval()
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with tempfile.TemporaryDirectory() as tmpdirname:
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model.save_pretrained(tmpdirname)
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new_model = self.model_class.from_pretrained(tmpdirname)
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new_model.to(torch_device)
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with torch.no_grad():
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image = model(**inputs_dict)
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if isinstance(image, dict):
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image = image.sample
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new_image = new_model(**inputs_dict)
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if isinstance(new_image, dict):
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new_image = new_image.sample
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max_diff = (image - new_image).abs().sum().item()
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self.assertLessEqual(max_diff, 5e-5, "Models give different forward passes")
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def test_determinism(self):
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init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
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model = self.model_class(**init_dict)
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model.to(torch_device)
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model.eval()
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with torch.no_grad():
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first = model(**inputs_dict)
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if isinstance(first, dict):
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first = first.sample
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second = model(**inputs_dict)
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if isinstance(second, dict):
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second = second.sample
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out_1 = first.cpu().numpy()
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out_2 = second.cpu().numpy()
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out_1 = out_1[~np.isnan(out_1)]
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out_2 = out_2[~np.isnan(out_2)]
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max_diff = np.amax(np.abs(out_1 - out_2))
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self.assertLessEqual(max_diff, 1e-5)
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def test_output(self):
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init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
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model = self.model_class(**init_dict)
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model.to(torch_device)
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model.eval()
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with torch.no_grad():
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output = model(**inputs_dict)
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if isinstance(output, dict):
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output = output.sample
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self.assertIsNotNone(output)
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expected_shape = inputs_dict["sample"].shape
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self.assertEqual(output.shape, expected_shape, "Input and output shapes do not match")
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def test_forward_signature(self):
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init_dict, _ = self.prepare_init_args_and_inputs_for_common()
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model = self.model_class(**init_dict)
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signature = inspect.signature(model.forward)
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# signature.parameters is an OrderedDict => so arg_names order is deterministic
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arg_names = [*signature.parameters.keys()]
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expected_arg_names = ["sample", "timestep"]
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self.assertListEqual(arg_names[:2], expected_arg_names)
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def test_model_from_config(self):
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init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
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model = self.model_class(**init_dict)
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model.to(torch_device)
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model.eval()
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# test if the model can be loaded from the config
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# and has all the expected shape
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with tempfile.TemporaryDirectory() as tmpdirname:
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model.save_config(tmpdirname)
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new_model = self.model_class.from_config(tmpdirname)
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new_model.to(torch_device)
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new_model.eval()
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# check if all paramters shape are the same
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for param_name in model.state_dict().keys():
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param_1 = model.state_dict()[param_name]
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param_2 = new_model.state_dict()[param_name]
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self.assertEqual(param_1.shape, param_2.shape)
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with torch.no_grad():
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output_1 = model(**inputs_dict)
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if isinstance(output_1, dict):
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output_1 = output_1.sample
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output_2 = new_model(**inputs_dict)
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if isinstance(output_2, dict):
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output_2 = output_2.sample
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self.assertEqual(output_1.shape, output_2.shape)
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def test_training(self):
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init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
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model = self.model_class(**init_dict)
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model.to(torch_device)
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model.train()
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output = model(**inputs_dict)
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if isinstance(output, dict):
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output = output.sample
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noise = torch.randn((inputs_dict["sample"].shape[0],) + self.output_shape).to(torch_device)
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loss = torch.nn.functional.mse_loss(output, noise)
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loss.backward()
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def test_ema_training(self):
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init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
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model = self.model_class(**init_dict)
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model.to(torch_device)
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model.train()
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ema_model = EMAModel(model, device=torch_device)
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output = model(**inputs_dict)
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if isinstance(output, dict):
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output = output.sample
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noise = torch.randn((inputs_dict["sample"].shape[0],) + self.output_shape).to(torch_device)
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loss = torch.nn.functional.mse_loss(output, noise)
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loss.backward()
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ema_model.step(model)
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def test_scheduler_outputs_equivalence(self):
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def set_nan_tensor_to_zero(t):
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t[t != t] = 0
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return t
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def recursive_check(tuple_object, dict_object):
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if isinstance(tuple_object, (List, Tuple)):
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for tuple_iterable_value, dict_iterable_value in zip(tuple_object, dict_object.values()):
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recursive_check(tuple_iterable_value, dict_iterable_value)
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elif isinstance(tuple_object, Dict):
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for tuple_iterable_value, dict_iterable_value in zip(tuple_object.values(), dict_object.values()):
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recursive_check(tuple_iterable_value, dict_iterable_value)
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elif tuple_object is None:
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return
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else:
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self.assertTrue(
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torch.allclose(
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set_nan_tensor_to_zero(tuple_object), set_nan_tensor_to_zero(dict_object), atol=1e-5
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),
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msg=(
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"Tuple and dict output are not equal. Difference:"
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f" {torch.max(torch.abs(tuple_object - dict_object))}. Tuple has `nan`:"
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f" {torch.isnan(tuple_object).any()} and `inf`: {torch.isinf(tuple_object)}. Dict has"
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f" `nan`: {torch.isnan(dict_object).any()} and `inf`: {torch.isinf(dict_object)}."
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),
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)
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init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
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model = self.model_class(**init_dict)
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model.to(torch_device)
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model.eval()
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outputs_dict = model(**inputs_dict)
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outputs_tuple = model(**inputs_dict, return_dict=False)
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recursive_check(outputs_tuple, outputs_dict)
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