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# Copyright 2023 The HuggingFace 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. | |
""" | |
PyTorch utilities: Utilities related to PyTorch | |
""" | |
from typing import List, Optional, Tuple, Union | |
from . import logging | |
from .import_utils import is_torch_available, is_torch_version | |
if is_torch_available(): | |
import torch | |
from torch.fft import fftn, fftshift, ifftn, ifftshift | |
logger = logging.get_logger(__name__) # pylint: disable=invalid-name | |
try: | |
from torch._dynamo import allow_in_graph as maybe_allow_in_graph | |
except (ImportError, ModuleNotFoundError): | |
def maybe_allow_in_graph(cls): | |
return cls | |
def randn_tensor( | |
shape: Union[Tuple, List], | |
generator: Optional[Union[List["torch.Generator"], "torch.Generator"]] = None, | |
device: Optional["torch.device"] = None, | |
dtype: Optional["torch.dtype"] = None, | |
layout: Optional["torch.layout"] = None, | |
): | |
"""A helper function to create random tensors on the desired `device` with the desired `dtype`. When | |
passing a list of generators, you can seed each batch size individually. If CPU generators are passed, the tensor | |
is always created on the CPU. | |
""" | |
# device on which tensor is created defaults to device | |
rand_device = device | |
batch_size = shape[0] | |
layout = layout or torch.strided | |
device = device or torch.device("cpu") | |
if generator is not None: | |
gen_device_type = generator.device.type if not isinstance(generator, list) else generator[0].device.type | |
if gen_device_type != device.type and gen_device_type == "cpu": | |
rand_device = "cpu" | |
if device != "mps": | |
logger.info( | |
f"The passed generator was created on 'cpu' even though a tensor on {device} was expected." | |
f" Tensors will be created on 'cpu' and then moved to {device}. Note that one can probably" | |
f" slighly speed up this function by passing a generator that was created on the {device} device." | |
) | |
elif gen_device_type != device.type and gen_device_type == "cuda": | |
raise ValueError(f"Cannot generate a {device} tensor from a generator of type {gen_device_type}.") | |
# make sure generator list of length 1 is treated like a non-list | |
if isinstance(generator, list) and len(generator) == 1: | |
generator = generator[0] | |
if isinstance(generator, list): | |
shape = (1,) + shape[1:] | |
latents = [ | |
torch.randn(shape, generator=generator[i], device=rand_device, dtype=dtype, layout=layout) | |
for i in range(batch_size) | |
] | |
latents = torch.cat(latents, dim=0).to(device) | |
else: | |
latents = torch.randn(shape, generator=generator, device=rand_device, dtype=dtype, layout=layout).to(device) | |
return latents | |
def is_compiled_module(module) -> bool: | |
"""Check whether the module was compiled with torch.compile()""" | |
if is_torch_version("<", "2.0.0") or not hasattr(torch, "_dynamo"): | |
return False | |
return isinstance(module, torch._dynamo.eval_frame.OptimizedModule) | |
def fourier_filter(x_in: "torch.Tensor", threshold: int, scale: int) -> "torch.Tensor": | |
"""Fourier filter as introduced in FreeU (https://arxiv.org/abs/2309.11497). | |
This version of the method comes from here: | |
https://github.com/huggingface/diffusers/pull/5164#issuecomment-1732638706 | |
""" | |
x = x_in | |
B, C, H, W = x.shape | |
# Non-power of 2 images must be float32 | |
if (W & (W - 1)) != 0 or (H & (H - 1)) != 0: | |
x = x.to(dtype=torch.float32) | |
# FFT | |
x_freq = fftn(x, dim=(-2, -1)) | |
x_freq = fftshift(x_freq, dim=(-2, -1)) | |
B, C, H, W = x_freq.shape | |
mask = torch.ones((B, C, H, W), device=x.device) | |
crow, ccol = H // 2, W // 2 | |
mask[..., crow - threshold : crow + threshold, ccol - threshold : ccol + threshold] = scale | |
x_freq = x_freq * mask | |
# IFFT | |
x_freq = ifftshift(x_freq, dim=(-2, -1)) | |
x_filtered = ifftn(x_freq, dim=(-2, -1)).real | |
return x_filtered.to(dtype=x_in.dtype) | |
def apply_freeu( | |
resolution_idx: int, hidden_states: "torch.Tensor", res_hidden_states: "torch.Tensor", **freeu_kwargs | |
) -> Tuple["torch.Tensor", "torch.Tensor"]: | |
"""Applies the FreeU mechanism as introduced in https: | |
//arxiv.org/abs/2309.11497. Adapted from the official code repository: https://github.com/ChenyangSi/FreeU. | |
Args: | |
resolution_idx (`int`): Integer denoting the UNet block where FreeU is being applied. | |
hidden_states (`torch.Tensor`): Inputs to the underlying block. | |
res_hidden_states (`torch.Tensor`): Features from the skip block corresponding to the underlying block. | |
s1 (`float`): Scaling factor for stage 1 to attenuate the contributions of the skip features. | |
s2 (`float`): Scaling factor for stage 2 to attenuate the contributions of the skip features. | |
b1 (`float`): Scaling factor for stage 1 to amplify the contributions of backbone features. | |
b2 (`float`): Scaling factor for stage 2 to amplify the contributions of backbone features. | |
""" | |
if resolution_idx == 0: | |
num_half_channels = hidden_states.shape[1] // 2 | |
hidden_states[:, :num_half_channels] = hidden_states[:, :num_half_channels] * freeu_kwargs["b1"] | |
res_hidden_states = fourier_filter(res_hidden_states, threshold=1, scale=freeu_kwargs["s1"]) | |
if resolution_idx == 1: | |
num_half_channels = hidden_states.shape[1] // 2 | |
hidden_states[:, :num_half_channels] = hidden_states[:, :num_half_channels] * freeu_kwargs["b2"] | |
res_hidden_states = fourier_filter(res_hidden_states, threshold=1, scale=freeu_kwargs["s2"]) | |
return hidden_states, res_hidden_states | |