InvokeAI/invokeai/backend/stable_diffusion/seamless.py

85 lines
3.2 KiB
Python
Raw Normal View History

from __future__ import annotations
from contextlib import contextmanager
from typing import Callable, List, Union
import torch.nn as nn
from diffusers.models.autoencoders.autoencoder_kl import AutoencoderKL
from diffusers.models.unets.unet_2d_condition import UNet2DConditionModel
def _conv_forward_asymmetric(self, input, weight, bias):
"""
Patch for Conv2d._conv_forward that supports asymmetric padding
"""
working = nn.functional.pad(input, self.asymmetric_padding["x"], mode=self.asymmetric_padding_mode["x"])
working = nn.functional.pad(working, self.asymmetric_padding["y"], mode=self.asymmetric_padding_mode["y"])
return nn.functional.conv2d(
working,
weight,
bias,
self.stride,
nn.modules.utils._pair(0),
self.dilation,
self.groups,
)
@contextmanager
def set_seamless(model: Union[UNet2DConditionModel, AutoencoderKL], seamless_axes: List[str]):
# Callable: (input: Tensor, weight: Tensor, bias: Optional[Tensor]) -> Tensor
to_restore: list[tuple[nn.Conv2d | nn.ConvTranspose2d, Callable]] = []
try:
# Hard coded to skip down block layers, allowing for seamless tiling at the expense of prompt adherence
skipped_layers = 1
for m_name, m in model.named_modules():
if not isinstance(m, (nn.Conv2d, nn.ConvTranspose2d)):
continue
if isinstance(model, UNet2DConditionModel) and m_name.startswith("down_blocks.") and ".resnets." in m_name:
# down_blocks.1.resnets.1.conv1
_, block_num, _, resnet_num, submodule_name = m_name.split(".")
block_num = int(block_num)
resnet_num = int(resnet_num)
if block_num >= len(model.down_blocks) - skipped_layers:
continue
# Skip the second resnet (could be configurable)
if resnet_num > 0:
continue
# Skip Conv2d layers (could be configurable)
if submodule_name == "conv2":
continue
m.asymmetric_padding_mode = {}
m.asymmetric_padding = {}
m.asymmetric_padding_mode["x"] = "circular" if ("x" in seamless_axes) else "constant"
m.asymmetric_padding["x"] = (
m._reversed_padding_repeated_twice[0],
m._reversed_padding_repeated_twice[1],
0,
0,
)
m.asymmetric_padding_mode["y"] = "circular" if ("y" in seamless_axes) else "constant"
m.asymmetric_padding["y"] = (
0,
0,
m._reversed_padding_repeated_twice[2],
m._reversed_padding_repeated_twice[3],
)
to_restore.append((m, m._conv_forward))
m._conv_forward = _conv_forward_asymmetric.__get__(m, nn.Conv2d)
yield
finally:
for module, orig_conv_forward in to_restore:
module._conv_forward = orig_conv_forward
if hasattr(module, "asymmetric_padding_mode"):
del module.asymmetric_padding_mode
if hasattr(module, "asymmetric_padding"):
del module.asymmetric_padding