80 lines
4.0 KiB
Python
80 lines
4.0 KiB
Python
import torch
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from packaging import version
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from modules import devices
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from modules.sd_hijack_utils import CondFunc
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class TorchHijackForUnet:
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"""
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This is torch, but with cat that resizes tensors to appropriate dimensions if they do not match;
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this makes it possible to create pictures with dimensions that are multiples of 8 rather than 64
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"""
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def __getattr__(self, item):
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if item == 'cat':
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return self.cat
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if hasattr(torch, item):
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return getattr(torch, item)
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raise AttributeError("'{}' object has no attribute '{}'".format(type(self).__name__, item))
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def cat(self, tensors, *args, **kwargs):
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if len(tensors) == 2:
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a, b = tensors
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if a.shape[-2:] != b.shape[-2:]:
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a = torch.nn.functional.interpolate(a, b.shape[-2:], mode="nearest")
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tensors = (a, b)
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return torch.cat(tensors, *args, **kwargs)
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th = TorchHijackForUnet()
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# Below are monkey patches to enable upcasting a float16 UNet for float32 sampling
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def apply_model(orig_func, self, x_noisy, t, cond, **kwargs):
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if isinstance(cond, dict):
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for y in cond.keys():
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cond[y] = [x.to(devices.dtype_unet) if isinstance(x, torch.Tensor) else x for x in cond[y]]
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with devices.autocast():
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return orig_func(self, x_noisy.to(devices.dtype_unet), t.to(devices.dtype_unet), cond, **kwargs).float()
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class GELUHijack(torch.nn.GELU, torch.nn.Module):
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def __init__(self, *args, **kwargs):
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torch.nn.GELU.__init__(self, *args, **kwargs)
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def forward(self, x):
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if devices.unet_needs_upcast:
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return torch.nn.GELU.forward(self.float(), x.float()).to(devices.dtype_unet)
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else:
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return torch.nn.GELU.forward(self, x)
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ddpm_edit_hijack = None
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def hijack_ddpm_edit():
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global ddpm_edit_hijack
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if not ddpm_edit_hijack:
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CondFunc('modules.models.diffusion.ddpm_edit.LatentDiffusion.decode_first_stage', first_stage_sub, first_stage_cond)
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CondFunc('modules.models.diffusion.ddpm_edit.LatentDiffusion.encode_first_stage', first_stage_sub, first_stage_cond)
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ddpm_edit_hijack = CondFunc('modules.models.diffusion.ddpm_edit.LatentDiffusion.apply_model', apply_model, unet_needs_upcast)
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unet_needs_upcast = lambda *args, **kwargs: devices.unet_needs_upcast
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CondFunc('ldm.models.diffusion.ddpm.LatentDiffusion.apply_model', apply_model, unet_needs_upcast)
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CondFunc('ldm.modules.diffusionmodules.openaimodel.timestep_embedding', lambda orig_func, timesteps, *args, **kwargs: orig_func(timesteps, *args, **kwargs).to(torch.float32 if timesteps.dtype == torch.int64 else devices.dtype_unet), unet_needs_upcast)
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if version.parse(torch.__version__) <= version.parse("1.13.1"):
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CondFunc('ldm.modules.diffusionmodules.util.GroupNorm32.forward', lambda orig_func, self, *args, **kwargs: orig_func(self.float(), *args, **kwargs), unet_needs_upcast)
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CondFunc('ldm.modules.attention.GEGLU.forward', lambda orig_func, self, x: orig_func(self.float(), x.float()).to(devices.dtype_unet), unet_needs_upcast)
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CondFunc('open_clip.transformer.ResidualAttentionBlock.__init__', lambda orig_func, *args, **kwargs: kwargs.update({'act_layer': GELUHijack}) and False or orig_func(*args, **kwargs), lambda _, *args, **kwargs: kwargs.get('act_layer') is None or kwargs['act_layer'] == torch.nn.GELU)
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first_stage_cond = lambda _, self, *args, **kwargs: devices.unet_needs_upcast and self.model.diffusion_model.dtype == torch.float16
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first_stage_sub = lambda orig_func, self, x, **kwargs: orig_func(self, x.to(devices.dtype_vae), **kwargs)
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CondFunc('ldm.models.diffusion.ddpm.LatentDiffusion.decode_first_stage', first_stage_sub, first_stage_cond)
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CondFunc('ldm.models.diffusion.ddpm.LatentDiffusion.encode_first_stage', first_stage_sub, first_stage_cond)
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CondFunc('ldm.models.diffusion.ddpm.LatentDiffusion.get_first_stage_encoding', lambda orig_func, *args, **kwargs: orig_func(*args, **kwargs).float(), first_stage_cond)
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