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407 lines
15 KiB
407 lines
15 KiB
9 months ago
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from typing import Any, Dict, Optional
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from diffusers.models import AutoencoderKL, UNet2DConditionModel
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from diffusers.schedulers import KarrasDiffusionSchedulers
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import numpy
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import torch
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import torch.nn as nn
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import torch.utils.checkpoint
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import torch.distributed
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import transformers
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from collections import OrderedDict
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from PIL import Image
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from torchvision import transforms
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from transformers import CLIPImageProcessor, CLIPTextModel, CLIPTokenizer
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import diffusers
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from diffusers import (
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AutoencoderKL,
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DDPMScheduler,
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DiffusionPipeline,
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EulerAncestralDiscreteScheduler,
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UNet2DConditionModel,
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ImagePipelineOutput
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)
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from diffusers.image_processor import VaeImageProcessor
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from diffusers.models.attention_processor import Attention, AttnProcessor, XFormersAttnProcessor, AttnProcessor2_0
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from diffusers.utils.import_utils import is_xformers_available
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def to_rgb_image(maybe_rgba: Image.Image):
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if maybe_rgba.mode == 'RGB':
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return maybe_rgba
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elif maybe_rgba.mode == 'RGBA':
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rgba = maybe_rgba
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img = numpy.random.randint(255, 256, size=[rgba.size[1], rgba.size[0], 3], dtype=numpy.uint8)
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img = Image.fromarray(img, 'RGB')
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img.paste(rgba, mask=rgba.getchannel('A'))
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return img
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else:
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raise ValueError("Unsupported image type.", maybe_rgba.mode)
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class ReferenceOnlyAttnProc(torch.nn.Module):
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def __init__(
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self,
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chained_proc,
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enabled=False,
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name=None
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) -> None:
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super().__init__()
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self.enabled = enabled
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self.chained_proc = chained_proc
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self.name = name
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def __call__(
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self, attn: Attention, hidden_states, encoder_hidden_states=None, attention_mask=None,
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mode="w", ref_dict: dict = None, is_cfg_guidance = False
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) -> Any:
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if encoder_hidden_states is None:
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encoder_hidden_states = hidden_states
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if self.enabled and is_cfg_guidance:
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res0 = self.chained_proc(attn, hidden_states[:1], encoder_hidden_states[:1], attention_mask)
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hidden_states = hidden_states[1:]
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encoder_hidden_states = encoder_hidden_states[1:]
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if self.enabled:
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if mode == 'w':
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ref_dict[self.name] = encoder_hidden_states
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elif mode == 'r':
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encoder_hidden_states = torch.cat([encoder_hidden_states, ref_dict.pop(self.name)], dim=1)
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elif mode == 'm':
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encoder_hidden_states = torch.cat([encoder_hidden_states, ref_dict[self.name]], dim=1)
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else:
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assert False, mode
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res = self.chained_proc(attn, hidden_states, encoder_hidden_states, attention_mask)
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if self.enabled and is_cfg_guidance:
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res = torch.cat([res0, res])
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return res
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class RefOnlyNoisedUNet(torch.nn.Module):
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def __init__(self, unet: UNet2DConditionModel, train_sched: DDPMScheduler, val_sched: EulerAncestralDiscreteScheduler) -> None:
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super().__init__()
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self.unet = unet
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self.train_sched = train_sched
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self.val_sched = val_sched
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unet_lora_attn_procs = dict()
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for name, _ in unet.attn_processors.items():
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if torch.__version__ >= '2.0':
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default_attn_proc = AttnProcessor2_0()
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elif is_xformers_available():
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default_attn_proc = XFormersAttnProcessor()
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else:
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default_attn_proc = AttnProcessor()
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unet_lora_attn_procs[name] = ReferenceOnlyAttnProc(
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default_attn_proc, enabled=name.endswith("attn1.processor"), name=name
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)
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unet.set_attn_processor(unet_lora_attn_procs)
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def __getattr__(self, name: str):
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try:
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return super().__getattr__(name)
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except AttributeError:
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return getattr(self.unet, name)
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def forward_cond(self, noisy_cond_lat, timestep, encoder_hidden_states, class_labels, ref_dict, is_cfg_guidance, **kwargs):
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if is_cfg_guidance:
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encoder_hidden_states = encoder_hidden_states[1:]
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class_labels = class_labels[1:]
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self.unet(
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noisy_cond_lat, timestep,
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encoder_hidden_states=encoder_hidden_states,
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class_labels=class_labels,
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cross_attention_kwargs=dict(mode="w", ref_dict=ref_dict),
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**kwargs
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)
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def forward(
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self, sample, timestep, encoder_hidden_states, class_labels=None,
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*args, cross_attention_kwargs,
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down_block_res_samples=None, mid_block_res_sample=None,
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**kwargs
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):
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cond_lat = cross_attention_kwargs['cond_lat']
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is_cfg_guidance = cross_attention_kwargs.get('is_cfg_guidance', False)
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noise = torch.randn_like(cond_lat)
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if self.training:
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noisy_cond_lat = self.train_sched.add_noise(cond_lat, noise, timestep)
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noisy_cond_lat = self.train_sched.scale_model_input(noisy_cond_lat, timestep)
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else:
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noisy_cond_lat = self.val_sched.add_noise(cond_lat, noise, timestep.reshape(-1))
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noisy_cond_lat = self.val_sched.scale_model_input(noisy_cond_lat, timestep.reshape(-1))
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ref_dict = {}
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self.forward_cond(
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noisy_cond_lat, timestep,
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encoder_hidden_states, class_labels,
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ref_dict, is_cfg_guidance, **kwargs
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)
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weight_dtype = self.unet.dtype
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return self.unet(
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sample, timestep,
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encoder_hidden_states, *args,
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class_labels=class_labels,
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cross_attention_kwargs=dict(mode="r", ref_dict=ref_dict, is_cfg_guidance=is_cfg_guidance),
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down_block_additional_residuals=[
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sample.to(dtype=weight_dtype) for sample in down_block_res_samples
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] if down_block_res_samples is not None else None,
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mid_block_additional_residual=(
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mid_block_res_sample.to(dtype=weight_dtype)
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if mid_block_res_sample is not None else None
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),
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**kwargs
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)
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def scale_latents(latents):
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latents = (latents - 0.22) * 0.75
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return latents
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def unscale_latents(latents):
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latents = latents / 0.75 + 0.22
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return latents
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def scale_image(image):
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image = image * 0.5 / 0.8
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return image
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def unscale_image(image):
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image = image / 0.5 * 0.8
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return image
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class DepthControlUNet(torch.nn.Module):
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def __init__(self, unet: RefOnlyNoisedUNet, controlnet: Optional[diffusers.ControlNetModel] = None, conditioning_scale=1.0) -> None:
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super().__init__()
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self.unet = unet
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if controlnet is None:
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self.controlnet = diffusers.ControlNetModel.from_unet(unet.unet)
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else:
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self.controlnet = controlnet
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DefaultAttnProc = AttnProcessor2_0
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if is_xformers_available():
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DefaultAttnProc = XFormersAttnProcessor
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self.controlnet.set_attn_processor(DefaultAttnProc())
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self.conditioning_scale = conditioning_scale
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def __getattr__(self, name: str):
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try:
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return super().__getattr__(name)
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except AttributeError:
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return getattr(self.unet, name)
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def forward(self, sample, timestep, encoder_hidden_states, class_labels=None, *args, cross_attention_kwargs: dict, **kwargs):
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cross_attention_kwargs = dict(cross_attention_kwargs)
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control_depth = cross_attention_kwargs.pop('control_depth')
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down_block_res_samples, mid_block_res_sample = self.controlnet(
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sample,
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timestep,
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encoder_hidden_states=encoder_hidden_states,
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controlnet_cond=control_depth,
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conditioning_scale=self.conditioning_scale,
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return_dict=False,
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)
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return self.unet(
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sample,
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timestep,
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encoder_hidden_states=encoder_hidden_states,
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down_block_res_samples=down_block_res_samples,
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mid_block_res_sample=mid_block_res_sample,
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cross_attention_kwargs=cross_attention_kwargs
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)
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class ModuleListDict(torch.nn.Module):
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def __init__(self, procs: dict) -> None:
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super().__init__()
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self.keys = sorted(procs.keys())
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self.values = torch.nn.ModuleList(procs[k] for k in self.keys)
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def __getitem__(self, key):
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return self.values[self.keys.index(key)]
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class SuperNet(torch.nn.Module):
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def __init__(self, state_dict: Dict[str, torch.Tensor]):
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super().__init__()
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state_dict = OrderedDict((k, state_dict[k]) for k in sorted(state_dict.keys()))
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self.layers = torch.nn.ModuleList(state_dict.values())
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self.mapping = dict(enumerate(state_dict.keys()))
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self.rev_mapping = {v: k for k, v in enumerate(state_dict.keys())}
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# .processor for unet, .self_attn for text encoder
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self.split_keys = [".processor", ".self_attn"]
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# we add a hook to state_dict() and load_state_dict() so that the
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# naming fits with `unet.attn_processors`
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def map_to(module, state_dict, *args, **kwargs):
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new_state_dict = {}
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for key, value in state_dict.items():
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num = int(key.split(".")[1]) # 0 is always "layers"
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new_key = key.replace(f"layers.{num}", module.mapping[num])
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new_state_dict[new_key] = value
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return new_state_dict
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def remap_key(key, state_dict):
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for k in self.split_keys:
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if k in key:
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return key.split(k)[0] + k
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return key.split('.')[0]
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def map_from(module, state_dict, *args, **kwargs):
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all_keys = list(state_dict.keys())
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for key in all_keys:
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replace_key = remap_key(key, state_dict)
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new_key = key.replace(replace_key, f"layers.{module.rev_mapping[replace_key]}")
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state_dict[new_key] = state_dict[key]
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del state_dict[key]
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self._register_state_dict_hook(map_to)
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self._register_load_state_dict_pre_hook(map_from, with_module=True)
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class Zero123PlusPipeline(diffusers.StableDiffusionPipeline):
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tokenizer: transformers.CLIPTokenizer
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text_encoder: transformers.CLIPTextModel
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vision_encoder: transformers.CLIPVisionModelWithProjection
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feature_extractor_clip: transformers.CLIPImageProcessor
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unet: UNet2DConditionModel
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scheduler: diffusers.schedulers.KarrasDiffusionSchedulers
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vae: AutoencoderKL
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ramping: nn.Linear
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feature_extractor_vae: transformers.CLIPImageProcessor
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depth_transforms_multi = transforms.Compose([
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transforms.ToTensor(),
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transforms.Normalize([0.5], [0.5])
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])
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def __init__(
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self,
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vae: AutoencoderKL,
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text_encoder: CLIPTextModel,
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tokenizer: CLIPTokenizer,
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unet: UNet2DConditionModel,
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scheduler: KarrasDiffusionSchedulers,
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vision_encoder: transformers.CLIPVisionModelWithProjection,
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feature_extractor_clip: CLIPImageProcessor,
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feature_extractor_vae: CLIPImageProcessor,
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ramping_coefficients: Optional[list] = None,
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safety_checker=None,
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):
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DiffusionPipeline.__init__(self)
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self.register_modules(
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vae=vae, text_encoder=text_encoder, tokenizer=tokenizer,
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unet=unet, scheduler=scheduler, safety_checker=None,
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vision_encoder=vision_encoder,
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feature_extractor_clip=feature_extractor_clip,
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feature_extractor_vae=feature_extractor_vae
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)
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self.register_to_config(ramping_coefficients=ramping_coefficients)
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self.vae_scale_factor = 2 ** (len(self.vae.config.block_out_channels) - 1)
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self.image_processor = VaeImageProcessor(vae_scale_factor=self.vae_scale_factor)
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def prepare(self):
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train_sched = DDPMScheduler.from_config(self.scheduler.config)
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if isinstance(self.unet, UNet2DConditionModel):
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self.unet = RefOnlyNoisedUNet(self.unet, train_sched, self.scheduler).eval()
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def add_controlnet(self, controlnet: Optional[diffusers.ControlNetModel] = None, conditioning_scale=1.0):
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self.prepare()
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self.unet = DepthControlUNet(self.unet, controlnet, conditioning_scale)
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return SuperNet(OrderedDict([('controlnet', self.unet.controlnet)]))
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def encode_condition_image(self, image: torch.Tensor):
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image = self.vae.encode(image).latent_dist.sample()
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return image
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@torch.no_grad()
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def __call__(
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self,
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image: Image.Image = None,
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prompt = "",
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*args,
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num_images_per_prompt: Optional[int] = 1,
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guidance_scale=4.0,
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depth_image: Image.Image = None,
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output_type: Optional[str] = "pil",
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width=640,
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height=960,
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num_inference_steps=28,
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return_dict=True,
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**kwargs
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):
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self.prepare()
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if image is None:
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raise ValueError("Inputting embeddings not supported for this pipeline. Please pass an image.")
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assert not isinstance(image, torch.Tensor)
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image = to_rgb_image(image)
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image_1 = self.feature_extractor_vae(images=image, return_tensors="pt").pixel_values
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image_2 = self.feature_extractor_clip(images=image, return_tensors="pt").pixel_values
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if depth_image is not None and hasattr(self.unet, "controlnet"):
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depth_image = to_rgb_image(depth_image)
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depth_image = self.depth_transforms_multi(depth_image).to(
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device=self.unet.controlnet.device, dtype=self.unet.controlnet.dtype
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)
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image = image_1.to(device=self.vae.device, dtype=self.vae.dtype)
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image_2 = image_2.to(device=self.vae.device, dtype=self.vae.dtype)
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cond_lat = self.encode_condition_image(image)
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if guidance_scale > 1:
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negative_lat = self.encode_condition_image(torch.zeros_like(image))
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cond_lat = torch.cat([negative_lat, cond_lat])
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encoded = self.vision_encoder(image_2, output_hidden_states=False)
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global_embeds = encoded.image_embeds
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global_embeds = global_embeds.unsqueeze(-2)
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if hasattr(self, "encode_prompt"):
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encoder_hidden_states = self.encode_prompt(
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prompt,
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self.device,
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num_images_per_prompt,
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False
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)[0]
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else:
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encoder_hidden_states = self._encode_prompt(
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prompt,
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self.device,
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num_images_per_prompt,
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False
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)
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ramp = global_embeds.new_tensor(self.config.ramping_coefficients).unsqueeze(-1)
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encoder_hidden_states = encoder_hidden_states + global_embeds * ramp
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cak = dict(cond_lat=cond_lat)
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if hasattr(self.unet, "controlnet"):
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cak['control_depth'] = depth_image
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latents: torch.Tensor = super().__call__(
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None,
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*args,
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cross_attention_kwargs=cak,
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guidance_scale=guidance_scale,
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num_images_per_prompt=num_images_per_prompt,
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prompt_embeds=encoder_hidden_states,
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num_inference_steps=num_inference_steps,
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output_type='latent',
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width=width,
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height=height,
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|
**kwargs
|
||
|
).images
|
||
|
latents = unscale_latents(latents)
|
||
|
if not output_type == "latent":
|
||
|
image = unscale_image(self.vae.decode(latents / self.vae.config.scaling_factor, return_dict=False)[0])
|
||
|
else:
|
||
|
image = latents
|
||
|
|
||
|
image = self.image_processor.postprocess(image, output_type=output_type)
|
||
|
if not return_dict:
|
||
|
return (image,)
|
||
|
|
||
|
return ImagePipelineOutput(images=image)
|