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import os |
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import re |
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import requests |
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import sys |
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import copy |
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import numpy as np |
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from tqdm import tqdm |
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import torch |
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import torch.nn as nn |
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from transformers import AutoTokenizer, CLIPTextModel |
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from diffusers import AutoencoderKL, UNet2DConditionModel |
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from peft import LoraConfig, get_peft_model |
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p = "src/" |
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sys.path.append(p) |
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from model import make_1step_sched, my_lora_fwd |
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from basicsr.archs.arch_util import default_init_weights |
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def get_layer_number(module_name): |
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base_layers = { |
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'down_blocks': 0, |
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'mid_block': 4, |
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'up_blocks': 5 |
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} |
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if module_name == 'conv_out': |
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return 9 |
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base_layer = None |
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for key in base_layers: |
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if key in module_name: |
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base_layer = base_layers[key] |
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break |
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if base_layer is None: |
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return None |
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additional_layers = int(re.findall(r'\.(\d+)', module_name)[0]) |
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final_layer = base_layer + additional_layers |
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return final_layer |
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class S3Diff(torch.nn.Module): |
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def __init__(self, sd_path=None, pretrained_path=None, lora_rank_unet=8, lora_rank_vae=4, block_embedding_dim=64): |
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super().__init__() |
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self.tokenizer = AutoTokenizer.from_pretrained(sd_path, subfolder="tokenizer") |
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self.text_encoder = CLIPTextModel.from_pretrained(sd_path, subfolder="text_encoder").cuda() |
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self.sched = make_1step_sched(sd_path) |
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self.guidance_scale = 1.07 |
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vae = AutoencoderKL.from_pretrained(sd_path, subfolder="vae") |
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unet = UNet2DConditionModel.from_pretrained(sd_path, subfolder="unet") |
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target_modules_vae = r"^encoder\..*(conv1|conv2|conv_in|conv_shortcut|conv|conv_out|to_k|to_q|to_v|to_out\.0)$" |
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target_modules_unet = [ |
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"to_k", "to_q", "to_v", "to_out.0", "conv", "conv1", "conv2", "conv_shortcut", "conv_out", |
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"proj_in", "proj_out", "ff.net.2", "ff.net.0.proj" |
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] |
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num_embeddings = 64 |
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self.W = nn.Parameter(torch.randn(num_embeddings), requires_grad=False) |
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self.vae_de_mlp = nn.Sequential( |
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nn.Linear(num_embeddings * 4, 256), |
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nn.ReLU(True), |
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) |
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self.unet_de_mlp = nn.Sequential( |
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nn.Linear(num_embeddings * 4, 256), |
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nn.ReLU(True), |
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) |
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self.vae_block_mlp = nn.Sequential( |
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nn.Linear(block_embedding_dim, 64), |
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nn.ReLU(True), |
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) |
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self.unet_block_mlp = nn.Sequential( |
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nn.Linear(block_embedding_dim, 64), |
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nn.ReLU(True), |
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) |
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self.vae_fuse_mlp = nn.Linear(256 + 64, lora_rank_vae ** 2) |
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self.unet_fuse_mlp = nn.Linear(256 + 64, lora_rank_unet ** 2) |
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default_init_weights([self.vae_de_mlp, self.unet_de_mlp, self.vae_block_mlp, self.unet_block_mlp, \ |
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self.vae_fuse_mlp, self.unet_fuse_mlp], 1e-5) |
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self.vae_block_embeddings = nn.Embedding(6, block_embedding_dim) |
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self.unet_block_embeddings = nn.Embedding(10, block_embedding_dim) |
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if pretrained_path is not None: |
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sd = torch.load(pretrained_path, map_location="cpu") |
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vae_lora_config = LoraConfig(r=sd["rank_vae"], init_lora_weights="gaussian", target_modules=sd["vae_lora_target_modules"]) |
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vae.add_adapter(vae_lora_config, adapter_name="vae_skip") |
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_sd_vae = vae.state_dict() |
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for k in sd["state_dict_vae"]: |
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_sd_vae[k] = sd["state_dict_vae"][k] |
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vae.load_state_dict(_sd_vae) |
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unet_lora_config = LoraConfig(r=sd["rank_unet"], init_lora_weights="gaussian", target_modules=sd["unet_lora_target_modules"]) |
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unet.add_adapter(unet_lora_config) |
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_sd_unet = unet.state_dict() |
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for k in sd["state_dict_unet"]: |
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_sd_unet[k] = sd["state_dict_unet"][k] |
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unet.load_state_dict(_sd_unet) |
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_vae_de_mlp = self.vae_de_mlp.state_dict() |
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for k in sd["state_dict_vae_de_mlp"]: |
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_vae_de_mlp[k] = sd["state_dict_vae_de_mlp"][k] |
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self.vae_de_mlp.load_state_dict(_vae_de_mlp) |
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_unet_de_mlp = self.unet_de_mlp.state_dict() |
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for k in sd["state_dict_unet_de_mlp"]: |
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_unet_de_mlp[k] = sd["state_dict_unet_de_mlp"][k] |
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self.unet_de_mlp.load_state_dict(_unet_de_mlp) |
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_vae_block_mlp = self.vae_block_mlp.state_dict() |
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for k in sd["state_dict_vae_block_mlp"]: |
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_vae_block_mlp[k] = sd["state_dict_vae_block_mlp"][k] |
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self.vae_block_mlp.load_state_dict(_vae_block_mlp) |
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_unet_block_mlp = self.unet_block_mlp.state_dict() |
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for k in sd["state_dict_unet_block_mlp"]: |
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_unet_block_mlp[k] = sd["state_dict_unet_block_mlp"][k] |
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self.unet_block_mlp.load_state_dict(_unet_block_mlp) |
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_vae_fuse_mlp = self.vae_fuse_mlp.state_dict() |
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for k in sd["state_dict_vae_fuse_mlp"]: |
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_vae_fuse_mlp[k] = sd["state_dict_vae_fuse_mlp"][k] |
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self.vae_fuse_mlp.load_state_dict(_vae_fuse_mlp) |
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_unet_fuse_mlp = self.unet_fuse_mlp.state_dict() |
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for k in sd["state_dict_unet_fuse_mlp"]: |
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_unet_fuse_mlp[k] = sd["state_dict_unet_fuse_mlp"][k] |
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self.unet_fuse_mlp.load_state_dict(_unet_fuse_mlp) |
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self.W = nn.Parameter(sd["w"], requires_grad=False) |
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embeddings_state_dict = sd["state_embeddings"] |
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self.vae_block_embeddings.load_state_dict(embeddings_state_dict['state_dict_vae_block']) |
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self.unet_block_embeddings.load_state_dict(embeddings_state_dict['state_dict_unet_block']) |
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else: |
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print("Initializing model with random weights") |
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vae_lora_config = LoraConfig(r=lora_rank_vae, init_lora_weights="gaussian", |
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target_modules=target_modules_vae) |
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vae.add_adapter(vae_lora_config, adapter_name="vae_skip") |
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unet_lora_config = LoraConfig(r=lora_rank_unet, init_lora_weights="gaussian", |
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target_modules=target_modules_unet |
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) |
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unet.add_adapter(unet_lora_config) |
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self.lora_rank_unet = lora_rank_unet |
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self.lora_rank_vae = lora_rank_vae |
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self.target_modules_vae = target_modules_vae |
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self.target_modules_unet = target_modules_unet |
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self.vae_lora_layers = [] |
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for name, module in vae.named_modules(): |
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if 'base_layer' in name: |
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self.vae_lora_layers.append(name[:-len(".base_layer")]) |
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for name, module in vae.named_modules(): |
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if name in self.vae_lora_layers: |
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module.forward = my_lora_fwd.__get__(module, module.__class__) |
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self.unet_lora_layers = [] |
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for name, module in unet.named_modules(): |
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if 'base_layer' in name: |
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self.unet_lora_layers.append(name[:-len(".base_layer")]) |
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for name, module in unet.named_modules(): |
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if name in self.unet_lora_layers: |
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module.forward = my_lora_fwd.__get__(module, module.__class__) |
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self.unet_layer_dict = {name: get_layer_number(name) for name in self.unet_lora_layers} |
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unet.to("cuda") |
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vae.to("cuda") |
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self.unet, self.vae = unet, vae |
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self.timesteps = torch.tensor([999], device="cuda").long() |
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self.text_encoder.requires_grad_(False) |
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def set_eval(self): |
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self.unet.eval() |
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self.vae.eval() |
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self.vae_de_mlp.eval() |
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self.unet_de_mlp.eval() |
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self.vae_block_mlp.eval() |
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self.unet_block_mlp.eval() |
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self.vae_fuse_mlp.eval() |
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self.unet_fuse_mlp.eval() |
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self.vae_block_embeddings.requires_grad_(False) |
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self.unet_block_embeddings.requires_grad_(False) |
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self.unet.requires_grad_(False) |
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self.vae.requires_grad_(False) |
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def set_train(self): |
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self.unet.train() |
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self.vae.train() |
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self.vae_de_mlp.train() |
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self.unet_de_mlp.train() |
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self.vae_block_mlp.train() |
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self.unet_block_mlp.train() |
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self.vae_fuse_mlp.train() |
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self.unet_fuse_mlp.train() |
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self.vae_block_embeddings.requires_grad_(True) |
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self.unet_block_embeddings.requires_grad_(True) |
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for n, _p in self.unet.named_parameters(): |
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if "lora" in n: |
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_p.requires_grad = True |
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self.unet.conv_in.requires_grad_(True) |
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for n, _p in self.vae.named_parameters(): |
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if "lora" in n: |
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_p.requires_grad = True |
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def forward(self, c_t, deg_score, pos_prompt, neg_prompt): |
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if pos_prompt is not None: |
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pos_caption_tokens = self.tokenizer(pos_prompt, max_length=self.tokenizer.model_max_length, |
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padding="max_length", truncation=True, return_tensors="pt").input_ids.cuda() |
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pos_caption_enc = self.text_encoder(pos_caption_tokens)[0] |
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else: |
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pos_caption_enc = self.text_encoder(prompt_tokens)[0] |
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if neg_prompt is not None: |
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neg_caption_tokens = self.tokenizer(neg_prompt, max_length=self.tokenizer.model_max_length, |
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padding="max_length", truncation=True, return_tensors="pt").input_ids.cuda() |
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neg_caption_enc = self.text_encoder(neg_caption_tokens)[0] |
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else: |
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neg_caption_enc = self.text_encoder(neg_prompt_tokens)[0] |
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deg_proj = deg_score[..., None] * self.W[None, None, :] * 2 * np.pi |
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deg_proj = torch.cat([torch.sin(deg_proj), torch.cos(deg_proj)], dim=-1) |
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deg_proj = torch.cat([deg_proj[:, 0], deg_proj[:, 1]], dim=-1) |
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vae_de_c_embed = self.vae_de_mlp(deg_proj) |
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unet_de_c_embed = self.unet_de_mlp(deg_proj) |
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vae_block_c_embeds = self.vae_block_mlp(self.vae_block_embeddings.weight) |
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unet_block_c_embeds = self.unet_block_mlp(self.unet_block_embeddings.weight) |
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vae_embeds = self.vae_fuse_mlp(torch.cat([vae_de_c_embed.unsqueeze(1).repeat(1, vae_block_c_embeds.shape[0], 1), \ |
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vae_block_c_embeds.unsqueeze(0).repeat(vae_de_c_embed.shape[0],1,1)], -1)) |
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unet_embeds = self.unet_fuse_mlp(torch.cat([unet_de_c_embed.unsqueeze(1).repeat(1, unet_block_c_embeds.shape[0], 1), \ |
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unet_block_c_embeds.unsqueeze(0).repeat(unet_de_c_embed.shape[0],1,1)], -1)) |
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for layer_name, module in self.vae.named_modules(): |
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if layer_name in self.vae_lora_layers: |
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split_name = layer_name.split(".") |
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if split_name[1] == 'down_blocks': |
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block_id = int(split_name[2]) |
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vae_embed = vae_embeds[:, block_id] |
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elif split_name[1] == 'mid_block': |
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vae_embed = vae_embeds[:, -2] |
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else: |
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vae_embed = vae_embeds[:, -1] |
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module.de_mod = vae_embed.reshape(-1, self.lora_rank_vae, self.lora_rank_vae) |
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for layer_name, module in self.unet.named_modules(): |
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if layer_name in self.unet_lora_layers: |
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split_name = layer_name.split(".") |
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if split_name[0] == 'down_blocks': |
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block_id = int(split_name[1]) |
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unet_embed = unet_embeds[:, block_id] |
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elif split_name[0] == 'mid_block': |
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unet_embed = unet_embeds[:, 4] |
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elif split_name[0] == 'up_blocks': |
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block_id = int(split_name[1]) + 5 |
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unet_embed = unet_embeds[:, block_id] |
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else: |
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unet_embed = unet_embeds[:, -1] |
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module.de_mod = unet_embed.reshape(-1, self.lora_rank_unet, self.lora_rank_unet) |
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encoded_control = self.vae.encode(c_t).latent_dist.sample() * self.vae.config.scaling_factor |
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pos_model_pred = self.unet(encoded_control, self.timesteps, encoder_hidden_states=pos_caption_enc).sample |
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neg_model_pred = self.unet(encoded_control, self.timesteps, encoder_hidden_states=neg_caption_enc).sample |
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model_pred = neg_model_pred + self.guidance_scale * (pos_model_pred - neg_model_pred) |
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x_denoised = self.sched.step(model_pred, self.timesteps, encoded_control, return_dict=True).prev_sample |
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output_image = (self.vae.decode(x_denoised / self.vae.config.scaling_factor).sample).clamp(-1, 1) |
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return output_image |
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def save_model(self, outf): |
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sd = {} |
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sd["unet_lora_target_modules"] = self.target_modules_unet |
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sd["vae_lora_target_modules"] = self.target_modules_vae |
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sd["rank_unet"] = self.lora_rank_unet |
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sd["rank_vae"] = self.lora_rank_vae |
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sd["state_dict_unet"] = {k: v for k, v in self.unet.state_dict().items() if "lora" in k or "conv_in" in k} |
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sd["state_dict_vae"] = {k: v for k, v in self.vae.state_dict().items() if "lora" in k or "skip_conv" in k} |
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sd["state_dict_vae_de_mlp"] = {k: v for k, v in self.vae_de_mlp.state_dict().items()} |
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sd["state_dict_unet_de_mlp"] = {k: v for k, v in self.unet_de_mlp.state_dict().items()} |
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sd["state_dict_vae_block_mlp"] = {k: v for k, v in self.vae_block_mlp.state_dict().items()} |
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sd["state_dict_unet_block_mlp"] = {k: v for k, v in self.unet_block_mlp.state_dict().items()} |
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sd["state_dict_vae_fuse_mlp"] = {k: v for k, v in self.vae_fuse_mlp.state_dict().items()} |
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sd["state_dict_unet_fuse_mlp"] = {k: v for k, v in self.unet_fuse_mlp.state_dict().items()} |
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sd["w"] = self.W |
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sd["state_embeddings"] = { |
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"state_dict_vae_block": self.vae_block_embeddings.state_dict(), |
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"state_dict_unet_block": self.unet_block_embeddings.state_dict(), |
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} |
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torch.save(sd, outf) |
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