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import math |
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import argparse |
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import os |
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import torch |
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from safetensors.torch import load_file, save_file |
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from tqdm import tqdm |
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import library.model_util as model_util |
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import lora |
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CLAMP_QUANTILE = 0.99 |
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def load_state_dict(file_name, dtype): |
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if os.path.splitext(file_name)[1] == '.safetensors': |
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sd = load_file(file_name) |
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else: |
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sd = torch.load(file_name, map_location='cpu') |
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for key in list(sd.keys()): |
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if type(sd[key]) == torch.Tensor: |
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sd[key] = sd[key].to(dtype) |
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return sd |
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def save_to_file(file_name, state_dict, dtype): |
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if dtype is not None: |
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for key in list(state_dict.keys()): |
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if type(state_dict[key]) == torch.Tensor: |
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state_dict[key] = state_dict[key].to(dtype) |
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if os.path.splitext(file_name)[1] == '.safetensors': |
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save_file(state_dict, file_name) |
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else: |
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torch.save(state_dict, file_name) |
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def merge_lora_models(models, ratios, new_rank, new_conv_rank, device, merge_dtype): |
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print(f"new rank: {new_rank}, new conv rank: {new_conv_rank}") |
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merged_sd = {} |
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for model, ratio in zip(models, ratios): |
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print(f"loading: {model}") |
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lora_sd = load_state_dict(model, merge_dtype) |
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print(f"merging...") |
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for key in tqdm(list(lora_sd.keys())): |
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if 'lora_down' not in key: |
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continue |
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lora_module_name = key[:key.rfind(".lora_down")] |
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down_weight = lora_sd[key] |
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network_dim = down_weight.size()[0] |
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up_weight = lora_sd[lora_module_name + '.lora_up.weight'] |
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alpha = lora_sd.get(lora_module_name + '.alpha', network_dim) |
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in_dim = down_weight.size()[1] |
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out_dim = up_weight.size()[0] |
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conv2d = len(down_weight.size()) == 4 |
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kernel_size = None if not conv2d else down_weight.size()[2:4] |
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if lora_module_name not in merged_sd: |
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weight = torch.zeros((out_dim, in_dim, *kernel_size) if conv2d else (out_dim, in_dim), dtype=merge_dtype) |
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if device: |
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weight = weight.to(device) |
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else: |
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weight = merged_sd[lora_module_name] |
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if device: |
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up_weight = up_weight.to(device) |
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down_weight = down_weight.to(device) |
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scale = (alpha / network_dim) |
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if device: |
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scale = scale.to(device) |
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if not conv2d: |
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weight = weight + ratio * (up_weight @ down_weight) * scale |
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elif kernel_size == (1, 1): |
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weight = weight + ratio * (up_weight.squeeze(3).squeeze(2) @ down_weight.squeeze(3).squeeze(2) |
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).unsqueeze(2).unsqueeze(3) * scale |
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else: |
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conved = torch.nn.functional.conv2d(down_weight.permute(1, 0, 2, 3), up_weight).permute(1, 0, 2, 3) |
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weight = weight + ratio * conved * scale |
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merged_sd[lora_module_name] = weight |
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print("extract new lora...") |
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merged_lora_sd = {} |
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with torch.no_grad(): |
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for lora_module_name, mat in tqdm(list(merged_sd.items())): |
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conv2d = (len(mat.size()) == 4) |
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kernel_size = None if not conv2d else mat.size()[2:4] |
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conv2d_3x3 = conv2d and kernel_size != (1, 1) |
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out_dim, in_dim = mat.size()[0:2] |
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if conv2d: |
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if conv2d_3x3: |
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mat = mat.flatten(start_dim=1) |
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else: |
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mat = mat.squeeze() |
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module_new_rank = new_conv_rank if conv2d_3x3 else new_rank |
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module_new_rank = min(module_new_rank, in_dim, out_dim) |
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U, S, Vh = torch.linalg.svd(mat) |
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U = U[:, :module_new_rank] |
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S = S[:module_new_rank] |
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U = U @ torch.diag(S) |
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Vh = Vh[:module_new_rank, :] |
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dist = torch.cat([U.flatten(), Vh.flatten()]) |
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hi_val = torch.quantile(dist, CLAMP_QUANTILE) |
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low_val = -hi_val |
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U = U.clamp(low_val, hi_val) |
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Vh = Vh.clamp(low_val, hi_val) |
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if conv2d: |
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U = U.reshape(out_dim, module_new_rank, 1, 1) |
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Vh = Vh.reshape(module_new_rank, in_dim, kernel_size[0], kernel_size[1]) |
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up_weight = U |
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down_weight = Vh |
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merged_lora_sd[lora_module_name + '.lora_up.weight'] = up_weight.to("cpu").contiguous() |
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merged_lora_sd[lora_module_name + '.lora_down.weight'] = down_weight.to("cpu").contiguous() |
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merged_lora_sd[lora_module_name + '.alpha'] = torch.tensor(module_new_rank) |
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return merged_lora_sd |
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def merge(args): |
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assert len(args.models) == len(args.ratios), f"number of models must be equal to number of ratios / モデルの数と重みの数は合わせてください" |
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def str_to_dtype(p): |
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if p == 'float': |
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return torch.float |
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if p == 'fp16': |
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return torch.float16 |
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if p == 'bf16': |
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return torch.bfloat16 |
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return None |
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merge_dtype = str_to_dtype(args.precision) |
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save_dtype = str_to_dtype(args.save_precision) |
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if save_dtype is None: |
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save_dtype = merge_dtype |
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new_conv_rank = args.new_conv_rank if args.new_conv_rank is not None else args.new_rank |
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state_dict = merge_lora_models(args.models, args.ratios, args.new_rank, new_conv_rank, args.device, merge_dtype) |
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print(f"saving model to: {args.save_to}") |
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save_to_file(args.save_to, state_dict, save_dtype) |
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def setup_parser() -> argparse.ArgumentParser: |
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parser = argparse.ArgumentParser() |
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parser.add_argument("--save_precision", type=str, default=None, |
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choices=[None, "float", "fp16", "bf16"], help="precision in saving, same to merging if omitted / 保存時に精度を変更して保存する、省略時はマージ時の精度と同じ") |
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parser.add_argument("--precision", type=str, default="float", |
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choices=["float", "fp16", "bf16"], help="precision in merging (float is recommended) / マージの計算時の精度(floatを推奨)") |
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parser.add_argument("--save_to", type=str, default=None, |
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help="destination file name: ckpt or safetensors file / 保存先のファイル名、ckptまたはsafetensors") |
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parser.add_argument("--models", type=str, nargs='*', |
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help="LoRA models to merge: ckpt or safetensors file / マージするLoRAモデル、ckptまたはsafetensors") |
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parser.add_argument("--ratios", type=float, nargs='*', |
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help="ratios for each model / それぞれのLoRAモデルの比率") |
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parser.add_argument("--new_rank", type=int, default=4, |
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help="Specify rank of output LoRA / 出力するLoRAのrank (dim)") |
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parser.add_argument("--new_conv_rank", type=int, default=None, |
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help="Specify rank of output LoRA for Conv2d 3x3, None for same as new_rank / 出力するConv2D 3x3 LoRAのrank (dim)、Noneでnew_rankと同じ") |
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parser.add_argument("--device", type=str, default=None, help="device to use, cuda for GPU / 計算を行うデバイス、cuda でGPUを使う") |
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return parser |
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if __name__ == '__main__': |
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parser = setup_parser() |
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args = parser.parse_args() |
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merge(args) |
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