networks/sdxl_merge_lora.py

import math
import argparse
import os
import torch
from safetensors.torch import load_file, save_file
from tqdm import tqdm
from library import sdxl_model_util
import library.model_util as model_util
import lora


def load_state_dict(file_name, dtype):
    if os.path.splitext(file_name)[1] == ".safetensors":
        sd = load_file(file_name)
    else:
        sd = torch.load(file_name, map_location="cpu")
    for key in list(sd.keys()):
        if type(sd[key]) == torch.Tensor:
            sd[key] = sd[key].to(dtype)
    return sd


def save_to_file(file_name, model, state_dict, dtype):
    if dtype is not None:
        for key in list(state_dict.keys()):
            if type(state_dict[key]) == torch.Tensor:
                state_dict[key] = state_dict[key].to(dtype)

    if os.path.splitext(file_name)[1] == ".safetensors":
        save_file(model, file_name)
    else:
        torch.save(model, file_name)


def merge_to_sd_model(text_encoder1, text_encoder2, unet, models, ratios, merge_dtype):
    text_encoder1.to(merge_dtype)
    text_encoder1.to(merge_dtype)
    unet.to(merge_dtype)

    # create module map
    name_to_module = {}
    for i, root_module in enumerate([text_encoder1, text_encoder2, unet]):
        if i <= 1:
            if i == 0:
                prefix = lora.LoRANetwork.LORA_PREFIX_TEXT_ENCODER1
            else:
                prefix = lora.LoRANetwork.LORA_PREFIX_TEXT_ENCODER2
            target_replace_modules = lora.LoRANetwork.TEXT_ENCODER_TARGET_REPLACE_MODULE
        else:
            prefix = lora.LoRANetwork.LORA_PREFIX_UNET
            target_replace_modules = (
                lora.LoRANetwork.UNET_TARGET_REPLACE_MODULE + lora.LoRANetwork.UNET_TARGET_REPLACE_MODULE_CONV2D_3X3
            )

        for name, module in root_module.named_modules():
            if module.__class__.__name__ in target_replace_modules:
                for child_name, child_module in module.named_modules():
                    if child_module.__class__.__name__ == "Linear" or child_module.__class__.__name__ == "Conv2d":
                        lora_name = prefix + "." + name + "." + child_name
                        lora_name = lora_name.replace(".", "_")
                        name_to_module[lora_name] = child_module

    for model, ratio in zip(models, ratios):
        print(f"loading: {model}")
        lora_sd = load_state_dict(model, merge_dtype)

        print(f"merging...")
        for key in tqdm(lora_sd.keys()):
            if "lora_down" in key:
                up_key = key.replace("lora_down", "lora_up")
                alpha_key = key[: key.index("lora_down")] + "alpha"

                # find original module for this lora
                module_name = ".".join(key.split(".")[:-2])  # remove trailing ".lora_down.weight"
                if module_name not in name_to_module:
                    print(f"no module found for LoRA weight: {key}")
                    continue
                module = name_to_module[module_name]
                # print(f"apply {key} to {module}")

                down_weight = lora_sd[key]
                up_weight = lora_sd[up_key]

                dim = down_weight.size()[0]
                alpha = lora_sd.get(alpha_key, dim)
                scale = alpha / dim

                # W <- W + U * D
                weight = module.weight
                # print(module_name, down_weight.size(), up_weight.size())
                if len(weight.size()) == 2:
                    # linear
                    weight = weight + ratio * (up_weight @ down_weight) * scale
                elif down_weight.size()[2:4] == (1, 1):
                    # conv2d 1x1
                    weight = (
                        weight
                        + ratio
                        * (up_weight.squeeze(3).squeeze(2) @ down_weight.squeeze(3).squeeze(2)).unsqueeze(2).unsqueeze(3)
                        * scale
                    )
                else:
                    # conv2d 3x3
                    conved = torch.nn.functional.conv2d(down_weight.permute(1, 0, 2, 3), up_weight).permute(1, 0, 2, 3)
                    # print(conved.size(), weight.size(), module.stride, module.padding)
                    weight = weight + ratio * conved * scale

                module.weight = torch.nn.Parameter(weight)


def merge_lora_models(models, ratios, merge_dtype):
    base_alphas = {}  # alpha for merged model
    base_dims = {}

    merged_sd = {}
    for model, ratio in zip(models, ratios):
        print(f"loading: {model}")
        lora_sd = load_state_dict(model, merge_dtype)

        # get alpha and dim
        alphas = {}  # alpha for current model
        dims = {}  # dims for current model
        for key in lora_sd.keys():
            if "alpha" in key:
                lora_module_name = key[: key.rfind(".alpha")]
                alpha = float(lora_sd[key].detach().numpy())
                alphas[lora_module_name] = alpha
                if lora_module_name not in base_alphas:
                    base_alphas[lora_module_name] = alpha
            elif "lora_down" in key:
                lora_module_name = key[: key.rfind(".lora_down")]
                dim = lora_sd[key].size()[0]
                dims[lora_module_name] = dim
                if lora_module_name not in base_dims:
                    base_dims[lora_module_name] = dim

        for lora_module_name in dims.keys():
            if lora_module_name not in alphas:
                alpha = dims[lora_module_name]
                alphas[lora_module_name] = alpha
                if lora_module_name not in base_alphas:
                    base_alphas[lora_module_name] = alpha

        print(f"dim: {list(set(dims.values()))}, alpha: {list(set(alphas.values()))}")

        # merge
        print(f"merging...")
        for key in tqdm(lora_sd.keys()):
            if "alpha" in key:
                continue

            lora_module_name = key[: key.rfind(".lora_")]

            base_alpha = base_alphas[lora_module_name]
            alpha = alphas[lora_module_name]

            scale = math.sqrt(alpha / base_alpha) * ratio

            if key in merged_sd:
                assert (
                    merged_sd[key].size() == lora_sd[key].size()
                ), f"weights shape mismatch merging v1 and v2, different dims? / 重みのサイズが合いません。v1とv2、または次元数の異なるモデルはマージできません"
                merged_sd[key] = merged_sd[key] + lora_sd[key] * scale
            else:
                merged_sd[key] = lora_sd[key] * scale

    # set alpha to sd
    for lora_module_name, alpha in base_alphas.items():
        key = lora_module_name + ".alpha"
        merged_sd[key] = torch.tensor(alpha)

    print("merged model")
    print(f"dim: {list(set(base_dims.values()))}, alpha: {list(set(base_alphas.values()))}")

    return merged_sd


def merge(args):
    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"

    def str_to_dtype(p):
        if p == "float":
            return torch.float
        if p == "fp16":
            return torch.float16
        if p == "bf16":
            return torch.bfloat16
        return None

    merge_dtype = str_to_dtype(args.precision)
    save_dtype = str_to_dtype(args.save_precision)
    if save_dtype is None:
        save_dtype = merge_dtype

    if args.sd_model is not None:
        print(f"loading SD model: {args.sd_model}")

        (
            text_model1,
            text_model2,
            vae,
            unet,
            logit_scale,
            ckpt_info,
        ) = sdxl_model_util.load_models_from_sdxl_checkpoint(sdxl_model_util.MODEL_VERSION_SDXL_BASE_V0_9, args.sd_model, "cpu")

        merge_to_sd_model(text_model2, text_model2, unet, args.models, args.ratios, merge_dtype)

        print(f"saving SD model to: {args.save_to}")
        sdxl_model_util.save_stable_diffusion_checkpoint(
            args.save_to, text_model1, text_model2, unet, 0, 0, ckpt_info, vae, logit_scale, save_dtype
        )
    else:
        state_dict = merge_lora_models(args.models, args.ratios, merge_dtype)

        print(f"saving model to: {args.save_to}")
        save_to_file(args.save_to, state_dict, state_dict, save_dtype)


def setup_parser() -> argparse.ArgumentParser:
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--save_precision",
        type=str,
        default=None,
        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",
    )
    parser.add_argument(
        "--precision",
        type=str,
        default="float",
        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）",
    )
    parser.add_argument(
        "--sd_model",
        type=str,
        default=None,
        help="Stable Diffusion model to load: ckpt or safetensors file, merge LoRA models if omitted / 読み込むモデル、ckptまたはsafetensors。省略時はLoRAモデル同士をマージする",
    )
    parser.add_argument(
        "--save_to", type=str, default=None, help="destination file name: ckpt or safetensors file / 保存先のファイル名、ckptまたはsafetensors"
    )
    parser.add_argument(
        "--models", type=str, nargs="*", help="LoRA models to merge: ckpt or safetensors file / マージするLoRAモデル、ckptまたはsafetensors"
    )
    parser.add_argument("--ratios", type=float, nargs="*", help="ratios for each model / それぞれのLoRAモデルの比率")

    return parser


if __name__ == "__main__":
    parser = setup_parser()

    args = parser.parse_args()
    merge(args)