import argparse import os import torch from safetensors import safe_open from safetensors.torch import load_file, save_file from tqdm import tqdm from library.utils import setup_logging setup_logging() import logging logger = logging.getLogger(__name__) def is_unet_key(key): # VAE or TextEncoder, the last one is for SDXL return not ("first_stage_model" in key or "cond_stage_model" in key or "conditioner." in key) TEXT_ENCODER_KEY_REPLACEMENTS = [ ("cond_stage_model.transformer.embeddings.", "cond_stage_model.transformer.text_model.embeddings."), ("cond_stage_model.transformer.encoder.", "cond_stage_model.transformer.text_model.encoder."), ("cond_stage_model.transformer.final_layer_norm.", "cond_stage_model.transformer.text_model.final_layer_norm."), ] # support for models with different text encoder keys def replace_text_encoder_key(key): for rep_from, rep_to in TEXT_ENCODER_KEY_REPLACEMENTS: if key.startswith(rep_from): return True, rep_to + key[len(rep_from) :] return False, key def merge(args): if args.precision == "fp16": dtype = torch.float16 elif args.precision == "bf16": dtype = torch.bfloat16 else: dtype = torch.float if args.saving_precision == "fp16": save_dtype = torch.float16 elif args.saving_precision == "bf16": save_dtype = torch.bfloat16 else: save_dtype = torch.float # check if all models are safetensors for model in args.models: if not model.endswith("safetensors"): logger.info(f"Model {model} is not a safetensors model") exit() if not os.path.isfile(model): logger.info(f"Model {model} does not exist") exit() assert args.ratios is None or len(args.models) == len(args.ratios), "ratios must be the same length as models" # load and merge ratio = 1.0 / len(args.models) # default supplementary_key_ratios = {} # [key] = ratio, for keys not in all models, add later merged_sd = None first_model_keys = set() # check missing keys in other models for i, model in enumerate(args.models): if args.ratios is not None: ratio = args.ratios[i] if merged_sd is None: # load first model logger.info(f"Loading model {model}, ratio = {ratio}...") merged_sd = {} with safe_open(model, framework="pt", device=args.device) as f: for key in tqdm(f.keys()): value = f.get_tensor(key) _, key = replace_text_encoder_key(key) first_model_keys.add(key) if not is_unet_key(key) and args.unet_only: supplementary_key_ratios[key] = 1.0 # use first model's value for VAE or TextEncoder continue value = ratio * value.to(dtype) # first model's value * ratio merged_sd[key] = value logger.info(f"Model has {len(merged_sd)} keys " + ("(UNet only)" if args.unet_only else "")) continue # load other models logger.info(f"Loading model {model}, ratio = {ratio}...") with safe_open(model, framework="pt", device=args.device) as f: model_keys = f.keys() for key in tqdm(model_keys): _, new_key = replace_text_encoder_key(key) if new_key not in merged_sd: if args.show_skipped and new_key not in first_model_keys: logger.info(f"Skip: {new_key}") continue value = f.get_tensor(key) merged_sd[new_key] = merged_sd[new_key] + ratio * value.to(dtype) # enumerate keys not in this model model_keys = set(model_keys) for key in merged_sd.keys(): if key in model_keys: continue logger.warning(f"Key {key} not in model {model}, use first model's value") if key in supplementary_key_ratios: supplementary_key_ratios[key] += ratio else: supplementary_key_ratios[key] = ratio # add supplementary keys' value (including VAE and TextEncoder) if len(supplementary_key_ratios) > 0: logger.info("add first model's value") with safe_open(args.models[0], framework="pt", device=args.device) as f: for key in tqdm(f.keys()): _, new_key = replace_text_encoder_key(key) if new_key not in supplementary_key_ratios: continue if is_unet_key(new_key): # not VAE or TextEncoder logger.warning(f"Key {new_key} not in all models, ratio = {supplementary_key_ratios[new_key]}") value = f.get_tensor(key) # original key if new_key not in merged_sd: merged_sd[new_key] = supplementary_key_ratios[new_key] * value.to(dtype) else: merged_sd[new_key] = merged_sd[new_key] + supplementary_key_ratios[new_key] * value.to(dtype) # save output_file = args.output if not output_file.endswith(".safetensors"): output_file = output_file + ".safetensors" logger.info(f"Saving to {output_file}...") # convert to save_dtype for k in merged_sd.keys(): merged_sd[k] = merged_sd[k].to(save_dtype) save_file(merged_sd, output_file) logger.info("Done!") if __name__ == "__main__": parser = argparse.ArgumentParser(description="Merge models") parser.add_argument("--models", nargs="+", type=str, help="Models to merge") parser.add_argument("--output", type=str, help="Output model") parser.add_argument("--ratios", nargs="+", type=float, help="Ratios of models, default is equal, total = 1.0") parser.add_argument("--unet_only", action="store_true", help="Only merge unet") parser.add_argument("--device", type=str, default="cpu", help="Device to use, default is cpu") parser.add_argument( "--precision", type=str, default="float", choices=["float", "fp16", "bf16"], help="Calculation precision, default is float" ) parser.add_argument( "--saving_precision", type=str, default="float", choices=["float", "fp16", "bf16"], help="Saving precision, default is float", ) parser.add_argument("--show_skipped", action="store_true", help="Show skipped keys (keys not in first model)") args = parser.parse_args() merge(args)