import json import os import sys import copy import torch from safetensors.torch import load_file, save_file import argparse parser = argparse.ArgumentParser() parser.add_argument("--input", type=str, help="Path to input pth model") parser.add_argument( "--output", type=str, default="./converted.st", help="Path to output safetensors model", ) args = parser.parse_args() def rename_key(rename, name): for k, v in rename.items(): if k in name: name = name.replace(k, v) return name def convert_file(pt_filename: str, sf_filename: str, transpose_names=[], rename={}): loaded = torch.load(pt_filename, map_location="cpu") if "state_dict" in loaded: loaded = loaded["state_dict"] loaded = {k: v.clone().half() for k, v in loaded.items()} # for k, v in loaded.items(): # print(f'{k}\t{v.shape}\t{v.dtype}') # For tensors to be contiguous for k, v in loaded.items(): for transpose_name in transpose_names: if transpose_name in k: loaded[k] = v.transpose(0, 1) loaded = {rename_key(rename, k).lower(): v.contiguous() for k, v in loaded.items()} for k, v in loaded.items(): print(f"{k}\t{v.shape}\t{v.dtype}") dirname = os.path.dirname(sf_filename) os.makedirs(dirname, exist_ok=True) save_file(loaded, sf_filename, metadata={"format": "pt"}) reloaded = load_file(sf_filename) for k in loaded: pt_tensor = loaded[k] sf_tensor = reloaded[k] if not torch.equal(pt_tensor, sf_tensor): raise RuntimeError(f"The output tensors do not match for key {k}") if __name__ == "__main__": try: convert_file( args.input, args.output, ["lora_A"], {"time_faaaa": "time_first", "lora_A": "lora.0", "lora_B": "lora.1"}, ) print(f"Saved to {args.output}") except Exception as e: with open("error.txt", "w") as f: f.write(str(e))