import json import logging import os import re from copy import deepcopy from pathlib import Path import torch from .model import CLAP, convert_weights_to_fp16 from .openai import load_openai_model from .pretrained import get_pretrained_url, download_pretrained from .transform import image_transform _MODEL_CONFIG_PATHS = [Path(__file__).parent / f"model_configs/"] _MODEL_CONFIGS = {} # directory (model_name: config) of model architecture configs def _natural_key(string_): return [int(s) if s.isdigit() else s for s in re.split(r"(\d+)", string_.lower())] def _rescan_model_configs(): global _MODEL_CONFIGS config_ext = (".json",) config_files = [] for config_path in _MODEL_CONFIG_PATHS: if config_path.is_file() and config_path.suffix in config_ext: config_files.append(config_path) elif config_path.is_dir(): for ext in config_ext: config_files.extend(config_path.glob(f"*{ext}")) for cf in config_files: if os.path.basename(cf)[0] == ".": continue # Ignore hidden files with open(cf, "r") as f: model_cfg = json.load(f) if all(a in model_cfg for a in ("embed_dim", "audio_cfg", "text_cfg")): _MODEL_CONFIGS[cf.stem] = model_cfg _MODEL_CONFIGS = { k: v for k, v in sorted(_MODEL_CONFIGS.items(), key=lambda x: _natural_key(x[0])) } _rescan_model_configs() # initial populate of model config registry def load_state_dict(checkpoint_path: str, map_location="cpu", skip_params=True): checkpoint = torch.load(checkpoint_path, map_location=map_location) if isinstance(checkpoint, dict) and "state_dict" in checkpoint: state_dict = checkpoint["state_dict"] else: state_dict = checkpoint if skip_params: if next(iter(state_dict.items()))[0].startswith("module"): state_dict = {k[7:]: v for k, v in state_dict.items()} # for k in state_dict: # if k.startswith('transformer'): # v = state_dict.pop(k) # state_dict['text_branch.' + k[12:]] = v return state_dict def create_model( amodel_name: str, tmodel_name: str, pretrained: str = "", precision: str = "fp32", device: torch.device = torch.device("cpu"), jit: bool = False, force_quick_gelu: bool = False, openai_model_cache_dir: str = os.path.expanduser("~/.cache/clip"), skip_params=True, pretrained_audio: str = "", pretrained_text: str = "", enable_fusion: bool = False, fusion_type: str = "None" # pretrained_image: bool = False, ): amodel_name = amodel_name.replace( "/", "-" ) # for callers using old naming with / in ViT names pretrained_orig = pretrained pretrained = pretrained.lower() if pretrained == "openai": if amodel_name in _MODEL_CONFIGS: logging.info(f"Loading {amodel_name} model config.") model_cfg = deepcopy(_MODEL_CONFIGS[amodel_name]) else: logging.error( f"Model config for {amodel_name} not found; available models {list_models()}." ) raise RuntimeError(f"Model config for {amodel_name} not found.") logging.info(f"Loading pretrained ViT-B-16 text encoder from OpenAI.") # Hard Code in model name model_cfg["text_cfg"]["model_type"] = tmodel_name model = load_openai_model( "ViT-B-16", model_cfg, device=device, jit=jit, cache_dir=openai_model_cache_dir, enable_fusion=enable_fusion, fusion_type=fusion_type, ) # See https://discuss.pytorch.org/t/valueerror-attemting-to-unscale-fp16-gradients/81372 if precision == "amp" or precision == "fp32": model = model.float() else: if amodel_name in _MODEL_CONFIGS: logging.info(f"Loading {amodel_name} model config.") model_cfg = deepcopy(_MODEL_CONFIGS[amodel_name]) else: logging.error( f"Model config for {amodel_name} not found; available models {list_models()}." ) raise RuntimeError(f"Model config for {amodel_name} not found.") if force_quick_gelu: # override for use of QuickGELU on non-OpenAI transformer models model_cfg["quick_gelu"] = True # if pretrained_image: # if 'timm_amodel_name' in model_cfg.get('vision_cfg', {}): # # pretrained weight loading for timm models set via vision_cfg # model_cfg['vision_cfg']['timm_model_pretrained'] = True # else: # assert False, 'pretrained image towers currently only supported for timm models' model_cfg["text_cfg"]["model_type"] = tmodel_name model_cfg["enable_fusion"] = enable_fusion model_cfg["fusion_type"] = fusion_type model = CLAP(**model_cfg) if pretrained: checkpoint_path = "" url = get_pretrained_url(amodel_name, pretrained) if url: checkpoint_path = download_pretrained(url, root=openai_model_cache_dir) elif os.path.exists(pretrained_orig): checkpoint_path = pretrained_orig if checkpoint_path: logging.info( f"Loading pretrained {amodel_name}-{tmodel_name} weights ({pretrained})." ) ckpt = load_state_dict(checkpoint_path, skip_params=True) model.load_state_dict(ckpt) param_names = [n for n, p in model.named_parameters()] # for n in param_names: # print(n, "\t", "Loaded" if n in ckpt else "Unloaded") else: logging.warning( f"Pretrained weights ({pretrained}) not found for model {amodel_name}." ) raise RuntimeError( f"Pretrained weights ({pretrained}) not found for model {amodel_name}." ) if pretrained_audio: if amodel_name.startswith("PANN"): if "Cnn14_mAP" in pretrained_audio: # official checkpoint audio_ckpt = torch.load(pretrained_audio, map_location="cpu") audio_ckpt = audio_ckpt["model"] keys = list(audio_ckpt.keys()) for key in keys: if ( "spectrogram_extractor" not in key and "logmel_extractor" not in key ): v = audio_ckpt.pop(key) audio_ckpt["audio_branch." + key] = v elif os.path.basename(pretrained_audio).startswith( "PANN" ): # checkpoint trained via HTSAT codebase audio_ckpt = torch.load(pretrained_audio, map_location="cpu") audio_ckpt = audio_ckpt["state_dict"] keys = list(audio_ckpt.keys()) for key in keys: if key.startswith("sed_model"): v = audio_ckpt.pop(key) audio_ckpt["audio_branch." + key[10:]] = v elif os.path.basename(pretrained_audio).startswith( "finetuned" ): # checkpoint trained via linear probe codebase audio_ckpt = torch.load(pretrained_audio, map_location="cpu") else: raise ValueError("Unknown audio checkpoint") elif amodel_name.startswith("HTSAT"): if "HTSAT_AudioSet_Saved" in pretrained_audio: # official checkpoint audio_ckpt = torch.load(pretrained_audio, map_location="cpu") audio_ckpt = audio_ckpt["state_dict"] keys = list(audio_ckpt.keys()) for key in keys: if key.startswith("sed_model") and ( "spectrogram_extractor" not in key and "logmel_extractor" not in key ): v = audio_ckpt.pop(key) audio_ckpt["audio_branch." + key[10:]] = v elif os.path.basename(pretrained_audio).startswith( "HTSAT" ): # checkpoint trained via HTSAT codebase audio_ckpt = torch.load(pretrained_audio, map_location="cpu") audio_ckpt = audio_ckpt["state_dict"] keys = list(audio_ckpt.keys()) for key in keys: if key.startswith("sed_model"): v = audio_ckpt.pop(key) audio_ckpt["audio_branch." + key[10:]] = v elif os.path.basename(pretrained_audio).startswith( "finetuned" ): # checkpoint trained via linear probe codebase audio_ckpt = torch.load(pretrained_audio, map_location="cpu") else: raise ValueError("Unknown audio checkpoint") else: raise f"this audio encoder pretrained checkpoint is not support" model.load_state_dict(audio_ckpt, strict=False) logging.info( f"Loading pretrained {amodel_name} weights ({pretrained_audio})." ) param_names = [n for n, p in model.named_parameters()] for n in param_names: print(n, "\t", "Loaded" if n in audio_ckpt else "Unloaded") model.to(device=device) if precision == "fp16": assert device.type != "cpu" convert_weights_to_fp16(model) if jit: model = torch.jit.script(model) return model, model_cfg def create_model_and_transforms( model_name: str, pretrained: str = "", precision: str = "fp32", device: torch.device = torch.device("cpu"), jit: bool = False, force_quick_gelu: bool = False, # pretrained_image: bool = False, ): model = create_model( model_name, pretrained, precision, device, jit, force_quick_gelu=force_quick_gelu, # pretrained_image=pretrained_image ) preprocess_train = image_transform(model.visual.image_size, is_train=True) preprocess_val = image_transform(model.visual.image_size, is_train=False) return model, preprocess_train, preprocess_val def list_models(): """enumerate available model architectures based on config files""" return list(_MODEL_CONFIGS.keys()) def add_model_config(path): """add model config path or file and update registry""" if not isinstance(path, Path): path = Path(path) _MODEL_CONFIG_PATHS.append(path) _rescan_model_configs()