import re from pathlib import Path import yaml from modules import shared, ui def get_model_settings_from_yamls(model): settings = shared.model_config model_settings = {} for pat in settings: if re.match(pat.lower(), model.lower()): for k in settings[pat]: model_settings[k] = settings[pat][k] return model_settings def infer_loader(model_name): path_to_model = Path(f'{shared.args.model_dir}/{model_name}') model_settings = get_model_settings_from_yamls(model_name) if not path_to_model.exists(): loader = None elif Path(f'{shared.args.model_dir}/{model_name}/quantize_config.json').exists() or ('wbits' in model_settings and type(model_settings['wbits']) is int and model_settings['wbits'] > 0): loader = 'AutoGPTQ' elif len(list(path_to_model.glob('*ggml*.bin'))) > 0: loader = 'llama.cpp' elif re.match('.*ggml.*\.bin', model_name.lower()): loader = 'llama.cpp' elif re.match('.*rwkv.*\.pth', model_name.lower()): loader = 'RWKV' else: loader = 'Transformers' return loader # UI: update the command-line arguments based on the interface values def update_model_parameters(state, initial=False): elements = ui.list_model_elements() # the names of the parameters gpu_memories = [] for i, element in enumerate(elements): if element not in state: continue value = state[element] if element.startswith('gpu_memory'): gpu_memories.append(value) continue if initial and vars(shared.args)[element] != vars(shared.args_defaults)[element]: continue # Setting null defaults if element in ['wbits', 'groupsize', 'model_type'] and value == 'None': value = vars(shared.args_defaults)[element] elif element in ['cpu_memory'] and value == 0: value = vars(shared.args_defaults)[element] # Making some simple conversions if element in ['wbits', 'groupsize', 'pre_layer']: value = int(value) elif element == 'cpu_memory' and value is not None: value = f"{value}MiB" if element in ['pre_layer']: value = [value] if value > 0 else None setattr(shared.args, element, value) found_positive = False for i in gpu_memories: if i > 0: found_positive = True break if not (initial and vars(shared.args)['gpu_memory'] != vars(shared.args_defaults)['gpu_memory']): if found_positive: shared.args.gpu_memory = [f"{i}MiB" for i in gpu_memories] else: shared.args.gpu_memory = None # UI: update the state variable with the model settings def apply_model_settings_to_state(model, state): model_settings = get_model_settings_from_yamls(model) if 'loader' not in model_settings: loader = infer_loader(model) if 'wbits' in model_settings and type(model_settings['wbits']) is int and model_settings['wbits'] > 0: loader = 'AutoGPTQ' # If the user is using an alternative GPTQ loader, let them keep using it if not (loader == 'AutoGPTQ' and state['loader'] in ['GPTQ-for-LLaMa', 'ExLlama', 'ExLlama_HF']): state['loader'] = loader for k in model_settings: if k in state: if k in ['wbits', 'groupsize']: state[k] = str(model_settings[k]) else: state[k] = model_settings[k] return state # Save the settings for this model to models/config-user.yaml def save_model_settings(model, state): if model == 'None': yield ("Not saving the settings because no model is loaded.") return with Path(f'{shared.args.model_dir}/config-user.yaml') as p: if p.exists(): user_config = yaml.safe_load(open(p, 'r').read()) else: user_config = {} model_regex = model + '$' # For exact matches for _dict in [user_config, shared.model_config]: if model_regex not in _dict: _dict[model_regex] = {} if model_regex not in user_config: user_config[model_regex] = {} for k in ui.list_model_elements(): user_config[model_regex][k] = state[k] shared.model_config[model_regex][k] = state[k] with open(p, 'w') as f: f.write(yaml.dump(user_config, sort_keys=False)) yield (f"Settings for {model} saved to {p}")