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""" |
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Copyright (c) 2022, salesforce.com, inc. |
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All rights reserved. |
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SPDX-License-Identifier: BSD-3-Clause |
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For full license text, see the LICENSE_Lavis file in the repo root or https://opensource.org/licenses/BSD-3-Clause |
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""" |
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import logging |
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import json |
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from typing import Dict |
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from omegaconf import OmegaConf |
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from minigpt4_video.registry import registry |
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class Config: |
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def __init__(self, args): |
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self.config = {} |
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self.args = args |
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registry.register("configuration", self) |
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user_config = self._build_opt_list(self.args.options) |
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config = OmegaConf.load(self.args.cfg_path) |
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runner_config = self.build_runner_config(config) |
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model_config = self.build_model_config(config, **user_config) |
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dataset_config = self.build_dataset_config(config) |
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self.config = OmegaConf.merge( |
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runner_config, model_config, dataset_config, user_config |
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) |
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def _validate_runner_config(self, runner_config): |
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""" |
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This method validates the configuration, such that |
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1) all the user specified options are valid; |
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2) no type mismatches between the user specified options and the config. |
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""" |
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runner_config_validator = create_runner_config_validator() |
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runner_config_validator.validate(runner_config) |
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def _build_opt_list(self, opts): |
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opts_dot_list = self._convert_to_dot_list(opts) |
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return OmegaConf.from_dotlist(opts_dot_list) |
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@staticmethod |
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def build_model_config(config, **kwargs): |
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model = config.get("model", None) |
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assert model is not None, "Missing model configuration file." |
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model_cls = registry.get_model_class(model.arch) |
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assert model_cls is not None, f"Model '{model.arch}' has not been registered." |
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model_type = kwargs.get("model.model_type", None) |
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if not model_type: |
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model_type = model.get("model_type", None) |
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assert model_type is not None, "Missing model_type." |
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print("--------------") |
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print("model arch",model.arch) |
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print("model cls",model_cls) |
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model_config_path = model_cls.PRETRAINED_MODEL_CONFIG_DICT[model_type] |
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model_config = OmegaConf.create() |
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model_config = OmegaConf.merge( |
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model_config, |
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OmegaConf.load(model_config_path), |
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{"model": config["model"]}, |
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) |
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return model_config |
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@staticmethod |
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def build_runner_config(config): |
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return {"run": config.run} |
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@staticmethod |
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def build_dataset_config(config): |
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datasets = config.get("datasets", None) |
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if datasets is None: |
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raise KeyError( |
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"Expecting 'datasets' as the root key for dataset configuration." |
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) |
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dataset_config = OmegaConf.create() |
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for dataset_name in datasets: |
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print("dataset name", dataset_name) |
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builder_cls = registry.get_builder_class(dataset_name) |
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dataset_config_type = datasets[dataset_name].get("type", "default") |
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dataset_config_path = builder_cls.default_config_path( |
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type=dataset_config_type |
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) |
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dataset_config = OmegaConf.merge( |
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dataset_config, |
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OmegaConf.load(dataset_config_path), |
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{"datasets": {dataset_name: config["datasets"][dataset_name]}}, |
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) |
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return dataset_config |
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def _convert_to_dot_list(self, opts): |
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if opts is None: |
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opts = [] |
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if len(opts) == 0: |
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return opts |
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has_equal = opts[0].find("=") != -1 |
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if has_equal: |
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return opts |
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return [(opt + "=" + value) for opt, value in zip(opts[0::2], opts[1::2])] |
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def get_config(self): |
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return self.config |
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@property |
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def run_cfg(self): |
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return self.config.run |
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@property |
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def datasets_cfg(self): |
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return self.config.datasets |
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@property |
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def model_cfg(self): |
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return self.config.model |
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def pretty_print(self): |
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logging.info("\n===== Running Parameters =====") |
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logging.info(self._convert_node_to_json(self.config.run)) |
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logging.info("\n====== Dataset Attributes ======") |
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datasets = self.config.datasets |
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for dataset in datasets: |
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if dataset in self.config.datasets: |
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logging.info(f"\n======== {dataset} =======") |
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dataset_config = self.config.datasets[dataset] |
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logging.info(self._convert_node_to_json(dataset_config)) |
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else: |
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logging.warning(f"No dataset named '{dataset}' in config. Skipping") |
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logging.info(f"\n====== Model Attributes ======") |
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logging.info(self._convert_node_to_json(self.config.model)) |
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def _convert_node_to_json(self, node): |
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container = OmegaConf.to_container(node, resolve=True) |
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return json.dumps(container, indent=4, sort_keys=True) |
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def to_dict(self): |
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return OmegaConf.to_container(self.config) |
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def node_to_dict(node): |
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return OmegaConf.to_container(node) |
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class ConfigValidator: |
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""" |
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This is a preliminary implementation to centralize and validate the configuration. |
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May be altered in the future. |
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A helper class to validate configurations from yaml file. |
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This serves the following purposes: |
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1. Ensure all the options in the yaml are defined, raise error if not. |
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2. when type mismatches are found, the validator will raise an error. |
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3. a central place to store and display helpful messages for supported configurations. |
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""" |
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class _Argument: |
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def __init__(self, name, choices=None, type=None, help=None): |
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self.name = name |
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self.val = None |
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self.choices = choices |
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self.type = type |
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self.help = help |
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def __str__(self): |
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s = f"{self.name}={self.val}" |
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if self.type is not None: |
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s += f", ({self.type})" |
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if self.choices is not None: |
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s += f", choices: {self.choices}" |
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if self.help is not None: |
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s += f", ({self.help})" |
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return s |
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def __init__(self, description): |
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self.description = description |
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self.arguments = dict() |
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self.parsed_args = None |
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def __getitem__(self, key): |
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assert self.parsed_args is not None, "No arguments parsed yet." |
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return self.parsed_args[key] |
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def __str__(self) -> str: |
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return self.format_help() |
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def add_argument(self, *args, **kwargs): |
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""" |
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Assume the first argument is the name of the argument. |
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""" |
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self.arguments[args[0]] = self._Argument(*args, **kwargs) |
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def validate(self, config=None): |
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""" |
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Convert yaml config (dict-like) to list, required by argparse. |
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""" |
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for k, v in config.items(): |
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assert ( |
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k in self.arguments |
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), f"""{k} is not a valid argument. Support arguments are {self.format_arguments()}.""" |
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if self.arguments[k].type is not None: |
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try: |
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self.arguments[k].val = self.arguments[k].type(v) |
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except ValueError: |
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raise ValueError(f"{k} is not a valid {self.arguments[k].type}.") |
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if self.arguments[k].choices is not None: |
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assert ( |
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v in self.arguments[k].choices |
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), f"""{k} must be one of {self.arguments[k].choices}.""" |
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return config |
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def format_arguments(self): |
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return str([f"{k}" for k in sorted(self.arguments.keys())]) |
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def format_help(self): |
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help_msg = str(self.description) |
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return help_msg + ", available arguments: " + self.format_arguments() |
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def print_help(self): |
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print(self.format_help()) |
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def create_runner_config_validator(): |
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validator = ConfigValidator(description="Runner configurations") |
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validator.add_argument( |
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"runner", |
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type=str, |
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choices=["runner_base", "runner_iter"], |
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help="""Runner to use. The "runner_base" uses epoch-based training while iter-based |
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runner runs based on iters. Default: runner_base""", |
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) |
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validator.add_argument( |
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"train_dataset_ratios", |
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type=Dict[str, float], |
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help="""Ratios of training dataset. This is used in iteration-based runner. |
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Do not support for epoch-based runner because how to define an epoch becomes tricky. |
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Default: None""", |
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) |
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validator.add_argument( |
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"max_iters", |
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type=float, |
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help="Maximum number of iterations to run.", |
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) |
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validator.add_argument( |
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"max_epoch", |
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type=int, |
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help="Maximum number of epochs to run.", |
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) |
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validator.add_argument( |
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"iters_per_inner_epoch", |
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type=float, |
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help="Number of iterations per inner epoch. This is required when runner is runner_iter.", |
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) |
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lr_scheds_choices = registry.list_lr_schedulers() |
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validator.add_argument( |
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"lr_sched", |
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type=str, |
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choices=lr_scheds_choices, |
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help="Learning rate scheduler to use, from {}".format(lr_scheds_choices), |
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) |
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task_choices = registry.list_tasks() |
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validator.add_argument( |
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"task", |
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type=str, |
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choices=task_choices, |
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help="Task to use, from {}".format(task_choices), |
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) |
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validator.add_argument( |
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"init_lr", |
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type=float, |
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help="Initial learning rate. This will be the learning rate after warmup and before decay.", |
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) |
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validator.add_argument( |
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"min_lr", |
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type=float, |
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help="Minimum learning rate (after decay).", |
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) |
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validator.add_argument( |
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"warmup_lr", |
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type=float, |
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help="Starting learning rate for warmup.", |
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) |
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validator.add_argument( |
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"lr_decay_rate", |
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type=float, |
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help="Learning rate decay rate. Required if using a decaying learning rate scheduler.", |
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) |
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validator.add_argument( |
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"weight_decay", |
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type=float, |
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help="Weight decay rate.", |
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) |
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validator.add_argument( |
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"batch_size_train", |
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type=int, |
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help="Training batch size.", |
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) |
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validator.add_argument( |
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"batch_size_eval", |
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type=int, |
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help="Evaluation batch size, including validation and testing.", |
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) |
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validator.add_argument( |
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"num_workers", |
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help="Number of workers for data loading.", |
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) |
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validator.add_argument( |
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"warmup_steps", |
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type=int, |
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help="Number of warmup steps. Required if a warmup schedule is used.", |
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) |
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validator.add_argument( |
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"seed", |
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type=int, |
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help="Random seed.", |
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) |
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validator.add_argument( |
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"output_dir", |
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type=str, |
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help="Output directory to save checkpoints and logs.", |
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) |
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validator.add_argument( |
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"evaluate", |
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help="Whether to only evaluate the model. If true, training will not be performed.", |
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) |
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validator.add_argument( |
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"train_splits", |
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type=list, |
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help="Splits to use for training.", |
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) |
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validator.add_argument( |
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"valid_splits", |
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type=list, |
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help="Splits to use for validation. If not provided, will skip the validation.", |
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) |
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validator.add_argument( |
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"test_splits", |
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type=list, |
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help="Splits to use for testing. If not provided, will skip the testing.", |
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) |
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validator.add_argument( |
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"accum_grad_iters", |
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type=int, |
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help="Number of iterations to accumulate gradient for.", |
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) |
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validator.add_argument( |
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"device", |
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type=str, |
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choices=["cpu", "cuda"], |
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help="Device to use. Support 'cuda' or 'cpu' as for now.", |
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) |
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validator.add_argument( |
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"world_size", |
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type=int, |
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help="Number of processes participating in the job.", |
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) |
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validator.add_argument("dist_url", type=str) |
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validator.add_argument("distributed", type=bool) |
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validator.add_argument( |
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"use_dist_eval_sampler", |
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type=bool, |
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help="Whether to use distributed sampler during evaluation or not.", |
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) |
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validator.add_argument( |
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"max_len", |
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type=int, |
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help="Maximal length of text output.", |
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) |
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validator.add_argument( |
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"min_len", |
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type=int, |
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help="Minimal length of text output.", |
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) |
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validator.add_argument( |
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"num_beams", |
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type=int, |
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help="Number of beams used for beam search.", |
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) |
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validator.add_argument( |
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"num_ans_candidates", |
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type=int, |
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help="""For ALBEF and BLIP, these models first rank answers according to likelihood to select answer candidates.""", |
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) |
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validator.add_argument( |
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"inference_method", |
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type=str, |
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choices=["genearte", "rank"], |
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help="""Inference method to use for question answering. If rank, requires a answer list.""", |
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) |
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validator.add_argument( |
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"k_test", |
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type=int, |
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help="Number of top k most similar samples from ITC/VTC selection to be tested.", |
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) |
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return validator |
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