""" Copyright (c) 2022, salesforce.com, inc. All rights reserved. SPDX-License-Identifier: BSD-3-Clause For full license text, see the LICENSE_Lavis file in the repo root or https://opensource.org/licenses/BSD-3-Clause """ class Registry: mapping = { "builder_name_mapping": {}, "task_name_mapping": {}, "processor_name_mapping": {}, "model_name_mapping": {}, "lr_scheduler_name_mapping": {}, "runner_name_mapping": {}, "state": {}, "paths": {}, } @classmethod def register_builder(cls, name): r"""Register a dataset builder to registry with key 'name' Args: name: Key with which the builder will be registered. Usage: from minigpt4.common.registry import registry from minigpt4.datasets.base_dataset_builder import BaseDatasetBuilder """ def wrap(builder_cls): from minigpt4.datasets.builders.base_dataset_builder import BaseDatasetBuilder assert issubclass( builder_cls, BaseDatasetBuilder ), "All builders must inherit BaseDatasetBuilder class, found {}".format( builder_cls ) if name in cls.mapping["builder_name_mapping"]: raise KeyError( "Name '{}' already registered for {}.".format( name, cls.mapping["builder_name_mapping"][name] ) ) cls.mapping["builder_name_mapping"][name] = builder_cls return builder_cls return wrap @classmethod def register_task(cls, name): r"""Register a task to registry with key 'name' Args: name: Key with which the task will be registered. Usage: from minigpt4.common.registry import registry """ def wrap(task_cls): from minigpt4.tasks.base_task import BaseTask assert issubclass( task_cls, BaseTask ), "All tasks must inherit BaseTask class" if name in cls.mapping["task_name_mapping"]: raise KeyError( "Name '{}' already registered for {}.".format( name, cls.mapping["task_name_mapping"][name] ) ) cls.mapping["task_name_mapping"][name] = task_cls return task_cls return wrap @classmethod def register_model(cls, name): r"""Register a task to registry with key 'name' Args: name: Key with which the task will be registered. Usage: from minigpt4.common.registry import registry """ def wrap(model_cls): # from minigpt4.models import BaseModel # assert issubclass( # model_cls, BaseModel # ), "All models must inherit BaseModel class" # if name in cls.mapping["model_name_mapping"]: # raise KeyError( # "Name '{}' already registered for {}.".format( # name, cls.mapping["model_name_mapping"][name] # ) # ) cls.mapping["model_name_mapping"][name] = model_cls return model_cls return wrap @classmethod def register_processor(cls, name): r"""Register a processor to registry with key 'name' Args: name: Key with which the task will be registered. Usage: from minigpt4.common.registry import registry """ def wrap(processor_cls): from .base_processor import BaseProcessor # assert issubclass( # processor_cls, BaseProcessor # ), "All processors must inherit BaseProcessor class" # if name in cls.mapping["processor_name_mapping"]: # raise KeyError( # "Name '{}' already registered for {}.".format( # name, cls.mapping["processor_name_mapping"][name] # ) # ) cls.mapping["processor_name_mapping"][name] = processor_cls return processor_cls return wrap @classmethod def register_lr_scheduler(cls, name): r"""Register a model to registry with key 'name' Args: name: Key with which the task will be registered. Usage: from minigpt4.common.registry import registry """ def wrap(lr_sched_cls): if name in cls.mapping["lr_scheduler_name_mapping"]: raise KeyError( "Name '{}' already registered for {}.".format( name, cls.mapping["lr_scheduler_name_mapping"][name] ) ) cls.mapping["lr_scheduler_name_mapping"][name] = lr_sched_cls return lr_sched_cls return wrap @classmethod def register_runner(cls, name): r"""Register a model to registry with key 'name' Args: name: Key with which the task will be registered. Usage: from minigpt4.common.registry import registry """ def wrap(runner_cls): if name in cls.mapping["runner_name_mapping"]: raise KeyError( "Name '{}' already registered for {}.".format( name, cls.mapping["runner_name_mapping"][name] ) ) cls.mapping["runner_name_mapping"][name] = runner_cls return runner_cls return wrap @classmethod def register_path(cls, name, path): r"""Register a path to registry with key 'name' Args: name: Key with which the path will be registered. Usage: from minigpt4.common.registry import registry """ assert isinstance(path, str), "All path must be str." if name in cls.mapping["paths"]: raise KeyError("Name '{}' already registered.".format(name)) cls.mapping["paths"][name] = path @classmethod def register(cls, name, obj): r"""Register an item to registry with key 'name' Args: name: Key with which the item will be registered. Usage:: from minigpt4.common.registry import registry registry.register("config", {}) """ path = name.split(".") current = cls.mapping["state"] for part in path[:-1]: if part not in current: current[part] = {} current = current[part] current[path[-1]] = obj # @classmethod # def get_trainer_class(cls, name): # return cls.mapping["trainer_name_mapping"].get(name, None) @classmethod def get_builder_class(cls, name): return cls.mapping["builder_name_mapping"].get(name, None) @classmethod def get_model_class(cls, name): return cls.mapping["model_name_mapping"].get(name, None) @classmethod def get_task_class(cls, name): return cls.mapping["task_name_mapping"].get(name, None) @classmethod def get_processor_class(cls, name): return cls.mapping["processor_name_mapping"].get(name, None) @classmethod def get_lr_scheduler_class(cls, name): return cls.mapping["lr_scheduler_name_mapping"].get(name, None) @classmethod def get_runner_class(cls, name): return cls.mapping["runner_name_mapping"].get(name, None) @classmethod def list_runners(cls): return sorted(cls.mapping["runner_name_mapping"].keys()) @classmethod def list_models(cls): return sorted(cls.mapping["model_name_mapping"].keys()) @classmethod def list_tasks(cls): return sorted(cls.mapping["task_name_mapping"].keys()) @classmethod def list_processors(cls): return sorted(cls.mapping["processor_name_mapping"].keys()) @classmethod def list_lr_schedulers(cls): return sorted(cls.mapping["lr_scheduler_name_mapping"].keys()) @classmethod def list_datasets(cls): return sorted(cls.mapping["builder_name_mapping"].keys()) @classmethod def get_path(cls, name): return cls.mapping["paths"].get(name, None) @classmethod def get(cls, name, default=None, no_warning=False): r"""Get an item from registry with key 'name' Args: name (string): Key whose value needs to be retrieved. default: If passed and key is not in registry, default value will be returned with a warning. Default: None no_warning (bool): If passed as True, warning when key doesn't exist will not be generated. Useful for MMF's internal operations. Default: False """ original_name = name name = name.split(".") value = cls.mapping["state"] for subname in name: value = value.get(subname, default) if value is default: break if ( "writer" in cls.mapping["state"] and value == default and no_warning is False ): cls.mapping["state"]["writer"].warning( "Key {} is not present in registry, returning default value " "of {}".format(original_name, default) ) return value @classmethod def unregister(cls, name): r"""Remove an item from registry with key 'name' Args: name: Key which needs to be removed. Usage:: from mmf.common.registry import registry config = registry.unregister("config") """ return cls.mapping["state"].pop(name, None) registry = Registry()