import contextlib import copy import hashlib import inspect import io import os import pickle import sys import tokenize import unittest import warnings from dataclasses import dataclass from types import FunctionType, ModuleType from typing import Any, Callable, Dict, List, NoReturn, Optional, Set, Union from typing_extensions import deprecated from unittest import mock from torch._utils_internal import justknobs_check @dataclass class Config: """Represents a config with richer behaviour than just a default value. :: i.e. foo = Config(justknob="//foo:bar", default=False) install_config_module(...) This configs must be installed with install_config_module to be used Precedence Order: env_name_force: If set, this environment variable overrides everything user_override: If a user sets a value (i.e. foo.bar=True), that has precedence over everything after this. env_name_default: If set, this environment variable will override everything after this. justknob: If this pytorch installation supports justknobs, that will override defaults, but will not override the user_override precendence. default: This value is the lowest precendance, and will be used if nothing is set. Environment Variables: These are interpreted to be either "0" or "1" to represent true and false. Arguments: justknob: the name of the feature / JK. In OSS this is unused. default: is the value to default this knob to in OSS. env_name_force: The environment variable to read that is a FORCE environment variable. I.e. it overrides everything env_name_default: The environment variable to read that changes the default behaviour. I.e. user overrides take preference. """ default: Any = True justknob: Optional[str] = None env_name_default: Optional[str] = None env_name_force: Optional[str] = None value_type: Optional[type] = None def __init__( self, default: Any = True, justknob: Optional[str] = None, env_name_default: Optional[str] = None, env_name_force: Optional[str] = None, value_type: Optional[type] = None, ): # python 3.9 does not support kw_only on the dataclass :(. self.default = default self.justknob = justknob self.env_name_default = env_name_default self.env_name_force = env_name_force self.value_type = value_type # Types saved/loaded in configs CONFIG_TYPES = (int, float, bool, type(None), str, list, set, tuple, dict) def _read_env_variable(name: str) -> Optional[bool]: value = os.environ.get(name) if value == "1": return True if value == "0": return False return None def install_config_module(module: ModuleType) -> None: """ Converts a module-level config into a `ConfigModule()`. See _config_typing.pyi for instructions on how to get the converted module to typecheck. """ class ConfigModuleInstance(ConfigModule): # __annotations__ is written to by Sphinx autodoc _bypass_keys = set({"_is_dirty", "_hash_digest", "__annotations__"}) def visit( source: Union[ModuleType, type], dest: Union[ModuleType, SubConfigProxy], prefix: str, ) -> None: """Walk the module structure and move everything to module._config""" if sys.version_info[:2] < (3, 10): type_hints = getattr(source, "__annotations__", {}) else: type_hints = inspect.get_annotations(source) for key, value in list(source.__dict__.items()): if ( key.startswith("__") or isinstance(value, (ModuleType, FunctionType)) or (hasattr(value, "__module__") and value.__module__ == "typing") # Handle from torch.utils._config_module import Config or (isinstance(value, type) and issubclass(value, Config)) ): continue name = f"{prefix}{key}" if isinstance(value, CONFIG_TYPES): annotated_type = type_hints.get(key, None) config[name] = _ConfigEntry( Config(default=value, value_type=annotated_type) ) if dest is module: delattr(module, key) elif isinstance(value, Config): config[name] = _ConfigEntry(value) if dest is module: delattr(module, key) elif isinstance(value, type): assert value.__module__ == module.__name__ # a subconfig with `class Blah:` syntax proxy = SubConfigProxy(module, f"{name}.") visit(value, proxy, f"{name}.") if dest is module: setattr(dest, key, proxy) else: dest.__dict__[key] = proxy else: raise AssertionError(f"Unhandled config {key}={value} ({type(value)})") config: Dict[str, _ConfigEntry] = {} compile_ignored_keys = get_assignments_with_compile_ignored_comments(module) visit(module, module, "") module._config = config # type: ignore[attr-defined] module._compile_ignored_keys = compile_ignored_keys # type: ignore[attr-defined] module.__class__ = ConfigModuleInstance module._is_dirty = True # type: ignore[attr-defined] module._hash_digest = None # type: ignore[attr-defined] COMPILE_IGNORED_MARKER = "@compile_ignored" # Gets all the keys (i.e. assignments) with a @compile_ignored comment def get_assignments_with_compile_ignored_comments(module: ModuleType) -> Set[str]: source_code = inspect.getsource(module) assignments = set() # Tokenize the source code to retrieve comments tokens = tokenize.tokenize(io.BytesIO(source_code.encode("utf-8")).readline) current_comment = "", -1 prev_name = "" for token in tokens: if token.type == tokenize.COMMENT: prev_name = "" maybe_current = token.string.strip() if COMPILE_IGNORED_MARKER in maybe_current: assert current_comment == ( "", -1, ), f"unconsumed {COMPILE_IGNORED_MARKER}" current_comment = maybe_current, token.start[0] elif token.type == tokenize.NAME: # Only accept the first name token, to handle if you have # something like foo: Bar = ... if not prev_name: prev_name = token.string elif token.type == tokenize.OP and token.string == "=": # Check if the current assignment follows a comment # with COMPILE_IGNORED_MARKER if ( COMPILE_IGNORED_MARKER in current_comment[0] and current_comment[1] == token.start[0] - 1 ): assignments.add(prev_name) current_comment = "", -1 # reset prev_name = "" assert current_comment == ("", -1), f"unconsumed {COMPILE_IGNORED_MARKER}" return assignments _UNSET_SENTINEL = object() @dataclass class _ConfigEntry: # The default value specified in the configuration default: Any # The type of the configuration value value_type: type # The value specified by the user when they overrode the configuration # _UNSET_SENTINEL indicates the value is not set. user_override: Any = _UNSET_SENTINEL # The justknob to check for this config justknob: Optional[str] = None # environment variables are read at install time env_value_force: Any = _UNSET_SENTINEL env_value_default: Any = _UNSET_SENTINEL def __init__(self, config: Config): self.default = config.default self.value_type = ( config.value_type if config.value_type is not None else type(self.default) ) self.justknob = config.justknob if config.env_name_default is not None: if (env_value := _read_env_variable(config.env_name_default)) is not None: self.env_value_default = env_value if config.env_name_force is not None: if (env_value := _read_env_variable(config.env_name_force)) is not None: self.env_value_force = env_value class ConfigModule(ModuleType): # NOTE: This should be kept in sync with _config_typing.pyi. # The actual configuration settings. E.g., torch._dynamo.config.debug # would live as "debug" in the key, and torch._inductor.config.triton.cudagraphs # maps as "triton.cudagraphs". See discussion on the class for meaning of various sub items _config: Dict[str, _ConfigEntry] _bypass_keys: Set[str] _compile_ignored_keys: Set[str] _is_dirty: bool _hash_digest: Optional[bytes] def __init__(self) -> None: raise NotImplementedError( f"use {__name__}.install_config_module(sys.modules[__name__])" ) def __setattr__(self, name: str, value: object) -> None: if name in self._bypass_keys: super().__setattr__(name, value) elif name not in self._config: raise AttributeError(f"{self.__name__}.{name} does not exist") else: self._config[name].user_override = value self._is_dirty = True def __getattr__(self, name: str) -> Any: try: config = self._config[name] if config.env_value_force is not _UNSET_SENTINEL: return config.env_value_force if config.user_override is not _UNSET_SENTINEL: return config.user_override if config.env_value_default is not _UNSET_SENTINEL: return config.env_value_default if config.justknob is not None: # JK only supports bools and ints return justknobs_check(name=config.justknob, default=config.default) # Note that reference types can still be modified, so we # copy them to user_overrides in case the user overrides # them if isinstance(config.default, (list, set, dict)): config.user_override = copy.deepcopy(config.default) return config.user_override return config.default except KeyError as e: # make hasattr() work properly raise AttributeError(f"{self.__name__}.{name} does not exist") from e def __delattr__(self, name: str) -> None: self._is_dirty = True # must support delete because unittest.mock.patch deletes # then recreate things self._config[name].user_override = _UNSET_SENTINEL def _is_default(self, name: str) -> bool: return self._config[name].user_override is _UNSET_SENTINEL def _get_dict( self, ignored_keys: Optional[List[str]] = None, ignored_prefixes: Optional[List[str]] = None, skip_default: bool = False, ) -> Dict[str, Any]: """Export a dictionary of current configuration keys and values. This function is design to provide a single point which handles accessing config options and exporting them into a dictionary. This is used by a number of different user facing export methods which all have slightly different semantics re: how and what to skip. Arguments: ignored_keys are keys that should not be exported. ignored_prefixes are prefixes that if a key matches should not be exported skip_default does two things. One if a key has not been modified it skips it. The other is it modified the logging behaviour to match what codegen already did for modified skipped keys """ config: Dict[str, Any] = {} for key in self._config: if ignored_keys and key in ignored_keys: if skip_default and not self._is_default(key): warnings.warn( f"Skipping serialization of {key} value {getattr(self, key)}" ) continue if ignored_prefixes: if any(key.startswith(prefix) for prefix in ignored_prefixes): continue if skip_default and self._is_default(key): continue config[key] = copy.deepcopy(getattr(self, key)) return config def get_type(self, config_name: str) -> type: return self._config[config_name].value_type def save_config(self) -> bytes: """Convert config to a pickled blob""" ignored_keys = getattr(self, "_save_config_ignore", []) return pickle.dumps( self._get_dict(ignored_keys=ignored_keys), protocol=2, ) def save_config_portable(self) -> Dict[str, Any]: """Convert config to portable format""" prefixes = ["_"] prefixes.extend(getattr(self, "_cache_config_ignore_prefix", [])) return self._get_dict(ignored_prefixes=prefixes) def codegen_config(self) -> str: """Convert config to Python statements that replicate current config. This does NOT include config settings that are at default values. """ lines = [] mod = self.__name__ for k, v in self._get_dict( ignored_keys=getattr(self, "_save_config_ignore", []), skip_default=True ).items(): lines.append(f"{mod}.{k} = {v!r}") return "\n".join(lines) def get_hash(self) -> bytes: """Hashes the configs that are not compile_ignored""" if self._is_dirty or self._hash_digest is None: dict_to_hash = self._get_dict(ignored_keys=list(self._compile_ignored_keys)) string_to_hash = repr(sorted(dict_to_hash.items())) self._hash_digest = hashlib.md5(string_to_hash.encode("utf-8")).digest() self._is_dirty = False return self._hash_digest @deprecated( "`config.to_dict()` has been deprecated. It no longer changes the underlying config." " use `config.get_config_copy()` instead if you just want a copy of the config, or " "config.load_config if you need mutable access", category=FutureWarning, ) def to_dict(self) -> Dict[str, Any]: return self.get_config_copy() @deprecated( "`config.shallow_copy_dict()` has been deprecated. It no longer changes the underlying config." " use `config.get_config_copy()` instead if you just want a copy of the config, or " "config.load_config if you need mutable access", category=FutureWarning, ) def shallow_copy_dict(self) -> Dict[str, Any]: return self.get_config_copy() def load_config(self, maybe_pickled_config: Union[bytes, Dict[str, Any]]) -> None: """Restore from a prior call to save_config() or shallow_copy_dict()""" if not isinstance(maybe_pickled_config, dict): config = pickle.loads(maybe_pickled_config) else: config = maybe_pickled_config for k, v in config.items(): if k in self._config: setattr(self, k, v) else: warnings.warn( f"key {k} with value {v} is not understood by this config" ) def get_config_copy(self) -> Dict[str, Any]: return self._get_dict() def patch( self, arg1: Optional[Union[str, Dict[str, Any]]] = None, arg2: Any = None, **kwargs: Dict[str, Any], ) -> "ContextDecorator": """ Decorator and/or context manager to make temporary changes to a config. As a decorator: @config.patch("name", val) @config.patch(name1=val1, name2=val2) @config.patch({"name1": val1, "name2", val2}) def foo(...): ... As a context manager: with config.patch("name", val): ... """ changes: Dict[str, Any] if arg1 is not None: if arg2 is not None: assert isinstance(arg1, str) # patch("key", True) syntax changes = {arg1: arg2} else: assert isinstance(arg1, dict) # patch({"key": True}) syntax changes = arg1 assert not kwargs else: # patch(key=True) syntax changes = kwargs assert arg2 is None assert isinstance(changes, dict), f"expected `dict` got {type(changes)}" prior: Dict[str, Any] = {} config = self class ConfigPatch(ContextDecorator): def __enter__(self) -> None: assert not prior for key in changes.keys(): # KeyError on invalid entry prior[key] = config.__getattr__(key) for k, v in changes.items(): config.__setattr__(k, v) def __exit__(self, exc_type, exc_val, exc_tb): # type: ignore[no-untyped-def] for k, v in prior.items(): config.__setattr__(k, v) prior.clear() return ConfigPatch() def _make_closure_patcher(self, **changes: Dict[str, Any]) -> Any: """ A lower-overhead version of patch() for things on the critical path. Usage: # do this off the critical path change_fn = config.make_closure_patcher(foo=True) ... revert = change_fn() try: ... finally: revert() """ config = self._config def change() -> Callable[[], None]: prior = {k: config[k].user_override for k in changes} for k, v in changes.items(): self._config[k].user_override = v def revert() -> None: for k, v in prior.items(): self._config[k].user_override = v return revert return change class ContextDecorator(contextlib.ContextDecorator): """ Same as contextlib.ContextDecorator, but with support for `unittest.TestCase` """ def __enter__(self) -> None: raise NotImplementedError("NYI") def __exit__(self, exc_type, exc_val, exc_tb) -> NoReturn: # type: ignore[no-untyped-def] raise NotImplementedError("NYI") def __call__(self, func: Callable[[Any], Any]) -> Any: if isinstance(func, type) and issubclass(func, unittest.TestCase): class _TestCase(func): # type: ignore[valid-type, misc] @classmethod def setUpClass(cls) -> None: self.__enter__() try: super().setUpClass() except Exception: self.__exit__(None, None, None) raise @classmethod def tearDownClass(cls) -> None: try: super().tearDownClass() finally: self.__exit__(None, None, None) _TestCase.__name__ = func.__name__ _TestCase.__qualname__ = func.__qualname__ _TestCase.__module__ = func.__module__ return _TestCase return super().__call__(func) class SubConfigProxy: """ Shim to redirect to main config. `config.triton.cudagraphs` maps to _config["triton.cudagraphs"] """ def __init__(self, config: object, prefix: str): # `super().__setattr__` to bypass custom `__setattr__` super().__setattr__("_config", config) super().__setattr__("_prefix", prefix) def __setattr__(self, name: str, value: object) -> None: return self._config.__setattr__(self._prefix + name, value) def __getattr__(self, name: str) -> Any: return self._config.__getattr__(self._prefix + name) def __delattr__(self, name: str) -> None: return self._config.__delattr__(self._prefix + name) def patch_object(obj: object, name: str, value: object) -> object: """ Workaround `mock.patch.object` issue with ConfigModule """ if isinstance(obj, ConfigModule): return obj.patch(name, value) return mock.patch.object(obj, name, value) def get_tristate_env(name: str, default: Any = None) -> Optional[bool]: value = os.environ.get(name) if value == "1": return True if value == "0": return False return default