# Copyright (c) 2025, NVIDIA CORPORATION. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # This file is taken from https://github.com/NVIDIA-NeMo/Curator/blob/dask/nemo_curator/utils/import_utils.py, # which is adapted from cuML's safe_imports module: # https://github.com/rapidsai/cuml/blob/e93166ea0dddfa8ef2f68c6335012af4420bc8ac/python/cuml/internals/safe_imports.py import importlib import logging import traceback from contextlib import contextmanager logger = logging.getLogger(__name__) logger.setLevel(logging.INFO) logger.addHandler(logging.StreamHandler()) GPU_INSTALL_STRING = ( """Install GPU packages via `pip install --extra-index-url """ """https://pypi.nvidia.com nemo-curator[cuda12x]` or use `pip install --extra-index-url https://pypi.nvidia.com ".[cuda12x]"` if installing from source""" ) class UnavailableError(Exception): """Error thrown if a symbol is unavailable due to an issue importing it""" @contextmanager def null_decorator(*args, **kwargs): """null_decorator""" if len(kwargs) == 0 and len(args) == 1 and callable(args[0]): return args[0] else: def inner(func): return func return inner class UnavailableMeta(type): """A metaclass for generating placeholder objects for unavailable symbols This metaclass allows errors to be deferred from import time to the time that a symbol is actually used in order to streamline the usage of optional dependencies. This is particularly useful for attempted imports of GPU-only modules which will only be invoked if GPU-only functionality is specifically used. If an attempt to import a symbol fails, this metaclass is used to generate a class which stands in for that symbol. Any attempt to call the symbol (instantiate the class) or access its attributes will throw an UnavailableError exception. Furthermore, this class can be used in e.g. isinstance checks, since it will (correctly) fail to match any instance it is compared against. In addition to calls and attribute access, a number of dunder methods are implemented so that other common usages of imported symbols (e.g. arithmetic) throw an UnavailableError, but this is not guaranteed for all possible uses. In such cases, other exception types (typically TypeErrors) will be thrown instead. """ def __new__(meta, name, bases, dct): if dct.get("_msg", None) is None: dct["_msg"] = f"{name} could not be imported" name = f"MISSING{name}" return super(UnavailableMeta, meta).__new__(meta, name, bases, dct) def __call__(cls, *args, **kwargs): raise UnavailableError(cls._msg) def __getattr__(cls, name): raise UnavailableError(cls._msg) def __eq__(cls, other): raise UnavailableError(cls._msg) def __lt__(cls, other): raise UnavailableError(cls._msg) def __gt__(cls, other): raise UnavailableError(cls._msg) def __le__(cls, other): raise UnavailableError(cls._msg) def __ge__(cls, other): raise UnavailableError(cls._msg) def __ne__(cls, other): raise UnavailableError(cls._msg) def __abs__(cls): raise UnavailableError(cls._msg) def __add__(cls, other): raise UnavailableError(cls._msg) def __radd__(cls, other): raise UnavailableError(cls._msg) def __iadd__(cls, other): raise UnavailableError(cls._msg) def __floordiv__(cls, other): raise UnavailableError(cls._msg) def __rfloordiv__(cls, other): raise UnavailableError(cls._msg) def __ifloordiv__(cls, other): raise UnavailableError(cls._msg) def __lshift__(cls, other): raise UnavailableError(cls._msg) def __rlshift__(cls, other): raise UnavailableError(cls._msg) def __mul__(cls, other): raise UnavailableError(cls._msg) def __rmul__(cls, other): raise UnavailableError(cls._msg) def __imul__(cls, other): raise UnavailableError(cls._msg) def __ilshift__(cls, other): raise UnavailableError(cls._msg) def __pow__(cls, other): raise UnavailableError(cls._msg) def __rpow__(cls, other): raise UnavailableError(cls._msg) def __ipow__(cls, other): raise UnavailableError(cls._msg) def __rshift__(cls, other): raise UnavailableError(cls._msg) def __rrshift__(cls, other): raise UnavailableError(cls._msg) def __irshift__(cls, other): raise UnavailableError(cls._msg) def __sub__(cls, other): raise UnavailableError(cls._msg) def __rsub__(cls, other): raise UnavailableError(cls._msg) def __isub__(cls, other): raise UnavailableError(cls._msg) def __truediv__(cls, other): raise UnavailableError(cls._msg) def __rtruediv__(cls, other): raise UnavailableError(cls._msg) def __itruediv__(cls, other): raise UnavailableError(cls._msg) def __divmod__(cls, other): raise UnavailableError(cls._msg) def __rdivmod__(cls, other): raise UnavailableError(cls._msg) def __neg__(cls): raise UnavailableError(cls._msg) def __invert__(cls): raise UnavailableError(cls._msg) def __hash__(cls): raise UnavailableError(cls._msg) def __index__(cls): raise UnavailableError(cls._msg) def __iter__(cls): raise UnavailableError(cls._msg) def __delitem__(cls, name): raise UnavailableError(cls._msg) def __setitem__(cls, name, value): raise UnavailableError(cls._msg) def __enter__(cls, *args, **kwargs): raise UnavailableError(cls._msg) def __get__(cls, *args, **kwargs): raise UnavailableError(cls._msg) def __delete__(cls, *args, **kwargs): raise UnavailableError(cls._msg) def __len__(cls): raise UnavailableError(cls._msg) def is_unavailable(obj): """Helper to check if given symbol is actually a placeholder""" return type(obj) is UnavailableMeta class UnavailableNullContext: """A placeholder class for unavailable context managers This context manager will return a value which will throw an UnavailableError if used in any way, but the context manager itself can be safely invoked. """ def __init__(self, *args, **kwargs): pass def __enter__(self): return UnavailableMeta( "MissingContextValue", (), {"_msg": "Attempted to make use of placeholder context return value."}, ) def __exit__(self, *args, **kwargs): pass def safe_import(module, *, msg=None, alt=None): """A function used to import modules that may not be available This function will attempt to import a module with the given name, but it will not throw an ImportError if the module is not found. Instead, it will return a placeholder object which will raise an exception only if used. Parameters ---------- module: str The name of the module to import. msg: str or None An optional error message to be displayed if this module is used after a failed import. alt: object An optional module to be used in place of the given module if it fails to import Returns ------- Tuple(object, bool) The imported module, the given alternate, or a class derived from UnavailableMeta, and a boolean indicating whether the intended import was successful. """ try: return importlib.import_module(module), True except ImportError: exception_text = traceback.format_exc() logger.debug(f"Import of {module} failed with: {exception_text}") except Exception: exception_text = traceback.format_exc() raise if msg is None: msg = f"{module} could not be imported" if alt is None: return UnavailableMeta(module.rsplit(".")[-1], (), {"_msg": msg}), False else: return alt, False def safe_import_from(module, symbol, *, msg=None, alt=None, fallback_module=None): """A function used to import symbols from modules that may not be available This function will attempt to import a symbol with the given name from the given module, but it will not throw an ImportError if the symbol is not found. Instead, it will return a placeholder object which will raise an exception only if used. Parameters ---------- module: str The name of the module in which the symbol is defined. symbol: str The name of the symbol to import. msg: str or None An optional error message to be displayed if this symbol is used after a failed import. alt: object An optional object to be used in place of the given symbol if it fails to import fallback_module: str Alternative name of the model in which the symbol is defined. The function will first to import using the `module` value and if that fails will also try the `fallback_module`. Returns ------- Tuple(object, bool) The imported symbol, the given alternate, or a class derived from UnavailableMeta, and a boolean indicating whether the intended import was successful. """ try: imported_module = importlib.import_module(module) return getattr(imported_module, symbol), True except ImportError: exception_text = traceback.format_exc() logger.debug(f"Import of {module} failed with: {exception_text}") except AttributeError: # if there is a fallback module try it. if fallback_module is not None: return safe_import_from(fallback_module, symbol, msg=msg, alt=alt, fallback_module=None) exception_text = traceback.format_exc() logger.info(f"Import of {symbol} from {module} failed with: {exception_text}") except Exception: exception_text = traceback.format_exc() raise if msg is None: msg = f"{module}.{symbol} could not be imported" if alt is None: return UnavailableMeta(symbol, (), {"_msg": msg}), False else: return alt, False def gpu_only_import(module, *, alt=None): """A function used to import modules required only in GPU installs This function will attempt to import a module with the given name. This function will attempt to import a symbol with the given name from the given module, but it will not throw an ImportError if the symbol is not found. Instead, it will return a placeholder object which will raise an exception only if used with instructions on installing a GPU build. Parameters ---------- module: str The name of the module to import. alt: object An optional module to be used in place of the given module if it fails to import in a non-GPU-enabled install Returns ------- object The imported module, the given alternate, or a class derived from UnavailableMeta. """ return safe_import( module, msg=f"{module} is not enabled in non GPU-enabled installations or environemnts. {GPU_INSTALL_STRING}", alt=alt, ) def gpu_only_import_from(module, symbol, *, alt=None): """A function used to import symbols required only in GPU installs This function will attempt to import a module with the given name. This function will attempt to import a symbol with the given name from the given module, but it will not throw an ImportError if the symbol is not found. Instead, it will return a placeholder object which will raise an exception only if used with instructions on installing a GPU build. Parameters ---------- module: str The name of the module to import. symbol: str The name of the symbol to import. alt: object An optional object to be used in place of the given symbol if it fails to import in a non-GPU-enabled install Returns ------- object The imported symbol, the given alternate, or a class derived from UnavailableMeta. """ return safe_import_from( module, symbol, msg=f"{module}.{symbol} is not enabled in non GPU-enabled installations or environments. {GPU_INSTALL_STRING}", alt=alt, )