Source code for mlrun.package.packagers.python_standard_library_packagers

# Copyright 2023 Iguazio
#
# 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.
#
import os
import pathlib
import tempfile
from typing import Union

from mlrun.artifacts import Artifact
from mlrun.datastore import DataItem
from mlrun.errors import MLRunInvalidArgumentError

from ..utils import (
    DEFAULT_ARCHIVE_FORMAT,
    DEFAULT_STRUCT_FILE_FORMAT,
    ArchiveSupportedFormat,
    ArtifactType,
    StructFileSupportedFormat,
)
from .default_packager import DefaultPackager

# ----------------------------------------------------------------------------------------------------------------------
# builtins packagers:
# ----------------------------------------------------------------------------------------------------------------------


[docs]class NonePackager(DefaultPackager): """ ``None`` packager. """ # TODO: From python 3.10 the `PACKABLE_OBJECT_TYPE` should be changed to `types.NoneType` PACKABLE_OBJECT_TYPE = type(None) DEFAULT_PACKING_ARTIFACT_TYPE = ArtifactType.RESULT # TODO: `None` as pickle will be available from Python 3.10, so this method can be removed once we move to 3.10.
[docs] def get_supported_artifact_types(self) -> list[str]: """ Get all the supported artifact types on this packager. It will be the same as `DefaultPackager` but without the 'object' artifact type support (None cannot be pickled, only from Python 3.10, and it should not be pickled anyway as it is simply None - a result will do). :return: A list of all the supported artifact types. """ supported_artifacts = super().get_supported_artifact_types() supported_artifacts.remove("object") return supported_artifacts
[docs]class IntPackager(DefaultPackager): """ ``builtins.int`` packager. """ PACKABLE_OBJECT_TYPE = int DEFAULT_PACKING_ARTIFACT_TYPE = ArtifactType.RESULT
[docs]class FloatPackager(DefaultPackager): """ ``builtins.float`` packager. """ PACKABLE_OBJECT_TYPE = float DEFAULT_PACKING_ARTIFACT_TYPE = ArtifactType.RESULT
[docs]class BoolPackager(DefaultPackager): """ ``builtins.bool`` packager. """ PACKABLE_OBJECT_TYPE = bool DEFAULT_PACKING_ARTIFACT_TYPE = ArtifactType.RESULT
[docs]class StrPackager(DefaultPackager): """ ``builtins.str`` packager. """ PACKABLE_OBJECT_TYPE = str DEFAULT_PACKING_ARTIFACT_TYPE = ArtifactType.RESULT DEFAULT_UNPACKING_ARTIFACT_TYPE = ArtifactType.PATH
[docs] def pack_path( self, obj: str, key: str, archive_format: str = DEFAULT_ARCHIVE_FORMAT ) -> tuple[Artifact, dict]: """ Pack a path string value content (pack the file or directory in that path). :param obj: The string path value to pack. :param key: The key to use for the artifact. :param archive_format: The archive format to use in case the path is of a directory. Default is zip. :return: The packed artifact and instructions. """ # TODO: Add a configuration like `archive_file: bool = False` to enable archiving a single file to shrink it in # size. In that case the `is_directory` instruction will make it so when an archive is received, if its # a directory, when exporting it a directory path should be returned. And, if its a file, a path to the # single file exported should be returned. # Verify the path is of an existing file: if not os.path.exists(obj): raise MLRunInvalidArgumentError(f"The given path do not exist: '{obj}'") # Proceed by path type (file or directory): if os.path.isfile(obj): # Create the artifact: artifact = Artifact(key=key, src_path=os.path.abspath(obj)) instructions = {"is_directory": False} elif os.path.isdir(obj): # Archive the directory: output_path = tempfile.mkdtemp() archiver = ArchiveSupportedFormat.get_format_handler(fmt=archive_format) archive_path = archiver.create_archive( directory_path=obj, output_path=output_path ) # Create the artifact: artifact = Artifact(key=key, src_path=archive_path) instructions = {"archive_format": archive_format, "is_directory": True} else: raise MLRunInvalidArgumentError( f"The given path is not a file nor a directory: '{obj}'" ) return artifact, instructions
[docs] def unpack_path( self, data_item: DataItem, is_directory: bool = False, archive_format: str = None, ) -> str: """ Unpack a data item representing a path string. If the path is of a file, the file is downloaded to a local temporary directory and its path is returned. If the path is of a directory, the archive is extracted and the directory path extracted is returned. :param data_item: The data item to unpack. :param is_directory: Whether the path should be treated as a file or a directory. Files (even archives like zip) won't be extracted. :param archive_format: The archive format to use in case the path is of a directory. Default is None - will be read by the archive file extension. :return: The unpacked string. """ # Get the file: path = self.get_data_item_local_path(data_item=data_item) # If it's not a directory, return the file path. Otherwise, it should be extracted according to the archive # format: if not is_directory: return path # Get the archive format by the file extension: if archive_format is None: archive_format = ArchiveSupportedFormat.match_format(path=path) if archive_format is None: raise MLRunInvalidArgumentError( f"Archive format of {data_item.key} ('{''.join(pathlib.Path(path).suffixes)}') is not supported. " f"Supported formats are: {' '.join(ArchiveSupportedFormat.get_all_formats())}" ) # Extract the archive: archiver = ArchiveSupportedFormat.get_format_handler(fmt=archive_format) directory_path = archiver.extract_archive( archive_path=path, output_path=os.path.dirname(path) ) # Mark the extracted content for future clear: self.add_future_clearing_path(path=directory_path) # Return the extracted directory path: return directory_path
class _BuiltinCollectionPackager(DefaultPackager): """ A base packager for builtin python dictionaries and lists as they share common artifact and file types. """ DEFAULT_PACKING_ARTIFACT_TYPE = ArtifactType.RESULT DEFAULT_UNPACKING_ARTIFACT_TYPE = ArtifactType.FILE def pack_file( self, obj: Union[dict, list], key: str, file_format: str = DEFAULT_STRUCT_FILE_FORMAT, ) -> tuple[Artifact, dict]: """ Pack a builtin collection as a file by the given format. :param obj: The builtin collection to pack. :param key: The key to use for the artifact. :param file_format: The file format to save as. Default is json. :return: The packed artifact and instructions. """ # Write to file: formatter = StructFileSupportedFormat.get_format_handler(fmt=file_format) temp_directory = pathlib.Path(tempfile.mkdtemp()) self.add_future_clearing_path(path=temp_directory) file_path = temp_directory / f"{key}.{file_format}" formatter.write(obj=obj, file_path=str(file_path)) # Create the artifact and instructions: artifact = Artifact(key=key, src_path=os.path.abspath(file_path)) instructions = {"file_format": file_format} return artifact, instructions def unpack_file( self, data_item: DataItem, file_format: str = None ) -> Union[dict, list]: """ Unpack a builtin collection from file. :param data_item: The data item to unpack. :param file_format: The file format to use for reading the builtin collection. Default is None - will be read by the file extension. :return: The unpacked builtin collection. """ # Get the file: file_path = self.get_data_item_local_path(data_item=data_item) # Get the archive format by the file extension if needed: if file_format is None: file_format = StructFileSupportedFormat.match_format(path=file_path) if file_format is None: raise MLRunInvalidArgumentError( f"File format of {data_item.key} ('{''.join(pathlib.Path(file_path).suffixes)}') is not supported. " f"Supported formats are: {' '.join(StructFileSupportedFormat.get_all_formats())}" ) # Read the object: formatter = StructFileSupportedFormat.get_format_handler(fmt=file_format) obj = formatter.read(file_path=file_path) return obj
[docs]class DictPackager(_BuiltinCollectionPackager): """ ``builtins.dict`` packager. """ PACKABLE_OBJECT_TYPE = dict
[docs] def unpack_file(self, data_item: DataItem, file_format: str = None) -> dict: """ Unpack a dictionary from file. :param data_item: The data item to unpack. :param file_format: The file format to use for reading the dictionary. Default is None - will be read by the file extension. :return: The unpacked dictionary. """ # Unpack the object: obj = super().unpack_file(data_item=data_item, file_format=file_format) # Check if needed to cast from list: if isinstance(obj, list): return {index: element for index, element in enumerate(obj)} return obj
[docs]class ListPackager(_BuiltinCollectionPackager): """ ``builtins.list`` packager. """ PACKABLE_OBJECT_TYPE = list
[docs] def unpack_file(self, data_item: DataItem, file_format: str = None) -> list: """ Unpack a list from file. :param data_item: The data item to unpack. :param file_format: The file format to use for reading the list. Default is None - will be read by the file extension. :return: The unpacked list. """ # Unpack the object: obj = super().unpack_file(data_item=data_item, file_format=file_format) # Check if needed to cast from dict: if isinstance(obj, dict): return list(obj.values()) return obj
[docs]class TuplePackager(ListPackager): """ ``builtins.tuple`` packager. Notice: a ``tuple`` returned from a function is usually treated as multiple returned objects, and so MLRun will try to pack each of them separately and not as a single tuple. For example:: def example_func_1(): return 10, [1, 2, 3], "Hello MLRun" Will be returned as a ``tuple`` of 3 items: `(10, [1, 2, 3], "Hello MLRun")` but the items will be packaged separately one by one and not as a single ``tuple``. In order to pack tuples (not recommended), use the configuration:: mlrun.mlconf.packagers.pack_tuple = True Or more correctly, cast your returned tuple to a ``list`` like so:: def example_func_2(): my_tuple = (2, 4) return list(my_tuple) """ PACKABLE_OBJECT_TYPE = tuple
[docs] def pack_result(self, obj: tuple, key: str) -> dict: """ Pack a tuple as a result. :param obj: The tuple to pack and log. :param key: The result's key. :return: The result dictionary. """ return super().pack_result(obj=list(obj), key=key)
[docs] def pack_file( self, obj: tuple, key: str, file_format: str = DEFAULT_STRUCT_FILE_FORMAT ) -> tuple[Artifact, dict]: """ Pack a tuple as a file by the given format. :param obj: The tuple to pack. :param key: The key to use for the artifact. :param file_format: The file format to save as. Default is json. :return: The packed artifact and instructions. """ return super().pack_file(obj=list(obj), key=key, file_format=file_format)
[docs] def unpack_file(self, data_item: DataItem, file_format: str = None) -> tuple: """ Unpack a tuple from file. :param data_item: The data item to unpack. :param file_format: The file format to use for reading the tuple. Default is None - will be read by the file extension. :return: The unpacked tuple. """ return tuple(super().unpack_file(data_item=data_item, file_format=file_format))
[docs]class SetPackager(ListPackager): """ ``builtins.set`` packager. """ PACKABLE_OBJECT_TYPE = set
[docs] def pack_result(self, obj: set, key: str) -> dict: """ Pack a set as a result. :param obj: The set to pack and log. :param key: The result's key. :return: The result dictionary. """ return super().pack_result(obj=list(obj), key=key)
[docs] def pack_file( self, obj: set, key: str, file_format: str = DEFAULT_STRUCT_FILE_FORMAT ) -> tuple[Artifact, dict]: """ Pack a set as a file by the given format. :param obj: The set to pack. :param key: The key to use for the artifact. :param file_format: The file format to save as. Default is json. :return: The packed artifact and instructions. """ return super().pack_file(obj=list(obj), key=key, file_format=file_format)
[docs] def unpack_file(self, data_item: DataItem, file_format: str = None) -> set: """ Unpack a set from file. :param data_item: The data item to unpack. :param file_format: The file format to use for reading the set. Default is None - will be read by the file extension. :return: The unpacked set. """ return set(super().unpack_file(data_item=data_item, file_format=file_format))
[docs]class FrozensetPackager(SetPackager): """ ``builtins.frozenset`` packager. """ PACKABLE_OBJECT_TYPE = frozenset
[docs] def pack_file( self, obj: frozenset, key: str, file_format: str = DEFAULT_STRUCT_FILE_FORMAT ) -> tuple[Artifact, dict]: """ Pack a frozenset as a file by the given format. :param obj: The frozenset to pack. :param key: The key to use for the artifact. :param file_format: The file format to save as. Default is json. :return: The packed artifact and instructions. """ return super().pack_file(obj=set(obj), key=key, file_format=file_format)
[docs] def unpack_file(self, data_item: DataItem, file_format: str = None) -> frozenset: """ Unpack a frozenset from file. :param data_item: The data item to unpack. :param file_format: The file format to use for reading the frozenset. Default is None - will be read by the file extension. :return: The unpacked frozenset. """ return frozenset( super().unpack_file(data_item=data_item, file_format=file_format) )
[docs]class BytesPackager(ListPackager): """ ``builtins.bytes`` packager. """ PACKABLE_OBJECT_TYPE = bytes
[docs] def pack_result(self, obj: bytes, key: str) -> dict: """ Pack bytes as a result. :param obj: The bytearray to pack and log. :param key: The result's key. :return: The result dictionary. """ return {key: obj}
[docs] def pack_file( self, obj: bytes, key: str, file_format: str = DEFAULT_STRUCT_FILE_FORMAT ) -> tuple[Artifact, dict]: """ Pack a bytes as a file by the given format. :param obj: The bytes to pack. :param key: The key to use for the artifact. :param file_format: The file format to save as. Default is json. :return: The packed artifact and instructions. """ return super().pack_file(obj=list(obj), key=key, file_format=file_format)
[docs] def unpack_file(self, data_item: DataItem, file_format: str = None) -> bytes: """ Unpack a bytes from file. :param data_item: The data item to unpack. :param file_format: The file format to use for reading the bytes. Default is None - will be read by the file extension. :return: The unpacked bytes. """ return bytes(super().unpack_file(data_item=data_item, file_format=file_format))
[docs]class BytearrayPackager(BytesPackager): """ ``builtins.bytearray`` packager. """ PACKABLE_OBJECT_TYPE = bytearray
[docs] def pack_result(self, obj: bytearray, key: str) -> dict: """ Pack a bytearray as a result. :param obj: The bytearray to pack and log. :param key: The result's key. :return: The result dictionary. """ return {key: bytes(obj)}
[docs] def pack_file( self, obj: bytearray, key: str, file_format: str = DEFAULT_STRUCT_FILE_FORMAT ) -> tuple[Artifact, dict]: """ Pack a bytearray as a file by the given format. :param obj: The bytearray to pack. :param key: The key to use for the artifact. :param file_format: The file format to save as. Default is json. :return: The packed artifact and instructions. """ return super().pack_file(obj=bytes(obj), key=key, file_format=file_format)
[docs] def unpack_file(self, data_item: DataItem, file_format: str = None) -> bytearray: """ Unpack a bytearray from file. :param data_item: The data item to unpack. :param file_format: The file format to use for reading the bytearray. Default is None - will be read by the file extension. :return: The unpacked bytearray. """ return bytearray( super().unpack_file(data_item=data_item, file_format=file_format) )
# ---------------------------------------------------------------------------------------------------------------------- # pathlib packagers: # ----------------------------------------------------------------------------------------------------------------------
[docs]class PathPackager(StrPackager): """ ``pathlib.Path`` packager. It is also used for all `Path` inheriting pathlib objects (`PosixPath` and `WindowsPath`). """ PACKABLE_OBJECT_TYPE = pathlib.Path PACK_SUBCLASSES = True DEFAULT_PACKING_ARTIFACT_TYPE = "path"
[docs] def pack_result(self, obj: pathlib.Path, key: str) -> dict: """ Pack the `Path` as a string result. :param obj: The `Path` to pack. :param key: The key to use in the results dictionary. :return: The packed result. """ return super().pack_result(obj=str(obj), key=key)
[docs] def pack_path( self, obj: pathlib.Path, key: str, archive_format: str = DEFAULT_ARCHIVE_FORMAT ) -> tuple[Artifact, dict]: """ Pack a `Path` value (pack the file or directory in that path). :param obj: The `Path` to pack. :param key: The key to use for the artifact. :param archive_format: The archive format to use in case the path is of a directory. Default is zip. :return: The packed artifact and instructions. """ return super().pack_path(obj=str(obj), key=key, archive_format=archive_format)
[docs] def unpack_path( self, data_item: DataItem, is_directory: bool = False, archive_format: str = None, ) -> pathlib.Path: """ Unpack a data item representing a `Path`. If the path is of a file, the file is downloaded to a local temporary directory and its path is returned. If the path is of a directory, the archive is extracted and the directory path extracted is returned. :param data_item: The data item to unpack. :param is_directory: Whether the path should be treated as a file or a directory. Files (even archives like zip) won't be extracted. :param archive_format: The archive format to use in case the path is of a directory. Default is None - will be read by the archive file extension. :return: The unpacked `Path`. """ return pathlib.Path( super().unpack_path( data_item=data_item, is_directory=is_directory, archive_format=archive_format, ) )
# ---------------------------------------------------------------------------------------------------------------------- # TODO: collection packagers: # ---------------------------------------------------------------------------------------------------------------------- # ---------------------------------------------------------------------------------------------------------------------- # TODO: datetime packagers: # ---------------------------------------------------------------------------------------------------------------------- # ---------------------------------------------------------------------------------------------------------------------- # TODO: enum packagers: # ----------------------------------------------------------------------------------------------------------------------