#
# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You 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 json
import os
import time
import uuid
import functools
from typing import (
Any,
Callable,
Dict,
Generic,
List,
Optional,
Sequence,
Type,
TypeVar,
cast,
TYPE_CHECKING,
)
from pyspark import SparkContext, since
from pyspark.ml.common import inherit_doc
from pyspark.sql import SparkSession
from pyspark.sql.utils import is_remote
from pyspark.util import VersionUtils
if TYPE_CHECKING:
from py4j.java_gateway import JavaGateway, JavaObject
from pyspark.ml._typing import PipelineStage
from pyspark.ml.base import Params
from pyspark.ml.wrapper import JavaWrapper
T = TypeVar("T")
RW = TypeVar("RW", bound="BaseReadWrite")
W = TypeVar("W", bound="MLWriter")
JW = TypeVar("JW", bound="JavaMLWriter")
RL = TypeVar("RL", bound="MLReadable")
JR = TypeVar("JR", bound="JavaMLReader")
FuncT = TypeVar("FuncT", bound=Callable[..., Any])
def _jvm() -> "JavaGateway":
"""
Returns the JVM view associated with SparkContext. Must be called
after SparkContext is initialized.
"""
jvm = SparkContext._jvm
if jvm:
return jvm
else:
raise AttributeError("Cannot load _jvm from SparkContext. Is SparkContext initialized?")
[docs]class Identifiable:
"""
Object with a unique ID.
"""
def __init__(self) -> None:
#: A unique id for the object.
self.uid = self._randomUID()
def __repr__(self) -> str:
return self.uid
@classmethod
def _randomUID(cls) -> str:
"""
Generate a unique string id for the object. The default implementation
concatenates the class name, "_", and 12 random hex chars.
"""
return str(cls.__name__ + "_" + uuid.uuid4().hex[-12:])
[docs]@inherit_doc
class BaseReadWrite:
"""
Base class for MLWriter and MLReader. Stores information about the SparkContext
and SparkSession.
.. versionadded:: 2.3.0
"""
def __init__(self) -> None:
self._sparkSession: Optional[SparkSession] = None
[docs] def session(self: RW, sparkSession: SparkSession) -> RW:
"""
Sets the Spark Session to use for saving/loading.
"""
self._sparkSession = sparkSession
return self
@property
def sparkSession(self) -> SparkSession:
"""
Returns the user-specified Spark Session or the default.
"""
if self._sparkSession is None:
self._sparkSession = SparkSession._getActiveSessionOrCreate()
assert self._sparkSession is not None
return self._sparkSession
@property
def sc(self) -> SparkContext:
"""
Returns the underlying `SparkContext`.
"""
assert self.sparkSession is not None
return self.sparkSession.sparkContext
[docs]@inherit_doc
class MLWriter(BaseReadWrite):
"""
Utility class that can save ML instances.
.. versionadded:: 2.0.0
"""
def __init__(self) -> None:
super(MLWriter, self).__init__()
self.shouldOverwrite: bool = False
self.optionMap: Dict[str, Any] = {}
def _handleOverwrite(self, path: str) -> None:
from pyspark.ml.wrapper import JavaWrapper
_java_obj = JavaWrapper._new_java_obj("org.apache.spark.ml.util.FileSystemOverwrite")
wrapper = JavaWrapper(_java_obj)
wrapper._call_java("handleOverwrite", path, True, self.sparkSession._jsparkSession)
[docs] def save(self, path: str) -> None:
"""Save the ML instance to the input path."""
if self.shouldOverwrite:
self._handleOverwrite(path)
self.saveImpl(path)
[docs] def saveImpl(self, path: str) -> None:
"""
save() handles overwriting and then calls this method. Subclasses should override this
method to implement the actual saving of the instance.
"""
raise NotImplementedError("MLWriter is not yet implemented for type: %s" % type(self))
[docs] def overwrite(self) -> "MLWriter":
"""Overwrites if the output path already exists."""
self.shouldOverwrite = True
return self
[docs] def option(self, key: str, value: Any) -> "MLWriter":
"""
Adds an option to the underlying MLWriter. See the documentation for the specific model's
writer for possible options. The option name (key) is case-insensitive.
"""
self.optionMap[key.lower()] = str(value)
return self
[docs]@inherit_doc
class GeneralMLWriter(MLWriter):
"""
Utility class that can save ML instances in different formats.
.. versionadded:: 2.4.0
"""
@inherit_doc
class JavaMLWriter(MLWriter):
"""
(Private) Specialization of :py:class:`MLWriter` for :py:class:`JavaParams` types
"""
_jwrite: "JavaObject"
def __init__(self, instance: "JavaMLWritable"):
super(JavaMLWriter, self).__init__()
_java_obj = instance._to_java() # type: ignore[attr-defined]
self._jwrite = _java_obj.write()
def save(self, path: str) -> None:
"""Save the ML instance to the input path."""
if not isinstance(path, str):
raise TypeError("path should be a string, got type %s" % type(path))
self._jwrite.save(path)
def overwrite(self) -> "JavaMLWriter":
"""Overwrites if the output path already exists."""
self._jwrite.overwrite()
return self
def option(self, key: str, value: str) -> "JavaMLWriter":
self._jwrite.option(key, value)
return self
def session(self, sparkSession: SparkSession) -> "JavaMLWriter":
"""Sets the Spark Session to use for saving."""
self._jwrite.session(sparkSession._jsparkSession)
return self
@inherit_doc
class GeneralJavaMLWriter(JavaMLWriter):
"""
(Private) Specialization of :py:class:`GeneralMLWriter` for :py:class:`JavaParams` types
"""
def __init__(self, instance: "JavaMLWritable"):
super(GeneralJavaMLWriter, self).__init__(instance)
def format(self, source: str) -> "GeneralJavaMLWriter":
"""
Specifies the format of ML export ("pmml", "internal", or the fully qualified class
name for export).
"""
self._jwrite.format(source)
return self
[docs]@inherit_doc
class MLWritable:
"""
Mixin for ML instances that provide :py:class:`MLWriter`.
.. versionadded:: 2.0.0
"""
[docs] def write(self) -> MLWriter:
"""Returns an MLWriter instance for this ML instance."""
raise NotImplementedError("MLWritable is not yet implemented for type: %r" % type(self))
[docs] def save(self, path: str) -> None:
"""Save this ML instance to the given path, a shortcut of 'write().save(path)'."""
self.write().save(path)
@inherit_doc
class JavaMLWritable(MLWritable):
"""
(Private) Mixin for ML instances that provide :py:class:`JavaMLWriter`.
"""
def write(self) -> JavaMLWriter:
"""Returns an MLWriter instance for this ML instance."""
return JavaMLWriter(self)
@inherit_doc
class GeneralJavaMLWritable(JavaMLWritable):
"""
(Private) Mixin for ML instances that provide :py:class:`GeneralJavaMLWriter`.
"""
def write(self) -> GeneralJavaMLWriter:
"""Returns an GeneralMLWriter instance for this ML instance."""
return GeneralJavaMLWriter(self)
[docs]@inherit_doc
class MLReader(BaseReadWrite, Generic[RL]):
"""
Utility class that can load ML instances.
.. versionadded:: 2.0.0
"""
def __init__(self) -> None:
super(MLReader, self).__init__()
[docs] def load(self, path: str) -> RL:
"""Load the ML instance from the input path."""
raise NotImplementedError("MLReader is not yet implemented for type: %s" % type(self))
@inherit_doc
class JavaMLReader(MLReader[RL]):
"""
(Private) Specialization of :py:class:`MLReader` for :py:class:`JavaParams` types
"""
def __init__(self, clazz: Type["JavaMLReadable[RL]"]) -> None:
super(JavaMLReader, self).__init__()
self._clazz = clazz
self._jread = self._load_java_obj(clazz).read()
def load(self, path: str) -> RL:
"""Load the ML instance from the input path."""
if not isinstance(path, str):
raise TypeError("path should be a string, got type %s" % type(path))
java_obj = self._jread.load(path)
if not hasattr(self._clazz, "_from_java"):
raise NotImplementedError(
"This Java ML type cannot be loaded into Python currently: %r" % self._clazz
)
return self._clazz._from_java(java_obj) # type: ignore[attr-defined]
def session(self: JR, sparkSession: SparkSession) -> JR:
"""Sets the Spark Session to use for loading."""
self._jread.session(sparkSession._jsparkSession)
return self
@classmethod
def _java_loader_class(cls, clazz: Type["JavaMLReadable[RL]"]) -> str:
"""
Returns the full class name of the Java ML instance. The default
implementation replaces "pyspark" by "org.apache.spark" in
the Python full class name.
"""
java_package = clazz.__module__.replace("pyspark", "org.apache.spark")
if clazz.__name__ in ("Pipeline", "PipelineModel"):
# Remove the last package name "pipeline" for Pipeline and PipelineModel.
java_package = ".".join(java_package.split(".")[0:-1])
return java_package + "." + clazz.__name__
@classmethod
def _load_java_obj(cls, clazz: Type["JavaMLReadable[RL]"]) -> "JavaObject":
"""Load the peer Java object of the ML instance."""
java_class = cls._java_loader_class(clazz)
java_obj = _jvm()
for name in java_class.split("."):
java_obj = getattr(java_obj, name)
return java_obj
[docs]@inherit_doc
class MLReadable(Generic[RL]):
"""
Mixin for instances that provide :py:class:`MLReader`.
.. versionadded:: 2.0.0
"""
[docs] @classmethod
def read(cls) -> MLReader[RL]:
"""Returns an MLReader instance for this class."""
raise NotImplementedError("MLReadable.read() not implemented for type: %r" % cls)
[docs] @classmethod
def load(cls, path: str) -> RL:
"""Reads an ML instance from the input path, a shortcut of `read().load(path)`."""
return cls.read().load(path)
@inherit_doc
class JavaMLReadable(MLReadable[RL]):
"""
(Private) Mixin for instances that provide JavaMLReader.
"""
@classmethod
def read(cls) -> JavaMLReader[RL]:
"""Returns an MLReader instance for this class."""
return JavaMLReader(cls)
[docs]@inherit_doc
class DefaultParamsWritable(MLWritable):
"""
Helper trait for making simple :py:class:`Params` types writable. If a :py:class:`Params`
class stores all data as :py:class:`Param` values, then extending this trait will provide
a default implementation of writing saved instances of the class.
This only handles simple :py:class:`Param` types; e.g., it will not handle
:py:class:`pyspark.sql.DataFrame`. See :py:class:`DefaultParamsReadable`, the counterpart
to this class.
.. versionadded:: 2.3.0
"""
[docs] def write(self) -> MLWriter:
"""Returns a DefaultParamsWriter instance for this class."""
from pyspark.ml.param import Params
if isinstance(self, Params):
return DefaultParamsWriter(self)
else:
raise TypeError(
"Cannot use DefaultParamsWritable with type %s because it does not "
+ " extend Params.",
type(self),
)
[docs]@inherit_doc
class DefaultParamsWriter(MLWriter):
"""
Specialization of :py:class:`MLWriter` for :py:class:`Params` types
Class for writing Estimators and Transformers whose parameters are JSON-serializable.
.. versionadded:: 2.3.0
"""
def __init__(self, instance: "Params"):
super(DefaultParamsWriter, self).__init__()
self.instance = instance
[docs] def saveImpl(self, path: str) -> None:
DefaultParamsWriter.saveMetadata(self.instance, path, self.sc)
@staticmethod
def _get_metadata_to_save(
instance: "Params",
sc: SparkContext,
extraMetadata: Optional[Dict[str, Any]] = None,
paramMap: Optional[Dict[str, Any]] = None,
) -> str:
"""
Helper for :py:meth:`DefaultParamsWriter.saveMetadata` which extracts the JSON to save.
This is useful for ensemble models which need to save metadata for many sub-models.
Notes
-----
See :py:meth:`DefaultParamsWriter.saveMetadata` for details on what this includes.
"""
uid = instance.uid
cls = instance.__module__ + "." + instance.__class__.__name__
# User-supplied param values
params = instance._paramMap
jsonParams = {}
if paramMap is not None:
jsonParams = paramMap
else:
for p in params:
jsonParams[p.name] = params[p]
# Default param values
jsonDefaultParams = {}
for p in instance._defaultParamMap:
jsonDefaultParams[p.name] = instance._defaultParamMap[p]
basicMetadata = {
"class": cls,
"timestamp": int(round(time.time() * 1000)),
"sparkVersion": sc.version,
"uid": uid,
"paramMap": jsonParams,
"defaultParamMap": jsonDefaultParams,
}
if extraMetadata is not None:
basicMetadata.update(extraMetadata)
return json.dumps(basicMetadata, separators=(",", ":"))
[docs]@inherit_doc
class DefaultParamsReadable(MLReadable[RL]):
"""
Helper trait for making simple :py:class:`Params` types readable.
If a :py:class:`Params` class stores all data as :py:class:`Param` values,
then extending this trait will provide a default implementation of reading saved
instances of the class. This only handles simple :py:class:`Param` types;
e.g., it will not handle :py:class:`pyspark.sql.DataFrame`. See
:py:class:`DefaultParamsWritable`, the counterpart to this class.
.. versionadded:: 2.3.0
"""
[docs] @classmethod
def read(cls) -> "DefaultParamsReader[RL]":
"""Returns a DefaultParamsReader instance for this class."""
return DefaultParamsReader(cls)
[docs]@inherit_doc
class DefaultParamsReader(MLReader[RL]):
"""
Specialization of :py:class:`MLReader` for :py:class:`Params` types
Default :py:class:`MLReader` implementation for transformers and estimators that
contain basic (json-serializable) params and no data. This will not handle
more complex params or types with data (e.g., models with coefficients).
.. versionadded:: 2.3.0
"""
def __init__(self, cls: Type[DefaultParamsReadable[RL]]):
super(DefaultParamsReader, self).__init__()
self.cls = cls
@staticmethod
def __get_class(clazz: str) -> Type[RL]:
"""
Loads Python class from its name.
"""
parts = clazz.split(".")
module = ".".join(parts[:-1])
m = __import__(module, fromlist=[parts[-1]])
return getattr(m, parts[-1])
[docs] def load(self, path: str) -> RL:
metadata = DefaultParamsReader.loadMetadata(path, self.sc)
py_type: Type[RL] = DefaultParamsReader.__get_class(metadata["class"])
instance = py_type()
cast("Params", instance)._resetUid(metadata["uid"])
DefaultParamsReader.getAndSetParams(instance, metadata)
return instance
@staticmethod
def _parseMetaData(metadataStr: str, expectedClassName: str = "") -> Dict[str, Any]:
"""
Parse metadata JSON string produced by :py:meth`DefaultParamsWriter._get_metadata_to_save`.
This is a helper function for :py:meth:`DefaultParamsReader.loadMetadata`.
Parameters
----------
metadataStr : str
JSON string of metadata
expectedClassName : str, optional
If non empty, this is checked against the loaded metadata.
"""
metadata = json.loads(metadataStr)
className = metadata["class"]
if len(expectedClassName) > 0:
assert className == expectedClassName, (
"Error loading metadata: Expected "
+ "class name {} but found class name {}".format(expectedClassName, className)
)
return metadata
[docs] @staticmethod
def getAndSetParams(
instance: RL, metadata: Dict[str, Any], skipParams: Optional[List[str]] = None
) -> None:
"""
Extract Params from metadata, and set them in the instance.
"""
# Set user-supplied param values
for paramName in metadata["paramMap"]:
param = cast("Params", instance).getParam(paramName)
if skipParams is None or paramName not in skipParams:
paramValue = metadata["paramMap"][paramName]
cast("Params", instance).set(param, paramValue)
# Set default param values
majorAndMinorVersions = VersionUtils.majorMinorVersion(metadata["sparkVersion"])
major = majorAndMinorVersions[0]
minor = majorAndMinorVersions[1]
# For metadata file prior to Spark 2.4, there is no default section.
if major > 2 or (major == 2 and minor >= 4):
assert "defaultParamMap" in metadata, (
"Error loading metadata: Expected " + "`defaultParamMap` section not found"
)
for paramName in metadata["defaultParamMap"]:
paramValue = metadata["defaultParamMap"][paramName]
cast("Params", instance)._setDefault(**{paramName: paramValue})
[docs] @staticmethod
def isPythonParamsInstance(metadata: Dict[str, Any]) -> bool:
return metadata["class"].startswith("pyspark.ml.")
[docs] @staticmethod
def loadParamsInstance(path: str, sc: SparkContext) -> RL:
"""
Load a :py:class:`Params` instance from the given path, and return it.
This assumes the instance inherits from :py:class:`MLReadable`.
"""
metadata = DefaultParamsReader.loadMetadata(path, sc)
if DefaultParamsReader.isPythonParamsInstance(metadata):
pythonClassName = metadata["class"]
else:
pythonClassName = metadata["class"].replace("org.apache.spark", "pyspark")
py_type: Type[RL] = DefaultParamsReader.__get_class(pythonClassName)
instance = py_type.load(path)
return instance
[docs]@inherit_doc
class HasTrainingSummary(Generic[T]):
"""
Base class for models that provides Training summary.
.. versionadded:: 3.0.0
"""
@property
@since("2.1.0")
def hasSummary(self) -> bool:
"""
Indicates whether a training summary exists for this model
instance.
"""
return cast("JavaWrapper", self)._call_java("hasSummary")
@property
@since("2.1.0")
def summary(self) -> T:
"""
Gets summary of the model trained on the training set. An exception is thrown if
no summary exists.
"""
return cast("JavaWrapper", self)._call_java("summary")
class MetaAlgorithmReadWrite:
@staticmethod
def isMetaEstimator(pyInstance: Any) -> bool:
from pyspark.ml import Estimator, Pipeline
from pyspark.ml.tuning import _ValidatorParams
from pyspark.ml.classification import OneVsRest
return (
isinstance(pyInstance, Pipeline)
or isinstance(pyInstance, OneVsRest)
or (isinstance(pyInstance, Estimator) and isinstance(pyInstance, _ValidatorParams))
)
@staticmethod
def getAllNestedStages(pyInstance: Any) -> List["Params"]:
from pyspark.ml import Pipeline, PipelineModel
from pyspark.ml.tuning import _ValidatorParams
from pyspark.ml.classification import OneVsRest, OneVsRestModel
# TODO: We need to handle `RFormulaModel.pipelineModel` here after Pyspark RFormulaModel
# support pipelineModel property.
pySubStages: Sequence["Params"]
if isinstance(pyInstance, Pipeline):
pySubStages = pyInstance.getStages()
elif isinstance(pyInstance, PipelineModel):
pySubStages = cast(List["PipelineStage"], pyInstance.stages)
elif isinstance(pyInstance, _ValidatorParams):
raise ValueError("PySpark does not support nested validator.")
elif isinstance(pyInstance, OneVsRest):
pySubStages = [pyInstance.getClassifier()]
elif isinstance(pyInstance, OneVsRestModel):
pySubStages = [pyInstance.getClassifier()] + pyInstance.models # type: ignore[operator]
else:
pySubStages = []
nestedStages = []
for pySubStage in pySubStages:
nestedStages.extend(MetaAlgorithmReadWrite.getAllNestedStages(pySubStage))
return [pyInstance] + nestedStages
@staticmethod
def getUidMap(instance: Any) -> Dict[str, "Params"]:
nestedStages = MetaAlgorithmReadWrite.getAllNestedStages(instance)
uidMap = {stage.uid: stage for stage in nestedStages}
if len(nestedStages) != len(uidMap):
raise RuntimeError(
f"{instance.__class__.__module__}.{instance.__class__.__name__}"
f".load found a compound estimator with stages with duplicate "
f"UIDs. List of UIDs: {list(uidMap.keys())}."
)
return uidMap
def try_remote_functions(f: FuncT) -> FuncT:
"""Mark API supported from Spark Connect."""
@functools.wraps(f)
def wrapped(*args: Any, **kwargs: Any) -> Any:
if is_remote() and "PYSPARK_NO_NAMESPACE_SHARE" not in os.environ:
from pyspark.ml.connect import functions
return getattr(functions, f.__name__)(*args, **kwargs)
else:
return f(*args, **kwargs)
return cast(FuncT, wrapped)