Source code for pyspark.ml.evaluation

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import sys
from abc import abstractmethod, ABCMeta
from typing import Any, Dict, Optional, TYPE_CHECKING

from pyspark import since, keyword_only
from pyspark.ml.wrapper import JavaParams
from pyspark.ml.param import Param, Params, TypeConverters
from pyspark.ml.param.shared import (
    HasLabelCol,
    HasPredictionCol,
    HasProbabilityCol,
    HasRawPredictionCol,
    HasFeaturesCol,
    HasWeightCol,
)
from pyspark.ml.common import inherit_doc
from pyspark.ml.util import JavaMLReadable, JavaMLWritable
from pyspark.sql.dataframe import DataFrame

if TYPE_CHECKING:
    from pyspark.ml._typing import (
        ParamMap,
        BinaryClassificationEvaluatorMetricType,
        ClusteringEvaluatorDistanceMeasureType,
        ClusteringEvaluatorMetricType,
        MulticlassClassificationEvaluatorMetricType,
        MultilabelClassificationEvaluatorMetricType,
        RankingEvaluatorMetricType,
        RegressionEvaluatorMetricType,
    )


__all__ = [
    "Evaluator",
    "BinaryClassificationEvaluator",
    "RegressionEvaluator",
    "MulticlassClassificationEvaluator",
    "MultilabelClassificationEvaluator",
    "ClusteringEvaluator",
    "RankingEvaluator",
]


[docs]@inherit_doc class Evaluator(Params, metaclass=ABCMeta): """ Base class for evaluators that compute metrics from predictions. .. versionadded:: 1.4.0 """ @abstractmethod def _evaluate(self, dataset: DataFrame) -> float: """ Evaluates the output. Parameters ---------- dataset : :py:class:`pyspark.sql.DataFrame` a dataset that contains labels/observations and predictions Returns ------- float metric """ raise NotImplementedError()
[docs] def evaluate(self, dataset: DataFrame, params: Optional["ParamMap"] = None) -> float: """ Evaluates the output with optional parameters. .. versionadded:: 1.4.0 Parameters ---------- dataset : :py:class:`pyspark.sql.DataFrame` a dataset that contains labels/observations and predictions params : dict, optional an optional param map that overrides embedded params Returns ------- float metric """ if params is None: params = dict() if isinstance(params, dict): if params: return self.copy(params)._evaluate(dataset) else: return self._evaluate(dataset) else: raise TypeError("Params must be a param map but got %s." % type(params))
[docs] @since("1.5.0") def isLargerBetter(self) -> bool: """ Indicates whether the metric returned by :py:meth:`evaluate` should be maximized (True, default) or minimized (False). A given evaluator may support multiple metrics which may be maximized or minimized. """ return True
@inherit_doc class JavaEvaluator(JavaParams, Evaluator, metaclass=ABCMeta): """ Base class for :py:class:`Evaluator`s that wrap Java/Scala implementations. """ def _evaluate(self, dataset: DataFrame) -> float: """ Evaluates the output. Parameters ---------- dataset : :py:class:`pyspark.sql.DataFrame` a dataset that contains labels/observations and predictions Returns ------- float evaluation metric """ self._transfer_params_to_java() assert self._java_obj is not None return self._java_obj.evaluate(dataset._jdf) def isLargerBetter(self) -> bool: self._transfer_params_to_java() assert self._java_obj is not None return self._java_obj.isLargerBetter()
[docs]@inherit_doc class BinaryClassificationEvaluator( JavaEvaluator, HasLabelCol, HasRawPredictionCol, HasWeightCol, JavaMLReadable["BinaryClassificationEvaluator"], JavaMLWritable, ): """ Evaluator for binary classification, which expects input columns rawPrediction, label and an optional weight column. The rawPrediction column can be of type double (binary 0/1 prediction, or probability of label 1) or of type vector (length-2 vector of raw predictions, scores, or label probabilities). .. versionadded:: 1.4.0 Examples -------- >>> from pyspark.ml.linalg import Vectors >>> scoreAndLabels = map(lambda x: (Vectors.dense([1.0 - x[0], x[0]]), x[1]), ... [(0.1, 0.0), (0.1, 1.0), (0.4, 0.0), (0.6, 0.0), (0.6, 1.0), (0.6, 1.0), (0.8, 1.0)]) >>> dataset = spark.createDataFrame(scoreAndLabels, ["raw", "label"]) ... >>> evaluator = BinaryClassificationEvaluator() >>> evaluator.setRawPredictionCol("raw") BinaryClassificationEvaluator... >>> evaluator.evaluate(dataset) 0.70... >>> evaluator.evaluate(dataset, {evaluator.metricName: "areaUnderPR"}) 0.83... >>> bce_path = temp_path + "/bce" >>> evaluator.save(bce_path) >>> evaluator2 = BinaryClassificationEvaluator.load(bce_path) >>> str(evaluator2.getRawPredictionCol()) 'raw' >>> scoreAndLabelsAndWeight = map(lambda x: (Vectors.dense([1.0 - x[0], x[0]]), x[1], x[2]), ... [(0.1, 0.0, 1.0), (0.1, 1.0, 0.9), (0.4, 0.0, 0.7), (0.6, 0.0, 0.9), ... (0.6, 1.0, 1.0), (0.6, 1.0, 0.3), (0.8, 1.0, 1.0)]) >>> dataset = spark.createDataFrame(scoreAndLabelsAndWeight, ["raw", "label", "weight"]) ... >>> evaluator = BinaryClassificationEvaluator(rawPredictionCol="raw", weightCol="weight") >>> evaluator.evaluate(dataset) 0.70... >>> evaluator.evaluate(dataset, {evaluator.metricName: "areaUnderPR"}) 0.82... >>> evaluator.getNumBins() 1000 """ metricName: Param["BinaryClassificationEvaluatorMetricType"] = Param( Params._dummy(), "metricName", "metric name in evaluation (areaUnderROC|areaUnderPR)", typeConverter=TypeConverters.toString, # type: ignore[arg-type] ) numBins: Param[int] = Param( Params._dummy(), "numBins", "Number of bins to down-sample the curves " "(ROC curve, PR curve) in area computation. If 0, no down-sampling will " "occur. Must be >= 0.", typeConverter=TypeConverters.toInt, ) _input_kwargs: Dict[str, Any] @keyword_only def __init__( self, *, rawPredictionCol: str = "rawPrediction", labelCol: str = "label", metricName: "BinaryClassificationEvaluatorMetricType" = "areaUnderROC", weightCol: Optional[str] = None, numBins: int = 1000, ): """ __init__(self, \\*, rawPredictionCol="rawPrediction", labelCol="label", \ metricName="areaUnderROC", weightCol=None, numBins=1000) """ super(BinaryClassificationEvaluator, self).__init__() self._java_obj = self._new_java_obj( "org.apache.spark.ml.evaluation.BinaryClassificationEvaluator", self.uid ) self._setDefault(metricName="areaUnderROC", numBins=1000) kwargs = self._input_kwargs self._set(**kwargs)
[docs] @since("1.4.0") def setMetricName( self, value: "BinaryClassificationEvaluatorMetricType" ) -> "BinaryClassificationEvaluator": """ Sets the value of :py:attr:`metricName`. """ return self._set(metricName=value)
[docs] @since("1.4.0") def getMetricName(self) -> str: """ Gets the value of metricName or its default value. """ return self.getOrDefault(self.metricName)
[docs] @since("3.0.0") def setNumBins(self, value: int) -> "BinaryClassificationEvaluator": """ Sets the value of :py:attr:`numBins`. """ return self._set(numBins=value)
[docs] @since("3.0.0") def getNumBins(self) -> int: """ Gets the value of numBins or its default value. """ return self.getOrDefault(self.numBins)
[docs] def setLabelCol(self, value: str) -> "BinaryClassificationEvaluator": """ Sets the value of :py:attr:`labelCol`. """ return self._set(labelCol=value)
[docs] def setRawPredictionCol(self, value: str) -> "BinaryClassificationEvaluator": """ Sets the value of :py:attr:`rawPredictionCol`. """ return self._set(rawPredictionCol=value)
[docs] @since("3.0.0") def setWeightCol(self, value: str) -> "BinaryClassificationEvaluator": """ Sets the value of :py:attr:`weightCol`. """ return self._set(weightCol=value)
[docs] @keyword_only @since("1.4.0") def setParams( self, *, rawPredictionCol: str = "rawPrediction", labelCol: str = "label", metricName: "BinaryClassificationEvaluatorMetricType" = "areaUnderROC", weightCol: Optional[str] = None, numBins: int = 1000, ) -> "BinaryClassificationEvaluator": """ setParams(self, \\*, rawPredictionCol="rawPrediction", labelCol="label", \ metricName="areaUnderROC", weightCol=None, numBins=1000) Sets params for binary classification evaluator. """ kwargs = self._input_kwargs return self._set(**kwargs)
[docs]@inherit_doc class RegressionEvaluator( JavaEvaluator, HasLabelCol, HasPredictionCol, HasWeightCol, JavaMLReadable["RegressionEvaluator"], JavaMLWritable, ): """ Evaluator for Regression, which expects input columns prediction, label and an optional weight column. .. versionadded:: 1.4.0 Examples -------- >>> scoreAndLabels = [(-28.98343821, -27.0), (20.21491975, 21.5), ... (-25.98418959, -22.0), (30.69731842, 33.0), (74.69283752, 71.0)] >>> dataset = spark.createDataFrame(scoreAndLabels, ["raw", "label"]) ... >>> evaluator = RegressionEvaluator() >>> evaluator.setPredictionCol("raw") RegressionEvaluator... >>> evaluator.evaluate(dataset) 2.842... >>> evaluator.evaluate(dataset, {evaluator.metricName: "r2"}) 0.993... >>> evaluator.evaluate(dataset, {evaluator.metricName: "mae"}) 2.649... >>> re_path = temp_path + "/re" >>> evaluator.save(re_path) >>> evaluator2 = RegressionEvaluator.load(re_path) >>> str(evaluator2.getPredictionCol()) 'raw' >>> scoreAndLabelsAndWeight = [(-28.98343821, -27.0, 1.0), (20.21491975, 21.5, 0.8), ... (-25.98418959, -22.0, 1.0), (30.69731842, 33.0, 0.6), (74.69283752, 71.0, 0.2)] >>> dataset = spark.createDataFrame(scoreAndLabelsAndWeight, ["raw", "label", "weight"]) ... >>> evaluator = RegressionEvaluator(predictionCol="raw", weightCol="weight") >>> evaluator.evaluate(dataset) 2.740... >>> evaluator.getThroughOrigin() False """ metricName: Param["RegressionEvaluatorMetricType"] = Param( Params._dummy(), "metricName", """metric name in evaluation - one of: rmse - root mean squared error (default) mse - mean squared error r2 - r^2 metric mae - mean absolute error var - explained variance.""", typeConverter=TypeConverters.toString, # type: ignore[arg-type] ) throughOrigin: Param[bool] = Param( Params._dummy(), "throughOrigin", "whether the regression is through the origin.", typeConverter=TypeConverters.toBoolean, ) _input_kwargs: Dict[str, Any] @keyword_only def __init__( self, *, predictionCol: str = "prediction", labelCol: str = "label", metricName: "RegressionEvaluatorMetricType" = "rmse", weightCol: Optional[str] = None, throughOrigin: bool = False, ): """ __init__(self, \\*, predictionCol="prediction", labelCol="label", \ metricName="rmse", weightCol=None, throughOrigin=False) """ super(RegressionEvaluator, self).__init__() self._java_obj = self._new_java_obj( "org.apache.spark.ml.evaluation.RegressionEvaluator", self.uid ) self._setDefault(metricName="rmse", throughOrigin=False) kwargs = self._input_kwargs self._set(**kwargs)
[docs] @since("1.4.0") def setMetricName(self, value: "RegressionEvaluatorMetricType") -> "RegressionEvaluator": """ Sets the value of :py:attr:`metricName`. """ return self._set(metricName=value)
[docs] @since("1.4.0") def getMetricName(self) -> "RegressionEvaluatorMetricType": """ Gets the value of metricName or its default value. """ return self.getOrDefault(self.metricName)
[docs] @since("3.0.0") def setThroughOrigin(self, value: bool) -> "RegressionEvaluator": """ Sets the value of :py:attr:`throughOrigin`. """ return self._set(throughOrigin=value)
[docs] @since("3.0.0") def getThroughOrigin(self) -> bool: """ Gets the value of throughOrigin or its default value. """ return self.getOrDefault(self.throughOrigin)
[docs] def setLabelCol(self, value: str) -> "RegressionEvaluator": """ Sets the value of :py:attr:`labelCol`. """ return self._set(labelCol=value)
[docs] def setPredictionCol(self, value: str) -> "RegressionEvaluator": """ Sets the value of :py:attr:`predictionCol`. """ return self._set(predictionCol=value)
[docs] @since("3.0.0") def setWeightCol(self, value: str) -> "RegressionEvaluator": """ Sets the value of :py:attr:`weightCol`. """ return self._set(weightCol=value)
[docs] @keyword_only @since("1.4.0") def setParams( self, *, predictionCol: str = "prediction", labelCol: str = "label", metricName: "RegressionEvaluatorMetricType" = "rmse", weightCol: Optional[str] = None, throughOrigin: bool = False, ) -> "RegressionEvaluator": """ setParams(self, \\*, predictionCol="prediction", labelCol="label", \ metricName="rmse", weightCol=None, throughOrigin=False) Sets params for regression evaluator. """ kwargs = self._input_kwargs return self._set(**kwargs)
[docs]@inherit_doc class MulticlassClassificationEvaluator( JavaEvaluator, HasLabelCol, HasPredictionCol, HasWeightCol, HasProbabilityCol, JavaMLReadable["MulticlassClassificationEvaluator"], JavaMLWritable, ): """ Evaluator for Multiclass Classification, which expects input columns: prediction, label, weight (optional) and probabilityCol (only for logLoss). .. versionadded:: 1.5.0 Examples -------- >>> scoreAndLabels = [(0.0, 0.0), (0.0, 1.0), (0.0, 0.0), ... (1.0, 0.0), (1.0, 1.0), (1.0, 1.0), (1.0, 1.0), (2.0, 2.0), (2.0, 0.0)] >>> dataset = spark.createDataFrame(scoreAndLabels, ["prediction", "label"]) >>> evaluator = MulticlassClassificationEvaluator() >>> evaluator.setPredictionCol("prediction") MulticlassClassificationEvaluator... >>> evaluator.evaluate(dataset) 0.66... >>> evaluator.evaluate(dataset, {evaluator.metricName: "accuracy"}) 0.66... >>> evaluator.evaluate(dataset, {evaluator.metricName: "truePositiveRateByLabel", ... evaluator.metricLabel: 1.0}) 0.75... >>> evaluator.setMetricName("hammingLoss") MulticlassClassificationEvaluator... >>> evaluator.evaluate(dataset) 0.33... >>> mce_path = temp_path + "/mce" >>> evaluator.save(mce_path) >>> evaluator2 = MulticlassClassificationEvaluator.load(mce_path) >>> str(evaluator2.getPredictionCol()) 'prediction' >>> scoreAndLabelsAndWeight = [(0.0, 0.0, 1.0), (0.0, 1.0, 1.0), (0.0, 0.0, 1.0), ... (1.0, 0.0, 1.0), (1.0, 1.0, 1.0), (1.0, 1.0, 1.0), (1.0, 1.0, 1.0), ... (2.0, 2.0, 1.0), (2.0, 0.0, 1.0)] >>> dataset = spark.createDataFrame(scoreAndLabelsAndWeight, ["prediction", "label", "weight"]) >>> evaluator = MulticlassClassificationEvaluator(predictionCol="prediction", ... weightCol="weight") >>> evaluator.evaluate(dataset) 0.66... >>> evaluator.evaluate(dataset, {evaluator.metricName: "accuracy"}) 0.66... >>> predictionAndLabelsWithProbabilities = [ ... (1.0, 1.0, 1.0, [0.1, 0.8, 0.1]), (0.0, 2.0, 1.0, [0.9, 0.05, 0.05]), ... (0.0, 0.0, 1.0, [0.8, 0.2, 0.0]), (1.0, 1.0, 1.0, [0.3, 0.65, 0.05])] >>> dataset = spark.createDataFrame(predictionAndLabelsWithProbabilities, ["prediction", ... "label", "weight", "probability"]) >>> evaluator = MulticlassClassificationEvaluator(predictionCol="prediction", ... probabilityCol="probability") >>> evaluator.setMetricName("logLoss") MulticlassClassificationEvaluator... >>> evaluator.evaluate(dataset) 0.9682... """ metricName: Param["MulticlassClassificationEvaluatorMetricType"] = Param( Params._dummy(), "metricName", "metric name in evaluation " "(f1|accuracy|weightedPrecision|weightedRecall|weightedTruePositiveRate| " "weightedFalsePositiveRate|weightedFMeasure|truePositiveRateByLabel| " "falsePositiveRateByLabel|precisionByLabel|recallByLabel|fMeasureByLabel| " "logLoss|hammingLoss)", typeConverter=TypeConverters.toString, # type: ignore[arg-type] ) metricLabel: Param[float] = Param( Params._dummy(), "metricLabel", "The class whose metric will be computed in truePositiveRateByLabel|" "falsePositiveRateByLabel|precisionByLabel|recallByLabel|fMeasureByLabel." " Must be >= 0. The default value is 0.", typeConverter=TypeConverters.toFloat, ) beta: Param[float] = Param( Params._dummy(), "beta", "The beta value used in weightedFMeasure|fMeasureByLabel." " Must be > 0. The default value is 1.", typeConverter=TypeConverters.toFloat, ) eps: Param[float] = Param( Params._dummy(), "eps", "log-loss is undefined for p=0 or p=1, so probabilities are clipped to " "max(eps, min(1 - eps, p)). " "Must be in range (0, 0.5). The default value is 1e-15.", typeConverter=TypeConverters.toFloat, ) _input_kwargs: Dict[str, Any] @keyword_only def __init__( self, *, predictionCol: str = "prediction", labelCol: str = "label", metricName: "MulticlassClassificationEvaluatorMetricType" = "f1", weightCol: Optional[str] = None, metricLabel: float = 0.0, beta: float = 1.0, probabilityCol: str = "probability", eps: float = 1e-15, ): """ __init__(self, \\*, predictionCol="prediction", labelCol="label", \ metricName="f1", weightCol=None, metricLabel=0.0, beta=1.0, \ probabilityCol="probability", eps=1e-15) """ super(MulticlassClassificationEvaluator, self).__init__() self._java_obj = self._new_java_obj( "org.apache.spark.ml.evaluation.MulticlassClassificationEvaluator", self.uid ) self._setDefault(metricName="f1", metricLabel=0.0, beta=1.0, eps=1e-15) kwargs = self._input_kwargs self._set(**kwargs)
[docs] @since("1.5.0") def setMetricName( self, value: "MulticlassClassificationEvaluatorMetricType" ) -> "MulticlassClassificationEvaluator": """ Sets the value of :py:attr:`metricName`. """ return self._set(metricName=value)
[docs] @since("1.5.0") def getMetricName(self) -> "MulticlassClassificationEvaluatorMetricType": """ Gets the value of metricName or its default value. """ return self.getOrDefault(self.metricName)
[docs] @since("3.0.0") def setMetricLabel(self, value: float) -> "MulticlassClassificationEvaluator": """ Sets the value of :py:attr:`metricLabel`. """ return self._set(metricLabel=value)
[docs] @since("3.0.0") def getMetricLabel(self) -> float: """ Gets the value of metricLabel or its default value. """ return self.getOrDefault(self.metricLabel)
[docs] @since("3.0.0") def setBeta(self, value: float) -> "MulticlassClassificationEvaluator": """ Sets the value of :py:attr:`beta`. """ return self._set(beta=value)
[docs] @since("3.0.0") def getBeta(self) -> float: """ Gets the value of beta or its default value. """ return self.getOrDefault(self.beta)
[docs] @since("3.0.0") def setEps(self, value: float) -> "MulticlassClassificationEvaluator": """ Sets the value of :py:attr:`eps`. """ return self._set(eps=value)
[docs] @since("3.0.0") def getEps(self) -> float: """ Gets the value of eps or its default value. """ return self.getOrDefault(self.eps)
[docs] def setLabelCol(self, value: str) -> "MulticlassClassificationEvaluator": """ Sets the value of :py:attr:`labelCol`. """ return self._set(labelCol=value)
[docs] def setPredictionCol(self, value: str) -> "MulticlassClassificationEvaluator": """ Sets the value of :py:attr:`predictionCol`. """ return self._set(predictionCol=value)
[docs] @since("3.0.0") def setProbabilityCol(self, value: str) -> "MulticlassClassificationEvaluator": """ Sets the value of :py:attr:`probabilityCol`. """ return self._set(probabilityCol=value)
[docs] @since("3.0.0") def setWeightCol(self, value: str) -> "MulticlassClassificationEvaluator": """ Sets the value of :py:attr:`weightCol`. """ return self._set(weightCol=value)
[docs] @keyword_only @since("1.5.0") def setParams( self, *, predictionCol: str = "prediction", labelCol: str = "label", metricName: "MulticlassClassificationEvaluatorMetricType" = "f1", weightCol: Optional[str] = None, metricLabel: float = 0.0, beta: float = 1.0, probabilityCol: str = "probability", eps: float = 1e-15, ) -> "MulticlassClassificationEvaluator": """ setParams(self, \\*, predictionCol="prediction", labelCol="label", \ metricName="f1", weightCol=None, metricLabel=0.0, beta=1.0, \ probabilityCol="probability", eps=1e-15) Sets params for multiclass classification evaluator. """ kwargs = self._input_kwargs return self._set(**kwargs)
[docs]@inherit_doc class MultilabelClassificationEvaluator( JavaEvaluator, HasLabelCol, HasPredictionCol, JavaMLReadable["MultilabelClassificationEvaluator"], JavaMLWritable, ): """ Evaluator for Multilabel Classification, which expects two input columns: prediction and label. .. versionadded:: 3.0.0 Notes ----- Experimental Examples -------- >>> scoreAndLabels = [([0.0, 1.0], [0.0, 2.0]), ([0.0, 2.0], [0.0, 1.0]), ... ([], [0.0]), ([2.0], [2.0]), ([2.0, 0.0], [2.0, 0.0]), ... ([0.0, 1.0, 2.0], [0.0, 1.0]), ([1.0], [1.0, 2.0])] >>> dataset = spark.createDataFrame(scoreAndLabels, ["prediction", "label"]) ... >>> evaluator = MultilabelClassificationEvaluator() >>> evaluator.setPredictionCol("prediction") MultilabelClassificationEvaluator... >>> evaluator.evaluate(dataset) 0.63... >>> evaluator.evaluate(dataset, {evaluator.metricName: "accuracy"}) 0.54... >>> mlce_path = temp_path + "/mlce" >>> evaluator.save(mlce_path) >>> evaluator2 = MultilabelClassificationEvaluator.load(mlce_path) >>> str(evaluator2.getPredictionCol()) 'prediction' """ metricName: Param["MultilabelClassificationEvaluatorMetricType"] = Param( Params._dummy(), "metricName", "metric name in evaluation " "(subsetAccuracy|accuracy|hammingLoss|precision|recall|f1Measure|" "precisionByLabel|recallByLabel|f1MeasureByLabel|microPrecision|" "microRecall|microF1Measure)", typeConverter=TypeConverters.toString, # type: ignore[arg-type] ) metricLabel: Param[float] = Param( Params._dummy(), "metricLabel", "The class whose metric will be computed in precisionByLabel|" "recallByLabel|f1MeasureByLabel. " "Must be >= 0. The default value is 0.", typeConverter=TypeConverters.toFloat, ) _input_kwargs: Dict[str, Any] @keyword_only def __init__( self, *, predictionCol: str = "prediction", labelCol: str = "label", metricName: "MultilabelClassificationEvaluatorMetricType" = "f1Measure", metricLabel: float = 0.0, ) -> None: """ __init__(self, \\*, predictionCol="prediction", labelCol="label", \ metricName="f1Measure", metricLabel=0.0) """ super(MultilabelClassificationEvaluator, self).__init__() self._java_obj = self._new_java_obj( "org.apache.spark.ml.evaluation.MultilabelClassificationEvaluator", self.uid ) self._setDefault(metricName="f1Measure", metricLabel=0.0) kwargs = self._input_kwargs self._set(**kwargs)
[docs] @since("3.0.0") def setMetricName( self, value: "MultilabelClassificationEvaluatorMetricType" ) -> "MultilabelClassificationEvaluator": """ Sets the value of :py:attr:`metricName`. """ return self._set(metricName=value)
[docs] @since("3.0.0") def getMetricName(self) -> "MultilabelClassificationEvaluatorMetricType": """ Gets the value of metricName or its default value. """ return self.getOrDefault(self.metricName)
[docs] @since("3.0.0") def setMetricLabel(self, value: float) -> "MultilabelClassificationEvaluator": """ Sets the value of :py:attr:`metricLabel`. """ return self._set(metricLabel=value)
[docs] @since("3.0.0") def getMetricLabel(self) -> float: """ Gets the value of metricLabel or its default value. """ return self.getOrDefault(self.metricLabel)
[docs] @since("3.0.0") def setLabelCol(self, value: str) -> "MultilabelClassificationEvaluator": """ Sets the value of :py:attr:`labelCol`. """ return self._set(labelCol=value)
[docs] @since("3.0.0") def setPredictionCol(self, value: str) -> "MultilabelClassificationEvaluator": """ Sets the value of :py:attr:`predictionCol`. """ return self._set(predictionCol=value)
[docs] @keyword_only @since("3.0.0") def setParams( self, *, predictionCol: str = "prediction", labelCol: str = "label", metricName: "MultilabelClassificationEvaluatorMetricType" = "f1Measure", metricLabel: float = 0.0, ) -> "MultilabelClassificationEvaluator": """ setParams(self, \\*, predictionCol="prediction", labelCol="label", \ metricName="f1Measure", metricLabel=0.0) Sets params for multilabel classification evaluator. """ kwargs = self._input_kwargs return self._set(**kwargs)
[docs]@inherit_doc class ClusteringEvaluator( JavaEvaluator, HasPredictionCol, HasFeaturesCol, HasWeightCol, JavaMLReadable["ClusteringEvaluator"], JavaMLWritable, ): """ Evaluator for Clustering results, which expects two input columns: prediction and features. The metric computes the Silhouette measure using the squared Euclidean distance. The Silhouette is a measure for the validation of the consistency within clusters. It ranges between 1 and -1, where a value close to 1 means that the points in a cluster are close to the other points in the same cluster and far from the points of the other clusters. .. versionadded:: 2.3.0 Examples -------- >>> from pyspark.ml.linalg import Vectors >>> featureAndPredictions = map(lambda x: (Vectors.dense(x[0]), x[1]), ... [([0.0, 0.5], 0.0), ([0.5, 0.0], 0.0), ([10.0, 11.0], 1.0), ... ([10.5, 11.5], 1.0), ([1.0, 1.0], 0.0), ([8.0, 6.0], 1.0)]) >>> dataset = spark.createDataFrame(featureAndPredictions, ["features", "prediction"]) ... >>> evaluator = ClusteringEvaluator() >>> evaluator.setPredictionCol("prediction") ClusteringEvaluator... >>> evaluator.evaluate(dataset) 0.9079... >>> featureAndPredictionsWithWeight = map(lambda x: (Vectors.dense(x[0]), x[1], x[2]), ... [([0.0, 0.5], 0.0, 2.5), ([0.5, 0.0], 0.0, 2.5), ([10.0, 11.0], 1.0, 2.5), ... ([10.5, 11.5], 1.0, 2.5), ([1.0, 1.0], 0.0, 2.5), ([8.0, 6.0], 1.0, 2.5)]) >>> dataset = spark.createDataFrame( ... featureAndPredictionsWithWeight, ["features", "prediction", "weight"]) >>> evaluator = ClusteringEvaluator() >>> evaluator.setPredictionCol("prediction") ClusteringEvaluator... >>> evaluator.setWeightCol("weight") ClusteringEvaluator... >>> evaluator.evaluate(dataset) 0.9079... >>> ce_path = temp_path + "/ce" >>> evaluator.save(ce_path) >>> evaluator2 = ClusteringEvaluator.load(ce_path) >>> str(evaluator2.getPredictionCol()) 'prediction' """ metricName: Param["ClusteringEvaluatorMetricType"] = Param( Params._dummy(), "metricName", "metric name in evaluation (silhouette)", typeConverter=TypeConverters.toString, # type: ignore[arg-type] ) distanceMeasure: Param["ClusteringEvaluatorDistanceMeasureType"] = Param( Params._dummy(), "distanceMeasure", "The distance measure. " + "Supported options: 'squaredEuclidean' and 'cosine'.", typeConverter=TypeConverters.toString, # type: ignore[arg-type] ) _input_kwargs: Dict[str, Any] @keyword_only def __init__( self, *, predictionCol: str = "prediction", featuresCol: str = "features", metricName: "ClusteringEvaluatorMetricType" = "silhouette", distanceMeasure: str = "squaredEuclidean", weightCol: Optional[str] = None, ): """ __init__(self, \\*, predictionCol="prediction", featuresCol="features", \ metricName="silhouette", distanceMeasure="squaredEuclidean", weightCol=None) """ super(ClusteringEvaluator, self).__init__() self._java_obj = self._new_java_obj( "org.apache.spark.ml.evaluation.ClusteringEvaluator", self.uid ) self._setDefault(metricName="silhouette", distanceMeasure="squaredEuclidean") kwargs = self._input_kwargs self._set(**kwargs)
[docs] @keyword_only @since("2.3.0") def setParams( self, *, predictionCol: str = "prediction", featuresCol: str = "features", metricName: "ClusteringEvaluatorMetricType" = "silhouette", distanceMeasure: str = "squaredEuclidean", weightCol: Optional[str] = None, ) -> "ClusteringEvaluator": """ setParams(self, \\*, predictionCol="prediction", featuresCol="features", \ metricName="silhouette", distanceMeasure="squaredEuclidean", weightCol=None) Sets params for clustering evaluator. """ kwargs = self._input_kwargs return self._set(**kwargs)
[docs] @since("2.3.0") def setMetricName(self, value: "ClusteringEvaluatorMetricType") -> "ClusteringEvaluator": """ Sets the value of :py:attr:`metricName`. """ return self._set(metricName=value)
[docs] @since("2.3.0") def getMetricName(self) -> "ClusteringEvaluatorMetricType": """ Gets the value of metricName or its default value. """ return self.getOrDefault(self.metricName)
[docs] @since("2.4.0") def setDistanceMeasure( self, value: "ClusteringEvaluatorDistanceMeasureType" ) -> "ClusteringEvaluator": """ Sets the value of :py:attr:`distanceMeasure`. """ return self._set(distanceMeasure=value)
[docs] @since("2.4.0") def getDistanceMeasure(self) -> "ClusteringEvaluatorDistanceMeasureType": """ Gets the value of `distanceMeasure` """ return self.getOrDefault(self.distanceMeasure)
[docs] def setFeaturesCol(self, value: "str") -> "ClusteringEvaluator": """ Sets the value of :py:attr:`featuresCol`. """ return self._set(featuresCol=value)
[docs] def setPredictionCol(self, value: str) -> "ClusteringEvaluator": """ Sets the value of :py:attr:`predictionCol`. """ return self._set(predictionCol=value)
[docs] @since("3.1.0") def setWeightCol(self, value: str) -> "ClusteringEvaluator": """ Sets the value of :py:attr:`weightCol`. """ return self._set(weightCol=value)
[docs]@inherit_doc class RankingEvaluator( JavaEvaluator, HasLabelCol, HasPredictionCol, JavaMLReadable["RankingEvaluator"], JavaMLWritable ): """ Evaluator for Ranking, which expects two input columns: prediction and label. .. versionadded:: 3.0.0 Notes ----- Experimental Examples -------- >>> scoreAndLabels = [([1.0, 6.0, 2.0, 7.0, 8.0, 3.0, 9.0, 10.0, 4.0, 5.0], ... [1.0, 2.0, 3.0, 4.0, 5.0]), ... ([4.0, 1.0, 5.0, 6.0, 2.0, 7.0, 3.0, 8.0, 9.0, 10.0], [1.0, 2.0, 3.0]), ... ([1.0, 2.0, 3.0, 4.0, 5.0], [])] >>> dataset = spark.createDataFrame(scoreAndLabels, ["prediction", "label"]) ... >>> evaluator = RankingEvaluator() >>> evaluator.setPredictionCol("prediction") RankingEvaluator... >>> evaluator.evaluate(dataset) 0.35... >>> evaluator.evaluate(dataset, {evaluator.metricName: "precisionAtK", evaluator.k: 2}) 0.33... >>> ranke_path = temp_path + "/ranke" >>> evaluator.save(ranke_path) >>> evaluator2 = RankingEvaluator.load(ranke_path) >>> str(evaluator2.getPredictionCol()) 'prediction' """ metricName: Param["RankingEvaluatorMetricType"] = Param( Params._dummy(), "metricName", "metric name in evaluation " "(meanAveragePrecision|meanAveragePrecisionAtK|" "precisionAtK|ndcgAtK|recallAtK)", typeConverter=TypeConverters.toString, # type: ignore[arg-type] ) k: Param[int] = Param( Params._dummy(), "k", "The ranking position value used in meanAveragePrecisionAtK|precisionAtK|" "ndcgAtK|recallAtK. Must be > 0. The default value is 10.", typeConverter=TypeConverters.toInt, ) _input_kwargs: Dict[str, Any] @keyword_only def __init__( self, *, predictionCol: str = "prediction", labelCol: str = "label", metricName: "RankingEvaluatorMetricType" = "meanAveragePrecision", k: int = 10, ): """ __init__(self, \\*, predictionCol="prediction", labelCol="label", \ metricName="meanAveragePrecision", k=10) """ super(RankingEvaluator, self).__init__() self._java_obj = self._new_java_obj( "org.apache.spark.ml.evaluation.RankingEvaluator", self.uid ) self._setDefault(metricName="meanAveragePrecision", k=10) kwargs = self._input_kwargs self._set(**kwargs)
[docs] @since("3.0.0") def setMetricName(self, value: "RankingEvaluatorMetricType") -> "RankingEvaluator": """ Sets the value of :py:attr:`metricName`. """ return self._set(metricName=value)
[docs] @since("3.0.0") def getMetricName(self) -> "RankingEvaluatorMetricType": """ Gets the value of metricName or its default value. """ return self.getOrDefault(self.metricName)
[docs] @since("3.0.0") def setK(self, value: int) -> "RankingEvaluator": """ Sets the value of :py:attr:`k`. """ return self._set(k=value)
[docs] @since("3.0.0") def getK(self) -> int: """ Gets the value of k or its default value. """ return self.getOrDefault(self.k)
[docs] @since("3.0.0") def setLabelCol(self, value: str) -> "RankingEvaluator": """ Sets the value of :py:attr:`labelCol`. """ return self._set(labelCol=value)
[docs] @since("3.0.0") def setPredictionCol(self, value: str) -> "RankingEvaluator": """ Sets the value of :py:attr:`predictionCol`. """ return self._set(predictionCol=value)
[docs] @keyword_only @since("3.0.0") def setParams( self, *, predictionCol: str = "prediction", labelCol: str = "label", metricName: "RankingEvaluatorMetricType" = "meanAveragePrecision", k: int = 10, ) -> "RankingEvaluator": """ setParams(self, \\*, predictionCol="prediction", labelCol="label", \ metricName="meanAveragePrecision", k=10) Sets params for ranking evaluator. """ kwargs = self._input_kwargs return self._set(**kwargs)
if __name__ == "__main__": import doctest import tempfile import pyspark.ml.evaluation from pyspark.sql import SparkSession globs = pyspark.ml.evaluation.__dict__.copy() # The small batch size here ensures that we see multiple batches, # even in these small test examples: spark = SparkSession.builder.master("local[2]").appName("ml.evaluation tests").getOrCreate() globs["spark"] = spark temp_path = tempfile.mkdtemp() globs["temp_path"] = temp_path try: (failure_count, test_count) = doctest.testmod(globs=globs, optionflags=doctest.ELLIPSIS) spark.stop() finally: from shutil import rmtree try: rmtree(temp_path) except OSError: pass if failure_count: sys.exit(-1)