org.apache.spark.mllib.regression

GeneralizedLinearAlgorithm

abstract class GeneralizedLinearAlgorithm[M <: GeneralizedLinearModel] extends Logging with Serializable

:: DeveloperApi :: GeneralizedLinearAlgorithm implements methods to train a Generalized Linear Model (GLM). This class should be extended with an Optimizer to create a new GLM.

Annotations
@Since( "0.8.0" ) @DeveloperApi()
Source
GeneralizedLinearAlgorithm.scala
Linear Supertypes
Serializable, Serializable, Logging, AnyRef, Any
Known Subclasses
LassoWithSGD, LinearRegressionWithSGD, LogisticRegressionWithLBFGS, LogisticRegressionWithSGD, RidgeRegressionWithSGD, SVMWithSGD
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Instance Constructors

  1. new GeneralizedLinearAlgorithm()

Abstract Value Members

  1. abstract def createModel(weights: Vector, intercept: Double): M

    Create a model given the weights and intercept

    Create a model given the weights and intercept

    Attributes
    protected

  2. abstract def optimizer: Optimizer

    The optimizer to solve the problem.

    The optimizer to solve the problem.

    Annotations
    @Since( "0.8.0" )

Concrete Value Members

  1. final def !=(arg0: AnyRef): Boolean

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  2. final def !=(arg0: Any): Boolean

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  3. final def ##(): Int

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  4. final def ==(arg0: AnyRef): Boolean

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  5. final def ==(arg0: Any): Boolean

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  6. var addIntercept: Boolean

    Whether to add intercept (default: false).

    Whether to add intercept (default: false).

    Attributes
    protected

  7. final def asInstanceOf[T0]: T0

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  8. def clone(): AnyRef

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    protected[java.lang]
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  9. final def eq(arg0: AnyRef): Boolean

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  10. def equals(arg0: Any): Boolean

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  11. def finalize(): Unit

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    @throws( classOf[java.lang.Throwable] )

  12. final def getClass(): Class[_]

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  13. def getNumFeatures: Int

    The dimension of training features.

    The dimension of training features.

    Annotations
    @Since( "1.4.0" )

  14. def hashCode(): Int

    Definition Classes
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  15. def isAddIntercept: Boolean

    Get if the algorithm uses addIntercept

    Get if the algorithm uses addIntercept

    Annotations
    @Since( "1.4.0" )

  16. final def isInstanceOf[T0]: Boolean

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  17. def isTraceEnabled(): Boolean

    Attributes
    protected
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  18. def log: Logger

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    protected
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  19. def logDebug(msg: ⇒ String, throwable: Throwable): Unit

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  20. def logDebug(msg: ⇒ String): Unit

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  21. def logError(msg: ⇒ String, throwable: Throwable): Unit

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  22. def logError(msg: ⇒ String): Unit

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  23. def logInfo(msg: ⇒ String, throwable: Throwable): Unit

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  24. def logInfo(msg: ⇒ String): Unit

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  25. def logName: String

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  26. def logTrace(msg: ⇒ String, throwable: Throwable): Unit

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  27. def logTrace(msg: ⇒ String): Unit

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  28. def logWarning(msg: ⇒ String, throwable: Throwable): Unit

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  29. def logWarning(msg: ⇒ String): Unit

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  30. final def ne(arg0: AnyRef): Boolean

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  31. final def notify(): Unit

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  32. final def notifyAll(): Unit

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  33. var numFeatures: Int

    The dimension of training features.

    The dimension of training features.

    Attributes
    protected

  34. var numOfLinearPredictor: Int

    In GeneralizedLinearModel, only single linear predictor is allowed for both weights and intercept.

    In GeneralizedLinearModel, only single linear predictor is allowed for both weights and intercept. However, for multinomial logistic regression, with K possible outcomes, we are training K-1 independent binary logistic regression models which requires K-1 sets of linear predictor.

    As a result, the workaround here is if more than two sets of linear predictors are needed, we construct bigger weights vector which can hold both weights and intercepts. If the intercepts are added, the dimension of weights will be (numOfLinearPredictor) * (numFeatures + 1) . If the intercepts are not added, the dimension of weights will be (numOfLinearPredictor) * numFeatures.

    Thus, the intercepts will be encapsulated into weights, and we leave the value of intercept in GeneralizedLinearModel as zero.

    Attributes
    protected

  35. def run(input: RDD[LabeledPoint], initialWeights: Vector): M

    Run the algorithm with the configured parameters on an input RDD of LabeledPoint entries starting from the initial weights provided.

    Run the algorithm with the configured parameters on an input RDD of LabeledPoint entries starting from the initial weights provided.

    Annotations
    @Since( "1.0.0" )

  36. def run(input: RDD[LabeledPoint]): M

    Run the algorithm with the configured parameters on an input RDD of LabeledPoint entries.

    Run the algorithm with the configured parameters on an input RDD of LabeledPoint entries.

    Annotations
    @Since( "0.8.0" )

  37. def setIntercept(addIntercept: Boolean): GeneralizedLinearAlgorithm.this.type

    Set if the algorithm should add an intercept.

    Set if the algorithm should add an intercept. Default false. We set the default to false because adding the intercept will cause memory allocation.

    Annotations
    @Since( "0.8.0" )

  38. def setValidateData(validateData: Boolean): GeneralizedLinearAlgorithm.this.type

    Set if the algorithm should validate data before training.

    Set if the algorithm should validate data before training. Default true.

    Annotations
    @Since( "0.8.0" )

  39. final def synchronized[T0](arg0: ⇒ T0): T0

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  40. def toString(): String

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  41. var validateData: Boolean

    Attributes
    protected

  42. val validators: Seq[(RDD[LabeledPoint]) ⇒ Boolean]

    Attributes
    protected

  43. final def wait(): Unit

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  44. final def wait(arg0: Long, arg1: Int): Unit

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  45. final def wait(arg0: Long): Unit

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