Uses of Interface de.lmu.ifi.dbs.elki.utilities.datastructures.arraylike.NumberArrayAdapter (ELKI: Environment for DeveLoping KDD-Applications Supported by Index-Structures)

Packages that use NumberArrayAdapter
Package	Description
de.lmu.ifi.dbs.elki.algorithm.outlier	Outlier detection algorithms
de.lmu.ifi.dbs.elki.data	Basic classes for different data types, database object types and label types.
de.lmu.ifi.dbs.elki.data.uncertain.uncertainifier	Classes to generate uncertain objects from existing certain data.
de.lmu.ifi.dbs.elki.datasource.filter.normalization.columnwise	Normalizations operating on columns / variates; where each column is treated independently.
de.lmu.ifi.dbs.elki.math.linearalgebra	Linear Algebra package provides classes and computational methods for operations on matrices.
de.lmu.ifi.dbs.elki.math.statistics	Statistical tests and methods.
de.lmu.ifi.dbs.elki.math.statistics.dependence	Statistical measures of dependence, such as correlation.
de.lmu.ifi.dbs.elki.math.statistics.distribution.estimator	Estimators for statistical distributions.
de.lmu.ifi.dbs.elki.math.statistics.distribution.estimator.meta	Meta estimators: estimators that do not actually estimate themselves, but instead use other estimators, e.g. on a trimmed data set, or as an ensemble.
de.lmu.ifi.dbs.elki.math.statistics.intrinsicdimensionality	Methods for estimating the intrinsic dimensionality.
de.lmu.ifi.dbs.elki.utilities.datastructures.arraylike	Common API for accessing objects that are "array-like", including lists, numerical vectors, database vectors and arrays.
de.lmu.ifi.dbs.elki.utilities.scaling.outlier	Scaling of Outlier scores, that require a statistical analysis of the occurring values

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.algorithm.outlier

Fields in de.lmu.ifi.dbs.elki.algorithm.outlier declared as NumberArrayAdapter
Modifier and Type	Field and Description
`private static NumberArrayAdapter<Double,double[]>`	COP.`SHORTENED_ARRAY` A clone of `DoubleArrayAdapter` that only uses the first 85% of the array!

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.data

Methods in de.lmu.ifi.dbs.elki.data with parameters of type NumberArrayAdapter
Modifier and Type	Method and Description
`<A> SparseShortVector`	SparseShortVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> SparseIntegerVector`	SparseIntegerVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> SparseFloatVector`	SparseFloatVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> SparseDoubleVector`	SparseDoubleVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> SparseByteVector`	SparseByteVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> ShortVector`	ShortVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> OneDimensionalDoubleVector`	OneDimensionalDoubleVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> V`	NumberVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)` Instantiate from any number-array like object.
`<A> IntegerVector`	IntegerVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> FloatVector`	FloatVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> DoubleVector`	DoubleVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> ByteVector`	ByteVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`
`<A> BitVector`	BitVector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.data.uncertain.uncertainifier

Methods in de.lmu.ifi.dbs.elki.data.uncertain.uncertainifier with parameters of type NumberArrayAdapter
Modifier and Type	Method and Description
`<A> WeightedDiscreteUncertainObject`	WeightedDiscreteUncertainifier.`newFeatureVector(Random rand, A array, NumberArrayAdapter<?,A> adapter)`
`<A> UnweightedDiscreteUncertainObject`	UnweightedDiscreteUncertainifier.`newFeatureVector(Random rand, A array, NumberArrayAdapter<?,A> adapter)`
`<A> UniformContinuousUncertainObject`	UniformUncertainifier.`newFeatureVector(Random rand, A array, NumberArrayAdapter<?,A> adapter)`
`<A> UO`	Uncertainifier.`newFeatureVector(Random rand, A array, NumberArrayAdapter<?,A> adapter)` Generate a new uncertain object.
`<A> SimpleGaussianContinuousUncertainObject`	SimpleGaussianUncertainifier.`newFeatureVector(Random rand, A array, NumberArrayAdapter<?,A> adapter)`

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.datasource.filter.normalization.columnwise

Classes in de.lmu.ifi.dbs.elki.datasource.filter.normalization.columnwise that implement NumberArrayAdapter
Modifier and Type	Class and Description
`private static class`	`AttributeWiseBetaNormalization.Adapter` Array adapter class for vectors.
`private static class`	`AttributeWiseCDFNormalization.Adapter` Array adapter class for vectors.

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.linearalgebra

Methods in de.lmu.ifi.dbs.elki.math.linearalgebra with parameters of type NumberArrayAdapter
Modifier and Type	Method and Description
`<A> Vector`	Vector.Factory.`newNumberVector(A array, NumberArrayAdapter<?,? super A> adapter)`

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.statistics

Methods in de.lmu.ifi.dbs.elki.math.statistics with parameters of type NumberArrayAdapter
Modifier and Type	Method and Description
`static <A> double[]`	ProbabilityWeightedMoments.`alphaBetaPWM(A data, NumberArrayAdapter<?,A> adapter, int nmom)` Compute the alpha_r and beta_r factors in parallel using the method of probability-weighted moments.
`static <A> double[]`	ProbabilityWeightedMoments.`alphaPWM(A data, NumberArrayAdapter<?,A> adapter, int nmom)` Compute the alpha_r factors using the method of probability-weighted moments.
`static <A> double[]`	ProbabilityWeightedMoments.`betaPWM(A data, NumberArrayAdapter<?,A> adapter, int nmom)` Compute the beta_r factors using the method of probability-weighted moments.
`static <A> double[]`	ProbabilityWeightedMoments.`samLMR(A sorted, NumberArrayAdapter<?,A> adapter, int nmom)` Compute the sample L-Moments using probability weighted moments.

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.statistics.dependence

Methods in de.lmu.ifi.dbs.elki.math.statistics.dependence with parameters of type NumberArrayAdapter
Modifier and Type	Method and Description
`private <A> ArrayList<int[]>`	MCEDependenceMeasure.`buildPartitions(NumberArrayAdapter<?,A> adapter1, A data1, int len, int depth)` Partitions an attribute.
`protected static <A,B> double[]`	HoeffdingsDDependenceMeasure.`computeBivariateRanks(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2, int len)` Compute bivariate ranks.
`protected static <A,B> double[]`	HoeffdingsDDependenceMeasure.`computeBivariateRanks(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2, int len)` Compute bivariate ranks.
`protected static <A> double[]`	DistanceCorrelationDependenceMeasure.`computeDistances(NumberArrayAdapter<?,A> adapter, A data)` Compute the double-centered delta matrix.
`static <A> double[]`	AbstractDependenceMeasure.`computeNormalizedRanks(NumberArrayAdapter<?,A> adapter, A data, int len)` Compute ranks of all objects, normalized to [0;1] (where 0 is the smallest value, 1 is the largest).
`<A> double`	DependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter, A data1, A data2)` Measure the dependence of two variables.
`<A> double`	AbstractDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter, A data1, A data2)`
`<A,B> double`	SpearmanCorrelationDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	SpearmanCorrelationDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	SlopeInversionDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	SlopeInversionDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	SlopeDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	SlopeDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	SURFINGDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	SURFINGDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	MutualInformationEquiwidthDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	MutualInformationEquiwidthDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	MCEDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	MCEDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	JensenShannonEquiwidthDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	JensenShannonEquiwidthDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	HoeffdingsDDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	HoeffdingsDDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	HiCSDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	HiCSDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	HSMDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	HSMDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	DistanceCorrelationDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	DistanceCorrelationDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	DependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)` Measure the dependence of two variables.
`<A,B> double`	DependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)` Measure the dependence of two variables.
`<A,B> double`	CorrelationDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A,B> double`	CorrelationDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`abstract <A,B> double`	AbstractDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`abstract <A,B> double`	AbstractDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)`
`<A> double[]`	DistanceCorrelationDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter, List<? extends A> data)`
`<A> double[]`	DependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter, List<? extends A> data)` Measure the dependence of two variables.
`<A> double[]`	CorrelationDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter, List<? extends A> data)`
`<A> double[]`	AbstractDependenceMeasure.`dependence(NumberArrayAdapter<?,A> adapter, List<? extends A> data)`
`static <A> int[]`	AbstractDependenceMeasure.`discretize(NumberArrayAdapter<?,A> adapter, A data, int len, int bins)` Discretize a data set into equi-width bin numbers.
`static <A> double[]`	AbstractDependenceMeasure.`ranks(NumberArrayAdapter<?,A> adapter, A data, int len)` Compute ranks of all objects, ranging from 1 to len.
`static <A> double[]`	AbstractDependenceMeasure.`ranks(NumberArrayAdapter<?,A> adapter, A data, int[] idx)` Compute ranks of all objects, ranging from 1 to len.
`static <A,B> int`	AbstractDependenceMeasure.`size(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)` Validate the length of the two data sets (must be the same, and non-zero)
`static <A,B> int`	AbstractDependenceMeasure.`size(NumberArrayAdapter<?,A> adapter1, A data1, NumberArrayAdapter<?,B> adapter2, B data2)` Validate the length of the two data sets (must be the same, and non-zero)
`static <A> int`	AbstractDependenceMeasure.`size(NumberArrayAdapter<?,A> adapter, Collection<? extends A> data)` Validate the length of the two data sets (must be the same, and non-zero)
`static <A> int[]`	AbstractDependenceMeasure.`sortedIndex(NumberArrayAdapter<?,A> adapter, A data, int len)` Build a sorted index of objects.

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.statistics.distribution.estimator

Methods in de.lmu.ifi.dbs.elki.math.statistics.distribution.estimator with parameters of type NumberArrayAdapter
Modifier and Type	Method and Description
`<A> WeibullDistribution`	WeibullLogMOMEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> WaldDistribution`	WaldMLEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> UniformDistribution`	UniformMinMaxEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> UniformDistribution`	UniformEnhancedMinMaxEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> RayleighDistribution`	RayleighMLEEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> NormalDistribution`	NormalLevenbergMarquardtKDEEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> LogNormalDistribution`	LogNormalLevenbergMarquardtKDEEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> LogGammaDistribution`	LogGammaChoiWetteEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> LaplaceDistribution`	LaplaceMLEEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> GammaDistribution`	GammaChoiWetteEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> D`	DistributionEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)` General form of the parameter estimation
`<A> D`	AbstractMeanVarianceEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> D`	AbstractMOMEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> D`	AbstractMADEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> D`	AbstractLogMeanVarianceEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> D`	AbstractLogMOMEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> D`	AbstractLogMADEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> D`	AbstractLMMEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> D`	AbstractExpMADEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`static <A> double`	AbstractLogMOMEstimator.`min(A data, NumberArrayAdapter<?,A> adapter, double minmin, double margin)` Utility function to find minimum and maximum values.

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.statistics.distribution.estimator.meta

Methods in de.lmu.ifi.dbs.elki.math.statistics.distribution.estimator.meta with parameters of type NumberArrayAdapter
Modifier and Type	Method and Description
`<A> D`	WinsorisingEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> D`	TrimmedEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> Distribution`	BestFitEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.statistics.intrinsicdimensionality

Classes in de.lmu.ifi.dbs.elki.math.statistics.intrinsicdimensionality that implement NumberArrayAdapter
Modifier and Type	Class and Description
`private static class`	`LMomentsEstimator.ReverseAdapter<A>` Adapter to process an array in reverse order.

Fields in de.lmu.ifi.dbs.elki.math.statistics.intrinsicdimensionality declared as NumberArrayAdapter
Modifier and Type	Field and Description
`private NumberArrayAdapter<?,A>`	LMomentsEstimator.ReverseAdapter.`inner` Adapter class.

Methods in de.lmu.ifi.dbs.elki.math.statistics.intrinsicdimensionality with parameters of type NumberArrayAdapter
Modifier and Type	Method and Description
`<A> double`	IntrinsicDimensionalityEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)` Estimate from a distance list.
`<A> double`	AbstractIntrinsicDimensionalityEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter)`
`<A> double`	ZipfEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int len)`
`<A> double`	RVEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int k)`
`<A> double`	PWMEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int len)`
`<A> double`	PWM2Estimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int len)`
`<A> double`	MOMEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int len)`
`<A> double`	LMomentsEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int len)`
`<A> double`	IntrinsicDimensionalityEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int size)` Estimate from a distance list.
`<A> double`	HillEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int len)`
`<A> double`	GEDEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int len)`
`<A> double`	EnsembleEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int len)`
`<A> double`	AggregatedHillEstimator.`estimate(A data, NumberArrayAdapter<?,A> adapter, int len)`

Constructors in de.lmu.ifi.dbs.elki.math.statistics.intrinsicdimensionality with parameters of type NumberArrayAdapter
Constructor and Description
`LMomentsEstimator.ReverseAdapter(NumberArrayAdapter<?,A> inner, int size)` Constructor.

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.utilities.datastructures.arraylike

Classes in de.lmu.ifi.dbs.elki.utilities.datastructures.arraylike that implement NumberArrayAdapter
Modifier and Type	Class and Description
`class`	`DoubleArray` Array of double values.
`(package private) class`	`DoubleArrayAdapter` Use a double array as, well, double array in the ArrayAdapter API.
`(package private) class`	`FlatMatrixAdapter` Use a matrix as array, by flattening it into a sequence.
`(package private) class`	`FloatArrayAdapter` Use a double array as, well, double array in the ArrayAdapter API.
`class`	`NumberListArrayAdapter<T extends Number>` Static adapter class to use a `List` in an array of number API.
`class`	`NumberVectorAdapter` Adapter to use a feature vector as an array of features.
`class`	`SubsetNumberArrayAdapter<T extends Number,A>` Subset array adapter (allows reordering and projection)
`class`	`VectorAdapter` Adapter to use a feature vector as an array of features.

Fields in de.lmu.ifi.dbs.elki.utilities.datastructures.arraylike declared as NumberArrayAdapter
Modifier and Type	Field and Description
`static NumberArrayAdapter<Double,double[]>`	ArrayLikeUtil.`DOUBLEARRAYADAPTER` Use a double array in the array API.
`static NumberArrayAdapter<Float,float[]>`	ArrayLikeUtil.`FLOATARRAYADAPTER` Use a float array in the array API.
`static NumberArrayAdapter<Double,Vector>`	ArrayLikeUtil.`VECTORADAPTER` Adapter for vectors.
`(package private) NumberArrayAdapter<T,? super A>`	SubsetNumberArrayAdapter.`wrapped` Wrapped adapter

Methods in de.lmu.ifi.dbs.elki.utilities.datastructures.arraylike that return NumberArrayAdapter
Modifier and Type	Method and Description
`static NumberArrayAdapter<Double,double[]>`	ArrayLikeUtil.`doubleArrayAdapter()` Get the adapter for double arrays.
`static <T extends Number> NumberArrayAdapter<T,List<? extends T>>`	ArrayLikeUtil.`numberListAdapter(List<? extends T> dummy)` Cast the static instance.

Methods in de.lmu.ifi.dbs.elki.utilities.datastructures.arraylike with parameters of type NumberArrayAdapter
Modifier and Type	Method and Description
`static <A> int`	ArrayLikeUtil.`getIndexOfMaximum(A array, NumberArrayAdapter<?,A> adapter)` Returns the index of the maximum of the given values.
`static <A> double[]`	ArrayLikeUtil.`toPrimitiveDoubleArray(A array, NumberArrayAdapter<?,? super A> adapter)` Convert a numeric array-like to a `double[]`.
`static <A> float[]`	ArrayLikeUtil.`toPrimitiveFloatArray(A array, NumberArrayAdapter<?,? super A> adapter)` Convert a numeric array-like to a `float[]`.
`static <A> int[]`	ArrayLikeUtil.`toPrimitiveIntegerArray(A array, NumberArrayAdapter<?,? super A> adapter)` Convert a numeric array-like to a `int[]`.

Constructors in de.lmu.ifi.dbs.elki.utilities.datastructures.arraylike with parameters of type NumberArrayAdapter
Constructor and Description
`SubsetNumberArrayAdapter(NumberArrayAdapter<T,? super A> wrapped, int[] offs)` Constructor.

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.utilities.scaling.outlier

Methods in de.lmu.ifi.dbs.elki.utilities.scaling.outlier with parameters of type NumberArrayAdapter
Modifier and Type	Method and Description
`private <A> double[]`	SigmoidOutlierScalingFunction.`MStepLevenbergMarquardt(double a, double b, long[] t, A array, NumberArrayAdapter<?,A> adapter)` M-Step using a modified Levenberg-Marquardt method.
`<A> void`	TopKOutlierScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	StandardDeviationScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	SqrtStandardDeviationScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	SigmoidOutlierScalingFunction.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	RankingPseudoOutlierScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	OutlierSqrtScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	OutlierScalingFunction.`prepare(A array, NumberArrayAdapter<?,A> adapter)` Prepare is called once for each data set, before getScaled() will be called.
`<A> void`	OutlierMinusLogScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	OutlierLinearScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	OutlierGammaScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	MultiplicativeInverseScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	MixtureModelOutlierScalingFunction.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	LogRankingPseudoOutlierScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	HeDESNormalizationOutlierScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`
`<A> void`	COPOutlierScaling.`prepare(A array, NumberArrayAdapter<?,A> adapter)`

Uses of Interfacede.lmu.ifi.dbs.elki.utilities.datastructures.arraylike.NumberArrayAdapter

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.algorithm.outlier

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.data

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.data.uncertain.uncertainifier

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.datasource.filter.normalization.columnwise

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.linearalgebra

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.statistics

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.statistics.dependence

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.statistics.distribution.estimator

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.statistics.distribution.estimator.meta

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.math.statistics.intrinsicdimensionality

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.utilities.datastructures.arraylike

Uses of NumberArrayAdapter in de.lmu.ifi.dbs.elki.utilities.scaling.outlier

Uses of Interface
de.lmu.ifi.dbs.elki.utilities.datastructures.arraylike.NumberArrayAdapter