Uses of Class
org.apache.commons.math3.exception.OutOfRangeException

Packages that use OutOfRangeException
org.apache.commons.math3.analysis.function The function package contains function objects that wrap the methods contained in Math, as well as common mathematical functions such as the gaussian and sinc functions. 
org.apache.commons.math3.analysis.interpolation Univariate real functions interpolation algorithms. 
org.apache.commons.math3.complex Complex number type and implementations of complex transcendental functions. 
org.apache.commons.math3.distribution Implementations of common discrete and continuous distributions. 
org.apache.commons.math3.genetics This package provides Genetic Algorithms components and implementations. 
org.apache.commons.math3.linear Linear algebra support. 
org.apache.commons.math3.random Random number and random data generators. 
org.apache.commons.math3.stat.inference Classes providing hypothesis testing and confidence interval construction. 
org.apache.commons.math3.stat.regression Statistical routines involving multivariate data. 
org.apache.commons.math3.util Convenience routines and common data structures used throughout the commons-math library. 
 

Uses of OutOfRangeException in org.apache.commons.math3.analysis.function
 

Methods in org.apache.commons.math3.analysis.function that throw OutOfRangeException
 DerivativeStructure Logit.value(DerivativeStructure t)
          Simple mathematical function.
 double Logit.value(double x)
          Compute the value of the function.
 

Uses of OutOfRangeException in org.apache.commons.math3.analysis.interpolation
 

Methods in org.apache.commons.math3.analysis.interpolation that throw OutOfRangeException
 double BicubicSplineInterpolatingFunction.partialDerivativeX(double x, double y)
           
 double BicubicSplineInterpolatingFunction.partialDerivativeXX(double x, double y)
           
 double BicubicSplineInterpolatingFunction.partialDerivativeXY(double x, double y)
           
 double BicubicSplineInterpolatingFunction.partialDerivativeY(double x, double y)
           
 double BicubicSplineInterpolatingFunction.partialDerivativeYY(double x, double y)
           
 double BicubicSplineInterpolatingFunction.value(double x, double y)
          Compute the value for the function.
 double TricubicSplineInterpolatingFunction.value(double x, double y, double z)
          Compute the value for the function.
 

Constructors in org.apache.commons.math3.analysis.interpolation that throw OutOfRangeException
LoessInterpolator(double bandwidth, int robustnessIters, double accuracy)
          Construct a new LoessInterpolator with given bandwidth, number of robustness iterations and accuracy.
 

Uses of OutOfRangeException in org.apache.commons.math3.complex
 

Methods in org.apache.commons.math3.complex that throw OutOfRangeException
 double RootsOfUnity.getImaginary(int k)
          Get the imaginary part of the k-th n-th root of unity.
 

Uses of OutOfRangeException in org.apache.commons.math3.distribution
 

Methods in org.apache.commons.math3.distribution that throw OutOfRangeException
 double ExponentialDistribution.inverseCumulativeProbability(double p)
          Computes the quantile function of this distribution.
 double TriangularDistribution.inverseCumulativeProbability(double p)
           
 double RealDistribution.inverseCumulativeProbability(double p)
          Computes the quantile function of this distribution.
 double AbstractRealDistribution.inverseCumulativeProbability(double p)
          Computes the quantile function of this distribution.
 int AbstractIntegerDistribution.inverseCumulativeProbability(double p)
          Computes the quantile function of this distribution.
 int IntegerDistribution.inverseCumulativeProbability(double p)
          Computes the quantile function of this distribution.
 double CauchyDistribution.inverseCumulativeProbability(double p)
          Computes the quantile function of this distribution.
 

Constructors in org.apache.commons.math3.distribution that throw OutOfRangeException
PascalDistribution(int r, double p)
          Create a Pascal distribution with the given number of successes and probability of success.
PascalDistribution(RandomGenerator rng, int r, double p)
          Create a Pascal distribution with the given number of successes and probability of success.
 

Uses of OutOfRangeException in org.apache.commons.math3.genetics
 

Methods in org.apache.commons.math3.genetics that throw OutOfRangeException
 void ElitisticListPopulation.setElitismRate(double elitismRate)
          Sets the elitism rate, i.e.
 

Constructors in org.apache.commons.math3.genetics that throw OutOfRangeException
ElitisticListPopulation(int populationLimit, double elitismRate)
          Creates a new ElitisticListPopulation instance and initializes its inner chromosome list.
ElitisticListPopulation(List<Chromosome> chromosomes, int populationLimit, double elitismRate)
          Creates a new ElitisticListPopulation instance.
GeneticAlgorithm(CrossoverPolicy crossoverPolicy, double crossoverRate, MutationPolicy mutationPolicy, double mutationRate, SelectionPolicy selectionPolicy)
          Create a new genetic algorithm.
UniformCrossover(double ratio)
          Creates a new UniformCrossover policy using the given mixing ratio.
 

Uses of OutOfRangeException in org.apache.commons.math3.linear
 

Methods in org.apache.commons.math3.linear that throw OutOfRangeException
 void ArrayRealVector.addToEntry(int index, double increment)
          Change an entry at the specified index.
 void RealVector.addToEntry(int index, double increment)
          Change an entry at the specified index.
 void Array2DRowRealMatrix.addToEntry(int row, int column, double increment)
          Adds (in place) the specified value to the specified entry of this matrix.
 void AbstractRealMatrix.addToEntry(int row, int column, double increment)
          Adds (in place) the specified value to the specified entry of this matrix.
 void RealMatrix.addToEntry(int row, int column, double increment)
          Adds (in place) the specified value to the specified entry of this matrix.
 void BlockRealMatrix.addToEntry(int row, int column, double increment)
          Adds (in place) the specified value to the specified entry of this matrix.
 void OpenMapRealMatrix.addToEntry(int row, int column, double increment)
          Deprecated. Adds (in place) the specified value to the specified entry of this matrix.
 void FieldMatrix.addToEntry(int row, int column, T increment)
          Change an entry in the specified row and column.
 void Array2DRowFieldMatrix.addToEntry(int row, int column, T increment)
          Change an entry in the specified row and column.
abstract  void AbstractFieldMatrix.addToEntry(int row, int column, T increment)
          Change an entry in the specified row and column.
 void BlockFieldMatrix.addToEntry(int row, int column, T increment)
          Change an entry in the specified row and column.
static void MatrixUtils.checkColumnIndex(AnyMatrix m, int column)
          Check if a column index is valid.
protected  void AbstractFieldMatrix.checkColumnIndex(int column)
          Check if a column index is valid.
protected  void RealVector.checkIndex(int index)
          Check if an index is valid.
protected  void RealVector.checkIndices(int start, int end)
          Checks that the indices of a subvector are valid.
static void MatrixUtils.checkMatrixIndex(AnyMatrix m, int row, int column)
          Check if matrix indices are valid.
static void MatrixUtils.checkRowIndex(AnyMatrix m, int row)
          Check if a row index is valid.
protected  void AbstractFieldMatrix.checkRowIndex(int row)
          Check if a row index is valid.
static void MatrixUtils.checkSubMatrixIndex(AnyMatrix m, int[] selectedRows, int[] selectedColumns)
          Check if submatrix ranges indices are valid.
static void MatrixUtils.checkSubMatrixIndex(AnyMatrix m, int startRow, int endRow, int startColumn, int endColumn)
          Check if submatrix ranges indices are valid.
protected  void AbstractFieldMatrix.checkSubMatrixIndex(int[] selectedRows, int[] selectedColumns)
          Check if submatrix ranges indices are valid.
protected  void AbstractFieldMatrix.checkSubMatrixIndex(int startRow, int endRow, int startColumn, int endColumn)
          Check if submatrix ranges indices are valid.
 void AbstractRealMatrix.copySubMatrix(int[] selectedRows, int[] selectedColumns, double[][] destination)
          Copy a submatrix.
 void RealMatrix.copySubMatrix(int[] selectedRows, int[] selectedColumns, double[][] destination)
          Copy a submatrix.
 void FieldMatrix.copySubMatrix(int[] selectedRows, int[] selectedColumns, T[][] destination)
          Copy a submatrix.
 void AbstractFieldMatrix.copySubMatrix(int[] selectedRows, int[] selectedColumns, T[][] destination)
          Copy a submatrix.
 void AbstractRealMatrix.copySubMatrix(int startRow, int endRow, int startColumn, int endColumn, double[][] destination)
          Copy a submatrix.
 void RealMatrix.copySubMatrix(int startRow, int endRow, int startColumn, int endColumn, double[][] destination)
          Copy a submatrix.
 void FieldMatrix.copySubMatrix(int startRow, int endRow, int startColumn, int endColumn, T[][] destination)
          Copy a submatrix.
 void AbstractFieldMatrix.copySubMatrix(int startRow, int endRow, int startColumn, int endColumn, T[][] destination)
          Copy a submatrix.
 double[] AbstractRealMatrix.getColumn(int column)
          Get the entries at the given column index as an array.
 double[] RealMatrix.getColumn(int column)
          Get the entries at the given column index as an array.
 T[] FieldMatrix.getColumn(int column)
          Get the entries in column number col as an array.
 double[] BlockRealMatrix.getColumn(int column)
          Get the entries at the given column index as an array.
 T[] AbstractFieldMatrix.getColumn(int column)
          Get the entries in column number col as an array.
 T[] BlockFieldMatrix.getColumn(int column)
          Get the entries in column number col as an array.
 RealMatrix AbstractRealMatrix.getColumnMatrix(int column)
          Get the entries at the given column index as a column matrix.
 RealMatrix RealMatrix.getColumnMatrix(int column)
          Get the entries at the given column index as a column matrix.
 FieldMatrix<T> FieldMatrix.getColumnMatrix(int column)
          Get the entries in column number column as a column matrix.
 BlockRealMatrix BlockRealMatrix.getColumnMatrix(int column)
          Get the entries at the given column index as a column matrix.
 FieldMatrix<T> AbstractFieldMatrix.getColumnMatrix(int column)
          Get the entries in column number column as a column matrix.
 FieldMatrix<T> BlockFieldMatrix.getColumnMatrix(int column)
          Get the entries in column number column as a column matrix.
 RealVector AbstractRealMatrix.getColumnVector(int column)
          Get the entries at the given column index as a vector.
 RealVector RealMatrix.getColumnVector(int column)
          Get the entries at the given column index as a vector.
 FieldVector<T> FieldMatrix.getColumnVector(int column)
          Returns the entries in column number column as a vector.
 RealVector BlockRealMatrix.getColumnVector(int column)
          Get the entries at the given column index as a vector.
 FieldVector<T> AbstractFieldMatrix.getColumnVector(int column)
          Returns the entries in column number column as a vector.
 FieldVector<T> BlockFieldMatrix.getColumnVector(int column)
          Returns the entries in column number column as a vector.
 T SparseFieldVector.getEntry(int index)
          Deprecated. Returns the entry in the specified index.
 T FieldVector.getEntry(int index)
          Returns the entry in the specified index.
 double ArrayRealVector.getEntry(int index)
          Return the entry at the specified index.
abstract  double RealVector.getEntry(int index)
          Return the entry at the specified index.
 double OpenMapRealVector.getEntry(int index)
          Deprecated. Return the entry at the specified index.
 double Array2DRowRealMatrix.getEntry(int row, int column)
          Get the entry in the specified row and column.
abstract  double AbstractRealMatrix.getEntry(int row, int column)
          Get the entry in the specified row and column.
 double RealMatrix.getEntry(int row, int column)
          Get the entry in the specified row and column.
 T FieldMatrix.getEntry(int row, int column)
          Returns the entry in the specified row and column.
 double BlockRealMatrix.getEntry(int row, int column)
          Get the entry in the specified row and column.
 double OpenMapRealMatrix.getEntry(int row, int column)
          Deprecated. Get the entry in the specified row and column.
 T Array2DRowFieldMatrix.getEntry(int row, int column)
          Returns the entry in the specified row and column.
abstract  T AbstractFieldMatrix.getEntry(int row, int column)
          Returns the entry in the specified row and column.
 T BlockFieldMatrix.getEntry(int row, int column)
          Returns the entry in the specified row and column.
 double[] AbstractRealMatrix.getRow(int row)
          Get the entries at the given row index.
 double[] RealMatrix.getRow(int row)
          Get the entries at the given row index.
 T[] FieldMatrix.getRow(int row)
          Get the entries in row number row as an array.
 double[] BlockRealMatrix.getRow(int row)
          Get the entries at the given row index.
 T[] AbstractFieldMatrix.getRow(int row)
          Get the entries in row number row as an array.
 T[] BlockFieldMatrix.getRow(int row)
          Get the entries in row number row as an array.
 RealMatrix AbstractRealMatrix.getRowMatrix(int row)
          Get the entries at the given row index as a row matrix.
 RealMatrix RealMatrix.getRowMatrix(int row)
          Get the entries at the given row index as a row matrix.
 FieldMatrix<T> FieldMatrix.getRowMatrix(int row)
          Get the entries in row number row as a row matrix.
 BlockRealMatrix BlockRealMatrix.getRowMatrix(int row)
          Get the entries at the given row index as a row matrix.
 FieldMatrix<T> AbstractFieldMatrix.getRowMatrix(int row)
          Get the entries in row number row as a row matrix.
 FieldMatrix<T> BlockFieldMatrix.getRowMatrix(int row)
          Get the entries in row number row as a row matrix.
 RealVector AbstractRealMatrix.getRowVector(int row)
          Returns the entries in row number row as a vector.
 RealVector RealMatrix.getRowVector(int row)
          Returns the entries in row number row as a vector.
 FieldVector<T> FieldMatrix.getRowVector(int row)
          Get the entries in row number row as a vector.
 RealVector BlockRealMatrix.getRowVector(int row)
          Returns the entries in row number row as a vector.
 FieldVector<T> AbstractFieldMatrix.getRowVector(int row)
          Get the entries in row number row as a vector.
 FieldVector<T> BlockFieldMatrix.getRowVector(int row)
          Get the entries in row number row as a vector.
 RealMatrix AbstractRealMatrix.getSubMatrix(int[] selectedRows, int[] selectedColumns)
          Gets a submatrix.
 RealMatrix RealMatrix.getSubMatrix(int[] selectedRows, int[] selectedColumns)
          Gets a submatrix.
 FieldMatrix<T> FieldMatrix.getSubMatrix(int[] selectedRows, int[] selectedColumns)
          Get a submatrix.
 FieldMatrix<T> AbstractFieldMatrix.getSubMatrix(int[] selectedRows, int[] selectedColumns)
          Get a submatrix.
 RealMatrix AbstractRealMatrix.getSubMatrix(int startRow, int endRow, int startColumn, int endColumn)
          Gets a submatrix.
 RealMatrix RealMatrix.getSubMatrix(int startRow, int endRow, int startColumn, int endColumn)
          Gets a submatrix.
 FieldMatrix<T> FieldMatrix.getSubMatrix(int startRow, int endRow, int startColumn, int endColumn)
          Get a submatrix.
 BlockRealMatrix BlockRealMatrix.getSubMatrix(int startRow, int endRow, int startColumn, int endColumn)
          Gets a submatrix.
 FieldMatrix<T> AbstractFieldMatrix.getSubMatrix(int startRow, int endRow, int startColumn, int endColumn)
          Get a submatrix.
 FieldMatrix<T> BlockFieldMatrix.getSubMatrix(int startRow, int endRow, int startColumn, int endColumn)
          Get a submatrix.
 FieldVector<T> ArrayFieldVector.getSubVector(int index, int n)
          Get a subvector from consecutive elements.
 FieldVector<T> SparseFieldVector.getSubVector(int index, int n)
          Deprecated. Get a subvector from consecutive elements.
 FieldVector<T> FieldVector.getSubVector(int index, int n)
          Get a subvector from consecutive elements.
 RealVector ArrayRealVector.getSubVector(int index, int n)
          Get a subvector from consecutive elements.
abstract  RealVector RealVector.getSubVector(int index, int n)
          Get a subvector from consecutive elements.
 OpenMapRealVector OpenMapRealVector.getSubVector(int index, int n)
          Deprecated. Get a subvector from consecutive elements.
 void Array2DRowRealMatrix.multiplyEntry(int row, int column, double factor)
          Multiplies (in place) the specified entry of this matrix by the specified value.
 void AbstractRealMatrix.multiplyEntry(int row, int column, double factor)
          Multiplies (in place) the specified entry of this matrix by the specified value.
 void RealMatrix.multiplyEntry(int row, int column, double factor)
          Multiplies (in place) the specified entry of this matrix by the specified value.
 void BlockRealMatrix.multiplyEntry(int row, int column, double factor)
          Multiplies (in place) the specified entry of this matrix by the specified value.
 void OpenMapRealMatrix.multiplyEntry(int row, int column, double factor)
          Deprecated. Multiplies (in place) the specified entry of this matrix by the specified value.
 void FieldMatrix.multiplyEntry(int row, int column, T factor)
          Change an entry in the specified row and column.
 void Array2DRowFieldMatrix.multiplyEntry(int row, int column, T factor)
          Change an entry in the specified row and column.
abstract  void AbstractFieldMatrix.multiplyEntry(int row, int column, T factor)
          Change an entry in the specified row and column.
 void BlockFieldMatrix.multiplyEntry(int row, int column, T factor)
          Change an entry in the specified row and column.
 void ArrayFieldVector.set(int index, ArrayFieldVector<T> v)
          Set a set of consecutive elements.
 void AbstractRealMatrix.setColumn(int column, double[] array)
          Sets the specified column of this matrix to the entries of the specified array.
 void RealMatrix.setColumn(int column, double[] array)
          Sets the specified column of this matrix to the entries of the specified array.
 void BlockRealMatrix.setColumn(int column, double[] array)
          Sets the specified column of this matrix to the entries of the specified array.
 void FieldMatrix.setColumn(int column, T[] array)
          Set the entries in column number column as a column matrix.
 void AbstractFieldMatrix.setColumn(int column, T[] array)
          Set the entries in column number column as a column matrix.
 void BlockFieldMatrix.setColumn(int column, T[] array)
          Set the entries in column number column as a column matrix.
 void FieldMatrix.setColumnMatrix(int column, FieldMatrix<T> matrix)
          Set the entries in column number column as a column matrix.
 void AbstractFieldMatrix.setColumnMatrix(int column, FieldMatrix<T> matrix)
          Set the entries in column number column as a column matrix.
 void BlockFieldMatrix.setColumnMatrix(int column, FieldMatrix<T> matrix)
          Set the entries in column number column as a column matrix.
 void AbstractRealMatrix.setColumnMatrix(int column, RealMatrix matrix)
          Sets the specified column of this matrix to the entries of the specified column matrix.
 void RealMatrix.setColumnMatrix(int column, RealMatrix matrix)
          Sets the specified column of this matrix to the entries of the specified column matrix.
 void BlockRealMatrix.setColumnMatrix(int column, RealMatrix matrix)
          Sets the specified column of this matrix to the entries of the specified column matrix.
 void FieldMatrix.setColumnVector(int column, FieldVector<T> vector)
          Set the entries in column number column as a vector.
 void AbstractFieldMatrix.setColumnVector(int column, FieldVector<T> vector)
          Set the entries in column number column as a vector.
 void BlockFieldMatrix.setColumnVector(int column, FieldVector<T> vector)
          Set the entries in column number column as a vector.
 void AbstractRealMatrix.setColumnVector(int column, RealVector vector)
          Sets the specified column of this matrix to the entries of the specified vector.
 void RealMatrix.setColumnVector(int column, RealVector vector)
          Sets the specified column of this matrix to the entries of the specified vector.
 void BlockRealMatrix.setColumnVector(int column, RealVector vector)
          Sets the specified column of this matrix to the entries of the specified vector.
 void ArrayRealVector.setEntry(int index, double value)
          Set a single element.
abstract  void RealVector.setEntry(int index, double value)
          Set a single element.
 void OpenMapRealVector.setEntry(int index, double value)
          Deprecated. Set a single element.
 void Array2DRowRealMatrix.setEntry(int row, int column, double value)
          Set the entry in the specified row and column.
abstract  void AbstractRealMatrix.setEntry(int row, int column, double value)
          Set the entry in the specified row and column.
 void RealMatrix.setEntry(int row, int column, double value)
          Set the entry in the specified row and column.
 void BlockRealMatrix.setEntry(int row, int column, double value)
          Set the entry in the specified row and column.
 void OpenMapRealMatrix.setEntry(int row, int column, double value)
          Deprecated. Set the entry in the specified row and column.
 void FieldMatrix.setEntry(int row, int column, T value)
          Set the entry in the specified row and column.
 void Array2DRowFieldMatrix.setEntry(int row, int column, T value)
          Set the entry in the specified row and column.
abstract  void AbstractFieldMatrix.setEntry(int row, int column, T value)
          Set the entry in the specified row and column.
 void BlockFieldMatrix.setEntry(int row, int column, T value)
          Set the entry in the specified row and column.
 void SparseFieldVector.setEntry(int index, T value)
          Deprecated. Set a single element.
 void FieldVector.setEntry(int index, T value)
          Set a single element.
 void AbstractRealMatrix.setRow(int row, double[] array)
          Sets the specified row of this matrix to the entries of the specified array.
 void RealMatrix.setRow(int row, double[] array)
          Sets the specified row of this matrix to the entries of the specified array.
 void BlockRealMatrix.setRow(int row, double[] array)
          Sets the specified row of this matrix to the entries of the specified array.
 void FieldMatrix.setRow(int row, T[] array)
          Set the entries in row number row as a row matrix.
 void AbstractFieldMatrix.setRow(int row, T[] array)
          Set the entries in row number row as a row matrix.
 void BlockFieldMatrix.setRow(int row, T[] array)
          Set the entries in row number row as a row matrix.
 void BlockFieldMatrix.setRowMatrix(int row, BlockFieldMatrix<T> matrix)
          Sets the entries in row number row as a row matrix.
 void BlockRealMatrix.setRowMatrix(int row, BlockRealMatrix matrix)
          Sets the entries in row number row as a row matrix.
 void FieldMatrix.setRowMatrix(int row, FieldMatrix<T> matrix)
          Set the entries in row number row as a row matrix.
 void AbstractFieldMatrix.setRowMatrix(int row, FieldMatrix<T> matrix)
          Set the entries in row number row as a row matrix.
 void BlockFieldMatrix.setRowMatrix(int row, FieldMatrix<T> matrix)
          Set the entries in row number row as a row matrix.
 void AbstractRealMatrix.setRowMatrix(int row, RealMatrix matrix)
          Sets the specified row of this matrix to the entries of the specified row matrix.
 void RealMatrix.setRowMatrix(int row, RealMatrix matrix)
          Sets the specified row of this matrix to the entries of the specified row matrix.
 void BlockRealMatrix.setRowMatrix(int row, RealMatrix matrix)
          Sets the specified row of this matrix to the entries of the specified row matrix.
 void FieldMatrix.setRowVector(int row, FieldVector<T> vector)
          Set the entries in row number row as a vector.
 void AbstractFieldMatrix.setRowVector(int row, FieldVector<T> vector)
          Set the entries in row number row as a vector.
 void BlockFieldMatrix.setRowVector(int row, FieldVector<T> vector)
          Set the entries in row number row as a vector.
 void AbstractRealMatrix.setRowVector(int row, RealVector vector)
          Sets the specified row of this matrix to the entries of the specified vector.
 void RealMatrix.setRowVector(int row, RealVector vector)
          Sets the specified row of this matrix to the entries of the specified vector.
 void BlockRealMatrix.setRowVector(int row, RealVector vector)
          Sets the specified row of this matrix to the entries of the specified vector.
 void Array2DRowRealMatrix.setSubMatrix(double[][] subMatrix, int row, int column)
          Replace the submatrix starting at row, column using data in the input subMatrix array.
 void AbstractRealMatrix.setSubMatrix(double[][] subMatrix, int row, int column)
          Replace the submatrix starting at row, column using data in the input subMatrix array.
 void RealMatrix.setSubMatrix(double[][] subMatrix, int row, int column)
          Replace the submatrix starting at row, column using data in the input subMatrix array.
 void BlockRealMatrix.setSubMatrix(double[][] subMatrix, int row, int column)
          Replace the submatrix starting at row, column using data in the input subMatrix array.
 void FieldMatrix.setSubMatrix(T[][] subMatrix, int row, int column)
          Replace the submatrix starting at (row, column) using data in the input subMatrix array.
 void Array2DRowFieldMatrix.setSubMatrix(T[][] subMatrix, int row, int column)
          Replace the submatrix starting at (row, column) using data in the input subMatrix array.
 void AbstractFieldMatrix.setSubMatrix(T[][] subMatrix, int row, int column)
          Replace the submatrix starting at (row, column) using data in the input subMatrix array.
 void BlockFieldMatrix.setSubMatrix(T[][] subMatrix, int row, int column)
          Replace the submatrix starting at (row, column) using data in the input subMatrix array.
 void ArrayRealVector.setSubVector(int index, double[] v)
          Set a set of consecutive elements.
 void ArrayFieldVector.setSubVector(int index, FieldVector<T> v)
          Set a set of consecutive elements.
 void SparseFieldVector.setSubVector(int index, FieldVector<T> v)
          Deprecated. Set a set of consecutive elements.
 void FieldVector.setSubVector(int index, FieldVector<T> v)
          Set a set of consecutive elements.
 void ArrayRealVector.setSubVector(int index, RealVector v)
          Set a sequence of consecutive elements.
abstract  void RealVector.setSubVector(int index, RealVector v)
          Set a sequence of consecutive elements.
 void OpenMapRealVector.setSubVector(int index, RealVector v)
          Deprecated. Set a sequence of consecutive elements.
 T FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in column order.
 T Array2DRowFieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in column order.
 T AbstractFieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in column order.
 T FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in column order.
 T Array2DRowFieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in column order.
 T AbstractFieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in column order.
 double Array2DRowRealMatrix.walkInColumnOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in column order.
 double AbstractRealMatrix.walkInColumnOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in column order.
 double RealMatrix.walkInColumnOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in column order.
 double Array2DRowRealMatrix.walkInColumnOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in column order.
 double AbstractRealMatrix.walkInColumnOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in column order.
 double RealMatrix.walkInColumnOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in column order.
 double ArrayRealVector.walkInDefaultOrder(RealVectorChangingVisitor visitor, int start, int end)
          Visits (and possibly alters) some entries of this vector in default order (increasing index).
 double RealVector.walkInDefaultOrder(RealVectorChangingVisitor visitor, int start, int end)
          Visits (and possibly alters) some entries of this vector in default order (increasing index).
 double ArrayRealVector.walkInDefaultOrder(RealVectorPreservingVisitor visitor, int start, int end)
          Visits (but does not alter) some entries of this vector in default order (increasing index).
 double RealVector.walkInDefaultOrder(RealVectorPreservingVisitor visitor, int start, int end)
          Visits (but does not alter) some entries of this vector in default order (increasing index).
 T FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries using the fastest possible order.
 T AbstractFieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries using the fastest possible order.
 T BlockFieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries using the fastest possible order.
 T FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries using the fastest possible order.
 T AbstractFieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries using the fastest possible order.
 T BlockFieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries using the fastest possible order.
 double AbstractRealMatrix.walkInOptimizedOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries using the fastest possible order.
 double RealMatrix.walkInOptimizedOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries using the fastest possible order.
 double BlockRealMatrix.walkInOptimizedOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries using the fastest possible order.
 double AbstractRealMatrix.walkInOptimizedOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries using the fastest possible order.
 double RealMatrix.walkInOptimizedOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries using the fastest possible order.
 double BlockRealMatrix.walkInOptimizedOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries using the fastest possible order.
 double ArrayRealVector.walkInOptimizedOrder(RealVectorChangingVisitor visitor, int start, int end)
          Visits (and possibly change) some entries of this vector in optimized order.
 double RealVector.walkInOptimizedOrder(RealVectorChangingVisitor visitor, int start, int end)
          Visits (and possibly change) some entries of this vector in optimized order.
 double ArrayRealVector.walkInOptimizedOrder(RealVectorPreservingVisitor visitor, int start, int end)
          Visits (but does not alter) some entries of this vector in optimized order.
 double RealVector.walkInOptimizedOrder(RealVectorPreservingVisitor visitor, int start, int end)
          Visits (but does not alter) some entries of this vector in optimized order.
 T FieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in row order.
 T Array2DRowFieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in row order.
 T AbstractFieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in row order.
 T BlockFieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in row order.
 T FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in row order.
 T Array2DRowFieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in row order.
 T AbstractFieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in row order.
 T BlockFieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in row order.
 double Array2DRowRealMatrix.walkInRowOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in row order.
 double AbstractRealMatrix.walkInRowOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in row order.
 double RealMatrix.walkInRowOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in row order.
 double BlockRealMatrix.walkInRowOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (and possibly change) some matrix entries in row order.
 double Array2DRowRealMatrix.walkInRowOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in row order.
 double AbstractRealMatrix.walkInRowOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in row order.
 double RealMatrix.walkInRowOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in row order.
 double BlockRealMatrix.walkInRowOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn)
          Visit (but don't change) some matrix entries in row order.
 

Uses of OutOfRangeException in org.apache.commons.math3.random
 

Methods in org.apache.commons.math3.random that throw OutOfRangeException
 double EmpiricalDistribution.inverseCumulativeProbability(double p)
          Computes the quantile function of this distribution.
 int RandomDataGenerator.nextPascal(int r, double p)
          Generates a random value from the Pascal Distribution.
 int RandomDataImpl.nextPascal(int r, double p)
          Deprecated. Generates a random value from the Pascal Distribution.
 

Constructors in org.apache.commons.math3.random that throw OutOfRangeException
StableRandomGenerator(RandomGenerator generator, double alpha, double beta)
          Create a new generator.
 

Uses of OutOfRangeException in org.apache.commons.math3.stat.inference
 

Methods in org.apache.commons.math3.stat.inference that throw OutOfRangeException
 boolean OneWayAnova.anovaTest(Collection<double[]> categoryData, double alpha)
          Performs an ANOVA test, evaluating the null hypothesis that there is no difference among the means of the data categories.
static boolean TestUtils.chiSquareTest(double[] expected, long[] observed, double alpha)
           
 boolean ChiSquareTest.chiSquareTest(double[] expected, long[] observed, double alpha)
          Performs a Chi-square goodness of fit test evaluating the null hypothesis that the observed counts conform to the frequency distribution described by the expected counts, with significance level alpha.
static boolean TestUtils.chiSquareTest(long[][] counts, double alpha)
           
 boolean ChiSquareTest.chiSquareTest(long[][] counts, double alpha)
          Performs a chi-square test of independence evaluating the null hypothesis that the classifications represented by the counts in the columns of the input 2-way table are independent of the rows, with significance level alpha.
static boolean TestUtils.chiSquareTestDataSetsComparison(long[] observed1, long[] observed2, double alpha)
           
 boolean ChiSquareTest.chiSquareTestDataSetsComparison(long[] observed1, long[] observed2, double alpha)
          Performs a Chi-Square two sample test comparing two binned data sets.
static boolean TestUtils.gTest(double[] expected, long[] observed, double alpha)
           
 boolean GTest.gTest(double[] expected, long[] observed, double alpha)
          Performs a G-Test (Log-Likelihood Ratio Test) for goodness of fit evaluating the null hypothesis that the observed counts conform to the frequency distribution described by the expected counts, with significance level alpha.
static boolean TestUtils.gTestDataSetsComparison(long[] observed1, long[] observed2, double alpha)
           
 boolean GTest.gTestDataSetsComparison(long[] observed1, long[] observed2, double alpha)
          Performs a G-Test (Log-Likelihood Ratio Test) comparing two binned data sets.
static boolean TestUtils.homoscedasticTTest(double[] sample1, double[] sample2, double alpha)
           
 boolean TTest.homoscedasticTTest(double[] sample1, double[] sample2, double alpha)
          Performs a two-sided t-test evaluating the null hypothesis that sample1 and sample2 are drawn from populations with the same mean, with significance level alpha, assuming that the subpopulation variances are equal.
static boolean TestUtils.oneWayAnovaTest(Collection<double[]> categoryData, double alpha)
           
static boolean TestUtils.pairedTTest(double[] sample1, double[] sample2, double alpha)
           
 boolean TTest.pairedTTest(double[] sample1, double[] sample2, double alpha)
          Performs a paired t-test evaluating the null hypothesis that the mean of the paired differences between sample1 and sample2 is 0 in favor of the two-sided alternative that the mean paired difference is not equal to 0, with significance level alpha.
static boolean TestUtils.tTest(double[] sample1, double[] sample2, double alpha)
           
 boolean TTest.tTest(double[] sample1, double[] sample2, double alpha)
          Performs a two-sided t-test evaluating the null hypothesis that sample1 and sample2 are drawn from populations with the same mean, with significance level alpha.
static boolean TestUtils.tTest(double mu, double[] sample, double alpha)
           
 boolean TTest.tTest(double mu, double[] sample, double alpha)
          Performs a two-sided t-test evaluating the null hypothesis that the mean of the population from which sample is drawn equals mu.
static boolean TestUtils.tTest(double mu, StatisticalSummary sampleStats, double alpha)
           
 boolean TTest.tTest(double mu, StatisticalSummary sampleStats, double alpha)
          Performs a two-sided t-test evaluating the null hypothesis that the mean of the population from which the dataset described by stats is drawn equals mu.
static boolean TestUtils.tTest(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2, double alpha)
           
 boolean TTest.tTest(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2, double alpha)
          Performs a two-sided t-test evaluating the null hypothesis that sampleStats1 and sampleStats2 describe datasets drawn from populations with the same mean, with significance level alpha.
 

Uses of OutOfRangeException in org.apache.commons.math3.stat.regression
 

Methods in org.apache.commons.math3.stat.regression that throw OutOfRangeException
 double RegressionResults.getCovarianceOfParameters(int i, int j)
          Returns the covariance between regression parameters i and j.
 double RegressionResults.getParameterEstimate(int index)
          Returns the parameter estimate for the regressor at the given index.
 double SimpleRegression.getSlopeConfidenceInterval()
          Returns the half-width of a 95% confidence interval for the slope estimate.
 double SimpleRegression.getSlopeConfidenceInterval(double alpha)
          Returns the half-width of a (100-100*alpha)% confidence interval for the slope estimate.
 double RegressionResults.getStdErrorOfEstimate(int index)
          Returns the standard error of the parameter estimate at index, usually denoted s(bindex).
 

Uses of OutOfRangeException in org.apache.commons.math3.util
 

Methods in org.apache.commons.math3.util that throw OutOfRangeException
 int MultidimensionalCounter.getCount(int... c)
          Convert to unidimensional counter.
 int[] MultidimensionalCounter.getCounts(int index)
          Convert to multidimensional counter.
 



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