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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
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package org.apache.commons.math3.linear;

import org.apache.commons.math3.exception.DimensionMismatchException;
import org.apache.commons.math3.exception.NoDataException;
import org.apache.commons.math3.exception.NotPositiveException;
import org.apache.commons.math3.exception.NotStrictlyPositiveException;
import org.apache.commons.math3.exception.NullArgumentException;
import org.apache.commons.math3.exception.NumberIsTooSmallException;
import org.apache.commons.math3.exception.OutOfRangeException;

/**
 * Interface defining a real-valued matrix with basic algebraic operations.
 * 

* Matrix element indexing is 0-based -- e.g., getEntry(0, 0) * returns the element in the first row, first column of the matrix.

* */ public interface RealMatrix extends AnyMatrix { /** * Create a new RealMatrix of the same type as the instance with the * supplied * row and column dimensions. * * @param rowDimension the number of rows in the new matrix * @param columnDimension the number of columns in the new matrix * @return a new matrix of the same type as the instance * @throws NotStrictlyPositiveException if row or column dimension is not * positive. * @since 2.0 */ RealMatrix createMatrix(int rowDimension, int columnDimension) throws NotStrictlyPositiveException; /** * Returns a (deep) copy of this. * * @return matrix copy */ RealMatrix copy(); /** * Returns the sum of {@code this} and {@code m}. * * @param m matrix to be added * @return {@code this + m} * @throws MatrixDimensionMismatchException if {@code m} is not the same * size as {@code this}. */ RealMatrix add(RealMatrix m) throws MatrixDimensionMismatchException; /** * Returns {@code this} minus {@code m}. * * @param m matrix to be subtracted * @return {@code this - m} * @throws MatrixDimensionMismatchException if {@code m} is not the same * size as {@code this}. */ RealMatrix subtract(RealMatrix m) throws MatrixDimensionMismatchException; /** * Returns the result of adding {@code d} to each entry of {@code this}. * * @param d value to be added to each entry * @return {@code d + this} */ RealMatrix scalarAdd(double d); /** * Returns the result of multiplying each entry of {@code this} by * {@code d}. * * @param d value to multiply all entries by * @return {@code d * this} */ RealMatrix scalarMultiply(double d); /** * Returns the result of postmultiplying {@code this} by {@code m}. * * @param m matrix to postmultiply by * @return {@code this * m} * @throws DimensionMismatchException if * {@code columnDimension(this) != rowDimension(m)} */ RealMatrix multiply(RealMatrix m) throws DimensionMismatchException; /** * Returns the result of premultiplying {@code this} by {@code m}. * * @param m matrix to premultiply by * @return {@code m * this} * @throws DimensionMismatchException if * {@code rowDimension(this) != columnDimension(m)} */ RealMatrix preMultiply(RealMatrix m) throws DimensionMismatchException; /** * Returns the result of multiplying {@code this} with itself {@code p} * times. Depending on the underlying storage, instability for high powers * might occur. * * @param p raise {@code this} to power {@code p} * @return {@code this^p} * @throws NotPositiveException if {@code p < 0} * @throws NonSquareMatrixException if the matrix is not square */ RealMatrix power(final int p) throws NotPositiveException, NonSquareMatrixException; /** * Returns matrix entries as a two-dimensional array. * * @return 2-dimensional array of entries */ double[][] getData(); /** * Returns the * maximum absolute row sum norm of the matrix. * * @return norm */ double getNorm(); /** * Returns the * Frobenius norm of the matrix. * * @return norm */ double getFrobeniusNorm(); /** * Gets a submatrix. Rows and columns are indicated * counting from 0 to n-1. * * @param startRow Initial row index * @param endRow Final row index (inclusive) * @param startColumn Initial column index * @param endColumn Final column index (inclusive) * @return The subMatrix containing the data of the * specified rows and columns. * @throws OutOfRangeException if the indices are not valid. * @throws NumberIsTooSmallException if {@code endRow < startRow} or * {@code endColumn < startColumn}. */ RealMatrix getSubMatrix(int startRow, int endRow, int startColumn, int endColumn) throws OutOfRangeException, NumberIsTooSmallException; /** * Gets a submatrix. Rows and columns are indicated counting from 0 to n-1. * * @param selectedRows Array of row indices. * @param selectedColumns Array of column indices. * @return The subMatrix containing the data in the specified rows and * columns * @throws NullArgumentException if the row or column selections are * {@code null} * @throws NoDataException if the row or column selections are empty (zero * length). * @throws OutOfRangeException if the indices are not valid. */ RealMatrix getSubMatrix(int[] selectedRows, int[] selectedColumns) throws NullArgumentException, NoDataException, OutOfRangeException; /** * Copy a submatrix. Rows and columns are indicated counting from 0 to n-1. * * @param startRow Initial row index * @param endRow Final row index (inclusive) * @param startColumn Initial column index * @param endColumn Final column index (inclusive) * @param destination The arrays where the submatrix data should be copied * (if larger than rows/columns counts, only the upper-left part will be * used) * @throws OutOfRangeException if the indices are not valid. * @throws NumberIsTooSmallException if {@code endRow < startRow} or * {@code endColumn < startColumn}. * @throws MatrixDimensionMismatchException if the destination array is too * small. */ void copySubMatrix(int startRow, int endRow, int startColumn, int endColumn, double[][] destination) throws OutOfRangeException, NumberIsTooSmallException, MatrixDimensionMismatchException; /** * Copy a submatrix. Rows and columns are indicated counting from 0 to n-1. * * @param selectedRows Array of row indices. * @param selectedColumns Array of column indices. * @param destination The arrays where the submatrix data should be copied * (if larger than rows/columns counts, only the upper-left part will be * used) * @throws NullArgumentException if the row or column selections are * {@code null} * @throws NoDataException if the row or column selections are empty (zero * length). * @throws OutOfRangeException if the indices are not valid. * @throws MatrixDimensionMismatchException if the destination array is too * small. */ void copySubMatrix(int[] selectedRows, int[] selectedColumns, double[][] destination) throws OutOfRangeException, NullArgumentException, NoDataException, MatrixDimensionMismatchException; /** * Replace the submatrix starting at {@code row, column} using data in the * input {@code subMatrix} array. Indexes are 0-based. *

* Example:
* Starting with

    * 1  2  3  4
    * 5  6  7  8
    * 9  0  1  2
    * 
* and subMatrix = {{3, 4} {5,6}}, invoking * {@code setSubMatrix(subMatrix,1,1))} will result in
    * 1  2  3  4
    * 5  3  4  8
    * 9  5  6  2
    * 

* * @param subMatrix array containing the submatrix replacement data * @param row row coordinate of the top, left element to be replaced * @param column column coordinate of the top, left element to be replaced * @throws NoDataException if {@code subMatrix} is empty. * @throws OutOfRangeException if {@code subMatrix} does not fit into * this matrix from element in {@code (row, column)}. * @throws DimensionMismatchException if {@code subMatrix} is not rectangular * (not all rows have the same length) or empty. * @throws NullArgumentException if {@code subMatrix} is {@code null}. * @since 2.0 */ void setSubMatrix(double[][] subMatrix, int row, int column) throws NoDataException, OutOfRangeException, DimensionMismatchException, NullArgumentException; /** * Get the entries at the given row index as a row matrix. Row indices start * at 0. * * @param row Row to be fetched. * @return row Matrix. * @throws OutOfRangeException if the specified row index is invalid. */ RealMatrix getRowMatrix(int row) throws OutOfRangeException; /** * Sets the specified {@code row} of {@code this} matrix to the entries of * the specified row {@code matrix}. Row indices start at 0. * * @param row Row to be set. * @param matrix Row matrix to be copied (must have one row and the same * number of columns as the instance). * @throws OutOfRangeException if the specified row index is invalid. * @throws MatrixDimensionMismatchException if the row dimension of the * {@code matrix} is not {@code 1}, or the column dimensions of {@code this} * and {@code matrix} do not match. */ void setRowMatrix(int row, RealMatrix matrix) throws OutOfRangeException, MatrixDimensionMismatchException; /** * Get the entries at the given column index as a column matrix. Column * indices start at 0. * * @param column Column to be fetched. * @return column Matrix. * @throws OutOfRangeException if the specified column index is invalid. */ RealMatrix getColumnMatrix(int column) throws OutOfRangeException; /** * Sets the specified {@code column} of {@code this} matrix to the entries * of the specified column {@code matrix}. Column indices start at 0. * * @param column Column to be set. * @param matrix Column matrix to be copied (must have one column and the * same number of rows as the instance). * @throws OutOfRangeException if the specified column index is invalid. * @throws MatrixDimensionMismatchException if the column dimension of the * {@code matrix} is not {@code 1}, or the row dimensions of {@code this} * and {@code matrix} do not match. */ void setColumnMatrix(int column, RealMatrix matrix) throws OutOfRangeException, MatrixDimensionMismatchException; /** * Returns the entries in row number {@code row} as a vector. Row indices * start at 0. * * @param row Row to be fetched. * @return a row vector. * @throws OutOfRangeException if the specified row index is invalid. */ RealVector getRowVector(int row) throws OutOfRangeException; /** * Sets the specified {@code row} of {@code this} matrix to the entries of * the specified {@code vector}. Row indices start at 0. * * @param row Row to be set. * @param vector row vector to be copied (must have the same number of * column as the instance). * @throws OutOfRangeException if the specified row index is invalid. * @throws MatrixDimensionMismatchException if the {@code vector} dimension * does not match the column dimension of {@code this} matrix. */ void setRowVector(int row, RealVector vector) throws OutOfRangeException, MatrixDimensionMismatchException; /** * Get the entries at the given column index as a vector. Column indices * start at 0. * * @param column Column to be fetched. * @return a column vector. * @throws OutOfRangeException if the specified column index is invalid */ RealVector getColumnVector(int column) throws OutOfRangeException; /** * Sets the specified {@code column} of {@code this} matrix to the entries * of the specified {@code vector}. Column indices start at 0. * * @param column Column to be set. * @param vector column vector to be copied (must have the same number of * rows as the instance). * @throws OutOfRangeException if the specified column index is invalid. * @throws MatrixDimensionMismatchException if the {@code vector} dimension * does not match the row dimension of {@code this} matrix. */ void setColumnVector(int column, RealVector vector) throws OutOfRangeException, MatrixDimensionMismatchException; /** * Get the entries at the given row index. Row indices start at 0. * * @param row Row to be fetched. * @return the array of entries in the row. * @throws OutOfRangeException if the specified row index is not valid. */ double[] getRow(int row) throws OutOfRangeException; /** * Sets the specified {@code row} of {@code this} matrix to the entries * of the specified {@code array}. Row indices start at 0. * * @param row Row to be set. * @param array Row matrix to be copied (must have the same number of * columns as the instance) * @throws OutOfRangeException if the specified row index is invalid. * @throws MatrixDimensionMismatchException if the {@code array} length does * not match the column dimension of {@code this} matrix. */ void setRow(int row, double[] array) throws OutOfRangeException, MatrixDimensionMismatchException; /** * Get the entries at the given column index as an array. Column indices * start at 0. * * @param column Column to be fetched. * @return the array of entries in the column. * @throws OutOfRangeException if the specified column index is not valid. */ double[] getColumn(int column) throws OutOfRangeException; /** * Sets the specified {@code column} of {@code this} matrix to the entries * of the specified {@code array}. Column indices start at 0. * * @param column Column to be set. * @param array Column array to be copied (must have the same number of * rows as the instance). * @throws OutOfRangeException if the specified column index is invalid. * @throws MatrixDimensionMismatchException if the {@code array} length does * not match the row dimension of {@code this} matrix. */ void setColumn(int column, double[] array) throws OutOfRangeException, MatrixDimensionMismatchException; /** * Get the entry in the specified row and column. Row and column indices * start at 0. * * @param row Row index of entry to be fetched. * @param column Column index of entry to be fetched. * @return the matrix entry at {@code (row, column)}. * @throws OutOfRangeException if the row or column index is not valid. */ double getEntry(int row, int column) throws OutOfRangeException; /** * Set the entry in the specified row and column. Row and column indices * start at 0. * * @param row Row index of entry to be set. * @param column Column index of entry to be set. * @param value the new value of the entry. * @throws OutOfRangeException if the row or column index is not valid * @since 2.0 */ void setEntry(int row, int column, double value) throws OutOfRangeException; /** * Adds (in place) the specified value to the specified entry of * {@code this} matrix. Row and column indices start at 0. * * @param row Row index of the entry to be modified. * @param column Column index of the entry to be modified. * @param increment value to add to the matrix entry. * @throws OutOfRangeException if the row or column index is not valid. * @since 2.0 */ void addToEntry(int row, int column, double increment) throws OutOfRangeException; /** * Multiplies (in place) the specified entry of {@code this} matrix by the * specified value. Row and column indices start at 0. * * @param row Row index of the entry to be modified. * @param column Column index of the entry to be modified. * @param factor Multiplication factor for the matrix entry. * @throws OutOfRangeException if the row or column index is not valid. * @since 2.0 */ void multiplyEntry(int row, int column, double factor) throws OutOfRangeException; /** * Returns the transpose of this matrix. * * @return transpose matrix */ RealMatrix transpose(); /** * Returns the * trace of the matrix (the sum of the elements on the main diagonal). * * @return the trace. * @throws NonSquareMatrixException if the matrix is not square. */ double getTrace() throws NonSquareMatrixException; /** * Returns the result of multiplying this by the vector {@code v}. * * @param v the vector to operate on * @return {@code this * v} * @throws DimensionMismatchException if the length of {@code v} does not * match the column dimension of {@code this}. */ double[] operate(double[] v) throws DimensionMismatchException; /** * Returns the result of multiplying this by the vector {@code v}. * * @param v the vector to operate on * @return {@code this * v} * @throws DimensionMismatchException if the dimension of {@code v} does not * match the column dimension of {@code this}. */ RealVector operate(RealVector v) throws DimensionMismatchException; /** * Returns the (row) vector result of premultiplying this by the vector {@code v}. * * @param v the row vector to premultiply by * @return {@code v * this} * @throws DimensionMismatchException if the length of {@code v} does not * match the row dimension of {@code this}. */ double[] preMultiply(double[] v) throws DimensionMismatchException; /** * Returns the (row) vector result of premultiplying this by the vector {@code v}. * * @param v the row vector to premultiply by * @return {@code v * this} * @throws DimensionMismatchException if the dimension of {@code v} does not * match the row dimension of {@code this}. */ RealVector preMultiply(RealVector v) throws DimensionMismatchException; /** * Visit (and possibly change) all matrix entries in row order. *

Row order starts at upper left and iterating through all elements * of a row from left to right before going to the leftmost element * of the next row.

* @param visitor visitor used to process all matrix entries * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixChangingVisitor#end()} at the end * of the walk */ double walkInRowOrder(RealMatrixChangingVisitor visitor); /** * Visit (but don't change) all matrix entries in row order. *

Row order starts at upper left and iterating through all elements * of a row from left to right before going to the leftmost element * of the next row.

* @param visitor visitor used to process all matrix entries * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixPreservingVisitor#end()} at the end * of the walk */ double walkInRowOrder(RealMatrixPreservingVisitor visitor); /** * Visit (and possibly change) some matrix entries in row order. *

Row order starts at upper left and iterating through all elements * of a row from left to right before going to the leftmost element * of the next row.

* @param visitor visitor used to process all matrix entries * @param startRow Initial row index * @param endRow Final row index (inclusive) * @param startColumn Initial column index * @param endColumn Final column index * @throws OutOfRangeException if the indices are not valid. * @throws NumberIsTooSmallException if {@code endRow < startRow} or * {@code endColumn < startColumn}. * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixChangingVisitor#end()} at the end * of the walk */ double walkInRowOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn) throws OutOfRangeException, NumberIsTooSmallException; /** * Visit (but don't change) some matrix entries in row order. *

Row order starts at upper left and iterating through all elements * of a row from left to right before going to the leftmost element * of the next row.

* @param visitor visitor used to process all matrix entries * @param startRow Initial row index * @param endRow Final row index (inclusive) * @param startColumn Initial column index * @param endColumn Final column index * @throws OutOfRangeException if the indices are not valid. * @throws NumberIsTooSmallException if {@code endRow < startRow} or * {@code endColumn < startColumn}. * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixPreservingVisitor#end()} at the end * of the walk */ double walkInRowOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn) throws OutOfRangeException, NumberIsTooSmallException; /** * Visit (and possibly change) all matrix entries in column order. *

Column order starts at upper left and iterating through all elements * of a column from top to bottom before going to the topmost element * of the next column.

* @param visitor visitor used to process all matrix entries * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixChangingVisitor#end()} at the end * of the walk */ double walkInColumnOrder(RealMatrixChangingVisitor visitor); /** * Visit (but don't change) all matrix entries in column order. *

Column order starts at upper left and iterating through all elements * of a column from top to bottom before going to the topmost element * of the next column.

* @param visitor visitor used to process all matrix entries * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixPreservingVisitor#end()} at the end * of the walk */ double walkInColumnOrder(RealMatrixPreservingVisitor visitor); /** * Visit (and possibly change) some matrix entries in column order. *

Column order starts at upper left and iterating through all elements * of a column from top to bottom before going to the topmost element * of the next column.

* @param visitor visitor used to process all matrix entries * @param startRow Initial row index * @param endRow Final row index (inclusive) * @param startColumn Initial column index * @param endColumn Final column index * @throws OutOfRangeException if the indices are not valid. * @throws NumberIsTooSmallException if {@code endRow < startRow} or * {@code endColumn < startColumn}. * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixChangingVisitor#end()} at the end * of the walk */ double walkInColumnOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn) throws OutOfRangeException, NumberIsTooSmallException; /** * Visit (but don't change) some matrix entries in column order. *

Column order starts at upper left and iterating through all elements * of a column from top to bottom before going to the topmost element * of the next column.

* @param visitor visitor used to process all matrix entries * @param startRow Initial row index * @param endRow Final row index (inclusive) * @param startColumn Initial column index * @param endColumn Final column index * @throws OutOfRangeException if the indices are not valid. * @throws NumberIsTooSmallException if {@code endRow < startRow} or * {@code endColumn < startColumn}. * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixPreservingVisitor#end()} at the end * of the walk */ double walkInColumnOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn) throws OutOfRangeException, NumberIsTooSmallException; /** * Visit (and possibly change) all matrix entries using the fastest possible order. *

The fastest walking order depends on the exact matrix class. It may be * different from traditional row or column orders.

* @param visitor visitor used to process all matrix entries * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixChangingVisitor#end()} at the end * of the walk */ double walkInOptimizedOrder(RealMatrixChangingVisitor visitor); /** * Visit (but don't change) all matrix entries using the fastest possible order. *

The fastest walking order depends on the exact matrix class. It may be * different from traditional row or column orders.

* @param visitor visitor used to process all matrix entries * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixPreservingVisitor#end()} at the end * of the walk */ double walkInOptimizedOrder(RealMatrixPreservingVisitor visitor); /** * Visit (and possibly change) some matrix entries using the fastest possible order. *

The fastest walking order depends on the exact matrix class. It may be * different from traditional row or column orders.

* @param visitor visitor used to process all matrix entries * @param startRow Initial row index * @param endRow Final row index (inclusive) * @param startColumn Initial column index * @param endColumn Final column index (inclusive) * @throws OutOfRangeException if the indices are not valid. * @throws NumberIsTooSmallException if {@code endRow < startRow} or * {@code endColumn < startColumn}. * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixChangingVisitor#end()} at the end * of the walk */ double walkInOptimizedOrder(RealMatrixChangingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn) throws OutOfRangeException, NumberIsTooSmallException; /** * Visit (but don't change) some matrix entries using the fastest possible order. *

The fastest walking order depends on the exact matrix class. It may be * different from traditional row or column orders.

* @param visitor visitor used to process all matrix entries * @param startRow Initial row index * @param endRow Final row index (inclusive) * @param startColumn Initial column index * @param endColumn Final column index (inclusive) * @throws OutOfRangeException if the indices are not valid. * @throws NumberIsTooSmallException if {@code endRow < startRow} or * {@code endColumn < startColumn}. * @see #walkInRowOrder(RealMatrixChangingVisitor) * @see #walkInRowOrder(RealMatrixPreservingVisitor) * @see #walkInRowOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInRowOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixChangingVisitor) * @see #walkInColumnOrder(RealMatrixPreservingVisitor) * @see #walkInColumnOrder(RealMatrixChangingVisitor, int, int, int, int) * @see #walkInColumnOrder(RealMatrixPreservingVisitor, int, int, int, int) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor) * @see #walkInOptimizedOrder(RealMatrixPreservingVisitor) * @see #walkInOptimizedOrder(RealMatrixChangingVisitor, int, int, int, int) * @return the value returned by {@link RealMatrixPreservingVisitor#end()} at the end * of the walk */ double walkInOptimizedOrder(RealMatrixPreservingVisitor visitor, int startRow, int endRow, int startColumn, int endColumn) throws OutOfRangeException, NumberIsTooSmallException; }




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