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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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 * distributed under the License is distributed on an "AS IS" BASIS,
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package org.apache.commons.math3.linear;

import org.apache.commons.math3.exception.DimensionMismatchException;
import org.apache.commons.math3.exception.MaxCountExceededException;
import org.apache.commons.math3.exception.NullArgumentException;
import org.apache.commons.math3.util.IterationManager;
import org.apache.commons.math3.util.MathUtils;

/**
 * 

* This abstract class defines preconditioned iterative solvers. When A is * ill-conditioned, instead of solving system A · x = b directly, it is * preferable to solve either *

* (M · A) · x = M · b *
* (left preconditioning), or *
* (A · M) · y = b,     followed by * M · y = x *
* (right preconditioning), where M approximates in some way A-1, * while matrix-vector products of the type M · y remain comparatively * easy to compute. In this library, M (not M-1!) is called the * preconditionner. *

*

* Concrete implementations of this abstract class must be provided with the * preconditioner M, as a {@link RealLinearOperator}. *

* * @since 3.0 */ public abstract class PreconditionedIterativeLinearSolver extends IterativeLinearSolver { /** * Creates a new instance of this class, with default iteration manager. * * @param maxIterations the maximum number of iterations */ public PreconditionedIterativeLinearSolver(final int maxIterations) { super(maxIterations); } /** * Creates a new instance of this class, with custom iteration manager. * * @param manager the custom iteration manager * @throws NullArgumentException if {@code manager} is {@code null} */ public PreconditionedIterativeLinearSolver(final IterationManager manager) throws NullArgumentException { super(manager); } /** * Returns an estimate of the solution to the linear system A · x = * b. * * @param a the linear operator A of the system * @param m the preconditioner, M (can be {@code null}) * @param b the right-hand side vector * @param x0 the initial guess of the solution * @return a new vector containing the solution * @throws NullArgumentException if one of the parameters is {@code null} * @throws NonSquareOperatorException if {@code a} or {@code m} is not * square * @throws DimensionMismatchException if {@code m}, {@code b} or * {@code x0} have dimensions inconsistent with {@code a} * @throws MaxCountExceededException at exhaustion of the iteration count, * unless a custom * {@link org.apache.commons.math3.util.Incrementor.MaxCountExceededCallback callback} * has been set at construction of the {@link IterationManager} */ public RealVector solve(final RealLinearOperator a, final RealLinearOperator m, final RealVector b, final RealVector x0) throws NullArgumentException, NonSquareOperatorException, DimensionMismatchException, MaxCountExceededException { MathUtils.checkNotNull(x0); return solveInPlace(a, m, b, x0.copy()); } /** {@inheritDoc} */ @Override public RealVector solve(final RealLinearOperator a, final RealVector b) throws NullArgumentException, NonSquareOperatorException, DimensionMismatchException, MaxCountExceededException { MathUtils.checkNotNull(a); final RealVector x = new ArrayRealVector(a.getColumnDimension()); x.set(0.); return solveInPlace(a, null, b, x); } /** {@inheritDoc} */ @Override public RealVector solve(final RealLinearOperator a, final RealVector b, final RealVector x0) throws NullArgumentException, NonSquareOperatorException, DimensionMismatchException, MaxCountExceededException { MathUtils.checkNotNull(x0); return solveInPlace(a, null, b, x0.copy()); } /** * Performs all dimension checks on the parameters of * {@link #solve(RealLinearOperator, RealLinearOperator, RealVector, RealVector) solve} * and * {@link #solveInPlace(RealLinearOperator, RealLinearOperator, RealVector, RealVector) solveInPlace}, * and throws an exception if one of the checks fails. * * @param a the linear operator A of the system * @param m the preconditioner, M (can be {@code null}) * @param b the right-hand side vector * @param x0 the initial guess of the solution * @throws NullArgumentException if one of the parameters is {@code null} * @throws NonSquareOperatorException if {@code a} or {@code m} is not * square * @throws DimensionMismatchException if {@code m}, {@code b} or * {@code x0} have dimensions inconsistent with {@code a} */ protected static void checkParameters(final RealLinearOperator a, final RealLinearOperator m, final RealVector b, final RealVector x0) throws NullArgumentException, NonSquareOperatorException, DimensionMismatchException { checkParameters(a, b, x0); if (m != null) { if (m.getColumnDimension() != m.getRowDimension()) { throw new NonSquareOperatorException(m.getColumnDimension(), m.getRowDimension()); } if (m.getRowDimension() != a.getRowDimension()) { throw new DimensionMismatchException(m.getRowDimension(), a.getRowDimension()); } } } /** * Returns an estimate of the solution to the linear system A · x = * b. * * @param a the linear operator A of the system * @param m the preconditioner, M (can be {@code null}) * @param b the right-hand side vector * @return a new vector containing the solution * @throws NullArgumentException if one of the parameters is {@code null} * @throws NonSquareOperatorException if {@code a} or {@code m} is not * square * @throws DimensionMismatchException if {@code m} or {@code b} have * dimensions inconsistent with {@code a} * @throws MaxCountExceededException at exhaustion of the iteration count, * unless a custom * {@link org.apache.commons.math3.util.Incrementor.MaxCountExceededCallback callback} * has been set at construction of the {@link IterationManager} */ public RealVector solve(RealLinearOperator a, RealLinearOperator m, RealVector b) throws NullArgumentException, NonSquareOperatorException, DimensionMismatchException, MaxCountExceededException { MathUtils.checkNotNull(a); final RealVector x = new ArrayRealVector(a.getColumnDimension()); return solveInPlace(a, m, b, x); } /** * Returns an estimate of the solution to the linear system A · x = * b. The solution is computed in-place (initial guess is modified). * * @param a the linear operator A of the system * @param m the preconditioner, M (can be {@code null}) * @param b the right-hand side vector * @param x0 the initial guess of the solution * @return a reference to {@code x0} (shallow copy) updated with the * solution * @throws NullArgumentException if one of the parameters is {@code null} * @throws NonSquareOperatorException if {@code a} or {@code m} is not * square * @throws DimensionMismatchException if {@code m}, {@code b} or * {@code x0} have dimensions inconsistent with {@code a} * @throws MaxCountExceededException at exhaustion of the iteration count, * unless a custom * {@link org.apache.commons.math3.util.Incrementor.MaxCountExceededCallback callback} * has been set at construction of the {@link IterationManager} */ public abstract RealVector solveInPlace(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x0) throws NullArgumentException, NonSquareOperatorException, DimensionMismatchException, MaxCountExceededException; /** {@inheritDoc} */ @Override public RealVector solveInPlace(final RealLinearOperator a, final RealVector b, final RealVector x0) throws NullArgumentException, NonSquareOperatorException, DimensionMismatchException, MaxCountExceededException { return solveInPlace(a, null, b, x0); } }




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