Package no.uib.cipr.matrix

Source Code of no.uib.cipr.matrix.PackCholesky

/*
* Copyright (C) 2003-2006 Bjørn-Ove Heimsund
*
* This file is part of MTJ.
*
* This library is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as published by the
* Free Software Foundation; either version 2.1 of the License, or (at your
* option) any later version.
*
* This library is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License
* for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this library; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/

package no.uib.cipr.matrix;

import no.uib.cipr.matrix.Matrix.Norm;

import org.netlib.lapack.LAPACK;
import org.netlib.util.doubleW;
import org.netlib.util.intW;

/**
* Packed Cholesky decomposition
*/
public class PackCholesky {

    /**
     * Matrix dimension
     */
    private final int n;

    /**
     * Cholesky decomposition of a lower matrix
     */
    private LowerTriangPackMatrix Cl;

    /**
     * Cholesky decomposition of an upper matrix
     */
    private UpperTriangPackMatrix Cu;

    /**
     * If the matrix is SPD or not
     */
    private boolean notspd;

    /**
     * True for upper part, else false
     */
    private final boolean upper;

    /**
     * Constructor for DenseCholesky
     *
     * @param n
     *            Matrix size
     * @param upper
     *            True for decomposing an upper symmetrical matrix, false for a
     *            lower symmetrical matrix
     */
    public PackCholesky(int n, boolean upper) {
        this.n = n;
        this.upper = upper;

        if (upper)
            Cu = new UpperTriangPackMatrix(n);
        else
            Cl = new LowerTriangPackMatrix(n);
    }

    /**
     * Calculates a Cholesky decomposition
     *
     * @param A
     *            Matrix to decompose. Not modified
     * @return The current decomposition
     */
    public static PackCholesky factorize(Matrix A) {
        return new PackCholesky(A.numRows(), true)
                .factor(new UpperSPDPackMatrix(A));
    }

    /**
     * Calculates a Cholesky decomposition
     *
     * @param A
     *            Matrix to decompose. Overwritten on return
     * @return The current decomposition
     */
    public PackCholesky factor(LowerSPDPackMatrix A) {
        if (upper)
            throw new IllegalArgumentException(
                    "Cholesky decomposition constructed for upper matrices");

        return decompose(A);
    }

    /**
     * Calculates a Cholesky decomposition
     *
     * @param A
     *            Matrix to decompose. Overwritten on return
     * @return The current decomposition
     */
    public PackCholesky factor(UpperSPDPackMatrix A) {
        if (!upper)
            throw new IllegalArgumentException(
                    "Cholesky decomposition constructed for lower matrices");

        return decompose(A);
    }

    private PackCholesky decompose(AbstractPackMatrix A) {
        if (n != A.numRows())
            throw new IllegalArgumentException("n != A.numRows()");

        notspd = false;

        intW info = new intW(0);
        if (upper)
            LAPACK.getInstance().dpptrf(UpLo.Upper.netlib(), A.numRows(),
                    A.getData(), info);
        else
            LAPACK.getInstance().dpptrf(UpLo.Lower.netlib(), A.numRows(),
                    A.getData(), info);

        if (info.val > 0)
            notspd = true;
        else if (info.val < 0)
            throw new IllegalArgumentException();

        if (upper)
            Cu.set(A);
        else
            Cl.set(A);

        return this;
    }

    /**
     * Returns true if the matrix decomposed is symmetrical, positive definite
     */
    public boolean isSPD() {
        return !notspd;
    }

    /**
     * Returns the decomposition matrix. Only valid for decomposition of a lower
     * SPD matrix
     */
    public LowerTriangPackMatrix getL() {
        if (!upper)
            return Cl;
        else
            throw new UnsupportedOperationException();
    }

    /**
     * Returns the decomposition matrix. Only valid for decomposition of a upper
     * SPD matrix
     */
    public UpperTriangPackMatrix getU() {
        if (upper)
            return Cu;
        else
            throw new UnsupportedOperationException();
    }

    /**
     * Solves for <code>B</code>, overwriting it on return
     */
    public DenseMatrix solve(DenseMatrix B) throws MatrixNotSPDException {
        if (notspd)
            throw new MatrixNotSPDException();
        if (B.numRows() != n)
            throw new IllegalArgumentException("B.numRows() != n");

        intW info = new intW(0);
        if (upper)
            LAPACK.getInstance().dpptrs(UpLo.Upper.netlib(), Cu.numRows(),
                    B.numColumns(), Cu.getData(), B.getData(), Matrices.ld(Cu.numRows()), info);
        else
            LAPACK.getInstance().dpptrs(UpLo.Lower.netlib(), Cl.numRows(),
                    B.numColumns(), Cl.getData(), B.getData(), Matrices.ld(Cl.numRows()), info);

        if (info.val < 0)
            throw new IllegalArgumentException();

        return B;
    }

    /**
     * Computes the reciprocal condition number
     *
     * @param A
     *            The matrix this is a decomposition of
     * @return The reciprocal condition number. Values close to unity indicate a
     *         well-conditioned system, while numbers close to zero do not.
     */
    public double rcond(Matrix A) {
        if (A.numRows() != n)
            throw new IllegalArgumentException("A.numRows() != n");
        if (!A.isSquare())
            throw new IllegalArgumentException("!A.isSquare()");

        double anorm = A.norm(Norm.One);

        double[] work = new double[3 * n];
        int[] iwork = new int[n];

        intW info = new intW(0);
        doubleW rcond = new doubleW(0);
        if (upper)
            LAPACK.getInstance().dppcon(UpLo.Upper.netlib(), n, Cu.getData(), anorm,
                    rcond, work, iwork, info);
        else
            LAPACK.getInstance().dppcon(UpLo.Lower.netlib(), n, Cl.getData(), anorm,
                    rcond, work, iwork, info);

        if (info.val < 0)
            throw new IllegalArgumentException();

        return rcond.val;
    }

}
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