/usr/include/fflas-ffpack/utils/fflas

/*
 * Copyright (C) FFLAS-FFPACK
 * Written by Brice Boyer (briceboyer) <boyer.brice@gmail.com>
 * This file is Free Software and part of FFLAS-FFPACK.
 *
 * ========LICENCE========
 * This file is part of the library FFLAS-FFPACK.
 *
 * FFLAS-FFPACK 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., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
 * ========LICENCE========
 *.
 */

/*! @file utils/fflas_randommatrix.h
 * @ingroup tests
 * @brief Utilities to create matrices with prescribed shapes, properties,...
 * To be used in benchmarks/tests
 */

#ifndef __FFLASFFPACK_randommatrix_H
#define __FFLASFFPACK_randommatrix_H

#include "fflas-ffpack/fflas-ffpack-config.h"
#include "fflas-ffpack/utils/debug.h"
#include "fflas-ffpack/ffpack/ffpack.h"
#include <givaro/givinteger.h>
#include <givaro/givintprime.h>
#include <givaro/givranditer.h>
#include <chrono>
#include <random>

namespace FFPACK {

    /*! @brief  Random Matrix.
     * Creates a \c m x \c n matrix with random entries.
     * @param F field
     * @param A pointer to the matrix (preallocated to at least \c m x \c lda field elements)
     * @param m number of rows in \p A
     * @param n number of cols in \p A
     * @param lda leading dimension of \p A
     * @return pointer to \c A.
     */
    template<class Field>
        typename Field::Element * RandomMatrix(const Field & F,
                typename Field::Element * A,
                size_t m, size_t n, size_t lda, size_t b=0)
        {
            typedef typename Field::RandIter Randiter ;
            Randiter R(F, b);
            for (size_t i=0 ; i<m ; ++i)
                for (size_t j= 0; j<n ;++j)
                    R.random( A[i*lda+j] );
            return A;

        }

    /*! Random integer in range.
     * @param a min bound
     * @param b max bound
     * @return a random integer in [a,b[  */
    size_t RandInt(size_t a, size_t b)
    {
        size_t x = a ;
        x += (size_t)rand()%(b-a);
        FFLASFFPACK_check(x<b && x>=a);
        return x ;
    }

    /*! @brief  Random Matrix with prescribed rank.
     * Creates an \c m x \c n matrix with random entries and rank \c r.
     * @param F field
     * @param A pointer to the matrix (preallocated to at least \c m x \c lda field elements)
     * @param r rank of the matrix to build
     * @param m number of rows in \p A
     * @param n number of cols in \p A
     * @param lda leading dimension of \p A
     * @return pointer to \c A.
     */
    template<class Field>
        typename Field::Element_ptr RandomMatrixWithRank (const Field & F,
                typename Field::Element_ptr A, size_t lda,
                size_t r, size_t m, size_t n)
        {
            FFLASFFPACK_check(r <= std::min(m,n));
            FFLASFFPACK_check(n <= lda);
            typedef typename Field::RandIter Randiter ;
            typedef typename Field::Element_ptr  Element_ptr;
            Randiter R(F);
            Givaro::GeneralRingNonZeroRandIter<Field,Randiter> nzR(R);

            size_t * P = FFLAS::fflas_new<size_t>(n);
            size_t * Q = FFLAS::fflas_new<size_t>(m);
            for (size_t i = 0 ; i < m ; ++i ) Q[i] = 0;
            for (size_t i = 0 ; i < n ; ++i ) P[i] = 0;

            Element_ptr U = FFLAS::fflas_new(F,m,n);
            Element_ptr L = FFLAS::fflas_new(F,m,m);


            /*  Create L, lower invertible */
            for (size_t i=0 ; i<m ; ++i){
                for (size_t j= 0; j<i ;++j) R.random( L[i*m+j] );
                nzR.random( L[i*m+i] );
                for (size_t j= i+1; j<m ;++j) F.init(L[i*m+j],F.zero);
            }

            /*  Create U, upper or rank r */
            for (size_t i=0 ; i<r ; ++i){
                for (size_t j= 0 ; j<i ;++j) F.init(U[i*n+j],0U);
                nzR.random( U[i*n+i] );
                for (size_t j= i+1; j<n ;++j) R.random( U[i*n+j] );
            }
            for (size_t i=r ; i<m ; ++i)
                for (size_t j= 0 ; j<n ;++j)
                    F.init(U[i*n+j],F.zero);

            /*  Create a random P,Q */
            for (size_t i = 0 ; i < n ; ++i)
                P[i] = i + RandInt(0U,n-i);
            for (size_t i = 0 ; i < m ; ++i)
                Q[i] = i + RandInt(0U,m-i);

            /*  compute product */

            FFPACK::applyP (F, FFLAS::FflasRight, FFLAS::FflasNoTrans,
                    m,0,(int)n, U, n, P);
            FFPACK::applyP (F, FFLAS::FflasLeft,  FFLAS::FflasNoTrans,
                    m,0,(int)m, L, m, Q);
            FFLAS::fgemm (F, FFLAS::FflasNoTrans, FFLAS::FflasNoTrans,
                    m, n, m, F.one, L, m, U, n, F.zero, A, lda);
            //! @todo compute LU with ftrtr

            FFLAS::fflas_delete(P);
            FFLAS::fflas_delete(L);
            FFLAS::fflas_delete(U);
            FFLAS::fflas_delete(Q);

            return A;

        }

    void RandomRankProfile (size_t N, size_t R, size_t* rkp){
        size_t curr = 0;
        std::vector<bool> rows(N,false);
        while (curr<R){
            size_t i;
            while (rows [i = rand() % N]);
            rows[i] = true;
            rkp [curr] = i;
            curr++;
        }
    }


    template<class Field>
        void RandomMatrixWithRankandRPM (const Field& F, typename Field::Element_ptr A, size_t lda,
                size_t R, size_t M, size_t N,
                const size_t * RRP, const size_t * CRP){

            typedef typename Field::RandIter Randiter ;
            Randiter RI(F);
            Givaro::GeneralRingNonZeroRandIter<Field,Randiter> nzR(RI);
            typename Field::Element_ptr L= FFLAS::fflas_new(F,M,N);

            FFLAS::pfzero(F, M, N, L, N);
            FFLAS::ParSeqHelper::Parallel<FFLAS::CuttingStrategy::Block,FFLAS::StrategyParameter::Threads> H;

            SYNCH_GROUP ( FOR1D(k, R, H,
                        {
                        size_t i = RRP[k];
                        size_t j = CRP[k];
                        nzR.random (L [i*N+j]);
                        for (size_t l=i+1; l < M; ++l)
                        RI.random (L [l*N+j]);
                        }));

            typename Field::Element_ptr U= FFLAS::fflas_new(F,N,N);
            FFLAS::pfzero(F, N, N, U, N);
            SYNCH_GROUP ( FOR1D(i, N, H,
                        {
                        nzR.random (U [i*N+i]);
                        for (size_t j=i+1; j < N; ++j)
                        RI.random (U [i*N+j]);
                        }));

            typename Field::Element alpha, beta;
            F.init(alpha,1.0);
            F.init(beta,0.0);
                // auto sp=SPLITTER(); //CP: broken with Modular<Integer>. Need to reorganize  the helper behaviour with ParSeq and ModeTraits
            auto sp=NOSPLIT();
            FFLAS::fgemm (F, FFLAS::FflasNoTrans, FFLAS::FflasNoTrans, M,N,N, alpha, L, N, U, N, beta, A, lda, sp);
            FFLAS::fflas_delete(L);
            FFLAS::fflas_delete(U);

        }

    /*! @brief  Random Matrix with prescribed rank, with random  rank profile matrix
     * Creates an \c m x \c n matrix with random entries, rank \c r and with a rank profile matrix
     * chosen uniformly at random.
     * @param F field
     * @param A pointer to the matrix (preallocated to at least \c m x \c lda field elements)
     * @param r rank of the matrix to build
     * @param m number of rows in \p A
     * @param n number of cols in \p A
     * @param lda leading dimension of \p A
     * @return pointer to \c A.
     */
    template<class Field>
        void RandomMatrixWithRankandRandomRPM (const Field& F, typename Field::Element_ptr A, size_t lda,
                size_t R, size_t M, size_t N){
            // generate the r pivots in the rank profile matrix E
            size_t pivot_r[R];
            size_t pivot_c[R];

            RandomRankProfile (M, R, pivot_r);
            RandomRankProfile (N, R, pivot_c);
            RandomMatrixWithRankandRPM (F, A, lda, R, M, N, pivot_r, pivot_c);
        }

    /*! @brief  Random Matrix with prescribed det.
     * @bug duplicate with linbox
     * Creates a \c m x \c n matrix with random entries and rank \c r.
     * @param F field
     * @param A pointer to the matrix (preallocated to at least \c m x \c lda field elements)
     * @param r rank of the matrix to build
     * @param m number of rows in \p A
     * @param n number of cols in \p A
     * @param lda leading dimension of \p A
     * @return pointer to \c A.
     */
    template<class Field>
        typename Field::Element * RandomMatrixWithDet(const Field & F,
                typename Field::Element * A,
                typename Field::Element d,
                size_t n, size_t lda)
        {
            FFLASFFPACK_check(n <= lda);
            typedef typename Field::RandIter Randiter ;
            typedef typename Field::Element  Element ;
            Randiter R(F);
            Givaro::GeneralRingNonZeroRandIter<Field,Randiter> nzR(R);

            size_t * P = FFLAS::fflas_new<size_t>(n);
            size_t * Q = FFLAS::fflas_new<size_t>(n);
            for (size_t i = 0 ; i < n ; ++i ) Q[i] = 0;
            for (size_t i = 0 ; i < n ; ++i ) P[i] = 0;

            Element * U = FFLAS::fflas_new<Element>(n*lda);
            Element * L = FFLAS::fflas_new<Element>(n*n);

            /*  Create a random P,Q */

            for (size_t i = 0 ; i < n ; ++i)
                P[i] = i + RandInt(0U,n-i);
            for (size_t i = 0 ; i < n ; ++i)
                Q[i] = i + RandInt(0U,n-i);

            /*  det of P,Q */
            int d1 =1 ;
            for (size_t i = 0 ; i < n ; ++i)
                if (P[i] != i)
                    d1 = -d1;
            for (size_t i = 0 ; i < n ; ++i)
                if (Q[i] != i)
                    d1 = -d1;



            /*  Create L, lower det d */
            for (size_t i=0 ; i<n ; ++i)
                for (size_t j= 0; j<i ;++j)
                    R.random( L[i*n+j] );

            Element dd = F.one;
            for (size_t i=0 ; i<n-1 ; ++i) {
                nzR.random( L[i*n+i] );
                F.mulin(dd,L[i*n+i]);
            }

            F.div(dd,d,dd);
            if (d1<0) F.negin(dd);
            L[n*n-1] = dd ;

            for (size_t i=0 ; i<n ; ++i)
                for (size_t j= i+1; j<n ;++j)
                    F.init(L[i*n+j],0U);


            /*  Create U, upper or rank r */
            for (size_t i=0 ; i<n ; ++i) {
                for (size_t j= 0; j<i ;++j)
                    U[i*lda+j] = F.zero;
                U[i*lda+i] = F.one;
                for (size_t j= i+1; j<n ;++j)
                    R.random( U[i*lda+j] );
            }

            /*  compute product */

            FFPACK::applyP (F, FFLAS::FflasRight, FFLAS::FflasNoTrans,
                    n,0,(int)n, U, lda, P);
            FFPACK::applyP (F, FFLAS::FflasLeft,  FFLAS::FflasNoTrans,
                    n,0,(int)n, L, n, Q);
            FFLAS::fgemm (F, FFLAS::FflasNoTrans, FFLAS::FflasNoTrans,
                    n,n,n, 1.0, L,n, U,lda, 0.0, A,lda);
            //! @todo compute LU with ftrtr

            FFLAS::fflas_delete( P);
            FFLAS::fflas_delete( L);
            FFLAS::fflas_delete( U);
            FFLAS::fflas_delete( Q);

            return A;

        }

} // FFPACK
#endif
fflas-ffpack-common 2.2.2-4 / usr / include / fflas-ffpack / utils / fflas_randommatrix.h
