sgeqpf_1.c

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/*  Contents: test routine for C interface to LAPACK
*   Author: Intel Corporation
*   Created in March, 2010
*
* Purpose
*
* sgeqpf_1 is the test program for the C interface to LAPACK
* routine sgeqpf
* The program doesn't require an input, the input data is hardcoded in the
* test program.
* The program tests the C interface in the four combinations:
*   1) column-major layout, middle-level interface
*   2) column-major layout, high-level interface
*   3) row-major layout, middle-level interface
*   4) row-major layout, high-level interface
* The output of the C interface function is compared to those obtained from
* the corresponiding LAPACK routine with the same input data, and the
* comparison diagnostics is then printed on the standard output having PASSED
* keyword if the test is passed, and FAILED keyword if the test isn't passed.
*****************************************************************************/
#include <stdio.h>
#include "lapacke.h"
#include "lapacke_utils.h"
#include "test_utils.h"

static void init_scalars_sgeqpf( lapack_int *m, lapack_int *n,
                                 lapack_int *lda );
static void init_a( lapack_int size, float *a );
static void init_jpvt( lapack_int size, lapack_int *jpvt );
static void init_tau( lapack_int size, float *tau );
static void init_work( lapack_int size, float *work );
static int compare_sgeqpf( float *a, float *a_i, lapack_int *jpvt,
                           lapack_int *jpvt_i, float *tau, float *tau_i,
                           lapack_int info, lapack_int info_i, lapack_int lda,
                           lapack_int m, lapack_int n );

int main(void)
{
    /* Local scalars */
    lapack_int m, m_i;
    lapack_int n, n_i;
    lapack_int lda, lda_i;
    lapack_int lda_r;
    lapack_int info, info_i;
    lapack_int i;
    int failed;

    /* Local arrays */
    float *a = NULL, *a_i = NULL;
    lapack_int *jpvt = NULL, *jpvt_i = NULL;
    float *tau = NULL, *tau_i = NULL;
    float *work = NULL, *work_i = NULL;
    float *a_save = NULL;
    lapack_int *jpvt_save = NULL;
    float *tau_save = NULL;
    float *a_r = NULL;

    /* Iniitialize the scalar parameters */
    init_scalars_sgeqpf( &m, &n, &lda );
    lda_r = n+2;
    m_i = m;
    n_i = n;
    lda_i = lda;

    /* Allocate memory for the LAPACK routine arrays */
    a = (float *)LAPACKE_malloc( lda*n * sizeof(float) );
    jpvt = (lapack_int *)LAPACKE_malloc( n * sizeof(lapack_int) );
    tau = (float *)LAPACKE_malloc( MIN(m,n) * sizeof(float) );
    work = (float *)LAPACKE_malloc( 3*n * sizeof(float) );

    /* Allocate memory for the C interface function arrays */
    a_i = (float *)LAPACKE_malloc( lda*n * sizeof(float) );
    jpvt_i = (lapack_int *)LAPACKE_malloc( n * sizeof(lapack_int) );
    tau_i = (float *)LAPACKE_malloc( MIN(m,n) * sizeof(float) );
    work_i = (float *)LAPACKE_malloc( 3*n * sizeof(float) );

    /* Allocate memory for the backup arrays */
    a_save = (float *)LAPACKE_malloc( lda*n * sizeof(float) );
    jpvt_save = (lapack_int *)LAPACKE_malloc( n * sizeof(lapack_int) );
    tau_save = (float *)LAPACKE_malloc( MIN(m,n) * sizeof(float) );

    /* Allocate memory for the row-major arrays */
    a_r = (float *)LAPACKE_malloc( m*(n+2) * sizeof(float) );

    /* Initialize input arrays */
    init_a( lda*n, a );
    init_jpvt( n, jpvt );
    init_tau( (MIN(m,n)), tau );
    init_work( 3*n, work );

    /* Backup the ouptut arrays */
    for( i = 0; i < lda*n; i++ ) {
        a_save[i] = a[i];
    }
    for( i = 0; i < n; i++ ) {
        jpvt_save[i] = jpvt[i];
    }
    for( i = 0; i < (MIN(m,n)); i++ ) {
        tau_save[i] = tau[i];
    }

    /* Call the LAPACK routine */
    sgeqpf_( &m, &n, a, &lda, jpvt, tau, work, &info );

    /* Initialize input data, call the column-major middle-level
     * interface to LAPACK routine and check the results */
    for( i = 0; i < lda*n; i++ ) {
        a_i[i] = a_save[i];
    }
    for( i = 0; i < n; i++ ) {
        jpvt_i[i] = jpvt_save[i];
    }
    for( i = 0; i < (MIN(m,n)); i++ ) {
        tau_i[i] = tau_save[i];
    }
    for( i = 0; i < 3*n; i++ ) {
        work_i[i] = work[i];
    }
    info_i = LAPACKE_sgeqpf_work( LAPACK_COL_MAJOR, m_i, n_i, a_i, lda_i,
                                  jpvt_i, tau_i, work_i );

    failed = compare_sgeqpf( a, a_i, jpvt, jpvt_i, tau, tau_i, info, info_i,
                             lda, m, n );
    if( failed == 0 ) {
        printf( "PASSED: column-major middle-level interface to sgeqpf\n" );
    } else {
        printf( "FAILED: column-major middle-level interface to sgeqpf\n" );
    }

    /* Initialize input data, call the column-major high-level
     * interface to LAPACK routine and check the results */
    for( i = 0; i < lda*n; i++ ) {
        a_i[i] = a_save[i];
    }
    for( i = 0; i < n; i++ ) {
        jpvt_i[i] = jpvt_save[i];
    }
    for( i = 0; i < (MIN(m,n)); i++ ) {
        tau_i[i] = tau_save[i];
    }
    for( i = 0; i < 3*n; i++ ) {
        work_i[i] = work[i];
    }
    info_i = LAPACKE_sgeqpf( LAPACK_COL_MAJOR, m_i, n_i, a_i, lda_i, jpvt_i,
                             tau_i );

    failed = compare_sgeqpf( a, a_i, jpvt, jpvt_i, tau, tau_i, info, info_i,
                             lda, m, n );
    if( failed == 0 ) {
        printf( "PASSED: column-major high-level interface to sgeqpf\n" );
    } else {
        printf( "FAILED: column-major high-level interface to sgeqpf\n" );
    }

    /* Initialize input data, call the row-major middle-level
     * interface to LAPACK routine and check the results */
    for( i = 0; i < lda*n; i++ ) {
        a_i[i] = a_save[i];
    }
    for( i = 0; i < n; i++ ) {
        jpvt_i[i] = jpvt_save[i];
    }
    for( i = 0; i < (MIN(m,n)); i++ ) {
        tau_i[i] = tau_save[i];
    }
    for( i = 0; i < 3*n; i++ ) {
        work_i[i] = work[i];
    }

    LAPACKE_sge_trans( LAPACK_COL_MAJOR, m, n, a_i, lda, a_r, n+2 );
    info_i = LAPACKE_sgeqpf_work( LAPACK_ROW_MAJOR, m_i, n_i, a_r, lda_r,
                                  jpvt_i, tau_i, work_i );

    LAPACKE_sge_trans( LAPACK_ROW_MAJOR, m, n, a_r, n+2, a_i, lda );

    failed = compare_sgeqpf( a, a_i, jpvt, jpvt_i, tau, tau_i, info, info_i,
                             lda, m, n );
    if( failed == 0 ) {
        printf( "PASSED: row-major middle-level interface to sgeqpf\n" );
    } else {
        printf( "FAILED: row-major middle-level interface to sgeqpf\n" );
    }

    /* Initialize input data, call the row-major high-level
     * interface to LAPACK routine and check the results */
    for( i = 0; i < lda*n; i++ ) {
        a_i[i] = a_save[i];
    }
    for( i = 0; i < n; i++ ) {
        jpvt_i[i] = jpvt_save[i];
    }
    for( i = 0; i < (MIN(m,n)); i++ ) {
        tau_i[i] = tau_save[i];
    }
    for( i = 0; i < 3*n; i++ ) {
        work_i[i] = work[i];
    }

    /* Init row_major arrays */
    LAPACKE_sge_trans( LAPACK_COL_MAJOR, m, n, a_i, lda, a_r, n+2 );
    info_i = LAPACKE_sgeqpf( LAPACK_ROW_MAJOR, m_i, n_i, a_r, lda_r, jpvt_i,
                             tau_i );

    LAPACKE_sge_trans( LAPACK_ROW_MAJOR, m, n, a_r, n+2, a_i, lda );

    failed = compare_sgeqpf( a, a_i, jpvt, jpvt_i, tau, tau_i, info, info_i,
                             lda, m, n );
    if( failed == 0 ) {
        printf( "PASSED: row-major high-level interface to sgeqpf\n" );
    } else {
        printf( "FAILED: row-major high-level interface to sgeqpf\n" );
    }

    /* Release memory */
    if( a != NULL ) {
        LAPACKE_free( a );
    }
    if( a_i != NULL ) {
        LAPACKE_free( a_i );
    }
    if( a_r != NULL ) {
        LAPACKE_free( a_r );
    }
    if( a_save != NULL ) {
        LAPACKE_free( a_save );
    }
    if( jpvt != NULL ) {
        LAPACKE_free( jpvt );
    }
    if( jpvt_i != NULL ) {
        LAPACKE_free( jpvt_i );
    }
    if( jpvt_save != NULL ) {
        LAPACKE_free( jpvt_save );
    }
    if( tau != NULL ) {
        LAPACKE_free( tau );
    }
    if( tau_i != NULL ) {
        LAPACKE_free( tau_i );
    }
    if( tau_save != NULL ) {
        LAPACKE_free( tau_save );
    }
    if( work != NULL ) {
        LAPACKE_free( work );
    }
    if( work_i != NULL ) {
        LAPACKE_free( work_i );
    }

    return 0;
}

/* Auxiliary function: sgeqpf scalar parameters initialization */
static void init_scalars_sgeqpf( lapack_int *m, lapack_int *n, lapack_int *lda )
{
    *m = 6;
    *n = 5;
    *lda = 8;

    return;
}

/* Auxiliary functions: sgeqpf array parameters initialization */
static void init_a( lapack_int size, float *a ) {
    lapack_int i;
    for( i = 0; i < size; i++ ) {
        a[i] = 0;
    }
    a[0] = -9.000000358e-002;  /* a[0,0] */
    a[8] = 1.400000006e-001;  /* a[0,1] */
    a[16] = -4.600000083e-001;  /* a[0,2] */
    a[24] = 6.800000072e-001;  /* a[0,3] */
    a[32] = 1.289999962e+000;  /* a[0,4] */
    a[1] = -1.559999943e+000;  /* a[1,0] */
    a[9] = 2.000000030e-001;  /* a[1,1] */
    a[17] = 2.899999917e-001;  /* a[1,2] */
    a[25] = 1.090000033e+000;  /* a[1,3] */
    a[33] = 5.099999905e-001;  /* a[1,4] */
    a[2] = -1.480000019e+000;  /* a[2,0] */
    a[10] = -4.300000072e-001;  /* a[2,1] */
    a[18] = 8.899999857e-001;  /* a[2,2] */
    a[26] = -7.099999785e-001;  /* a[2,3] */
    a[34] = -9.599999785e-001;  /* a[2,4] */
    a[3] = -1.090000033e+000;  /* a[3,0] */
    a[11] = 8.399999738e-001;  /* a[3,1] */
    a[19] = 7.699999809e-001;  /* a[3,2] */
    a[27] = 2.109999895e+000;  /* a[3,3] */
    a[35] = -1.269999981e+000;  /* a[3,4] */
    a[4] = 7.999999821e-002;  /* a[4,0] */
    a[12] = 5.500000119e-001;  /* a[4,1] */
    a[20] = -1.129999995e+000;  /* a[4,2] */
    a[28] = 1.400000006e-001;  /* a[4,3] */
    a[36] = 1.740000010e+000;  /* a[4,4] */
    a[5] = -1.590000033e+000;  /* a[5,0] */
    a[13] = -7.200000286e-001;  /* a[5,1] */
    a[21] = 1.059999943e+000;  /* a[5,2] */
    a[29] = 1.240000010e+000;  /* a[5,3] */
    a[37] = 3.400000036e-001;  /* a[5,4] */
}
static void init_jpvt( lapack_int size, lapack_int *jpvt ) {
    lapack_int i;
    for( i = 0; i < size; i++ ) {
        jpvt[i] = 0;
    }
    jpvt[0] = 0;
    jpvt[1] = 0;
    jpvt[2] = 0;
    jpvt[3] = 0;
    jpvt[4] = 0;
}
static void init_tau( lapack_int size, float *tau ) {
    lapack_int i;
    for( i = 0; i < size; i++ ) {
        tau[i] = 0;
    }
}
static void init_work( lapack_int size, float *work ) {
    lapack_int i;
    for( i = 0; i < size; i++ ) {
        work[i] = 0;
    }
}

/* Auxiliary function: C interface to sgeqpf results check */
/* Return value: 0 - test is passed, non-zero - test is failed */
static int compare_sgeqpf( float *a, float *a_i, lapack_int *jpvt,
                           lapack_int *jpvt_i, float *tau, float *tau_i,
                           lapack_int info, lapack_int info_i, lapack_int lda,
                           lapack_int m, lapack_int n )
{
    lapack_int i;
    int failed = 0;
    for( i = 0; i < lda*n; i++ ) {
        failed += compare_floats(a[i],a_i[i]);
    }
    for( i = 0; i < n; i++ ) {
        failed += (jpvt[i] == jpvt_i[i]) ? 0 : 1;
    }
    for( i = 0; i < (MIN(m,n)); i++ ) {
        failed += compare_floats(tau[i],tau_i[i]);
    }
    failed += (info == info_i) ? 0 : 1;
    if( info != 0 || info_i != 0 ) {
        printf( "info=%d, info_i=%d\n",(int)info,(int)info_i );
    }

    return failed;
}