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Functions
bli_randm.c File Reference

(r)

Functions

void bli_srandm (int m, int n, float *a, int a_rs, int a_cs)
void bli_drandm (int m, int n, double *a, int a_rs, int a_cs)
void bli_crandm (int m, int n, scomplex *a, int a_rs, int a_cs)
void bli_zrandm (int m, int n, dcomplex *a, int a_rs, int a_cs)

Function Documentation

void bli_crandm ( int  m,
int  n,
scomplex a,
int  a_rs,
int  a_cs 
)

References bli_crandv(), bli_is_row_storage(), and bli_zero_dim2().

Referenced by FLA_Random_matrix().

{
    scomplex* a_begin;
    int       inca, lda;
    int       n_iter;
    int       n_elem;
    int       j;

    // Return early if possible.
    if ( bli_zero_dim2( m, n ) ) return;

    // Initialize with optimal values for column-major storage.
    inca   = a_rs;
    lda    = a_cs;
    n_iter = n;
    n_elem = m;

    // An optimization: if A is row-major, then let's access the matrix by
    // rows instead of by columns for increased spatial locality.
    if ( bli_is_row_storage( a_rs, a_cs ) )
    {
        bli_swap_ints( n_iter, n_elem );
        bli_swap_ints( lda, inca );
    }

    for ( j = 0; j < n_iter; j++ )
    {
        a_begin = a + j*lda;

        bli_crandv( n_elem,
                    a_begin, inca );
    }
}
void bli_drandm ( int  m,
int  n,
double *  a,
int  a_rs,
int  a_cs 
)

References bli_drandv(), bli_is_row_storage(), and bli_zero_dim2().

Referenced by FLA_Random_matrix().

{
    double*   a_begin;
    int       inca, lda;
    int       n_iter;
    int       n_elem;
    int       j;

    // Return early if possible.
    if ( bli_zero_dim2( m, n ) ) return;

    // Initialize with optimal values for column-major storage.
    inca   = a_rs;
    lda    = a_cs;
    n_iter = n;
    n_elem = m;

    // An optimization: if A is row-major, then let's access the matrix by
    // rows instead of by columns for increased spatial locality.
    if ( bli_is_row_storage( a_rs, a_cs ) )
    {
        bli_swap_ints( n_iter, n_elem );
        bli_swap_ints( lda, inca );
    }

    for ( j = 0; j < n_iter; j++ )
    {
        a_begin = a + j*lda;

        bli_drandv( n_elem,
                    a_begin, inca );
    }
}
void bli_srandm ( int  m,
int  n,
float *  a,
int  a_rs,
int  a_cs 
)

References bli_is_row_storage(), bli_srandv(), and bli_zero_dim2().

Referenced by FLA_Random_matrix().

{
    float*    a_begin;
    int       inca, lda;
    int       n_iter;
    int       n_elem;
    int       j;

    // Return early if possible.
    if ( bli_zero_dim2( m, n ) ) return;

    // Initialize with optimal values for column-major storage.
    inca   = a_rs;
    lda    = a_cs;
    n_iter = n;
    n_elem = m;

    // An optimization: if A is row-major, then let's access the matrix by
    // rows instead of by columns for increased spatial locality.
    if ( bli_is_row_storage( a_rs, a_cs ) )
    {
        bli_swap_ints( n_iter, n_elem );
        bli_swap_ints( lda, inca );
    }

    for ( j = 0; j < n_iter; j++ )
    {
        a_begin = a + j*lda;

        bli_srandv( n_elem,
                    a_begin, inca );
    }
}
void bli_zrandm ( int  m,
int  n,
dcomplex a,
int  a_rs,
int  a_cs 
)

References bli_is_row_storage(), bli_zero_dim2(), and bli_zrandv().

Referenced by FLA_Random_matrix().

{
    dcomplex* a_begin;
    int       inca, lda;
    int       n_iter;
    int       n_elem;
    int       j;

    // Return early if possible.
    if ( bli_zero_dim2( m, n ) ) return;

    // Initialize with optimal values for column-major storage.
    inca   = a_rs;
    lda    = a_cs;
    n_iter = n;
    n_elem = m;

    // An optimization: if A is row-major, then let's access the matrix by
    // rows instead of by columns for increased spatial locality.
    if ( bli_is_row_storage( a_rs, a_cs ) )
    {
        bli_swap_ints( n_iter, n_elem );
        bli_swap_ints( lda, inca );
    }

    for ( j = 0; j < n_iter; j++ )
    {
        a_begin = a + j*lda;

        bli_zrandv( n_elem,
                    a_begin, inca );
    }
}