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Functions
bl1_trsvsx.c File Reference

(r)

Functions

void bl1_strsvsx (uplo1_t uplo, trans1_t trans, diag1_t diag, int m, float *alpha, float *a, int a_rs, int a_cs, float *x, int incx, float *beta, float *y, int incy)
void bl1_dtrsvsx (uplo1_t uplo, trans1_t trans, diag1_t diag, int m, double *alpha, double *a, int a_rs, int a_cs, double *x, int incx, double *beta, double *y, int incy)
void bl1_ctrsvsx (uplo1_t uplo, trans1_t trans, diag1_t diag, int m, scomplex *alpha, scomplex *a, int a_rs, int a_cs, scomplex *x, int incx, scomplex *beta, scomplex *y, int incy)
void bl1_ztrsvsx (uplo1_t uplo, trans1_t trans, diag1_t diag, int m, dcomplex *alpha, dcomplex *a, int a_rs, int a_cs, dcomplex *x, int incx, dcomplex *beta, dcomplex *y, int incy)

Function Documentation

void bl1_ctrsvsx ( uplo1_t  uplo,
trans1_t  trans,
diag1_t  diag,
int  m,
scomplex alpha,
scomplex a,
int  a_rs,
int  a_cs,
scomplex x,
int  incx,
scomplex beta,
scomplex y,
int  incy 
)

References bl1_callocv(), bl1_caxpyv(), bl1_ccopyv(), bl1_ccreate_contigmr(), bl1_cfree(), bl1_cfree_contigm(), bl1_cscalv(), bl1_ctrsv(), bl1_zero_dim1(), and BLIS1_NO_CONJUGATE.

{
    scomplex* a_save    = a;
    int       a_rs_save = a_rs;
    int       a_cs_save = a_cs;
    scomplex* x_temp;
    int       incx_temp;

    // Return early if possible.
    if ( bl1_zero_dim1( m ) ) return;

    // If necessary, allocate, initialize, and use a temporary contiguous
    // copy of the matrix rather than the original matrix.
    bl1_ccreate_contigmr( uplo,
                          m,
                          m,
                          a_save, a_rs_save, a_cs_save,
                          &a,     &a_rs,     &a_cs );

    // Allocate a temporary vector conformal to x.
    x_temp    = bl1_callocv( m );
    incx_temp = 1;

    // Copy x to a temporary vector.
    bl1_ccopyv( BLIS1_NO_CONJUGATE,
                m,
                x,      incx,
                x_temp, incx_temp );

    // Perform the operation, storing the result to x_temp.
    bl1_ctrsv( uplo,
               trans,
               diag,
               m,
               a,      a_rs, a_cs,
               x_temp, incx_temp );

    // Scale y by beta.
    bl1_cscalv( BLIS1_NO_CONJUGATE,
                m,
                beta,
                y, incy );

    // Axpy the partial result in x_temp into y.
    bl1_caxpyv( BLIS1_NO_CONJUGATE,
                m,
                alpha,
                x_temp, incx_temp,
                y,      incy );

    // Free the temporary vector.
    bl1_cfree( x_temp );

    // Free the temporary contiguous matrix.
    bl1_cfree_contigm( a_save, a_rs_save, a_cs_save,
                       &a,     &a_rs,     &a_cs );
}
void bl1_dtrsvsx ( uplo1_t  uplo,
trans1_t  trans,
diag1_t  diag,
int  m,
double *  alpha,
double *  a,
int  a_rs,
int  a_cs,
double *  x,
int  incx,
double *  beta,
double *  y,
int  incy 
)

References bl1_dallocv(), bl1_daxpyv(), bl1_dcopyv(), bl1_dcreate_contigmr(), bl1_dfree(), bl1_dfree_contigm(), bl1_dscalv(), bl1_dtrsv(), bl1_zero_dim1(), and BLIS1_NO_CONJUGATE.

{
    double*   a_save    = a;
    int       a_rs_save = a_rs;
    int       a_cs_save = a_cs;
    double*   x_temp;
    int       incx_temp;

    // Return early if possible.
    if ( bl1_zero_dim1( m ) ) return;

    // If necessary, allocate, initialize, and use a temporary contiguous
    // copy of the matrix rather than the original matrix.
    bl1_dcreate_contigmr( uplo,
                          m,
                          m,
                          a_save, a_rs_save, a_cs_save,
                          &a,     &a_rs,     &a_cs );

    // Allocate a temporary vector conformal to x.
    x_temp    = bl1_dallocv( m );
    incx_temp = 1;

    // Copy x to a temporary vector.
    bl1_dcopyv( BLIS1_NO_CONJUGATE,
                m,
                x,      incx,
                x_temp, incx_temp );

    // Perform the operation, storing the result to x_temp.
    bl1_dtrsv( uplo,
               trans,
               diag,
               m,
               a,      a_rs, a_cs,
               x_temp, incx_temp );

    // Scale y by beta.
    bl1_dscalv( BLIS1_NO_CONJUGATE,
                m,
                beta,
                y, incy );

    // Axpy the partial result in x_temp into y.
    bl1_daxpyv( BLIS1_NO_CONJUGATE,
                m,
                alpha,
                x_temp, incx_temp,
                y,      incy );

    // Free the temporary vector.
    bl1_dfree( x_temp );

    // Free the temporary contiguous matrix.
    bl1_dfree_contigm( a_save, a_rs_save, a_cs_save,
                       &a,     &a_rs,     &a_cs );
}
void bl1_strsvsx ( uplo1_t  uplo,
trans1_t  trans,
diag1_t  diag,
int  m,
float *  alpha,
float *  a,
int  a_rs,
int  a_cs,
float *  x,
int  incx,
float *  beta,
float *  y,
int  incy 
)

References bl1_sallocv(), bl1_saxpyv(), bl1_scopyv(), bl1_screate_contigmr(), bl1_sfree(), bl1_sfree_contigm(), bl1_sscalv(), bl1_strsv(), bl1_zero_dim1(), and BLIS1_NO_CONJUGATE.

{
    float*    a_save    = a;
    int       a_rs_save = a_rs;
    int       a_cs_save = a_cs;
    float*    x_temp;
    int       incx_temp;

    // Return early if possible.
    if ( bl1_zero_dim1( m ) ) return;

    // If necessary, allocate, initialize, and use a temporary contiguous
    // copy of the matrix rather than the original matrix.
    bl1_screate_contigmr( uplo,
                          m,
                          m,
                          a_save, a_rs_save, a_cs_save,
                          &a,     &a_rs,     &a_cs );

    // Allocate a temporary vector conformal to x.
    x_temp    = bl1_sallocv( m );
    incx_temp = 1;

    // Copy x to a temporary vector.
    bl1_scopyv( BLIS1_NO_CONJUGATE,
                m,
                x,      incx,
                x_temp, incx_temp );

    // Perform the operation, storing the result to x_temp.
    bl1_strsv( uplo,
               trans,
               diag,
               m,
               a,      a_rs, a_cs,
               x_temp, incx_temp );

    // Scale y by beta.
    bl1_sscalv( BLIS1_NO_CONJUGATE,
                m,
                beta,
                y, incy );

    // Axpy the partial result in x_temp into y.
    bl1_saxpyv( BLIS1_NO_CONJUGATE,
                m,
                alpha,
                x_temp, incx_temp,
                y,      incy );

    // Free the temporary vector.
    bl1_sfree( x_temp );

    // Free the temporary contiguous matrix.
    bl1_sfree_contigm( a_save, a_rs_save, a_cs_save,
                       &a,     &a_rs,     &a_cs );
}
void bl1_ztrsvsx ( uplo1_t  uplo,
trans1_t  trans,
diag1_t  diag,
int  m,
dcomplex alpha,
dcomplex a,
int  a_rs,
int  a_cs,
dcomplex x,
int  incx,
dcomplex beta,
dcomplex y,
int  incy 
)

References bl1_zallocv(), bl1_zaxpyv(), bl1_zcopyv(), bl1_zcreate_contigmr(), bl1_zero_dim1(), bl1_zfree(), bl1_zfree_contigm(), bl1_zscalv(), bl1_ztrsv(), and BLIS1_NO_CONJUGATE.

{
    dcomplex* a_save    = a;
    int       a_rs_save = a_rs;
    int       a_cs_save = a_cs;
    dcomplex* x_temp;
    int       incx_temp;

    // Return early if possible.
    if ( bl1_zero_dim1( m ) ) return;

    // If necessary, allocate, initialize, and use a temporary contiguous
    // copy of the matrix rather than the original matrix.
    bl1_zcreate_contigmr( uplo,
                          m,
                          m,
                          a_save, a_rs_save, a_cs_save,
                          &a,     &a_rs,     &a_cs );

    // Allocate a temporary vector conformal to x.
    x_temp    = bl1_zallocv( m );
    incx_temp = 1;

    // Copy x to a temporary vector.
    bl1_zcopyv( BLIS1_NO_CONJUGATE,
                m,
                x,      incx,
                x_temp, incx_temp );

    // Perform the operation, storing the result to x_temp.
    bl1_ztrsv( uplo,
               trans,
               diag,
               m,
               a,      a_rs, a_cs,
               x_temp, incx_temp );

    // Scale y by beta.
    bl1_zscalv( BLIS1_NO_CONJUGATE,
                m,
                beta,
                y, incy );

    // Axpy the partial result in x_temp into y.
    bl1_zaxpyv( BLIS1_NO_CONJUGATE,
                m,
                alpha,
                x_temp, incx_temp,
                y,      incy );

    // Free the temporary vector.
    bl1_zfree( x_temp );

    // Free the temporary contiguous matrix.
    bl1_zfree_contigm( a_save, a_rs_save, a_cs_save,
                       &a,     &a_rs,     &a_cs );
}