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android / platform / external / cblas / refs/tags/android-9.0.0_r6 / . / testing / c_cblas2.c
blob: 1aeca3f10e8e7132fc92c83d03e05fc3994206eb [file] [log] [blame]
/*
* Written by D.P. Manley, Digital Equipment Corporation.
* Prefixed "C_" to BLAS routines and their declarations.
*
* Modified by T. H. Do, 4/08/98, SGI/CRAY Research.
*/
#include <stdlib.h>
#include "cblas.h"
#include "cblas_test.h"
void F77_cgemv(int *order, char *transp, int *m, int *n,
const void *alpha,
CBLAS_TEST_COMPLEX *a, int *lda, const void *x, int *incx,
const void *beta, void *y, int *incy) {
CBLAS_TEST_COMPLEX *A;
int i,j,LDA;
enum CBLAS_TRANSPOSE trans;
get_transpose_type(transp, &trans);
if (*order == TEST_ROW_MJR) {
LDA = *n+1;
A = (CBLAS_TEST_COMPLEX *)malloc( (*m)*LDA*sizeof( CBLAS_TEST_COMPLEX) );
for( i=0; i<*m; i++ )
for( j=0; j<*n; j++ ){
A[ LDA*i+j ].real=a[ (*lda)*j+i ].real;
A[ LDA*i+j ].imag=a[ (*lda)*j+i ].imag;
}
cblas_cgemv( CblasRowMajor, trans, *m, *n, alpha, A, LDA, x, *incx,
beta, y, *incy );
free(A);
}
else if (*order == TEST_COL_MJR)
cblas_cgemv( CblasColMajor, trans,
*m, *n, alpha, a, *lda, x, *incx, beta, y, *incy );
else
cblas_cgemv( UNDEFINED, trans,
*m, *n, alpha, a, *lda, x, *incx, beta, y, *incy );
}
void F77_cgbmv(int *order, char *transp, int *m, int *n, int *kl, int *ku,
CBLAS_TEST_COMPLEX *alpha, CBLAS_TEST_COMPLEX *a, int *lda,
CBLAS_TEST_COMPLEX *x, int *incx,
CBLAS_TEST_COMPLEX *beta, CBLAS_TEST_COMPLEX *y, int *incy) {
CBLAS_TEST_COMPLEX *A;
int i,j,irow,jcol,LDA;
enum CBLAS_TRANSPOSE trans;
get_transpose_type(transp, &trans);
if (*order == TEST_ROW_MJR) {
LDA = *ku+*kl+2;
A=( CBLAS_TEST_COMPLEX* )malloc((*n+*kl)*LDA*sizeof(CBLAS_TEST_COMPLEX));
for( i=0; i<*ku; i++ ){
irow=*ku+*kl-i;
jcol=(*ku)-i;
for( j=jcol; j<*n; j++ ){
A[ LDA*(j-jcol)+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*(j-jcol)+irow ].imag=a[ (*lda)*j+i ].imag;
}
}
i=*ku;
irow=*ku+*kl-i;
for( j=0; j<*n; j++ ){
A[ LDA*j+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*j+i ].imag;
}
for( i=*ku+1; i<*ku+*kl+1; i++ ){
irow=*ku+*kl-i;
jcol=i-(*ku);
for( j=jcol; j<(*n+*kl); j++ ){
A[ LDA*j+irow ].real=a[ (*lda)*(j-jcol)+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*(j-jcol)+i ].imag;
}
}
cblas_cgbmv( CblasRowMajor, trans, *m, *n, *kl, *ku, alpha, A, LDA, x,
*incx, beta, y, *incy );
free(A);
}
else if (*order == TEST_COL_MJR)
cblas_cgbmv( CblasColMajor, trans, *m, *n, *kl, *ku, alpha, a, *lda, x,
*incx, beta, y, *incy );
else
cblas_cgbmv( UNDEFINED, trans, *m, *n, *kl, *ku, alpha, a, *lda, x,
*incx, beta, y, *incy );
}
void F77_cgeru(int *order, int *m, int *n, CBLAS_TEST_COMPLEX *alpha,
CBLAS_TEST_COMPLEX *x, int *incx, CBLAS_TEST_COMPLEX *y, int *incy,
CBLAS_TEST_COMPLEX *a, int *lda){
CBLAS_TEST_COMPLEX *A;
int i,j,LDA;
if (*order == TEST_ROW_MJR) {
LDA = *n+1;
A=(CBLAS_TEST_COMPLEX*)malloc((*m)*LDA*sizeof(CBLAS_TEST_COMPLEX));
for( i=0; i<*m; i++ )
for( j=0; j<*n; j++ ){
A[ LDA*i+j ].real=a[ (*lda)*j+i ].real;
A[ LDA*i+j ].imag=a[ (*lda)*j+i ].imag;
}
cblas_cgeru( CblasRowMajor, *m, *n, alpha, x, *incx, y, *incy, A, LDA );
for( i=0; i<*m; i++ )
for( j=0; j<*n; j++ ){
a[ (*lda)*j+i ].real=A[ LDA*i+j ].real;
a[ (*lda)*j+i ].imag=A[ LDA*i+j ].imag;
}
free(A);
}
else if (*order == TEST_COL_MJR)
cblas_cgeru( CblasColMajor, *m, *n, alpha, x, *incx, y, *incy, a, *lda );
else
cblas_cgeru( UNDEFINED, *m, *n, alpha, x, *incx, y, *incy, a, *lda );
}
void F77_cgerc(int *order, int *m, int *n, CBLAS_TEST_COMPLEX *alpha,
CBLAS_TEST_COMPLEX *x, int *incx, CBLAS_TEST_COMPLEX *y, int *incy,
CBLAS_TEST_COMPLEX *a, int *lda) {
CBLAS_TEST_COMPLEX *A;
int i,j,LDA;
if (*order == TEST_ROW_MJR) {
LDA = *n+1;
A=(CBLAS_TEST_COMPLEX* )malloc((*m)*LDA*sizeof(CBLAS_TEST_COMPLEX ) );
for( i=0; i<*m; i++ )
for( j=0; j<*n; j++ ){
A[ LDA*i+j ].real=a[ (*lda)*j+i ].real;
A[ LDA*i+j ].imag=a[ (*lda)*j+i ].imag;
}
cblas_cgerc( CblasRowMajor, *m, *n, alpha, x, *incx, y, *incy, A, LDA );
for( i=0; i<*m; i++ )
for( j=0; j<*n; j++ ){
a[ (*lda)*j+i ].real=A[ LDA*i+j ].real;
a[ (*lda)*j+i ].imag=A[ LDA*i+j ].imag;
}
free(A);
}
else if (*order == TEST_COL_MJR)
cblas_cgerc( CblasColMajor, *m, *n, alpha, x, *incx, y, *incy, a, *lda );
else
cblas_cgerc( UNDEFINED, *m, *n, alpha, x, *incx, y, *incy, a, *lda );
}
void F77_chemv(int *order, char *uplow, int *n, CBLAS_TEST_COMPLEX *alpha,
CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *x,
int *incx, CBLAS_TEST_COMPLEX *beta, CBLAS_TEST_COMPLEX *y, int *incy){
CBLAS_TEST_COMPLEX *A;
int i,j,LDA;
enum CBLAS_UPLO uplo;
get_uplo_type(uplow,&uplo);
if (*order == TEST_ROW_MJR) {
LDA = *n+1;
A = (CBLAS_TEST_COMPLEX *)malloc((*n)*LDA*sizeof(CBLAS_TEST_COMPLEX));
for( i=0; i<*n; i++ )
for( j=0; j<*n; j++ ){
A[ LDA*i+j ].real=a[ (*lda)*j+i ].real;
A[ LDA*i+j ].imag=a[ (*lda)*j+i ].imag;
}
cblas_chemv( CblasRowMajor, uplo, *n, alpha, A, LDA, x, *incx,
beta, y, *incy );
free(A);
}
else if (*order == TEST_COL_MJR)
cblas_chemv( CblasColMajor, uplo, *n, alpha, a, *lda, x, *incx,
beta, y, *incy );
else
cblas_chemv( UNDEFINED, uplo, *n, alpha, a, *lda, x, *incx,
beta, y, *incy );
}
void F77_chbmv(int *order, char *uplow, int *n, int *k,
CBLAS_TEST_COMPLEX *alpha, CBLAS_TEST_COMPLEX *a, int *lda,
CBLAS_TEST_COMPLEX *x, int *incx, CBLAS_TEST_COMPLEX *beta,
CBLAS_TEST_COMPLEX *y, int *incy){
CBLAS_TEST_COMPLEX *A;
int i,irow,j,jcol,LDA;
enum CBLAS_UPLO uplo;
get_uplo_type(uplow,&uplo);
if (*order == TEST_ROW_MJR) {
if (uplo != CblasUpper && uplo != CblasLower )
cblas_chbmv(CblasRowMajor, UNDEFINED, *n, *k, alpha, a, *lda, x,
*incx, beta, y, *incy );
else {
LDA = *k+2;
A =(CBLAS_TEST_COMPLEX*)malloc((*n+*k)*LDA*sizeof(CBLAS_TEST_COMPLEX));
if (uplo == CblasUpper) {
for( i=0; i<*k; i++ ){
irow=*k-i;
jcol=(*k)-i;
for( j=jcol; j<*n; j++ ) {
A[ LDA*(j-jcol)+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*(j-jcol)+irow ].imag=a[ (*lda)*j+i ].imag;
}
}
i=*k;
irow=*k-i;
for( j=0; j<*n; j++ ) {
A[ LDA*j+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*j+i ].imag;
}
}
else {
i=0;
irow=*k-i;
for( j=0; j<*n; j++ ) {
A[ LDA*j+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*j+i ].imag;
}
for( i=1; i<*k+1; i++ ){
irow=*k-i;
jcol=i;
for( j=jcol; j<(*n+*k); j++ ) {
A[ LDA*j+irow ].real=a[ (*lda)*(j-jcol)+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*(j-jcol)+i ].imag;
}
}
}
cblas_chbmv( CblasRowMajor, uplo, *n, *k, alpha, A, LDA, x, *incx,
beta, y, *incy );
free(A);
}
}
else if (*order == TEST_COL_MJR)
cblas_chbmv(CblasColMajor, uplo, *n, *k, alpha, a, *lda, x, *incx,
beta, y, *incy );
else
cblas_chbmv(UNDEFINED, uplo, *n, *k, alpha, a, *lda, x, *incx,
beta, y, *incy );
}
void F77_chpmv(int *order, char *uplow, int *n, CBLAS_TEST_COMPLEX *alpha,
CBLAS_TEST_COMPLEX *ap, CBLAS_TEST_COMPLEX *x, int *incx,
CBLAS_TEST_COMPLEX *beta, CBLAS_TEST_COMPLEX *y, int *incy){
CBLAS_TEST_COMPLEX *A, *AP;
int i,j,k,LDA;
enum CBLAS_UPLO uplo;
get_uplo_type(uplow,&uplo);
if (*order == TEST_ROW_MJR) {
if (uplo != CblasUpper && uplo != CblasLower )
cblas_chpmv(CblasRowMajor, UNDEFINED, *n, alpha, ap, x, *incx,
beta, y, *incy);
else {
LDA = *n;
A = (CBLAS_TEST_COMPLEX* )malloc(LDA*LDA*sizeof(CBLAS_TEST_COMPLEX ));
AP = (CBLAS_TEST_COMPLEX* )malloc( (((LDA+1)*LDA)/2)*
sizeof( CBLAS_TEST_COMPLEX ));
if (uplo == CblasUpper) {
for( j=0, k=0; j<*n; j++ )
for( i=0; i<j+1; i++, k++ ) {
A[ LDA*i+j ].real=ap[ k ].real;
A[ LDA*i+j ].imag=ap[ k ].imag;
}
for( i=0, k=0; i<*n; i++ )
for( j=i; j<*n; j++, k++ ) {
AP[ k ].real=A[ LDA*i+j ].real;
AP[ k ].imag=A[ LDA*i+j ].imag;
}
}
else {
for( j=0, k=0; j<*n; j++ )
for( i=j; i<*n; i++, k++ ) {
A[ LDA*i+j ].real=ap[ k ].real;
A[ LDA*i+j ].imag=ap[ k ].imag;
}
for( i=0, k=0; i<*n; i++ )
for( j=0; j<i+1; j++, k++ ) {
AP[ k ].real=A[ LDA*i+j ].real;
AP[ k ].imag=A[ LDA*i+j ].imag;
}
}
cblas_chpmv( CblasRowMajor, uplo, *n, alpha, AP, x, *incx, beta, y,
*incy );
free(A);
free(AP);
}
}
else if (*order == TEST_COL_MJR)
cblas_chpmv( CblasColMajor, uplo, *n, alpha, ap, x, *incx, beta, y,
*incy );
else
cblas_chpmv( UNDEFINED, uplo, *n, alpha, ap, x, *incx, beta, y,
*incy );
}
void F77_ctbmv(int *order, char *uplow, char *transp, char *diagn,
int *n, int *k, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *x,
int *incx) {
CBLAS_TEST_COMPLEX *A;
int irow, jcol, i, j, LDA;
enum CBLAS_TRANSPOSE trans;
enum CBLAS_UPLO uplo;
enum CBLAS_DIAG diag;
get_transpose_type(transp,&trans);
get_uplo_type(uplow,&uplo);
get_diag_type(diagn,&diag);
if (*order == TEST_ROW_MJR) {
if (uplo != CblasUpper && uplo != CblasLower )
cblas_ctbmv(CblasRowMajor, UNDEFINED, trans, diag, *n, *k, a, *lda,
x, *incx);
else {
LDA = *k+2;
A=(CBLAS_TEST_COMPLEX *)malloc((*n+*k)*LDA*sizeof(CBLAS_TEST_COMPLEX));
if (uplo == CblasUpper) {
for( i=0; i<*k; i++ ){
irow=*k-i;
jcol=(*k)-i;
for( j=jcol; j<*n; j++ ) {
A[ LDA*(j-jcol)+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*(j-jcol)+irow ].imag=a[ (*lda)*j+i ].imag;
}
}
i=*k;
irow=*k-i;
for( j=0; j<*n; j++ ) {
A[ LDA*j+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*j+i ].imag;
}
}
else {
i=0;
irow=*k-i;
for( j=0; j<*n; j++ ) {
A[ LDA*j+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*j+i ].imag;
}
for( i=1; i<*k+1; i++ ){
irow=*k-i;
jcol=i;
for( j=jcol; j<(*n+*k); j++ ) {
A[ LDA*j+irow ].real=a[ (*lda)*(j-jcol)+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*(j-jcol)+i ].imag;
}
}
}
cblas_ctbmv(CblasRowMajor, uplo, trans, diag, *n, *k, A, LDA, x,
*incx);
free(A);
}
}
else if (*order == TEST_COL_MJR)
cblas_ctbmv(CblasColMajor, uplo, trans, diag, *n, *k, a, *lda, x, *incx);
else
cblas_ctbmv(UNDEFINED, uplo, trans, diag, *n, *k, a, *lda, x, *incx);
}
void F77_ctbsv(int *order, char *uplow, char *transp, char *diagn,
int *n, int *k, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *x,
int *incx) {
CBLAS_TEST_COMPLEX *A;
int irow, jcol, i, j, LDA;
enum CBLAS_TRANSPOSE trans;
enum CBLAS_UPLO uplo;
enum CBLAS_DIAG diag;
get_transpose_type(transp,&trans);
get_uplo_type(uplow,&uplo);
get_diag_type(diagn,&diag);
if (*order == TEST_ROW_MJR) {
if (uplo != CblasUpper && uplo != CblasLower )
cblas_ctbsv(CblasRowMajor, UNDEFINED, trans, diag, *n, *k, a, *lda, x,
*incx);
else {
LDA = *k+2;
A=(CBLAS_TEST_COMPLEX*)malloc((*n+*k)*LDA*sizeof(CBLAS_TEST_COMPLEX ));
if (uplo == CblasUpper) {
for( i=0; i<*k; i++ ){
irow=*k-i;
jcol=(*k)-i;
for( j=jcol; j<*n; j++ ) {
A[ LDA*(j-jcol)+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*(j-jcol)+irow ].imag=a[ (*lda)*j+i ].imag;
}
}
i=*k;
irow=*k-i;
for( j=0; j<*n; j++ ) {
A[ LDA*j+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*j+i ].imag;
}
}
else {
i=0;
irow=*k-i;
for( j=0; j<*n; j++ ) {
A[ LDA*j+irow ].real=a[ (*lda)*j+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*j+i ].imag;
}
for( i=1; i<*k+1; i++ ){
irow=*k-i;
jcol=i;
for( j=jcol; j<(*n+*k); j++ ) {
A[ LDA*j+irow ].real=a[ (*lda)*(j-jcol)+i ].real;
A[ LDA*j+irow ].imag=a[ (*lda)*(j-jcol)+i ].imag;
}
}
}
cblas_ctbsv(CblasRowMajor, uplo, trans, diag, *n, *k, A, LDA,
x, *incx);
free(A);
}
}
else if (*order == TEST_COL_MJR)
cblas_ctbsv(CblasColMajor, uplo, trans, diag, *n, *k, a, *lda, x, *incx);
else
cblas_ctbsv(UNDEFINED, uplo, trans, diag, *n, *k, a, *lda, x, *incx);
}
void F77_ctpmv(int *order, char *uplow, char *transp, char *diagn,
int *n, CBLAS_TEST_COMPLEX *ap, CBLAS_TEST_COMPLEX *x, int *incx) {
CBLAS_TEST_COMPLEX *A, *AP;
int i, j, k, LDA;
enum CBLAS_TRANSPOSE trans;
enum CBLAS_UPLO uplo;
enum CBLAS_DIAG diag;
get_transpose_type(transp,&trans);
get_uplo_type(uplow,&uplo);
get_diag_type(diagn,&diag);
if (*order == TEST_ROW_MJR) {
if (uplo != CblasUpper && uplo != CblasLower )
cblas_ctpmv( CblasRowMajor, UNDEFINED, trans, diag, *n, ap, x, *incx );
else {
LDA = *n;
A=(CBLAS_TEST_COMPLEX*)malloc(LDA*LDA*sizeof(CBLAS_TEST_COMPLEX));
AP=(CBLAS_TEST_COMPLEX*)malloc((((LDA+1)*LDA)/2)*
sizeof(CBLAS_TEST_COMPLEX));
if (uplo == CblasUpper) {
for( j=0, k=0; j<*n; j++ )
for( i=0; i<j+1; i++, k++ ) {
A[ LDA*i+j ].real=ap[ k ].real;
A[ LDA*i+j ].imag=ap[ k ].imag;
}
for( i=0, k=0; i<*n; i++ )
for( j=i; j<*n; j++, k++ ) {
AP[ k ].real=A[ LDA*i+j ].real;
AP[ k ].imag=A[ LDA*i+j ].imag;
}
}
else {
for( j=0, k=0; j<*n; j++ )
for( i=j; i<*n; i++, k++ ) {
A[ LDA*i+j ].real=ap[ k ].real;
A[ LDA*i+j ].imag=ap[ k ].imag;
}
for( i=0, k=0; i<*n; i++ )
for( j=0; j<i+1; j++, k++ ) {
AP[ k ].real=A[ LDA*i+j ].real;
AP[ k ].imag=A[ LDA*i+j ].imag;
}
}
cblas_ctpmv( CblasRowMajor, uplo, trans, diag, *n, AP, x, *incx );
free(A);
free(AP);
}
}
else if (*order == TEST_COL_MJR)
cblas_ctpmv( CblasColMajor, uplo, trans, diag, *n, ap, x, *incx );
else
cblas_ctpmv( UNDEFINED, uplo, trans, diag, *n, ap, x, *incx );
}
void F77_ctpsv(int *order, char *uplow, char *transp, char *diagn,
int *n, CBLAS_TEST_COMPLEX *ap, CBLAS_TEST_COMPLEX *x, int *incx) {
CBLAS_TEST_COMPLEX *A, *AP;
int i, j, k, LDA;
enum CBLAS_TRANSPOSE trans;
enum CBLAS_UPLO uplo;
enum CBLAS_DIAG diag;
get_transpose_type(transp,&trans);
get_uplo_type(uplow,&uplo);
get_diag_type(diagn,&diag);
if (*order == TEST_ROW_MJR) {
if (uplo != CblasUpper && uplo != CblasLower )
cblas_ctpsv( CblasRowMajor, UNDEFINED, trans, diag, *n, ap, x, *incx );
else {
LDA = *n;
A=(CBLAS_TEST_COMPLEX*)malloc(LDA*LDA*sizeof(CBLAS_TEST_COMPLEX));
AP=(CBLAS_TEST_COMPLEX*)malloc((((LDA+1)*LDA)/2)*
sizeof(CBLAS_TEST_COMPLEX));
if (uplo == CblasUpper) {
for( j=0, k=0; j<*n; j++ )
for( i=0; i<j+1; i++, k++ ) {
A[ LDA*i+j ].real=ap[ k ].real;
A[ LDA*i+j ].imag=ap[ k ].imag;
}
for( i=0, k=0; i<*n; i++ )
for( j=i; j<*n; j++, k++ ) {
AP[ k ].real=A[ LDA*i+j ].real;
AP[ k ].imag=A[ LDA*i+j ].imag;
}
}
else {
for( j=0, k=0; j<*n; j++ )
for( i=j; i<*n; i++, k++ ) {
A[ LDA*i+j ].real=ap[ k ].real;
A[ LDA*i+j ].imag=ap[ k ].imag;
}
for( i=0, k=0; i<*n; i++ )
for( j=0; j<i+1; j++, k++ ) {
AP[ k ].real=A[ LDA*i+j ].real;
AP[ k ].imag=A[ LDA*i+j ].imag;
}
}
cblas_ctpsv( CblasRowMajor, uplo, trans, diag, *n, AP, x, *incx );
free(A);
free(AP);
}
}
else if (*order == TEST_COL_MJR)
cblas_ctpsv( CblasColMajor, uplo, trans, diag, *n, ap, x, *incx );
else
cblas_ctpsv( UNDEFINED, uplo, trans, diag, *n, ap, x, *incx );
}
void F77_ctrmv(int *order, char *uplow, char *transp, char *diagn,
int *n, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *x,
int *incx) {
CBLAS_TEST_COMPLEX *A;
int i,j,LDA;
enum CBLAS_TRANSPOSE trans;
enum CBLAS_UPLO uplo;
enum CBLAS_DIAG diag;
get_transpose_type(transp,&trans);
get_uplo_type(uplow,&uplo);
get_diag_type(diagn,&diag);
if (*order == TEST_ROW_MJR) {
LDA=*n+1;
A=(CBLAS_TEST_COMPLEX*)malloc((*n)*LDA*sizeof(CBLAS_TEST_COMPLEX));
for( i=0; i<*n; i++ )
for( j=0; j<*n; j++ ) {
A[ LDA*i+j ].real=a[ (*lda)*j+i ].real;
A[ LDA*i+j ].imag=a[ (*lda)*j+i ].imag;
}
cblas_ctrmv(CblasRowMajor, uplo, trans, diag, *n, A, LDA, x, *incx);
free(A);
}
else if (*order == TEST_COL_MJR)
cblas_ctrmv(CblasColMajor, uplo, trans, diag, *n, a, *lda, x, *incx);
else
cblas_ctrmv(UNDEFINED, uplo, trans, diag, *n, a, *lda, x, *incx);
}
void F77_ctrsv(int *order, char *uplow, char *transp, char *diagn,
int *n, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *x,
int *incx) {
CBLAS_TEST_COMPLEX *A;
int i,j,LDA;
enum CBLAS_TRANSPOSE trans;
enum CBLAS_UPLO uplo;
enum CBLAS_DIAG diag;
get_transpose_type(transp,&trans);
get_uplo_type(uplow,&uplo);
get_diag_type(diagn,&diag);
if (*order == TEST_ROW_MJR) {
LDA = *n+1;
A =(CBLAS_TEST_COMPLEX* )malloc((*n)*LDA*sizeof(CBLAS_TEST_COMPLEX ) );
for( i=0; i<*n; i++ )
for( j=0; j<*n; j++ ) {
A[ LDA*i+j ].real=a[ (*lda)*j+i ].real;
A[ LDA*i+j ].imag=a[ (*lda)*j+i ].imag;
}
cblas_ctrsv(CblasRowMajor, uplo, trans, diag, *n, A, LDA, x, *incx );
free(A);
}
else if (*order == TEST_COL_MJR)
cblas_ctrsv(CblasColMajor, uplo, trans, diag, *n, a, *lda, x, *incx );
else
cblas_ctrsv(UNDEFINED, uplo, trans, diag, *n, a, *lda, x, *incx );
}
void F77_chpr(int *order, char *uplow, int *n, float *alpha,
CBLAS_TEST_COMPLEX *x, int *incx, CBLAS_TEST_COMPLEX *ap) {
CBLAS_TEST_COMPLEX *A, *AP;
int i,j,k,LDA;
enum CBLAS_UPLO uplo;
get_uplo_type(uplow,&uplo);
if (*order == TEST_ROW_MJR) {
if (uplo != CblasUpper && uplo != CblasLower )
cblas_chpr(CblasRowMajor, UNDEFINED, *n, *alpha, x, *incx, ap );
else {
LDA = *n;
A = (CBLAS_TEST_COMPLEX* )malloc(LDA*LDA*sizeof(CBLAS_TEST_COMPLEX ) );
AP = ( CBLAS_TEST_COMPLEX* )malloc( (((LDA+1)*LDA)/2)*
sizeof( CBLAS_TEST_COMPLEX ));
if (uplo == CblasUpper) {
for( j=0, k=0; j<*n; j++ )
for( i=0; i<j+1; i++, k++ ){
A[ LDA*i+j ].real=ap[ k ].real;
A[ LDA*i+j ].imag=ap[ k ].imag;
}
for( i=0, k=0; i<*n; i++ )
for( j=i; j<*n; j++, k++ ){
AP[ k ].real=A[ LDA*i+j ].real;
AP[ k ].imag=A[ LDA*i+j ].imag;
}
}
else {
for( j=0, k=0; j<*n; j++ )
for( i=j; i<*n; i++, k++ ){
A[ LDA*i+j ].real=ap[ k ].real;
A[ LDA*i+j ].imag=ap[ k ].imag;
}
for( i=0, k=0; i<*n; i++ )
for( j=0; j<i+1; j++, k++ ){
AP[ k ].real=A[ LDA*i+j ].real;
AP[ k ].imag=A[ LDA*i+j ].imag;
}
}
cblas_chpr(CblasRowMajor, uplo, *n, *alpha, x, *incx, AP );
if (uplo == CblasUpper) {
for( i=0, k=0; i<*n; i++ )
for( j=i; j<*n; j++, k++ ){
A[ LDA*i+j ].real=AP[ k ].real;
A[ LDA*i+j ].imag=AP[ k ].imag;
}
for( j=0, k=0; j<*n; j++ )
for( i=0; i<j+1; i++, k++ ){
ap[ k ].real=A[ LDA*i+j ].real;
ap[ k ].imag=A[ LDA*i+j ].imag;
}
}
else {
for( i=0, k=0; i<*n; i++ )
for( j=0; j<i+1; j++, k++ ){
A[ LDA*i+j ].real=AP[ k ].real;
A[ LDA*i+j ].imag=AP[ k ].imag;
}
for( j=0, k=0; j<*n; j++ )
for( i=j; i<*n; i++, k++ ){
ap[ k ].real=A[ LDA*i+j ].real;
ap[ k ].imag=A[ LDA*i+j ].imag;
}
}
free(A);
free(AP);
}
}
else if (*order == TEST_COL_MJR)
cblas_chpr(CblasColMajor, uplo, *n, *alpha, x, *incx, ap );
else
cblas_chpr(UNDEFINED, uplo, *n, *alpha, x, *incx, ap );
}
void F77_chpr2(int *order, char *uplow, int *n, CBLAS_TEST_COMPLEX *alpha,
CBLAS_TEST_COMPLEX *x, int *incx, CBLAS_TEST_COMPLEX *y, int *incy,
CBLAS_TEST_COMPLEX *ap) {
CBLAS_TEST_COMPLEX *A, *AP;
int i,j,k,LDA;
enum CBLAS_UPLO uplo;
get_uplo_type(uplow,&uplo);
if (*order == TEST_ROW_MJR) {
if (uplo != CblasUpper && uplo != CblasLower )
cblas_chpr2( CblasRowMajor, UNDEFINED, *n, alpha, x, *incx, y,
*incy, ap );
else {
LDA = *n;
A=(CBLAS_TEST_COMPLEX*)malloc( LDA*LDA*sizeof(CBLAS_TEST_COMPLEX ) );
AP=(CBLAS_TEST_COMPLEX*)malloc( (((LDA+1)*LDA)/2)*
sizeof( CBLAS_TEST_COMPLEX ));
if (uplo == CblasUpper) {
for( j=0, k=0; j<*n; j++ )
for( i=0; i<j+1; i++, k++ ) {
A[ LDA*i+j ].real=ap[ k ].real;
A[ LDA*i+j ].imag=ap[ k ].imag;
}
for( i=0, k=0; i<*n; i++ )
for( j=i; j<*n; j++, k++ ) {
AP[ k ].real=A[ LDA*i+j ].real;
AP[ k ].imag=A[ LDA*i+j ].imag;
}
}
else {
for( j=0, k=0; j<*n; j++ )
for( i=j; i<*n; i++, k++ ) {
A[ LDA*i+j ].real=ap[ k ].real;
A[ LDA*i+j ].imag=ap[ k ].imag;
}
for( i=0, k=0; i<*n; i++ )
for( j=0; j<i+1; j++, k++ ) {
AP[ k ].real=A[ LDA*i+j ].real;
AP[ k ].imag=A[ LDA*i+j ].imag;
}
}
cblas_chpr2( CblasRowMajor, uplo, *n, alpha, x, *incx, y, *incy, AP );
if (uplo == CblasUpper) {
for( i=0, k=0; i<*n; i++ )
for( j=i; j<*n; j++, k++ ) {
A[ LDA*i+j ].real=AP[ k ].real;
A[ LDA*i+j ].imag=AP[ k ].imag;
}
for( j=0, k=0; j<*n; j++ )
for( i=0; i<j+1; i++, k++ ) {
ap[ k ].real=A[ LDA*i+j ].real;
ap[ k ].imag=A[ LDA*i+j ].imag;
}
}
else {
for( i=0, k=0; i<*n; i++ )
for( j=0; j<i+1; j++, k++ ) {
A[ LDA*i+j ].real=AP[ k ].real;
A[ LDA*i+j ].imag=AP[ k ].imag;
}
for( j=0, k=0; j<*n; j++ )
for( i=j; i<*n; i++, k++ ) {
ap[ k ].real=A[ LDA*i+j ].real;
ap[ k ].imag=A[ LDA*i+j ].imag;
}
}
free(A);
free(AP);
}
}
else if (*order == TEST_COL_MJR)
cblas_chpr2( CblasColMajor, uplo, *n, alpha, x, *incx, y, *incy, ap );
else
cblas_chpr2( UNDEFINED, uplo, *n, alpha, x, *incx, y, *incy, ap );
}
void F77_cher(int *order, char *uplow, int *n, float *alpha,
CBLAS_TEST_COMPLEX *x, int *incx, CBLAS_TEST_COMPLEX *a, int *lda) {
CBLAS_TEST_COMPLEX *A;
int i,j,LDA;
enum CBLAS_UPLO uplo;
get_uplo_type(uplow,&uplo);
if (*order == TEST_ROW_MJR) {
LDA = *n+1;
A=(CBLAS_TEST_COMPLEX*)malloc((*n)*LDA*sizeof( CBLAS_TEST_COMPLEX ));
for( i=0; i<*n; i++ )
for( j=0; j<*n; j++ ) {
A[ LDA*i+j ].real=a[ (*lda)*j+i ].real;
A[ LDA*i+j ].imag=a[ (*lda)*j+i ].imag;
}
cblas_cher(CblasRowMajor, uplo, *n, *alpha, x, *incx, A, LDA );
for( i=0; i<*n; i++ )
for( j=0; j<*n; j++ ) {
a[ (*lda)*j+i ].real=A[ LDA*i+j ].real;
a[ (*lda)*j+i ].imag=A[ LDA*i+j ].imag;
}
free(A);
}
else if (*order == TEST_COL_MJR)
cblas_cher( CblasColMajor, uplo, *n, *alpha, x, *incx, a, *lda );
else
cblas_cher( UNDEFINED, uplo, *n, *alpha, x, *incx, a, *lda );
}
void F77_cher2(int *order, char *uplow, int *n, CBLAS_TEST_COMPLEX *alpha,
CBLAS_TEST_COMPLEX *x, int *incx, CBLAS_TEST_COMPLEX *y, int *incy,
CBLAS_TEST_COMPLEX *a, int *lda) {
CBLAS_TEST_COMPLEX *A;
int i,j,LDA;
enum CBLAS_UPLO uplo;
get_uplo_type(uplow,&uplo);
if (*order == TEST_ROW_MJR) {
LDA = *n+1;
A= ( CBLAS_TEST_COMPLEX* )malloc((*n)*LDA*sizeof(CBLAS_TEST_COMPLEX ) );
for( i=0; i<*n; i++ )
for( j=0; j<*n; j++ ) {
A[ LDA*i+j ].real=a[ (*lda)*j+i ].real;
A[ LDA*i+j ].imag=a[ (*lda)*j+i ].imag;
}
cblas_cher2(CblasRowMajor, uplo, *n, alpha, x, *incx, y, *incy, A, LDA );
for( i=0; i<*n; i++ )
for( j=0; j<*n; j++ ) {
a[ (*lda)*j+i ].real=A[ LDA*i+j ].real;
a[ (*lda)*j+i ].imag=A[ LDA*i+j ].imag;
}
free(A);
}
else if (*order == TEST_COL_MJR)
cblas_cher2( CblasColMajor, uplo, *n, alpha, x, *incx, y, *incy, a, *lda);
else
cblas_cher2( UNDEFINED, uplo, *n, alpha, x, *incx, y, *incy, a, *lda);
}