/* * Written by D.P. Manley, Digital Equipment Corporation. * Prefixed "C_" to BLAS routines and their declarations. * * Modified by T. H. Do, 4/15/98, SGI/CRAY Research. */ #include <stdlib.h> #include "cblas.h" #include "cblas_test.h" #define TEST_COL_MJR 0 #define TEST_ROW_MJR 1 #define UNDEFINED -1 void F77_cgemm(int *order, char *transpa, char *transpb, int *m, int *n, int *k, CBLAS_TEST_COMPLEX *alpha, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *b, int *ldb, CBLAS_TEST_COMPLEX *beta, CBLAS_TEST_COMPLEX *c, int *ldc ) { CBLAS_TEST_COMPLEX *A, *B, *C; int i,j,LDA, LDB, LDC; enum CBLAS_TRANSPOSE transa, transb; get_transpose_type(transpa, &transa); get_transpose_type(transpb, &transb); if (*order == TEST_ROW_MJR) { if (transa == CblasNoTrans) { LDA = *k+1; A=(CBLAS_TEST_COMPLEX*)malloc((*m)*LDA*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*m; i++ ) for( j=0; j<*k; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } else { LDA = *m+1; A=(CBLAS_TEST_COMPLEX* )malloc(LDA*(*k)*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*k; i++ ) for( j=0; j<*m; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } if (transb == CblasNoTrans) { LDB = *n+1; B=(CBLAS_TEST_COMPLEX* )malloc((*k)*LDB*sizeof(CBLAS_TEST_COMPLEX) ); for( i=0; i<*k; i++ ) for( j=0; j<*n; j++ ) { B[i*LDB+j].real=b[j*(*ldb)+i].real; B[i*LDB+j].imag=b[j*(*ldb)+i].imag; } } else { LDB = *k+1; B=(CBLAS_TEST_COMPLEX* )malloc(LDB*(*n)*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*n; i++ ) for( j=0; j<*k; j++ ) { B[i*LDB+j].real=b[j*(*ldb)+i].real; B[i*LDB+j].imag=b[j*(*ldb)+i].imag; } } LDC = *n+1; C=(CBLAS_TEST_COMPLEX* )malloc((*m)*LDC*sizeof(CBLAS_TEST_COMPLEX)); for( j=0; j<*n; j++ ) for( i=0; i<*m; i++ ) { C[i*LDC+j].real=c[j*(*ldc)+i].real; C[i*LDC+j].imag=c[j*(*ldc)+i].imag; } cblas_cgemm( CblasRowMajor, transa, transb, *m, *n, *k, alpha, A, LDA, B, LDB, beta, C, LDC ); for( j=0; j<*n; j++ ) for( i=0; i<*m; i++ ) { c[j*(*ldc)+i].real=C[i*LDC+j].real; c[j*(*ldc)+i].imag=C[i*LDC+j].imag; } free(A); free(B); free(C); } else if (*order == TEST_COL_MJR) cblas_cgemm( CblasColMajor, transa, transb, *m, *n, *k, alpha, a, *lda, b, *ldb, beta, c, *ldc ); else cblas_cgemm( UNDEFINED, transa, transb, *m, *n, *k, alpha, a, *lda, b, *ldb, beta, c, *ldc ); } void F77_chemm(int *order, char *rtlf, char *uplow, int *m, int *n, CBLAS_TEST_COMPLEX *alpha, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *b, int *ldb, CBLAS_TEST_COMPLEX *beta, CBLAS_TEST_COMPLEX *c, int *ldc ) { CBLAS_TEST_COMPLEX *A, *B, *C; int i,j,LDA, LDB, LDC; enum CBLAS_UPLO uplo; enum CBLAS_SIDE side; get_uplo_type(uplow,&uplo); get_side_type(rtlf,&side); if (*order == TEST_ROW_MJR) { if (side == CblasLeft) { LDA = *m+1; A= (CBLAS_TEST_COMPLEX* )malloc((*m)*LDA*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*m; i++ ) for( j=0; j<*m; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } else{ 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[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } LDB = *n+1; B=(CBLAS_TEST_COMPLEX* )malloc( (*m)*LDB*sizeof(CBLAS_TEST_COMPLEX ) ); for( i=0; i<*m; i++ ) for( j=0; j<*n; j++ ) { B[i*LDB+j].real=b[j*(*ldb)+i].real; B[i*LDB+j].imag=b[j*(*ldb)+i].imag; } LDC = *n+1; C=(CBLAS_TEST_COMPLEX* )malloc((*m)*LDC*sizeof(CBLAS_TEST_COMPLEX ) ); for( j=0; j<*n; j++ ) for( i=0; i<*m; i++ ) { C[i*LDC+j].real=c[j*(*ldc)+i].real; C[i*LDC+j].imag=c[j*(*ldc)+i].imag; } cblas_chemm( CblasRowMajor, side, uplo, *m, *n, alpha, A, LDA, B, LDB, beta, C, LDC ); for( j=0; j<*n; j++ ) for( i=0; i<*m; i++ ) { c[j*(*ldc)+i].real=C[i*LDC+j].real; c[j*(*ldc)+i].imag=C[i*LDC+j].imag; } free(A); free(B); free(C); } else if (*order == TEST_COL_MJR) cblas_chemm( CblasColMajor, side, uplo, *m, *n, alpha, a, *lda, b, *ldb, beta, c, *ldc ); else cblas_chemm( UNDEFINED, side, uplo, *m, *n, alpha, a, *lda, b, *ldb, beta, c, *ldc ); } void F77_csymm(int *order, char *rtlf, char *uplow, int *m, int *n, CBLAS_TEST_COMPLEX *alpha, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *b, int *ldb, CBLAS_TEST_COMPLEX *beta, CBLAS_TEST_COMPLEX *c, int *ldc ) { CBLAS_TEST_COMPLEX *A, *B, *C; int i,j,LDA, LDB, LDC; enum CBLAS_UPLO uplo; enum CBLAS_SIDE side; get_uplo_type(uplow,&uplo); get_side_type(rtlf,&side); if (*order == TEST_ROW_MJR) { if (side == CblasLeft) { LDA = *m+1; A=(CBLAS_TEST_COMPLEX* )malloc((*m)*LDA*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*m; i++ ) for( j=0; j<*m; j++ ) A[i*LDA+j]=a[j*(*lda)+i]; } else{ 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[i*LDA+j]=a[j*(*lda)+i]; } LDB = *n+1; B=(CBLAS_TEST_COMPLEX* )malloc((*m)*LDB*sizeof(CBLAS_TEST_COMPLEX )); for( i=0; i<*m; i++ ) for( j=0; j<*n; j++ ) B[i*LDB+j]=b[j*(*ldb)+i]; LDC = *n+1; C=(CBLAS_TEST_COMPLEX* )malloc((*m)*LDC*sizeof(CBLAS_TEST_COMPLEX)); for( j=0; j<*n; j++ ) for( i=0; i<*m; i++ ) C[i*LDC+j]=c[j*(*ldc)+i]; cblas_csymm( CblasRowMajor, side, uplo, *m, *n, alpha, A, LDA, B, LDB, beta, C, LDC ); for( j=0; j<*n; j++ ) for( i=0; i<*m; i++ ) c[j*(*ldc)+i]=C[i*LDC+j]; free(A); free(B); free(C); } else if (*order == TEST_COL_MJR) cblas_csymm( CblasColMajor, side, uplo, *m, *n, alpha, a, *lda, b, *ldb, beta, c, *ldc ); else cblas_csymm( UNDEFINED, side, uplo, *m, *n, alpha, a, *lda, b, *ldb, beta, c, *ldc ); } void F77_cherk(int *order, char *uplow, char *transp, int *n, int *k, float *alpha, CBLAS_TEST_COMPLEX *a, int *lda, float *beta, CBLAS_TEST_COMPLEX *c, int *ldc ) { int i,j,LDA,LDC; CBLAS_TEST_COMPLEX *A, *C; enum CBLAS_UPLO uplo; enum CBLAS_TRANSPOSE trans; get_uplo_type(uplow,&uplo); get_transpose_type(transp,&trans); if (*order == TEST_ROW_MJR) { if (trans == CblasNoTrans) { LDA = *k+1; A=(CBLAS_TEST_COMPLEX* )malloc((*n)*LDA*sizeof(CBLAS_TEST_COMPLEX ) ); for( i=0; i<*n; i++ ) for( j=0; j<*k; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } else{ LDA = *n+1; A=(CBLAS_TEST_COMPLEX* )malloc((*k)*LDA*sizeof(CBLAS_TEST_COMPLEX ) ); for( i=0; i<*k; i++ ) for( j=0; j<*n; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } LDC = *n+1; C=(CBLAS_TEST_COMPLEX* )malloc((*n)*LDC*sizeof(CBLAS_TEST_COMPLEX ) ); for( i=0; i<*n; i++ ) for( j=0; j<*n; j++ ) { C[i*LDC+j].real=c[j*(*ldc)+i].real; C[i*LDC+j].imag=c[j*(*ldc)+i].imag; } cblas_cherk(CblasRowMajor, uplo, trans, *n, *k, *alpha, A, LDA, *beta, C, LDC ); for( j=0; j<*n; j++ ) for( i=0; i<*n; i++ ) { c[j*(*ldc)+i].real=C[i*LDC+j].real; c[j*(*ldc)+i].imag=C[i*LDC+j].imag; } free(A); free(C); } else if (*order == TEST_COL_MJR) cblas_cherk(CblasColMajor, uplo, trans, *n, *k, *alpha, a, *lda, *beta, c, *ldc ); else cblas_cherk(UNDEFINED, uplo, trans, *n, *k, *alpha, a, *lda, *beta, c, *ldc ); } void F77_csyrk(int *order, char *uplow, char *transp, int *n, int *k, CBLAS_TEST_COMPLEX *alpha, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *beta, CBLAS_TEST_COMPLEX *c, int *ldc ) { int i,j,LDA,LDC; CBLAS_TEST_COMPLEX *A, *C; enum CBLAS_UPLO uplo; enum CBLAS_TRANSPOSE trans; get_uplo_type(uplow,&uplo); get_transpose_type(transp,&trans); if (*order == TEST_ROW_MJR) { if (trans == CblasNoTrans) { LDA = *k+1; A=(CBLAS_TEST_COMPLEX* )malloc((*n)*LDA*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*n; i++ ) for( j=0; j<*k; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } else{ LDA = *n+1; A=(CBLAS_TEST_COMPLEX* )malloc((*k)*LDA*sizeof(CBLAS_TEST_COMPLEX ) ); for( i=0; i<*k; i++ ) for( j=0; j<*n; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } LDC = *n+1; C=(CBLAS_TEST_COMPLEX* )malloc((*n)*LDC*sizeof(CBLAS_TEST_COMPLEX ) ); for( i=0; i<*n; i++ ) for( j=0; j<*n; j++ ) { C[i*LDC+j].real=c[j*(*ldc)+i].real; C[i*LDC+j].imag=c[j*(*ldc)+i].imag; } cblas_csyrk(CblasRowMajor, uplo, trans, *n, *k, alpha, A, LDA, beta, C, LDC ); for( j=0; j<*n; j++ ) for( i=0; i<*n; i++ ) { c[j*(*ldc)+i].real=C[i*LDC+j].real; c[j*(*ldc)+i].imag=C[i*LDC+j].imag; } free(A); free(C); } else if (*order == TEST_COL_MJR) cblas_csyrk(CblasColMajor, uplo, trans, *n, *k, alpha, a, *lda, beta, c, *ldc ); else cblas_csyrk(UNDEFINED, uplo, trans, *n, *k, alpha, a, *lda, beta, c, *ldc ); } void F77_cher2k(int *order, char *uplow, char *transp, int *n, int *k, CBLAS_TEST_COMPLEX *alpha, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *b, int *ldb, float *beta, CBLAS_TEST_COMPLEX *c, int *ldc ) { int i,j,LDA,LDB,LDC; CBLAS_TEST_COMPLEX *A, *B, *C; enum CBLAS_UPLO uplo; enum CBLAS_TRANSPOSE trans; get_uplo_type(uplow,&uplo); get_transpose_type(transp,&trans); if (*order == TEST_ROW_MJR) { if (trans == CblasNoTrans) { LDA = *k+1; LDB = *k+1; A=(CBLAS_TEST_COMPLEX* )malloc((*n)*LDA*sizeof(CBLAS_TEST_COMPLEX )); B=(CBLAS_TEST_COMPLEX* )malloc((*n)*LDB*sizeof(CBLAS_TEST_COMPLEX )); for( i=0; i<*n; i++ ) for( j=0; j<*k; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; B[i*LDB+j].real=b[j*(*ldb)+i].real; B[i*LDB+j].imag=b[j*(*ldb)+i].imag; } } else { LDA = *n+1; LDB = *n+1; A=(CBLAS_TEST_COMPLEX* )malloc( LDA*(*k)*sizeof(CBLAS_TEST_COMPLEX ) ); B=(CBLAS_TEST_COMPLEX* )malloc( LDB*(*k)*sizeof(CBLAS_TEST_COMPLEX ) ); for( i=0; i<*k; i++ ) for( j=0; j<*n; j++ ){ A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; B[i*LDB+j].real=b[j*(*ldb)+i].real; B[i*LDB+j].imag=b[j*(*ldb)+i].imag; } } LDC = *n+1; C=(CBLAS_TEST_COMPLEX* )malloc( (*n)*LDC*sizeof(CBLAS_TEST_COMPLEX ) ); for( i=0; i<*n; i++ ) for( j=0; j<*n; j++ ) { C[i*LDC+j].real=c[j*(*ldc)+i].real; C[i*LDC+j].imag=c[j*(*ldc)+i].imag; } cblas_cher2k(CblasRowMajor, uplo, trans, *n, *k, alpha, A, LDA, B, LDB, *beta, C, LDC ); for( j=0; j<*n; j++ ) for( i=0; i<*n; i++ ) { c[j*(*ldc)+i].real=C[i*LDC+j].real; c[j*(*ldc)+i].imag=C[i*LDC+j].imag; } free(A); free(B); free(C); } else if (*order == TEST_COL_MJR) cblas_cher2k(CblasColMajor, uplo, trans, *n, *k, alpha, a, *lda, b, *ldb, *beta, c, *ldc ); else cblas_cher2k(UNDEFINED, uplo, trans, *n, *k, alpha, a, *lda, b, *ldb, *beta, c, *ldc ); } void F77_csyr2k(int *order, char *uplow, char *transp, int *n, int *k, CBLAS_TEST_COMPLEX *alpha, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *b, int *ldb, CBLAS_TEST_COMPLEX *beta, CBLAS_TEST_COMPLEX *c, int *ldc ) { int i,j,LDA,LDB,LDC; CBLAS_TEST_COMPLEX *A, *B, *C; enum CBLAS_UPLO uplo; enum CBLAS_TRANSPOSE trans; get_uplo_type(uplow,&uplo); get_transpose_type(transp,&trans); if (*order == TEST_ROW_MJR) { if (trans == CblasNoTrans) { LDA = *k+1; LDB = *k+1; A=(CBLAS_TEST_COMPLEX* )malloc((*n)*LDA*sizeof(CBLAS_TEST_COMPLEX)); B=(CBLAS_TEST_COMPLEX* )malloc((*n)*LDB*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*n; i++ ) for( j=0; j<*k; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; B[i*LDB+j].real=b[j*(*ldb)+i].real; B[i*LDB+j].imag=b[j*(*ldb)+i].imag; } } else { LDA = *n+1; LDB = *n+1; A=(CBLAS_TEST_COMPLEX* )malloc(LDA*(*k)*sizeof(CBLAS_TEST_COMPLEX)); B=(CBLAS_TEST_COMPLEX* )malloc(LDB*(*k)*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*k; i++ ) for( j=0; j<*n; j++ ){ A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; B[i*LDB+j].real=b[j*(*ldb)+i].real; B[i*LDB+j].imag=b[j*(*ldb)+i].imag; } } LDC = *n+1; C=(CBLAS_TEST_COMPLEX* )malloc( (*n)*LDC*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*n; i++ ) for( j=0; j<*n; j++ ) { C[i*LDC+j].real=c[j*(*ldc)+i].real; C[i*LDC+j].imag=c[j*(*ldc)+i].imag; } cblas_csyr2k(CblasRowMajor, uplo, trans, *n, *k, alpha, A, LDA, B, LDB, beta, C, LDC ); for( j=0; j<*n; j++ ) for( i=0; i<*n; i++ ) { c[j*(*ldc)+i].real=C[i*LDC+j].real; c[j*(*ldc)+i].imag=C[i*LDC+j].imag; } free(A); free(B); free(C); } else if (*order == TEST_COL_MJR) cblas_csyr2k(CblasColMajor, uplo, trans, *n, *k, alpha, a, *lda, b, *ldb, beta, c, *ldc ); else cblas_csyr2k(UNDEFINED, uplo, trans, *n, *k, alpha, a, *lda, b, *ldb, beta, c, *ldc ); } void F77_ctrmm(int *order, char *rtlf, char *uplow, char *transp, char *diagn, int *m, int *n, CBLAS_TEST_COMPLEX *alpha, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *b, int *ldb) { int i,j,LDA,LDB; CBLAS_TEST_COMPLEX *A, *B; enum CBLAS_SIDE side; enum CBLAS_DIAG diag; enum CBLAS_UPLO uplo; enum CBLAS_TRANSPOSE trans; get_uplo_type(uplow,&uplo); get_transpose_type(transp,&trans); get_diag_type(diagn,&diag); get_side_type(rtlf,&side); if (*order == TEST_ROW_MJR) { if (side == CblasLeft) { LDA = *m+1; A=(CBLAS_TEST_COMPLEX* )malloc((*m)*LDA*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*m; i++ ) for( j=0; j<*m; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } else{ 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[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } LDB = *n+1; B=(CBLAS_TEST_COMPLEX* )malloc((*m)*LDB*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*m; i++ ) for( j=0; j<*n; j++ ) { B[i*LDB+j].real=b[j*(*ldb)+i].real; B[i*LDB+j].imag=b[j*(*ldb)+i].imag; } cblas_ctrmm(CblasRowMajor, side, uplo, trans, diag, *m, *n, alpha, A, LDA, B, LDB ); for( j=0; j<*n; j++ ) for( i=0; i<*m; i++ ) { b[j*(*ldb)+i].real=B[i*LDB+j].real; b[j*(*ldb)+i].imag=B[i*LDB+j].imag; } free(A); free(B); } else if (*order == TEST_COL_MJR) cblas_ctrmm(CblasColMajor, side, uplo, trans, diag, *m, *n, alpha, a, *lda, b, *ldb); else cblas_ctrmm(UNDEFINED, side, uplo, trans, diag, *m, *n, alpha, a, *lda, b, *ldb); } void F77_ctrsm(int *order, char *rtlf, char *uplow, char *transp, char *diagn, int *m, int *n, CBLAS_TEST_COMPLEX *alpha, CBLAS_TEST_COMPLEX *a, int *lda, CBLAS_TEST_COMPLEX *b, int *ldb) { int i,j,LDA,LDB; CBLAS_TEST_COMPLEX *A, *B; enum CBLAS_SIDE side; enum CBLAS_DIAG diag; enum CBLAS_UPLO uplo; enum CBLAS_TRANSPOSE trans; get_uplo_type(uplow,&uplo); get_transpose_type(transp,&trans); get_diag_type(diagn,&diag); get_side_type(rtlf,&side); if (*order == TEST_ROW_MJR) { if (side == CblasLeft) { LDA = *m+1; A=(CBLAS_TEST_COMPLEX* )malloc( (*m)*LDA*sizeof(CBLAS_TEST_COMPLEX ) ); for( i=0; i<*m; i++ ) for( j=0; j<*m; j++ ) { A[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } else{ 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[i*LDA+j].real=a[j*(*lda)+i].real; A[i*LDA+j].imag=a[j*(*lda)+i].imag; } } LDB = *n+1; B=(CBLAS_TEST_COMPLEX* )malloc((*m)*LDB*sizeof(CBLAS_TEST_COMPLEX)); for( i=0; i<*m; i++ ) for( j=0; j<*n; j++ ) { B[i*LDB+j].real=b[j*(*ldb)+i].real; B[i*LDB+j].imag=b[j*(*ldb)+i].imag; } cblas_ctrsm(CblasRowMajor, side, uplo, trans, diag, *m, *n, alpha, A, LDA, B, LDB ); for( j=0; j<*n; j++ ) for( i=0; i<*m; i++ ) { b[j*(*ldb)+i].real=B[i*LDB+j].real; b[j*(*ldb)+i].imag=B[i*LDB+j].imag; } free(A); free(B); } else if (*order == TEST_COL_MJR) cblas_ctrsm(CblasColMajor, side, uplo, trans, diag, *m, *n, alpha, a, *lda, b, *ldb); else cblas_ctrsm(UNDEFINED, side, uplo, trans, diag, *m, *n, alpha, a, *lda, b, *ldb); }