numeric-linalg
Educational material on the SciPy implementation of numerical linear algebra algorithms
| Name | Size | Mode | |
| .. | |||
| lapack/CBLAS/src/cblas_cgbmv.c | 4277B | -rw-r--r-- |
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/* * cblas_cgbmv.c * The program is a C interface of cgbmv * * Keita Teranishi 5/20/98 * */ #include <stdio.h> #include <stdlib.h> #include "cblas.h" #include "cblas_f77.h" void API_SUFFIX(cblas_cgbmv)(const CBLAS_LAYOUT layout, const CBLAS_TRANSPOSE TransA, const CBLAS_INT M, const CBLAS_INT N, const CBLAS_INT KL, const CBLAS_INT KU, const void *alpha, const void *A, const CBLAS_INT lda, const void *X, const CBLAS_INT incX, const void *beta, void *Y, const CBLAS_INT incY) { char TA; #ifdef F77_CHAR F77_CHAR F77_TA; #else #define F77_TA &TA #endif #ifdef F77_INT F77_INT F77_M=M, F77_N=N, F77_lda=lda, F77_incX=incX, F77_incY=incY; F77_INT F77_KL=KL,F77_KU=KU; #else #define F77_M M #define F77_N N #define F77_lda lda #define F77_KL KL #define F77_KU KU #define F77_incX incx #define F77_incY incY #endif CBLAS_INT n=0, i=0, incx=incX; const float *xx= (float *)X, *alp= (float *)alpha, *bet = (float *)beta; float ALPHA[2],BETA[2]; CBLAS_INT tincY, tincx; float *x=(float *)X, *y=(float *)Y, *st=0, *tx=0; extern int CBLAS_CallFromC; extern int RowMajorStrg; RowMajorStrg = 0; CBLAS_CallFromC = 1; if (layout == CblasColMajor) { if (TransA == CblasNoTrans) TA = 'N'; else if (TransA == CblasTrans) TA = 'T'; else if (TransA == CblasConjTrans) TA = 'C'; else { API_SUFFIX(cblas_xerbla)(2, "cblas_cgbmv","Illegal TransA setting, %d\n", TransA); CBLAS_CallFromC = 0; RowMajorStrg = 0; return; } #ifdef F77_CHAR F77_TA = C2F_CHAR(&TA); #endif F77_cgbmv(F77_TA, &F77_M, &F77_N, &F77_KL, &F77_KU, alpha, A, &F77_lda, X, &F77_incX, beta, Y, &F77_incY); } else if (layout == CblasRowMajor) { RowMajorStrg = 1; if (TransA == CblasNoTrans) TA = 'T'; else if (TransA == CblasTrans) TA = 'N'; else if (TransA == CblasConjTrans) { ALPHA[0]= *alp; ALPHA[1]= -alp[1]; BETA[0]= *bet; BETA[1]= -bet[1]; TA = 'N'; if (M > 0) { n = M << 1; x = malloc(n*sizeof(float)); tx = x; if( incX > 0 ) { i = incX << 1 ; tincx = 2; st= x+n; } else { i = incX *(-2); tincx = -2; st = x-2; x +=(n-2); } do { *x = *xx; x[1] = -xx[1]; x += tincx ; xx += i; } while (x != st); x=tx; #ifdef F77_INT F77_incX = 1; #else incx = 1; #endif if( incY > 0 ) tincY = incY; else tincY = -incY; y++; if (N > 0) { i = tincY << 1; n = i * N ; st = y + n; do { *y = -(*y); y += i; } while(y != st); y -= n; } } else x = (float *) X; } else { API_SUFFIX(cblas_xerbla)(2, "cblas_cgbmv","Illegal TransA setting, %d\n", TransA); CBLAS_CallFromC = 0; RowMajorStrg = 0; return; } #ifdef F77_CHAR F77_TA = C2F_CHAR(&TA); #endif if (TransA == CblasConjTrans) F77_cgbmv(F77_TA, &F77_N, &F77_M, &F77_KU, &F77_KL, ALPHA, A ,&F77_lda, x,&F77_incX, BETA, Y, &F77_incY); else F77_cgbmv(F77_TA, &F77_N, &F77_M, &F77_KU, &F77_KL, alpha, A ,&F77_lda, x,&F77_incX, beta, Y, &F77_incY); if (TransA == CblasConjTrans) { if (x != X) free(x); if (N > 0) { do { *y = -(*y); y += i; } while (y != st); } } } else API_SUFFIX(cblas_xerbla)(1, "cblas_cgbmv", "Illegal layout setting, %d\n", layout); CBLAS_CallFromC = 0; RowMajorStrg = 0; }