numeric-linalg
Educational material on the SciPy implementation of numerical linear algebra algorithms
| Name | Size | Mode | |
| .. | |||
| lapack/CBLAS/testing/c_zblas1.c | 1851B | -rw-r--r-- |
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/* * c_zblas1.c * * The program is a C wrapper for zcblat1. * * Written by Keita Teranishi. 2/11/1998 * */ #include "cblas_test.h" #include "cblas.h" void F77_zaxpy(const CBLAS_INT *N, const void *alpha, void *X, const CBLAS_INT *incX, void *Y, const CBLAS_INT *incY) { cblas_zaxpy(*N, alpha, X, *incX, Y, *incY); return; } void F77_zcopy(const CBLAS_INT *N, void *X, const CBLAS_INT *incX, void *Y, const CBLAS_INT *incY) { cblas_zcopy(*N, X, *incX, Y, *incY); return; } void F77_zdotc(const CBLAS_INT *N, const void *X, const CBLAS_INT *incX, const void *Y, const CBLAS_INT *incY,void *dotc) { cblas_zdotc_sub(*N, X, *incX, Y, *incY, dotc); return; } void F77_zdotu(const CBLAS_INT *N, void *X, const CBLAS_INT *incX, void *Y, const CBLAS_INT *incY,void *dotu) { cblas_zdotu_sub(*N, X, *incX, Y, *incY, dotu); return; } void F77_zdscal(const CBLAS_INT *N, const double *alpha, void *X, const CBLAS_INT *incX) { cblas_zdscal(*N, *alpha, X, *incX); return; } void F77_zscal(const CBLAS_INT *N, const void * *alpha, void *X, const CBLAS_INT *incX) { cblas_zscal(*N, alpha, X, *incX); return; } void F77_zswap( const CBLAS_INT *N, void *X, const CBLAS_INT *incX, void *Y, const CBLAS_INT *incY) { cblas_zswap(*N,X,*incX,Y,*incY); return; } CBLAS_INT F77_izamax(const CBLAS_INT *N, const void *X, const CBLAS_INT *incX) { if (*N < 1 || *incX < 1) return(0); return(cblas_izamax(*N, X, *incX)+1); } double F77_dznrm2(const CBLAS_INT *N, const void *X, const CBLAS_INT *incX) { return cblas_dznrm2(*N, X, *incX); } double F77_dzasum(const CBLAS_INT *N, void *X, const CBLAS_INT *incX) { return cblas_dzasum(*N, X, *incX); }