#include "f2c.h" #include "fblaswr.h" /* * =========================================================================== * Prototypes for level 1 BLAS functions (complex are recast as routines) * =========================================================================== */ doublereal f2c_sdot(integer* N, real* X, integer* incX, real* Y, integer* incY) { return sdot_(N, X, incX, Y, incY); } doublereal f2c_ddot(integer* N, doublereal* X, integer* incX, doublereal* Y, integer* incY) { return ddot_(N, X, incX, Y, incY); } /* * Functions having prefixes Z and C only */ void f2c_cdotu(complex* retval, integer* N, complex* X, integer* incX, complex* Y, integer* incY) { cdotu_(retval, N, X, incX, Y, incY); } void f2c_cdotc(complex* retval, integer* N, complex* X, integer* incX, complex* Y, integer* incY) { cdotc_(retval, N, X, incX, Y, incY); } void f2c_zdotu(doublecomplex* retval, integer* N, doublecomplex* X, integer* incX, doublecomplex* Y, integer* incY) { zdotu_(retval, N, X, incX, Y, incY); } void f2c_zdotc(doublecomplex* retval, integer* N, doublecomplex* X, integer* incX, doublecomplex* Y, integer* incY) { zdotc_(retval, N, X, incX, Y, incY); } /* * Functions having prefixes S D SC DZ */ doublereal f2c_snrm2(integer* N, real* X, integer* incX) { return snrm2_(N, X, incX); } doublereal f2c_sasum(integer* N, real* X, integer* incX) { return sasum_(N, X, incX); } doublereal f2c_dnrm2(integer* N, doublereal* X, integer* incX) { return dnrm2_(N, X, incX); } doublereal f2c_dasum(integer* N, doublereal* X, integer* incX) { return dasum_(N, X, incX); } doublereal f2c_scnrm2(integer* N, complex* X, integer* incX) { return scnrm2_(N, X, incX); } doublereal f2c_scasum(integer* N, complex* X, integer* incX) { return scasum_(N, X, incX); } doublereal f2c_dznrm2(integer* N, doublecomplex* X, integer* incX) { return dznrm2_(N, X, incX); } doublereal f2c_dzasum(integer* N, doublecomplex* X, integer* incX) { return dzasum_(N, X, incX); } /* * Functions having standard 4 prefixes (S D C Z) */ integer f2c_isamax(integer* N, real* X, integer* incX) { return isamax_(N, X, incX); } integer f2c_idamax(integer* N, doublereal* X, integer* incX) { return idamax_(N, X, incX); } integer f2c_icamax(integer* N, complex* X, integer* incX) { return icamax_(N, X, incX); } integer f2c_izamax(integer* N, doublecomplex* X, integer* incX) { return izamax_(N, X, incX); } /* * =========================================================================== * Prototypes for level 1 BLAS routines * =========================================================================== */ /* * Routines with standard 4 prefixes (s, d, c, z) */ int f2c_sswap(integer* N, real* X, integer* incX, real* Y, integer* incY) { sswap_(N, X, incX, Y, incY); return 0; } int f2c_scopy(integer* N, real* X, integer* incX, real* Y, integer* incY) { scopy_(N, X, incX, Y, incY); return 0; } int f2c_saxpy(integer* N, real* alpha, real* X, integer* incX, real* Y, integer* incY) { saxpy_(N, alpha, X, incX, Y, incY); return 0; } int f2c_dswap(integer* N, doublereal* X, integer* incX, doublereal* Y, integer* incY) { dswap_(N, X, incX, Y, incY); return 0; } int f2c_dcopy(integer* N, doublereal* X, integer* incX, doublereal* Y, integer* incY) { dcopy_(N, X, incX, Y, incY); return 0; } int f2c_daxpy(integer* N, doublereal* alpha, doublereal* X, integer* incX, doublereal* Y, integer* incY) { daxpy_(N, alpha, X, incX, Y, incY); return 0; } int f2c_cswap(integer* N, complex* X, integer* incX, complex* Y, integer* incY) { cswap_(N, X, incX, Y, incY); return 0; } int f2c_ccopy(integer* N, complex* X, integer* incX, complex* Y, integer* incY) { ccopy_(N, X, incX, Y, incY); return 0; } int f2c_caxpy(integer* N, complex* alpha, complex* X, integer* incX, complex* Y, integer* incY) { caxpy_(N, alpha, X, incX, Y, incY); return 0; } int f2c_zswap(integer* N, doublecomplex* X, integer* incX, doublecomplex* Y, integer* incY) { zswap_(N, X, incX, Y, incY); return 0; } int f2c_zcopy(integer* N, doublecomplex* X, integer* incX, doublecomplex* Y, integer* incY) { zcopy_(N, X, incX, Y, incY); return 0; } int f2c_zaxpy(integer* N, doublecomplex* alpha, doublecomplex* X, integer* incX, doublecomplex* Y, integer* incY) { zaxpy_(N, alpha, X, incX, Y, incY); return 0; } /* * Routines with S and D prefix only */ int f2c_srotg(real* a, real* b, real* c, real* s) { srotg_(a, b, c, s); return 0; } int f2c_srot(integer* N, real* X, integer* incX, real* Y, integer* incY, real* c, real* s) { srot_(N, X, incX, Y, incY, c, s); return 0; } int f2c_drotg(doublereal* a, doublereal* b, doublereal* c, doublereal* s) { drotg_(a, b, c, s); return 0; } int f2c_drot(integer* N, doublereal* X, integer* incX, doublereal* Y, integer* incY, doublereal* c, doublereal* s) { drot_(N, X, incX, Y, incY, c, s); return 0; } /* * Routines with S D C Z CS and ZD prefixes */ int f2c_sscal(integer* N, real* alpha, real* X, integer* incX) { sscal_(N, alpha, X, incX); return 0; } int f2c_dscal(integer* N, doublereal* alpha, doublereal* X, integer* incX) { dscal_(N, alpha, X, incX); return 0; } int f2c_cscal(integer* N, complex* alpha, complex* X, integer* incX) { cscal_(N, alpha, X, incX); return 0; } int f2c_zscal(integer* N, doublecomplex* alpha, doublecomplex* X, integer* incX) { zscal_(N, alpha, X, incX); return 0; } int f2c_csscal(integer* N, real* alpha, complex* X, integer* incX) { csscal_(N, alpha, X, incX); return 0; } int f2c_zdscal(integer* N, doublereal* alpha, doublecomplex* X, integer* incX) { zdscal_(N, alpha, X, incX); return 0; } /* * =========================================================================== * Prototypes for level 2 BLAS * =========================================================================== */ /* * Routines with standard 4 prefixes (S, D, C, Z) */ int f2c_sgemv(char* trans, integer* M, integer* N, real* alpha, real* A, integer* lda, real* X, integer* incX, real* beta, real* Y, integer* incY) { sgemv_(trans, M, N, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_sgbmv(char *trans, integer *M, integer *N, integer *KL, integer *KU, real *alpha, real *A, integer *lda, real *X, integer *incX, real *beta, real *Y, integer *incY) { sgbmv_(trans, M, N, KL, KU, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_strmv(char* uplo, char *trans, char* diag, integer *N, real *A, integer *lda, real *X, integer *incX) { strmv_(uplo, trans, diag, N, A, lda, X, incX); return 0; } int f2c_stbmv(char* uplo, char* trans, char* diag, integer* N, integer* K, real* A, integer* lda, real* X, integer* incX) { stbmv_(uplo, trans, diag, N, K, A, lda, X, incX); return 0; } int f2c_stpmv(char* uplo, char* trans, char* diag, integer* N, real* Ap, real* X, integer* incX) { stpmv_(uplo, trans, diag, N, Ap, X, incX); return 0; } int f2c_strsv(char* uplo, char* trans, char* diag, integer* N, real* A, integer* lda, real* X, integer* incX) { strsv_(uplo, trans, diag, N, A, lda, X, incX); return 0; } int f2c_stbsv(char* uplo, char* trans, char* diag, integer* N, integer* K, real* A, integer* lda, real* X, integer* incX) { stbsv_(uplo, trans, diag, N, K, A, lda, X, incX); return 0; } int f2c_stpsv(char* uplo, char* trans, char* diag, integer* N, real* Ap, real* X, integer* incX) { stpsv_(uplo, trans, diag, N, Ap, X, incX); return 0; } int f2c_dgemv(char* trans, integer* M, integer* N, doublereal* alpha, doublereal* A, integer* lda, doublereal* X, integer* incX, doublereal* beta, doublereal* Y, integer* incY) { dgemv_(trans, M, N, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_dgbmv(char *trans, integer *M, integer *N, integer *KL, integer *KU, doublereal *alpha, doublereal *A, integer *lda, doublereal *X, integer *incX, doublereal *beta, doublereal *Y, integer *incY) { dgbmv_(trans, M, N, KL, KU, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_dtrmv(char* uplo, char *trans, char* diag, integer *N, doublereal *A, integer *lda, doublereal *X, integer *incX) { dtrmv_(uplo, trans, diag, N, A, lda, X, incX); return 0; } int f2c_dtbmv(char* uplo, char* trans, char* diag, integer* N, integer* K, doublereal* A, integer* lda, doublereal* X, integer* incX) { dtbmv_(uplo, trans, diag, N, K, A, lda, X, incX); return 0; } int f2c_dtpmv(char* uplo, char* trans, char* diag, integer* N, doublereal* Ap, doublereal* X, integer* incX) { dtpmv_(uplo, trans, diag, N, Ap, X, incX); return 0; } int f2c_dtrsv(char* uplo, char* trans, char* diag, integer* N, doublereal* A, integer* lda, doublereal* X, integer* incX) { dtrsv_(uplo, trans, diag, N, A, lda, X, incX); return 0; } int f2c_dtbsv(char* uplo, char* trans, char* diag, integer* N, integer* K, doublereal* A, integer* lda, doublereal* X, integer* incX) { dtbsv_(uplo, trans, diag, N, K, A, lda, X, incX); return 0; } int f2c_dtpsv(char* uplo, char* trans, char* diag, integer* N, doublereal* Ap, doublereal* X, integer* incX) { dtpsv_(uplo, trans, diag, N, Ap, X, incX); return 0; } int f2c_cgemv(char* trans, integer* M, integer* N, complex* alpha, complex* A, integer* lda, complex* X, integer* incX, complex* beta, complex* Y, integer* incY) { cgemv_(trans, M, N, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_cgbmv(char *trans, integer *M, integer *N, integer *KL, integer *KU, complex *alpha, complex *A, integer *lda, complex *X, integer *incX, complex *beta, complex *Y, integer *incY) { cgbmv_(trans, M, N, KL, KU, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_ctrmv(char* uplo, char *trans, char* diag, integer *N, complex *A, integer *lda, complex *X, integer *incX) { ctrmv_(uplo, trans, diag, N, A, lda, X, incX); return 0; } int f2c_ctbmv(char* uplo, char* trans, char* diag, integer* N, integer* K, complex* A, integer* lda, complex* X, integer* incX) { ctbmv_(uplo, trans, diag, N, K, A, lda, X, incX); return 0; } int f2c_ctpmv(char* uplo, char* trans, char* diag, integer* N, complex* Ap, complex* X, integer* incX) { ctpmv_(uplo, trans, diag, N, Ap, X, incX); return 0; } int f2c_ctrsv(char* uplo, char* trans, char* diag, integer* N, complex* A, integer* lda, complex* X, integer* incX) { ctrsv_(uplo, trans, diag, N, A, lda, X, incX); return 0; } int f2c_ctbsv(char* uplo, char* trans, char* diag, integer* N, integer* K, complex* A, integer* lda, complex* X, integer* incX) { ctbsv_(uplo, trans, diag, N, K, A, lda, X, incX); return 0; } int f2c_ctpsv(char* uplo, char* trans, char* diag, integer* N, complex* Ap, complex* X, integer* incX) { ctpsv_(uplo, trans, diag, N, Ap, X, incX); return 0; } int f2c_zgemv(char* trans, integer* M, integer* N, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* X, integer* incX, doublecomplex* beta, doublecomplex* Y, integer* incY) { zgemv_(trans, M, N, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_zgbmv(char *trans, integer *M, integer *N, integer *KL, integer *KU, doublecomplex *alpha, doublecomplex *A, integer *lda, doublecomplex *X, integer *incX, doublecomplex *beta, doublecomplex *Y, integer *incY) { zgbmv_(trans, M, N, KL, KU, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_ztrmv(char* uplo, char *trans, char* diag, integer *N, doublecomplex *A, integer *lda, doublecomplex *X, integer *incX) { ztrmv_(uplo, trans, diag, N, A, lda, X, incX); return 0; } int f2c_ztbmv(char* uplo, char* trans, char* diag, integer* N, integer* K, doublecomplex* A, integer* lda, doublecomplex* X, integer* incX) { ztbmv_(uplo, trans, diag, N, K, A, lda, X, incX); return 0; } int f2c_ztpmv(char* uplo, char* trans, char* diag, integer* N, doublecomplex* Ap, doublecomplex* X, integer* incX) { ztpmv_(uplo, trans, diag, N, Ap, X, incX); return 0; } int f2c_ztrsv(char* uplo, char* trans, char* diag, integer* N, doublecomplex* A, integer* lda, doublecomplex* X, integer* incX) { ztrsv_(uplo, trans, diag, N, A, lda, X, incX); return 0; } int f2c_ztbsv(char* uplo, char* trans, char* diag, integer* N, integer* K, doublecomplex* A, integer* lda, doublecomplex* X, integer* incX) { ztbsv_(uplo, trans, diag, N, K, A, lda, X, incX); return 0; } int f2c_ztpsv(char* uplo, char* trans, char* diag, integer* N, doublecomplex* Ap, doublecomplex* X, integer* incX) { ztpsv_(uplo, trans, diag, N, Ap, X, incX); return 0; } /* * Routines with S and D prefixes only */ int f2c_ssymv(char* uplo, integer* N, real* alpha, real* A, integer* lda, real* X, integer* incX, real* beta, real* Y, integer* incY) { ssymv_(uplo, N, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_ssbmv(char* uplo, integer* N, integer* K, real* alpha, real* A, integer* lda, real* X, integer* incX, real* beta, real* Y, integer* incY) { ssbmv_(uplo, N, K, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_sspmv(char* uplo, integer* N, real* alpha, real* Ap, real* X, integer* incX, real* beta, real* Y, integer* incY) { sspmv_(uplo, N, alpha, Ap, X, incX, beta, Y, incY); return 0; } int f2c_sger(integer* M, integer* N, real* alpha, real* X, integer* incX, real* Y, integer* incY, real* A, integer* lda) { sger_(M, N, alpha, X, incX, Y, incY, A, lda); return 0; } int f2c_ssyr(char* uplo, integer* N, real* alpha, real* X, integer* incX, real* A, integer* lda) { ssyr_(uplo, N, alpha, X, incX, A, lda); return 0; } int f2c_sspr(char* uplo, integer* N, real* alpha, real* X, integer* incX, real* Ap) { sspr_(uplo, N, alpha, X, incX, Ap); return 0; } int f2c_ssyr2(char* uplo, integer* N, real* alpha, real* X, integer* incX, real* Y, integer* incY, real* A, integer* lda) { ssyr2_(uplo, N, alpha, X, incX, Y, incY, A, lda); return 0; } int f2c_sspr2(char* uplo, integer* N, real* alpha, real* X, integer* incX, real* Y, integer* incY, real* A) { sspr2_(uplo, N, alpha, X, incX, Y, incY, A); return 0; } int f2c_dsymv(char* uplo, integer* N, doublereal* alpha, doublereal* A, integer* lda, doublereal* X, integer* incX, doublereal* beta, doublereal* Y, integer* incY) { dsymv_(uplo, N, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_dsbmv(char* uplo, integer* N, integer* K, doublereal* alpha, doublereal* A, integer* lda, doublereal* X, integer* incX, doublereal* beta, doublereal* Y, integer* incY) { dsbmv_(uplo, N, K, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_dspmv(char* uplo, integer* N, doublereal* alpha, doublereal* Ap, doublereal* X, integer* incX, doublereal* beta, doublereal* Y, integer* incY) { dspmv_(uplo, N, alpha, Ap, X, incX, beta, Y, incY); return 0; } int f2c_dger(integer* M, integer* N, doublereal* alpha, doublereal* X, integer* incX, doublereal* Y, integer* incY, doublereal* A, integer* lda) { dger_(M, N, alpha, X, incX, Y, incY, A, lda); return 0; } int f2c_dsyr(char* uplo, integer* N, doublereal* alpha, doublereal* X, integer* incX, doublereal* A, integer* lda) { dsyr_(uplo, N, alpha, X, incX, A, lda); return 0; } int f2c_dspr(char* uplo, integer* N, doublereal* alpha, doublereal* X, integer* incX, doublereal* Ap) { dspr_(uplo, N, alpha, X, incX, Ap); return 0; } int f2c_dsyr2(char* uplo, integer* N, doublereal* alpha, doublereal* X, integer* incX, doublereal* Y, integer* incY, doublereal* A, integer* lda) { dsyr2_(uplo, N, alpha, X, incX, Y, incY, A, lda); return 0; } int f2c_dspr2(char* uplo, integer* N, doublereal* alpha, doublereal* X, integer* incX, doublereal* Y, integer* incY, doublereal* A) { dspr2_(uplo, N, alpha, X, incX, Y, incY, A); return 0; } /* * Routines with C and Z prefixes only */ int f2c_chemv(char* uplo, integer* N, complex* alpha, complex* A, integer* lda, complex* X, integer* incX, complex* beta, complex* Y, integer* incY) { chemv_(uplo, N, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_chbmv(char* uplo, integer* N, integer* K, complex* alpha, complex* A, integer* lda, complex* X, integer* incX, complex* beta, complex* Y, integer* incY) { chbmv_(uplo, N, K, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_chpmv(char* uplo, integer* N, complex* alpha, complex* Ap, complex* X, integer* incX, complex* beta, complex* Y, integer* incY) { chpmv_(uplo, N, alpha, Ap, X, incX, beta, Y, incY); return 0; } int f2c_cgeru(integer* M, integer* N, complex* alpha, complex* X, integer* incX, complex* Y, integer* incY, complex* A, integer* lda) { cgeru_(M, N, alpha, X, incX, Y, incY, A, lda); return 0; } int f2c_cgerc(integer* M, integer* N, complex* alpha, complex* X, integer* incX, complex* Y, integer* incY, complex* A, integer* lda) { cgerc_(M, N, alpha, X, incX, Y, incY, A, lda); return 0; } int f2c_cher(char* uplo, integer* N, real* alpha, complex* X, integer* incX, complex* A, integer* lda) { cher_(uplo, N, alpha, X, incX, A, lda); return 0; } int f2c_chpr(char* uplo, integer* N, real* alpha, complex* X, integer* incX, complex* Ap) { chpr_(uplo, N, alpha, X, incX, Ap); return 0; } int f2c_cher2(char* uplo, integer* N, complex* alpha, complex* X, integer* incX, complex* Y, integer* incY, complex* A, integer* lda) { cher2_(uplo, N, alpha, X, incX, Y, incY, A, lda); return 0; } int f2c_chpr2(char* uplo, integer* N, complex* alpha, complex* X, integer* incX, complex* Y, integer* incY, complex* Ap) { chpr2_(uplo, N, alpha, X, incX, Y, incY, Ap); return 0; } int f2c_zhemv(char* uplo, integer* N, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* X, integer* incX, doublecomplex* beta, doublecomplex* Y, integer* incY) { zhemv_(uplo, N, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_zhbmv(char* uplo, integer* N, integer* K, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* X, integer* incX, doublecomplex* beta, doublecomplex* Y, integer* incY) { zhbmv_(uplo, N, K, alpha, A, lda, X, incX, beta, Y, incY); return 0; } int f2c_zhpmv(char* uplo, integer* N, doublecomplex* alpha, doublecomplex* Ap, doublecomplex* X, integer* incX, doublecomplex* beta, doublecomplex* Y, integer* incY) { zhpmv_(uplo, N, alpha, Ap, X, incX, beta, Y, incY); return 0; } int f2c_zgeru(integer* M, integer* N, doublecomplex* alpha, doublecomplex* X, integer* incX, doublecomplex* Y, integer* incY, doublecomplex* A, integer* lda) { zgeru_(M, N, alpha, X, incX, Y, incY, A, lda); return 0; } int f2c_zgerc(integer* M, integer* N, doublecomplex* alpha, doublecomplex* X, integer* incX, doublecomplex* Y, integer* incY, doublecomplex* A, integer* lda) { zgerc_(M, N, alpha, X, incX, Y, incY, A, lda); return 0; } int f2c_zher(char* uplo, integer* N, doublereal* alpha, doublecomplex* X, integer* incX, doublecomplex* A, integer* lda) { zher_(uplo, N, alpha, X, incX, A, lda); return 0; } int f2c_zhpr(char* uplo, integer* N, doublereal* alpha, doublecomplex* X, integer* incX, doublecomplex* Ap) { zhpr_(uplo, N, alpha, X, incX, Ap); return 0; } int f2c_zher2(char* uplo, integer* N, doublecomplex* alpha, doublecomplex* X, integer* incX, doublecomplex* Y, integer* incY, doublecomplex* A, integer* lda) { zher2_(uplo, N, alpha, X, incX, Y, incY, A, lda); return 0; } int f2c_zhpr2(char* uplo, integer* N, doublecomplex* alpha, doublecomplex* X, integer* incX, doublecomplex* Y, integer* incY, doublecomplex* Ap) { zhpr2_(uplo, N, alpha, X, incX, Y, incY, Ap); return 0; } /* * =========================================================================== * Prototypes for level 3 BLAS * =========================================================================== */ /* * Routines with standard 4 prefixes (S, D, C, Z) */ int f2c_sgemm(char* transA, char* transB, integer* M, integer* N, integer* K, real* alpha, real* A, integer* lda, real* B, integer* ldb, real* beta, real* C, integer* ldc) { sgemm_(transA, transB, M, N, K, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_ssymm(char* side, char* uplo, integer* M, integer* N, real* alpha, real* A, integer* lda, real* B, integer* ldb, real* beta, real* C, integer* ldc) { ssymm_(side, uplo, M, N, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_ssyrk(char* uplo, char* trans, integer* N, integer* K, real* alpha, real* A, integer* lda, real* beta, real* C, integer* ldc) { ssyrk_(uplo, trans, N, K, alpha, A, lda, beta, C, ldc); return 0; } int f2c_ssyr2k(char* uplo, char* trans, integer* N, integer* K, real* alpha, real* A, integer* lda, real* B, integer* ldb, real* beta, real* C, integer* ldc) { ssyr2k_(uplo, trans, N, K, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_strmm(char* side, char* uplo, char* trans, char* diag, integer* M, integer* N, real* alpha, real* A, integer* lda, real* B, integer* ldb) { strmm_(side, uplo, trans, diag, M, N, alpha, A, lda, B, ldb); return 0; } int f2c_strsm(char* side, char* uplo, char* trans, char* diag, integer* M, integer* N, real* alpha, real* A, integer* lda, real* B, integer* ldb) { strsm_(side, uplo, trans, diag, M, N, alpha, A, lda, B, ldb); return 0; } int f2c_dgemm(char* transA, char* transB, integer* M, integer* N, integer* K, doublereal* alpha, doublereal* A, integer* lda, doublereal* B, integer* ldb, doublereal* beta, doublereal* C, integer* ldc) { dgemm_(transA, transB, M, N, K, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_dsymm(char* side, char* uplo, integer* M, integer* N, doublereal* alpha, doublereal* A, integer* lda, doublereal* B, integer* ldb, doublereal* beta, doublereal* C, integer* ldc) { dsymm_(side, uplo, M, N, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_dsyrk(char* uplo, char* trans, integer* N, integer* K, doublereal* alpha, doublereal* A, integer* lda, doublereal* beta, doublereal* C, integer* ldc) { dsyrk_(uplo, trans, N, K, alpha, A, lda, beta, C, ldc); return 0; } int f2c_dsyr2k(char* uplo, char* trans, integer* N, integer* K, doublereal* alpha, doublereal* A, integer* lda, doublereal* B, integer* ldb, doublereal* beta, doublereal* C, integer* ldc) { dsyr2k_(uplo, trans, N, K, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_dtrmm(char* side, char* uplo, char* trans, char* diag, integer* M, integer* N, doublereal* alpha, doublereal* A, integer* lda, doublereal* B, integer* ldb) { dtrmm_(side, uplo, trans, diag, M, N, alpha, A, lda, B, ldb); return 0; } int f2c_dtrsm(char* side, char* uplo, char* trans, char* diag, integer* M, integer* N, doublereal* alpha, doublereal* A, integer* lda, doublereal* B, integer* ldb) { dtrsm_(side, uplo, trans, diag, M, N, alpha, A, lda, B, ldb); return 0; } int f2c_cgemm(char* transA, char* transB, integer* M, integer* N, integer* K, complex* alpha, complex* A, integer* lda, complex* B, integer* ldb, complex* beta, complex* C, integer* ldc) { cgemm_(transA, transB, M, N, K, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_csymm(char* side, char* uplo, integer* M, integer* N, complex* alpha, complex* A, integer* lda, complex* B, integer* ldb, complex* beta, complex* C, integer* ldc) { csymm_(side, uplo, M, N, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_csyrk(char* uplo, char* trans, integer* N, integer* K, complex* alpha, complex* A, integer* lda, complex* beta, complex* C, integer* ldc) { csyrk_(uplo, trans, N, K, alpha, A, lda, beta, C, ldc); return 0; } int f2c_csyr2k(char* uplo, char* trans, integer* N, integer* K, complex* alpha, complex* A, integer* lda, complex* B, integer* ldb, complex* beta, complex* C, integer* ldc) { csyr2k_(uplo, trans, N, K, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_ctrmm(char* side, char* uplo, char* trans, char* diag, integer* M, integer* N, complex* alpha, complex* A, integer* lda, complex* B, integer* ldb) { ctrmm_(side, uplo, trans, diag, M, N, alpha, A, lda, B, ldb); return 0; } int f2c_ctrsm(char* side, char* uplo, char* trans, char* diag, integer* M, integer* N, complex* alpha, complex* A, integer* lda, complex* B, integer* ldb) { ctrsm_(side, uplo, trans, diag, M, N, alpha, A, lda, B, ldb); return 0; } int f2c_zgemm(char* transA, char* transB, integer* M, integer* N, integer* K, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* B, integer* ldb, doublecomplex* beta, doublecomplex* C, integer* ldc) { zgemm_(transA, transB, M, N, K, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_zsymm(char* side, char* uplo, integer* M, integer* N, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* B, integer* ldb, doublecomplex* beta, doublecomplex* C, integer* ldc) { zsymm_(side, uplo, M, N, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_zsyrk(char* uplo, char* trans, integer* N, integer* K, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* beta, doublecomplex* C, integer* ldc) { zsyrk_(uplo, trans, N, K, alpha, A, lda, beta, C, ldc); return 0; } int f2c_zsyr2k(char* uplo, char* trans, integer* N, integer* K, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* B, integer* ldb, doublecomplex* beta, doublecomplex* C, integer* ldc) { zsyr2k_(uplo, trans, N, K, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_ztrmm(char* side, char* uplo, char* trans, char* diag, integer* M, integer* N, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* B, integer* ldb) { ztrmm_(side, uplo, trans, diag, M, N, alpha, A, lda, B, ldb); return 0; } int f2c_ztrsm(char* side, char* uplo, char* trans, char* diag, integer* M, integer* N, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* B, integer* ldb) { ztrsm_(side, uplo, trans, diag, M, N, alpha, A, lda, B, ldb); return 0; } /* * Routines with prefixes C and Z only */ int f2c_chemm(char* side, char* uplo, integer* M, integer* N, complex* alpha, complex* A, integer* lda, complex* B, integer* ldb, complex* beta, complex* C, integer* ldc) { chemm_(side, uplo, M, N, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_cherk(char* uplo, char* trans, integer* N, integer* K, real* alpha, complex* A, integer* lda, real* beta, complex* C, integer* ldc) { cherk_(uplo, trans, N, K, alpha, A, lda, beta, C, ldc); return 0; } int f2c_cher2k(char* uplo, char* trans, integer* N, integer* K, complex* alpha, complex* A, integer* lda, complex* B, integer* ldb, real* beta, complex* C, integer* ldc) { cher2k_(uplo, trans, N, K, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_zhemm(char* side, char* uplo, integer* M, integer* N, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* B, integer* ldb, doublecomplex* beta, doublecomplex* C, integer* ldc) { zhemm_(side, uplo, M, N, alpha, A, lda, B, ldb, beta, C, ldc); return 0; } int f2c_zherk(char* uplo, char* trans, integer* N, integer* K, doublereal* alpha, doublecomplex* A, integer* lda, doublereal* beta, doublecomplex* C, integer* ldc) { zherk_(uplo, trans, N, K, alpha, A, lda, beta, C, ldc); return 0; } int f2c_zher2k(char* uplo, char* trans, integer* N, integer* K, doublecomplex* alpha, doublecomplex* A, integer* lda, doublecomplex* B, integer* ldb, doublereal* beta, doublecomplex* C, integer* ldc) { zher2k_(uplo, trans, N, K, alpha, A, lda, B, ldb, beta, C, ldc); return 0; }