dynare/mex/sources/dynblas.h

/*
 * Defines the prototypes for BLAS Fortran functions.
 *
 * Also defines a typedef blas_int to be used for all integers passed to BLAS
 * functions.
 *
 * When used in the context of a MATLAB MEX file, you must define MATLAB_MEX_FILE
 * and MATLAB_VERSION (for version 7.4, define it to 0x0704).
 *
 *
 * Copyright © 2009-2020 Dynare Team
 *
 * This file is part of Dynare.
 *
 * Dynare is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * Dynare is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with Dynare.  If not, see <http://www.gnu.org/licenses/>.
 */

#ifndef _DYNBLAS_H
#define _DYNBLAS_H

#if defined(MATLAB_MEX_FILE)
# ifdef __cplusplus
#  include <cstddef>
# else
#  include <stddef.h>
# endif
typedef ptrdiff_t blas_int;
#else
typedef int blas_int;
#endif

#if defined(MATLAB_MEX_FILE) && defined(_WIN32) && !defined(_MSC_VER)
# define FORTRAN_WRAPPER(x) x
#else
# define FORTRAN_WRAPPER(x) x ## _
#endif

#ifdef __cplusplus
extern "C" {
#endif

  typedef const char *BLCHAR;
  typedef const blas_int *CONST_BLINT;
  typedef const double *CONST_BLDOU;
  typedef const float *CONST_BLFLT;
  typedef double *BLDOU;
  typedef float *BLFLT;

#define dgemm FORTRAN_WRAPPER(dgemm)
  void dgemm(BLCHAR transa, BLCHAR transb, CONST_BLINT m, CONST_BLINT n,
             CONST_BLINT k, CONST_BLDOU alpha, CONST_BLDOU a, CONST_BLINT lda,
             CONST_BLDOU b, CONST_BLINT ldb, CONST_BLDOU beta,
             BLDOU c, CONST_BLINT ldc);

#define sgemm FORTRAN_WRAPPER(sgemm)
  void sgemm(BLCHAR transa, BLCHAR transb, CONST_BLINT m, CONST_BLINT n,
             CONST_BLINT k, CONST_BLFLT alpha, CONST_BLFLT a, CONST_BLINT lda,
             CONST_BLFLT b, CONST_BLINT ldb, CONST_BLFLT beta,
             BLFLT c, CONST_BLINT ldc);

#define dsymm FORTRAN_WRAPPER(dsymm)
  void dsymm(BLCHAR side, BLCHAR uplo, CONST_BLINT m, CONST_BLINT n,
             CONST_BLDOU alpha, CONST_BLDOU a, CONST_BLINT lda,
             CONST_BLDOU b, CONST_BLINT ldb, CONST_BLDOU beta,
             BLDOU c, CONST_BLINT ldc);

#define dgemv FORTRAN_WRAPPER(dgemv)
  void dgemv(BLCHAR trans, CONST_BLINT m, CONST_BLINT n, CONST_BLDOU alpha,
             CONST_BLDOU a, CONST_BLINT lda, CONST_BLDOU x, CONST_BLINT incx,
             CONST_BLDOU beta, BLDOU y, CONST_BLINT incy);

#define dsymv FORTRAN_WRAPPER(dsymv)
  void dsymv(BLCHAR uplo, CONST_BLINT m, CONST_BLDOU alpha, CONST_BLDOU a,
             CONST_BLINT lda, CONST_BLDOU b, CONST_BLINT ldb, CONST_BLDOU beta,
             BLDOU c, CONST_BLINT ldc);

#define dtrsv FORTRAN_WRAPPER(dtrsv)
  void dtrsv(BLCHAR uplo, BLCHAR trans, BLCHAR diag, CONST_BLINT n,
             CONST_BLDOU a, CONST_BLINT lda, BLDOU x, CONST_BLINT incx);

#define dtrmv FORTRAN_WRAPPER(dtrmv)
  void dtrmv(BLCHAR uplo, BLCHAR trans, BLCHAR diag, CONST_BLINT n,
             CONST_BLDOU a, CONST_BLINT lda, BLDOU x, CONST_BLINT incx);

#define daxpy FORTRAN_WRAPPER(daxpy)
  void daxpy(CONST_BLINT n, CONST_BLDOU a, CONST_BLDOU x, CONST_BLINT incx,
             BLDOU y, CONST_BLINT incy);

#define saxpy FORTRAN_WRAPPER(saxpy)
  void saxpy(CONST_BLINT n, CONST_BLFLT a, CONST_BLFLT x, CONST_BLINT incx,
             BLFLT y, CONST_BLINT incy);

#define dcopy FORTRAN_WRAPPER(dcopy)
  void dcopy(CONST_BLINT n, CONST_BLDOU x, CONST_BLINT incx,
             BLDOU y, CONST_BLINT incy);

#define zaxpy FORTRAN_WRAPPER(zaxpy)
  void zaxpy(CONST_BLINT n, CONST_BLDOU a, CONST_BLDOU x, CONST_BLINT incx,
             BLDOU y, CONST_BLINT incy);

#define dscal FORTRAN_WRAPPER(dscal)
  void dscal(CONST_BLINT n, CONST_BLDOU a, BLDOU x, CONST_BLINT incx);

#define sscal FORTRAN_WRAPPER(sscal)
  void sscal(CONST_BLINT n, CONST_BLDOU a, BLFLT x, CONST_BLINT incx);

#define dtrsm FORTRAN_WRAPPER(dtrsm)
  void dtrsm(BLCHAR side, BLCHAR uplo, BLCHAR transa, BLCHAR diag, CONST_BLINT m,
             CONST_BLINT n, CONST_BLDOU alpha, CONST_BLDOU a, CONST_BLINT lda,
             BLDOU b, CONST_BLINT ldb);

#define ddot FORTRAN_WRAPPER(ddot)
  double ddot(CONST_BLINT n, CONST_BLDOU x, CONST_BLINT incx, CONST_BLDOU y,
              CONST_BLINT incy);

#define dsyr FORTRAN_WRAPPER(dsyr)
  void dsyr(BLCHAR uplo, CONST_BLINT n, CONST_BLDOU alpha, CONST_BLDOU x,
            CONST_BLINT incx, BLDOU a, CONST_BLINT lda);

#define dtrmm FORTRAN_WRAPPER(dtrmm)
  void dtrmm(BLCHAR side, BLCHAR uplo, BLCHAR transa, BLCHAR diag, CONST_BLINT m,
             CONST_BLINT n, CONST_BLDOU alpha, CONST_BLDOU a, CONST_BLINT lda,
             BLDOU b, CONST_BLINT ldb);

#define strmm FORTRAN_WRAPPER(strmm)
  void strmm(BLCHAR side, BLCHAR uplo, BLCHAR transa, BLCHAR diag, CONST_BLINT m,
             CONST_BLINT n, CONST_BLFLT alpha, CONST_BLFLT a, CONST_BLINT lda,
             BLFLT b, CONST_BLINT ldb);

#ifdef __cplusplus
} /* extern "C" */
#endif

#endif /* _DYNBLAS_H */