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- /* StarPU --- Runtime system for heterogeneous multicore architectures.
- *
- * Copyright (C) 2009, 2010 Université de Bordeaux 1
- * Copyright (C) 2010 Centre National de la Recherche Scientifique
- *
- * StarPU is free software; you can redistribute it and/or modify
- * it under the terms of the GNU Lesser General Public License as published by
- * the Free Software Foundation; either version 2.1 of the License, or (at
- * your option) any later version.
- *
- * StarPU 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 Lesser General Public License in COPYING.LGPL for more details.
- */
- #include <ctype.h>
- #include <stdio.h>
- #include <complex.h>
- #include <starpu.h>
- #include "blas_complex.h"
- /*
- This files contains BLAS wrappers for the different BLAS implementations
- (eg. REFBLAS, STARPU_ATLAS, GOTOBLAS ...). We assume a Fortran orientation as most
- libraries do not supply C-based ordering.
- */
- #ifdef STARPU_ATLAS
- #error not implemented
- #elif defined(STARPU_GOTO) || defined(STARPU_SYSTEM_BLAS)
- #error not implemented
- #elif defined(STARPU_MKL)
- inline void CGEMM(char *transa, char *transb, int M, int N, int K,
- complex float alpha, complex float *A, int lda, complex float *B, int ldb,
- complex float beta, complex float *C, int ldc)
- {
- cgemm_(transa, transb, &M, &N, &K, &alpha,
- A, &lda, B, &ldb,
- &beta, C, &ldc);
- }
- inline void ZGEMM(char *transa, char *transb, int M, int N, int K,
- complex double alpha, complex double *A, int lda, complex double *B, int ldb,
- complex double beta, complex double *C, int ldc)
- {
- zgemm_(transa, transb, &M, &N, &K, &alpha,
- A, &lda, B, &ldb,
- &beta, C, &ldc);
- }
- inline void CGEMV(char *transa, int M, int N, complex float alpha, complex float *A, int lda,
- complex float *X, int incX, complex float beta, complex float *Y, int incY)
- {
- cgemv_(transa, &M, &N, &alpha, A, &lda, X, &incX, &beta, Y, &incY);
- }
- inline void ZGEMV(char *transa, int M, int N, complex double alpha, complex double *A, int lda,
- complex double *X, int incX, complex double beta, complex double *Y, int incY)
- {
- zgemv_(transa, &M, &N, &alpha, A, &lda, X, &incX, &beta, Y, &incY);
- }
- inline float SCASUM(int N, complex float *X, int incX)
- {
- return scasum_(&N, X, &incX);
- }
- inline double DZASUM(int N, complex double *X, int incX)
- {
- return dzasum_(&N, X, &incX);
- }
- void CSCAL(int N, complex float alpha, complex float *X, int incX)
- {
- cscal_(&N, &alpha, X, &incX);
- }
- void ZSCAL(int N, complex double alpha, complex double *X, int incX)
- {
- zscal_(&N, &alpha, X, &incX);
- }
- void CTRSM (const char *side, const char *uplo, const char *transa,
- const char *diag, const int m, const int n,
- const complex float alpha, const complex float *A, const int lda,
- complex float *B, const int ldb)
- {
- ctrsm_(side, uplo, transa, diag, &m, &n, &alpha, A, &lda, B, &ldb);
- }
- void ZTRSM (const char *side, const char *uplo, const char *transa,
- const char *diag, const int m, const int n,
- const complex double alpha, const complex double *A, const int lda,
- complex double *B, const int ldb)
- {
- ztrsm_(side, uplo, transa, diag, &m, &n, &alpha, A, &lda, B, &ldb);
- }
- void CSYR (const char *uplo, const int n, const complex float alpha,
- const complex float *x, const int incx, complex float *A, const int lda)
- {
- csyr_(uplo, &n, &alpha, x, &incx, A, &lda);
- }
- void CSYRK (const char *uplo, const char *trans, const int n,
- const int k, const complex float alpha, const complex float *A,
- const int lda, const complex float beta, complex float *C,
- const int ldc)
- {
- csyrk_(uplo, trans, &n, &k, &alpha, A, &lda, &beta, C, &ldc);
- }
- void CGERU(const int m, const int n, const complex float alpha,
- const complex float *x, const int incx, const complex float *y,
- const int incy, complex float *A, const int lda)
- {
- cgeru_(&m, &n, &alpha, x, &incx, y, &incy, A, &lda);
- }
- void ZGERU(const int m, const int n, const complex double alpha,
- const complex double *x, const int incx, const complex double *y,
- const int incy, complex double *A, const int lda)
- {
- zgeru_(&m, &n, &alpha, x, &incx, y, &incy, A, &lda);
- }
- void CTRSV (const char *uplo, const char *trans, const char *diag,
- const int n, const complex float *A, const int lda, complex float *x,
- const int incx)
- {
- ctrsv_(uplo, trans, diag, &n, A, &lda, x, &incx);
- }
- void CTRMM(const char *side, const char *uplo, const char *transA,
- const char *diag, const int m, const int n,
- const complex float alpha, const complex float *A, const int lda,
- complex float *B, const int ldb)
- {
- ctrmm_(side, uplo, transA, diag, &m, &n, &alpha, A, &lda, B, &ldb);
- }
- void ZTRMM(const char *side, const char *uplo, const char *transA,
- const char *diag, const int m, const int n,
- const complex double alpha, const complex double *A, const int lda,
- complex double *B, const int ldb)
- {
- ztrmm_(side, uplo, transA, diag, &m, &n, &alpha, A, &lda, B, &ldb);
- }
- void CTRMV(const char *uplo, const char *transA, const char *diag,
- const int n, const complex float *A, const int lda, complex float *X,
- const int incX)
- {
- ctrmv_(uplo, transA, diag, &n, A, &lda, X, &incX);
- }
- void CAXPY(const int n, const complex float alpha, complex float *X, const int incX, complex float *Y, const int incY)
- {
- caxpy_(&n, &alpha, X, &incX, Y, &incY);
- }
- void ZAXPY(const int n, const complex double alpha, complex double *X, const int incX, complex double *Y, const int incY)
- {
- zaxpy_(&n, &alpha, X, &incX, Y, &incY);
- }
- int ICAMAX (const int n, complex float *X, const int incX)
- {
- int retVal;
- retVal = icamax_ (&n, X, &incX);
- return retVal;
- }
- int IZAMAX (const int n, complex double *X, const int incX)
- {
- int retVal;
- retVal = izamax_ (&n, X, &incX);
- return retVal;
- }
- complex float CDOTU(const int n, const complex float *x, const int incx, const complex float *y, const int incy)
- {
- complex float retVal = 0;
- /* GOTOBLAS will return a FLOATRET which is a double, not a float */
- retVal = (float)cdotu_(&n, x, &incx, y, &incy);
- return retVal;
- }
- complex double ZDOTU(const int n, const complex double *x, const int incx, const complex double *y, const int incy)
- {
- return zdotu_(&n, x, &incx, y, &incy);
- }
- void CSWAP(const int n, complex float *X, const int incX, complex float *Y, const int incY)
- {
- cswap_(&n, X, &incX, Y, &incY);
- }
- void ZSWAP(const int n, complex double *X, const int incX, complex double *Y, const int incY)
- {
- zswap_(&n, X, &incX, Y, &incY);
- }
- #else
- #error "no BLAS lib available..."
- #endif
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