/* ========================================================================== */ /* === Include/cholmod_blas.h =============================================== */ /* ========================================================================== */ /* This does not need to be included in the user's program. */ #ifndef CHOLMOD_BLAS_H #define CHOLMOD_BLAS_H /* ========================================================================== */ /* === Architecture ========================================================= */ /* ========================================================================== */ #if defined (__sun) || defined (MSOL2) || defined (ARCH_SOL2) #define CHOLMOD_SOL2 #define CHOLMOD_ARCHITECTURE "Sun Solaris" #elif defined (__sgi) || defined (MSGI) || defined (ARCH_SGI) #define CHOLMOD_SGI #define CHOLMOD_ARCHITECTURE "SGI Irix" #elif defined (__linux) || defined (MGLNX86) || defined (ARCH_GLNX86) #define CHOLMOD_LINUX #define CHOLMOD_ARCHITECTURE "Linux" #elif defined (__APPLE__) #define CHOLMOD_MAC #define CHOLMOD_ARCHITECTURE "Mac" #elif defined (_AIX) || defined (MIBM_RS) || defined (ARCH_IBM_RS) #define CHOLMOD_AIX #define CHOLMOD_ARCHITECTURE "IBM AIX" /* recent reports from IBM AIX seem to indicate that this is not needed: */ /* #define BLAS_NO_UNDERSCORE */ #elif defined (__alpha) || defined (MALPHA) || defined (ARCH_ALPHA) #define CHOLMOD_ALPHA #define CHOLMOD_ARCHITECTURE "Compaq Alpha" #elif defined (_WIN32) || defined (WIN32) || defined (_WIN64) || defined (WIN64) #if defined (__MINGW32__) || defined (__MINGW32__) #define CHOLMOD_MINGW #elif defined (__CYGWIN32__) || defined (__CYGWIN32__) #define CHOLMOD_CYGWIN #else #define CHOLMOD_WINDOWS #define BLAS_NO_UNDERSCORE #endif #define CHOLMOD_ARCHITECTURE "Microsoft Windows" #elif defined (__hppa) || defined (__hpux) || defined (MHPUX) || defined (ARCH_HPUX) #define CHOLMOD_HP #define CHOLMOD_ARCHITECTURE "HP Unix" #define BLAS_NO_UNDERSCORE #elif defined (__hp700) || defined (MHP700) || defined (ARCH_HP700) #define CHOLMOD_HP #define CHOLMOD_ARCHITECTURE "HP 700 Unix" #define BLAS_NO_UNDERSCORE #else /* If the architecture is unknown, and you call the BLAS, you may need to */ /* define BLAS_BY_VALUE, BLAS_NO_UNDERSCORE, and/or BLAS_CHAR_ARG yourself. */ #define CHOLMOD_ARCHITECTURE "unknown" #endif /* ========================================================================== */ /* === BLAS and LAPACK names ================================================ */ /* ========================================================================== */ /* Prototypes for the various versions of the BLAS. */ /* Determine if the 64-bit Sun Performance BLAS is to be used */ #if defined(CHOLMOD_SOL2) && !defined(NSUNPERF) && defined(BLAS64) #define SUN64 #endif #ifdef SUN64 #define BLAS_DTRSV dtrsv_64_ #define BLAS_DGEMV dgemv_64_ #define BLAS_DTRSM dtrsm_64_ #define BLAS_DGEMM dgemm_64_ #define BLAS_DSYRK dsyrk_64_ #define BLAS_DGER dger_64_ #define BLAS_DSCAL dscal_64_ #define LAPACK_DPOTRF dpotrf_64_ #define BLAS_ZTRSV ztrsv_64_ #define BLAS_ZGEMV zgemv_64_ #define BLAS_ZTRSM ztrsm_64_ #define BLAS_ZGEMM zgemm_64_ #define BLAS_ZHERK zherk_64_ #define BLAS_ZGER zgeru_64_ #define BLAS_ZSCAL zscal_64_ #define LAPACK_ZPOTRF zpotrf_64_ #elif defined (BLAS_NO_UNDERSCORE) #define BLAS_DTRSV dtrsv #define BLAS_DGEMV dgemv #define BLAS_DTRSM dtrsm #define BLAS_DGEMM dgemm #define BLAS_DSYRK dsyrk #define BLAS_DGER dger #define BLAS_DSCAL dscal #define LAPACK_DPOTRF dpotrf #define BLAS_ZTRSV ztrsv #define BLAS_ZGEMV zgemv #define BLAS_ZTRSM ztrsm #define BLAS_ZGEMM zgemm #define BLAS_ZHERK zherk #define BLAS_ZGER zgeru #define BLAS_ZSCAL zscal #define LAPACK_ZPOTRF zpotrf #else #define BLAS_DTRSV dtrsv_ #define BLAS_DGEMV dgemv_ #define BLAS_DTRSM dtrsm_ #define BLAS_DGEMM dgemm_ #define BLAS_DSYRK dsyrk_ #define BLAS_DGER dger_ #define BLAS_DSCAL dscal_ #define LAPACK_DPOTRF dpotrf_ #define BLAS_ZTRSV ztrsv_ #define BLAS_ZGEMV zgemv_ #define BLAS_ZTRSM ztrsm_ #define BLAS_ZGEMM zgemm_ #define BLAS_ZHERK zherk_ #define BLAS_ZGER zgeru_ #define BLAS_ZSCAL zscal_ #define LAPACK_ZPOTRF zpotrf_ #endif /* ========================================================================== */ /* === BLAS and LAPACK integer arguments ==================================== */ /* ========================================================================== */ /* Compile CHOLMOD, UMFPACK, and SPQR with -DBLAS64 if you have a BLAS that * uses 64-bit integers */ #if defined (LONGBLAS) || defined (BLAS64) #define BLAS_INT SuiteSparse_long #else #define BLAS_INT int #endif /* If the BLAS integer is smaller than the basic CHOLMOD integer, then we need * to check for integer overflow when converting from Int to BLAS_INT. If * any integer overflows, the externally-defined BLAS_OK variable is * set to FALSE. BLAS_OK should be set to TRUE before calling any * BLAS_* macro. */ #define CHECK_BLAS_INT (sizeof (BLAS_INT) < sizeof (Int)) #define EQ(K,k) (((BLAS_INT) K) == ((Int) k)) /* ========================================================================== */ /* === BLAS and LAPACK prototypes and macros ================================ */ /* ========================================================================== */ void BLAS_DGEMV (char *trans, BLAS_INT *m, BLAS_INT *n, double *alpha, double *A, BLAS_INT *lda, double *X, BLAS_INT *incx, double *beta, double *Y, BLAS_INT *incy) ; #define BLAS_dgemv(trans,m,n,alpha,A,lda,X,incx,beta,Y,incy) \ { \ BLAS_INT M = m, N = n, LDA = lda, INCX = incx, INCY = incy ; \ if (CHECK_BLAS_INT && !(EQ (M,m) && EQ (N,n) && EQ (LDA,lda) && \ EQ (INCX,incx) && EQ (INCY,incy))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_DGEMV (trans, &M, &N, alpha, A, &LDA, X, &INCX, beta, Y, &INCY) ; \ } \ } void BLAS_ZGEMV (char *trans, BLAS_INT *m, BLAS_INT *n, double *alpha, double *A, BLAS_INT *lda, double *X, BLAS_INT *incx, double *beta, double *Y, BLAS_INT *incy) ; #define BLAS_zgemv(trans,m,n,alpha,A,lda,X,incx,beta,Y,incy) \ { \ BLAS_INT M = m, N = n, LDA = lda, INCX = incx, INCY = incy ; \ if (CHECK_BLAS_INT && !(EQ (M,m) && EQ (N,n) && EQ (LDA,lda) && \ EQ (INCX,incx) && EQ (INCY,incy))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_ZGEMV (trans, &M, &N, alpha, A, &LDA, X, &INCX, beta, Y, &INCY) ; \ } \ } void BLAS_DTRSV (char *uplo, char *trans, char *diag, BLAS_INT *n, double *A, BLAS_INT *lda, double *X, BLAS_INT *incx) ; #define BLAS_dtrsv(uplo,trans,diag,n,A,lda,X,incx) \ { \ BLAS_INT N = n, LDA = lda, INCX = incx ; \ if (CHECK_BLAS_INT && !(EQ (N,n) && EQ (LDA,lda) && EQ (INCX,incx))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_DTRSV (uplo, trans, diag, &N, A, &LDA, X, &INCX) ; \ } \ } void BLAS_ZTRSV (char *uplo, char *trans, char *diag, BLAS_INT *n, double *A, BLAS_INT *lda, double *X, BLAS_INT *incx) ; #define BLAS_ztrsv(uplo,trans,diag,n,A,lda,X,incx) \ { \ BLAS_INT N = n, LDA = lda, INCX = incx ; \ if (CHECK_BLAS_INT && !(EQ (N,n) && EQ (LDA,lda) && EQ (INCX,incx))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_ZTRSV (uplo, trans, diag, &N, A, &LDA, X, &INCX) ; \ } \ } void BLAS_DTRSM (char *side, char *uplo, char *transa, char *diag, BLAS_INT *m, BLAS_INT *n, double *alpha, double *A, BLAS_INT *lda, double *B, BLAS_INT *ldb) ; #define BLAS_dtrsm(side,uplo,transa,diag,m,n,alpha,A,lda,B,ldb) \ { \ BLAS_INT M = m, N = n, LDA = lda, LDB = ldb ; \ if (CHECK_BLAS_INT && !(EQ (M,m) && EQ (N,n) && EQ (LDA,lda) && \ EQ (LDB,ldb))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_DTRSM (side, uplo, transa, diag, &M, &N, alpha, A, &LDA, B, &LDB);\ } \ } void BLAS_ZTRSM (char *side, char *uplo, char *transa, char *diag, BLAS_INT *m, BLAS_INT *n, double *alpha, double *A, BLAS_INT *lda, double *B, BLAS_INT *ldb) ; #define BLAS_ztrsm(side,uplo,transa,diag,m,n,alpha,A,lda,B,ldb) \ { \ BLAS_INT M = m, N = n, LDA = lda, LDB = ldb ; \ if (CHECK_BLAS_INT && !(EQ (M,m) && EQ (N,n) && EQ (LDA,lda) && \ EQ (LDB,ldb))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_ZTRSM (side, uplo, transa, diag, &M, &N, alpha, A, &LDA, B, &LDB);\ } \ } void BLAS_DGEMM (char *transa, char *transb, BLAS_INT *m, BLAS_INT *n, BLAS_INT *k, double *alpha, double *A, BLAS_INT *lda, double *B, BLAS_INT *ldb, double *beta, double *C, BLAS_INT *ldc) ; #define BLAS_dgemm(transa,transb,m,n,k,alpha,A,lda,B,ldb,beta,C,ldc) \ { \ BLAS_INT M = m, N = n, K = k, LDA = lda, LDB = ldb, LDC = ldc ; \ if (CHECK_BLAS_INT && !(EQ (M,m) && EQ (N,n) && EQ (K,k) && \ EQ (LDA,lda) && EQ (LDB,ldb) && EQ (LDC,ldc))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_DGEMM (transa, transb, &M, &N, &K, alpha, A, &LDA, B, &LDB, beta, \ C, &LDC) ; \ } \ } void BLAS_ZGEMM (char *transa, char *transb, BLAS_INT *m, BLAS_INT *n, BLAS_INT *k, double *alpha, double *A, BLAS_INT *lda, double *B, BLAS_INT *ldb, double *beta, double *C, BLAS_INT *ldc) ; #define BLAS_zgemm(transa,transb,m,n,k,alpha,A,lda,B,ldb,beta,C,ldc) \ { \ BLAS_INT M = m, N = n, K = k, LDA = lda, LDB = ldb, LDC = ldc ; \ if (CHECK_BLAS_INT && !(EQ (M,m) && EQ (N,n) && EQ (K,k) && \ EQ (LDA,lda) && EQ (LDB,ldb) && EQ (LDC,ldc))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_ZGEMM (transa, transb, &M, &N, &K, alpha, A, &LDA, B, &LDB, beta, \ C, &LDC) ; \ } \ } void BLAS_DSYRK (char *uplo, char *trans, BLAS_INT *n, BLAS_INT *k, double *alpha, double *A, BLAS_INT *lda, double *beta, double *C, BLAS_INT *ldc) ; #define BLAS_dsyrk(uplo,trans,n,k,alpha,A,lda,beta,C,ldc) \ { \ BLAS_INT N = n, K = k, LDA = lda, LDC = ldc ; \ if (CHECK_BLAS_INT && !(EQ (N,n) && EQ (K,k) && EQ (LDA,lda) && \ EQ (LDC,ldc))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_DSYRK (uplo, trans, &N, &K, alpha, A, &LDA, beta, C, &LDC) ; \ } \ } \ void BLAS_ZHERK (char *uplo, char *trans, BLAS_INT *n, BLAS_INT *k, double *alpha, double *A, BLAS_INT *lda, double *beta, double *C, BLAS_INT *ldc) ; #define BLAS_zherk(uplo,trans,n,k,alpha,A,lda,beta,C,ldc) \ { \ BLAS_INT N = n, K = k, LDA = lda, LDC = ldc ; \ if (CHECK_BLAS_INT && !(EQ (N,n) && EQ (K,k) && EQ (LDA,lda) && \ EQ (LDC,ldc))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_ZHERK (uplo, trans, &N, &K, alpha, A, &LDA, beta, C, &LDC) ; \ } \ } \ void LAPACK_DPOTRF (char *uplo, BLAS_INT *n, double *A, BLAS_INT *lda, BLAS_INT *info) ; #define LAPACK_dpotrf(uplo,n,A,lda,info) \ { \ BLAS_INT N = n, LDA = lda, INFO = 1 ; \ if (CHECK_BLAS_INT && !(EQ (N,n) && EQ (LDA,lda))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ LAPACK_DPOTRF (uplo, &N, A, &LDA, &INFO) ; \ } \ info = INFO ; \ } void LAPACK_ZPOTRF (char *uplo, BLAS_INT *n, double *A, BLAS_INT *lda, BLAS_INT *info) ; #define LAPACK_zpotrf(uplo,n,A,lda,info) \ { \ BLAS_INT N = n, LDA = lda, INFO = 1 ; \ if (CHECK_BLAS_INT && !(EQ (N,n) && EQ (LDA,lda))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ LAPACK_ZPOTRF (uplo, &N, A, &LDA, &INFO) ; \ } \ info = INFO ; \ } /* ========================================================================== */ void BLAS_DSCAL (BLAS_INT *n, double *alpha, double *Y, BLAS_INT *incy) ; #define BLAS_dscal(n,alpha,Y,incy) \ { \ BLAS_INT N = n, INCY = incy ; \ if (CHECK_BLAS_INT && !(EQ (N,n) && EQ (INCY,incy))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_DSCAL (&N, alpha, Y, &INCY) ; \ } \ } void BLAS_ZSCAL (BLAS_INT *n, double *alpha, double *Y, BLAS_INT *incy) ; #define BLAS_zscal(n,alpha,Y,incy) \ { \ BLAS_INT N = n, INCY = incy ; \ if (CHECK_BLAS_INT && !(EQ (N,n) && EQ (INCY,incy))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_ZSCAL (&N, alpha, Y, &INCY) ; \ } \ } void BLAS_DGER (BLAS_INT *m, BLAS_INT *n, double *alpha, double *X, BLAS_INT *incx, double *Y, BLAS_INT *incy, double *A, BLAS_INT *lda) ; #define BLAS_dger(m,n,alpha,X,incx,Y,incy,A,lda) \ { \ BLAS_INT M = m, N = n, LDA = lda, INCX = incx, INCY = incy ; \ if (CHECK_BLAS_INT && !(EQ (M,m) && EQ (N,n) && EQ (LDA,lda) && \ EQ (INCX,incx) && EQ (INCY,incy))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_DGER (&M, &N, alpha, X, &INCX, Y, &INCY, A, &LDA) ; \ } \ } void BLAS_ZGER (BLAS_INT *m, BLAS_INT *n, double *alpha, double *X, BLAS_INT *incx, double *Y, BLAS_INT *incy, double *A, BLAS_INT *lda) ; #define BLAS_zgeru(m,n,alpha,X,incx,Y,incy,A,lda) \ { \ BLAS_INT M = m, N = n, LDA = lda, INCX = incx, INCY = incy ; \ if (CHECK_BLAS_INT && !(EQ (M,m) && EQ (N,n) && EQ (LDA,lda) && \ EQ (INCX,incx) && EQ (INCY,incy))) \ { \ BLAS_OK = FALSE ; \ } \ if (!CHECK_BLAS_INT || BLAS_OK) \ { \ BLAS_ZGER (&M, &N, alpha, X, &INCX, Y, &INCY, A, &LDA) ; \ } \ } #endif