bench/btl/libs/BLAS/blas_interface_impl.hh - manifest_repos/eigen - Git at Google


 #define BLAS_FUNC(NAME) CAT(CAT(SCALAR_PREFIX,NAME),_)

 template<> class blas_interface<SCALAR> : public c_interface_base<SCALAR>
 {

 public :

   static SCALAR fone;
   static SCALAR fzero;

   static inline std::string name()
   {
     return MAKE_STRING(CBLASNAME);
   }

   static inline void matrix_vector_product(gene_matrix & A, gene_vector & B, gene_vector & X, int N){
     BLAS_FUNC(gemv)(&notrans,&N,&N,&fone,A,&N,B,&intone,&fzero,X,&intone);
   }

   static inline void symv(gene_matrix & A, gene_vector & B, gene_vector & X, int N){
     BLAS_FUNC(symv)(&lower, &N,&fone,A,&N,B,&intone,&fzero,X,&intone);
   }

   static inline void syr2(gene_matrix & A, gene_vector & B, gene_vector & X, int N){
     BLAS_FUNC(syr2)(&lower,&N,&fone,B,&intone,X,&intone,A,&N);
   }

   static inline void ger(gene_matrix & A, gene_vector & X, gene_vector & Y, int N){
     BLAS_FUNC(ger)(&N,&N,&fone,X,&intone,Y,&intone,A,&N);
   }

   static inline void rot(gene_vector & A,  gene_vector & B, SCALAR c, SCALAR s, int N){
     BLAS_FUNC(rot)(&N,A,&intone,B,&intone,&c,&s);
   }

   static inline void atv_product(gene_matrix & A, gene_vector & B, gene_vector & X, int N){
     BLAS_FUNC(gemv)(&trans,&N,&N,&fone,A,&N,B,&intone,&fzero,X,&intone);
   }

   static inline void matrix_matrix_product(gene_matrix & A, gene_matrix & B, gene_matrix & X, int N){
     BLAS_FUNC(gemm)(&notrans,&notrans,&N,&N,&N,&fone,A,&N,B,&N,&fzero,X,&N);
   }

   static inline void transposed_matrix_matrix_product(gene_matrix & A, gene_matrix & B, gene_matrix & X, int N){
     BLAS_FUNC(gemm)(&notrans,&notrans,&N,&N,&N,&fone,A,&N,B,&N,&fzero,X,&N);
   }

 //   static inline void ata_product(gene_matrix & A, gene_matrix & X, int N){
 //     ssyrk_(&lower,&trans,&N,&N,&fone,A,&N,&fzero,X,&N);
 //   }

   static inline void aat_product(gene_matrix & A, gene_matrix & X, int N){
     BLAS_FUNC(syrk)(&lower,&notrans,&N,&N,&fone,A,&N,&fzero,X,&N);
   }

   static inline void axpy(SCALAR coef, const gene_vector & X, gene_vector & Y, int N){
     BLAS_FUNC(axpy)(&N,&coef,X,&intone,Y,&intone);
   }

   static inline void axpby(SCALAR a, const gene_vector & X, SCALAR b, gene_vector & Y, int N){
     BLAS_FUNC(scal)(&N,&b,Y,&intone);
     BLAS_FUNC(axpy)(&N,&a,X,&intone,Y,&intone);
   }

   static inline void cholesky(const gene_matrix & X, gene_matrix & C, int N){
     int N2 = N*N;
     BLAS_FUNC(copy)(&N2, X, &intone, C, &intone);
     char uplo = 'L';
     int info = 0;
     BLAS_FUNC(potrf)(&uplo, &N, C, &N, &info);
     if(info!=0) std::cerr << "potrf_ error " << info << "\n";
   }

   static inline void partial_lu_decomp(const gene_matrix & X, gene_matrix & C, int N){
     int N2 = N*N;
     BLAS_FUNC(copy)(&N2, X, &intone, C, &intone);
     int info = 0;
     int * ipiv = (int*)alloca(sizeof(int)*N);
     BLAS_FUNC(getrf)(&N, &N, C, &N, ipiv, &info);
     if(info!=0) std::cerr << "getrf_ error " << info << "\n";
   }

   static inline void trisolve_lower(const gene_matrix & L, const gene_vector& B, gene_vector & X, int N){
     BLAS_FUNC(copy)(&N, B, &intone, X, &intone);
     BLAS_FUNC(trsv)(&lower, &notrans, &nonunit, &N, L, &N, X, &intone);
   }

   static inline void trisolve_lower_matrix(const gene_matrix & L, const gene_matrix& B, gene_matrix & X, int N){
     BLAS_FUNC(copy)(&N, B, &intone, X, &intone);
     BLAS_FUNC(trsm)(&right, &lower, &notrans, &nonunit, &N, &N, &fone, L, &N, X, &N);
   }

   static inline void trmm(gene_matrix & A, gene_matrix & B, gene_matrix & /*X*/, int N){
     BLAS_FUNC(trmm)(&left, &lower, &notrans,&nonunit, &N,&N,&fone,A,&N,B,&N);
   }

   #ifdef HAS_LAPACK

   static inline void lu_decomp(const gene_matrix & X, gene_matrix & C, int N){
     int N2 = N*N;
     BLAS_FUNC(copy)(&N2, X, &intone, C, &intone);
     int info = 0;
     int * ipiv = (int*)alloca(sizeof(int)*N);
     int * jpiv = (int*)alloca(sizeof(int)*N);
     BLAS_FUNC(getc2)(&N, C, &N, ipiv, jpiv, &info);
   }


   static inline void hessenberg(const gene_matrix & X, gene_matrix & C, int N){
     {
       int N2 = N*N;
       int inc = 1;
       BLAS_FUNC(copy)(&N2, X, &inc, C, &inc);
     }
     int info = 0;
     int ilo = 1;
     int ihi = N;
     int bsize = 64;
     int worksize = N*bsize;
     SCALAR* d = new SCALAR[N+worksize];
     BLAS_FUNC(gehrd)(&N, &ilo, &ihi, C, &N, d, d+N, &worksize, &info);
     delete[] d;
   }

   static inline void tridiagonalization(const gene_matrix & X, gene_matrix & C, int N){
     {
       int N2 = N*N;
       int inc = 1;
       BLAS_FUNC(copy)(&N2, X, &inc, C, &inc);
     }
     char uplo = 'U';
     int info = 0;
     int bsize = 64;
     int worksize = N*bsize;
     SCALAR* d = new SCALAR[3*N+worksize];
     BLAS_FUNC(sytrd)(&uplo, &N, C, &N, d, d+N, d+2*N, d+3*N, &worksize, &info);
     delete[] d;
   }

   #endif // HAS_LAPACK

 };

 SCALAR blas_interface<SCALAR>::fone = SCALAR(1);
 SCALAR blas_interface<SCALAR>::fzero = SCALAR(0);

	#define BLAS_FUNC(NAME) CAT(CAT(SCALAR_PREFIX,NAME),_)

	template<> class blas_interface<SCALAR> : public c_interface_base<SCALAR>
	{

	public :

	static SCALAR fone;
	static SCALAR fzero;

	static inline std::string name()
	{
	return MAKE_STRING(CBLASNAME);
	}

	static inline void matrix_vector_product(gene_matrix & A, gene_vector & B, gene_vector & X, int N){
	BLAS_FUNC(gemv)(&notrans,&N,&N,&fone,A,&N,B,&intone,&fzero,X,&intone);
	}

	static inline void symv(gene_matrix & A, gene_vector & B, gene_vector & X, int N){
	BLAS_FUNC(symv)(&lower, &N,&fone,A,&N,B,&intone,&fzero,X,&intone);
	}

	static inline void syr2(gene_matrix & A, gene_vector & B, gene_vector & X, int N){
	BLAS_FUNC(syr2)(&lower,&N,&fone,B,&intone,X,&intone,A,&N);
	}

	static inline void ger(gene_matrix & A, gene_vector & X, gene_vector & Y, int N){
	BLAS_FUNC(ger)(&N,&N,&fone,X,&intone,Y,&intone,A,&N);
	}

	static inline void rot(gene_vector & A, gene_vector & B, SCALAR c, SCALAR s, int N){
	BLAS_FUNC(rot)(&N,A,&intone,B,&intone,&c,&s);
	}

	static inline void atv_product(gene_matrix & A, gene_vector & B, gene_vector & X, int N){
	BLAS_FUNC(gemv)(&trans,&N,&N,&fone,A,&N,B,&intone,&fzero,X,&intone);
	}

	static inline void matrix_matrix_product(gene_matrix & A, gene_matrix & B, gene_matrix & X, int N){
	BLAS_FUNC(gemm)(&notrans,&notrans,&N,&N,&N,&fone,A,&N,B,&N,&fzero,X,&N);
	}

	static inline void transposed_matrix_matrix_product(gene_matrix & A, gene_matrix & B, gene_matrix & X, int N){
	BLAS_FUNC(gemm)(&notrans,&notrans,&N,&N,&N,&fone,A,&N,B,&N,&fzero,X,&N);
	}

	// static inline void ata_product(gene_matrix & A, gene_matrix & X, int N){
	// ssyrk_(&lower,&trans,&N,&N,&fone,A,&N,&fzero,X,&N);
	// }

	static inline void aat_product(gene_matrix & A, gene_matrix & X, int N){
	BLAS_FUNC(syrk)(&lower,&notrans,&N,&N,&fone,A,&N,&fzero,X,&N);
	}

	static inline void axpy(SCALAR coef, const gene_vector & X, gene_vector & Y, int N){
	BLAS_FUNC(axpy)(&N,&coef,X,&intone,Y,&intone);
	}

	static inline void axpby(SCALAR a, const gene_vector & X, SCALAR b, gene_vector & Y, int N){
	BLAS_FUNC(scal)(&N,&b,Y,&intone);
	BLAS_FUNC(axpy)(&N,&a,X,&intone,Y,&intone);
	}

	static inline void cholesky(const gene_matrix & X, gene_matrix & C, int N){
	int N2 = N*N;
	BLAS_FUNC(copy)(&N2, X, &intone, C, &intone);
	char uplo = 'L';
	int info = 0;
	BLAS_FUNC(potrf)(&uplo, &N, C, &N, &info);
	if(info!=0) std::cerr << "potrf_ error " << info << "\n";
	}

	static inline void partial_lu_decomp(const gene_matrix & X, gene_matrix & C, int N){
	int N2 = N*N;
	BLAS_FUNC(copy)(&N2, X, &intone, C, &intone);
	int info = 0;
	int * ipiv = (int)alloca(sizeof(int)N);
	BLAS_FUNC(getrf)(&N, &N, C, &N, ipiv, &info);
	if(info!=0) std::cerr << "getrf_ error " << info << "\n";
	}

	static inline void trisolve_lower(const gene_matrix & L, const gene_vector& B, gene_vector & X, int N){
	BLAS_FUNC(copy)(&N, B, &intone, X, &intone);
	BLAS_FUNC(trsv)(&lower, &notrans, &nonunit, &N, L, &N, X, &intone);
	}

	static inline void trisolve_lower_matrix(const gene_matrix & L, const gene_matrix& B, gene_matrix & X, int N){
	BLAS_FUNC(copy)(&N, B, &intone, X, &intone);
	BLAS_FUNC(trsm)(&right, &lower, &notrans, &nonunit, &N, &N, &fone, L, &N, X, &N);
	}

	static inline void trmm(gene_matrix & A, gene_matrix & B, gene_matrix & /X/, int N){
	BLAS_FUNC(trmm)(&left, &lower, &notrans,&nonunit, &N,&N,&fone,A,&N,B,&N);
	}

	#ifdef HAS_LAPACK

	static inline void lu_decomp(const gene_matrix & X, gene_matrix & C, int N){
	int N2 = N*N;
	BLAS_FUNC(copy)(&N2, X, &intone, C, &intone);
	int info = 0;
	int * ipiv = (int)alloca(sizeof(int)N);
	int * jpiv = (int)alloca(sizeof(int)N);
	BLAS_FUNC(getc2)(&N, C, &N, ipiv, jpiv, &info);
	}



	static inline void hessenberg(const gene_matrix & X, gene_matrix & C, int N){
	{
	int N2 = N*N;
	int inc = 1;
	BLAS_FUNC(copy)(&N2, X, &inc, C, &inc);
	}
	int info = 0;
	int ilo = 1;
	int ihi = N;
	int bsize = 64;
	int worksize = N*bsize;
	SCALAR* d = new SCALAR[N+worksize];
	BLAS_FUNC(gehrd)(&N, &ilo, &ihi, C, &N, d, d+N, &worksize, &info);
	delete[] d;
	}

	static inline void tridiagonalization(const gene_matrix & X, gene_matrix & C, int N){
	{
	int N2 = N*N;
	int inc = 1;
	BLAS_FUNC(copy)(&N2, X, &inc, C, &inc);
	}
	char uplo = 'U';
	int info = 0;
	int bsize = 64;
	int worksize = N*bsize;
	SCALAR* d = new SCALAR[3*N+worksize];
	BLAS_FUNC(sytrd)(&uplo, &N, C, &N, d, d+N, d+2N, d+3N, &worksize, &info);
	delete[] d;
	}

	#endif // HAS_LAPACK

	};

	SCALAR blas_interface<SCALAR>::fone = SCALAR(1);
	SCALAR blas_interface<SCALAR>::fzero = SCALAR(0);