/usr/include/blas_sparse.h is in librsb-dev 1.2.0-rc5-3+deb9u1.
This file is owned by root:root, with mode 0o644.
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@file
@author Michele Martone
@brief This file specifies the Sparse BLAS interface to librsb.
Supported types :(float,double,float complex,double complex) .
Unsupported types:() .
Level 1 ops :(dot,axpy,ga,gz,sc) .
Level 2 ops :(mv,sv) .
Level 3 ops :(mm,sm) .
*/
#ifndef RSB_LIBSPBLAS_H_INCLUDED
#define RSB_LIBSPBLAS_H_INCLUDED
#ifndef RSB_RSB_H_INCLUDED
#error "You are using Sparse BLAS headers from librsb -- You should include <rsb.h> first!"
#endif /* RSB_RSB_H_INCLUDED */
#ifndef BLAS_ENUM_H
#define BLAS_ENUM_H
/* Enumerated types */
/*! Used to specify a dense array's elements layout. */
enum blas_order_type {
blas_rowmajor = 101, /*!< Row major. */
blas_colmajor = 102 /*!< Column major. */ };
/*! Used to specify a transposition operator to a matrix operand. */
enum blas_trans_type {
blas_no_trans = 111, /*!< No transposition. */
blas_trans = 112, /*!< Transposition. */
blas_conj_trans = 113 /*!< Transposition and conjugation. */ };
/*! Specifies (#BLAS_ussp) or inquiries (#BLAS_usgp) upper or lower triangularity of a matrix. */
enum blas_uplo_type {
blas_upper = 121, /*!< Upper triangular matrix. */
blas_lower = 122 /*!< Lower triangular matrix. */ };
/*! Specifies (#BLAS_ussp) or inquiries (#BLAS_usgp) whether the diagonal of a matrix is (implicitly) unitary or not. */
enum blas_diag_type {
blas_non_unit_diag = 131, /*!< Unit diagional matrix. */
blas_unit_diag = 132 /*!< Non unit diagional matrix (the default). */ };
/*! Unused/Unsupported. */
enum blas_side_type {
blas_left_side = 141, /*!< Unsupported. */
blas_right_side = 142 /*!< Unsupported. */ };
/*! Unused/Unsupported. */
enum blas_cmach_type {
blas_base = 151, /*!< Unsupported. */
blas_t = 152, /*!< Unsupported. */
blas_rnd = 153, /*!< Unsupported. */
blas_ieee = 154, /*!< Unsupported. */
blas_emin = 155, /*!< Unsupported. */
blas_emax = 156, /*!< Unsupported. */
blas_eps = 157, /*!< Unsupported. */
blas_prec = 158, /*!< Unsupported. */
blas_underflow = 159, /*!< Unsupported. */
blas_overflow = 160, /*!< Unsupported. */
blas_sfmin = 161 /*!< Unsupported. */ };
/*! Unused/Unsupported. */
enum blas_norm_type {
blas_one_norm = 171, /*!< Unsupported. */
blas_real_one_norm = 172, /*!< Unsupported. */
blas_two_norm = 173, /*!< Unsupported. */
blas_frobenius_norm = 174, /*!< Unsupported. */
blas_inf_norm = 175, /*!< Unsupported. */
blas_real_inf_norm = 176, /*!< Unsupported. */
blas_max_norm = 177, /*!< Unsupported. */
blas_real_max_norm = 178 /*!< Unsupported. */ };
/*! Unused/Unsupported. */
enum blas_sort_type {
blas_increasing_order = 181, /*!< Unsupported. */
blas_decreasing_order = 182 /*!< Unsupported. */ };
/*! Unused/Unsupported. */
enum blas_conj_type {
blas_conj = 191, /*!< Unsupported. */
blas_no_conj = 192 /*!< Unsupported. */ };
/*! Unused/Unsupported. */
enum blas_jrot_type {
blas_jrot_inner = 201, /*!< Unsupported. */
blas_jrot_outer = 202, /*!< Unsupported. */
blas_jrot_sorted = 203 /*!< Unsupported. */ };
/*! Unused/Unsupported. */
enum blas_prec_type {
blas_prec_single = 211, /*!< Unsupported. */
blas_prec_double = 212, /*!< Unsupported. */
blas_prec_indigenous = 213, /*!< Unsupported. */
blas_prec_extra = 214 /*!< Unsupported. */ };
/*! Index base (valid at matrix build/modify time). */
enum blas_base_type {
blas_zero_base = 221, /*!< Zero based indices (default when matrix created using the C interface). */
blas_one_base = 222 /*!< Zero based indices (default when matrix created using the Fortran interface). */ };
/*! Symmetry properties. If not specified otherwise, valid for the both of #BLAS_ussp and #BLAS_usgp.
*/
enum blas_symmetry_type {
blas_general = 231, /*!< General unsymmetric matrix (default). For #BLAS_usgp only. */
blas_symmetric = 232, /*!< Symmetric matrix (either #blas_lower_symmetric or #blas_upper_symmetric). For #BLAS_usgp only. */
blas_hermitian = 233, /*!< Hermitian matrix (either #blas_lower_hermitian or #blas_upper_hermitian). For #BLAS_usgp only. */
blas_triangular = 234, /*!< Triangular matrix (either #blas_lower_triangular or #blas_upper_triangular). For #BLAS_usgp only. */
blas_lower_triangular = 235, /*!< Lower triangular matrix. */
blas_upper_triangular = 236, /*!< Upper triangular matrix. */
blas_lower_symmetric = 237, /*!< Lower symmetric matrix. */
blas_upper_symmetric = 238, /*!< Upper symmetric matrix. */
blas_lower_hermitian = 239, /*!< Lower hermitian matrix. */
blas_upper_hermitian = 240 /*!< Upper hermitian matrix. */ };
/*! Numerical field type; can be used with #BLAS_usgp to inquiry about a matrix numerical type (1 will be returned in case of success, 0 in case of failure). */
enum blas_field_type {
blas_complex = 241, /*!< Will succeed if matrix is of 'C' or 'Z' type. */
blas_real = 242, /*!< Will succeed if matrix is of 'S' or 'D' type. */
blas_double_precision = 243, /*!< Will succeed if matrix is of 'D' or 'Z' type. */
blas_single_precision = 244 /*!< Will succeed if matrix is of 'S' or 'C' type. */ };
/*! Quantities that can be obtained via #BLAS_usgp. */
enum blas_size_type {
blas_num_rows = 251, /*!< Get the matrix rows count. */
blas_num_cols = 252, /*!< Get the matrix columns count. */
blas_num_nonzeros = 253 /*!< Get the matrix nonzeros count. */ };
/*! The following are not fully implemented. Usable with #BLAS_usgp. */
enum blas_handle_type{
blas_invalid_handle = 261, /*!< Used to check whether the handle is invalid. */
blas_new_handle = 262, /*!< Will give 1 if the handle is new. */
blas_open_handle = 263, /*!< will give 1 if the handle is open. */
blas_valid_handle = 264 /*!< Will give 1 if the handle is valid (that is, after #BLAS_duscr_end/#BLAS_zuscr_end/#BLAS_cuscr_end/#BLAS_zuscr_end). */ };
/*! The following are usable with #BLAS_usgp only. */
enum blas_sparsity_optimization_type {
blas_regular = 271, /*!< Will give 0. */
blas_irregular = 272, /*!< Will give 1. */
blas_block = 273, /*!< Will give 0. */
blas_unassembled = 274 /*!< Complementary to #blas_valid_handle. */ };
/*! Properties suitable to be used with #BLAS_ussp/#BLAS_usgp. All of these are not in the Sparse BLAS standard. */
enum blas_rsb_ext_type {
blas_rsb_spmv_autotuning_on = 6660, /*!< Turn on executing threads autotuning for #BLAS_dusmv, #BLAS_zusmv, #BLAS_susmv, #BLAS_cusmv. As an extension to the standard, the autotuning properties can be turned on/off at any time; if the autotuning feature has not been enabled at build time, using these properties will make the call fail. For more information, see #rsb_tune_spmm. (EXPERIMENTAL) */
blas_rsb_spmv_autotuning_off = 6661, /*!< Turn off executing threads autotuning for #BLAS_dusmv, #BLAS_zusmv, #BLAS_susmv, #BLAS_cusmv. See #blas_rsb_spmv_autotuning_on. (EXPERIMENTAL) */
blas_rsb_spmv_n_autotuning_on = 6662, /*!< Turn on executing threads autotuning for untransposed #BLAS_dusmv, #BLAS_zusmv, #BLAS_susmv, #BLAS_cusmv. See #blas_rsb_spmv_autotuning_on. (EXPERIMENTAL) */
blas_rsb_spmv_n_autotuning_off = 6663, /*!< Turn on executing threads autotuning for untransposed #BLAS_dusmv, #BLAS_zusmv, #BLAS_susmv, #BLAS_cusmv. See #blas_rsb_spmv_autotuning_on. (EXPERIMENTAL) */
blas_rsb_spmv_t_autotuning_on = 6664, /*!< Turn on executing threads autotuning for transposed #BLAS_dusmv, #BLAS_zusmv, #BLAS_susmv, #BLAS_cusmv. See #blas_rsb_spmv_autotuning_on. (EXPERIMENTAL) */
blas_rsb_spmv_t_autotuning_off = 6665, /*!< Turn on executing threads autotuning for transposed #BLAS_dusmv, #BLAS_zusmv, #BLAS_susmv, #BLAS_cusmv. See #blas_rsb_spmv_autotuning_on. (EXPERIMENTAL) */
blas_rsb_autotune_next_operation= 6666, /*!< Turn on executing threads autotuning for the next operation among #BLAS_dusmv, #BLAS_zusmv, #BLAS_susmv, #BLAS_cusmv). See #blas_rsb_spmv_autotuning_on. (EXPERIMENTAL) */
blas_rsb_rep_rsb = 9995, /*!< Request/check for RSB representation. */
blas_rsb_rep_csr = 9996, /*!< Request/check for CSR representation. */
blas_rsb_rep_coo = 9997, /*!< Request/check for COO representation. */
blas_rsb_duplicates_ovw = 9998, /*!< Request/check for duplicate nonzeroes overwriting policy. */
blas_rsb_duplicates_sum = 9999 /*!< Request/check for duplicate nonzeroes summation policy. */
};
#endif
/* BLAS_ENUM_H */
/** the sparse matrix descriptor type */
typedef int blas_sparse_matrix;
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/* Level 1 Computational Routines */
int BLAS_susdot(enum blas_conj_type conj, int nnz, const float * x,
const int *indx, const float * y, int incy, float * r,
enum blas_base_type index_base);
void blas_susdot_(enum blas_conj_type*conj,int*nnz,const float *x,const int *indx,const float *y,int*incy,float *r,enum blas_base_type*index_base,int*istat);
int BLAS_dusdot(enum blas_conj_type conj, int nnz, const double * x,
const int *indx, const double * y, int incy, double * r,
enum blas_base_type index_base);
void blas_dusdot_(enum blas_conj_type*conj,int*nnz,const double *x,const int *indx,const double *y,int*incy,double *r,enum blas_base_type*index_base,int*istat);
int BLAS_cusdot(enum blas_conj_type conj, int nnz, const void *x,
const int *indx, const void *y, int incy, void *r,
enum blas_base_type index_base);
void blas_cusdot_(enum blas_conj_type*conj,int*nnz,const void *x,const int *indx,const void *y,int*incy,void *r,enum blas_base_type*index_base,int*istat);
int BLAS_zusdot(enum blas_conj_type conj, int nnz, const void *x,
const int *indx, const void *y, int incy, void *r,
enum blas_base_type index_base);
void blas_zusdot_(enum blas_conj_type*conj,int*nnz,const void *x,const int *indx,const void *y,int*incy,void *r,enum blas_base_type*index_base,int*istat);
int BLAS_susaxpy(int nnz, float alpha, const float * x, const int *indx,
float * y, int incy, enum blas_base_type index_base);
void blas_susaxpy_(int*nnz,float*alpha,const float *x,const int *indx,float *y,int*incy,enum blas_base_type*index_base,int*istat);
int BLAS_dusaxpy(int nnz, double alpha, const double * x, const int *indx,
double * y, int incy, enum blas_base_type index_base);
void blas_dusaxpy_(int*nnz,double*alpha,const double *x,const int *indx,double *y,int*incy,enum blas_base_type*index_base,int*istat);
int BLAS_cusaxpy(int nnz, const void * alpha, const void *x, const int *indx,
void *y, int incy, enum blas_base_type index_base);
void blas_cusaxpy_(int*nnz,const void *alpha,const void *x,const int *indx,void *y,int*incy,enum blas_base_type*index_base,int*istat);
int BLAS_zusaxpy(int nnz, const void * alpha, const void *x, const int *indx,
void *y, int incy, enum blas_base_type index_base);
void blas_zusaxpy_(int*nnz,const void *alpha,const void *x,const int *indx,void *y,int*incy,enum blas_base_type*index_base,int*istat);
int BLAS_susga(int nnz, const float * y, int incy, float * x, const int *indx,
enum blas_base_type index_base);
void blas_susga_(int*nnz,const float *y,int*incy,float *x,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_dusga(int nnz, const double * y, int incy, double * x, const int *indx,
enum blas_base_type index_base);
void blas_dusga_(int*nnz,const double *y,int*incy,double *x,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_cusga(int nnz, const void *y, int incy, void *x, const int *indx,
enum blas_base_type index_base);
void blas_cusga_(int*nnz,const void *y,int*incy,void *x,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_zusga(int nnz, const void *y, int incy, void *x, const int *indx,
enum blas_base_type index_base);
void blas_zusga_(int*nnz,const void *y,int*incy,void *x,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_susgz(int nnz, float * y, int incy, float * x, const int *indx,
enum blas_base_type index_base);
void blas_susgz_(int*nnz,float *y,int*incy,float *x,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_dusgz(int nnz, double * y, int incy, double * x, const int *indx,
enum blas_base_type index_base);
void blas_dusgz_(int*nnz,double *y,int*incy,double *x,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_cusgz(int nnz, void *y, int incy, void *x, const int *indx,
enum blas_base_type index_base);
void blas_cusgz_(int*nnz,void *y,int*incy,void *x,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_zusgz(int nnz, void *y, int incy, void *x, const int *indx,
enum blas_base_type index_base);
void blas_zusgz_(int*nnz,void *y,int*incy,void *x,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_sussc(int nnz, const float * x, float * y, int incy, const int *indx,
enum blas_base_type index_base);
void blas_sussc_(int*nnz,const float *x,float *y,int*incy,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_dussc(int nnz, const double * x, double * y, int incy, const int *indx,
enum blas_base_type index_base);
void blas_dussc_(int*nnz,const double *x,double *y,int*incy,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_cussc(int nnz, const void *x, void *y, int incy, const int *indx,
enum blas_base_type index_base);
void blas_cussc_(int*nnz,const void *x,void *y,int*incy,const int *indx,enum blas_base_type*index_base,int*istat);
int BLAS_zussc(int nnz, const void *x, void *y, int incy, const int *indx,
enum blas_base_type index_base);
void blas_zussc_(int*nnz,const void *x,void *y,int*incy,const int *indx,enum blas_base_type*index_base,int*istat);
/* Level 2 Computational Routines */
int BLAS_susmv(enum blas_trans_type transA, float alpha,
blas_sparse_matrix A, const float * x, int incx, float * y, int incy);
void blas_susmv_(enum blas_trans_type*transA,float*alpha,blas_sparse_matrix*A,const float *x,int*incx,float *y,int*incy,int*istat);
int BLAS_dusmv(enum blas_trans_type transA, double alpha,
blas_sparse_matrix A, const double * x, int incx, double * y, int incy);
void blas_dusmv_(enum blas_trans_type*transA,double*alpha,blas_sparse_matrix*A,const double *x,int*incx,double *y,int*incy,int*istat);
int BLAS_cusmv(enum blas_trans_type transA, const void *alpha,
blas_sparse_matrix A, const void *x, int incx, void *y, int incy);
void blas_cusmv_(enum blas_trans_type*transA,const void *alpha,blas_sparse_matrix*A,const void *x,int*incx,void *y,int*incy,int*istat);
int BLAS_zusmv(enum blas_trans_type transA, const void *alpha,
blas_sparse_matrix A, const void *x, int incx, void *y, int incy);
void blas_zusmv_(enum blas_trans_type*transA,const void *alpha,blas_sparse_matrix*A,const void *x,int*incx,void *y,int*incy,int*istat);
int BLAS_sussv(enum blas_trans_type transT, float alpha,
blas_sparse_matrix T, float * x, int incx);
void blas_sussv_(enum blas_trans_type*transT,float*alpha,blas_sparse_matrix*T,float *x,int*incx,int*istat);
int BLAS_dussv(enum blas_trans_type transT, double alpha,
blas_sparse_matrix T, double * x, int incx);
void blas_dussv_(enum blas_trans_type*transT,double*alpha,blas_sparse_matrix*T,double *x,int*incx,int*istat);
int BLAS_cussv(enum blas_trans_type transT, const void *alpha,
blas_sparse_matrix T, void *x, int incx);
void blas_cussv_(enum blas_trans_type*transT,const void *alpha,blas_sparse_matrix*T,void *x,int*incx,int*istat);
int BLAS_zussv(enum blas_trans_type transT, const void *alpha,
blas_sparse_matrix T, void *x, int incx);
void blas_zussv_(enum blas_trans_type*transT,const void *alpha,blas_sparse_matrix*T,void *x,int*incx,int*istat);
/* Level 3 Computational Routines */
int BLAS_susmm(enum blas_order_type order, enum blas_trans_type transA,
int nrhs, float alpha, blas_sparse_matrix A, const float * b, int ldb,
float * c, int ldc);
void blas_susmm_(enum blas_order_type*order,enum blas_trans_type*transA,int*nrhs,float*alpha,blas_sparse_matrix*A,const float *b,int*ldb,float *c,int*ldc,int*istat);
int BLAS_dusmm(enum blas_order_type order, enum blas_trans_type transA,
int nrhs, double alpha, blas_sparse_matrix A, const double * b, int ldb,
double * c, int ldc);
void blas_dusmm_(enum blas_order_type*order,enum blas_trans_type*transA,int*nrhs,double*alpha,blas_sparse_matrix*A,const double *b,int*ldb,double *c,int*ldc,int*istat);
int BLAS_cusmm(enum blas_order_type order, enum blas_trans_type transA,
int nrhs, const void *alpha, blas_sparse_matrix A, const void *b, int ldb,
void * c, int ldc);
void blas_cusmm_(enum blas_order_type*order,enum blas_trans_type*transA,int*nrhs,const void *alpha,blas_sparse_matrix*A,const void *b,int*ldb,void *c,int*ldc,int*istat);
int BLAS_zusmm(enum blas_order_type order, enum blas_trans_type transA,
int nrhs, const void *alpha, blas_sparse_matrix A, const void *b, int ldb,
void * c, int ldc);
void blas_zusmm_(enum blas_order_type*order,enum blas_trans_type*transA,int*nrhs,const void *alpha,blas_sparse_matrix*A,const void *b,int*ldb,void *c,int*ldc,int*istat);
int BLAS_sussm(enum blas_order_type order, enum blas_trans_type transT,
int nrhs, float alpha, blas_sparse_matrix T, float * b, int ldb);
void blas_sussm_(enum blas_order_type*order,enum blas_trans_type*transT,int*nrhs,float*alpha,blas_sparse_matrix*T,float *b,int*ldb,int*istat);
int BLAS_dussm(enum blas_order_type order, enum blas_trans_type transT,
int nrhs, double alpha, blas_sparse_matrix T, double * b, int ldb);
void blas_dussm_(enum blas_order_type*order,enum blas_trans_type*transT,int*nrhs,double*alpha,blas_sparse_matrix*T,double *b,int*ldb,int*istat);
int BLAS_cussm(enum blas_order_type order, enum blas_trans_type transT,
int nrhs, const void *alpha, blas_sparse_matrix T, void *b, int ldb);
void blas_cussm_(enum blas_order_type*order,enum blas_trans_type*transT,int*nrhs,const void *alpha,blas_sparse_matrix*T,void *b,int*ldb,int*istat);
int BLAS_zussm(enum blas_order_type order, enum blas_trans_type transT,
int nrhs, const void *alpha, blas_sparse_matrix T, void *b, int ldb);
void blas_zussm_(enum blas_order_type*order,enum blas_trans_type*transT,int*nrhs,const void *alpha,blas_sparse_matrix*T,void *b,int*ldb,int*istat);
/* Handle Management Routines */
/* + */
/* Creation Routines */
/* + */
/* Insertion Routines */
/* + */
/* Completion of Construction Routines */
/* + */
/* Matrix Property Routines */
/* + */
/* Destruction Routine */
blas_sparse_matrix BLAS_suscr_begin(int m, int n);
void blas_suscr_begin_(int*m,int*n,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_duscr_begin(int m, int n);
void blas_duscr_begin_(int*m,int*n,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_cuscr_begin(int m, int n);
void blas_cuscr_begin_(int*m,int*n,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_zuscr_begin(int m, int n);
void blas_zuscr_begin_(int*m,int*n,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_suscr_block_begin(int Mb, int Nb, int k, int l);
void blas_suscr_block_begin_(int*Mb,int*Nb,int*k,int*l,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_duscr_block_begin(int Mb, int Nb, int k, int l);
void blas_duscr_block_begin_(int*Mb,int*Nb,int*k,int*l,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_cuscr_block_begin(int Mb, int Nb, int k, int l);
void blas_cuscr_block_begin_(int*Mb,int*Nb,int*k,int*l,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_zuscr_block_begin(int Mb, int Nb, int k, int l);
void blas_zuscr_block_begin_(int*Mb,int*Nb,int*k,int*l,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_suscr_variable_block_begin(int Mb, int Nb,
const int *K, const int *L);
void blas_suscr_variable_block_begin_(int*Mb,int*Nb,const int *K,const int *L,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_duscr_variable_block_begin(int Mb, int Nb,
const int *K, const int *L);
void blas_duscr_variable_block_begin_(int*Mb,int*Nb,const int *K,const int *L,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_cuscr_variable_block_begin(int Mb, int Nb,
const int *K, const int *L);
void blas_cuscr_variable_block_begin_(int*Mb,int*Nb,const int *K,const int *L,blas_sparse_matrix*A,int*istat);
blas_sparse_matrix BLAS_zuscr_variable_block_begin(int Mb, int Nb,
const int *K, const int *L);
void blas_zuscr_variable_block_begin_(int*Mb,int*Nb,const int *K,const int *L,blas_sparse_matrix*A,int*istat);
int BLAS_suscr_end(blas_sparse_matrix A);
void blas_suscr_end_(blas_sparse_matrix*A,int*istat);
int BLAS_duscr_end(blas_sparse_matrix A);
void blas_duscr_end_(blas_sparse_matrix*A,int*istat);
int BLAS_cuscr_end(blas_sparse_matrix A);
void blas_cuscr_end_(blas_sparse_matrix*A,int*istat);
int BLAS_zuscr_end(blas_sparse_matrix A);
void blas_zuscr_end_(blas_sparse_matrix*A,int*istat);
int BLAS_suscr_insert_entry(blas_sparse_matrix A, float val, int i, int j);
void blas_suscr_insert_entry_(blas_sparse_matrix*A,float*val,int*i,int*j,int*istat);
int BLAS_duscr_insert_entry(blas_sparse_matrix A, double val, int i, int j);
void blas_duscr_insert_entry_(blas_sparse_matrix*A,double*val,int*i,int*j,int*istat);
int BLAS_cuscr_insert_entry(blas_sparse_matrix A, const void * val, int i, int j);
void blas_cuscr_insert_entry_(blas_sparse_matrix*A,const void *val,int*i,int*j,int*istat);
int BLAS_zuscr_insert_entry(blas_sparse_matrix A, const void * val, int i, int j);
void blas_zuscr_insert_entry_(blas_sparse_matrix*A,const void *val,int*i,int*j,int*istat);
int BLAS_suscr_insert_entries(blas_sparse_matrix A, int nnz, const float * val,
const int *indx, const int *jndx);
void blas_suscr_insert_entries_(blas_sparse_matrix*A,int*nnz,const float *val,const int *indx,const int *jndx,int*istat);
int BLAS_duscr_insert_entries(blas_sparse_matrix A, int nnz, const double * val,
const int *indx, const int *jndx);
void blas_duscr_insert_entries_(blas_sparse_matrix*A,int*nnz,const double *val,const int *indx,const int *jndx,int*istat);
int BLAS_cuscr_insert_entries(blas_sparse_matrix A, int nnz, const void *val,
const int *indx, const int *jndx);
void blas_cuscr_insert_entries_(blas_sparse_matrix*A,int*nnz,const void *val,const int *indx,const int *jndx,int*istat);
int BLAS_zuscr_insert_entries(blas_sparse_matrix A, int nnz, const void *val,
const int *indx, const int *jndx);
void blas_zuscr_insert_entries_(blas_sparse_matrix*A,int*nnz,const void *val,const int *indx,const int *jndx,int*istat);
int BLAS_suscr_insert_col(blas_sparse_matrix A, int j, int nnz,
const float * val, const int *indx);
void blas_suscr_insert_col_(blas_sparse_matrix*A,int*j,int*nnz,const float *val,const int *indx,int*istat);
int BLAS_duscr_insert_col(blas_sparse_matrix A, int j, int nnz,
const double * val, const int *indx);
void blas_duscr_insert_col_(blas_sparse_matrix*A,int*j,int*nnz,const double *val,const int *indx,int*istat);
int BLAS_cuscr_insert_col(blas_sparse_matrix A, int j, int nnz,
const void *val, const int *indx);
void blas_cuscr_insert_col_(blas_sparse_matrix*A,int*j,int*nnz,const void *val,const int *indx,int*istat);
int BLAS_zuscr_insert_col(blas_sparse_matrix A, int j, int nnz,
const void *val, const int *indx);
void blas_zuscr_insert_col_(blas_sparse_matrix*A,int*j,int*nnz,const void *val,const int *indx,int*istat);
int BLAS_suscr_insert_row(blas_sparse_matrix A, int i, int nnz,
const float * val, const int *indx);
void blas_suscr_insert_row_(blas_sparse_matrix*A,int*i,int*nnz,const float *val,const int *indx,int*istat);
int BLAS_duscr_insert_row(blas_sparse_matrix A, int i, int nnz,
const double * val, const int *indx);
void blas_duscr_insert_row_(blas_sparse_matrix*A,int*i,int*nnz,const double *val,const int *indx,int*istat);
int BLAS_cuscr_insert_row(blas_sparse_matrix A, int i, int nnz,
const void *val, const int *indx);
void blas_cuscr_insert_row_(blas_sparse_matrix*A,int*i,int*nnz,const void *val,const int *indx,int*istat);
int BLAS_zuscr_insert_row(blas_sparse_matrix A, int i, int nnz,
const void *val, const int *indx);
void blas_zuscr_insert_row_(blas_sparse_matrix*A,int*i,int*nnz,const void *val,const int *indx,int*istat);
int BLAS_suscr_insert_clique(blas_sparse_matrix A, const int k, const int l,
const float * val, const int row_stride,
const int col_stride, const int *indx,
const int *jndx);
void blas_suscr_insert_clique_(blas_sparse_matrix*A,const int*k,const int*l,const float *val,const int*row_stride,const int*col_stride,const int *indx,const int *jndx,int*istat);
int BLAS_duscr_insert_clique(blas_sparse_matrix A, const int k, const int l,
const double * val, const int row_stride,
const int col_stride, const int *indx,
const int *jndx);
void blas_duscr_insert_clique_(blas_sparse_matrix*A,const int*k,const int*l,const double *val,const int*row_stride,const int*col_stride,const int *indx,const int *jndx,int*istat);
int BLAS_cuscr_insert_clique(blas_sparse_matrix A, const int k, const int l,
const void *val, const int row_stride,
const int col_stride, const int *indx,
const int *jndx);
void blas_cuscr_insert_clique_(blas_sparse_matrix*A,const int*k,const int*l,const void *val,const int*row_stride,const int*col_stride,const int *indx,const int *jndx,int*istat);
int BLAS_zuscr_insert_clique(blas_sparse_matrix A, const int k, const int l,
const void *val, const int row_stride,
const int col_stride, const int *indx,
const int *jndx);
void blas_zuscr_insert_clique_(blas_sparse_matrix*A,const int*k,const int*l,const void *val,const int*row_stride,const int*col_stride,const int *indx,const int *jndx,int*istat);
int BLAS_suscr_insert_block(blas_sparse_matrix A, const float * val,
int row_stride, int col_stride, int i, int j);
void blas_suscr_insert_block_(blas_sparse_matrix*A,const float *val,int*row_stride,int*col_stride,int*i,int*j,int*istat);
int BLAS_duscr_insert_block(blas_sparse_matrix A, const double * val,
int row_stride, int col_stride, int i, int j);
void blas_duscr_insert_block_(blas_sparse_matrix*A,const double *val,int*row_stride,int*col_stride,int*i,int*j,int*istat);
int BLAS_cuscr_insert_block(blas_sparse_matrix A, const void *val,
int row_stride, int col_stride, int i, int j);
void blas_cuscr_insert_block_(blas_sparse_matrix*A,const void *val,int*row_stride,int*col_stride,int*i,int*j,int*istat);
int BLAS_zuscr_insert_block(blas_sparse_matrix A, const void *val,
int row_stride, int col_stride, int i, int j);
void blas_zuscr_insert_block_(blas_sparse_matrix*A,const void *val,int*row_stride,int*col_stride,int*i,int*j,int*istat);
int BLAS_uscr_end(blas_sparse_matrix A);
void blas_uscr_end_(blas_sparse_matrix*A,int*istat);
int BLAS_usds(blas_sparse_matrix A);
void blas_usds_(blas_sparse_matrix*A,int*istat);
int BLAS_susrows_scale(blas_sparse_matrix A,const float * d, enum blas_trans_type trans);
void blas_susrows_scale_(blas_sparse_matrix*A,const float *d,enum blas_trans_type*trans,int*istat);
int BLAS_dusrows_scale(blas_sparse_matrix A,const double * d, enum blas_trans_type trans);
void blas_dusrows_scale_(blas_sparse_matrix*A,const double *d,enum blas_trans_type*trans,int*istat);
int BLAS_cusrows_scale(blas_sparse_matrix A,const void * d, enum blas_trans_type trans);
void blas_cusrows_scale_(blas_sparse_matrix*A,const void *d,enum blas_trans_type*trans,int*istat);
int BLAS_zusrows_scale(blas_sparse_matrix A,const void * d, enum blas_trans_type trans);
void blas_zusrows_scale_(blas_sparse_matrix*A,const void *d,enum blas_trans_type*trans,int*istat);
int BLAS_susget_diag(blas_sparse_matrix A,float * d);
void blas_susget_diag_(blas_sparse_matrix*A,float *d,int*istat);
int BLAS_dusget_diag(blas_sparse_matrix A,double * d);
void blas_dusget_diag_(blas_sparse_matrix*A,double *d,int*istat);
int BLAS_cusget_diag(blas_sparse_matrix A,void * d);
void blas_cusget_diag_(blas_sparse_matrix*A,void *d,int*istat);
int BLAS_zusget_diag(blas_sparse_matrix A,void * d);
void blas_zusget_diag_(blas_sparse_matrix*A,void *d,int*istat);
int BLAS_susget_rows_nnz(blas_sparse_matrix A, int fr, int lr, int * nnzp);
void blas_susget_rows_nnz_(blas_sparse_matrix*A,int*fr,int*lr,int *nnzp,int*istat);
int BLAS_dusget_rows_nnz(blas_sparse_matrix A, int fr, int lr, int * nnzp);
void blas_dusget_rows_nnz_(blas_sparse_matrix*A,int*fr,int*lr,int *nnzp,int*istat);
int BLAS_cusget_rows_nnz(blas_sparse_matrix A, int fr, int lr, int * nnzp);
void blas_cusget_rows_nnz_(blas_sparse_matrix*A,int*fr,int*lr,int *nnzp,int*istat);
int BLAS_zusget_rows_nnz(blas_sparse_matrix A, int fr, int lr, int * nnzp);
void blas_zusget_rows_nnz_(blas_sparse_matrix*A,int*fr,int*lr,int *nnzp,int*istat);
int BLAS_susget_rows_sparse(blas_sparse_matrix A, float * VA, int * IA, int * JA, int * nnz, int fr, int lr);
void blas_susget_rows_sparse_(blas_sparse_matrix*A,float *VA,int *IA,int *JA,int *nnz,int*fr,int*lr,int*istat);
int BLAS_dusget_rows_sparse(blas_sparse_matrix A, double * VA, int * IA, int * JA, int * nnz, int fr, int lr);
void blas_dusget_rows_sparse_(blas_sparse_matrix*A,double *VA,int *IA,int *JA,int *nnz,int*fr,int*lr,int*istat);
int BLAS_cusget_rows_sparse(blas_sparse_matrix A, void * VA, int * IA, int * JA, int * nnz, int fr, int lr);
void blas_cusget_rows_sparse_(blas_sparse_matrix*A,void *VA,int *IA,int *JA,int *nnz,int*fr,int*lr,int*istat);
int BLAS_zusget_rows_sparse(blas_sparse_matrix A, void * VA, int * IA, int * JA, int * nnz, int fr, int lr);
void blas_zusget_rows_sparse_(blas_sparse_matrix*A,void *VA,int *IA,int *JA,int *nnz,int*fr,int*lr,int*istat);
int BLAS_susget_matrix_nnz(blas_sparse_matrix A,int * nnz);
void blas_susget_matrix_nnz_(blas_sparse_matrix*A,int *nnz,int*istat);
int BLAS_dusget_matrix_nnz(blas_sparse_matrix A,int * nnz);
void blas_dusget_matrix_nnz_(blas_sparse_matrix*A,int *nnz,int*istat);
int BLAS_cusget_matrix_nnz(blas_sparse_matrix A,int * nnz);
void blas_cusget_matrix_nnz_(blas_sparse_matrix*A,int *nnz,int*istat);
int BLAS_zusget_matrix_nnz(blas_sparse_matrix A,int * nnz);
void blas_zusget_matrix_nnz_(blas_sparse_matrix*A,int *nnz,int*istat);
int BLAS_susget_infinity_norm(blas_sparse_matrix A,float * in, enum blas_trans_type trans);
void blas_susget_infinity_norm_(blas_sparse_matrix*A,float *in,enum blas_trans_type*trans,int*istat);
int BLAS_dusget_infinity_norm(blas_sparse_matrix A,double * in, enum blas_trans_type trans);
void blas_dusget_infinity_norm_(blas_sparse_matrix*A,double *in,enum blas_trans_type*trans,int*istat);
int BLAS_cusget_infinity_norm(blas_sparse_matrix A,void *in, enum blas_trans_type trans);
void blas_cusget_infinity_norm_(blas_sparse_matrix*A,void *in,enum blas_trans_type*trans,int*istat);
int BLAS_zusget_infinity_norm(blas_sparse_matrix A,void *in, enum blas_trans_type trans);
void blas_zusget_infinity_norm_(blas_sparse_matrix*A,void *in,enum blas_trans_type*trans,int*istat);
int BLAS_susset_elements(blas_sparse_matrix A,const int * ia, const int *ja, const float * va, int nnz);
void blas_susset_elements_(blas_sparse_matrix*A,const int *ia,const int *ja,const float *va,int*nnz,int*istat);
int BLAS_dusset_elements(blas_sparse_matrix A,const int * ia, const int *ja, const double * va, int nnz);
void blas_dusset_elements_(blas_sparse_matrix*A,const int *ia,const int *ja,const double *va,int*nnz,int*istat);
int BLAS_cusset_elements(blas_sparse_matrix A,const int * ia, const int *ja, const void * va, int nnz);
void blas_cusset_elements_(blas_sparse_matrix*A,const int *ia,const int *ja,const void *va,int*nnz,int*istat);
int BLAS_zusset_elements(blas_sparse_matrix A,const int * ia, const int *ja, const void * va, int nnz);
void blas_zusset_elements_(blas_sparse_matrix*A,const int *ia,const int *ja,const void *va,int*nnz,int*istat);
int BLAS_susset_element(blas_sparse_matrix A,int i, int j, float * v);
void blas_susset_element_(blas_sparse_matrix*A,int*i,int*j,float *v,int*istat);
int BLAS_dusset_element(blas_sparse_matrix A,int i, int j, double * v);
void blas_dusset_element_(blas_sparse_matrix*A,int*i,int*j,double *v,int*istat);
int BLAS_cusset_element(blas_sparse_matrix A,int i, int j, void * v);
void blas_cusset_element_(blas_sparse_matrix*A,int*i,int*j,void *v,int*istat);
int BLAS_zusset_element(blas_sparse_matrix A,int i, int j, void * v);
void blas_zusset_element_(blas_sparse_matrix*A,int*i,int*j,void *v,int*istat);
int BLAS_susget_element(blas_sparse_matrix A,int i, int j, float * v);
void blas_susget_element_(blas_sparse_matrix*A,int*i,int*j,float *v,int*istat);
int BLAS_dusget_element(blas_sparse_matrix A,int i, int j, double * v);
void blas_dusget_element_(blas_sparse_matrix*A,int*i,int*j,double *v,int*istat);
int BLAS_cusget_element(blas_sparse_matrix A,int i, int j, void * v);
void blas_cusget_element_(blas_sparse_matrix*A,int*i,int*j,void *v,int*istat);
int BLAS_zusget_element(blas_sparse_matrix A,int i, int j, void * v);
void blas_zusget_element_(blas_sparse_matrix*A,int*i,int*j,void *v,int*istat);
#define BLAS_ussp rsb_wp__BLAS_ussp
#define BLAS_usgp rsb_wp__BLAS_usgp
int BLAS_ussp( blas_sparse_matrix A, int pname );
int BLAS_usgp( blas_sparse_matrix A, int pname );
blas_sparse_matrix rsb_load_spblas_matrix_file_as_matrix_market(const rsb_char_t * filename, rsb_type_t typecode ); /* This is a librsb extension. */
struct rsb_mtx_t * rsb_blas_get_mtx(blas_sparse_matrix A);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* RSB_LIBSPBLAS_H_INCLUDED */
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