FLA_Error FLA_Eig_gest_check( FLA_Inv inv, FLA_Uplo uplo, FLA_Obj A, FLA_Obj B ) { FLA_Error e_val; e_val = FLA_Check_valid_inverse( inv ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_uplo( uplo ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( B ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Tridiag_UT_extract_real_diagonals_check( FLA_Uplo uplo, FLA_Obj A, FLA_Obj d, FLA_Obj e ) { FLA_Error e_val; dim_t m_A; e_val = FLA_Check_valid_uplo( uplo ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( A ); FLA_Check_error_code( e_val ); m_A = FLA_Obj_length( A ); e_val = FLA_Check_nonconstant_object( d ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_precision( A, d ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_vector( d ); FLA_Check_error_code( e_val ); e_val = FLA_Check_vector_dim( d, m_A ); FLA_Check_error_code( e_val ); if ( m_A > 1 ) { e_val = FLA_Check_nonconstant_object( e ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_precision( A, e ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_vector( e ); FLA_Check_error_code( e_val ); e_val = FLA_Check_vector_dim( e, m_A - 1 ); FLA_Check_error_code( e_val ); } return FLA_SUCCESS; }
FLA_Error FLA_Bidiag_UT_extract_real_diagonals_check( FLA_Obj A, FLA_Obj d, FLA_Obj e ) { FLA_Error e_val; dim_t min_m_n; e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); min_m_n = FLA_Obj_min_dim( A ); e_val = FLA_Check_nonconstant_object( d ); FLA_Check_error_code( e_val ); e_val = FLA_Check_real_object( d ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_precision( A, d ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_vector( d ); FLA_Check_error_code( e_val ); e_val = FLA_Check_vector_dim( d, min_m_n ); FLA_Check_error_code( e_val ); if ( min_m_n != 1 ) { e_val = FLA_Check_nonconstant_object( e ); FLA_Check_error_code( e_val ); e_val = FLA_Check_real_object( e ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_precision( A, e ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_vector( e ); FLA_Check_error_code( e_val ); e_val = FLA_Check_vector_dim( e, min_m_n - 1 ); FLA_Check_error_code( e_val ); } return FLA_SUCCESS; }
FLA_Error FLA_Syr_check( FLA_Uplo uplo, FLA_Obj alpha, FLA_Obj x, FLA_Obj A ) { FLA_Error e_val; e_val = FLA_Check_valid_uplo( uplo ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, x ); FLA_Check_error_code( e_val ); e_val = FLA_Check_consistent_object_datatype( A, alpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_vector( x ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( alpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_vector_dims( FLA_TRANSPOSE, A, x, x ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Apply_QUD_UT_check( FLA_Side side, FLA_Trans trans, FLA_Direct direct, FLA_Store storev, FLA_Obj T, FLA_Obj W, FLA_Obj R, FLA_Obj U, FLA_Obj C, FLA_Obj V, FLA_Obj D ) { FLA_Error e_val; e_val = FLA_Check_valid_leftright_side( side ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_trans( trans ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_direct( direct ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_storev( storev ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( R ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( R ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( R, T ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( R, W ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( R, U ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( R, C ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( R, V ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( R, D ); FLA_Check_error_code( e_val ); if ( side == FLA_LEFT ) { e_val = FLA_Check_object_width_equals( T, FLA_Obj_width( U ) ); FLA_Check_error_code( e_val ); e_val = FLA_Check_object_width_equals( W, FLA_Obj_width( R ) ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_matrix_dims( FLA_NO_TRANSPOSE, FLA_NO_TRANSPOSE, U, R, C ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_matrix_dims( FLA_NO_TRANSPOSE, FLA_NO_TRANSPOSE, V, R, D ); FLA_Check_error_code( e_val ); } else { } return FLA_SUCCESS; }
FLA_Error FLA_Fill_with_linear_dist_check( FLA_Obj shift, FLA_Obj delta, FLA_Obj x ) { FLA_Error e_val; e_val = FLA_Check_floating_object( x ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( x ); FLA_Check_error_code( e_val ); e_val = FLA_Check_real_object( shift ); FLA_Check_error_code( e_val ); e_val = FLA_Check_consistent_object_datatype( shift, delta ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_precision( x, delta ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( shift ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( delta ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_vector( x ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Chol_solve_check( FLA_Uplo uplo, FLA_Obj A, FLA_Obj B, FLA_Obj X ) { FLA_Error e_val; e_val = FLA_Check_valid_uplo( uplo ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, X ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_matrix_dims( FLA_NO_TRANSPOSE, FLA_NO_TRANSPOSE, A, X, B ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Axpyrt_check( FLA_Uplo uplo, FLA_Trans trans, FLA_Obj alpha, FLA_Obj A, FLA_Obj B ) { FLA_Error e_val; e_val = FLA_Check_valid_trans( uplo ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_trans( trans ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_consistent_object_datatype( A, alpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( alpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_conformal_dims( trans, A, B ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Trmv_check( FLA_Uplo uplo, FLA_Trans transa, FLA_Diag diag, FLA_Obj A, FLA_Obj x ) { FLA_Error e_val; e_val = FLA_Check_valid_uplo( uplo ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_trans( transa ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_diag( diag ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, x ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_vector( x ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_vector_dims( FLA_NO_TRANSPOSE, A, x, x ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_LU_piv_solve_check( FLA_Obj A, FLA_Obj p, FLA_Obj B, FLA_Obj X ) { FLA_Error e_val; e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, X ); FLA_Check_error_code( e_val ); e_val = FLA_Check_int_object( p ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_col_vector( p ); FLA_Check_error_code( e_val ); e_val = FLA_Check_vector_dim_min( p, FLA_Obj_min_dim( A ) ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_matrix_dims( FLA_NO_TRANSPOSE, FLA_NO_TRANSPOSE, A, X, B ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_UDdate_UT_check( FLA_Obj R, FLA_Obj C, FLA_Obj D, FLA_Obj T ) { FLA_Error e_val; e_val = FLA_Check_floating_object( R ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( R ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( R, C ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( R, D ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( R, T ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( R ); FLA_Check_error_code( e_val ); e_val = FLA_Check_object_width_equals( R, FLA_Obj_width( C ) ); FLA_Check_error_code( e_val ); e_val = FLA_Check_object_width_equals( R, FLA_Obj_width( D ) ); FLA_Check_error_code( e_val ); e_val = FLA_Check_object_width_equals( R, FLA_Obj_width( T ) ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Scalc_check( FLA_Conj conjalpha, FLA_Obj alpha, FLA_Obj A ) { FLA_Error e_val; e_val = FLA_Check_valid_conj( conjalpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); if ( FLA_Obj_is_real( A ) ) { e_val = FLA_Check_consistent_object_datatype( A, alpha ); FLA_Check_error_code( e_val ); } else { e_val = FLA_Check_identical_object_precision( A, alpha ); FLA_Check_error_code( e_val ); } e_val = FLA_Check_if_scalar( alpha ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_QR_UT_solve_check( FLA_Obj A, FLA_Obj T, FLA_Obj B, FLA_Obj X ) { FLA_Error e_val; e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, T ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, X ); FLA_Check_error_code( e_val ); e_val = FLA_Check_object_width_equals( T, FLA_Obj_min_dim( A ) ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_matrix_dims( FLA_NO_TRANSPOSE, FLA_NO_TRANSPOSE, A, X, B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_object_length_min( A, FLA_Obj_width( A ) ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Dotc_check( FLA_Conj conj, FLA_Obj x, FLA_Obj y, FLA_Obj rho ) { FLA_Error e_val; e_val = FLA_Check_valid_conj( conj ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( x ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( x ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( x, y ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( x, rho ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_vector( x ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_vector( y ); FLA_Check_error_code( e_val ); e_val = FLA_Check_equal_vector_dims( x, y ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Tridiag_check( FLA_Uplo uplo, FLA_Obj A, FLA_Obj t ) { FLA_Error e_val; e_val = FLA_Check_valid_uplo( uplo ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, t ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_col_vector( t ); FLA_Check_error_code( e_val ); e_val = FLA_Check_col_storage( t ); FLA_Check_error_code( e_val ); e_val = FLA_Check_vector_dim_min( t, FLA_Obj_length( A ) - 1 ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Apply_G_1x2_check( FLA_Obj gamma, FLA_Obj sigma, FLA_Obj beta, FLA_Obj epsilon ) { FLA_Error e_val; e_val = FLA_Check_nonconstant_object( gamma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_real_object( gamma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( gamma, sigma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( gamma, beta ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( gamma, epsilon ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( gamma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( sigma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( beta ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( epsilon ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_QR2_UT_check( FLA_Obj B, FLA_Obj D, FLA_Obj T ) { FLA_Error e_val; e_val = FLA_Check_floating_object( B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( B, D ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( B, T ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_matrix_dims( FLA_NO_TRANSPOSE, FLA_NO_TRANSPOSE, D, B, D ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_matrix_dims( FLA_NO_TRANSPOSE, FLA_NO_TRANSPOSE, T, B, T ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Apply_CAQ_UT_inc_check( FLA_Side side, FLA_Trans trans, FLA_Direct direct, FLA_Store storev, FLA_Obj A, FLA_Obj ATW, FLA_Obj R, FLA_Obj RTW, FLA_Obj W, FLA_Obj B ) { FLA_Error e_val; e_val = FLA_Check_valid_leftright_side( side ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_trans( trans ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_direct( direct ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_storev( storev ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, ATW ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, R ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, RTW ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, W ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_conformal_dims( FLA_NO_TRANSPOSE, A, ATW ); FLA_Check_error_code( e_val ); e_val = FLA_Check_conformal_dims( FLA_NO_TRANSPOSE, A, R ); FLA_Check_error_code( e_val ); e_val = FLA_Check_conformal_dims( FLA_NO_TRANSPOSE, A, RTW ); FLA_Check_error_code( e_val ); if ( side == FLA_LEFT ) { e_val = FLA_Check_object_length_equals( B, FLA_Obj_length( A ) ); FLA_Check_error_code( e_val ); } else { FLA_Check_error_code( FLA_NOT_YET_IMPLEMENTED ); } return FLA_SUCCESS; }
FLA_Error FLA_Introduce_bulge_check( FLA_Obj shift, FLA_Obj gamma, FLA_Obj sigma, FLA_Obj delta1, FLA_Obj epsilon1, FLA_Obj delta2, FLA_Obj beta, FLA_Obj epsilon2 ) { FLA_Error e_val; e_val = FLA_Check_nonconstant_object( delta1 ); FLA_Check_error_code( e_val ); e_val = FLA_Check_real_object( delta1 ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( delta1, shift ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( delta1, gamma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( delta1, sigma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( delta1, epsilon1 ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( delta1, delta2 ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( delta1, beta ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( delta1, epsilon2 ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( shift ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( gamma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( sigma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( delta1 ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( epsilon1 ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( delta2 ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( beta ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( epsilon2 ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Axpy_buffer_to_object_check( FLA_Trans trans, FLA_Obj alpha, dim_t m, dim_t n, void* A_buffer, dim_t rs, dim_t cs, dim_t i, dim_t j, FLA_Obj B ) { FLA_Error e_val; e_val = FLA_Check_valid_real_trans( trans ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_consistent_object_datatype( B, alpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( alpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_null_pointer( A_buffer ); FLA_Check_error_code( e_val ); e_val = FLA_Check_object_dims( trans, m, n, B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_strides( m, n, rs, cs ); FLA_Check_error_code( e_val ); if ( trans == FLA_NO_TRANSPOSE ) { e_val = FLA_Check_submatrix_dims_and_offset( m, n, i, j, B ); FLA_Check_error_code( e_val ); } else { e_val = FLA_Check_submatrix_dims_and_offset( n, m, i, j, B ); FLA_Check_error_code( e_val ); } e_val = FLA_Check_nonconstant_object( B ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Trmmsx_check( FLA_Side side, FLA_Uplo uplo, FLA_Trans trans, FLA_Diag diag, FLA_Obj alpha, FLA_Obj A, FLA_Obj B, FLA_Obj beta, FLA_Obj C ) { FLA_Error e_val; e_val = FLA_Check_valid_leftright_side( side ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_uplo( uplo ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_trans( trans ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_diag( diag ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, B ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_datatype( A, C ); FLA_Check_error_code( e_val ); e_val = FLA_Check_consistent_object_datatype( A, alpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_consistent_object_datatype( A, beta ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( alpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( beta ); FLA_Check_error_code( e_val ); e_val = FLA_Check_square( A ); FLA_Check_error_code( e_val ); if ( side == FLA_LEFT ) { e_val = FLA_Check_matrix_matrix_dims( FLA_NO_TRANSPOSE, FLA_NO_TRANSPOSE, A, B, C ); FLA_Check_error_code( e_val ); } else { e_val = FLA_Check_matrix_matrix_dims( FLA_NO_TRANSPOSE, FLA_NO_TRANSPOSE, B, A, C ); FLA_Check_error_code( e_val ); } return FLA_SUCCESS; }
FLA_Error FLA_Negate_check( FLA_Obj x ) { FLA_Error e_val; e_val = FLA_Check_floating_object( x ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( x ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Set_to_identity_check( FLA_Obj A ) { FLA_Error e_val; e_val = FLA_Check_valid_object_datatype( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Obj_has_nan_check( FLA_Obj A ) { FLA_Error e_val; e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Apply_G_check( FLA_Side side, FLA_Direct direct, FLA_Obj G, FLA_Obj A ) { FLA_Error e_val; e_val = FLA_Check_valid_leftright_side( side ); FLA_Check_error_code( e_val ); e_val = FLA_Check_valid_direct( direct ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( G ); FLA_Check_error_code( e_val ); e_val = FLA_Check_complex_object( G ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_precision( G, A ); FLA_Check_error_code( e_val ); if ( side == FLA_LEFT ) { e_val = FLA_Check_object_length_equals( G, FLA_Obj_length( A ) - 1 ); FLA_Check_error_code( e_val ); } else // if ( side == FLA_RIGHT ) { e_val = FLA_Check_object_length_equals( G, FLA_Obj_width( A ) - 1 ); FLA_Check_error_code( e_val ); } return FLA_SUCCESS; }
FLA_Error FLA_Copy_object_to_buffer_check( FLA_Trans trans, dim_t i, dim_t j, FLA_Obj A, dim_t m, dim_t n, void* B_buffer, dim_t rs, dim_t cs ) { FLA_Error e_val; e_val = FLA_Check_valid_real_trans( trans ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_null_pointer( B_buffer ); FLA_Check_error_code( e_val ); e_val = FLA_Check_object_dims( trans, m, n, A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_matrix_strides( m, n, rs, cs ); FLA_Check_error_code( e_val ); if ( trans == FLA_NO_TRANSPOSE ) { e_val = FLA_Check_submatrix_dims_and_offset( m, n, i, j, A ); FLA_Check_error_code( e_val ); } else { e_val = FLA_Check_submatrix_dims_and_offset( n, m, i, j, A ); FLA_Check_error_code( e_val ); } e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Absolute_square_check( FLA_Obj alpha ) { FLA_Error e_val; e_val = FLA_Check_floating_object( alpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( alpha ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( alpha ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Obj_datatype_proj_to_real_check( FLA_Obj obj ) { FLA_Error e_val; e_val = FLA_Check_null_pointer( obj.base ); FLA_Check_error_code( e_val ); e_val = FLA_Check_floating_object( obj ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( obj ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_Svd_compute_scaling_check( FLA_Obj A, FLA_Obj sigma ) { FLA_Error e_val; e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_real_object( sigma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( sigma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_identical_object_precision( A, sigma ); FLA_Check_error_code( e_val ); e_val = FLA_Check_if_scalar( sigma ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }
FLA_Error FLA_LU_find_zero_on_diagonal_check( FLA_Obj A ) { FLA_Error e_val; e_val = FLA_Check_floating_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_nonconstant_object( A ); FLA_Check_error_code( e_val ); e_val = FLA_Check_object_scalar_elemtype( A ); FLA_Check_error_code( e_val ); return FLA_SUCCESS; }