/* Copyright 2010 SINTEF ICT, Applied Mathematics. This file is part of the Open Porous Media project (OPM). OPM is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. OPM 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 General Public License for more details. You should have received a copy of the GNU General Public License along with OPM. If not, see . */ #include #include #include #include "sparse_sys.h" /* ---------------------------------------------------------------------- */ struct CSRMatrix * csrmatrix_new_count_nnz(size_t m) /* ---------------------------------------------------------------------- */ { struct CSRMatrix *new; assert (m > 0); new = malloc(1 * sizeof *new); if (new != NULL) { new->ia = calloc(m + 1, sizeof *new->ia); if (new->ia != NULL) { new->m = m; new->nnz = 0; new->ja = NULL; new->sa = NULL; } else { csrmatrix_delete(new); new = NULL; } } return new; } /* Allocate CSR matrix, known nnz. Allocation only. Caller must * build sparsity structure before using in global assembly. * * Returns fully allocated structure if successful and NULL otherwise. */ /* ---------------------------------------------------------------------- */ struct CSRMatrix * csrmatrix_new_known_nnz(size_t m, size_t nnz) /* ---------------------------------------------------------------------- */ { struct CSRMatrix *new; new = malloc(1 * sizeof *new); if (new != NULL) { new->ia = malloc((m + 1) * sizeof *new->ia); new->ja = malloc(nnz * sizeof *new->ja); new->sa = malloc(nnz * sizeof *new->sa); if ((new->ia == NULL) || (new->ja == NULL) || (new->sa == NULL)) { csrmatrix_delete(new); new = NULL; } else { new->m = m; new->nnz = nnz; } } return new; } /* ---------------------------------------------------------------------- */ size_t csrmatrix_new_elms_pushback(struct CSRMatrix *A) /* ---------------------------------------------------------------------- */ { size_t i; assert (A->ia[0] == 0); /* Elems for row 'i' in bin i+1 ... */ for (i = 1; i <= A->m; i++) { A->ia[0] += A->ia[i]; A->ia[i] = A->ia[0] - A->ia[i]; } A->nnz = A->ia[0]; assert (A->nnz > 0); /* Else not a real system. */ A->ia[0] = 0; A->ja = malloc(A->nnz * sizeof *A->ja); A->sa = malloc(A->nnz * sizeof *A->sa); if ((A->ja == NULL) || (A->sa == NULL)) { free(A->sa); A->sa = NULL; free(A->ja); A->ja = NULL; A->nnz = 0; } return A->nnz; } /* ---------------------------------------------------------------------- */ static int cmp_row_elems(const void *a0, const void *b0) /* ---------------------------------------------------------------------- */ { return *(const int * const)a0 - *(const int * const)b0; } /* ---------------------------------------------------------------------- */ void csrmatrix_sortrows(struct CSRMatrix *A) /* ---------------------------------------------------------------------- */ { size_t i; /* O(A->nnz * log(average nnz per row)) \approx O(A->nnz) */ for (i = 0; i < A->m; i++) { qsort(A->ja + A->ia[i] , A->ia[i + 1] - A->ia[i] , sizeof A->ja [A->ia[i]], cmp_row_elems); } } /* ---------------------------------------------------------------------- */ size_t csrmatrix_elm_index(int i, int j, const struct CSRMatrix *A) /* ---------------------------------------------------------------------- */ { int *p; p = bsearch(&j, A->ja + A->ia[i], A->ia[i + 1] - A->ia[i], sizeof A->ja[A->ia[i]], cmp_row_elems); assert (p != NULL); return p - A->ja; } /* ---------------------------------------------------------------------- */ void csrmatrix_delete(struct CSRMatrix *A) /* ---------------------------------------------------------------------- */ { if (A != NULL) { free(A->sa); free(A->ja); free(A->ia); } free(A); } /* ---------------------------------------------------------------------- */ void csrmatrix_zero(struct CSRMatrix *A) /* ---------------------------------------------------------------------- */ { size_t i; for (i = 0; i < A->nnz; i++) { A->sa[i] = 0.0; } } /* ---------------------------------------------------------------------- */ /* v = zeros([n, 1]) */ /* ---------------------------------------------------------------------- */ void vector_zero(size_t n, double *v) /* ---------------------------------------------------------------------- */ { size_t i; for (i = 0; i < n; i++) { v[i] = 0.0; } } /* ---------------------------------------------------------------------- */ void csrmatrix_write(const struct CSRMatrix *A, const char *fn) /* ---------------------------------------------------------------------- */ { size_t i, j; FILE *fp; fp = fopen(fn, "wt"); if (fp != NULL) { for (i = j = 0; i < A->m; i++) { for (; j < (size_t) (A->ia[i + 1]); j++) { fprintf(fp, "%lu %lu %26.18e\n", (unsigned long) (i + 1), (unsigned long) (A->ja[j] + 1), A->sa[j]); } } } fclose(fp); } /* ---------------------------------------------------------------------- */ void vector_write(size_t n, const double *v, const char *fn) /* ---------------------------------------------------------------------- */ { size_t i; FILE *fp; fp = fopen(fn, "wt"); if (fp != NULL) { for (i = 0; i < n; i++) { fprintf(fp, "%26.18e\n", v[i]); } } fclose(fp); }