From 901b9f16494f37890be17ef4bb66e6efc6873340 Mon Sep 17 00:00:00 2001 From: Jaron Kent-Dobias Date: Fri, 10 Feb 2017 12:18:11 -0500 Subject: changed code to rely on jst --- src/net.c | 141 -------------------------------------------------------------- 1 file changed, 141 deletions(-) delete mode 100644 src/net.c (limited to 'src/net.c') diff --git a/src/net.c b/src/net.c deleted file mode 100644 index a1047e2..0000000 --- a/src/net.c +++ /dev/null @@ -1,141 +0,0 @@ - -#include "fracture.h" - -long double *get_thres(uint_t ne, double beta) { - long double *thres = (long double *)malloc(ne * sizeof(long double)); - assert(thres != NULL); - - gsl_rng *r = gsl_rng_alloc(GSL_RAND_GEN); - gsl_rng_set(r, rand_seed()); - - for (uint_t i = 0; i < ne; i++) { - thres[i] = rand_dist_pow(r, beta); - } - - gsl_rng_free(r); - - return thres; -} - -void net_notch(net_t *net, double notch_len, cholmod_common *c) { - for (uint_t i = 0; i < net->graph->ne; i++) { - uint_t v1, v2; - double v1x, v1y, v2x, v2y, dy; - bool crosses_center, not_wrapping, correct_length; - - v1 = net->graph->ev[2 * i]; - v2 = net->graph->ev[2 * i + 1]; - - v1x = net->graph->vx[2 * v1]; - v1y = net->graph->vx[2 * v1 + 1]; - v2x = net->graph->vx[2 * v2]; - v2y = net->graph->vx[2 * v2 + 1]; - - dy = v1y - v2y; - - crosses_center = (v1y >= 0.5 && v2y <= 0.5) || (v1y <= 0.5 && v2y >= 0.5); - not_wrapping = fabs(dy) < 0.5; - //correct_length = v1x + dx / dy * (v1y - 0.5) <= notch_len; - correct_length = v1x < notch_len && v2x < notch_len; - - if (crosses_center && not_wrapping && correct_length) { - break_edge(net, i, c); - } - } -} - -net_t *net_create(const graph_t *g, double inf, double beta, double notch_len, bool vb, cholmod_common *c) { - net_t *net = (net_t *)calloc(1, sizeof(net_t)); - assert(net != NULL); - - net->graph = g; - net->num_broken = 0; - - net->fuses = (bool *)calloc(g->ne, sizeof(bool)); - assert(net->fuses != NULL); - - net->thres = get_thres(g->ne, beta); - net->inf = inf; - - net->dim = g->nv; - - if (g->boundary == TORUS_BOUND) { - net->nep = g->ne; - net->evp = (uint_t *)malloc(2 * g->ne * sizeof(uint_t)); - memcpy(net->evp, g->ev, 2 * g->ne * sizeof(uint_t)); - } else { - if (vb) { - net->dim -= g->bi[g->nb]; - net->evp = (uint_t *)malloc(2 * g->ne * sizeof(uint_t)); - net->nep = 0; - for (uint_t i = 0; i < g->ne; i++) { - if (!(g->bq[g->ev[2*i]] || g->bq[g->ev[2*i+1]])) { - net->evp[2*net->nep] = g->bni[g->ev[2*i]]; - net->evp[2*net->nep + 1] = g->bni[g->ev[2*i + 1]]; - net->nep++; - } - } - } else { - net->dim += 2; - net->evp = (uint_t *)malloc(2 * (g->ne + g->bi[2]) * sizeof(uint_t)); - memcpy(net->evp, g->ev, 2 * g->ne * sizeof(uint_t)); - net->nep = g->ne + g->bi[2]; - - for (uint_t i = 0; i < 2; i++) { - for (uint_t j = 0; j < g->bi[i+1] - g->bi[i]; j++){ - net->evp[2 * (g->ne + g->bi[i] + j)] = g->b[g->bi[i] + j]; - net->evp[2 * (g->ne + g->bi[i] + j) + 1] = g->nv + i; - } - } - } - } - - net->voltage_bound = vb; - net->boundary_cond = bound_set(g, vb, notch_len, c); - - net_notch(net, notch_len, c); - - { - cholmod_sparse *laplacian = gen_laplacian(net, c); - net->factor = CHOL_F(analyze)(laplacian, c); - CHOL_F(factorize)(laplacian, net->factor, c); - CHOL_F(free_sparse)(&laplacian, c); - } - - return net; -} - -net_t *net_copy(const net_t *net, cholmod_common *c) { - net_t *net_copy = (net_t *)calloc(1, sizeof(net_t)); - assert(net_copy != NULL); - memcpy(net_copy, net, sizeof(net_t)); - - size_t fuses_size = (net->graph)->ne * sizeof(bool); - net_copy->fuses = (bool *)malloc(fuses_size); - assert(net_copy->fuses != NULL); - memcpy(net_copy->fuses, net->fuses, fuses_size); - - size_t thres_size = (net->graph)->ne * sizeof(long double); - net_copy->thres = (long double *)malloc(thres_size); - assert(net_copy->thres != NULL); - memcpy(net_copy->thres, net->thres, thres_size); - - size_t evp_size = 2 * net->nep * sizeof(uint_t); - net_copy->evp = (uint_t *)malloc(thres_size); - assert(net_copy->evp != NULL); - memcpy(net_copy->evp, net->evp, evp_size); - - net_copy->boundary_cond = CHOL_F(copy_dense)(net->boundary_cond, c); - net_copy->factor = CHOL_F(copy_factor)(net->factor, c); - - return net_copy; -} - -void net_free(net_t *net, cholmod_common *c) { - free(net->fuses); - free(net->thres); - CHOL_F(free_dense)(&(net->boundary_cond), c); - CHOL_F(free_factor)(&(net->factor), c); - free(net->evp); - free(net); -} -- cgit v1.2.3-70-g09d2