diff options
Diffstat (limited to 'src')
-rw-r--r-- | src/fracture.c | 20 | ||||
-rw-r--r-- | src/fracture.h | 59 |
2 files changed, 44 insertions, 35 deletions
diff --git a/src/fracture.c b/src/fracture.c index 718fc05..260f04f 100644 --- a/src/fracture.c +++ b/src/fracture.c @@ -300,24 +300,32 @@ int main(int argc, char *argv[]) { uint_t av_size = 0; double cur_val = 0; - uint_t notch_edge; + uint_t notch_mark = 0; if (crack_growth_crit) { - for (uint_t i = 0; i < net->graph->ne; i++) { - if (net->fuses[i]) { - notch_edge = i; + uint_t n_edge = UINT_MAX; + for (uint_t j = 0; j < g->ne; j++) { + // right now the only fuses broken are from a notch + if (net->fuses[j]) { + n_edge = j; break; } } + + if (n_edge < UINT_MAX) { + uint_t n_vert = g->dev[2 * n_edge]; + notch_mark = net->dual_marks[n_vert]; + } } for (uint_t j = 0; j < max_pos; j++) { uint_t next_broken = data->break_list[j]; - bool attached_to_notch = net->dual_marks[next_broken] == net->dual_marks[notch_edge]; - bool grew_forward = net->graph->ex[2 * next_broken] > crack_len; + bool attached_to_notch = net->dual_marks[g->dev[2*next_broken]] == notch_mark; + bool grew_forward = g->ex[2 * next_broken] > crack_len; if (crack_growth_crit && attached_to_notch && grew_forward) { + printf("whoops\n\n"); max_pos = j; break; } diff --git a/src/fracture.h b/src/fracture.h index f0a22e8..0b078ff 100644 --- a/src/fracture.h +++ b/src/fracture.h @@ -76,42 +76,42 @@ typedef struct { double inf; cholmod_dense *boundary_cond; cholmod_factor *factor; - unsigned int *marks; - unsigned int *dual_marks; + uint_t *marks; + uint_t *dual_marks; bool voltage_bound; - unsigned int num_components; + uint_t num_components; cholmod_sparse *adjacency; cholmod_sparse *dual_adjacency; bool debug_stop; } net_t; typedef struct { - unsigned int num_broken; - unsigned int *break_list; + uint_t num_broken; + uint_t *break_list; double *conductivity; double *extern_field; } data_t; -intptr_t *run_voronoi(unsigned int num_coords, double *coords, bool periodic, double xmin, double xmax, double ymin, double ymax); +intptr_t *run_voronoi(uint_t num_coords, double *coords, bool periodic, double xmin, double xmax, double ymin, double ymax); -int update_components(const cholmod_sparse *laplacian, unsigned int *marks, +int update_components(const cholmod_sparse *laplacian, uint_t *marks, int old_num_components, int v1, int v2, int exclude); -unsigned int *find_components(const cholmod_sparse *laplacian, unsigned int skip); +uint_t *find_components(const cholmod_sparse *laplacian, uint_t skip); cholmod_sparse *gen_adjacency(const net_t *instance, bool dual, bool breakv, - unsigned int pad, cholmod_common *c); + uint_t pad, cholmod_common *c); cholmod_sparse *gen_laplacian(const net_t *instance, cholmod_common *c, bool symmetric); -int edge_to_verts(unsigned int width, bool periodic, unsigned int edge, +int edge_to_verts(uint_t width, bool periodic, uint_t edge, bool index); -int dual_edge_to_verts(unsigned int width, bool periodic, unsigned int edge, +int dual_edge_to_verts(uint_t width, bool periodic, uint_t edge, bool index); -double dual_vert_to_coord(unsigned int width, bool periodic, unsigned int vert, +double dual_vert_to_coord(uint_t width, bool periodic, uint_t vert, bool index); void factor_update(cholmod_factor *factor, uint_t v1, uint_t v2, cholmod_common *c); @@ -124,19 +124,19 @@ double net_conductivity(const net_t *net, const double *voltages); void update_boundary(net_t *instance, const double *avg_field); -FILE *get_file(const char *prefix, unsigned int width, unsigned int crack, - double beta, unsigned int iter, unsigned int num_iter, - unsigned int num, bool read); +FILE *get_file(const char *prefix, uint_t width, uint_t crack, + double beta, uint_t iter, uint_t num_iter, + uint_t num, bool read); -double update_beta(double beta, unsigned int width, const double *stress, +double update_beta(double beta, uint_t width, const double *stress, const double *damage, double bound_total); -cholmod_sparse *gen_voltcurmat(unsigned int num_edges, unsigned int num_verts, - unsigned int *edges_to_verts, cholmod_common *c); +cholmod_sparse *gen_voltcurmat(uint_t num_edges, uint_t num_verts, + uint_t *edges_to_verts, cholmod_common *c); net_t *net_copy(const net_t *net, cholmod_common *c); -graph_t *ini_square_network(unsigned int width, bound_t boundary, bool side_bounds, +graph_t *ini_square_network(uint_t width, bound_t boundary, bool side_bounds, cholmod_common *c); void graph_free(graph_t *network, cholmod_common *c); @@ -144,29 +144,30 @@ void net_free(net_t *instance, cholmod_common *c); net_t *net_create(const graph_t *g, double inf, double beta, double notch_len, bool vb, cholmod_common *c); -graph_t *ini_voro_graph(unsigned int L, bound_t boundary, bool use_dual, - double *(*genfunc)(unsigned int, bound_t, gsl_rng *, unsigned int *), +graph_t *ini_voro_graph(uint_t L, bound_t boundary, bool use_dual, + double *(*genfunc)(uint_t, bound_t, gsl_rng *, uint_t *), cholmod_common *c); -bool break_edge(net_t *instance, unsigned int edge, cholmod_common *c); +bool break_edge(net_t *instance, uint_t edge, cholmod_common *c); void finish_instance(net_t *instance, cholmod_common *c); net_t *coursegrain_square(net_t *instance, graph_t *network_p, cholmod_common *c); -unsigned int *get_clusters(net_t *instance, cholmod_common *c); +uint_t *get_clusters(net_t *instance, cholmod_common *c); -unsigned int *get_cluster_dist(net_t *instance, cholmod_common *c); +uint_t *get_cluster_dist(net_t *instance, cholmod_common *c); -double *genfunc_uniform(unsigned int L, bound_t boundary, gsl_rng *r, unsigned int *num); -double *genfunc_hyperuniform(unsigned int L, bound_t boundary, gsl_rng *r, unsigned int *num); +double *genfunc_uniform(uint_t L, bound_t boundary, gsl_rng *r, uint_t *num); +double *genfunc_hyperuniform(uint_t L, bound_t boundary, gsl_rng *r, uint_t *num); void randfunc_flat(gsl_rng *r, double *x, double *y); void randfunc_gaus(gsl_rng *r, double *x, double *y); -unsigned int **get_dists(const graph_t *network); -double *get_corr(net_t *instance, unsigned int **dists, cholmod_common *c); +uint_t **get_dists(const graph_t *network); +uint_t *dijkstra(const graph_t *g, uint_t source); +double *get_corr(net_t *instance, uint_t **dists, cholmod_common *c); -double *bin_values(graph_t *network, unsigned int width, double *values); +double *bin_values(graph_t *network, uint_t width, double *values); cholmod_dense *bound_set(const graph_t *g, bool vb, double notch_len, cholmod_common *c); |