X-Git-Url: http://info.iut-bm.univ-fcomte.fr/pub/gitweb/simgrid.git/blobdiff_plain/58b46d711c48cf9fd84097b9ee3ebfeb181ba4bc..dbacefe09d961d21ce12a7aa223b1177e9b3c323:/src/xbt/graph.c diff --git a/src/xbt/graph.c b/src/xbt/graph.c index 025c5a56e7..f103366556 100644 --- a/src/xbt/graph.c +++ b/src/xbt/graph.c @@ -1,13 +1,12 @@ -/* $Id$ */ - /* a generic graph library. */ -/* Copyright (c) 2006 Darina Dimitrova, Arnaud Legrand. */ -/* All rights reserved. */ +/* Copyright (c) 2006, 2007, 2008, 2009, 2010. The SimGrid Team. + * All rights reserved. */ /* This program is free software; you can redistribute it and/or modify it * under the terms of the license (GNU LGPL) which comes with this package. */ +#include "simgrid_config.h" /* getline */ #include #include "xbt/sysdep.h" #include "xbt/log.h" @@ -16,11 +15,12 @@ #include "xbt/graphxml_parse.h" #include "xbt/dict.h" #include "xbt/heap.h" +#include "xbt/str.h" -XBT_LOG_NEW_DEFAULT_SUBCATEGORY(graph, xbt, "Graph"); +XBT_LOG_NEW_DEFAULT_SUBCATEGORY(xbt_graph, xbt, "Graph"); @@ -60,7 +60,7 @@ xbt_node_t xbt_graph_new_node(xbt_graph_t g, void *data) /** @brief add an edge to the given graph */ xbt_edge_t xbt_graph_new_edge(xbt_graph_t g, - xbt_node_t src, xbt_node_t dst, void *data) + xbt_node_t src, xbt_node_t dst, void *data) { xbt_edge_t edge = NULL; @@ -68,7 +68,7 @@ xbt_edge_t xbt_graph_new_edge(xbt_graph_t g, xbt_dynar_push(src->out, &edge); if (g->directed) xbt_dynar_push(dst->in, &edge); - else /* only the "out" field is used */ + else /* only the "out" field is used */ xbt_dynar_push(dst->out, &edge); edge->data = data; @@ -80,19 +80,22 @@ xbt_edge_t xbt_graph_new_edge(xbt_graph_t g, return edge; } -xbt_edge_t xbt_graph_get_edge(xbt_graph_t g, xbt_node_t src, xbt_node_t dst) +xbt_edge_t xbt_graph_get_edge(xbt_graph_t g, xbt_node_t src, + xbt_node_t dst) { xbt_edge_t edge; - int cursor; + unsigned int cursor; xbt_dynar_foreach(src->out, cursor, edge) { - DEBUG3("%p = %p--%p",edge,edge->src,edge->dst); - if((edge->src==src) && (edge->dst==dst)) return edge; + XBT_DEBUG("%p = %p--%p", edge, edge->src, edge->dst); + if ((edge->src == src) && (edge->dst == dst)) + return edge; } - if(!g->directed) { + if (!g->directed) { xbt_dynar_foreach(src->out, cursor, edge) { - DEBUG3("%p = %p--%p",edge,edge->src,edge->dst); - if((edge->dst==src) && (edge->src==dst)) return edge; + XBT_DEBUG("%p = %p--%p", edge, edge->src, edge->dst); + if ((edge->dst == src) && (edge->src == dst)) + return edge; } } return NULL; @@ -119,16 +122,19 @@ void xbt_graph_edge_set_data(xbt_edge_t edge, void *data) } /** @brief Destructor - * @param l: poor victim + * @param g: poor victim + * @param node_free_function: function to use to free data associated to each node + * @param edge_free_function: function to use to free data associated to each edge + * @param graph_free_function: function to use to free data associated to g * - * Free the graph structure. + * Free the graph structure. */ void xbt_graph_free_graph(xbt_graph_t g, - void node_free_function(void *ptr), - void edge_free_function(void *ptr), - void graph_free_function(void *ptr)) + void_f_pvoid_t node_free_function, + void_f_pvoid_t edge_free_function, + void_f_pvoid_t graph_free_function) { - int cursor = 0; + unsigned int cursor = 0; xbt_node_t node = NULL; xbt_edge_t edge = NULL; @@ -137,12 +143,12 @@ void xbt_graph_free_graph(xbt_graph_t g, xbt_dynar_free(&(node->out)); xbt_dynar_free(&(node->in)); if (node_free_function) - node_free_function(node->data); + (*node_free_function) (node->data); } xbt_dynar_foreach(g->edges, cursor, edge) { if (edge_free_function) - edge_free_function(edge->data); + (*edge_free_function) (edge->data); } xbt_dynar_foreach(g->nodes, cursor, node) @@ -152,42 +158,43 @@ void xbt_graph_free_graph(xbt_graph_t g, xbt_dynar_foreach(g->edges, cursor, edge) free(edge); xbt_dynar_free(&(g->edges)); - + if (graph_free_function) + (*graph_free_function) (g->data); free(g); - + xbt_graph_parse_lex_destroy(); return; } /** @brief remove the given node from the given graph */ void xbt_graph_free_node(xbt_graph_t g, xbt_node_t n, - void_f_pvoid_t * node_free_function, - void_f_pvoid_t * edge_free_function) + void_f_pvoid_t node_free_function, + void_f_pvoid_t edge_free_function) { unsigned long nbr; - int i; - int cursor = 0; + unsigned long i; + unsigned int cursor = 0; xbt_node_t node = NULL; xbt_edge_t edge = NULL; nbr = xbt_dynar_length(g->edges); cursor = 0; for (i = 0; i < nbr; i++) { - xbt_dynar_cursor_get(g->edges, &cursor, &edge); + xbt_dynar_get_cpy(g->edges, cursor, &edge); if ((edge->dst == n) || (edge->src == n)) { xbt_graph_free_edge(g, edge, edge_free_function); } else - xbt_dynar_cursor_step(g->edges, &cursor); + cursor++; } if ((node_free_function) && (n->data)) - node_free_function(n->data); + (*node_free_function) (n->data); cursor = 0; xbt_dynar_foreach(g->nodes, cursor, node) - if (node == n) - xbt_dynar_cursor_rm(g->nodes, &cursor); + if (node == n) + xbt_dynar_cursor_rm(g->nodes, &cursor); xbt_dynar_free(&(n->in)); xbt_dynar_free(&(n->out)); @@ -199,23 +206,23 @@ void xbt_graph_free_node(xbt_graph_t g, xbt_node_t n, /** @brief remove the given edge from the given graph */ void xbt_graph_free_edge(xbt_graph_t g, xbt_edge_t e, - void free_function(void *ptr)) + void_f_pvoid_t free_function) { int idx; - int cursor = 0; + unsigned int cursor = 0; xbt_edge_t edge = NULL; if ((free_function) && (e->data)) - free_function(e->data); + (*free_function) (e->data); xbt_dynar_foreach(g->edges, cursor, edge) { if (edge == e) { if (g->directed) { - idx = __xbt_find_in_dynar(edge->dst->in, edge); - xbt_dynar_remove_at(edge->dst->in, idx, NULL); - } else { /* only the out field is used */ - idx = __xbt_find_in_dynar(edge->dst->out, edge); - xbt_dynar_remove_at(edge->dst->out, idx, NULL); + idx = __xbt_find_in_dynar(edge->dst->in, edge); + xbt_dynar_remove_at(edge->dst->in, idx, NULL); + } else { /* only the out field is used */ + idx = __xbt_find_in_dynar(edge->dst->out, edge); + xbt_dynar_remove_at(edge->dst->out, idx, NULL); } idx = __xbt_find_in_dynar(edge->src->out, edge); @@ -231,7 +238,7 @@ void xbt_graph_free_edge(xbt_graph_t g, xbt_edge_t e, int __xbt_find_in_dynar(xbt_dynar_t dynar, void *p) { - int cursor = 0; + unsigned int cursor = 0; void *tmp = NULL; xbt_dynar_foreach(dynar, cursor, tmp) { @@ -256,7 +263,6 @@ xbt_dynar_t xbt_graph_get_edges(xbt_graph_t g) /** @brief Retrieve the node at the source of the given edge */ xbt_node_t xbt_graph_edge_get_source(xbt_edge_t e) { - return e->src; } @@ -266,6 +272,11 @@ xbt_node_t xbt_graph_edge_get_target(xbt_edge_t e) return e->dst; } +/** @brief Retrieve the outgoing edges of the given node */ +xbt_dynar_t xbt_graph_node_get_outedges(xbt_node_t n) +{ + return n->out; +} /** @brief Set the weight of the given edge */ void xbt_graph_edge_set_length(xbt_edge_t e, double length) @@ -281,14 +292,14 @@ double xbt_graph_edge_get_length(xbt_edge_t e) /** @brief construct the adjacency matrix corresponding to the given graph - * + * * The weights are the distances between nodes */ double *xbt_graph_get_length_matrix(xbt_graph_t g) { - int cursor = 0; - int in_cursor = 0; - int idx, i; + unsigned int cursor = 0; + unsigned int in_cursor = 0; + unsigned long idx, i; unsigned long n; xbt_edge_t edge = NULL; xbt_node_t node = NULL; @@ -309,9 +320,9 @@ double *xbt_graph_get_length_matrix(xbt_graph_t g) xbt_dynar_foreach(node->out, in_cursor, edge) { if (edge->dst == node) - idx = __xbt_find_in_dynar(g->nodes, edge->src); - else /*case of undirected graphs */ - idx = __xbt_find_in_dynar(g->nodes, edge->dst); + idx = __xbt_find_in_dynar(g->nodes, edge->src); + else /*case of undirected graphs */ + idx = __xbt_find_in_dynar(g->nodes, edge->dst); D(cursor, idx) = edge->length; } } @@ -322,9 +333,9 @@ double *xbt_graph_get_length_matrix(xbt_graph_t g) } /** @brief Floyd-Warshall algorithm for shortest path finding - * - * From wikipedia: - * + * + * From wikipedia: + * * The Floyd–Warshall algorithm takes as input an adjacency matrix * representation of a weighted, directed graph (V, E). The weight of a * path between two vertices is the sum of the weights of the edges along @@ -334,9 +345,9 @@ double *xbt_graph_get_length_matrix(xbt_graph_t g) * the two vertices. The running time complexity is Θ(|V|3). */ void xbt_floyd_algorithm(xbt_graph_t g, double *adj, double *d, - xbt_node_t * p) + xbt_node_t * p) { - int i, j, k; + unsigned long i, j, k; unsigned long n; n = xbt_dynar_length(g->nodes); @@ -351,7 +362,7 @@ void xbt_floyd_algorithm(xbt_graph_t g, double *adj, double *d, for (i = 0; i < n; i++) { for (j = 0; j < n; j++) { if (D(i, j) != -1) { - P(i, j) = *((xbt_node_t *) xbt_dynar_get_ptr(g->nodes, i)); + P(i, j) = *((xbt_node_t *) xbt_dynar_get_ptr(g->nodes, i)); } } } @@ -359,12 +370,12 @@ void xbt_floyd_algorithm(xbt_graph_t g, double *adj, double *d, for (k = 0; k < n; k++) { for (i = 0; i < n; i++) { for (j = 0; j < n; j++) { - if ((D(i, k) != -1) && (D(k, j) != -1)) { - if ((D(i, j) == -1) || (D(i, j) > D(i, k) + D(k, j))) { - D(i, j) = D(i, k) + D(k, j); - P(i, j) = P(k, j); - } - } + if ((D(i, k) != -1) && (D(k, j) != -1)) { + if ((D(i, j) == -1) || (D(i, j) > D(i, k) + D(k, j))) { + D(i, j) = D(i, k) + D(k, j); + P(i, j) = P(k, j); + } + } } } } @@ -380,7 +391,7 @@ xbt_node_t *xbt_graph_shortest_paths(xbt_graph_t g) { xbt_node_t *p; xbt_node_t *r; - int i, j, k; + unsigned long i, j, k; unsigned long n; double *adj = NULL; @@ -402,11 +413,11 @@ xbt_node_t *xbt_graph_shortest_paths(xbt_graph_t g) k = j; while ((P(i, k)) && (__xbt_find_in_dynar(g->nodes, P(i, k)) != i)) { - k = __xbt_find_in_dynar(g->nodes, P(i, k)); + k = __xbt_find_in_dynar(g->nodes, P(i, k)); } if (P(i, j)) { - R(i, j) = *((xbt_node_t *) xbt_dynar_get_ptr(g->nodes, k)); + R(i, j) = *((xbt_node_t *) xbt_dynar_get_ptr(g->nodes, k)); } } } @@ -429,10 +440,10 @@ xbt_edge_t *xbt_graph_spanning_tree_prim(xbt_graph_t g) xbt_node_t node = NULL; xbt_dynar_t edge_list = NULL; xbt_heap_t heap = xbt_heap_new(10, NULL); - int cursor; + unsigned int cursor; - xbt_assert0(!(g->directed), - "Spanning trees do not make sense on directed graphs"); + xbt_assert(!(g->directed), + "Spanning trees do not make sense on directed graphs"); xbt_dynar_foreach(g->nodes, cursor, node) { node->xbtdata = NULL; @@ -452,13 +463,13 @@ xbt_edge_t *xbt_graph_spanning_tree_prim(xbt_graph_t g) edge->src->xbtdata = (void *) 1; edge_list = edge->src->out; xbt_dynar_foreach(edge_list, cursor, e) { - xbt_heap_push(heap, e, -(e->length)); + xbt_heap_push(heap, e, -(e->length)); } } else { edge->dst->xbtdata = (void *) 1; edge_list = edge->dst->out; xbt_dynar_foreach(edge_list, cursor, e) { - xbt_heap_push(heap, e, -(e->length)); + xbt_heap_push(heap, e, -(e->length)); } } if (tree_size == tree_size_max) @@ -470,10 +481,10 @@ xbt_edge_t *xbt_graph_spanning_tree_prim(xbt_graph_t g) return tree; } -/** @brief Topological sort on the given graph +/** @brief Topological sort on the given graph * * From wikipedia: - * + * * In graph theory, a topological sort of a directed acyclic graph (DAG) is * a linear ordering of its nodes which is compatible with the partial * order R induced on the nodes where x comes before y (xRy) if there's a @@ -485,7 +496,8 @@ xbt_node_t *xbt_graph_topo_sort(xbt_graph_t g) { xbt_node_t *sorted; - int cursor, idx; + unsigned int cursor; + int idx; xbt_node_t node; unsigned long n; @@ -495,10 +507,10 @@ xbt_node_t *xbt_graph_topo_sort(xbt_graph_t g) sorted = xbt_malloc(n * sizeof(xbt_node_t)); xbt_dynar_foreach(g->nodes, cursor, node) - node->xbtdata = xbt_new0(int, 1); + node->xbtdata = xbt_new0(int, 1); xbt_dynar_foreach(g->nodes, cursor, node) - xbt_graph_depth_visit(g, node, sorted, &idx); + xbt_graph_depth_visit(g, node, sorted, &idx); xbt_dynar_foreach(g->nodes, cursor, node) { free(node->xbtdata); @@ -510,15 +522,15 @@ xbt_node_t *xbt_graph_topo_sort(xbt_graph_t g) /** @brief First-depth graph traversal */ void xbt_graph_depth_visit(xbt_graph_t g, xbt_node_t n, - xbt_node_t * sorted, int *idx) + xbt_node_t * sorted, int *idx) { - int cursor; + unsigned int cursor; xbt_edge_t edge; if (*((int *) (n->xbtdata)) == ALREADY_EXPLORED) return; else if (*((int *) (n->xbtdata)) == CURRENTLY_EXPLORING) - THROW0(0, 0, "There is a cycle"); + THROWF(0, 0, "There is a cycle"); else { *((int *) (n->xbtdata)) = CURRENTLY_EXPLORING; @@ -536,13 +548,13 @@ static xbt_graph_t parsed_graph = NULL; static xbt_dict_t parsed_nodes = NULL; static void *(*__parse_node_label_and_data) (xbt_node_t, const char *, - const char *) = NULL; + const char *) = NULL; static void *(*__parse_edge_label_and_data) (xbt_edge_t, const char *, - const char *) = NULL; + const char *) = NULL; static void __parse_graph_begin(void) { - DEBUG0(""); + XBT_DEBUG(""); if (A_graphxml_graph_isDirected == A_graphxml_graph_isDirected_true) parsed_graph = xbt_graph_new_graph(1, NULL); else @@ -554,21 +566,21 @@ static void __parse_graph_begin(void) static void __parse_graph_end(void) { xbt_dict_free(&parsed_nodes); - DEBUG0(""); + XBT_DEBUG(""); } static void __parse_node(void) { xbt_node_t node = xbt_graph_new_node(parsed_graph, NULL); - DEBUG1("", A_graphxml_node_name); + XBT_DEBUG("", A_graphxml_node_name); if (__parse_node_label_and_data) node->data = __parse_node_label_and_data(node, A_graphxml_node_label, - A_graphxml_node_data); + A_graphxml_node_data); xbt_graph_parse_get_double(&(node->position_x), - A_graphxml_node_position_x); + A_graphxml_node_position_x); xbt_graph_parse_get_double(&(node->position_y), - A_graphxml_node_position_y); + A_graphxml_node_position_y); xbt_dict_set(parsed_nodes, A_graphxml_node_name, (void *) node, NULL); } @@ -576,31 +588,31 @@ static void __parse_node(void) static void __parse_edge(void) { xbt_edge_t edge = xbt_graph_new_edge(parsed_graph, - xbt_dict_get(parsed_nodes, - A_graphxml_edge_source), - xbt_dict_get(parsed_nodes, - A_graphxml_edge_target), - NULL); + xbt_dict_get(parsed_nodes, + A_graphxml_edge_source), + xbt_dict_get(parsed_nodes, + A_graphxml_edge_target), + NULL); if (__parse_edge_label_and_data) edge->data = __parse_edge_label_and_data(edge, A_graphxml_edge_label, - A_graphxml_edge_data); + A_graphxml_edge_data); xbt_graph_parse_get_double(&(edge->length), A_graphxml_edge_length); - DEBUG3("", - (char *) (edge->src)->data, - (char *) (edge->dst)->data, xbt_graph_edge_get_length(edge)); + XBT_DEBUG("", + (char *) (edge->src)->data, + (char *) (edge->dst)->data, xbt_graph_edge_get_length(edge)); } /** @brief Import a graph from a file following the GraphXML format */ xbt_graph_t xbt_graph_read(const char *filename, - void *(node_label_and_data) (xbt_node_t, - const char *, - const char *), - void *(edge_label_and_data) (xbt_edge_t, - const char *, - const char *)) + void *(*node_label_and_data) (xbt_node_t, + const char *, + const char *), + void *(*edge_label_and_data) (xbt_edge_t, + const char *, + const char *)) { xbt_graph_t graph = NULL; @@ -616,7 +628,9 @@ xbt_graph_t xbt_graph_read(const char *filename, ETag_graphxml_edge_fun = __parse_edge; xbt_graph_parse_open(filename); - xbt_assert1((!xbt_graph_parse()), "Parse error in %s", filename); + int res; + res = (*xbt_graph_parse) (); + xbt_assert(!res, "Parse error in %s", filename); xbt_graph_parse_close(); graph = parsed_graph; @@ -627,17 +641,17 @@ xbt_graph_t xbt_graph_read(const char *filename, /** @brief Export the given graph in the GraphViz formatting for visualization */ void xbt_graph_export_graphviz(xbt_graph_t g, const char *filename, - const char *(node_name) (xbt_node_t), - const char *(edge_name) (xbt_edge_t)) + const char *(node_name) (xbt_node_t), + const char *(edge_name) (xbt_edge_t)) { - int cursor = 0; + unsigned int cursor = 0; xbt_node_t node = NULL; xbt_edge_t edge = NULL; FILE *file = NULL; const char *name = NULL; file = fopen(filename, "w"); - xbt_assert1(file, "Failed to open %s \n", filename); + xbt_assert(file, "Failed to open %s \n", filename); if (g->directed) fprintf(file, "digraph test {\n"); @@ -648,7 +662,7 @@ void xbt_graph_export_graphviz(xbt_graph_t g, const char *filename, fprintf(file, " node [shape=box, style=filled]\n"); fprintf(file, - " node [width=.3, height=.3, style=filled, color=skyblue]\n\n"); + " node [width=.3, height=.3, style=filled, color=skyblue]\n\n"); xbt_dynar_foreach(g->nodes, cursor, node) { fprintf(file, " \"%p\" ", node); @@ -671,19 +685,19 @@ void xbt_graph_export_graphviz(xbt_graph_t g, const char *filename, /** @brief Export the given graph in the GraphXML format */ void xbt_graph_export_graphxml(xbt_graph_t g, const char *filename, - const char *(node_name) (xbt_node_t), - const char *(edge_name) (xbt_edge_t), - const char *(node_data_print) (void *), - const char *(edge_data_print) (void *)) + const char *(node_name) (xbt_node_t), + const char *(edge_name) (xbt_edge_t), + const char *(node_data_print) (void *), + const char *(edge_data_print) (void *)) { - int cursor = 0; + unsigned int cursor = 0; xbt_node_t node = NULL; xbt_edge_t edge = NULL; FILE *file = NULL; const char *name = NULL; file = fopen(filename, "w"); - xbt_assert1(file, "Failed to open %s \n", filename); + xbt_assert(file, "Failed to open %s \n", filename); fprintf(file, "\n"); fprintf(file, "\n"); @@ -701,7 +715,7 @@ void xbt_graph_export_graphxml(xbt_graph_t g, const char *filename, } xbt_dynar_foreach(g->edges, cursor, edge) { fprintf(file, " src, edge->dst); + edge->src, edge->dst); if ((edge_name) && ((name = edge_name(edge)))) fprintf(file, "label=\"%s\" ", name); if (edge->length >= 0.0) @@ -713,3 +727,102 @@ void xbt_graph_export_graphxml(xbt_graph_t g, const char *filename, fprintf(file, "\n"); fclose(file); } + +/** @brief Load a graph from a file (in the SimGrid Graph format) */ +xbt_graph_t xbt_graph_load (const char *filename) +{ + FILE *file = NULL; + ssize_t read; + file = fopen (filename, "r"); + xbt_assert(file, "Failed to open %s \n", filename); + + xbt_dict_t nodes_dict = xbt_dict_new (); + xbt_graph_t ret = xbt_graph_new_graph (0, NULL); + + //read the number of nodes + size_t size; + char *nnodes_str = NULL; + read = getline (&nnodes_str, &size, file); + int i, nnodes = atoi (nnodes_str); + free (nnodes_str); + + //read all nodes + for (i = 0; i < nnodes; i++){ + char *node_str = NULL; + read = getline (&node_str, &size, file); + xbt_node_t n; + char *name = xbt_strdup (node_str); + xbt_str_subst (name, '\n', '\0', 0); + n = xbt_graph_new_node (ret, name); + xbt_dict_set (nodes_dict, name, n, NULL); + free (node_str); + } + + //read the number of edges + char *nedges_str = NULL; + read = getline (&nedges_str, &size, file); + int nedges = atoi (nedges_str); + free (nedges_str); + + //read all edges + for (i = 0; i < nedges; i++){ + char *edge_str = NULL, edge_id[200], node_source[200], node_target[200]; + read = getline (&edge_str, &size, file); + sscanf (edge_str, "%s %s %s", edge_id, node_source, node_target); + free (edge_str); + xbt_str_subst (edge_id, '\n', '\0', 0); + xbt_str_subst (node_source, '\n', '\0', 0); + xbt_str_subst (node_target, '\n', '\0', 0); + + xbt_node_t source = xbt_dict_get (nodes_dict, node_source); + xbt_node_t target = xbt_dict_get (nodes_dict, node_target); + xbt_edge_t e; + e = xbt_graph_new_edge (ret, source, target, xbt_strdup(edge_id)); + } + xbt_dict_free (&nodes_dict); + return ret; +} + +/** @brief Save a graph from a file (in the SimGrid Graph format) */ +void xbt_graph_save (xbt_graph_t span, + const char *filename, + const char *(nname) (xbt_node_t), + const char *(ename) (xbt_edge_t)) +{ + FILE *file = NULL; + file = fopen(filename, "w"); + xbt_assert(file, "Failed to open %s \n", filename); + + xbt_dynar_t nodes = xbt_graph_get_nodes (span); + xbt_dynar_t edges = xbt_graph_get_edges (span); + unsigned int cpt; + xbt_node_t node; + fprintf (file, "%ld\n", xbt_dynar_length (nodes)); + xbt_dynar_foreach (nodes, cpt, node) { + if (nname){ + fprintf (file, "%s\n", nname(node)); + }else{ + fprintf (file, "%p\n", node); + } + } + fprintf (file, "%ld\n", xbt_dynar_length (edges)); + xbt_edge_t edge; + xbt_dynar_foreach (edges, cpt, edge) { + xbt_node_t source = xbt_graph_edge_get_source (edge); + xbt_node_t target = xbt_graph_edge_get_target (edge); + if (ename){ + if (nname){ + fprintf (file, "%s %s %s\n", ename(edge), nname(source), nname(target)); + }else{ + fprintf (file, "%s %p %p\n", ename(edge), source, target); + } + }else{ + if (nname){ + fprintf (file, "%p %s %s\n", edge, nname(source), nname(target)); + }else{ + fprintf (file, "%p %p %p\n", edge, source, target); + } + } + } + fclose (file); +}