typedef struct graph_node_data {
int id;
- int graph_id; /* used for caching internal graph id's */
-} s_graph_node_data_t, *graph_node_data_t;
+ int graph_id; /* used for caching internal graph id's */
+} s_graph_node_data_t;
+typedef s_graph_node_data_t* graph_node_data_t;
typedef struct graph_node_map_element {
xbt_node_t node;
-} s_graph_node_map_element_t, *graph_node_map_element_t;
+} s_graph_node_map_element_t;
+typedef s_graph_node_map_element_t* graph_node_map_element_t;
typedef struct route_cache_element {
- int *pred_arr;
+ int* pred_arr;
int size;
-} s_route_cache_element_t, *route_cache_element_t;
+} s_route_cache_element_t;
+typedef s_route_cache_element_t* route_cache_element_t;
namespace simgrid {
namespace kernel {
* Classes *
***********/
-/** Dijkstra routing data: fast initialization, slow lookup, small memory requirements, shortest path routing only */
-class XBT_PRIVATE AsDijkstra : public AsRoutedGraph {
+/** @ingroup ROUTING_API
+ * @brief NetZone with an explicit routing computed on need with Dijsktra
+ *
+ * The path between components is computed each time you request it,
+ * using the Dijkstra algorithm. A cache can be used to reduce the computation.
+ *
+ * This result in rather small platform file, very fast initialization, and very low memory requirements, but somehow long path resolution times.
+ */
+class XBT_PRIVATE DijkstraZone : public RoutedZone {
public:
- AsDijkstra(As* father, const char* name, bool cached);
+ DijkstraZone(NetZone* father, const char* name, bool cached);
void seal() override;
- ~AsDijkstra() override;
+ ~DijkstraZone() override;
xbt_node_t routeGraphNewNode(int id, int graph_id);
graph_node_map_element_t nodeMapSearch(int id);
void newRoute(int src_id, int dst_id, sg_platf_route_cbarg_t e_route);
- /**
- * For each vertex (node) already in the graph,
- * make sure it also has a loopback link; this loopback
- * can potentially already be in the graph, and in that
- * case nothing will be done.
- *
- * If no loopback is specified for a node, we will use
- * the loopback that is provided by the routing platform.
- *
- * After this function returns, any node in the graph
- * will have a loopback attached to it.
- */
- void getLocalRoute(NetCard* src, NetCard* dst, sg_platf_route_cbarg_t route, double* lat) override;
+ /* For each vertex (node) already in the graph,
+ * make sure it also has a loopback link; this loopback
+ * can potentially already be in the graph, and in that
+ * case nothing will be done.
+ *
+ * If no loopback is specified for a node, we will use
+ * the loopback that is provided by the routing platform.
+ *
+ * After this function returns, any node in the graph
+ * will have a loopback attached to it.
+ */
+ void getLocalRoute(NetPoint* src, NetPoint* dst, sg_platf_route_cbarg_t route, double* lat) override;
void addRoute(sg_platf_route_cbarg_t route) override;
- xbt_graph_t routeGraph_ = nullptr; /* xbt_graph */
- xbt_dict_t graphNodeMap_ = nullptr; /* map */
- xbt_dict_t routeCache_ = nullptr; /* use in cache mode */
+ xbt_graph_t routeGraph_ = nullptr; /* xbt_graph */
+ xbt_dict_t graphNodeMap_ = nullptr; /* map */
+ xbt_dict_t routeCache_ = nullptr; /* use in cache mode */
};
-
-}}} // namespaces
+}
+}
+} // namespaces
#endif /* SURF_ROUTING_DIJKSTRA_HPP_ */