xbt_graph_t platf_graph_get(void) {
// We need some debug, so let's add this function
- // WARNING : shold be removed when it becomes useless
+ // WARNING : should be removed when it becomes useless
return platform_graph;
}
+/**
+ * \brief Set the seed of the platform generator RngStream
+ *
+ * This RngStream is used to generate all the random values needed to
+ * generate the platform
+ *
+ * \param seed A array of six integer; if NULL, the default seed will be used.
+ */
void platf_random_seed(unsigned long seed[6]) {
if(rng_stream == NULL) {
}
}
+/**
+ * \brief Initialize the platform generator
+ *
+ * This function create the graph and add node_count nodes to it
+ * \param node_count The number of nodes of the platform
+ */
void platf_graph_init(unsigned long node_count) {
unsigned long i;
platform_graph = xbt_graph_new_graph(FALSE, NULL);
}
+/**
+ * \brief Connect two nodes
+ * \param node1 The first node to connect
+ * \param node2 The second node to connect
+ */
void platf_node_connect(xbt_node_t node1, xbt_node_t node2) {
context_node_t node1_data;
context_node_t node2_data;
xbt_graph_new_edge(platform_graph, node1, node2, (void*)edge_data);
}
+/**
+ * \brief Compute the distance between two nodes
+ * \param node1 The first node
+ * \param node2 The second node
+ * \return The distance between node1 and node2
+ */
double platf_node_distance(xbt_node_t node1, xbt_node_t node2) {
context_node_t node1_data;
context_node_t node2_data;
return distance;
}
+/**
+ * \brief Initialize the platform, placing nodes uniformly on the unit square
+ * \param node_count The number of node
+ */
void platf_graph_uniform(unsigned long node_count) {
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t graph_node = NULL;
}
}
+/**
+ * \brief Initialize the platform, placing nodes in little clusters on the unit square
+ * \param node_count The number of node
+ */
void platf_graph_heavytailed(unsigned long node_count) {
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t graph_node = NULL;
}
}
+/**
+ * \brief Creates a simple topology where all nodes are connected to the first one in a star fashion
+ */
void platf_graph_interconnect_star(void) {
- /* All the nodes are connected to the first one */
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t graph_node = NULL;
xbt_node_t first_node = NULL;
}
}
+/**
+ * \brief Creates a simple topology where all nodes are connected in line
+ */
void platf_graph_interconnect_line(void) {
- /* Node are connected to the previous and the next node, in a line */
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t graph_node = NULL;
xbt_node_t old_node = NULL;
}
}
+/**
+ * \brief Create a simple topology where all nodes are connected along a ring
+ */
void platf_graph_interconnect_ring(void) {
- /* Create a simple topology where all nodes are connected along a ring */
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t graph_node = NULL;
xbt_node_t old_node = NULL;
platf_node_connect(first_node, graph_node);
}
+/**
+ * \brief Create a simple topology where all nodes are connected to each other, in a clique manner
+ */
void platf_graph_interconnect_clique(void) {
- /* Create a simple topology where all nodes are connected to each other, in a clique manner */
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t first_node = NULL;
xbt_node_t second_node = NULL;
}
}
+/**
+ * \brief Creates a topology where the probability to connect two nodes is uniform (unrealistic, but simple)
+ * \param alpha Probability for two nodes to get connected
+ */
void platf_graph_interconnect_uniform(double alpha) {
- /* Creates a topology where the probability to connect two nodes is uniform (unrealistic, but simple)
- alpha : Probability for two nodes to get connected */
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t first_node = NULL;
xbt_node_t second_node = NULL;
}
}
+/**
+ * \brief Create a topology where the probability follows an exponential law
+ * \param alpha Number of edges increases with alpha
+ */
void platf_graph_interconnect_exponential(double alpha) {
- /* Create a topology where the probability follows an exponential law
- Number of edges increases with alpha */
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t first_node = NULL;
xbt_node_t second_node = NULL;
}
}
+/**
+ * \brief Create a topology where the probability follows the model of Waxman
+ *
+ * see Waxman, Routing of Multipoint Connections, IEEE J. on Selected Areas in Comm., 1988
+ *
+ * \param alpha Number of edges increases with alpha
+ * \param beta Edge length heterogeneity increases with beta
+ */
void platf_graph_interconnect_waxman(double alpha, double beta) {
- /* Create a topology where the probability follows the model of Waxman
- * (see Waxman, Routing of Multipoint Connections, IEEE J. on Selected Areas in Comm., 1988)
- *
- * Number of edges increases with alpha
- * edge length heterogeneity increases with beta
- */
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t first_node = NULL;
xbt_node_t second_node = NULL;
}
}
+/**
+ * \brief Create a topology where the probability follows the model of Zegura
+ * see Zegura, Calvert, Donahoo, A quantitative comparison of graph-based models
+ * for Internet topology, IEEE/ACM Transactions on Networking, 1997.
+ *
+ * \param alpha Probability of connexion for short edges
+ * \param beta Probability of connexion for long edges
+ * \param r Limit between long and short edges (between 0 and sqrt(2) since nodes are placed on the unit square)
+ */
void platf_graph_interconnect_zegura(double alpha, double beta, double r) {
- /* Create a topology where the probability follows the model of Zegura
- * (see Zegura, Calvert, Donahoo, A quantitative comparison of graph-based models
- * for Internet topology, IEEE/ACM Transactions on Networking, 1997.)
- *
- * alpha : Probability of connexion for short edges
- * beta : Probability of connexion for long edges
- * r : Limit between long and short edges (between 0 and sqrt(2) since nodes are placed on the unit square)
- */
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t first_node = NULL;
xbt_node_t second_node = NULL;
}
}
+/**
+ * \brief Create a topology constructed according to the Barabasi-Albert algorithm (follows power laws)
+ * see Barabasi and Albert, Emergence of scaling in random networks, Science 1999, num 59, p509-512.
+ */
void platf_graph_interconnect_barabasi(void) {
- /* Create a topology constructed according to the Barabasi-Albert algorithm (follows power laws)
- (see Barabasi and Albert, Emergence of scaling in random networks, Science 1999, num 59, p509-512.) */
xbt_dynar_t dynar_nodes = NULL;
xbt_node_t first_node = NULL;
xbt_node_t second_node = NULL;
}
}
+/**
+ * \brief Check if the produced graph is connected
+ *
+ * You should check if the produced graph is connected before doing anything
+ * on it. You probably don't want any isolated node or group of nodes...
+ *
+ * \return TRUE if the graph is connected, FALSE otherwise
+ */
int platf_graph_is_connected(void) {
xbt_dynar_t dynar_nodes = NULL;
+ xbt_dynar_t connected_nodes = NULL;
+ xbt_dynar_t outgoing_edges = NULL;
xbt_node_t graph_node = NULL;
- context_node_t node_data = NULL;
+ xbt_edge_t outedge = NULL;
+ unsigned long iterator;
unsigned int i;
dynar_nodes = xbt_graph_get_nodes(platform_graph);
- xbt_dynar_foreach(dynar_nodes, i, graph_node) {
- node_data = xbt_graph_node_get_data(graph_node);
- if(node_data->degree==0) {
- return FALSE;
+ connected_nodes = xbt_dynar_new(sizeof(xbt_node_t), NULL);
+
+ //Initialize the connected node array with the first node
+ xbt_dynar_get_cpy(dynar_nodes, 0, &graph_node);
+ xbt_dynar_push(connected_nodes, &graph_node);
+ iterator = 0;
+ do {
+ //Get the next node
+ xbt_dynar_get_cpy(connected_nodes, iterator, &graph_node);
+
+ //add all the linked nodes to the connected node array
+ outgoing_edges = xbt_graph_node_get_outedges(graph_node);
+ xbt_dynar_foreach(outgoing_edges, i, outedge) {
+ xbt_node_t src = xbt_graph_edge_get_source(outedge);
+ xbt_node_t dst = xbt_graph_edge_get_target(outedge);
+ if(!xbt_dynar_member(connected_nodes, &src)) {
+ xbt_dynar_push(connected_nodes, &src);
+ }
+ if(!xbt_dynar_member(connected_nodes, &dst)) {
+ xbt_dynar_push(connected_nodes, &dst);
+ }
}
- }
- return TRUE;
+ } while(++iterator < xbt_dynar_length(connected_nodes));
+
+ // The graph is connected if the connected node array has the same length
+ // as the graph node array
+ return xbt_dynar_length(connected_nodes) == xbt_dynar_length(dynar_nodes);
}
+
+/**
+ * \brief Remove the links in the created topology
+ *
+ * This is useful when the created topology is not connected, and you want
+ * to generate a new one.
+ */
void platf_graph_clear_links(void) {
xbt_dynar_t dynar_nodes = NULL;
xbt_dynar_t dynar_edges = NULL;
}
}
+/**
+ * \brief Promote a node to a host
+ *
+ * This function should be called in callbacks registered with the
+ * platf_graph_promoter function.
+ *
+ * \param node The node to promote
+ * \param parameters The parameters needed to build the host
+ */
void platf_graph_promote_to_host(context_node_t node, sg_platf_host_cbarg_t parameters) {
node->kind = HOST;
memcpy(&(node->host_parameters), parameters, sizeof(s_sg_platf_host_cbarg_t));
}
+/**
+ * \brief Promote a node to a cluster
+ *
+ * This function should be called in callbacks registered with the
+ * platf_graph_promoter function.
+ *
+ * \param node The node to promote
+ * \param parameters The parameters needed to build the cluster
+ */
void platf_graph_promote_to_cluster(context_node_t node, sg_platf_cluster_cbarg_t parameters) {
node->kind = CLUSTER;
memcpy(&(node->cluster_parameters), parameters, sizeof(s_sg_platf_cluster_cbarg_t));
}
+/**
+ * \brief Set the parameters of a network link.
+ *
+ * This function should be called in callbacks registered with the
+ * platf_graph_labeler function.
+ *
+ * \param edge The edge to modify
+ * \param parameters The parameters of the network link
+ */
void platf_graph_link_label(context_edge_t edge, sg_platf_link_cbarg_t parameters) {
memcpy(&(edge->link_parameters), parameters, sizeof(s_sg_platf_link_cbarg_t));
}
+/**
+ * \brief Register a callback to promote nodes
+ *
+ * The best way to promote nodes into host or cluster is to write a function
+ * which takes one parameter, a #context_node_t, make every needed test on
+ * it, and call platf_graph_promote_to_host or platf_graph_promote_to_cluster
+ * if needed. Then, register the function with this one.
+ * You can register several callbacks: the first registered function will be
+ * called first. If the node have not been promoted yet, the second function
+ * will be called, and so on...
+ *
+ * \param promoter_callback The callback function
+ */
void platf_graph_promoter(platf_promoter_cb_t promoter_callback) {
if(promoter_dynar == NULL) {
promoter_dynar = xbt_dynar_new(sizeof(platf_promoter_cb_t), NULL);
xbt_dynar_push(promoter_dynar, &promoter_callback);
}
+/**
+ * \brief Register a callback to label links
+ *
+ * Like the node promotion, it is better, to set links, to write a function
+ * which take one parameter, a #context_edge_t, make every needed test on
+ * it, and call platf_graph_link_label if needed.
+ * You can register several callbacks: the first registered function will be
+ * called first. If the link have not been labeled yet, the second function
+ * will be called, and so on...
+ *
+ * \param labeler_callback The callback function
+ */
void platf_graph_labeler(platf_labeler_cb_t labeler_callback) {
if(labeler_dynar == NULL) {
labeler_dynar = xbt_dynar_new(sizeof(void*), NULL);
xbt_dynar_push(labeler_dynar, &labeler_callback);
}
+/**
+ * \brief Call the registered promoters on all nodes
+ *
+ * The promoters are called on all nodes, in the order of their registration
+ * If some nodes are not promoted, they will be routers
+ */
void platf_do_promote(void) {
platf_promoter_cb_t promoter_callback;
xbt_node_t graph_node = NULL;
}
}
+/**
+ * \brief Call the registered labelers on all links
+ */
void platf_do_label(void) {
platf_labeler_cb_t labeler_callback;
xbt_edge_t graph_edge = NULL;
}
}
+/**
+ * \brief putting into SURF the generated platform
+ *
+ * This function should be called when the generation is over and the platform
+ * is ready to be put in place in SURF. All the init function, like MSG_init,
+ * must have been called before, or this function will not do anything.
+ * After that function, it should be possible to list all the available hosts
+ * with the provided functions.
+ */
void platf_generate(void) {
xbt_dynar_t nodes = NULL;