X-Git-Url: https://fleuret.org/cgi-bin/gitweb/gitweb.cgi?a=blobdiff_plain;f=mtp_graph.cc;h=5a7da77d86892df1bf28ad38a94ccfdfd99a9c48;hb=c752952df0dd1d781ec80f25c4b9418bddac1b9e;hp=2832e71f6ca8fcae738357e4c5872d4a39e9f442;hpb=276df8ea8b9761cc729048d8e5c42670debc5825;p=mtp.git diff --git a/mtp_graph.cc b/mtp_graph.cc index 2832e71..5a7da77 100644 --- a/mtp_graph.cc +++ b/mtp_graph.cc @@ -53,7 +53,7 @@ public: inline void add_leaving_edge(Edge *e); inline void del_leaving_edge(Edge *e); inline void decrease_distance_in_heap(Vertex **heap); - inline void increase_distance_in_heap(Vertex **heap, int heap_size); + inline void increase_distance_in_heap(Vertex **heap, Vertex **heap_bottom); }; ////////////////////////////////////////////////////////////////////// @@ -104,18 +104,18 @@ void Vertex::decrease_distance_in_heap(Vertex **heap) { } } -void Vertex::increase_distance_in_heap(Vertex **heap, int heap_size) { +void Vertex::increase_distance_in_heap(Vertex **heap, Vertex **heap_bottom) { Vertex **c1, **c2, **h; // omg, that's beautiful h = heap_slot; while(c1 = heap + 2 * (h - heap) + 1, - c1 < heap + heap_size && + c1 < heap_bottom && (c2 = c1 + 1, (*c1)->distance_from_source < (*h)->distance_from_source || - (c2 < heap + heap_size && (*c2)->distance_from_source < (*h)->distance_from_source) + (c2 < heap_bottom && (*c2)->distance_from_source < (*h)->distance_from_source) )) { - if(c2 < heap + heap_size && (*c2)->distance_from_source <= (*c1)->distance_from_source) { + if(c2 < heap_bottom && (*c2)->distance_from_source <= (*c1)->distance_from_source) { swap(*c2, *h); swap((*c2)->heap_slot, (*h)->heap_slot); h = c2; @@ -188,6 +188,60 @@ MTPGraph::~MTPGraph() { delete[] paths; } +int MTPGraph::compute_dp_ranks() { + Vertex *v; + Edge *e; + + // This procedure computes for each node the longest link from the + // source and abort if the graph is not a DAG. It works by removing + // successively nodes without predecessor: At the first iteration it + // removes the source, then the nodes with incoming edge only from + // the source, etc. If it can remove all the nodes that way, the + // graph is a DAG. If at some point it can not remove node anymore + // and there are some remaining nodes, the graph is not a DAG. The + // rank of a node is the iteration at which is it removed, and we + // set the distance_from_source fields to this value. + + Vertex **unreached = new Vertex *[_nb_vertices]; + + // All the nodes are unreached at first + for(int k = 0; k < _nb_vertices; k++) { + _vertices[k].distance_from_source = 0; + unreached[k] = &_vertices[k]; + } + + scalar_t rank = 1; + int nb_unreached = _nb_vertices, pred_nb_unreached; + + do { + // We set the distance_from_source field of all the vertices with incoming + // edges to the current rank value + for(int f = 0; f < nb_unreached; f++) { + v = unreached[f]; + for(e = v->leaving_edges; e; e = e->next_leaving_edge) { + e->terminal_vertex->distance_from_source = rank; + } + } + + pred_nb_unreached = nb_unreached; + nb_unreached = 0; + + // We keep all the vertices with incoming nodes + for(int f = 0; f < pred_nb_unreached; f++) { + v = unreached[f]; + if(v->distance_from_source == rank) { + unreached[nb_unreached++] = v; + } + } + + rank++; + } while(nb_unreached < pred_nb_unreached); + + delete[] unreached; + + return nb_unreached == 0; +} + ////////////////////////////////////////////////////////////////////// void MTPGraph::print(ostream *os) { @@ -259,60 +313,6 @@ void MTPGraph::force_positivized_lengths() { #endif } -int MTPGraph::compute_dp_ranks() { - Vertex *v; - Edge *e; - - // This procedure computes for each node the longest link from the - // source and abort if the graph is not a DAG. It works by removing - // successively nodes without predecessor: At the first iteration it - // removes the source, then the nodes with incoming edge only from - // the source, etc. If it can remove all the nodes that way, the - // graph is a DAG. If at some point it can not remove node anymore - // and there are some remaining nodes, the graph is not a DAG. The - // rank of a node is the iteration at which is it removed, and we - // set the distance_from_source fields to this value. - - Vertex **active = new Vertex *[_nb_vertices]; - - // All the nodes are active at first - for(int k = 0; k < _nb_vertices; k++) { - _vertices[k].distance_from_source = 0; - active[k] = &_vertices[k]; - } - - scalar_t rank = 1; - int nb_active = _nb_vertices, pred_nb_active; - - do { - // We set the distance_from_source field of all the vertices with incoming - // edges to the current rank value - for(int f = 0; f < nb_active; f++) { - v = active[f]; - for(e = v->leaving_edges; e; e = e->next_leaving_edge) { - e->terminal_vertex->distance_from_source = rank; - } - } - - pred_nb_active = nb_active; - nb_active = 0; - - // We keep all the vertices with incoming nodes - for(int f = 0; f < pred_nb_active; f++) { - v = active[f]; - if(v->distance_from_source == rank) { - active[nb_active++] = v; - } - } - - rank++; - } while(nb_active < pred_nb_active); - - delete[] active; - - return nb_active == 0; -} - void MTPGraph::dp_compute_distances() { Vertex *v, *tv; Edge *e; @@ -367,7 +367,7 @@ void MTPGraph::find_shortest_path() { a = _heap; b = _heap + _heap_size; swap(*a, *b); swap((*a)->heap_slot, (*b)->heap_slot); - _heap[0]->increase_distance_in_heap(_heap, _heap_size); + _heap[0]->increase_distance_in_heap(_heap, _heap + _heap_size); // Now update the neighbors of the currently closest to the source for(e = v->leaving_edges; e; e = e->next_leaving_edge) { @@ -384,7 +384,7 @@ void MTPGraph::find_shortest_path() { } void MTPGraph::find_best_paths(scalar_t *lengths) { - scalar_t total_length; + scalar_t shortest_path_length; Vertex *v; Edge *e; @@ -394,15 +394,21 @@ void MTPGraph::find_best_paths(scalar_t *lengths) { _edges[e].positivized_length = _edges[e].length; } - // Update the distances to the source in "good order" + // Compute the distance of every node from the source by just + // visiting them in the proper DAG ordering we computed when + // building the graph dp_compute_distances(); do { + // Use the current distance from the source to make all edge + // lengths positive update_positivized_lengths(); + // Fix numerical errors force_positivized_lengths(); + find_shortest_path(); - total_length = 0.0; + shortest_path_length = 0.0; // Do we reach the sink? if(_sink->pred_edge_toward_source) { @@ -410,13 +416,13 @@ void MTPGraph::find_best_paths(scalar_t *lengths) { // original edge lengths v = _sink; while(v->pred_edge_toward_source) { - total_length += v->pred_edge_toward_source->length; + shortest_path_length += v->pred_edge_toward_source->length; v = v->pred_edge_toward_source->origin_vertex; } // If that length is negative - if(total_length < 0.0) { + if(shortest_path_length < 0.0) { #ifdef VERBOSE - cerr << __FILE__ << ": Found a path of length " << total_length << endl; + cerr << __FILE__ << ": Found a path of length " << shortest_path_length << endl; #endif // Invert all the edges along the best path v = _sink; @@ -431,7 +437,7 @@ void MTPGraph::find_best_paths(scalar_t *lengths) { } } - } while(total_length < 0.0); + } while(shortest_path_length < 0.0); // Put back the graph in its original state (i.e. invert edges which // have been inverted in the process)