// 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];
+ Vertex **with_predecessor = new Vertex *[_nb_vertices];
- // All the nodes are unreached at first
+ // All the nodes are with_predecessor at first
for(int k = 0; k < _nb_vertices; k++) {
_vertices[k].distance_from_source = 0;
- unreached[k] = &_vertices[k];
+ with_predecessor[k] = &_vertices[k];
}
scalar_t rank = 1;
- int nb_unreached = _nb_vertices, pred_nb_unreached;
+ int nb_with_predecessor = _nb_vertices, pred_nb_with_predecessor;
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(int f = 0; f < nb_with_predecessor; f++) {
+ v = with_predecessor[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;
+ pred_nb_with_predecessor = nb_with_predecessor;
+ nb_with_predecessor = 0;
// We keep all the vertices with incoming nodes
- for(int f = 0; f < pred_nb_unreached; f++) {
- v = unreached[f];
+ for(int f = 0; f < pred_nb_with_predecessor; f++) {
+ v = with_predecessor[f];
if(v->distance_from_source == rank) {
- unreached[nb_unreached++] = v;
+ with_predecessor[nb_with_predecessor++] = v;
}
}
rank++;
- } while(nb_unreached < pred_nb_unreached);
+ } while(nb_with_predecessor < pred_nb_with_predecessor);
- delete[] unreached;
+ delete[] with_predecessor;
- return nb_unreached == 0;
+ return nb_with_predecessor == 0;
}
//////////////////////////////////////////////////////////////////////
Edge *e = _edges + k;
if(e->positivized_length < 0) {
-
#ifdef VERBOSE
residual_error -= e->positivized_length;
max_error = max(max_error, - e->positivized_length);
if(d < tv->distance_from_source) {
tv->distance_from_source = d;
tv->pred_edge_toward_source = e;
- tv->decrease_distance_in_heap(_heap);
}
}
}
// pred_edge_toward_source.
void MTPGraph::find_shortest_path() {
- Vertex *v, *tv, **a, **b;
+ Vertex *v, *tv, **last_slot;
Edge *e;
scalar_t d;
// Get the closest to the source
v = _heap[0];
- // Remove it from the heap (swap it with the last in the heap, and
+ // Remove it from the heap (swap it with the last_slot in the heap, and
// update the distance of that one)
_heap_size--;
- a = _heap;
- b = _heap + _heap_size;
- swap(*a, *b); swap((*a)->heap_slot, (*b)->heap_slot);
+ last_slot = _heap + _heap_size;
+ swap(*_heap, *last_slot); swap((*_heap)->heap_slot, (*last_slot)->heap_slot);
_heap[0]->increase_distance_in_heap(_heap, _heap + _heap_size);
- // Now update the neighbors of the currently closest to the source
+ // Now update the neighbors of the node currently closest to the
+ // source
for(e = v->leaving_edges; e; e = e->next_leaving_edge) {
d = v->distance_from_source + e->positivized_length;
tv = e->terminal_vertex;
_edges[e].positivized_length = _edges[e].length;
}
- // Compute the distance of every node from the source by just
+ // Compute the distance of all the nodes from the source by just
// visiting them in the proper DAG ordering we computed when
// building the graph
dp_compute_distances();
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