Tracker::Tracker(int nb_time_steps, int nb_locations) {
_nb_locations = nb_locations;
_nb_time_steps = nb_time_steps;
+
_detection_score = allocate_array<scalar_t>(_nb_time_steps, _nb_locations);
_allowed_motion = allocate_array<int>(_nb_locations, _nb_locations);
+
_entrances = new int[_nb_locations];
_exits = new int[_nb_locations];
}
}
+ for(int t = 0; t < _nb_time_steps; t++) {
+ for(int l = 0; l < _nb_locations; l++) {
+ _detection_score[t][l] = 0.0;
+ }
+ }
+
_edge_lengths = 0;
_graph = 0;
}
}
void Tracker::set_allowed_motion(int from_location, int to_location, int v) {
+ ASSERT(from_location >= 0 && from_location < _nb_locations &&
+ to_location >= 0 && to_location < _nb_locations);
_allowed_motion[from_location][to_location] = v;
}
void Tracker::set_as_entrance(int location, int v) {
+ ASSERT(location >= 0 && location < _nb_locations);
_entrances[location] = v;
}
void Tracker::set_as_exit(int location, int v) {
+ ASSERT(location >= 0 && location < _nb_locations);
_exits[location] = v;
}
void Tracker::set_detection_score(int time, int location, scalar_t score) {
+ ASSERT(time >= 0 && time < _nb_time_steps &&
+ location >= 0 && location < _nb_locations);
_detection_score[time][location] = score;
}
void Tracker::build_graph() {
- // Delete existing graph
+ // Delete existing graph if there was one
delete[] _edge_lengths;
delete _graph;
int nb_motions = 0, nb_exits = 0, nb_entrances = 0;
+
for(int l = 0; l < _nb_locations; l++) {
if(_exits[l]) nb_exits++;
if(_entrances[l]) nb_entrances++;
int nb_vertices = 2 + 2 * _nb_time_steps * _nb_locations;
int nb_edges =
+ // The edges from the source to the first frame, and from the last
+ // frame to the sink
_nb_locations * 2 +
- (_nb_time_steps - 2) * (nb_exits + nb_entrances) +
+ // The edges from the source to the entrances and from the exists
+ // to the sink (in every time frames but the first and last)
+ (_nb_time_steps - 1) * (nb_exits + nb_entrances) +
+ // The edges for the motions, between every pair of successive
+ // frames
(_nb_time_steps - 1) * nb_motions +
+ // The edges inside the duplicated nodes
_nb_locations * _nb_time_steps;
- int source = 0, sink = nb_vertices - 1;
int *node_from = new int[nb_edges];
int *node_to = new int[nb_edges];
+
+ int source = 0, sink = nb_vertices - 1;
int e = 0;
_edge_lengths = new scalar_t[nb_edges];
}
}
- // We put the other edges after
for(int l = 0; l < _nb_locations; l++) {
node_from[e] = source;
node_to[e] = 1 + l + 0 * _nb_locations;
}
}
- for(int t = 1; t < _nb_time_steps-1; t++) {
+ for(int t = 0; t < _nb_time_steps; t++) {
for(int l = 0; l < _nb_locations; l++) {
- if(_entrances[l]) {
+ if(t > 0 && _entrances[l]) {
node_from[e] = source;
node_to[e] = 1 + (2 * (t + 0) + 0) * _nb_locations + l;
_edge_lengths[e] = 0.0;
e++;
}
- if(_exits[l]) {
+ if(t < _nb_time_steps - 1 && _exits[l]) {
node_from[e] = 1 + (2 * (t + 0) + 1) * _nb_locations + l;
node_to[e] = sink;
_edge_lengths[e] = 0.0;
delete[] node_to;
}
-void Tracker::print_dot_graph(ostream *os) {
+void Tracker::print_graph_dot(ostream *os) {
+ int e = 0;
+ for(int t = 0; t < _nb_time_steps; t++) {
+ for(int l = 0; l < _nb_locations; l++) {
+ _edge_lengths[e++] = - _detection_score[t][l];
+ }
+ }
_graph->print_dot(os);
}
return _graph->nb_paths;
}
+int Tracker::trajectory_entrance_time(int k) {
+ return (_graph->paths[k]->nodes[1] - 1) / (2 * _nb_locations);
+}
+
int Tracker::trajectory_duration(int k) {
return (_graph->paths[k]->length - 2) / 2;
}
projects / mtp.git / blobdiff