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#include "polygon_path_finder.h"
#include "geometry.h"
bool PolygonPathFinder::_is_point_inside(const Vector2& p_point) const {
int crosses=0;
for (Set<Edge>::Element *E=edges.front();E;E=E->next()) {
const Edge& e=E->get();
Vector2 a = points[e.points[0]].pos;
Vector2 b = points[e.points[1]].pos;
if (Geometry::segment_intersects_segment_2d(a,b,p_point,outside_point,NULL)) {
crosses++;
}
}
return crosses&1;
}
void PolygonPathFinder::setup(const Vector<Vector2>& p_points, const Vector<int>& p_connections) {
ERR_FAIL_COND(p_connections.size()&1);
points.clear();
edges.clear();
//insert points
int point_count=p_points.size();
points.resize(point_count+2);
bounds=Rect2();
for(int i=0;i<p_points.size();i++) {
points[i].pos=p_points[i];
outside_point.x = i==0?p_points[0].x:(MAX( p_points[i].x, outside_point.x ));
outside_point.y = i==0?p_points[0].y:(MAX( p_points[i].y, outside_point.y ));
if (i==0) {
bounds.pos=points[i].pos;
} else {
bounds.expand_to(points[i].pos);
}
}
outside_point.x+=20.451+Math::randf()*10.2039;
outside_point.y+=21.193+Math::randf()*12.5412;
//insert edges (which are also connetions)
for(int i=0;i<p_connections.size();i+=2) {
Edge e(p_connections[i],p_connections[i+1]);
ERR_FAIL_INDEX(e.points[0],point_count);
ERR_FAIL_INDEX(e.points[1],point_count);
points[p_connections[i]].connections.insert(p_connections[i+1]);
points[p_connections[i+1]].connections.insert(p_connections[i]);
edges.insert(e);
}
//fill the remaining connections based on visibility
for(int i=0;i<point_count;i++) {
for(int j=i+1;j<point_count;j++) {
if (edges.has(Edge(i,j)))
continue; //if in edge ignore
Vector2 from=points[i].pos;
Vector2 to=points[j].pos;
if (!_is_point_inside(from*0.5+to*0.5)) //connection between points in inside space
continue;
bool valid=true;
for (Set<Edge>::Element *E=edges.front();E;E=E->next()) {
const Edge& e=E->get();
if (e.points[0]==i || e.points[1]==i || e.points[0]==j || e.points[1]==j )
continue;
Vector2 a = points[e.points[0]].pos;
Vector2 b = points[e.points[1]].pos;
if (Geometry::segment_intersects_segment_2d(a,b,from,to,NULL)) {
valid=false;
break;
}
}
if (valid) {
points[i].connections.insert(j);
points[j].connections.insert(i);
}
}
}
}
Vector<Vector2> PolygonPathFinder::find_path(const Vector2& p_from, const Vector2& p_to) {
Vector<Vector2> path;
if (!_is_point_inside(p_from)) {
printf("p_from outside\n");
return path;
};
if (!_is_point_inside(p_to)) {
printf("p_to outside\n");
return path;
};
//test direct connection
{
bool can_see_eachother=true;
for (Set<Edge>::Element *E=edges.front();E;E=E->next()) {
const Edge& e=E->get();
Vector2 a = points[e.points[0]].pos;
Vector2 b = points[e.points[1]].pos;
if (Geometry::segment_intersects_segment_2d(a,b,p_from,p_to,NULL)) {
can_see_eachother=false;
break;
}
}
if (can_see_eachother) {
path.push_back(p_from);
path.push_back(p_to);
return path;
}
}
//add to graph
int aidx = points.size()-2;
int bidx = points.size()-1;
points[aidx].pos=p_from;
points[bidx].pos=p_to;
points[aidx].distance=0;
points[bidx].distance=0;
points[aidx].prev=-1;
points[bidx].prev=-1;
for(int i=0;i<points.size()-2;i++) {
bool valid_a=true;
bool valid_b=true;
points[i].prev=-1;
points[i].distance=0;
for (Set<Edge>::Element *E=edges.front();E;E=E->next()) {
const Edge& e=E->get();
if (e.points[0]==i || e.points[1]==i)
continue;
Vector2 a = points[e.points[0]].pos;
Vector2 b = points[e.points[1]].pos;
if (valid_a) {
if (Geometry::segment_intersects_segment_2d(a,b,p_from,points[i].pos,NULL)) {
valid_a=false;
}
}
if (valid_b) {
if (Geometry::segment_intersects_segment_2d(a,b,p_to,points[i].pos,NULL)) {
valid_b=false;
}
}
if (!valid_a && !valid_b)
break;
}
if (valid_a) {
points[i].connections.insert(aidx);
points[aidx].connections.insert(i);
}
if (valid_b) {
points[i].connections.insert(bidx);
points[bidx].connections.insert(i);
}
}
//solve graph
Set<int> open_list;
points[aidx].distance=0;
points[aidx].prev=aidx;
for(Set<int>::Element *E=points[aidx].connections.front();E;E=E->next()) {
open_list.insert(E->get());
points[E->get()].distance=p_from.distance_to(points[E->get()].pos);
points[E->get()].prev=aidx;
}
bool found_route=false;
while(true) {
if (open_list.size()==0) {
printf("open list empty\n");
break;
}
//check open list
int least_cost_point=-1;
float least_cost=1e30;
//this could be faster (cache previous results)
for (Set<int>::Element *E=open_list.front();E;E=E->next()) {
const Point& p =points[E->get()];
float cost = p.distance;
cost+=p.pos.distance_to(p_to);
if (cost<least_cost) {
least_cost_point=E->get();
least_cost=cost;
}
}
Point &np = points[least_cost_point];
//open the neighbours for search
for(Set<int>::Element *E=np.connections.front();E;E=E->next()) {
Point& p =points[E->get()];
float distance = np.pos.distance_to(p.pos) + np.distance;
if (p.prev!=-1) {
//oh this was visited already, can we win the cost?
if (p.distance>distance) {
p.prev=least_cost_point; //reasign previous
p.distance=distance;
}
} else {
//add to open neighbours
p.prev=least_cost_point;
p.distance=distance;
open_list.insert(E->get());
if (E->get()==bidx) {
//oh my reached end! stop algorithm
found_route=true;
break;
}
}
}
if (found_route)
break;
open_list.erase(least_cost_point);
}
if (found_route) {
int at = bidx;
path.push_back(points[at].pos);
do {
at=points[at].prev;
path.push_back(points[at].pos);
} while (at!=aidx);
path.invert();;
}
for(int i=0;i<points.size()-2;i++) {
points[i].connections.erase(aidx);
points[i].connections.erase(bidx);
points[i].prev=-1;
points[i].distance=0;
}
points[aidx].connections.clear();
points[aidx].prev=-1;
points[aidx].distance=0;
points[bidx].connections.clear();
points[bidx].prev=-1;
points[bidx].distance=0;
return path;
}
void PolygonPathFinder::_set_data(const Dictionary& p_data) {
ERR_FAIL_COND(!p_data.has("points"));
ERR_FAIL_COND(!p_data.has("connections"));
ERR_FAIL_COND(!p_data.has("segments"));
ERR_FAIL_COND(!p_data.has("bounds"));
DVector<Vector2> p=p_data["points"];
Array c=p_data["connections"];
ERR_FAIL_COND(c.size()!=p.size());
if (c.size())
return;
int pc = p.size();
points.resize(pc+2);
DVector<Vector2>::Read pr=p.read();
for(int i=0;i<pc;i++) {
points[i].pos=pr[i];
DVector<int> con=c[i];
DVector<int>::Read cr=con.read();
int cc=con.size();
for(int j=0;j<cc;j++) {
points[i].connections.insert(cr[j]);
}
}
DVector<int> segs=p_data["segments"];
int sc=segs.size();
ERR_FAIL_COND(sc&1);
DVector<int>::Read sr = segs.read();
for(int i=0;i<sc;i+=2) {
Edge e(sr[i],sr[i+1]);
edges.insert(e);
}
bounds=p_data["bounds"];
}
Dictionary PolygonPathFinder::_get_data() const{
Dictionary d;
DVector<Vector2> p;
DVector<int> ind;
Array connections;
p.resize(points.size()-2);
connections.resize(points.size()-2);
ind.resize(edges.size()*2);
{
DVector<Vector2>::Write wp=p.write();
for(int i=0;i<points.size()-2;i++) {
wp[i]=points[i].pos;
DVector<int> c;
c.resize(points[i].connections.size());
{
DVector<int>::Write cw=c.write();
int idx=0;
for (Set<int>::Element *E=points[i].connections.front();E;E=E->next()) {
cw[idx++]=E->get();
}
}
connections[i]=c;
}
}
{
DVector<int>::Write iw=ind.write();
int idx=0;
for (Set<Edge>::Element *E=edges.front();E;E=E->next()) {
iw[idx++]=E->get().points[0];
iw[idx++]=E->get().points[1];
}
}
d["bounds"]=bounds;
d["points"]=p;
d["connections"]=connections;
d["segments"]=ind;
return d;
}
bool PolygonPathFinder::is_point_inside(const Vector2& p_point) const {
return _is_point_inside(p_point);
}
Vector2 PolygonPathFinder::get_closest_point(const Vector2& p_point) const {
int closest_idx=-1;
float closest_dist=1e20;
for(int i=0;i<points.size()-2;i++) {
float d = p_point.distance_squared_to(points[i].pos);
if (d<closest_dist) {
d=closest_dist;
closest_idx=i;
}
}
ERR_FAIL_COND_V(closest_idx==-1,Vector2());
return points[closest_idx].pos;
}
Vector<Vector2> PolygonPathFinder::get_intersections(const Vector2& p_from, const Vector2& p_to) const {
Vector<Vector2> inters;
for (Set<Edge>::Element *E=edges.front();E;E=E->next()) {
Vector2 a = points[E->get().points[0]].pos;
Vector2 b = points[E->get().points[1]].pos;
Vector2 res;
if (Geometry::segment_intersects_segment_2d(a,b,p_from,p_to,&res)) {
inters.push_back(res);
}
}
return inters;
}
Rect2 PolygonPathFinder::get_bounds() const {
return bounds;
}
void PolygonPathFinder::_bind_methods() {
ObjectTypeDB::bind_method(_MD("setup","points","connections"),&PolygonPathFinder::setup);
ObjectTypeDB::bind_method(_MD("find_path","from","to"),&PolygonPathFinder::find_path);
ObjectTypeDB::bind_method(_MD("get_intersections","from","to"),&PolygonPathFinder::get_intersections);
ObjectTypeDB::bind_method(_MD("get_closest_point","point"),&PolygonPathFinder::get_closest_point);
ObjectTypeDB::bind_method(_MD("is_point_inside","point"),&PolygonPathFinder::is_point_inside);
ObjectTypeDB::bind_method(_MD("get_bounds"),&PolygonPathFinder::get_bounds);
ObjectTypeDB::bind_method(_MD("_set_data"),&PolygonPathFinder::_set_data);
ObjectTypeDB::bind_method(_MD("_get_data"),&PolygonPathFinder::_get_data);
ADD_PROPERTY(PropertyInfo(Variant::DICTIONARY,"data",PROPERTY_HINT_NONE,"",PROPERTY_USAGE_NOEDITOR),_SCS("_set_data"),_SCS("_get_data"));
}
PolygonPathFinder::PolygonPathFinder()
{
}
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