I have been having a few issues implementing my narrow phase collision detection. Broadphase is working perfectly.

I have a group of polygons, that have a stl::vector array of points for their vertices in clockwise order. Every cycle, I check to see whether they're colliding.

I have borrowed the following Point in Polygon test from here and changed it using my Point data structures:

```
int InsidePolygon(std::vector <Point> poly, Point p) {
int i, j, c = 0;
int nvert = poly.size();
for (i = 0, j = nvert-1; i < nvert; j = i++) {
if ( ((poly[i].y> p.y) != (poly[j].y> p.y)) && (p.x < (poly[j].x-poly[i].x) * (p.y-poly[i].y) / (poly[j].y-poly[i].y) + poly[i].x) )
c = !c;
}
return c;
}
```

I have extended that to include a PolygonPolygon function, which check all the points of 1 polygon against another and then reverse it to check the other way around.

```
int PolygonPolygon(std::vector <Point> polygon1, std::vector <Point> polygon2) {
for(int i=0; i<polygon1.size();i++) {
if(InsidePolygon(polygon2, polygon1[i])) {
return 1;
}
}
for(int j=0; j<polygon2.size();j++) {
if(InsidePolygon(polygon1, polygon2[j])) {
return 1;
}
}
return 0;
}
```

The strange thing is that my PolygonPolygon function is always returning 1. So I have a few questions:

Have I screwed up the logic somewhere? Should I write my PolygonPolygon function differently?

Are there any better methods for a PolygonPolygon test, the polygons themselves are not guaranteed to be convex, which is why I went for the point in polygon method. I also hope to determine which point is colliding eventually, if I can get past this bit.

Should I be presenting my points in a particular order for the InsidePolygon test?

`std::vector <Point> polygon1`

with`const std::vector <Point> & polygon1`

to increase the performance. What input data does give 1 as result? – Alexey Malistov Jun 22 '10 at 12:47