public static bool TestOverlap(PointMask ptMask, TriangleMask triMask) { PointFP bary = triMask.Barycentric((VectorFP)ptMask._pos + ptMask._point); return (bary.X > 0 && bary.Y > 0 && (bary.X + bary.Y) < 1); }
public static bool TestOverlapEdge(AYLine ylMask, TriangleMask triMask) { VectorFP a = (VectorFP)triMask._pos + triMask._p0; VectorFP b = (VectorFP)triMask._pos + triMask._p1; VectorFP c = (VectorFP)triMask._pos + triMask._p2; if (ylMask.IntersectsLineEdge(a, b) || ylMask.IntersectsLineEdge(b, c) || ylMask.IntersectsLineEdge(a, c)) { return true; } VectorFP q = triMask.Barycentric(ylMask.TopPoint); return (q.X >= 0 && q.Y >= 0 && (q.X + q.Y) <= 1); }
public static bool TestOverlapEdge(TriangleMask triMask, FPInt x, FPInt y) { PointFP bary = triMask.Barycentric(new VectorFP(x, y)); return (bary.X >= 0 && bary.Y >= 0 && (bary.X + bary.Y) <= 1); }
public static bool TestOverlap(TriangleMask triMask1, TriangleMask triMask2) { VectorFP a = (VectorFP)triMask2._pos + triMask2._p0; VectorFP b = (VectorFP)triMask2._pos + triMask2._p1; VectorFP c = (VectorFP)triMask2._pos + triMask2._p2; VectorFP d = (VectorFP)triMask1._pos + triMask1._p0; VectorFP e = (VectorFP)triMask1._pos + triMask1._p1; VectorFP f = (VectorFP)triMask1._pos + triMask1._p2; if (LineMask.IntersectsLine(a, b, d, e) || LineMask.IntersectsLine(a, b, e, f) || LineMask.IntersectsLine(a, b, d, f) || LineMask.IntersectsLine(b, c, d, e) || LineMask.IntersectsLine(b, c, e, f) || LineMask.IntersectsLine(b, c, d, f) || LineMask.IntersectsLine(a, c, d, e) || LineMask.IntersectsLine(a, c, e, f)) { return true; } // Check for containment VectorFP q = triMask2.Barycentric(d); if (q.X >= 0 && q.Y >= 0 && (q.X + q.Y) <= 1) { return true; } q = triMask1.Barycentric(a); return (q.X >= 0 && q.Y >= 0 && (q.X + q.Y) <= 1); }
public static bool TestOverlap(AABBMask rMask, TriangleMask triMask) { VectorFP a = (VectorFP)triMask._pos + triMask._p0; VectorFP b = (VectorFP)triMask._pos + triMask._p1; VectorFP c = (VectorFP)triMask._pos + triMask._p2; if (rMask.IntersectsLine(a, b) || rMask.IntersectsLine(b, c) || rMask.IntersectsLine(a, c)) { return true; } VectorFP r = rMask._pos + new VectorFP(rMask._point.X + (rMask._w >> 1), rMask._point.Y + (rMask._h >> 1)); VectorFP q = triMask.Barycentric(r); return (q.X >= 0 && q.Y >= 0 && (q.X + q.Y) <= 1); }
public static bool TestOverlap(LineMask lnMask, TriangleMask triMask) { VectorFP a = (VectorFP)triMask._pos + triMask._p0; VectorFP b = (VectorFP)triMask._pos + triMask._p1; VectorFP c = (VectorFP)triMask._pos + triMask._p2; //TestResult t = lnMask.LineIntersect(a, b); if (lnMask.IntersectsLine(a, b) || lnMask.IntersectsLine(b, c) || lnMask.IntersectsLine(a, c)) { return true; } // Check for containment VectorFP r = triMask.Barycentric((VectorFP)lnMask._pos + lnMask._p0); return (r.X >= 0 && r.Y >= 0 && (r.X + r.Y) <= 1); }
public static bool TestOverlap(AXLineMask xlMask, TriangleMask triMask) { VectorFP a = (VectorFP)triMask._pos + triMask._p0; VectorFP b = (VectorFP)triMask._pos + triMask._p1; VectorFP c = (VectorFP)triMask._pos + triMask._p2; if (xlMask.IntersectsLine(a, b) || xlMask.IntersectsLine(b, c) || xlMask.IntersectsLine(a, c)) { return true; } VectorFP q = triMask.Barycentric((VectorFP)xlMask._pos + xlMask._p); return (q.X >= 0 && q.Y >= 0 && (q.X + q.Y) <= 1); }