cvar_t collision_impactnudge = {0, "collision_impactnudge", "0.03125", "how much to back off from the impact"};
cvar_t collision_startnudge = {0, "collision_startnudge", "0", "how much to bias collision trace start"};
cvar_t collision_endnudge = {0, "collision_endnudge", "0", "how much to bias collision trace end"};
-cvar_t collision_enternudge = {0, "collision_enternudge", "0.03125", "how much to bias collision entry fraction"};
+cvar_t collision_enternudge = {0, "collision_enternudge", "0", "how much to bias collision entry fraction"};
cvar_t collision_leavenudge = {0, "collision_leavenudge", "0", "how much to bias collision exit fraction"};
cvar_t collision_prefernudgedfraction = {0, "collision_prefernudgedfraction", "1", "whether to sort collision events by nudged fraction (1) or real fraction (0)"};
}
for (i = 0;i < numtriangles;i++, element3i += 3)
{
- if (segmentmaxs[0] >= min(vertex3f[element3i[0]*3+0], min(vertex3f[element3i[1]*3+0], vertex3f[element3i[2]*3+0]))
- && segmentmins[0] <= max(vertex3f[element3i[0]*3+0], max(vertex3f[element3i[1]*3+0], vertex3f[element3i[2]*3+0]))
- && segmentmaxs[1] >= min(vertex3f[element3i[0]*3+1], min(vertex3f[element3i[1]*3+1], vertex3f[element3i[2]*3+1]))
- && segmentmins[1] <= max(vertex3f[element3i[0]*3+1], max(vertex3f[element3i[1]*3+1], vertex3f[element3i[2]*3+1]))
- && segmentmaxs[2] >= min(vertex3f[element3i[0]*3+2], min(vertex3f[element3i[1]*3+2], vertex3f[element3i[2]*3+2]))
- && segmentmins[2] <= max(vertex3f[element3i[0]*3+2], max(vertex3f[element3i[1]*3+2], vertex3f[element3i[2]*3+2])))
+ if (TriangleOverlapsBox(vertex3f + element3i[0]*3, vertex3f + element3i[1]*3, vertex3f + element3i[2]*3, segmentmins, segmentmaxs))
{
VectorCopy(vertex3f + element3i[0] * 3, polyf_points[0].v);
VectorCopy(vertex3f + element3i[1] * 3, polyf_points[1].v);
}
for (i = 0;i < numtriangles;i++, element3i += 3)
{
- if (segmentmaxs[0] >= min(vertex3f[element3i[0]*3+0], min(vertex3f[element3i[1]*3+0], vertex3f[element3i[2]*3+0]))
- && segmentmins[0] <= max(vertex3f[element3i[0]*3+0], max(vertex3f[element3i[1]*3+0], vertex3f[element3i[2]*3+0]))
- && segmentmaxs[1] >= min(vertex3f[element3i[0]*3+1], min(vertex3f[element3i[1]*3+1], vertex3f[element3i[2]*3+1]))
- && segmentmins[1] <= max(vertex3f[element3i[0]*3+1], max(vertex3f[element3i[1]*3+1], vertex3f[element3i[2]*3+1]))
- && segmentmaxs[2] >= min(vertex3f[element3i[0]*3+2], min(vertex3f[element3i[1]*3+2], vertex3f[element3i[2]*3+2]))
- && segmentmins[2] <= max(vertex3f[element3i[0]*3+2], max(vertex3f[element3i[1]*3+2], vertex3f[element3i[2]*3+2])))
+ if (TriangleOverlapsBox(vertex3f + element3i[0]*3, vertex3 + [element3i[1]*3, vertex3f + element3i[2]*3, segmentmins, segmentmaxs))
{
VectorCopy(vertex3f + element3i[0] * 3, polyf_points[0].v);
VectorCopy(vertex3f + element3i[1] * 3, polyf_points[1].v);