void CBuild::xrPhase_Subdivide()
{
Status ("Subdividing in space...");
vecFace s1, s2;
Fbox b1, b2;
for (int X=0; X<int(g_XSplit.size()); X++)
{
if (g_XSplit[X]->empty())
{
xr_delete (g_XSplit[X]);
g_XSplit.erase (g_XSplit.begin()+X);
X--;
continue;
}
Progress (float(X)/float(g_XSplit.size()));
// skip if subdivision is too small already
if (int(g_XSplit[X]->size())<(c_SS_LowVertLimit*2)) continue;
// calc bounding box
Fbox bb;
Fvector size;
bb.invalidate();
for (vecFaceIt F=g_XSplit[X]->begin(); F!=g_XSplit[X]->end(); F++)
{
Face *XF = *F;
bb.modify(XF->v[0]->P);
bb.modify(XF->v[1]->P);
bb.modify(XF->v[2]->P);
}
// analyze if we need to split
size.sub(bb.max,bb.min);
BOOL bSplit = FALSE;
if (size.x>c_SS_maxsize) bSplit = TRUE;
if (size.y>c_SS_maxsize) bSplit = TRUE;
if (size.z>c_SS_maxsize) bSplit = TRUE;
if (int(g_XSplit[X]->size()) > c_SS_HighVertLimit) bSplit = TRUE;
CDeflector* defl_base = (CDeflector*)g_XSplit[X]->front()->pDeflector;
if (!bSplit && defl_base) {
if (defl_base->layer.width >= (c_LMAP_size-2*BORDER)) bSplit = TRUE;
if (defl_base->layer.height >= (c_LMAP_size-2*BORDER)) bSplit = TRUE;
}
// perform subdivide if needed
if (!bSplit) continue;
// select longest BBox edge
int box_edge = -1;
if (size.x>=size.y && size.x>=size.z) {
box_edge = 0;
} else {
if (size.y>=size.x && size.y>=size.z) {
box_edge = 1;
} else {
box_edge = 2;
}
}
setup_bbs (b1,b2,bb,box_edge);
// align plane onto vertices
// Process all faces and rearrange them
u32 iteration_on_edge = 0 ; // up to 3
u32 iteration_per_edge = 0 ; // up to 10
resplit:
s2.clear ();
s1.clear ();
iteration_per_edge ++ ;
for (vecFaceIt F=g_XSplit[X]->begin(); F!=g_XSplit[X]->end(); F++)
{
Face *XF = *F;
Fvector C;
XF->CalcCenter(C);
if (b1.contains(C)) { s1.push_back(XF); }
else { s2.push_back(XF); }
}
if ((int(s1.size())<c_SS_LowVertLimit) || (int(s2.size())<c_SS_LowVertLimit))
{
// splitting failed
clMsg ("! ERROR: model #%d - split fail, faces: %d, s1/s2:%d/%d",X,g_XSplit[X]->size(),s1.size(),s2.size());
if (iteration_per_edge<10) {
if (g_XSplit[X]->size() > c_SS_LowVertLimit*4)
{
if (s2.size()>s1.size())
{ //b2 -less, b1-grow
size.sub (b2.max,b2.min);
b1.max[box_edge] += size[box_edge]/2;
b2.min[box_edge] = b1.max[box_edge];
} else {
//b2 -grow, b1-less
size.sub (b1.max,b1.min);
b2.min[box_edge] -= size[box_edge]/2;
b1.max[box_edge] = b2.min[box_edge];
}
goto resplit;
}
} else {
// switch edge
iteration_per_edge = 0 ;
iteration_on_edge ++ ;
if (iteration_on_edge<3) {
box_edge = (box_edge+1)%3;
setup_bbs (b1,b2,bb,box_edge);
goto resplit;
}
}
} else {
// split deflector into TWO
if (defl_base)
{
// _delete old deflector
for (u32 it=0; it<lc_global_data()->g_deflectors().size(); it++)
{
if (lc_global_data()->g_deflectors()[it]==defl_base) {
lc_global_data()->g_deflectors().erase (lc_global_data()->g_deflectors().begin()+it);
xr_delete (defl_base);
break;
}
}
// Create _new deflectors
CDeflector* D1 = new CDeflector(); D1->OA_Place(s1); D1->OA_Export(); lc_global_data()->g_deflectors().push_back(D1);
CDeflector* D2 = new CDeflector(); D2->OA_Place(s2); D2->OA_Export(); lc_global_data()->g_deflectors().push_back(D2);
}
// Delete old SPLIT and push two new
xr_delete (g_XSplit[X]);
g_XSplit.erase (g_XSplit.begin()+X); X--;
g_XSplit.push_back (new vecFace(s1)); Detach(&s1);
g_XSplit.push_back (new vecFace(s2)); Detach(&s2);
}
s1.clear ();
s2.clear ();
}
clMsg("%d subdivisions.",g_XSplit.size());
validate_splits ();
}
