void PaletteSubDialog::UpdatePopup(Int32 current)
{
BaseContainer bc;
bc.SetString(ACTION_LOAD, "Load palette");
bc.SetString(ACTION_NEW, "New palette");
bc.SetString(ACTION_SAVE, "Save palette");
bc.InsData(0, String(""));
if(m_showControls){
bc.SetString(ACTION_LABEL, "Show controls&c&");
}else{
bc.SetString(ACTION_LABEL, "Show controls");
}
bc.InsData(0, String(""));
GeDynamicArray<Palette> pals;
Palette::GetPalettes(pals);
for(Int32 i=0;i<pals.GetCount();i++){
String str;
if(i==current){
str = "&c&";
}
bc.SetString(ACTION_COUNT+i,pals[i].m_name+str);
}
SetPopup(m_actionPopup,bc);
}
vector<vector<float> > Voxelify::objectPointsToPoints(GeDynamicArray<Vector> objectPoints){
vector<vector<float> > points(objectPoints.GetCount());
for (LONG i = 0; i < objectPoints.GetCount(); i++) {
vector<float> p(3);
p[0] = objectPoints[i].x;
p[1] = objectPoints[i].y;
p[2] = objectPoints[i].z;
points[i] = p;
}
return points;
}
void
buildKDTree(const GeDynamicArray<Vector> &points, KDNode **nodes, Random &rng)
{
Sorter sorter;
Int32 *pnts = NewMemClear(Int32,points.GetCount());
Int32 numPoints = points.GetCount();
for(Int32 i=0;i<numPoints;i++){
pnts[i] = i;
}
*nodes = recursiveBuild(points,pnts,numPoints,rng,0,sorter);
}
void Voxelify::DoRecursion(BaseObject *op, BaseObject *child, GeDynamicArray<Vector> &points, Matrix ml) {
BaseObject *tp;
if (child){
tp = child->GetDeformCache();
ml = ml * child->GetMl();
if (tp){
DoRecursion(op,tp,points,ml);
}
else{
tp = child->GetCache(NULL);
if (tp){
DoRecursion(op,tp,points,ml);
}
else{
if (!child->GetBit(BIT_CONTROLOBJECT)){
if (child->IsInstanceOf(Opoint)){
PointObject * pChild = ToPoint(child);
LONG pcnt = pChild->GetPointCount();
const Vector *childVerts = pChild->GetPointR();
for(LONG i=0; i < pcnt; i++){
points.Push(childVerts[i] * ml * parentMatrix);
}
}
}
}
}
for (tp = child->GetDown(); tp; tp=tp->GetNext()){
DoRecursion(op,tp,points,ml);
}
}
}
SplineObject* Voxelify::GetContour(BaseObject *op, BaseDocument *doc, Real lod, BaseThread *bt){
BaseContainer *data = op->GetDataInstance();
BaseObject* parent=(BaseObject*)data->GetLink(CTT_OBJECT_LINK,doc,Obase);
if (!parent) return NULL;
LONG startObject = data->GetLong(START_FRAME);
LONG endObject = data->GetLong(END_FRAME);
if (startObject >=endObject) return NULL;
maxSeg = data->GetReal(CTTSPOBJECT_MAXSEG,30.);
minSeg = data->GetReal(CTTSPOBJECT_MINSEG);
LONG delta = data->GetLong(OBJECT_SKIP,1);
delta = delta < 1 ? 1 : delta;
GeDynamicArray<BaseObject*> children;
GeDynamicArray<GeDynamicArray<Vector> > splineAtPoint;
BaseObject* chld = NULL;
LONG trck = 0;
for (chld=parent->GetDownLast(); chld; chld=chld->GetPred()) {
if (trck >= startObject && trck<= endObject && trck % delta == 0){
children.Push((BaseObject*)chld->GetClone(COPYFLAGS_NO_HIERARCHY|COPYFLAGS_NO_ANIMATION|COPYFLAGS_NO_BITS,NULL));
}
trck++;
}
if (children.GetCount() < 2) {
return NULL;
}
LONG splineInterpolation = data->GetLong(SPLINEOBJECT_INTERPOLATION);
LONG longestPercent = data->GetLong(TAKE_LONGEST, 1);
longestPercent = longestPercent > 100 ? 100: longestPercent;
parentMatrix = parent->GetMl();
GeDynamicArray<GeDynamicArray<Vector> > objectPoints(children.GetCount());
StatusSetBar(0);
StatusSetText("Collecting Points");
vector<vector<float> > points;
std::vector<VGrid> grids;
LONG gridSize = data->GetLong(GRID_SIZE, 1);
if (!(gridSize > 0)) return NULL;
for (int k= 0; k < children.GetCount(); k++){
Matrix ml;
DoRecursion(op,children[k],objectPoints[k], ml);
points = objectPointsToPoints(objectPoints[k]);
GePrint(children[k]->GetName());
grids.push_back(vox.voxelify(points,gridSize, 12, 1.0));
if (k % 5 == 0){
LONG progress = 10 + (50*k)/children.GetCount();
StatusSetBar(progress);
StatusSetText(LongToString(progress)+"%");
if (bt && bt->TestBreak()){
//break; //this break seems to be kicking in randomly killing the loop
}
}
}
StatusSetText("Building Splines");
SplineObject* parentSpline = ComputeSpline(bt, grids, longestPercent, splineAtPoint);
ModelingCommandData mcd;
mcd.doc = doc;
mcd.op = parentSpline;
if(!SendModelingCommand(MCOMMAND_JOIN, mcd)){
return NULL;
}
SplineObject* ret = ToSpline(mcd.result->GetIndex(0L));
ret->GetDataInstance()->SetLong(SPLINEOBJECT_INTERPOLATION, splineInterpolation);
for (int k=0; k<children.GetCount(); k++){
if (children[k]){
BaseObject::Free(children[k]);
}
}
return ret;
Error:
for (int i = 0; i < children.GetCount(); i++){
BaseObject::Free(children[i]);
}
return NULL;
}
SplineObject* Voxelify::ComputeSpline(BaseThread* bt, vector<VGrid> grids, LONG longestPercent, GeDynamicArray<GeDynamicArray<Vector> > &splinesAtPoint){
SplineObject* parentSpline = SplineObject::Alloc(0, SPLINETYPE_BSPLINE);
std::vector<SplinePair >splinePairs;
Real avSplineSize = 0.0, avSplineLength = 0.0;
GeDynamicArray<GeDynamicArray<LONG> > validPoints(grids.size());
for (LONG k=0; k < grids.size(); k++){
validPoints[k] = GeDynamicArray<LONG>(grids[0].points.size());
validPoints[k].Fill(0,grids[0].points.size(),1);
}
GeDynamicArray<LONG> indxs;
for (LONG i = 0; i < grids[0].points.size(); i++) {
if (grids[0].indices[i] == -1) continue;
GeDynamicArray<Vector> rawSpline;
Vector point(grids[0].points[i][0], grids[0].points[i][1], grids[0].points[i][2]);
indxs.Push(i);
rawSpline.Push(point);
splinesAtPoint.Push(rawSpline);
}
Real distMin = std::numeric_limits<float>::max();
Real distMax = 0.;
AutoAlloc<SplineHelp> splineHelp;
LONG i, o;
for (i = 0; i < splinesAtPoint.GetCount(); i++){//iterate points
bool lastPointCaptured = true;
LONG indx = indxs[i];
for (o=0; o < grids.size()-1; o++){ // for each point iterate objects and collect nearest points
LONG closestIndx = grids[o+1].indices[indx];
if ( closestIndx == -1){
GePrint("error finding neighbor "+LongToString(o)+"/"+LongToString(i));
if (o == grids.size()-1){
lastPointCaptured = false;
}
continue;
}
vector<float> point = grids[o].points[indx];
vector<float> point1 = grids[o+1].points[indx];
Real dist = hypot(point[0] - point1[0], hypot(point[1] - point1[1], point[2] - point1[2]));
distMin = distMin < dist ? distMin : dist;
distMax = distMax > dist ? distMax : dist;
if (o != grids.size()-1) {
//if (dist > maxSeg || dist < minSeg) {
// continue;
//}
}
validPoints[o][i] = 0;
Vector clsst(point1[0],point1[1],point1[2]);
if (splinesAtPoint[i].Find(clsst) == NOTOK){
splinesAtPoint[i].Push(clsst);
}
}
if (!lastPointCaptured) continue;
SplineObject* spline=SplineObject::Alloc(splinesAtPoint[i].GetCount(),SPLINETYPE_BSPLINE);
if (!spline) continue;
spline->GetDataInstance()->SetBool(SPLINEOBJECT_CLOSED, FALSE);
Vector *padr = spline->GetPointW();
for (LONG l = 0; l < splinesAtPoint[i].GetCount(); l++){
padr[l] = splinesAtPoint[i][l];
}
splineHelp->InitSpline(spline);
Real splnLength = splineHelp->GetSplineLength();
if (splnLength > 0.0){
splinePairs.push_back(SplinePair(spline, splnLength));
avSplineLength += splnLength;
avSplineSize += splinesAtPoint[i].GetCount();
} else {
SplineObject::Free(spline);
}
if (i % 5 == 0){
LONG progress = 10 + (90*i)/splinesAtPoint.GetCount();
StatusSetBar(progress);
StatusSetText(LongToString(progress)+"%");
if (bt && bt->TestBreak()){
//break; //this break seems to be kicking in randomly killing the loop
}
}
}
LONG splnSize = splinePairs.size();
GePrint(LongToString(i)+" points "+LongToString(splnSize)+" splines");
if (splnSize > 0) {
LONG limit = splnSize * longestPercent / 100;
limit = limit == 0 ? 1 : limit;
std::sort(splinePairs.begin(), splinePairs.end(),comparator);
for (int s = 0; s < limit; s++){
avSplineLength += splinePairs[s].second;
splinePairs[s].first->InsertUnder(parentSpline);
}
String sizeAvg = splinesAtPoint.GetCount() == 0? "Nan":RealToString(avSplineSize/splinesAtPoint.GetCount());
GePrint("d="+RealToString(distMin)+" : "+RealToString(distMax)+" avSpln="+RealToString(avSplineLength/avSplineSize));
}
StatusSetText(LongToString(i)+" points "+LongToString(splnSize)+" splines");
if (splnSize == 0) return NULL;
return parentSpline;
}
