unsigned long MeshFacetGrid::SearchNearestFromPoint (const Base::Vector3f &rclPt) const
{
unsigned long ulFacetInd = ULONG_MAX;
float fMinDist = FLOAT_MAX;
Base::BoundBox3f clBB = GetBoundBox();
if (clBB.IsInBox(rclPt) == true)
{ // Punkt liegt innerhalb
unsigned long ulX, ulY, ulZ;
Position(rclPt, ulX, ulY, ulZ);
float fMinGridDist = std::min<float>(std::min<float>(_fGridLenX, _fGridLenY), _fGridLenZ);
unsigned long ulDistance = 0;
while (fMinDist > (fMinGridDist * float(ulDistance)))
{
SearchNearestFacetInHull(ulX, ulY, ulZ, ulDistance, rclPt, ulFacetInd, fMinDist);
ulDistance++;
}
SearchNearestFacetInHull(ulX, ulY, ulZ, ulDistance, rclPt, ulFacetInd, fMinDist);
}
else
{ // Punkt ausserhalb
Base::BoundBox3f::SIDE tSide = clBB.GetSideFromRay(rclPt, clBB.CalcCenter() - rclPt);
switch (tSide)
{
case Base::BoundBox3f::RIGHT:
{
int nX = 0;
while ((fMinDist > ((clBB.MinX - rclPt.x) + ((float)(nX) * _fGridLenX))) && ((unsigned long)(nX) < _ulCtGridsX))
{
for (unsigned long i = 0; i < _ulCtGridsY; i++)
{
for (unsigned long j = 0; j < _ulCtGridsZ; j++)
SearchNearestFacetInGrid(nX, i, j, rclPt, fMinDist, ulFacetInd);
}
nX++;
}
break;
}
case Base::BoundBox3f::LEFT:
{
int nX = _ulCtGridsX - 1;
while ((fMinDist > ((rclPt.x - clBB.MinX) + (float(nX) * _fGridLenX))) && (nX >= 0))
{
for (unsigned long i = 0; i < _ulCtGridsY; i++)
{
for (unsigned long j = 0; j < _ulCtGridsZ; j++)
SearchNearestFacetInGrid(nX, i, j, rclPt, fMinDist, ulFacetInd);
}
nX--;
}
break;
}
case Base::BoundBox3f::TOP:
{
int nY = 0;
while ((fMinDist > ((clBB.MinY - rclPt.y) + ((float)(nY) * _fGridLenY))) && ((unsigned long)(nY) < _ulCtGridsY))
{
for (unsigned long i = 0; i < _ulCtGridsX; i++)
{
for (unsigned long j = 0; j < _ulCtGridsZ; j++)
SearchNearestFacetInGrid(i, nY, j, rclPt, fMinDist, ulFacetInd);
}
nY++;
}
break;
}
case Base::BoundBox3f::BOTTOM:
{
int nY = _ulCtGridsY - 1;
while ((fMinDist > ((rclPt.y - clBB.MinY) + (float(nY) * _fGridLenY))) && (nY >= 0))
{
for (unsigned long i = 0; i < _ulCtGridsX; i++)
{
for (unsigned long j = 0; j < _ulCtGridsZ; j++)
SearchNearestFacetInGrid(i, nY, j, rclPt, fMinDist, ulFacetInd);
}
nY--;
}
break;
}
case Base::BoundBox3f::BACK:
{
int nZ = 0;
while ((fMinDist > ((clBB.MinZ - rclPt.z) + ((float)(nZ) * _fGridLenZ))) && ((unsigned long)(nZ) < _ulCtGridsZ))
{
for (unsigned long i = 0; i < _ulCtGridsX; i++)
{
for (unsigned long j = 0; j < _ulCtGridsY; j++)
SearchNearestFacetInGrid(i, j, nZ, rclPt, fMinDist, ulFacetInd);
}
nZ++;
}
break;
}
case Base::BoundBox3f::FRONT:
{
int nZ = _ulCtGridsZ - 1;
while ((fMinDist > ((rclPt.z - clBB.MinZ) + ((float)(nZ) * _fGridLenZ))) && (nZ >= 0))
{
for (unsigned long i = 0; i < _ulCtGridsX; i++)
{
for (unsigned long j = 0; j < _ulCtGridsY; j++)
SearchNearestFacetInGrid(i, j, nZ, rclPt, fMinDist, ulFacetInd);
}
nZ--;
}
break;
}
default:
break;
}
}
return ulFacetInd;
}
void MeshGrid::SearchNearestFromPoint (const Base::Vector3f &rclPt, std::set<unsigned long> &raclInd) const
{
raclInd.clear();
Base::BoundBox3f clBB = GetBoundBox();
if (clBB.IsInBox(rclPt) == true)
{ // Punkt liegt innerhalb
unsigned long ulX, ulY, ulZ;
Position(rclPt, ulX, ulY, ulZ);
//int nX = ulX, nY = ulY, nZ = ulZ;
unsigned long ulLevel = 0;
while (raclInd.size() == 0)
GetHull(ulX, ulY, ulZ, ulLevel++, raclInd);
GetHull(ulX, ulY, ulZ, ulLevel, raclInd);
}
else
{ // Punkt ausserhalb
Base::BoundBox3f::SIDE tSide = clBB.GetSideFromRay(rclPt, clBB.CalcCenter() - rclPt);
switch (tSide)
{
case Base::BoundBox3f::RIGHT:
{
int nX = 0;
while (raclInd.size() == 0)
{
for (unsigned long i = 0; i < _ulCtGridsY; i++)
{
for (unsigned long j = 0; j < _ulCtGridsZ; j++)
raclInd.insert(_aulGrid[nX][i][j].begin(), _aulGrid[nX][i][j].end());
}
nX++;
}
break;
}
case Base::BoundBox3f::LEFT:
{
int nX = _ulCtGridsX - 1;
while (raclInd.size() == 0)
{
for (unsigned long i = 0; i < _ulCtGridsY; i++)
{
for (unsigned long j = 0; j < _ulCtGridsZ; j++)
raclInd.insert(_aulGrid[nX][i][j].begin(), _aulGrid[nX][i][j].end());
}
nX++;
}
break;
}
case Base::BoundBox3f::TOP:
{
int nY = 0;
while (raclInd.size() == 0)
{
for (unsigned long i = 0; i < _ulCtGridsX; i++)
{
for (unsigned long j = 0; j < _ulCtGridsZ; j++)
raclInd.insert(_aulGrid[i][nY][j].begin(), _aulGrid[i][nY][j].end());
}
nY++;
}
break;
}
case Base::BoundBox3f::BOTTOM:
{
int nY = _ulCtGridsY - 1;
while (raclInd.size() == 0)
{
for (unsigned long i = 0; i < _ulCtGridsX; i++)
{
for (unsigned long j = 0; j < _ulCtGridsZ; j++)
raclInd.insert(_aulGrid[i][nY][j].begin(), _aulGrid[i][nY][j].end());
}
nY--;
}
break;
}
case Base::BoundBox3f::BACK:
{
int nZ = 0;
while (raclInd.size() == 0)
{
for (unsigned long i = 0; i < _ulCtGridsX; i++)
{
for (unsigned long j = 0; j < _ulCtGridsY; j++)
raclInd.insert(_aulGrid[i][j][nZ].begin(), _aulGrid[i][j][nZ].end());
}
nZ++;
}
break;
}
case Base::BoundBox3f::FRONT:
{
int nZ = _ulCtGridsZ - 1;
while (raclInd.size() == 0)
{
for (unsigned long i = 0; i < _ulCtGridsX; i++)
{
for (unsigned long j = 0; j < _ulCtGridsY; j++)
raclInd.insert(_aulGrid[i][j][nZ].begin(), _aulGrid[i][j][nZ].end());
}
nZ--;
}
break;
}
default:
break;
}
}
}
