netgen/libsrc/meshing/adfront2.hpp

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#ifndef NETGEN_ADFRONT2_HPP
#define NETGEN_ADFRONT2_HPP
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/**************************************************************************/
/* File: adfront2.hpp */
/* Author: Joachim Schoeberl */
/* Date: 01. Okt. 95 */
/**************************************************************************/
/**
Advancing front class for surfaces
*/
#include <gprim/geomobjects.hpp>
#include <gprim/adtree.hpp>
#include "meshtype.hpp"
namespace netgen
{
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///
class FrontPoint2
{
/// coordinates
Point<3> p;
/// global node index
PointIndex globalindex;
/// number of front lines connected to point
int nlinetopoint;
/// distance to original boundary
int frontnr;
bool onsurface;
public:
///
MultiPointGeomInfo * mgi;
///
FrontPoint2 ()
{
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globalindex.Invalidate(); // = -1;
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nlinetopoint = 0;
frontnr = INT_MAX-10; // attention: overflow on calculating INT_MAX + 1
mgi = NULL;
onsurface = true;
}
///
FrontPoint2 (const Point<3> & ap, PointIndex agi,
MultiPointGeomInfo * amgi, bool aonsurface = true);
///
~FrontPoint2 () { ; }
///
const Point<3> & P () const { return p; }
///
operator const Point<3> & () const { return p; }
///
PointIndex GlobalIndex () const { return globalindex; }
///
void AddLine () { nlinetopoint++; }
///
void RemoveLine ()
{
nlinetopoint--;
if (nlinetopoint == 0)
nlinetopoint = -1;
}
///
bool Valid () const
{ return nlinetopoint >= 0; }
///
bool OnSurface() const
{ return onsurface; }
///
void DecFrontNr (int afrontnr)
{
if (frontnr > afrontnr) frontnr = afrontnr;
}
///
int FrontNr () const { return frontnr; }
};
///
class FrontLine
{
private:
/// Point Indizes
INDEX_2 l;
/// quality class
int lineclass;
/// geometry specific data
PointGeomInfo geominfo[2];
public:
FrontLine ()
{
lineclass = 1;
}
///
FrontLine (const INDEX_2 & al)
{
l = al;
lineclass = 1;
}
///
const INDEX_2 & L () const
{
return l;
}
///
int LineClass() const
{
return lineclass;
}
///
void IncrementClass ()
{
lineclass++;
}
///
void ResetClass ()
{
lineclass = 1;
}
///
bool Valid () const
{
return l.I1() != -1;
}
///
void Invalidate ()
{
l.I1() = -1;
l.I2() = -1;
lineclass = 1000;
}
void SetGeomInfo (const PointGeomInfo & gi1, const PointGeomInfo & gi2)
{
geominfo[0] = gi1;
geominfo[1] = gi2;
}
const PointGeomInfo * GetGeomInfo () const
{ return geominfo; }
const PointGeomInfo & GetGeomInfo (int endp) const
{ return geominfo[endp-1]; }
friend class AdFront2;
};
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class AdFront2
{
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///
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NgArray<FrontPoint2> points; /// front points
NgArray<FrontLine> lines; /// front lines
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Box3d boundingbox;
BoxTree<3> linesearchtree; /// search tree for lines
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Point3dTree pointsearchtree; /// search tree for points
Point3dTree cpointsearchtree; /// search tree for cone points (not used ???)
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NgArray<int> delpointl; /// list of deleted front points
NgArray<int> dellinel; /// list of deleted front lines
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int nfl; /// number of front lines;
INDEX_2_HASHTABLE<int> * allflines; /// all front lines ever have been
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NgArray<int> invpindex;
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int minval;
int starti;
public:
///
// AdFront2 ();
AdFront2 (const Box3d & aboundingbox);
///
~AdFront2 ();
///
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// void GetPoints (NgArray<Point<3> > & apoints) const;
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///
void Print (ostream & ost) const;
///
bool Empty () const
{
return nfl == 0;
}
///
int GetNFL () const { return nfl; }
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const FrontLine & GetLine (int nr) { return lines[nr]; }
const FrontPoint2 & GetPoint (int nr) { return points[nr]; }
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const auto & GetLines () const { return lines; }
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///
int SelectBaseLine (Point<3> & p1, Point<3> & p2,
const PointGeomInfo *& geominfo1,
const PointGeomInfo *& geominfo2,
int & qualclass);
///
int GetLocals (int baseline,
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NgArray<Point<3>> & locpoints,
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NgArray<MultiPointGeomInfo> & pgeominfo,
NgArray<INDEX_2> & loclines, // local index
NgArray<int> & pindex,
NgArray<int> & lindex,
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double xh);
///
void DeleteLine (int li);
///
int AddPoint (const Point<3> & p, PointIndex globind,
MultiPointGeomInfo * mgi = NULL,
bool pointonsurface = true);
///
int AddLine (int pi1, int pi2,
const PointGeomInfo & gi1, const PointGeomInfo & gi2);
///
int ExistsLine (int gpi1, int gpi2);
///
void IncrementClass (int li)
{
lines[li].IncrementClass();
}
///
void ResetClass (int li)
{
lines[li].ResetClass();
}
///
const PointGeomInfo & GetLineGeomInfo (int li, int lend) const
{ return lines[li].GetGeomInfo (lend); }
///
PointIndex GetGlobalIndex (int pi) const
{
return points[pi].GlobalIndex();
}
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/// is Point p inside Surface (flat geometry only)
bool Inside (const Point<2> & p) const;
bool SameSide (const Point<2> & lp1, const Point<2> & lp2,
const FlatArray<int> * /* testfaces */ = NULL) const;
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/*
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{
return Inside (lp1) == Inside (lp2);
}
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*/
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///
void SetStartFront ();
///
void PrintOpenSegments (ostream & ost) const;
};
} // namespace netgen
#endif // NETGEN_ADFRONT2_HPP