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189 lines
4.8 KiB
C++
189 lines
4.8 KiB
C++
#ifndef FILE_STLLINE
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#define FILE_STLLINE
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/**************************************************************************/
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/* File: stlline.hh */
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/* Author: Joachim Schoeberl */
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/* Author2: Johannes Gerstmayr */
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/* Date: 20. Nov. 99 */
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/**************************************************************************/
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class STLGeometry;
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class STLTopology;
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class STLEdge
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{
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public:
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int pts[2];
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int trigs[2]; //left and right trig
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STLEdge (const int * apts) {pts[0] = apts[0]; pts[1] = apts[1];}
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STLEdge (int v1, int v2) {pts[0] = v1; pts[1] = v2;}
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STLEdge () {pts[0]=0;pts[1]=0;}
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int PNum(int i) const {return pts[(i-1)];}
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int LeftTrig() const {return trigs[0];}
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int RightTrig() const {return trigs[1];}
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void SetLeftTrig(int i) {trigs[0] = i;}
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void SetRightTrig(int i) {trigs[1] = i;}
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};
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enum STL_ED_STATUS { ED_EXCLUDED, ED_CONFIRMED, ED_CANDIDATE, ED_UNDEFINED };
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/*
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class STLEdgeData
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{
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public:
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// float angle;
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int p1;
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int p2;
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int lt; //left trig
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int rt; //right trig
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// int status;
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STLTopology * top; // pointer to stl topology
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int topedgenr; // number of corresponding topology edge
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STLEdgeData() {};
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STLEdgeData(float anglei, int p1i, int p2i, int lti, int rti)
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{
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// angle = anglei;
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p1 = p1i; p2 = p2i;
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lt = lti; rt = rti;
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}
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int GetStatus () const;
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void SetStatus (int stat);
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void SetExcluded() { SetStatus (ED_EXCLUDED); }
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void SetConfirmed() { SetStatus (ED_CONFIRMED); }
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void SetCandidate() { SetStatus (ED_CANDIDATE); }
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void SetUndefined() { SetStatus (ED_UNDEFINED); }
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int Excluded() const {return GetStatus() == ED_EXCLUDED;}
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int Confirmed() const {return GetStatus() == ED_CONFIRMED;}
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int Candidate() const {return GetStatus() == ED_CANDIDATE;}
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int Undefined() const {return GetStatus() == ED_UNDEFINED;}
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int ConfCand() const {return GetStatus() == ED_CONFIRMED || GetStatus() == ED_CANDIDATE;}
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float CosAngle() const;
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void Write(ofstream& of) const;
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void Read(ifstream& ifs);
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};
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class STLEdgeDataList
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{
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private:
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INDEX_2_HASHTABLE<int> hashtab;
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NgArray<STLEdgeData> edgedata;
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TABLE<int> edgesperpoint;
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public:
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STLEdgeDataList():edgedata(),hashtab(1),edgesperpoint() {};
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const STLEdgeDataList& operator=(const STLEdgeDataList& edl);
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void SetSize(int size)
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{
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edgedata.SetSize(size);
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hashtab.SetSize(size);
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edgesperpoint.SetSize(size);
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}
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void Clear() {SetSize(0);}
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int Size() const {return edgedata.Size();}
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const STLEdgeData& Get(int i) const {return edgedata.Get(i);}
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STLEdgeData& Elem(int i) {return edgedata.Elem(i);}
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void Add(const STLEdgeData& ed, int i);
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int GetNEPP(int pn) const
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{
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return edgesperpoint.EntrySize(pn);
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};
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int GetEdgePP(int pn, int vi) const
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{
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return edgesperpoint.Get(pn,vi);
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};
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void AddEdgePP(int pn, int vn) {edgesperpoint.Add(pn,vn);};
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void ResetAll();
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void ResetCandidates();
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void ConfirmCandidates();
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int GetEdgeNum(int np1, int np2) const;
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int GetNConfEdges() const;
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void Write(ofstream& of) const;
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void Read(ifstream& ifs);
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void BuildLineWithEdge(int ep1, int ep2, NgArray<twoint>& line);
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int GetNEPPStat(int p, int status) const;
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int GetNConfCandEPP(int p) const;
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};
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*/
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//a line defined by several points (polyline)
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class STLLine
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{
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private:
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const STLGeometry * geometry;
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NgArray<int> pts;
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NgArray<int> lefttrigs;
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NgArray<int> righttrigs;
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NgArray<double> dists;
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int split;
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public:
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STLLine(const STLGeometry * ageometry);
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void AddPoint(int i) {pts.Append(i);}
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int PNum(int i) const {return pts.Get(i);}
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int NP() const {return pts.Size();}
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int GetNS() const;
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void GetSeg(int nr, int& p1, int& p2) const;
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double GetSegLen(const NgArray<Point<3> >& ap, int nr) const;
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int GetLeftTrig(int nr) const;
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int GetRightTrig(int nr) const;
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double GetDist(int nr) const { return dists.Get(nr);};
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void GetBoundingBox (const NgArray<Point<3> > & ap, Box<3> & box) const;
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void AddLeftTrig(int nr) {lefttrigs.Append(nr);}
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void AddRightTrig(int nr) {righttrigs.Append(nr);}
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void AddDist (double dist) {dists.Append(dist); }
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int StartP() const {return pts.Get(1);}
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int EndP() const {return pts.Get(pts.Size());}
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double GetLength(const NgArray<Point<3> >& ap) const;
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//suche punkt in entfernung (in linienkoordinaten) dist
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//in index ist letzter punkt VOR dist (d.h. max pts.Size()-1)
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Point<3> GetPointInDist(const NgArray<Point<3> >& ap, double dist, int& index) const;
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//return a meshed polyline
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STLLine* Mesh(const NgArray<Point<3> >& ap,
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NgArray<Point3d>& mp, double ghi,
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class Mesh& mesh) const;
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void DoSplit() {split = 1;}
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int ShouldSplit() const {return split;}
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};
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#endif
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