From: ageay Date: Thu, 10 Jul 2008 13:45:12 +0000 (+0000) Subject: *** empty log message *** X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=bebd91da4fabcefd43546567ed152652d42afd35;p=tools%2Fmedcoupling.git *** empty log message *** --- diff --git a/src/INTERP_KERNEL/Geometric2D/AbstractEdge.hxx b/src/INTERP_KERNEL/Geometric2D/AbstractEdge.hxx index ec2e21e5b..bc36e5ffd 100644 --- a/src/INTERP_KERNEL/Geometric2D/AbstractEdge.hxx +++ b/src/INTERP_KERNEL/Geometric2D/AbstractEdge.hxx @@ -52,6 +52,7 @@ namespace INTERP_KERNEL virtual void reverse() = 0; virtual bool completed() const = 0; virtual int recursiveSize() const = 0; + virtual void initLocations() const = 0; virtual AbstractEdge *clone() const = 0; virtual bool isNodeIn(Node *n) const = 0; virtual double getAreaOfZone() const = 0; diff --git a/src/INTERP_KERNEL/Geometric2D/Bounds.cxx b/src/INTERP_KERNEL/Geometric2D/Bounds.cxx index bd6297221..dbce54efc 100644 --- a/src/INTERP_KERNEL/Geometric2D/Bounds.cxx +++ b/src/INTERP_KERNEL/Geometric2D/Bounds.cxx @@ -1,5 +1,6 @@ #include "Bounds.hxx" #include "InterpolationUtils.hxx" +#include "EdgeArcCircle.hxx" #include "Node.hxx" #include @@ -38,11 +39,51 @@ double &Bounds::operator[](int i) throw Exception("internal error occurs !"); } +double Bounds::getDiagonal() const +{ + double a=_xMax-_xMin; + double b=_yMax-_yMin; + return sqrt(a*a+b*b); +} + void Bounds::prepareForAggregation() { _xMin=1e200; _xMax=-1e200; _yMin=1e200; _yMax=-1e200; } +/*! + * Given an arc defined by 'center', 'radius' and 'intrcptArcDelta' in radian, returns (by outputs intrcptArcAngle0 and intrcptArcDelta) + * the intercepted angle of 'this' from 'center' point of view. + * If diagonal of 'this' is the same order of 2*radius, intrcptArcAngle0 and intrcptArcDelta remains unchanged. + * @param center IN parameter. + * @param radius IN parameter. + * @param intrcptArcAngle0 OUT parameter. + * @param intrcptArcDelta IN/OUT parameter. + */ +void Bounds::getInterceptedArc(const double *center, double radius, double& intrcptArcAngle0, double& intrcptArcDelta) const +{ + double diag=getDiagonal(); + if(diag<2.*radius) + { + double v1[2],v2[2],w1[2],w2[2]; + v1[0]=_xMin-center[0]; v1[1]=_yMax-center[1]; v2[0]=_xMax-center[0]; v2[1]=_yMin-center[1]; + w1[0]=v1[0]; w1[1]=_yMin-center[1]; w2[0]=v2[0]; w2[1]=_yMax-center[1]; + double delta1=EdgeArcCircle::safeAsin(v1[0]*v2[1]-v1[1]*v2[0]); + double delta2=EdgeArcCircle::safeAsin(w1[0]*w2[1]-w1[1]*w2[0]); + double tmp; + if(fabs(delta1)>fabs(delta2)) + { + intrcptArcDelta=delta1; + intrcptArcAngle0=EdgeArcCircle::getAbsoluteAngle(v1,tmp); + } + else + { + intrcptArcDelta=delta2; + intrcptArcAngle0=EdgeArcCircle::getAbsoluteAngle(w1,tmp); + } + } +} + double Bounds::fitXForXFigD(double val, int res) const { double delta=fmax(_xMax-_xMin,_yMax-_yMin)/2.; diff --git a/src/INTERP_KERNEL/Geometric2D/Bounds.hxx b/src/INTERP_KERNEL/Geometric2D/Bounds.hxx index 6b3553786..379f30b36 100644 --- a/src/INTERP_KERNEL/Geometric2D/Bounds.hxx +++ b/src/INTERP_KERNEL/Geometric2D/Bounds.hxx @@ -20,10 +20,12 @@ namespace INTERP_KERNEL Bounds():_xMin(0),_xMax(0.),_yMin(0.),_yMax(0.) { } double &operator[](int i); const double& operator[](int i) const; + double getDiagonal() const; Bounds& operator=(const Bounds& other) { _xMin=other._xMin; _xMax=other._xMax; _yMin=other._yMin; _yMax=other._yMax; return *this; } Bounds(double xMin, double xMax, double yMin, double yMax):_xMin(xMin),_xMax(xMax),_yMin(yMin),_yMax(yMax) { } void setValues(double xMin, double xMax, double yMin, double yMax) { _xMin=xMin; _xMax=xMax; _yMin=yMin; _yMax=yMax; } void prepareForAggregation(); + void getInterceptedArc(const double *center, double radius, double& intrcptArcAngle0, double& intrcptArcDelta) const; int fitXForXFig(double val, int res) const { return (int)fitXForXFigD(val,res); } int fitYForXFig(double val, int res) const { return (int)fitYForXFigD(val,res); } double fitXForXFigD(double val, int res) const; diff --git a/src/INTERP_KERNEL/Geometric2D/ComposedEdge.cxx b/src/INTERP_KERNEL/Geometric2D/ComposedEdge.cxx index 5d7f1eebd..6ea0930e8 100644 --- a/src/INTERP_KERNEL/Geometric2D/ComposedEdge.cxx +++ b/src/INTERP_KERNEL/Geometric2D/ComposedEdge.cxx @@ -49,6 +49,28 @@ void ComposedEdge::setValueAt(int i, Edge *e, bool direction) _subEdges[i]=new ElementaryEdge(e,direction); } +struct AbsEdgeCmp +{ + AbsEdgeCmp(AbstractEdge *b):_b1((ElementaryEdge *)b) { } + bool operator()(AbstractEdge *a) { ElementaryEdge *a1=(ElementaryEdge *)a; return a1->getPtr()==_b1->getPtr();} + + ElementaryEdge *_b1; +}; + +double ComposedEdge::getCommonLentgthWith(const ComposedEdge& other) const +{ + double ret=0.; + for(vector::const_iterator iter=_subEdges.begin();iter!=_subEdges.end();iter++) + { + if(find_if(other._subEdges.begin(),other._subEdges.end(),AbsEdgeCmp(*iter))!=other._subEdges.end()) + { + const ElementaryEdge *tmp=static_cast(*iter); + ret+=tmp->getCurveLength(); + } + } + return ret; +} + void ComposedEdge::clear() { clearAll(_subEdges.begin()); @@ -82,6 +104,12 @@ int ComposedEdge::recursiveSize() const return ret; } +void ComposedEdge::initLocations() const +{ + for(vector::const_iterator iter=_subEdges.begin();iter!=_subEdges.end();iter++) + (*iter)->initLocations(); +} + AbstractEdge *ComposedEdge::clone() const { return new ComposedEdge(*this); diff --git a/src/INTERP_KERNEL/Geometric2D/ComposedEdge.hxx b/src/INTERP_KERNEL/Geometric2D/ComposedEdge.hxx index 16a24adf1..5e70afe90 100644 --- a/src/INTERP_KERNEL/Geometric2D/ComposedEdge.hxx +++ b/src/INTERP_KERNEL/Geometric2D/ComposedEdge.hxx @@ -16,6 +16,7 @@ namespace INTERP_KERNEL static void Delete(ComposedEdge *pt) { delete pt; } void reverse(); int recursiveSize() const; + void initLocations() const; AbstractEdge *clone() const; bool isNodeIn(Node *n) const; double getAreaOfZone() const; @@ -27,6 +28,7 @@ namespace INTERP_KERNEL ElementaryEdge * &getFirstElementary(IteratorOnComposedEdge::ItOnFixdLev &delta); void setValueAt(int i, AbstractEdge *val) { delete _subEdges[i]; _subEdges[i]=val; } void setValueAt(int i, Edge *e, bool direction=true); + double getCommonLentgthWith(const ComposedEdge& other) const; void clear(); bool empty() const { return _subEdges.empty(); } AbstractEdge *front() const { return _subEdges.front(); } diff --git a/src/INTERP_KERNEL/Geometric2D/Edge.cxx b/src/INTERP_KERNEL/Geometric2D/Edge.cxx index b860bc287..b69480636 100644 --- a/src/INTERP_KERNEL/Geometric2D/Edge.cxx +++ b/src/INTERP_KERNEL/Geometric2D/Edge.cxx @@ -3,6 +3,7 @@ #include "EdgeInfLin.hxx" //#include "EdgeParabol.hxx" #include "EdgeArcCircle.hxx" +#include "InterpolationUtils.hxx" using namespace std; using namespace INTERP_KERNEL; @@ -498,6 +499,20 @@ void Edge::addSubEdgeInVector(Node *start, Node *end, ComposedEdge& vec) const vec.pushBack(buildEdgeLyingOnMe(start,end,true)); } +/*! + * Retrieves a vector 'vectOutput' that is normal to 'this'. 'vectOutput' is normalized. + */ +void Edge::getNormalVector(double *vectOutput) const +{ + copy((const double *)(*_end),(const double *)(*_end)+2,vectOutput); + transform(vectOutput,vectOutput+2,(const double *)(*_start),vectOutput,minus()); + double norm=1./Node::norm(vectOutput); + transform(vectOutput,vectOutput+2,vectOutput,bind2nd(multiplies(),norm)); + double tmp=vectOutput[0]; + vectOutput[0]=vectOutput[1]; + vectOutput[1]=-tmp; +} + Edge *Edge::buildEdgeFrom(Node *start, Node *end) { return new EdgeLin(start,end); @@ -540,6 +555,58 @@ bool Edge::intersectWith(const Edge *other, MergePoints& commonNode, return ret; } +bool Edge::intersectOverlapped(const Edge *f1, const Edge *f2, Intersector *intersector, MergePoints& commonNode, + ComposedEdge& outValForF1, ComposedEdge& outValForF2) +{ + bool rev=intersector->haveTheySameDirection(); + Node *f2Start=f2->getNode(rev?START:END); + Node *f2End=f2->getNode(rev?END:START); + TypeOfLocInEdge place1, place2; + intersector->getPlacements(f2Start,f2End,place1,place2,commonNode); + int codeForIntersectionCase=combineCodes(place1,place2); + return splitOverlappedEdges(f1,f2,f2Start,f2End,rev,codeForIntersectionCase,outValForF1,outValForF2); +} + +/*! + * Perform 1D linear interpolation. Warning distrib1 and distrib2 are expected to be in ascending mode. + */ +void Edge::interpolate1DLin(const std::vector& distrib1, const std::vector& distrib2, std::map >& result) +{ + int nbOfV1=distrib1.size()-1; + int nbOfV2=distrib2.size()-1; + Node *n1=new Node(0.,0.); Node *n3=new Node(0.,0.); + Node *n2=new Node(0.,0.); Node *n4=new Node(0.,0.); + MergePoints commonNode; + for(int i=0;i::const_iterator iter=find_if(distrib2.begin()+1,distrib2.end(),bind2nd(greater_equal(),distrib1[i])); + if(iter!=distrib2.end()) + { + for(int j=(iter-1)-distrib2.begin();jsetNewCoords(distrib1[i],0.); n2->setNewCoords(distrib1[i+1],0.); + n3->setNewCoords(distrib2[j],0.); n4->setNewCoords(distrib2[j+1],0.); + ComposedEdge *f1=new ComposedEdge; + ComposedEdge *f2=new ComposedEdge; + SegSegIntersector inters(*e1,*e2); + bool b1,b2; + inters.areOverlappedOrOnlyColinears(0,b1,b2); + if(intersectOverlapped(e1,e2,&inters,commonNode,*f1,*f2)) + { + result[i][j]=f1->getCommonLentgthWith(*f2)/e1->getCurveLength(); + } + ComposedEdge::Delete(f1); ComposedEdge::Delete(f2); + e1->decrRef(); e2->decrRef(); + } + } + } + } + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); +} + Intersector *Edge::buildIntersectorWith(const Edge *e1, const Edge *e2) { Intersector *ret=0; @@ -575,15 +642,7 @@ bool Edge::intersect(const Edge *f1, const Edge *f2, Intersector *intersector, c bool areOverlapped; intersector->areOverlappedOrOnlyColinears(whereToFind,obviousNoIntersection,areOverlapped); if(areOverlapped) - { - bool rev=intersector->haveTheySameDirection(); - Node *f2Start=f2->getNode(rev?START:END); - Node *f2End=f2->getNode(rev?END:START); - TypeOfLocInEdge place1, place2; - intersector->getPlacements(f2Start,f2End,place1,place2,commonNode); - int codeForIntersectionCase=combineCodes(place1,place2); - return splitOverlappedEdges(f1,f2,f2Start,f2End,rev,codeForIntersectionCase,outValForF1,outValForF2); - } + return intersectOverlapped(f1,f2,intersector,commonNode,outValForF1,outValForF2); if(obviousNoIntersection) return false; vector newNodes; diff --git a/src/INTERP_KERNEL/Geometric2D/Edge.hxx b/src/INTERP_KERNEL/Geometric2D/Edge.hxx index 2a72b6c39..7496325f7 100644 --- a/src/INTERP_KERNEL/Geometric2D/Edge.hxx +++ b/src/INTERP_KERNEL/Geometric2D/Edge.hxx @@ -1,14 +1,15 @@ #ifndef __EDGE_HXX__ #define __EDGE_HXX__ -#include "InterpolationUtils.hxx" #include "ComposedEdge.hxx" +#include "InterpolationUtils.hxx" #include "Bounds.hxx" #include "Node.hxx" #include #include #include +#include namespace INTERP_KERNEL { @@ -165,6 +166,7 @@ namespace INTERP_KERNEL TypeOfEdgeLocInPolygon getLoc() const { return _loc; } void incrRef() const { _cnt++; } bool decrRef(); + void initLocs() const { _loc=FULL_UNKNOWN; _start->initLocs(); _end->initLocs(); } void declareOn() const; void declareIn() const; void declareOut() const; @@ -180,6 +182,7 @@ namespace INTERP_KERNEL bool changeEndNodeWith(Node *otherEndNode) const; bool changeEndNodeWithAndKeepTrack(Node *otherEndNode, std::vector& track) const; void addSubEdgeInVector(Node *start, Node *end, ComposedEdge& vec) const; + void getNormalVector(double *vectOutput) const; static Intersector *buildIntersectorWith(const Edge *e1, const Edge *e2); static Edge *buildFromXfigLine(std::istream& str); static Edge *buildEdgeFrom(Node *start, Node *end); @@ -188,6 +191,7 @@ namespace INTERP_KERNEL virtual void update(Node *m) = 0; //! returns area between this and axe Ox delimited along Ox by _start and _end. virtual double getAreaOfZone() const = 0; + //! return the length of arc. Value is always > 0. ! virtual double getCurveLength() const = 0; virtual void getBarycenter(double *bary) const = 0; //! Retrieves a point that is owning to this, well placed for IN/OUT detection of this. Typically midlle of this is returned. @@ -198,12 +202,20 @@ namespace INTERP_KERNEL virtual bool isLower(double val1, double val2) const = 0; //! node is expected to lay on 'this'. It returns a characteristic magnitude usable by isIn method. virtual double getCharactValue(const Node& node) const = 0; + //! retrieves the distance to this : The min distance from pt and any point of this. + virtual double getDistanceToPoint(const double *pt) const = 0; + //! return if node with coords 'coordOfNode' is on this (with precision). + virtual bool isNodeLyingOn(const double *coordOfNode) const = 0; virtual TypeOfFunction getTypeOfFunc() const = 0; virtual Edge *buildEdgeLyingOnMe(Node *start, Node *end, bool direction=true) const = 0; virtual void dynCastFunction(const EdgeLin * &seg, const EdgeArcCircle * &arcSeg) const = 0; bool intersectWith(const Edge *other, MergePoints& commonNode, ComposedEdge& outVal1, ComposedEdge& outVal2) const; + static bool intersectOverlapped(const Edge *f1, const Edge *f2, Intersector *intersector, MergePoints& commonNode, + ComposedEdge& outValForF1, ComposedEdge& outValForF2); + static void interpolate1DLin(const std::vector& distrib1, const std::vector& distrib2, + std::map >& result); virtual void dumpInXfigFile(std::ostream& stream, bool direction, int resolution, const Bounds& box) const = 0; protected: Edge():_cnt(1),_loc(FULL_UNKNOWN),_start(0),_end(0) { } diff --git a/src/INTERP_KERNEL/Geometric2D/EdgeArcCircle.cxx b/src/INTERP_KERNEL/Geometric2D/EdgeArcCircle.cxx index 9b91e860e..188aa66c4 100644 --- a/src/INTERP_KERNEL/Geometric2D/EdgeArcCircle.cxx +++ b/src/INTERP_KERNEL/Geometric2D/EdgeArcCircle.cxx @@ -90,6 +90,52 @@ double ArcCArcCIntersector::getAngle(Node *node) const return ret; } +bool ArcCArcCIntersector::areArcsOverlapped(const EdgeArcCircle& a1, const EdgeArcCircle& a2) +{ + double centerL[2],radiusL,angle0L,angleL; + double centerB[2],radiusB; + double lgth1=fabs(a1.getAngle()*a1.getRadius()); + double lgth2=fabs(a2.getAngle()*a2.getRadius()); + if(lgth1getInterceptedArc(centerL,radiusL,angle0L,angleL); + delete merge; + // + tmp=sqrt(tmp); + double phi=EdgeArcCircle::safeAcos((centerL[0]-centerB[0])/tmp); + if(centerL[1]-QUADRATIC_PLANAR::_precision*10.)//QUADRATIC_PLANAR::_precision*QUADRATIC_PLANAR::_precision*_drSq*_drSq/(2.*_dx*_dx)) + _determinant=getE1().getRadius()*getE1().getRadius()/_drSq-_cross*_cross/(_drSq*_drSq); + if(_determinant>-2*QUADRATIC_PLANAR::_precision)//QUADRATIC_PLANAR::_precision*QUADRATIC_PLANAR::_precision*_drSq*_drSq/(2.*_dx*_dx)) obviousNoIntersection=false; else obviousNoIntersection=true; @@ -316,11 +362,11 @@ std::list< IntersectElement > ArcCSegIntersector::getIntersectionsCharacteristic { std::list< IntersectElement > ret; const double *center=getE1().getCenter(); - if(!(fabs(_determinant)<(QUADRATIC_PLANAR::_precision*10.)))//QUADRATIC_PLANAR::_precision*QUADRATIC_PLANAR::_precision*_drSq*_drSq/(2.*_dx*_dx)) + if(!(fabs(_determinant)<(2.*QUADRATIC_PLANAR::_precision)))//QUADRATIC_PLANAR::_precision*QUADRATIC_PLANAR::_precision*_drSq*_drSq/(2.*_dx*_dx)) { double determinant=EdgeArcCircle::safeSqrt(_determinant); - double x1=(_cross*_dy+Node::sign(_dy)*_dx*determinant)/_drSq+center[0]; - double y1=(-_cross*_dx+fabs(_dy)*determinant)/_drSq+center[1]; + double x1=(_cross*_dy/_drSq+Node::sign(_dy)*_dx*determinant)+center[0]; + double y1=(-_cross*_dx/_drSq+fabs(_dy)*determinant)+center[1]; Node *intersect1=new Node(x1,y1); intersect1->declareOn(); bool i1_1S=_e1.getStartNode()->isEqual(*intersect1); bool i1_1E=_e1.getEndNode()->isEqual(*intersect1); @@ -328,8 +374,8 @@ std::list< IntersectElement > ArcCSegIntersector::getIntersectionsCharacteristic bool i1_2E=_e2.getEndNode()->isEqual(*intersect1); ret.push_back(IntersectElement(getE1().getCharactValue(*intersect1),getE2().getCharactValue(*intersect1),i1_1S,i1_1E,i1_2S,i1_2E,intersect1,_e1,_e2,keepOrder())); // - double x2=(_cross*_dy-Node::sign(_dy)*_dx*determinant)/_drSq+center[0]; - double y2=(-_cross*_dx-fabs(_dy)*determinant)/_drSq+center[1]; + double x2=(_cross*_dy/_drSq-Node::sign(_dy)*_dx*determinant)+center[0]; + double y2=(-_cross*_dx/_drSq-fabs(_dy)*determinant)+center[1]; Node *intersect2=new Node(x2,y2); intersect2->declareOn(); bool i2_1S=_e1.getStartNode()->isEqual(*intersect2); bool i2_1E=_e1.getEndNode()->isEqual(*intersect2); @@ -414,6 +460,15 @@ Edge *EdgeArcCircle::buildEdgeLyingOnMe(Node *start, Node *end, bool direction) return new EdgeArcCircle(start,end,_center,_radius,angle0,deltaAngle,direction); } +double EdgeArcCircle::getAbsoluteAngle(const double *vect, double& normVect) +{ + normVect=Node::norm(vect); + double ret=safeAcos(vect[0]/normVect); + if(vect[1]<0) + ret=-ret; + return ret; +} + void EdgeArcCircle::getArcOfCirclePassingThru(const double *start, const double *middle, const double *end, double *center, double& radius, double& angleInRad, double& angleInRad0) { @@ -473,8 +528,8 @@ double EdgeArcCircle::getCurveLength() const void EdgeArcCircle::getBarycenter(double *bary) const { - bary[0]=((*_start)[0]+(*_end)[0])/2.; - bary[1]=((*_start)[1]+(*_end)[1])/2.; + bary[0]=_center[0]+_radius*cos(_angle0+_angle/2.); + bary[1]=_center[1]+_radius*sin(_angle0+_angle/2.); } /*! @@ -524,6 +579,31 @@ double EdgeArcCircle::getCharactValue(const Node& node) const return angle0; } +double EdgeArcCircle::getDistanceToPoint(const double *pt) const +{ + double angle=Node::computeAngle(_center,pt); + if(ArcCArcCIntersector::isIn2Pi(_angle0,_angle,angle)) + return fabs(Node::distanceBtw2Pt(_center,pt)-_radius); + else + { + double dist1=Node::distanceBtw2Pt(*_start,pt); + double dist2=Node::distanceBtw2Pt(*_end,pt); + return fmin(dist1,dist2); + } +} + +bool EdgeArcCircle::isNodeLyingOn(const double *coordOfNode) const +{ + double dist=Node::distanceBtw2Pt(_center,coordOfNode); + if(Node::areDoubleEquals(dist,_radius)) + { + double angle=Node::computeAngle(_center,coordOfNode); + return ArcCArcCIntersector::isIn2Pi(_angle0,_angle,angle); + } + else + return false; +} + void EdgeArcCircle::updateBounds() { _bounds.setValues(fmin((*_start)[0],(*_end)[0]),fmax((*_start)[0],(*_end)[0]),fmin((*_start)[1],(*_end)[1]),fmax((*_start)[1],(*_end)[1])); diff --git a/src/INTERP_KERNEL/Geometric2D/EdgeArcCircle.hxx b/src/INTERP_KERNEL/Geometric2D/EdgeArcCircle.hxx index d8868d231..37b78bbc3 100644 --- a/src/INTERP_KERNEL/Geometric2D/EdgeArcCircle.hxx +++ b/src/INTERP_KERNEL/Geometric2D/EdgeArcCircle.hxx @@ -17,6 +17,7 @@ namespace INTERP_KERNEL private: //! return angle in ]-Pi;Pi[ - 'node' must be on curve of '_e1' double getAngle(Node *node) const; + static bool areArcsOverlapped(const EdgeArcCircle& a1, const EdgeArcCircle& a2); static bool isIn2Pi(double start, double delta, double angleIn); //! 'delta' 'start' in ]-Pi;Pi[ static bool isAngleNotIn(double start, double delta, double angleIn); @@ -66,6 +67,8 @@ namespace INTERP_KERNEL Node *buildRepresentantOfMySelf() const; bool isLower(double val1, double val2) const; double getCharactValue(const Node& node) const; + double getDistanceToPoint(const double *pt) const; + bool isNodeLyingOn(const double *coordOfNode) const; TypeOfFunction getTypeOfFunc() const { return ARC_CIRCLE; } void dynCastFunction(const EdgeLin * &seg, const EdgeArcCircle * &arcSeg) const { arcSeg=this; } @@ -76,11 +79,13 @@ namespace INTERP_KERNEL double getAngle0() const { return _angle0; } double getRadius() const { return _radius; } double getAngle() const { return _angle; } + static double getAbsoluteAngle(const double *vect, double& normVect); static void getArcOfCirclePassingThru(const double *start, const double *middle, const double *end, double *center, double& radius, double& angleInRad, double& angleInRad0); //! To avoid in aggressive optimizations nan. static double safeSqrt(double val) { double ret=fmax(val,0.); return sqrt(ret); } static double safeAcos(double cosAngle) { double ret=fmin(cosAngle,1.); ret=fmax(ret,-1.); return acos(ret); } + static double safeAsin(double sinAngle) { double ret=fmin(sinAngle,1.); ret=fmax(ret,-1.); return asin(ret); } protected: void updateBounds(); protected: diff --git a/src/INTERP_KERNEL/Geometric2D/EdgeLin.cxx b/src/INTERP_KERNEL/Geometric2D/EdgeLin.cxx index fd4b86178..4547332cc 100644 --- a/src/INTERP_KERNEL/Geometric2D/EdgeLin.cxx +++ b/src/INTERP_KERNEL/Geometric2D/EdgeLin.cxx @@ -31,7 +31,8 @@ SegSegIntersector::SegSegIntersector(const EdgeLin& e1, const EdgeLin& e2):SameT */ bool SegSegIntersector::haveTheySameDirection() const { - return (_matrix[_ind?1:0]>0. && _matrix[_ind?3:2]>0.) || (_matrix[_ind?1:0]<0. && _matrix[_ind?3:2]<0.); + return (_matrix[3]*_matrix[1]+_matrix[2]*_matrix[0])>0.; + //return (_matrix[_ind?1:0]>0. && _matrix[_ind?3:2]>0.) || (_matrix[_ind?1:0]<0. && _matrix[_ind?3:2]<0.); } /*! @@ -157,9 +158,33 @@ Node *EdgeLin::buildRepresentantOfMySelf() const double EdgeLin::getCharactValue(const Node& node) const { - double car1_1x=node[0]-(*(_start))[0]; double car1_2x=(*(_end))[0]-(*(_start))[0]; - double car1_1y=node[1]-(*(_start))[1]; double car1_2y=(*(_end))[1]-(*(_start))[1]; - return (car1_1x*car1_2x+car1_1y*car1_2y)/(car1_2x*car1_2x+car1_2y*car1_2y); + return getCharactValueEng(node); +} + +double EdgeLin::getDistanceToPoint(const double *pt) const +{ + double loc=getCharactValueEng(pt); + if(loc>0. && loc<1.) + { + double tmp[2]; + tmp[0]=(*_start)[0]*(1-loc)+loc*(*_end)[0]; + tmp[1]=(*_start)[1]*(1-loc)+loc*(*_end)[1]; + return Node::distanceBtw2Pt(pt,tmp); + } + else + { + double dist1=Node::distanceBtw2Pt(*_start,pt); + double dist2=Node::distanceBtw2Pt(*_end,pt); + return fmin(dist1,dist2); + } +} + +bool EdgeLin::isNodeLyingOn(const double *coordOfNode) const +{ + double dBase=sqrt(_start->distanceWithSq(*_end)); + double d1=Node::distanceBtw2Pt(*_start,coordOfNode); + d1+=Node::distanceBtw2Pt(*_end,coordOfNode); + return Node::areDoubleEquals(dBase,d1); } void EdgeLin::dumpInXfigFile(std::ostream& stream, bool direction, int resolution, const Bounds& box) const @@ -212,3 +237,10 @@ void EdgeLin::updateBounds() { _bounds.setValues(fmin((*_start)[0],(*_end)[0]),fmax((*_start)[0],(*_end)[0]),fmin((*_start)[1],(*_end)[1]),fmax((*_start)[1],(*_end)[1])); } + +double EdgeLin::getCharactValueEng(const double *node) const +{ + double car1_1x=node[0]-(*(_start))[0]; double car1_2x=(*(_end))[0]-(*(_start))[0]; + double car1_1y=node[1]-(*(_start))[1]; double car1_2y=(*(_end))[1]-(*(_start))[1]; + return (car1_1x*car1_2x+car1_1y*car1_2y)/(car1_2x*car1_2x+car1_2y*car1_2y); +} diff --git a/src/INTERP_KERNEL/Geometric2D/EdgeLin.hxx b/src/INTERP_KERNEL/Geometric2D/EdgeLin.hxx index 23cde4982..eccec23a3 100644 --- a/src/INTERP_KERNEL/Geometric2D/EdgeLin.hxx +++ b/src/INTERP_KERNEL/Geometric2D/EdgeLin.hxx @@ -42,7 +42,10 @@ namespace INTERP_KERNEL bool isIn(double characterVal) const; Node *buildRepresentantOfMySelf() const; double getCharactValue(const Node& node) const; + double getDistanceToPoint(const double *pt) const; + bool isNodeLyingOn(const double *coordOfNode) const; bool isLower(double val1, double val2) const { return val1initLocs(); +} + int ElementaryEdge::recursiveSize() const { return 1; diff --git a/src/INTERP_KERNEL/Geometric2D/ElementaryEdge.hxx b/src/INTERP_KERNEL/Geometric2D/ElementaryEdge.hxx index ae2dab936..218fca9e3 100644 --- a/src/INTERP_KERNEL/Geometric2D/ElementaryEdge.hxx +++ b/src/INTERP_KERNEL/Geometric2D/ElementaryEdge.hxx @@ -29,6 +29,7 @@ namespace INTERP_KERNEL void getBarycenter(double *bary, double& weigh) const; double getAreaOfZoneFast() const { double ret=_ptr->getAreaOfZone(); return _direction?ret:-ret; } AbstractEdge *clone() const; + void initLocations() const; int recursiveSize() const; int size() const; TypeOfEdgeLocInPolygon locateFullyMySelfAbsolute(const ComposedEdge& pol) const; diff --git a/src/INTERP_KERNEL/Geometric2D/Node.cxx b/src/INTERP_KERNEL/Geometric2D/Node.cxx index 1f88b6d94..4afeb667f 100644 --- a/src/INTERP_KERNEL/Geometric2D/Node.cxx +++ b/src/INTERP_KERNEL/Geometric2D/Node.cxx @@ -52,14 +52,7 @@ bool Node::isEqual(const Node& other) const double Node::getSlope(const Node& other) const { - double x=other[0]-(*this)[0]; - double y=other[1]-(*this)[1]; - double norm=sqrt(x*x+y*y); - double ret=EdgeArcCircle::safeAcos(fabs(x)/norm); - if( (x>=0. && y>=0.) || (x<0. && y<0.) ) - return ret; - else - return M_PI-ret; + return computeSlope(*this, other); } /*! @@ -83,3 +76,36 @@ double Node::distanceWithSq(const Node& other) const { return (_coords[0]-other._coords[0])*(_coords[0]-other._coords[0])+(_coords[1]-other._coords[1])*(_coords[1]-other._coords[1]); } + +/*! + * WARNING different from 'computeAngle' method ! The returned value are not in the same interval ! + * Here in -Pi/2; Pi/2. Typically this method returns the same value by exchanging pt1 and pt2. + * Use in process of detection of a point in or not in polygon. + */ +double Node::computeSlope(const double *pt1, const double *pt2) +{ + double x=pt2[0]-pt1[0]; + double y=pt2[1]-pt1[1]; + double norm=sqrt(x*x+y*y); + double ret=EdgeArcCircle::safeAcos(fabs(x)/norm); + if( (x>=0. && y>=0.) || (x<0. && y<0.) ) + return ret; + else + return M_PI-ret; +} + +/*! + * WARNING different from 'computeSlope' method. Here angle in -Pi;Pi is returned. + * This method is anti-symetric. + */ +double Node::computeAngle(const double *pt1, const double *pt2) +{ + double x=pt2[0]-pt1[0]; + double y=pt2[1]-pt1[1]; + double norm=sqrt(x*x+y*y); + double ret=EdgeArcCircle::safeAcos(x/norm); + if(y>=0) + return ret; + else + return -ret; +} diff --git a/src/INTERP_KERNEL/Geometric2D/Node.hxx b/src/INTERP_KERNEL/Geometric2D/Node.hxx index 5c5c9fadf..01e7b839b 100644 --- a/src/INTERP_KERNEL/Geometric2D/Node.hxx +++ b/src/INTERP_KERNEL/Geometric2D/Node.hxx @@ -32,6 +32,7 @@ namespace INTERP_KERNEL Node(std::istream& stream); void incrRef() const { _cnt++; } bool decrRef(); + void initLocs() const { _loc=UNKNOWN; } TypeOfLocInPolygon getLoc() const { return _loc; } void declareIn() const { if(_loc==UNKNOWN) _loc=IN_1; } void declareOn() const { if(_loc==UNKNOWN) _loc=ON_1; } @@ -40,18 +41,26 @@ namespace INTERP_KERNEL void declareOnTangent() { _loc=ON_TANG_1; } operator const double*() const { return _coords; } bool isEqual(const Node& other) const; + //returns an angle in -Pi/2;Pi/2. double getSlope(const Node& other) const; bool isEqualAndKeepTrack(const Node& other, std::vector& track) const; void dumpInXfigFile(std::ostream& stream, int resolution, const Bounds& box) const; double distanceWithSq(const Node& other) const; double operator[](int i) const { return _coords[i]; } - //!for tests only ! + //! use with caution void setNewCoords(double x, double y) { _coords[0]=x; _coords[1]=y; } + //returns an angle in -Pi/2;Pi/2. + static double computeSlope(const double *pt1, const double *pt2); + //returns an angle in -Pi;Pi + static double computeAngle(const double *pt1, const double *pt2); + static double dot(const double *vect1, const double *vect2) { return vect1[0]*vect2[0]+vect1[1]*vect2[1]; } static double sign(double val) { if(val>=0) return 1.; else return -1.; } + static double norm(const double *vect) { return sqrt(vect[0]*vect[0]+vect[1]*vect[1]); } static bool areDoubleEquals(double a, double b) { return fabs(a-b) < QUADRATIC_PLANAR::_precision; } //! idem areDoubleEquals except that precision of comparison is modified. static bool areDoubleEqualsWP(double a, double b, double k) { return fabs(a-b) < k*QUADRATIC_PLANAR::_precision; } static double distanceBtw2Pt(const double *a, const double *b) { return sqrt((a[0]-b[0])*(a[0]-b[0])+(a[1]-b[1])*(a[1]-b[1])); } + static double distanceBtw2PtSq(const double *a, const double *b) { return (a[0]-b[0])*(a[0]-b[0])+(a[1]-b[1])*(a[1]-b[1]); } protected: ~Node(); protected: diff --git a/src/INTERP_KERNEL/Geometric2D/Precision.hxx b/src/INTERP_KERNEL/Geometric2D/Precision.hxx index 9eb3d275e..a71150c81 100644 --- a/src/INTERP_KERNEL/Geometric2D/Precision.hxx +++ b/src/INTERP_KERNEL/Geometric2D/Precision.hxx @@ -1,3 +1,6 @@ +#ifndef __PRECISION_HXX__ +#define __PRECISION_HXX__ + namespace INTERP_KERNEL { class QUADRATIC_PLANAR @@ -9,3 +12,5 @@ namespace INTERP_KERNEL static void setArcDetectionPrecision(double precision); }; } + +#endif diff --git a/src/INTERP_KERNEL/Geometric2D/QuadraticPolygon.cxx b/src/INTERP_KERNEL/Geometric2D/QuadraticPolygon.cxx index c12a58678..64ce89abc 100644 --- a/src/INTERP_KERNEL/Geometric2D/QuadraticPolygon.cxx +++ b/src/INTERP_KERNEL/Geometric2D/QuadraticPolygon.cxx @@ -7,6 +7,7 @@ #include "Edge.txx" #include +#include using namespace std; using namespace INTERP_KERNEL; @@ -78,6 +79,20 @@ QuadraticPolygon *QuadraticPolygon::buildArcCirclePolygon(std::vector& n return ret; } +void QuadraticPolygon::buildDbgFile(const std::vector& nodes, const char *fileName) +{ + ofstream file(fileName); + file << setprecision(16); + file << " double coords[]=" << endl << " { "; + for(vector::const_iterator iter=nodes.begin();iter!=nodes.end();iter++) + { + if(iter!=nodes.begin()) + file << "," << endl << " "; + file << (*(*iter))[0] << ", " << (*(*iter))[1]; + } + file << "};" << endl; +} + void QuadraticPolygon::closeMe() const { if(!front()->changeStartNodeWith(back()->getEndNode())) @@ -357,7 +372,10 @@ bool QuadraticPolygon::amIAChanceToBeCompletedBy(const QuadraticPolygon& pol1Spl else { direction=true; - return pol2NotSplitted.isInOrOut(cur->getEndNode()); + Node *repr=cur->getPtr()->buildRepresentantOfMySelf(); + bool ret=pol2NotSplitted.isInOrOut(repr); + repr->decrRef(); + return ret; } } else diff --git a/src/INTERP_KERNEL/Geometric2D/QuadraticPolygon.hxx b/src/INTERP_KERNEL/Geometric2D/QuadraticPolygon.hxx index 9096db02d..60f312937 100644 --- a/src/INTERP_KERNEL/Geometric2D/QuadraticPolygon.hxx +++ b/src/INTERP_KERNEL/Geometric2D/QuadraticPolygon.hxx @@ -18,6 +18,7 @@ namespace INTERP_KERNEL QuadraticPolygon(const char *fileName); static QuadraticPolygon *buildLinearPolygon(std::vector& nodes); static QuadraticPolygon *buildArcCirclePolygon(std::vector& nodes); + static void buildDbgFile(const std::vector& nodes, const char *fileName); ~QuadraticPolygon(); void closeMe() const; void circularPermute(); diff --git a/src/INTERP_KERNEL/Test/Makefile.am b/src/INTERP_KERNEL/Test/Makefile.am index f1f108728..3ade2cabc 100644 --- a/src/INTERP_KERNEL/Test/Makefile.am +++ b/src/INTERP_KERNEL/Test/Makefile.am @@ -30,25 +30,31 @@ salomeinclude_HEADERS = CppUnitTest.hxx \ InterpolationTestSuite.hxx \ SingleElementTetraTests.hxx \ MultiElementTetraTests.hxx \ - HexaTests.hxx \ + HexaTests.hxx \ MeshTestToolkit.hxx \ BBTreeTest.hxx \ RemapperTest.hxx \ SingleElementPlanarTests.hxx \ MultiElement2DTests.hxx \ - InterpolationPlanarTestSuite.hxx + InterpolationPlanarTestSuite.hxx \ + QuadraticPlanarInterpTest.hxx EXTRA_DIST += BasicMainTest.hxx dist_libInterpKernelTest_la_SOURCES= \ - CppUnitTest.cxx \ - TransformedTriangleTest.cxx \ - TransformedTriangleIntersectTest.cxx \ - BBTreeTest.cxx \ - RemapperTest.cxx \ - SingleElementPlanarTests.cxx \ - PointLocatorTest.cxx \ - MEDMeshMaker.cxx + CppUnitTest.cxx \ + TransformedTriangleTest.cxx \ + TransformedTriangleIntersectTest.cxx \ + BBTreeTest.cxx \ + RemapperTest.cxx \ + SingleElementPlanarTests.cxx \ + PointLocatorTest.cxx \ + MEDMeshMaker.cxx \ + QuadraticPlanarInterpTest.cxx \ + QuadraticPlanarInterpTest2.cxx \ + QuadraticPlanarInterpTest3.cxx \ + QuadraticPlanarInterpTest4.cxx + libInterpKernelTest_la_CPPFLAGS= @CPPUNIT_INCLUDES@ $(MED2_INCLUDES) $(HDF5_INCLUDES) \ -I$(srcdir)/.. -I$(srcdir)/../../MEDWrapper/V2_1/Core -I$(srcdir)/../../MEDMEM -I$(srcdir)/../Geometric2D -DOPTIMIZE -DLOG_LEVEL=0 diff --git a/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest.cxx b/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest.cxx new file mode 100644 index 000000000..d57cd6199 --- /dev/null +++ b/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest.cxx @@ -0,0 +1,857 @@ +#include "QuadraticPlanarInterpTest.hxx" +#include "QuadraticPolygon.hxx" +#include "EdgeArcCircle.hxx" +#include "ElementaryEdge.hxx" +#include "ComposedEdge.hxx" +#include "EdgeLin.hxx" + +#include +#include + +using namespace std; +using namespace INTERP_KERNEL; + +static const double ADMISSIBLE_ERROR = 1.e-14; + +void QuadraticPlanarInterpTest::setUp() +{ +} + +void QuadraticPlanarInterpTest::tearDown() +{ +} + +void QuadraticPlanarInterpTest::cleanUp() +{ +} + +void QuadraticPlanarInterpTest::ReadWriteInXfigElementary() +{ + //Testing bounds calculation. For Seg2 + istringstream stream("2 1 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 2\n3200 3400 4500 4700"); + EdgeLin *e1=new EdgeLin(stream); + Bounds bound=e1->getBounds(); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.32,bound[0],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.45,bound[1],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.34,bound[2],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.47,bound[3],ADMISSIBLE_ERROR); + e1->decrRef(); + istringstream stream2("2 1 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 2\n4500 4700 3200 3400"); + e1=new EdgeLin(stream2); + bound=e1->getBounds(); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.32,bound[0],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.45,bound[1],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.34,bound[2],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.47,bound[3],ADMISSIBLE_ERROR); + e1->decrRef(); + //Testing bounds calculation For Arc of circle. + +} + +void QuadraticPlanarInterpTest::ReadWriteInXfigGlobal() +{ + string dataBaseDir(getenv("MED_ROOT_DIR")); + dataBaseDir+="/share/salome/resources/med/"; + string tmp; + tmp=dataBaseDir; tmp+="Pol1.fig"; + QuadraticPolygon pol1(tmp.c_str()); + pol1.dumpInXfigFile("Pol1_gen.fig"); + tmp=dataBaseDir; tmp+="Pol2.fig"; + QuadraticPolygon pol2(tmp.c_str()); + pol2.dumpInXfigFile("Pol2_gen.fig"); + tmp=dataBaseDir; tmp+="Pol3.fig"; + QuadraticPolygon pol3(tmp.c_str()); + pol3.dumpInXfigFile("Pol3_gen.fig"); + tmp=dataBaseDir; tmp+="Pol4.fig"; + QuadraticPolygon pol4(tmp.c_str()); + CPPUNIT_ASSERT_EQUAL(1,pol4.size()); + ElementaryEdge *edge1=dynamic_cast(pol4[0]); + CPPUNIT_ASSERT(edge1); + Edge *edge2=edge1->getPtr(); + EdgeArcCircle *edge=dynamic_cast(edge2); + CPPUNIT_ASSERT(edge); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.24375,edge->getRadius(),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(5.7857653289925404,edge->getAngle(),ADMISSIBLE_ERROR); + double center[2]; + edge->getCenter(center); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.48,center[0],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.48375,center[1],ADMISSIBLE_ERROR); + const double *start=*edge->getStartNode(); + Node *n1=new Node(start[0]+2*(center[0]-start[0]),start[1]+2*(center[1]-start[1])); + edge->changeMiddle(n1); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.24375,edge->getRadius(),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(5.7857653289925404,edge->getAngle(),ADMISSIBLE_ERROR); + n1->decrRef(); + n1=new Node(center[0],center[1]+0.24375); + edge->changeMiddle(n1); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.24375,edge->getRadius(),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-0.49741997818704586,edge->getAngle(),ADMISSIBLE_ERROR);//5.7857653289925404 + 2*PI + n1->decrRef(); + //A half circle. + EdgeArcCircle *e=new EdgeArcCircle(0.84,0.54,0.78,0.6,0.84,0.66); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.06,e->getRadius(),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-3.1415925921507317,e->getAngle(),1e-5); + e->decrRef(); + e=new EdgeArcCircle(0.84,0.54,0.9,0.6,0.84,0.66); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.06,e->getRadius(),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(3.1415925921507317,e->getAngle(),1e-5); + e->decrRef(); +} + +void QuadraticPlanarInterpTest::BasicGeometricTools() +{ + Node *n1=new Node(1.,1.); + Node *n2=new Node(4.,2.); + EdgeLin *e1=new EdgeLin(n1,n2); + double tmp[2]; + e1->getNormalVector(tmp); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-0.94868329805051377,tmp[1],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.31622776601683794,tmp[0],ADMISSIBLE_ERROR); + e1->decrRef(); + n1->decrRef(); n2->decrRef(); + n1=new Node(1.,1.); + n2=new Node(0.,4.); + e1=new EdgeLin(n1,n2); + double tmp2[2]; + e1->getNormalVector(tmp2); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.,Node::dot(tmp,tmp2),1e-10); + tmp[0]=0.5; tmp[1]=2.5; + CPPUNIT_ASSERT(e1->isNodeLyingOn(tmp)); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.,e1->getDistanceToPoint(tmp),1e-12); + tmp[1]=2.55; CPPUNIT_ASSERT(!e1->isNodeLyingOn(tmp)); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0158113883008418,e1->getDistanceToPoint(tmp),1e-12); + tmp[0]=0.; tmp[1]=5.; + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.,e1->getDistanceToPoint(tmp),1e-12); + EdgeArcCircle *e=new EdgeArcCircle(4.,3.,0.,5.,-5.,0.); + tmp[0]=-4.; tmp[1]=3.; + CPPUNIT_ASSERT(e->isNodeLyingOn(tmp)); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.,e->getDistanceToPoint(tmp),1e-12); + tmp[1]=3.1; CPPUNIT_ASSERT(!e->isNodeLyingOn(tmp)); + CPPUNIT_ASSERT_DOUBLES_EQUAL(6.0632371551998077e-2,e->getDistanceToPoint(tmp),1e-12); + tmp[0]=-4.; tmp[1]=-3.; + CPPUNIT_ASSERT(!e->isNodeLyingOn(tmp)); + CPPUNIT_ASSERT_DOUBLES_EQUAL(3.1622776601683795,e->getDistanceToPoint(tmp),1e-12); + e->decrRef(); + e1->decrRef(); + n1->decrRef(); n2->decrRef(); +} + +void QuadraticPlanarInterpTest::IntersectionBasics() +{ + //Testing intersection of Bounds. + istringstream stream1("2 1 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 2\n3200 3400 4500 4800"); + EdgeLin *e1=new EdgeLin(stream1); + istringstream stream2("2 1 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 2\n3200 3400 4500 4800"); + EdgeLin *e2=new EdgeLin(stream2); + Bounds *bound=e1->getBounds().amIIntersectingWith(e2->getBounds()); CPPUNIT_ASSERT(bound); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.32,(*bound)[0],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.45,(*bound)[1],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.34,(*bound)[2],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.48,(*bound)[3],ADMISSIBLE_ERROR); + delete bound; + e2->decrRef(); e1->decrRef(); + // + istringstream stream3("2 1 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 2\n3000 7200 6000 3700"); + EdgeLin *e3=new EdgeLin(stream3); + istringstream stream4("2 1 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 2\n4800 6600 7200 4200"); + EdgeLin *e4=new EdgeLin(stream4); + bound=e3->getBounds().amIIntersectingWith(e4->getBounds()); CPPUNIT_ASSERT(bound); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.48,(*bound)[0],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.6,(*bound)[1],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.42,(*bound)[2],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.66,(*bound)[3],ADMISSIBLE_ERROR); + delete bound; + e3->decrRef(); e4->decrRef(); +} + +void QuadraticPlanarInterpTest::EdgeLinUnitary() +{ + EdgeLin *e1=new EdgeLin(0.5,0.5,3.7,4.1); + Node *n=new Node(2.1,2.3); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getCharactValue(*n),0.5,1e-8); + n->decrRef(); + n=new Node(3.7,4.1); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getCharactValue(*n),1.,1e-8); + n->decrRef(); + n=new Node(0.5,0.5); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getCharactValue(*n),0.,1e-8); + n->decrRef(); + n=new Node(-1.1,-1.3); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getCharactValue(*n),-0.5,1e-8); + n->decrRef(); + n=new Node(5.3,5.9); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getCharactValue(*n),1.5,1e-8); + n->decrRef(); e1->decrRef(); +} + +/*! + * Here two things are tested. + * 1 ) One the overlapping calculation capability of edge/edge intersector. + * 2 ) Then the capability to handle the case where 2 segs (whatever their type) are overlapped. + * All the configuration of full or part overlapping have been tested. + */ +void QuadraticPlanarInterpTest::IntersectionEdgeOverlapUnitarySegSeg() +{ + ComposedEdge& v1=*(new ComposedEdge); + ComposedEdge& v2=*(new ComposedEdge); + MergePoints v3; + //Testing merge of geometric equals seg2. + EdgeLin *e1=new EdgeLin(0.5,0.5,1.,1.); EdgeLin *e2=new EdgeLin(0.5,0.5,1.,1.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(2,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && v2[0]->getDirection()); + v1.clear(); v2.clear(); v3.clear(); + // - testing by adding some noise + e1->decrRef(); e1=new EdgeLin(0.5+5.e-15,0.5-5.e-15,1.,1.+7.e-15); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(2,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && v2[0]->getDirection()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Testing merge of geometric equals seg2 but now with opposite direction + e1=new EdgeLin(0.5,0.5,0.7,0.7); e2=new EdgeLin(0.7+6.e-15,0.7-2.e-15,0.5+3.e-15,0.5-4.e-15); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(2,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && !v2[0]->getDirection());//compared 8 lines above !v2[0]->getDirection() + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 0 + //Test 1 - OUT_AFTER - OUT_AFTER | same dir. - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(1.5,0.,2.,0.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(0,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(0,(int)v2.size()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 2 - INSIDE - OUT_AFTER | same dir. - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(0.5,0.,1.5,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[1]->intresicEqualDirSensitive(v2[0])); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); CPPUNIT_ASSERT(e2->getStartNode()==v2[0]->getStartNode()); CPPUNIT_ASSERT(e2->getEndNode()==v2[1]->getEndNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 2 - INSIDE - OUT_AFTER | same dir. - 90° + e1=new EdgeLin(0.,0.,0.,1.); e2=new EdgeLin(0.,0.5,0.,1.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[1]->intresicEqualDirSensitive(v2[0])); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); CPPUNIT_ASSERT(e2->getStartNode()==v2[0]->getStartNode()); CPPUNIT_ASSERT(e2->getEndNode()==v2[1]->getEndNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 2 - INSIDE - OUT_AFTER | same dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(0.5,0.5,1.5,1.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[1]->intresicEqualDirSensitive(v2[0])); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); CPPUNIT_ASSERT(e2->getStartNode()==v2[0]->getStartNode()); CPPUNIT_ASSERT(e2->getEndNode()==v2[1]->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 2 - INSIDE - OUT_AFTER | opp. dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(1.5,1.5,0.5,0.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(!v1[1]->intresicEqualDirSensitive(v2[1]) && v1[1]->intresicEqual(v2[1])); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); CPPUNIT_ASSERT(e2->getStartNode()==v2[0]->getStartNode()); CPPUNIT_ASSERT(e2->getEndNode()==v2[1]->getEndNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 3 - INSIDE - INSIDE | same dir. - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(0.25,0.,0.75,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(3,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[1]->intresincEqCoarse(e2) && v1[1]->getDirection()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(v1[1]->getEndNode()==v1[2]->getStartNode()); + CPPUNIT_ASSERT(v1[0]->getStartNode()== e1->getStartNode()); CPPUNIT_ASSERT(v1[2]->getEndNode()== e1->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==e2->getStartNode()); CPPUNIT_ASSERT(v1[1]->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 3 - INSIDE - INSIDE | same dir. - 90° + e1=new EdgeLin(0.,0.,0.,1.); e2=new EdgeLin(0.,0.25,0.,0.75); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(3,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[1]->intresincEqCoarse(e2) && v1[1]->getDirection()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(v1[1]->getEndNode()==v1[2]->getStartNode()); + CPPUNIT_ASSERT(v1[0]->getStartNode()== e1->getStartNode()); CPPUNIT_ASSERT(v1[2]->getEndNode()== e1->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==e2->getStartNode()); CPPUNIT_ASSERT(v1[1]->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 3 - INSIDE - INSIDE | same dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(0.25,0.25,0.75,0.75); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(3,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[1]->intresincEqCoarse(e2) && v1[1]->getDirection()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(v1[1]->getEndNode()==v1[2]->getStartNode()); + CPPUNIT_ASSERT(v1[0]->getStartNode()== e1->getStartNode()); CPPUNIT_ASSERT(v1[2]->getEndNode()== e1->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==e2->getStartNode()); CPPUNIT_ASSERT(v1[1]->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 3 - INSIDE - INSIDE | opp dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(0.75,0.75,0.25,0.25); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(3,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[1]->intresincEqCoarse(e2) && !v1[1]->getDirection()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(v1[1]->getEndNode()==v1[2]->getStartNode()); + CPPUNIT_ASSERT(v1[0]->getStartNode()== e1->getStartNode()); CPPUNIT_ASSERT(v1[2]->getEndNode()== e1->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==e2->getEndNode()); CPPUNIT_ASSERT(v1[1]->getEndNode()==e2->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 4 - OUT_BEFORE - OUT_BEFORE | same dir. - 0 ° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(-1.,0.,-0.5,0.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(0,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(0,(int)v2.size()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 5 - OUT_BEFORE - INSIDE | same dir. - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(-0.5,0.,0.5,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresicEqualDirSensitive(v2[1])); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 5 - OUT_BEFORE - INSIDE | same dir. - 90° + e1=new EdgeLin(0.,0.,0.,1.); e2=new EdgeLin(0,-0.5,0.,0.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresicEqualDirSensitive(v2[1])); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 5 - OUT_BEFORE - INSIDE | same dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(-0.5,-0.5,0.5,0.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresicEqualDirSensitive(v2[1])); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 5 - OUT_BEFORE - INSIDE | opp dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(0.5,0.5,-0.5,-0.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(!v1[0]->intresicEqualDirSensitive(v2[0]) && v1[0]->intresicEqual(v2[0]) ); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 6 - OUT_BEFORE - OUT_AFTER | same dir. - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(-0.5,0.,1.5,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(3,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); + CPPUNIT_ASSERT(v2[1]->intresincEqCoarse(e1) && v2[1]->getDirection()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode() && v2[1]->getEndNode()==v2[2]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 6 - OUT_BEFORE - OUT_AFTER | same dir. - 90° + e1=new EdgeLin(0.,0.,0.,1.); e2=new EdgeLin(0.,-0.5,0.,1.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(3,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); + CPPUNIT_ASSERT(v2[1]->intresincEqCoarse(e1) && v2[1]->getDirection()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode() && v2[1]->getEndNode()==v2[2]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 6 - OUT_BEFORE - OUT_AFTER | same dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(-0.5,-0.5,1.5,1.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(3,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); + CPPUNIT_ASSERT(v2[1]->intresincEqCoarse(e1) && v2[1]->getDirection()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode() && v2[1]->getEndNode()==v2[2]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 6 - OUT_BEFORE - OUT_AFTER | opp dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(1.5,1.5,-0.5,-0.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(3,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); + CPPUNIT_ASSERT(v2[1]->intresincEqCoarse(e1) && !v2[1]->getDirection()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode() && v2[1]->getEndNode()==v2[2]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 7 - END - OUT_AFTER | same dir. - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(1.,0.,1.5,0.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(0,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(0,(int)v2.size()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 7 - END - OUT_AFTER | opp dir. - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(1.5,0.,1.,0.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(0,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(0,(int)v2.size()); + CPPUNIT_ASSERT(e1->getEndNode()==e2->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 8 - START - END | same dir. - 0° + e1=new EdgeLin(0.,0.,0.7,0.); e2=new EdgeLin(0.,0.,0.7,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(2,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 8 - START - END | same dir. - 90° + e1=new EdgeLin(0.,0.,0.,0.7); e2=new EdgeLin(0.,0.,0.,0.7); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(2,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 8 - START - END | same dir. - 45° + e1=new EdgeLin(0.,0.,0.7,0.7); e2=new EdgeLin(0.,0.,0.7,0.7); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(2,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 8 - START - END | opp. dir. - 45° + e1=new EdgeLin(0.,0.,0.7,0.7); e2=new EdgeLin(0.7,0.7,0.,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(2,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && !v2[0]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==e2->getEndNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 9 - OUT_BEFORE - START | same dir. + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(-0.5,0.,0.,0.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(0,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(0,(int)v2.size()); + CPPUNIT_ASSERT(e2->getEndNode()==e1->getStartNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 10 - START - OUT_AFTER | same dir. - 0° + e1=new EdgeLin(0.,0.,0.7,0.); e2=new EdgeLin(0.,0.,1.,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(v2[1]->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 10 - START - OUT_AFTER | same dir. - 90° + e1=new EdgeLin(0.,0.,0.,0.7); e2=new EdgeLin(0.,0.,0.,1.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(v2[1]->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 10 - START - OUT_AFTER | same dir. - 45° + e1=new EdgeLin(0.,0.,0.7,0.7); e2=new EdgeLin(0.,0.,1.,1.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(v2[1]->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 10 - START - OUT_AFTER | opp dir. - 45° + e1=new EdgeLin(0.,0.,0.7,0.7); e2=new EdgeLin(1.,1.,0.,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[1]->intresincEqCoarse(e1) && !v2[1]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==e2->getEndNode()); CPPUNIT_ASSERT(v2[1]->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 11 - INSIDE - END | same dir. - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(0.7,0.,1.,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[1]->intresincEqCoarse(e2) && v1[1]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e2) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 11 - INSIDE - END | same dir. - 90° + e1=new EdgeLin(0.,0.,0.,1.); e2=new EdgeLin(0.,0.7,0.,1.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[1]->intresincEqCoarse(e2) && v1[1]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e2) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 11 - INSIDE - END | same dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(0.7,0.7,1.,1.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[1]->intresincEqCoarse(e2) && v1[1]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e2) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 11 - INSIDE - END | opp dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(1.,1.,0.7,0.7); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(e1->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getStartNode()); + CPPUNIT_ASSERT(v1[1]->intresincEqCoarse(e2) && !v1[1]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e2) && v2[0]->getDirection()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 12 - OUT_BEFORE - END | same dir. - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(-0.5,0.,1.,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[1]->intresincEqCoarse(e1) && v2[1]->getDirection()); + CPPUNIT_ASSERT(e2->getStartNode()==v2[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getEndNode()); CPPUNIT_ASSERT(e2->getEndNode()==v2[1]->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 12 - OUT_BEFORE - END | same dir. - 90° + e1=new EdgeLin(0.,0.,0.,1.); e2=new EdgeLin(0.,-0.5,0.,1.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[1]->intresincEqCoarse(e1) && v2[1]->getDirection()); + CPPUNIT_ASSERT(e2->getStartNode()==v2[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getEndNode()); CPPUNIT_ASSERT(e2->getEndNode()==v2[1]->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 12 - OUT_BEFORE - END | same dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(-0.5,-0.5,1.,1.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[1]->intresincEqCoarse(e1) && v2[1]->getDirection()); + CPPUNIT_ASSERT(e2->getStartNode()==v2[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getEndNode()); CPPUNIT_ASSERT(e2->getEndNode()==v2[1]->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 12 - OUT_BEFORE - END | opp dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(1.,1.,-0.5,-0.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e1) && !v2[0]->getDirection()); + CPPUNIT_ASSERT(e2->getStartNode()==v2[0]->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==e2->getStartNode()); CPPUNIT_ASSERT(e2->getEndNode()==v2[1]->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 13 - START - INSIDE | same dir. - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(0.,0.,0.5,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e2) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e2) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e2->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 13 - START - INSIDE | same dir. - 90° + e1=new EdgeLin(0.,0.,0.,1.); e2=new EdgeLin(0.,0.,0.,0.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e2) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e2) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e2->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 13 - START - INSIDE | same dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(0.,0.,0.5,0.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e2) && v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e2) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e2->getStartNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 13 - START - INSIDE | opp dir. - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(0.5,0.5,0.,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e2) && !v1[0]->getDirection()); CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e2) && v2[0]->getDirection()); + CPPUNIT_ASSERT(e2->getEndNode()==v1[0]->getStartNode()); CPPUNIT_ASSERT(e1->getStartNode()==e2->getEndNode()); CPPUNIT_ASSERT(e1->getEndNode()==v1[1]->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + ComposedEdge::Delete(&v1); + ComposedEdge::Delete(&v2); +} + +/*! + * Here there is test of cases where between 2 edges intersects only in points not on edge. + */ +void QuadraticPlanarInterpTest::IntersectionPointOnlyUnitarySegSeg() +{ + // 0° - classical + EdgeLin *e1=new EdgeLin(0.,0.,1.,0.); + EdgeLin *e2=new EdgeLin(0.3,0.3,0.5,-0.3); + ComposedEdge& v1=*(new ComposedEdge); + ComposedEdge& v2=*(new ComposedEdge); MergePoints v3; + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.4,(*v1[0]->getEndNode())[0],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.,(*v1[0]->getEndNode())[1],ADMISSIBLE_ERROR); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + // 90° - classical + e1=new EdgeLin(0.,0.,0.,1.); + e2=new EdgeLin(-0.3,0.3,0.3,0.5); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT(v1[0]->getEndNode()==v1[1]->getStartNode()); CPPUNIT_ASSERT(v2[0]->getEndNode()==v2[1]->getStartNode()); + CPPUNIT_ASSERT(e1->getStartNode()==v1.front()->getStartNode() && e1->getEndNode()==v1.back()->getEndNode()); + CPPUNIT_ASSERT(e2->getStartNode()==v2.front()->getStartNode() && e2->getEndNode()==v2.back()->getEndNode()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.,(*v1[0]->getEndNode())[0],ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.4,(*v1[0]->getEndNode())[1],ADMISSIBLE_ERROR); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 1 - 0° + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(0.,0.,0.,1.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(v3.isStart1(0)); CPPUNIT_ASSERT(v3.isStart2(0)); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 1 - 90° + e1=new EdgeLin(0.,0.,0.,1.); e2=new EdgeLin(0.,0.,1.,0.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(v3.isStart1(0)); CPPUNIT_ASSERT(v3.isStart2(0)); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 1 - 45° + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(0.,0.,1.,-1.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(v3.isStart1(0)); CPPUNIT_ASSERT(v3.isStart2(0)); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 2 + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(1.,1.,1.,0.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(v3.isEnd1(0)); CPPUNIT_ASSERT(v3.isEnd2(0)); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 3 + e1=new EdgeLin(0.,0.,1.,0.); e2=new EdgeLin(1.,0.,1.,1.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(v3.isEnd1(0)); CPPUNIT_ASSERT(v3.isStart2(0)); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Test 4 + e1=new EdgeLin(0.,0.,1.,1.); e2=new EdgeLin(1.,-1.,0.,0.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(v3.isStart1(0)); CPPUNIT_ASSERT(v3.isEnd2(0)); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Intersection extremity of one edge and inside of other edge. 2 End. + e1=new EdgeLin(0.,0.,1.,0.); + e2=new EdgeLin(0.5,1.,0.5,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e2) && v2[0]->getDirection()); + CPPUNIT_ASSERT(v1[0]->getStartNode()==e1->getStartNode() && v1[0]->getEndNode()==e2->getEndNode() && v1[1]->getStartNode()==e2->getEndNode() && v1[1]->getEndNode()==e1->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getDirection() && v1[1]->getDirection()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Intersection extremity of one edge and inside of other edge. 2 Start. + e1=new EdgeLin(0.,0.,1.,0.); + e2=new EdgeLin(0.5,0.,0.5,1.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(2,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(1,(int)v2.size()); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(v2[0]->intresincEqCoarse(e2) && v2[0]->getDirection()); + CPPUNIT_ASSERT(v1[0]->getStartNode()==e1->getStartNode() && v1[0]->getEndNode()==e2->getStartNode() && v1[1]->getStartNode()==e2->getStartNode() && v1[1]->getEndNode()==e1->getEndNode()); + CPPUNIT_ASSERT(v1[0]->getDirection() && v1[1]->getDirection()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Intersection extremity of one edge and inside of other edge. 1 Start. + e1=new EdgeLin(0.5,0.,0.5,1.); + e2=new EdgeLin(0.,0.,1.,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); + CPPUNIT_ASSERT(v2[0]->getStartNode()==e2->getStartNode() && v2[0]->getEndNode()==e1->getStartNode() && v2[1]->getStartNode()==e1->getStartNode() && v2[1]->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getDirection() && v2[1]->getDirection()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + //Intersection extremity of one edge and inside of other edge. 1 End. + e1=new EdgeLin(0.5,1.,0.5,0.); + e2=new EdgeLin(0.,0.,1.,0.); + CPPUNIT_ASSERT(e1->intersectWith(e2,v3,v1,v2)); + CPPUNIT_ASSERT_EQUAL(1,(int)v1.size()); + CPPUNIT_ASSERT_EQUAL(2,(int)v2.size()); + CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(v1[0]->intresincEqCoarse(e1) && v1[0]->getDirection()); + CPPUNIT_ASSERT(v2[0]->getStartNode()==e2->getStartNode() && v2[0]->getEndNode()==e1->getEndNode() && v2[1]->getStartNode()==e1->getEndNode() && v2[1]->getEndNode()==e2->getEndNode()); + CPPUNIT_ASSERT(v2[0]->getDirection() && v2[1]->getDirection()); + e2->decrRef(); e1->decrRef(); + v1.clear(); v2.clear(); v3.clear(); + ComposedEdge::Delete(&v2); + ComposedEdge::Delete(&v1); +} diff --git a/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest.hxx b/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest.hxx new file mode 100644 index 000000000..2c1387352 --- /dev/null +++ b/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest.hxx @@ -0,0 +1,93 @@ +#ifndef _QUADRATICPLANARINTERPTEST_HXX_ +#define _QUADRATICPLANARINTERPTEST_HXX_ + +#include + +namespace INTERP_KERNEL +{ + class Node; + class EdgeArcCircle; + class QuadraticPolygon; + + class QuadraticPlanarInterpTest : public CppUnit::TestFixture + { + CPPUNIT_TEST_SUITE( QuadraticPlanarInterpTest ); + CPPUNIT_TEST( ReadWriteInXfigElementary ); + CPPUNIT_TEST( ReadWriteInXfigGlobal ); + CPPUNIT_TEST( BasicGeometricTools ); + CPPUNIT_TEST( IntersectionBasics ); + CPPUNIT_TEST( EdgeLinUnitary ); + CPPUNIT_TEST( IntersectionEdgeOverlapUnitarySegSeg ); + CPPUNIT_TEST( IntersectionPointOnlyUnitarySegSeg ); + CPPUNIT_TEST( IntersectArcCircleBase ); + CPPUNIT_TEST( IntersectArcCircleFull ); + CPPUNIT_TEST( IntersectArcCircleSegumentBase ); + CPPUNIT_TEST( checkInOutDetection ); + CPPUNIT_TEST( checkAssemblingBases1 ); + CPPUNIT_TEST( checkAssemblingBases2 ); + CPPUNIT_TEST( checkPolygonsIntersection1 ); + CPPUNIT_TEST( checkAreasCalculations ); + CPPUNIT_TEST( checkHighLevelFunctionTest1 ); + CPPUNIT_TEST( check1DInterpLin ); + CPPUNIT_TEST( checkNonRegression1 ); + CPPUNIT_TEST( checkNonRegression2 ); + CPPUNIT_TEST( checkNonRegression3 ); + CPPUNIT_TEST( checkNonRegression4 ); +// CPPUNIT_TEST( checkNonRegression5 ); + CPPUNIT_TEST( checkNonRegression6 ); + CPPUNIT_TEST( checkNonRegression7 ); + CPPUNIT_TEST( checkNonRegression8 ); + CPPUNIT_TEST( checkNonRegression9 ); + CPPUNIT_TEST( checkNonRegression10 ); + CPPUNIT_TEST( checkNonRegression11 ); +// CPPUNIT_TEST( checkNonRegression12 ); + CPPUNIT_TEST_SUITE_END(); + public: + void setUp(); + void tearDown(); + void cleanUp(); + // + void ReadWriteInXfigElementary(); + void ReadWriteInXfigGlobal(); + void BasicGeometricTools(); + void IntersectionBasics(); + void EdgeLinUnitary(); + void IntersectionEdgeOverlapUnitarySegSeg(); + void IntersectionPointOnlyUnitarySegSeg(); + // + void IntersectArcCircleBase(); + void IntersectArcCircleFull(); + void IntersectArcCircleSegumentBase(); + // + void checkInOutDetection(); + // + void checkAssemblingBases1(); + void checkAssemblingBases2(); + // + void checkPolygonsIntersection1(); + void checkAreasCalculations(); + // + void checkHighLevelFunctionTest1(); + // + void check1DInterpLin(); + // + void checkNonRegression1(); + void checkNonRegression2(); + void checkNonRegression3(); + void checkNonRegression4(); + void checkNonRegression5(); + void checkNonRegression6(); + void checkNonRegression7(); + void checkNonRegression8(); + void checkNonRegression9(); + void checkNonRegression10(); + void checkNonRegression11(); + void checkNonRegression12(); + private: + EdgeArcCircle *buildArcOfCircle(const double *center, double radius, double alphaStart, double alphaEnd); + double btw2NodesAndACenter(const Node& n1, const Node& n2, const double *center); + void checkBasicsOfPolygons(QuadraticPolygon& pol1, QuadraticPolygon& pol2, bool checkDirection); + }; +} + +#endif diff --git a/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest2.cxx b/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest2.cxx new file mode 100644 index 000000000..7cb4b35c5 --- /dev/null +++ b/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest2.cxx @@ -0,0 +1,643 @@ +#include "QuadraticPlanarInterpTest.hxx" +#include "QuadraticPolygon.hxx" +#include "EdgeArcCircle.hxx" +#include "EdgeLin.hxx" + +#include +#include +#include + +using namespace std; +using namespace INTERP_KERNEL; + +static const double ADMISSIBLE_ERROR = 1.e-14; + +void QuadraticPlanarInterpTest::IntersectArcCircleBase() +{ + double center[2]={0.5,0.5}; + double radius=0.3; + EdgeArcCircle *e1=buildArcOfCircle(center,radius,M_PI/4.,M_PI/3.); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[0],center[0]+radius*cos(M_PI/3),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[1],center[0]+radius*cos(M_PI/4),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[2],center[1]+radius*sin(M_PI/4),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[3],center[1]+radius*sin(M_PI/3),ADMISSIBLE_ERROR); + e1->decrRef(); + // + e1=buildArcOfCircle(center,radius,M_PI/3.,M_PI/2.); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[0],center[0]+radius*cos(M_PI/2),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[1],center[0]+radius*cos(M_PI/3),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[2],center[1]+radius*sin(M_PI/3),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[3],center[1]+radius*sin(M_PI/2),ADMISSIBLE_ERROR); + e1->decrRef(); + // + e1=buildArcOfCircle(center,radius,M_PI/3.,3.*M_PI/4.); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[0],center[0]+radius*cos(3*M_PI/4),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[1],center[0]+radius*cos(M_PI/3),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[2],center[1]+radius*sin(3*M_PI/4),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[3],center[1]+radius*sin(M_PI/2),ADMISSIBLE_ERROR);//<< + e1->decrRef(); + // + e1=buildArcOfCircle(center,radius,3*M_PI/4,7*M_PI/8); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[0],center[0]+radius*cos(7*M_PI/8),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[1],center[0]+radius*cos(3*M_PI/4),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[2],center[1]+radius*sin(7*M_PI/8),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[3],center[1]+radius*sin(3*M_PI/4),ADMISSIBLE_ERROR); + e1->decrRef(); + // + e1=buildArcOfCircle(center,radius,7.*M_PI/8.,9.*M_PI/8.); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[0],center[0]+radius*cos(M_PI),ADMISSIBLE_ERROR);//<< + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[1],center[0]+radius*cos(7*M_PI/8),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[2],center[1]+radius*sin(9*M_PI/8),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[3],center[1]+radius*sin(7*M_PI/8),ADMISSIBLE_ERROR); + e1->decrRef(); + // + e1=buildArcOfCircle(center,radius,9.*M_PI/8.,11.*M_PI/8.); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[0],center[0]+radius*cos(9*M_PI/8),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[1],center[0]+radius*cos(11*M_PI/8),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[2],center[1]+radius*sin(11*M_PI/8),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[3],center[1]+radius*sin(9*M_PI/8),ADMISSIBLE_ERROR); + e1->decrRef(); + // + e1=buildArcOfCircle(center,radius,11.*M_PI/8.,7.*M_PI/4.); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[0],center[0]+radius*cos(11*M_PI/8),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[1],center[0]+radius*cos(7*M_PI/4),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[2],center[1]+radius*sin(3*M_PI/2),ADMISSIBLE_ERROR);//<< + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[3],center[1]+radius*sin(7*M_PI/4),ADMISSIBLE_ERROR); + e1->decrRef(); + // + e1=buildArcOfCircle(center,radius,7.*M_PI/4.,15.*M_PI/8.); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[0],center[0]+radius*cos(7*M_PI/4),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[1],center[0]+radius*cos(15*M_PI/8),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[2],center[1]+radius*sin(7*M_PI/4),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[3],center[1]+radius*sin(15*M_PI/8),ADMISSIBLE_ERROR); + e1->decrRef(); + // + e1=buildArcOfCircle(center,radius,-M_PI/8.,M_PI/4.); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[0],center[0]+radius*cos(M_PI/4),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[1],center[0]+radius*cos(0.),ADMISSIBLE_ERROR); //<< + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[2],center[1]+radius*sin(15*M_PI/8),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getBounds()[3],center[1]+radius*sin(M_PI/4),ADMISSIBLE_ERROR); + e1->decrRef(); + // + // ArcCArcCIntersector + // + TypeOfLocInEdge where1,where2; + vector v4; + MergePoints v3; + EdgeArcCircle *e2; + ArcCArcCIntersector *intersector=0; + for(unsigned k=0;k<8;k++) + { + e1=buildArcOfCircle(center,radius,M_PI/4.+k*M_PI/4.,M_PI/3.+k*M_PI/4.); + e2=buildArcOfCircle(center,radius,M_PI/4.+k*M_PI/4.,M_PI/3.+k*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + intersector->getPlacements(e2->getStartNode(),e2->getEndNode(),where1,where2,v3); + CPPUNIT_ASSERT(where1==START && where2==END); + delete intersector; v3.clear(); e2->decrRef(); + // + e2=buildArcOfCircle(center,radius,7*M_PI/24.+k*M_PI/4.,M_PI/3.+k*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + intersector->getPlacements(e2->getStartNode(),e2->getEndNode(),where1,where2,v3); + CPPUNIT_ASSERT(where1==INSIDE && where2==END); + delete intersector; v3.clear(); e2->decrRef(); + // + e2=buildArcOfCircle(center,radius,M_PI/4.+k*M_PI/4.,7*M_PI/24.+k*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + intersector->getPlacements(e2->getStartNode(),e2->getEndNode(),where1,where2,v3); + CPPUNIT_ASSERT(where1==START && where2==INSIDE); + delete intersector; v3.clear(); e2->decrRef(); + // + e2=buildArcOfCircle(center,radius,13.*M_PI/48.+k*M_PI/4.,15*M_PI/48.+k*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + intersector->getPlacements(e2->getStartNode(),e2->getEndNode(),where1,where2,v3); + CPPUNIT_ASSERT(where1==INSIDE && where2==INSIDE); + delete intersector; v3.clear(); e2->decrRef(); + // + e2=buildArcOfCircle(center,radius,-M_PI/4.+k*M_PI/4.,M_PI/6.+k*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + intersector->getPlacements(e2->getStartNode(),e2->getEndNode(),where1,where2,v3); + CPPUNIT_ASSERT(where1==OUT_BEFORE && where2==OUT_BEFORE); + delete intersector; v3.clear(); e2->decrRef(); + // + e2=buildArcOfCircle(center,radius,0+k*M_PI/4.,5*M_PI/6.+k*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + intersector->getPlacements(e2->getStartNode(),e2->getEndNode(),where1,where2,v3); + CPPUNIT_ASSERT(where1==OUT_BEFORE && where2==OUT_AFTER); + delete intersector; v3.clear(); e2->decrRef(); + e1->decrRef(); + } + // Ok now let's see intersection only. 2 intersections R1 > R2 ; dist(circle1,circle2)>R1; Opposite order. + for(unsigned k=0;k<8;k++) + { + center[0]=0.; center[1]=0.; + double center2[2]; center2[0]=3.8*cos(k*M_PI/4.); center2[1]=3.8*sin(k*M_PI/4.); + e1=buildArcOfCircle(center,3.,(k-1)*M_PI/4.,(k+1)*M_PI/4.); + e2=buildArcOfCircle(center2,1.,M_PI+(k-1)*M_PI/4.,M_PI+(k+1)*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(!order); + CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT(!v4[0]->isEqual(*v4[1])); + CPPUNIT_ASSERT_DOUBLES_EQUAL(btw2NodesAndACenter(*v4[0],*v4[1],e1->getCenter()),0.35587863972199624,1e-10); + for(vector::iterator iter=v4.begin();iter!=v4.end();iter++) + (*iter)->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // Ok now let's see intersection only. 2 intersections R1 > R2 ; dist(circle1,circle2)>R1; Same order. + for(unsigned k=0;k<7;k++) + { + center[0]=0.; center[1]=0.; + double center2[2]; center2[0]=3.8*cos(k*M_PI/4.); center2[1]=3.8*sin(k*M_PI/4.); + e1=buildArcOfCircle(center,3.,(k-1)*M_PI/4.,(k+1)*M_PI/4.); + e2=buildArcOfCircle(center2,1.,M_PI+(k+1)*M_PI/4.,M_PI+(k-1)*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); + CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT(!v4[0]->isEqual(*v4[1])); + CPPUNIT_ASSERT_DOUBLES_EQUAL(btw2NodesAndACenter(*v4[0],*v4[1],e1->getCenter()),0.35587863972199624,1e-10); + for(vector::iterator iter=v4.begin();iter!=v4.end();iter++) + (*iter)->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // 2 intersections R1>R2 ; dist(circle1,circle2)areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); + CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT(!v4[0]->isEqual(*v4[1])); + CPPUNIT_ASSERT_DOUBLES_EQUAL(btw2NodesAndACenter(*v4[0],*v4[1],e1->getCenter()),0.6793851523346941,1e-10); + for(vector::iterator iter=v4.begin();iter!=v4.end();iter++) + (*iter)->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // 2 intersections R1>R2 ; dist(circle1,circle2)areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(!order); + CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT(!v4[0]->isEqual(*v4[1])); + CPPUNIT_ASSERT_DOUBLES_EQUAL(btw2NodesAndACenter(*v4[0],*v4[1],e1->getCenter()),0.6793851523346941,1e-10); + for(vector::iterator iter=v4.begin();iter!=v4.end();iter++) + (*iter)->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // Ok now let's see intersection only. 2 intersections R1 < R2 ; dist(circle1,circle2)>R2; Opposite order. + for(unsigned k=0;k<1;k++) + { + double center2[2]; center[0]=0.; center[1]=0.; + center2[0]=3.8*cos(k*M_PI/4.); center2[1]=3.8*sin(k*M_PI/4.); + e1=buildArcOfCircle(center,1.,(k-1)*M_PI/4.,(k+1)*M_PI/4.); + e2=buildArcOfCircle(center2,3.,M_PI+(k-1)*M_PI/4.,M_PI+(k+1)*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(!order); + CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT(!v4[0]->isEqual(*v4[1])); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.1195732971845034,btw2NodesAndACenter(*v4[0],*v4[1],e1->getCenter()),1e-10); + for(vector::iterator iter=v4.begin();iter!=v4.end();iter++) + (*iter)->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // Ok now let's see intersection only. 2 intersections R1 < R2 ; dist(circle1,circle2)>R2; same order. + for(unsigned k=0;k<8;k++) + { + double center2[2]; center[0]=0.; center[1]=0.; + center2[0]=3.8*cos(k*M_PI/4.); center2[1]=3.8*sin(k*M_PI/4.); + e1=buildArcOfCircle(center,1.,(k+1)*M_PI/4.,(k-1)*M_PI/4.); + e2=buildArcOfCircle(center2,3.,M_PI+(k-1)*M_PI/4.,M_PI+(k+1)*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); + CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT(!v4[0]->isEqual(*v4[1])); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.1195732971845034,btw2NodesAndACenter(*v4[0],*v4[1],e1->getCenter()),1e-10); + for(vector::iterator iter=v4.begin();iter!=v4.end();iter++) + (*iter)->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // Ok now let's see intersection only. 2 intersections R1 < R2 ; dist(circle1,circle2)areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); + CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT(!v4[0]->isEqual(*v4[1])); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-3.0844420190512074,btw2NodesAndACenter(*v4[0],*v4[1],e1->getCenter()),1e-10); + for(vector::iterator iter=v4.begin();iter!=v4.end();iter++) + (*iter)->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // Ok now let's see intersection only. 2 intersections R1 < R2 ; dist(circle1,circle2)areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(!order); + CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[1]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT(!v4[0]->isEqual(*v4[1])); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-3.0844420190512074,btw2NodesAndACenter(*v4[0],*v4[1],e1->getCenter()),1e-10); + for(vector::iterator iter=v4.begin();iter!=v4.end();iter++) + (*iter)->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // Tangent intersection + QUADRATIC_PLANAR::setPrecision(1e-5); + for(unsigned k=0;k<8;k++) + { + double center2[2]; center[0]=0.; center[1]=0.; + center2[0]=4.*cos(k*M_PI/4.); center2[1]=4.*sin(k*M_PI/4.); + e1=buildArcOfCircle(center,1.,(k+1)*M_PI/4.,(k-1)*M_PI/4.); + e2=buildArcOfCircle(center2,3.,M_PI+(k-1)*M_PI/4.,M_PI+(k+1)*M_PI/4.); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); // order has no sence here because v4.size() expected to 1 but for valgrind serenity test. + CPPUNIT_ASSERT_EQUAL(1,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR); + for(vector::iterator iter=v4.begin();iter!=v4.end();iter++) + (*iter)->decrRef(); + v4.clear(); v4.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + QUADRATIC_PLANAR::setPrecision(1e-14); + // Extremities # 1 + for(unsigned k=0;k<8;k++) + { + center[0]=0.; center[1]=0.; + double center2[2]; center2[0]=3.8*cos(k*M_PI/4.); center2[1]=3.8*sin(k*M_PI/4.); + e1=buildArcOfCircle(center,3.,k*M_PI/4.-0.17793931986099812,k*M_PI/4.+0.17793931986099812); + e2=buildArcOfCircle(center2,1.,M_PI+k*M_PI/4.-0.55978664859225125,M_PI+k*M_PI/4.+0.55978664859225125); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(!intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT_EQUAL(0,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(2,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(e1->getStartNode()==e2->getEndNode()); CPPUNIT_ASSERT(e2->getStartNode()==e1->getEndNode()); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + for(unsigned k=0;k<8;k++) + { + center[0]=0.; center[1]=0.; + double center2[2]; center2[0]=3.8*cos(k*M_PI/4.); center2[1]=3.8*sin(k*M_PI/4.); + e1=buildArcOfCircle(center,3.,k*M_PI/4.-0.17793931986099812,k*M_PI/4.+0.17793931986099812); + e2=buildArcOfCircle(center2,1.,M_PI+k*M_PI/4.+0.55978664859225125,M_PI+k*M_PI/4.-0.55978664859225125); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(!intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT_EQUAL(0,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(2,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(e2->getEndNode()==e1->getEndNode()); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // Extremities # 2 + for(unsigned k=0;k<8;k++) + { + center[0]=0.; center[1]=0.; + double center2[2]; center2[0]=3.8*cos(k*M_PI/4.); center2[1]=3.8*sin(k*M_PI/4.); + e1=buildArcOfCircle(center,3.,k*M_PI/4.-0.17793931986099812,k*M_PI/4.+0.17793931986099812); + e2=buildArcOfCircle(center2,1.,M_PI+k*M_PI/4.+0.55978664859225125,M_PI+k*M_PI/4.-0.7); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); + CPPUNIT_ASSERT(order); CPPUNIT_ASSERT_EQUAL(1,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(1,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(e1->getStartNode()==e2->getStartNode()); CPPUNIT_ASSERT(e1->getEndNode()==v4[0]); + v4[0]->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // Extremities # 3 + for(unsigned k=0;k<8;k++) + { + center[0]=0.; center[1]=0.; + double center2[2]; center2[0]=3.8*cos(k*M_PI/4.); center2[1]=3.8*sin(k*M_PI/4.); + e1=buildArcOfCircle(center,3.,k*M_PI/4.-0.17793931986099812,k*M_PI/4.+0.17793931986099812); + e2=buildArcOfCircle(center2,1.,M_PI+k*M_PI/4.+0.7,M_PI+k*M_PI/4.-0.7); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(e1->getStartNode()==v4[0]); CPPUNIT_ASSERT(e1->getEndNode()==v4[1]); + v4[0]->decrRef(); v4[1]->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + // Extremities # 4 + for(unsigned k=0;k<8;k++) + { + center[0]=0.; center[1]=0.; + double center2[2]; center2[0]=3.8*cos(k*M_PI/4.); center2[1]=3.8*sin(k*M_PI/4.); + Node *nodeS=new Node(center[0]+3.*cos(k*M_PI/4.-0.17793931986099812),center[1]+3.*sin(k*M_PI/4.-0.17793931986099812)); + Node *nodeE=new Node(center[0]+3.*cos(k*M_PI/4.),center[1]+3.*sin(k*M_PI/4.)); + double angle=k*M_PI/4.-0.17793931986099812; + angle=angle>M_PI?angle-2.*M_PI:angle; + e1=new EdgeArcCircle(nodeS,nodeE,//Problem of precision 1e-14 to easily reached. + center,3.,angle,0.17793931986099812); + nodeS->decrRef(); nodeE->decrRef(); + e2=buildArcOfCircle(center2,1.,M_PI+k*M_PI/4.+0.7,M_PI+k*M_PI/4.-0.7); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); CPPUNIT_ASSERT_EQUAL(1,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(e1->getStartNode()==v4[0]); + v4[0]->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } + //Extremities # 5 + for(unsigned k=0;k<8;k++) + { + center[0]=0.; center[1]=0.; + double center2[2]; center2[0]=3.8*cos(k*M_PI/4.); center2[1]=3.8*sin(k*M_PI/4.); + Node *nodeS=new Node(center[0]+3.*cos(k*M_PI/4.-0.17793931986099812),center[1]+3.*sin(k*M_PI/4.-0.17793931986099812)); + Node *nodeE=new Node(center[0]+3.*cos(k*M_PI/4.)+0.5,center[1]+3.*sin(k*M_PI/4.)); + double angle=k*M_PI/4.-0.17793931986099812; + angle=angle>M_PI?angle-2.*M_PI:angle; + e1=new EdgeArcCircle(nodeS,nodeE,//Problem of precision 1e-14 to easily reached. + center,3.,angle,0.67793931986099812); + nodeS->decrRef(); nodeE->decrRef(); + e2=buildArcOfCircle(center2,1.,M_PI+k*M_PI/4.+0.7,M_PI+k*M_PI/4.-0.7); + intersector=new ArcCArcCIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT(e1->getStartNode()==v4[0]); + v4[0]->decrRef(); v4[1]->decrRef(); + v4.clear(); v3.clear(); + delete intersector; e2->decrRef(); e1->decrRef(); + } +} + +void QuadraticPlanarInterpTest::IntersectArcCircleFull() +{ + double center1[2]; center1[0]=0.; center1[1]=0.; double radius1=3.; + double center2[2]; center2[0]=0.75; center2[1]=-2.6; double radius2=1.; + EdgeArcCircle *e1=buildArcOfCircle(center1,radius1,-M_PI/3.,4.*M_PI/3.); + EdgeArcCircle *e2=buildArcOfCircle(center2,radius2,0.,M_PI/2.); + MergePoints commonNode; + QuadraticPolygon pol1; QuadraticPolygon pol2; + QuadraticPolygon pol3; QuadraticPolygon pol4; + pol3.pushBack(e1); pol4.pushBack(e2); + CPPUNIT_ASSERT_DOUBLES_EQUAL(15.707963267948966,pol3.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.5707963267949,pol4.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(19.6648305849,pol3.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.8146018366,pol4.getAreaFast(),1e-6); + CPPUNIT_ASSERT(e1->intersectWith(e2,commonNode,pol1,pol2)); + CPPUNIT_ASSERT_EQUAL(2,pol1.size()); + CPPUNIT_ASSERT_EQUAL(2,pol2.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(19.6648305849,pol1.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.8146018366,pol2.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(15.707963267948966,pol1.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.5707963267949,pol2.getPerimeterFast(),1e-6); + // + e1=buildArcOfCircle(center1,radius1,-2*M_PI/3.,-7.*M_PI/3.); + e2=buildArcOfCircle(center2,radius2,0.,M_PI/2.); + commonNode.clear(); + QuadraticPolygon pol5; QuadraticPolygon pol6; + QuadraticPolygon pol7; QuadraticPolygon pol8; + pol7.pushBack(e1); pol8.pushBack(e2); + CPPUNIT_ASSERT_DOUBLES_EQUAL(15.707963267948966,pol7.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.5707963267949,pol8.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-19.6648305849,pol7.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.8146018366,pol8.getAreaFast(),1e-6); + CPPUNIT_ASSERT(e1->intersectWith(e2,commonNode,pol5,pol6)); + CPPUNIT_ASSERT_EQUAL(2,pol5.size()); + CPPUNIT_ASSERT_EQUAL(2,pol6.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-19.6648305849,pol5.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.8146018366,pol6.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(15.707963267948966,pol5.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.5707963267949,pol6.getPerimeterFast(),1e-6); + // + center2[0]=3.5; center2[1]=0.; + e1=buildArcOfCircle(center1,radius1,-2*M_PI/3.,-7.*M_PI/3.); + e2=buildArcOfCircle(center2,radius2,M_PI/2.,3*M_PI/2.); + commonNode.clear(); + QuadraticPolygon pol9; QuadraticPolygon pol10; + QuadraticPolygon pol11; QuadraticPolygon pol12; + pol11.pushBack(e1); pol12.pushBack(e2); + CPPUNIT_ASSERT_DOUBLES_EQUAL(15.707963267948966,pol11.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(3.1415926535897931,pol12.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-19.6648305849,pol11.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.5707963267949,pol12.getAreaFast(),1e-6); + CPPUNIT_ASSERT(e1->intersectWith(e2,commonNode,pol9,pol10)); + CPPUNIT_ASSERT_EQUAL(3,pol9.size()); + CPPUNIT_ASSERT_EQUAL(3,pol10.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(15.707963267948966,pol9.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(3.1415926535897931,pol10.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-19.6648305849,pol9.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.5707963267949,pol10.getAreaFast(),1e-6); + // + center2[0]=0.; center2[1]=0.; radius2=radius1; + e1=buildArcOfCircle(center1,radius1,-2*M_PI/3.,-7.*M_PI/3.); + e2=buildArcOfCircle(center2,radius2,M_PI/3.,2*M_PI/3.); + commonNode.clear(); + QuadraticPolygon pol13; QuadraticPolygon pol14; + QuadraticPolygon pol15; QuadraticPolygon pol16; + pol15.pushBack(e1); pol16.pushBack(e2); + CPPUNIT_ASSERT_DOUBLES_EQUAL(15.707963267948966,pol15.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(3.1415926535897931,pol16.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-19.6648305849,pol15.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(8.6095032974147,pol16.getAreaFast(),1e-6); + CPPUNIT_ASSERT(e1->intersectWith(e2,commonNode,pol13,pol14)); + CPPUNIT_ASSERT_EQUAL(3,pol13.size()); + CPPUNIT_ASSERT_EQUAL(1,pol14.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(15.707963267948966,pol13.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-19.6648305849,pol13.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(3.1415926535897931,pol14.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(8.6095032974147,pol14.getAreaFast(),1e-6); + // + e1=buildArcOfCircle(center1,radius1,-2*M_PI/3.,-7.*M_PI/3.); + e2=buildArcOfCircle(center2,radius2,2*M_PI/3.,M_PI/3.); + commonNode.clear(); + QuadraticPolygon pol17; QuadraticPolygon pol18; + QuadraticPolygon pol19; QuadraticPolygon pol20; + pol19.pushBack(e1); pol20.pushBack(e2); + CPPUNIT_ASSERT_DOUBLES_EQUAL(15.707963267948966,pol19.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(3.1415926535897931,pol20.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-19.6648305849,pol19.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-8.6095032974147,pol20.getAreaFast(),1e-6); + CPPUNIT_ASSERT(e1->intersectWith(e2,commonNode,pol17,pol18)); + CPPUNIT_ASSERT_EQUAL(3,pol17.size()); + CPPUNIT_ASSERT_EQUAL(1,pol18.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(15.707963267948966,pol17.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-19.6648305849,pol17.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(3.1415926535897931,pol18.getPerimeterFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-8.6095032974147,pol18.getAreaFast(),1e-6); + //no intersection #1 + center2[0]=4.277; center2[1]=-4.277; + e1=buildArcOfCircle(center1,radius1,-2*M_PI/3.,-7.*M_PI/3.); + e2=buildArcOfCircle(center2,radius2,M_PI/4.,5*M_PI/4.); + QuadraticPolygon polTemp1; QuadraticPolygon polTemp2; + CPPUNIT_ASSERT(!e1->intersectWith(e2,commonNode,polTemp1,polTemp2)); + e1->decrRef(); e2->decrRef(); + //no intersection #2 + center2[0]=1.; center2[1]=-1.; radius2=0.2; + e1=buildArcOfCircle(center1,radius1,-2*M_PI/3.,-7.*M_PI/3.); + e2=buildArcOfCircle(center2,radius2,M_PI/4.,5*M_PI/4.); + CPPUNIT_ASSERT(!e1->intersectWith(e2,commonNode,polTemp1,polTemp2)); + e1->decrRef(); e2->decrRef(); +} + +void QuadraticPlanarInterpTest::IntersectArcCircleSegumentBase() +{ + double center[2]={2.,2.}; + EdgeArcCircle *e1=buildArcOfCircle(center,2.3,M_PI/4.,5.*M_PI/4.); + EdgeLin *e2=new EdgeLin(-1.3,1.,3.,5.3); + Intersector *intersector=new ArcCSegIntersector(*e1,*e2); + bool order; + bool obvious,areOverlapped; + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); + CPPUNIT_ASSERT(!obvious && !areOverlapped); + vector v4; + MergePoints v3; + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(!order); CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(2.,(*v4[0])[0],1e-10); CPPUNIT_ASSERT_DOUBLES_EQUAL(4.3,(*v4[0])[1],1e-10); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-0.3,(*v4[1])[0],1e-10); CPPUNIT_ASSERT_DOUBLES_EQUAL(2.,(*v4[1])[1],1e-10); + v4[0]->decrRef(); v4[1]->decrRef(); e2->decrRef(); v3.clear(); v4.clear(); delete intersector; + // + e2=new EdgeLin(3.,5.3,-1.3,1.); + intersector=new ArcCSegIntersector(*e1,*e2); + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); CPPUNIT_ASSERT_EQUAL(2,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(2.,(*v4[0])[0],1e-10); CPPUNIT_ASSERT_DOUBLES_EQUAL(4.3,(*v4[0])[1],1e-10); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-0.3,(*v4[1])[0],1e-10); CPPUNIT_ASSERT_DOUBLES_EQUAL(2.,(*v4[1])[1],1e-10); + v4[0]->decrRef(); v4[1]->decrRef(); e2->decrRef(); v3.clear(); v4.clear(); delete intersector; + // tangent intersection + e2=new EdgeLin(-1.,4.3,3.,4.3); + intersector=new ArcCSegIntersector(*e1,*e2); + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); CPPUNIT_ASSERT(!obvious && !areOverlapped); + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); CPPUNIT_ASSERT_EQUAL(1,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(2.,(*v4[0])[0],1e-10); CPPUNIT_ASSERT_DOUBLES_EQUAL(4.3,(*v4[0])[1],1e-10); + v4[0]->decrRef(); e2->decrRef(); v3.clear(); delete intersector; + // no intersection + e2=new EdgeLin(-2.,-2.,-1.,-3.); + intersector=new ArcCSegIntersector(*e1,*e2); + intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped); CPPUNIT_ASSERT(obvious && !areOverlapped); + e2->decrRef(); v3.clear(); delete intersector; + // + e1->decrRef(); +} + +EdgeArcCircle *QuadraticPlanarInterpTest::buildArcOfCircle(const double *center, double radius, double alphaStart, double alphaEnd) +{ + double alphaM=(alphaStart+alphaEnd)/2; + return new EdgeArcCircle(center[0]+cos(alphaStart)*radius,center[1]+sin(alphaStart)*radius, + center[0]+cos(alphaM)*radius,center[1]+sin(alphaM)*radius, + center[0]+cos(alphaEnd)*radius,center[1]+sin(alphaEnd)*radius); +} + +double QuadraticPlanarInterpTest::btw2NodesAndACenter(const Node& n1, const Node& n2, const double *center) +{ + const double *n1Pt=n1; + const double *n2Pt=n2; + double tmp1[2],tmp2[2]; + tmp1[0]=n1Pt[0]-center[0]; tmp1[1]=n1Pt[1]-center[1]; + tmp2[0]=n2Pt[0]-center[0]; tmp2[1]=n2Pt[1]-center[1]; + double distTmp1=sqrt(tmp1[0]*tmp1[0]+tmp1[1]*tmp1[1]); + double distTmp2=sqrt(tmp2[0]*tmp2[0]+tmp2[1]*tmp2[1]); + double ret=acos((tmp1[0]*tmp2[0]+tmp1[1]*tmp2[1])/(distTmp1*distTmp2)); + if(tmp1[0]*tmp2[1]-tmp1[1]*tmp2[0]<0) + ret=-ret; + return ret; +} diff --git a/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest3.cxx b/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest3.cxx new file mode 100644 index 000000000..1b3f93bbe --- /dev/null +++ b/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest3.cxx @@ -0,0 +1,300 @@ +#include "QuadraticPlanarInterpTest.hxx" +#include "QuadraticPolygon.hxx" +#include "ElementaryEdge.hxx" +#include "EdgeArcCircle.hxx" +#include "EdgeLin.hxx" + +#include +#include +#include + +using namespace std; +using namespace INTERP_KERNEL; + + +void QuadraticPlanarInterpTest::checkInOutDetection() +{ + Node *n1=new Node(0.,0.); + Node *n2=new Node(1.,0.); + Node *n3=new Node(0.5,1.); + EdgeLin *e1=new EdgeLin(n1,n2); + EdgeLin *e2=new EdgeLin(n2,n3); + EdgeLin *e3=new EdgeLin(n3,n1); + ComposedEdge *tri=new ComposedEdge; + tri->pushBack(e1); tri->pushBack(e2); tri->pushBack(e3); + // + Node *where=new Node(0.4,0.1); + CPPUNIT_ASSERT(tri->isInOrOut(where)); where->decrRef(); + where=new Node(-0.1,1.); + CPPUNIT_ASSERT(!tri->isInOrOut(where)); where->decrRef(); + where=new Node(0.6,-0.1); + CPPUNIT_ASSERT(!tri->isInOrOut(where)); where->decrRef(); + //Clean-up + n1->decrRef(); n2->decrRef(); n3->decrRef(); + ComposedEdge::Delete(tri); +} + +/*! + * Check Iterators mechanism. + */ +void QuadraticPlanarInterpTest::checkAssemblingBases1() +{ + Node *n1=new Node(0.,0.); + Node *n2=new Node(0.1,0.); EdgeLin *e1_2=new EdgeLin(n1,n2); + Node *n3=new Node(0.2,0.); EdgeLin *e2_3=new EdgeLin(n2,n3); + Node *n4=new Node(0.3,0.); EdgeLin *e3_4=new EdgeLin(n3,n4); + Node *n5=new Node(0.4,0.); EdgeLin *e4_5=new EdgeLin(n4,n5); + Node *n6=new Node(0.5,0.); EdgeLin *e5_6=new EdgeLin(n5,n6); + Node *n7=new Node(0.6,0.); EdgeLin *e6_7=new EdgeLin(n6,n7); + Node *n8=new Node(0.7,0.); EdgeLin *e7_8=new EdgeLin(n7,n8); + Node *n9=new Node(0.8,0.); EdgeLin *e8_9=new EdgeLin(n8,n9); + Node *n10=new Node(0.9,0.); EdgeLin *e9_10=new EdgeLin(n9,n10); + Node *n11=new Node(1.,0.); EdgeLin *e10_11=new EdgeLin(n10,n11); + Node *n12=new Node(0.5,1.); EdgeLin *e11_12=new EdgeLin(n11,n12); + EdgeLin *e12_1=new EdgeLin(n12,n1); + //Only one level + e1_2->incrRef(); e2_3->incrRef(); e3_4->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_7->incrRef(); + e7_8->incrRef(); e8_9->incrRef(); e9_10->incrRef(); e10_11->incrRef(); e11_12->incrRef(); e12_1->incrRef(); + ComposedEdge *c=new ComposedEdge; + c->pushBack(e1_2); c->pushBack(e2_3); c->pushBack(e3_4); c->pushBack(e4_5); c->pushBack(e5_6); c->pushBack(e6_7); + c->pushBack(e7_8); c->pushBack(e8_9); c->pushBack(e9_10); c->pushBack(e10_11); c->pushBack(e11_12); c->pushBack(e12_1); + CPPUNIT_ASSERT_EQUAL(12,c->recursiveSize()); + IteratorOnComposedEdge it(c); + CPPUNIT_ASSERT(it.current()->getPtr()==e1_2); CPPUNIT_ASSERT(!it.finished()); + it.next(); CPPUNIT_ASSERT(it.current()->getPtr()==e2_3); CPPUNIT_ASSERT(!it.finished()); + it.next(); it.next(); CPPUNIT_ASSERT(it.current()->getPtr()==e4_5); CPPUNIT_ASSERT(!it.finished()); + it.previousLoop(); CPPUNIT_ASSERT(it.current()->getPtr()==e3_4); CPPUNIT_ASSERT(!it.finished()); + it.previousLoop(); CPPUNIT_ASSERT(it.current()->getPtr()==e2_3); CPPUNIT_ASSERT(!it.finished()); + it.previousLoop(); CPPUNIT_ASSERT(it.current()->getPtr()==e1_2); CPPUNIT_ASSERT(!it.finished()); + it.previousLoop(); CPPUNIT_ASSERT(it.current()->getPtr()==e12_1); CPPUNIT_ASSERT(!it.finished()); + it.next(); CPPUNIT_ASSERT(it.finished()); + it.first(); CPPUNIT_ASSERT(it.current()->getPtr()==e1_2); CPPUNIT_ASSERT(!it.finished()); + it.previousLoop(); CPPUNIT_ASSERT(it.current()->getPtr()==e12_1); CPPUNIT_ASSERT(!it.finished()); + it.nextLoop(); CPPUNIT_ASSERT(it.current()->getPtr()==e1_2); CPPUNIT_ASSERT(!it.finished()); + it.last(); CPPUNIT_ASSERT(it.current()->getPtr()==e12_1); CPPUNIT_ASSERT(!it.finished()); + //Multi-Level + ComposedEdge::Delete(c); + //(e1_2, (e2_3,(e3_4, e4_5, e5_6, e6_7, (e7_8, e8_9 ), ( e9_10 , e10_11 ), e11_12 ),e12_1 ) ) + e1_2->incrRef(); e2_3->incrRef(); e3_4->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_7->incrRef(); + e7_8->incrRef(); e8_9->incrRef(); e9_10->incrRef(); e10_11->incrRef(); e11_12->incrRef(); e12_1->incrRef(); + ComposedEdge *c2_2_4=new ComposedEdge; c2_2_4->pushBack(e7_8); c2_2_4->pushBack(e8_9); + ComposedEdge *c2_2_5=new ComposedEdge; c2_2_5->pushBack(e9_10); c2_2_5->pushBack(e10_11); + ComposedEdge *c2_2=new ComposedEdge; c2_2->pushBack(e3_4); c2_2->pushBack(e4_5); c2_2->pushBack(e5_6); c2_2->pushBack(e6_7); c2_2->pushBack(c2_2_4); c2_2->pushBack(c2_2_5); c2_2->pushBack(e11_12); + ComposedEdge *c2=new ComposedEdge; c2->pushBack(e2_3); c2->pushBack(c2_2); c2->pushBack(e12_1); + c=new ComposedEdge; c->pushBack(e1_2); c->pushBack(c2); CPPUNIT_ASSERT_EQUAL(12,c->recursiveSize()); + IteratorOnComposedEdge it2(c); + CPPUNIT_ASSERT(it2.current()->getPtr()==e1_2); + it2.next(); CPPUNIT_ASSERT(it2.current()->getPtr()==e2_3); CPPUNIT_ASSERT(!it2.finished()); + it2.next(); CPPUNIT_ASSERT(it2.current()->getPtr()==e3_4); CPPUNIT_ASSERT(!it2.finished()); + it2.next(); CPPUNIT_ASSERT(it2.current()->getPtr()==e4_5); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e3_4); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e2_3); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1_2); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e12_1); CPPUNIT_ASSERT(!it2.finished()); + it2.next(); CPPUNIT_ASSERT(it2.finished()); + it2.first(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1_2); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e12_1); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1_2); CPPUNIT_ASSERT(!it2.finished()); + it2.last(); CPPUNIT_ASSERT(it2.current()->getPtr()==e12_1); CPPUNIT_ASSERT(!it2.finished()); + it2.first(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1_2); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e2_3); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e3_4); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e4_5); CPPUNIT_ASSERT(!it2.finished()); + // substitutions. + it2.first(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1_2); CPPUNIT_ASSERT(!it2.finished()); + ElementaryEdge *&tmp=it2.current(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1_2); CPPUNIT_ASSERT(!it2.finished()); + ComposedEdge *c1=new ComposedEdge; Node *n1_bis=new Node(0.,0.05); EdgeLin *e1_1bis=new EdgeLin(n1,n1_bis); EdgeLin *e1bis_2=new EdgeLin(n1_bis,n2); e1_1bis->incrRef(); e1bis_2->incrRef(); + c1->pushBack(e1_1bis); c1->pushBack(e1bis_2); delete tmp; tmp=(ElementaryEdge *)c1; CPPUNIT_ASSERT_EQUAL(13,c->recursiveSize()); + CPPUNIT_ASSERT(it2.current()->getPtr()==e1_1bis); CPPUNIT_ASSERT(!it2.finished());// here testing capability of Iterator.'current' method to deal with change of hierarchy. + it2.next(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1bis_2); CPPUNIT_ASSERT(!it2.finished()); + it2.next(); CPPUNIT_ASSERT(it2.current()->getPtr()==e2_3); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1bis_2); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1_1bis); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e12_1); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e11_12); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e10_11); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e9_10); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e8_9); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e7_8); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e6_7); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e5_6); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e4_5); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e3_4); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e2_3); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1bis_2); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1_1bis); CPPUNIT_ASSERT(!it2.finished()); + it2.previousLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e12_1); CPPUNIT_ASSERT(!it2.finished()); + //go forward + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1_1bis); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1bis_2); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e2_3); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e3_4); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e4_5); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e5_6); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e6_7); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e7_8); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e8_9); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e9_10); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e10_11); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e11_12); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e12_1); CPPUNIT_ASSERT(!it2.finished()); + it2.nextLoop(); CPPUNIT_ASSERT(it2.current()->getPtr()==e1_1bis); CPPUNIT_ASSERT(!it2.finished()); + ComposedEdge::Delete(c); + //clean-up + e1_1bis->decrRef(); e1bis_2->decrRef(); + e1_2->decrRef(); e2_3->decrRef(); e3_4->decrRef(); e4_5->decrRef(); e5_6->decrRef(); e6_7->decrRef(); + e7_8->decrRef(); e8_9->decrRef(); e9_10->decrRef(); e10_11->decrRef(); e11_12->decrRef(); e12_1->decrRef(); + n1_bis->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); + n7->decrRef(); n8->decrRef(); n9->decrRef(); n10->decrRef(); n11->decrRef(); n12->decrRef(); +} + +/*! + * Check splitting of 2 polygons. After this operation, all ElementaryEdge are either in/out/on. + */ +void QuadraticPlanarInterpTest::checkAssemblingBases2() +{ + //The "most" basic test1 + Node *n1=new Node(0.,0.); Node *n4=new Node(0.,-0.3); + Node *n2=new Node(1.,0.); Node *n5=new Node(1.,-0.3); + Node *n3=new Node(0.5,1.); Node *n6=new Node(0.5,0.7); + EdgeLin *e1_2=new EdgeLin(n1,n2); EdgeLin *e4_5=new EdgeLin(n4,n5); + EdgeLin *e2_3=new EdgeLin(n2,n3); EdgeLin *e5_6=new EdgeLin(n5,n6); + EdgeLin *e3_1=new EdgeLin(n3,n1); EdgeLin *e6_4=new EdgeLin(n6,n4); + // + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_4->incrRef(); + QuadraticPolygon pol1; pol1.pushBack(e1_2); pol1.pushBack(e2_3); pol1.pushBack(e3_1); + QuadraticPolygon pol2; pol2.pushBack(e4_5); pol2.pushBack(e5_6); pol2.pushBack(e6_4); + QuadraticPolygon cpyPol1(pol1); int nbOfSplits=0; + cpyPol1.splitPolygonsEachOther(pol1,pol2,nbOfSplits); + CPPUNIT_ASSERT_EQUAL(5,pol1.recursiveSize()); + CPPUNIT_ASSERT_EQUAL(5,pol2.recursiveSize());CPPUNIT_ASSERT_EQUAL(15,nbOfSplits); + checkBasicsOfPolygons(pol1,pol2,true); + CPPUNIT_ASSERT((*pol2[1])[0]->getEndNode()==(*(*pol1[0])[0])[1]->getEndNode()); + CPPUNIT_ASSERT((*pol2[1])[0]->getEndNode()->getLoc()==ON_1); + CPPUNIT_ASSERT((*pol2[2])[0]->getEndNode()==(*(*pol1[0])[0])[0]->getEndNode()); + CPPUNIT_ASSERT((*pol2[2])[0]->getEndNode()->getLoc()==ON_1); + cpyPol1.performLocatingOperation(pol2); + ElementaryEdge *tmp=dynamic_cast(pol2[0]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e4_5); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_OUT_1); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_OUT_1); + tmp=dynamic_cast((*pol2[1])[0]); CPPUNIT_ASSERT(tmp); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_OUT_1); + tmp=dynamic_cast((*pol2[1])[1]); CPPUNIT_ASSERT(tmp); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_IN_1); + tmp=dynamic_cast((*pol2[2])[0]); CPPUNIT_ASSERT(tmp); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_IN_1); + tmp=dynamic_cast((*pol2[2])[1]); CPPUNIT_ASSERT(tmp); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_OUT_1); + //clean-up for test1 + e1_2->decrRef(); e2_3->decrRef(); e3_1->decrRef(); e4_5->decrRef(); e5_6->decrRef(); e6_4->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); + + //Deeper test some extremities of pol2 are on edges of pol1. + + n1=new Node(0.,0.); n4=new Node(1.5,-0.5); + n2=new Node(1.,0.); n5=new Node(0.5,0.); + n3=new Node(0.5,1.); n6=new Node(0.75,0.5); Node *n7=new Node(2.,0.5); + e1_2=new EdgeLin(n1,n2); e2_3=new EdgeLin(n2,n3); e3_1=new EdgeLin(n3,n1); + EdgeLin *e5_4=new EdgeLin(n5,n4); EdgeLin *e4_7=new EdgeLin(n4,n7); EdgeLin *e7_6=new EdgeLin(n7,n6); EdgeLin *e6_5=new EdgeLin(n6,n5); + // + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e5_4->incrRef(); e4_7->incrRef(); e7_6->incrRef(); e6_5->incrRef(); + QuadraticPolygon pol3; pol3.pushBack(e1_2); pol3.pushBack(e2_3); pol3.pushBack(e3_1); + QuadraticPolygon pol4; pol4.pushBack(e5_4); pol4.pushBack(e4_7); pol4.pushBack(e7_6); pol4.pushBack(e6_5); + QuadraticPolygon cpyPol3(pol3); nbOfSplits=0; + cpyPol3.splitPolygonsEachOther(pol3,pol4,nbOfSplits); + CPPUNIT_ASSERT_EQUAL(5,pol3.recursiveSize()); + CPPUNIT_ASSERT_EQUAL(4,pol4.recursiveSize());CPPUNIT_ASSERT_EQUAL(16,nbOfSplits); + checkBasicsOfPolygons(pol3,pol4,true); + CPPUNIT_ASSERT(pol4[0]->getStartNode()==(*pol3[0])[0]->getEndNode()); CPPUNIT_ASSERT(pol4[0]->getStartNode()==n5); + CPPUNIT_ASSERT(n5->getLoc()==ON_LIM_1); + CPPUNIT_ASSERT(pol4[2]->getEndNode()==(*pol3[1])[0]->getEndNode()); CPPUNIT_ASSERT(pol4[2]->getEndNode()==n6); + CPPUNIT_ASSERT(n6->getLoc()==ON_LIM_1); + cpyPol3.performLocatingOperation(pol4); + tmp=dynamic_cast(pol4[1]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e4_7); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_OUT_1); + tmp=dynamic_cast(pol4[3]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e6_5); + tmp=dynamic_cast(pol4[0]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e5_4); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_OUT_1); + tmp=dynamic_cast(pol4[2]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e7_6); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_OUT_1); + tmp=dynamic_cast(pol4[3]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e6_5); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_IN_1); + //clean-up for test2 + e1_2->decrRef(); e2_3->decrRef(); e3_1->decrRef(); e5_4->decrRef(); e4_7->decrRef(); e7_6->decrRef(); e6_5->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); n7->decrRef(); + + //Test with one edge of pol2 is included in pol1. + + n1=new Node(0.,0.); n4=new Node(-0.5,0.); + n2=new Node(1.,0.); n5=new Node(0.,-1.); + n3=new Node(0.5,1.); n6=new Node(0.5,0.); + e1_2=new EdgeLin(n1,n2); e2_3=new EdgeLin(n2,n3); e3_1=new EdgeLin(n3,n1); + e4_5=new EdgeLin(n4,n5); e5_6=new EdgeLin(n5,n6); e6_4=new EdgeLin(n6,n4); + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_4->incrRef(); + QuadraticPolygon pol5; pol5.pushBack(e1_2); pol5.pushBack(e2_3); pol5.pushBack(e3_1); + QuadraticPolygon pol6; pol6.pushBack(e4_5); pol6.pushBack(e5_6); pol6.pushBack(e6_4); + QuadraticPolygon cpyPol5(pol5); nbOfSplits=0; + cpyPol5.splitPolygonsEachOther(pol5,pol6,nbOfSplits); + CPPUNIT_ASSERT_EQUAL(4,pol5.recursiveSize()); + CPPUNIT_ASSERT_EQUAL(4,pol6.recursiveSize()); CPPUNIT_ASSERT_EQUAL(13,nbOfSplits); + checkBasicsOfPolygons(pol5,pol6,false); + CPPUNIT_ASSERT((*pol6[2])[0]->getStartNode()==(*pol5[0])[0]->getEndNode()); CPPUNIT_ASSERT((*pol6[2])[0]->getStartNode()==n6); + CPPUNIT_ASSERT(n6->getLoc()==ON_LIM_1); + CPPUNIT_ASSERT((*pol6[2])[0]->getEndNode()==(*pol5[0])[0]->getStartNode()); CPPUNIT_ASSERT((*pol5[0])[0]->getStartNode()==n1); + CPPUNIT_ASSERT(n1->getLoc()==ON_LIM_1); + cpyPol5.performLocatingOperation(pol6); + tmp=dynamic_cast(pol6[0]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e4_5); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_OUT_1); + tmp=dynamic_cast(pol6[1]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e5_6); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_OUT_1); + tmp=dynamic_cast((*pol6[2])[0]); CPPUNIT_ASSERT(tmp); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_ON_1); + tmp=dynamic_cast((*pol6[2])[1]); CPPUNIT_ASSERT(tmp); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_OUT_1); + //clean-up test3 + e1_2->decrRef(); e2_3->decrRef(); e3_1->decrRef(); e4_5->decrRef(); e5_6->decrRef(); e6_4->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); + + //Test of full overlapped polygons. + + n1=new Node(0.,0.); n4=new Node(0.,0.); + n2=new Node(1.,0.); n5=new Node(1.,0.); + n3=new Node(0.5,1.); n6=new Node(0.5,1.); + e1_2=new EdgeLin(n1,n2); e2_3=new EdgeLin(n2,n3); e3_1=new EdgeLin(n3,n1); + e4_5=new EdgeLin(n4,n5); e5_6=new EdgeLin(n5,n6); e6_4=new EdgeLin(n6,n4); + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_4->incrRef(); + QuadraticPolygon pol7; pol7.pushBack(e1_2); pol7.pushBack(e2_3); pol7.pushBack(e3_1); + QuadraticPolygon pol8; pol8.pushBack(e4_5); pol8.pushBack(e5_6); pol8.pushBack(e6_4); + QuadraticPolygon cpyPol7(pol7); nbOfSplits=0; + cpyPol7.splitPolygonsEachOther(pol7,pol8,nbOfSplits); + tmp=dynamic_cast(pol8[0]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e1_2); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_ON_1); + tmp=dynamic_cast(pol8[1]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e2_3); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_ON_1); + tmp=dynamic_cast(pol8[2]); CPPUNIT_ASSERT(tmp); CPPUNIT_ASSERT(tmp->getPtr()==e3_1); + CPPUNIT_ASSERT(tmp->getLoc()==FULL_ON_1); + //clean-up test4 + e1_2->decrRef(); e2_3->decrRef(); e3_1->decrRef(); e4_5->decrRef(); e5_6->decrRef(); e6_4->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); +} + +void QuadraticPlanarInterpTest::checkBasicsOfPolygons(QuadraticPolygon& pol1, QuadraticPolygon& pol2, bool checkDirection) +{ + IteratorOnComposedEdge it1(&pol1),it2(&pol2); it1.previousLoop(); it2.previousLoop(); + Node *nIter1=it1.current()->getEndNode(); Node *nIter2=it2.current()->getEndNode(); + for(it2.first();!it2.finished();it2.next()) + { + CPPUNIT_ASSERT(nIter2==it2.current()->getStartNode()); + if(checkDirection) + CPPUNIT_ASSERT(it2.current()->getDirection()); + nIter2=it2.current()->getEndNode(); + } + for(it1.first();!it1.finished();it1.next()) + { + CPPUNIT_ASSERT(nIter1==it1.current()->getStartNode()); + if(checkDirection) + CPPUNIT_ASSERT(it1.current()->getDirection()); + nIter1=it1.current()->getEndNode(); + } +} diff --git a/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest4.cxx b/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest4.cxx new file mode 100644 index 000000000..caba2d404 --- /dev/null +++ b/src/INTERP_KERNEL/Test/QuadraticPlanarInterpTest4.cxx @@ -0,0 +1,1051 @@ +#include "QuadraticPlanarInterpTest.hxx" +#include "QuadraticPolygon.hxx" +#include "ElementaryEdge.hxx" +#include "EdgeArcCircle.hxx" +#include "EdgeLin.hxx" + +#include +#include +#include + +using namespace std; +using namespace INTERP_KERNEL; + +void QuadraticPlanarInterpTest::checkPolygonsIntersection1() +{ + //The "most" basic test1 + Node *n1=new Node(0.,0.); Node *n4=new Node(0.,-0.3); + Node *n2=new Node(1.,0.); Node *n5=new Node(1.,-0.3); + Node *n3=new Node(0.5,1.); Node *n6=new Node(0.5,0.7); + EdgeLin *e1_2=new EdgeLin(n1,n2); EdgeLin *e4_5=new EdgeLin(n4,n5); + EdgeLin *e2_3=new EdgeLin(n2,n3); EdgeLin *e5_6=new EdgeLin(n5,n6); + EdgeLin *e3_1=new EdgeLin(n3,n1); EdgeLin *e6_4=new EdgeLin(n6,n4); + // + vector result; + for(int k=0;k<2;k++) + for(int i=0;i<1;i++) + { + for(int j=0;j<1;j++) + { + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_4->incrRef(); + QuadraticPolygon pol1; pol1.circularPermute(); pol1.pushBack(e1_2); pol1.pushBack(e2_3); pol1.pushBack(e3_1); + for(int i1=0;i1recursiveSize()); + delete result[0]; + } + } + //clean-up for test1 + e1_2->decrRef(); e2_3->decrRef(); e3_1->decrRef(); e4_5->decrRef(); e5_6->decrRef(); e6_4->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); + + //Deeper test some extremities of pol2 are on edges of pol1. + + n1=new Node(0.,0.); n4=new Node(1.5,-0.5); + n2=new Node(1.,0.); n5=new Node(0.5,0.); + n3=new Node(0.5,1.); n6=new Node(0.75,0.5); Node *n7=new Node(2.,0.5); + e1_2=new EdgeLin(n1,n2); e2_3=new EdgeLin(n2,n3); e3_1=new EdgeLin(n3,n1); + EdgeLin *e5_4=new EdgeLin(n5,n4); EdgeLin *e4_7=new EdgeLin(n4,n7); EdgeLin *e7_6=new EdgeLin(n7,n6); EdgeLin *e6_5=new EdgeLin(n6,n5); + // + for(int k=0;k<2;k++) + for(int i=0;i<3;i++) + { + for(int j=0;j<4;j++) + { + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e5_4->incrRef(); e4_7->incrRef(); e7_6->incrRef(); e6_5->incrRef(); + QuadraticPolygon pol3; pol3.pushBack(e1_2); pol3.pushBack(e2_3); pol3.pushBack(e3_1); + for(int i1=0;i1recursiveSize()); + delete result[0]; + } + } + //clean-up for test2 + e1_2->decrRef(); e2_3->decrRef(); e3_1->decrRef(); e5_4->decrRef(); e4_7->decrRef(); e7_6->decrRef(); e6_5->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); n7->decrRef(); + + //Test with one edge of pol2 is included in pol1. + + n1=new Node(0.,0.); n4=new Node(-0.5,0.); + n2=new Node(1.,0.); n5=new Node(0.,-1.); + n3=new Node(0.5,1.); n6=new Node(0.5,0.); + e1_2=new EdgeLin(n1,n2); e2_3=new EdgeLin(n2,n3); e3_1=new EdgeLin(n3,n1); + e4_5=new EdgeLin(n4,n5); e5_6=new EdgeLin(n5,n6); e6_4=new EdgeLin(n6,n4); + for(int k=0;k<2;k++) + for(int i=0;i<3;i++) + { + for(int j=0;j<3;j++) + { + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_4->incrRef(); + QuadraticPolygon pol5; pol5.pushBack(e1_2); pol5.pushBack(e2_3); pol5.pushBack(e3_1); + for(int i1=0;i1decrRef(); e2_3->decrRef(); e3_1->decrRef(); e4_5->decrRef(); e5_6->decrRef(); e6_4->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); + + //Test of full overlapped polygons. + + n1=new Node(0.,0.); n4=new Node(0.,0.); + n2=new Node(1.,0.); n5=new Node(1.,0.); + n3=new Node(0.5,1.); n6=new Node(0.5,1.); + e1_2=new EdgeLin(n1,n2); e2_3=new EdgeLin(n2,n3); e3_1=new EdgeLin(n3,n1); + e4_5=new EdgeLin(n4,n5); e5_6=new EdgeLin(n5,n6); e6_4=new EdgeLin(n6,n4); + for(int k=0;k<2;k++) + for(int i=0;i<3;i++) + { + for(int j=0;j<3;j++) + { + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_4->incrRef(); + QuadraticPolygon pol7; pol7.pushBack(e1_2); pol7.pushBack(e2_3); pol7.pushBack(e3_1); + for(int i1=0;i1recursiveSize()); + delete result[0]; + } + } + //clean-up test4 + e1_2->decrRef(); e2_3->decrRef(); e3_1->decrRef(); e4_5->decrRef(); e5_6->decrRef(); e6_4->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); + + //Test of closing process + + n1=new Node(0.,0.); n4=new Node(0.539,-0.266); + n2=new Node(1.,0.); n5=new Node(1.039,0.6); + n3=new Node(0.5,1.); n6=new Node(-0.077,0.667); + e1_2=new EdgeLin(n1,n2); e2_3=new EdgeLin(n2,n3); e3_1=new EdgeLin(n3,n1); + e4_5=new EdgeLin(n4,n5); e5_6=new EdgeLin(n5,n6); e6_4=new EdgeLin(n6,n4); + for(int k=0;k<2;k++) + for(int i=0;i<3;i++) + { + for(int j=0;j<3;j++) + { + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_4->incrRef(); + QuadraticPolygon pol9; pol9.pushBack(e1_2); pol9.pushBack(e2_3); pol9.pushBack(e3_1); + for(int i1=0;i1recursiveSize()); + delete result[0]; + } + } + //clean-up test5 + e1_2->decrRef(); e2_3->decrRef(); e3_1->decrRef(); e4_5->decrRef(); e5_6->decrRef(); e6_4->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); + + // Full in case + + n1=new Node(0.,0.); n4=new Node(0.3,0.1); + n2=new Node(1.,0.); n5=new Node(0.7,0.1); + n3=new Node(0.5,1.); n6=new Node(0.5,0.7); + e1_2=new EdgeLin(n1,n2); e2_3=new EdgeLin(n2,n3); e3_1=new EdgeLin(n3,n1); + e4_5=new EdgeLin(n4,n5); e5_6=new EdgeLin(n5,n6); e6_4=new EdgeLin(n6,n4); + for(int k=0;k<2;k++) + for(int i=0;i<3;i++) + { + for(int j=0;j<3;j++) + { + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_4->incrRef(); + QuadraticPolygon pol11; pol11.pushBack(e1_2); pol11.pushBack(e2_3); pol11.pushBack(e3_1); + for(int i1=0;i1recursiveSize()); + delete result[0]; + } + } + //clean-up test6 + e1_2->decrRef(); e2_3->decrRef(); e3_1->decrRef(); e4_5->decrRef(); e5_6->decrRef(); e6_4->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); + + // Full out case + + n1=new Node(0.,0.); n4=new Node(-2,0.); + n2=new Node(1.,0.); n5=new Node(-1.,0.); + n3=new Node(0.5,1.); n6=new Node(-1.5,1.); + e1_2=new EdgeLin(n1,n2); e2_3=new EdgeLin(n2,n3); e3_1=new EdgeLin(n3,n1); + e4_5=new EdgeLin(n4,n5); e5_6=new EdgeLin(n5,n6); e6_4=new EdgeLin(n6,n4); + for(int k=0;k<2;k++) + for(int i=0;i<3;i++) + { + for(int j=0;j<3;j++) + { + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); e4_5->incrRef(); e5_6->incrRef(); e6_4->incrRef(); + QuadraticPolygon pol13; pol13.pushBack(e1_2); pol13.pushBack(e2_3); pol13.pushBack(e3_1); + for(int i1=0;i1decrRef(); e2_3->decrRef(); e3_1->decrRef(); e4_5->decrRef(); e5_6->decrRef(); e6_4->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); + + //Multi polygons + + n1=new Node(0.,0.); + n2=new Node(1.,0.); + n3=new Node(1.,1.); + n4=new Node(0.,1.); + // + n5=new Node(0.2,0.7); + n6=new Node(0.4,0.7); + n7=new Node(0.4,1.3); + Node *n8=new Node(0.6,1.3); + Node *n9=new Node(0.6,0.7); + Node *n10=new Node(0.9,0.7); + Node *n11=new Node(0.9,2.); + Node *n12=new Node(0.2,2.); + // + e1_2=new EdgeLin(n1,n2); e2_3=new EdgeLin(n2,n3); Edge *e3_4=new EdgeLin(n3,n4); Edge *e4_1=new EdgeLin(n4,n1); + e5_6=new EdgeLin(n5,n6); Edge *e6_7=new EdgeLin(n6,n7); Edge *e7_8=new EdgeLin(n7,n8); Edge *e8_9=new EdgeLin(n8,n9); Edge *e9_10=new EdgeLin(n9,n10); Edge *e10_11=new EdgeLin(n10,n11); + Edge *e11_12=new EdgeLin(n11,n12); Edge *e12_1=new EdgeLin(n12,n5); + // + for(int k=0;k<2;k++) + for(int i=0;i<4;i++) + { + for(int j=0;j<8;j++) + { + e1_2->incrRef(); e2_3->incrRef(); e3_4->incrRef(); e4_1->incrRef(); e5_6->incrRef(); e6_7->incrRef(); e7_8->incrRef(); e8_9->incrRef(); e9_10->incrRef(); e10_11->incrRef(); e11_12->incrRef(); e12_1->incrRef(); + QuadraticPolygon pol15; pol15.pushBack(e1_2); pol15.pushBack(e2_3); pol15.pushBack(e3_4); pol15.pushBack(e4_1); + for(int i1=0;i1recursiveSize()); CPPUNIT_ASSERT_EQUAL(4,result[1]->recursiveSize()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.15,result[0]->getAreaFast()+result[1]->getAreaFast(),1e-10); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.03,fabs(result[0]->getAreaFast()-result[1]->getAreaFast()),1e-10); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.15,pol15.intersectWith(pol16),1e-10); + delete result[0]; delete result[1]; + } + } + //clean-up test8 + e1_2->decrRef(); e2_3->decrRef(); e3_4->decrRef(); e4_1->decrRef(); e5_6->decrRef(); e6_7->decrRef(); e7_8->decrRef(); e8_9->decrRef(); e9_10->decrRef(); e10_11->decrRef(); e11_12->decrRef(); e12_1->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n4->decrRef(); n5->decrRef(); n6->decrRef(); n7->decrRef(); n8->decrRef(); n9->decrRef(); n10->decrRef(); n11->decrRef(); n12->decrRef(); +} + +void QuadraticPlanarInterpTest::checkAreasCalculations() +{ + Node *n1=new Node(0.,0.); + Node *n2=new Node(1.,0.); + Node *n3=new Node(0.5,1.); + Edge *e1_2=new EdgeLin(n1,n2); + Edge *e2_3=new EdgeLin(n2,n3); + Edge *e3_1=new EdgeLin(n3,n1); + // + e1_2->incrRef(); e2_3->incrRef(); e3_1->incrRef(); + QuadraticPolygon pol1; pol1.pushBack(e1_2); pol1.pushBack(e2_3); pol1.pushBack(e3_1); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.5,pol1.getAreaFast(),1e-10); + CPPUNIT_ASSERT_DOUBLES_EQUAL(3.2360679774997898,pol1.getPerimeterFast(),1e-10); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.61803398874989479,pol1.getHydraulicDiameter(),1e-10); + pol1.reverse(); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-0.5,pol1.getAreaFast(),1e-10); + CPPUNIT_ASSERT_DOUBLES_EQUAL(3.2360679774997898,pol1.getPerimeterFast(),1e-10); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.61803398874989479,pol1.getHydraulicDiameter(),1e-10); + //clean-up + e1_2->decrRef(); e2_3->decrRef(); e3_1->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); + + //case 2 + + n1=new Node(0.,0.); + n2=new Node(1.,0.); + Node *n3m=new Node(1.5,0.5); + n3=new Node(1.,1.); + Node *n4=new Node(0.,1.); + e1_2=new EdgeLin(n1,n2); + e2_3=new EdgeArcCircle(n2,n3m,n3); + Edge *e3_4=new EdgeLin(n3,n4); + Edge *e4_1=new EdgeLin(n4,n1); + // + for(int k=0;k<8;k++) + { + n2->setNewCoords(cos(k*M_PI/4),sin(k*M_PI/4)); + n3->setNewCoords(sqrt(2.)*cos((k+1)*M_PI/4),sqrt(2.)*sin((k+1)*M_PI/4)); + n3m->setNewCoords(1.5811388300841898*cos(0.3217505543966423+k*M_PI/4),1.5811388300841898*sin(0.3217505543966423+k*M_PI/4)); + n4->setNewCoords(cos(k*M_PI/4+M_PI/2),sin(k*M_PI/4+M_PI/2)); + e1_2->update(n3m); e2_3->update(n3m); e3_4->update(n3m); e4_1->update(n3m); + e1_2->incrRef(); e2_3->incrRef(); e3_4->incrRef(); e4_1->incrRef(); + QuadraticPolygon pol2; pol2.pushBack(e1_2); pol2.pushBack(e2_3); pol2.pushBack(e3_4); pol2.pushBack(e4_1); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.3926990816987241,pol2.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(4.5707963267948966,pol2.getPerimeterFast(),1e-6); + pol2.reverse(); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.3926990816987241,pol2.getAreaFast(),1e-6); + CPPUNIT_ASSERT_DOUBLES_EQUAL(4.5707963267948966,pol2.getPerimeterFast(),1e-6); + } + //clean-up case2 + e1_2->decrRef(); e2_3->decrRef(); e3_4->decrRef(); e4_1->decrRef(); + n1->decrRef(); n2->decrRef(); n3->decrRef(); n3m->decrRef(); n4->decrRef(); + + //case 3 + + const double radius1=0.7; + const double radius2=0.9; + n1=new Node(1.+radius1*cos(-2.*M_PI/3.),1.+radius1*sin(-2.*M_PI/3.)); + n2=new Node(1.+radius1*cos(-M_PI/3.),1.+radius1*sin(-M_PI/3.)); + Node *n2m=new Node(1.+radius1*cos(M_PI/2.),1.+radius1*sin(M_PI/2.)); + n3=new Node(1.+radius2*cos(-M_PI/3.),1.+radius2*sin(-M_PI/3.)); + n3m=new Node(1.+radius2*cos(M_PI/2.),1.+radius2*sin(M_PI/2.)); + n4=new Node(1.+radius2*cos(-2.*M_PI/3.),1.+radius2*sin(-2.*M_PI/3.)); + e1_2=new EdgeArcCircle(n1,n2m,n2); + e2_3=new EdgeLin(n2,n3); + e3_4=new EdgeArcCircle(n3,n3m,n4); + e4_1=new EdgeLin(n4,n1); + // + e1_2->incrRef(); e2_3->incrRef(); e3_4->incrRef(); e4_1->incrRef(); + QuadraticPolygon pol3; pol3.pushBack(e1_2); pol3.pushBack(e2_3); pol3.pushBack(e3_4); pol3.pushBack(e4_1); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.83775804095727857,pol3.getAreaFast(),1e-10); + CPPUNIT_ASSERT_DOUBLES_EQUAL(8.7775804095727832,pol3.getPerimeterFast(),1e-10); + pol3.reverse(); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-0.83775804095727857,pol3.getAreaFast(),1e-10); + CPPUNIT_ASSERT_DOUBLES_EQUAL(8.7775804095727832,pol3.getPerimeterFast(),1e-10); + //clean-up case3 + e1_2->decrRef(); e2_3->decrRef(); e3_4->decrRef(); e4_1->decrRef(); + n1->decrRef(); n2->decrRef(); n2m->decrRef(); n3->decrRef(); n3m->decrRef(); n4->decrRef(); +} + +/*! + * Testing user interface high level function. + */ +void QuadraticPlanarInterpTest::checkHighLevelFunctionTest1() +{ + QUADRATIC_PLANAR::setPrecision(1e-12); + QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9); + double coords[]={ + 8.8334591186000004, 5.0999999999999996, + 7.1014083111000001, 6.0999999999999996, + 7.8334591186000004, 6.8320508074999999, + 7.9674337149000003, 5.5999999999999996, + 7.4192455562999999, 6.5142135623000001, + 8.3334591186000004, 5.9660254036999998 + }; + vector nodes; + nodes.push_back(new Node(coords)); + nodes.push_back(new Node(coords+2)); + nodes.push_back(new Node(coords+4)); + nodes.push_back(new Node(coords+6)); + nodes.push_back(new Node(coords+8)); + nodes.push_back(new Node(coords+10)); + QuadraticPolygon *pol=QuadraticPolygon::buildArcCirclePolygon(nodes); + CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.04719755,pol->getAreaFast(),1e-5); + CPPUNIT_ASSERT_EQUAL(3,pol->size()); + ElementaryEdge *e0=dynamic_cast((*pol)[0]); + ElementaryEdge *e1=dynamic_cast((*pol)[1]); + ElementaryEdge *e2=dynamic_cast((*pol)[0]); + CPPUNIT_ASSERT(e0); CPPUNIT_ASSERT(e1); CPPUNIT_ASSERT(e2); + CPPUNIT_ASSERT(dynamic_cast(e0->getPtr()));//<- testing detection of colinearity + CPPUNIT_ASSERT(dynamic_cast(e1->getPtr())); + CPPUNIT_ASSERT(dynamic_cast(e2->getPtr()));//<- testing detection of colinearity + nodes.clear(); + delete pol; + nodes.push_back(new Node(coords)); + nodes.push_back(new Node(coords+4)); + nodes.push_back(new Node(coords+2)); + nodes.push_back(new Node(coords+10)); + nodes.push_back(new Node(coords+8)); + nodes.push_back(new Node(coords+6)); + pol=QuadraticPolygon::buildArcCirclePolygon(nodes); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.04719755,pol->getAreaFast(),1e-5); + CPPUNIT_ASSERT_EQUAL(3,pol->size()); + e0=dynamic_cast((*pol)[0]); + e1=dynamic_cast((*pol)[1]); + e2=dynamic_cast((*pol)[0]); + CPPUNIT_ASSERT(e0); CPPUNIT_ASSERT(e1); CPPUNIT_ASSERT(e2); + CPPUNIT_ASSERT(dynamic_cast(e0->getPtr()));//<- testing detection of colinearity + CPPUNIT_ASSERT(dynamic_cast(e1->getPtr())); + CPPUNIT_ASSERT(dynamic_cast(e2->getPtr()));//<- testing detection of colinearity + delete pol; + const double coords2[]={ + 0.,0., + 1.5,0., + 1.5,1., + 0.,1. + }; + nodes.clear(); + nodes.push_back(new Node(coords2)); + nodes.push_back(new Node(coords2+2)); + nodes.push_back(new Node(coords2+4)); + nodes.push_back(new Node(coords2+6)); + pol=QuadraticPolygon::buildLinearPolygon(nodes); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.5,pol->getAreaFast(),1e-12); + double tmp[2],tmp2; + pol->getBarycenter(tmp,tmp2); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.75,tmp[0],1e-12); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.5,tmp[1],1e-12); + delete pol; + const double coords3[]={ + 1.0999999999000001, -1.9052558882999999, + 1.9052558881999999, -1.0999999999000001, + 1.7320508075000001, -0.99999999989999999, + 0.99999999989999999, -1.7320508075000001, + 1.5556349186, -1.5556349185, + 1.8186533478, -1.0499999999, + 1.4142135623000001, -1.4142135623000001, + 1.0499999999, -1.8186533479 + }; + nodes.clear(); + nodes.push_back(new Node(coords3)); + nodes.push_back(new Node(coords3+2)); + nodes.push_back(new Node(coords3+4)); + nodes.push_back(new Node(coords3+6)); + nodes.push_back(new Node(coords3+8)); + nodes.push_back(new Node(coords3+10)); + nodes.push_back(new Node(coords3+12)); + nodes.push_back(new Node(coords3+14)); + pol=QuadraticPolygon::buildArcCirclePolygon(nodes); + pol->getBarycenter(tmp,tmp2); + delete pol; + QUADRATIC_PLANAR::setPrecision(1e-14); +} + +void QuadraticPlanarInterpTest::check1DInterpLin() +{ + QUADRATIC_PLANAR::setPrecision(1e-7); + QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9); + const int NB_OF_CELL_AXIAL_1=30; + static const double Z_VALS_1[NB_OF_CELL_AXIAL_1+1]= + { -0.1550 , -0.1356, -0.1162, -0.0969, -0.0775 ,-0.0581, -0.0387, -0.0194, 0.0000 , 0.0500, + 0.1000 , 0.1500 , 0.2000 , 0.2500, 0.3000, 0.3500, 0.4000, 0.4500, 0.5000, 0.5500, + 0.6000, 0.6500, 0.7000, 0.7194, 0.7388, 0.7581, 0.7775, 0.7969, 0.8163, 0.8356, + 0.8550}; + vector zLev1(Z_VALS_1,Z_VALS_1+NB_OF_CELL_AXIAL_1+1); + + const int NB_OF_CELL_AXIAL_2=46; + static const double Z_VALS_2[NB_OF_CELL_AXIAL_2+1]= + { -0.3050 ,-0.2863,-0.2675,-0.2488,-0.2300,-0.2113,-0.1925,-0.1738,-0.1550,-0.1356 + , -0.1162,-0.0969,-0.0775,-0.0581,-0.0387,-0.0194,0.0000, 0.0500, 0.1 ,0.15 + , 0.20, 0.25, 0.30, 0.350 ,0.40 ,0.450 ,0.500 , 0.550, 0.600 ,0.650 ,0.700 + , 0.7194 ,0.7388 ,0.7581 ,0.7775 ,0.7969 ,0.8163 ,0.8356, 0.8550 + , 0.8738 ,0.8925 ,0.9113 ,0.9300 ,0.9488 ,0.9675 ,0.9863, 1.0050}; + vector zLev2(Z_VALS_2,Z_VALS_2+NB_OF_CELL_AXIAL_2+1); + map > m; + Edge::interpolate1DLin(zLev1,zLev2,m); + CPPUNIT_ASSERT_EQUAL(30,(int)m.size()); + double ret=0; + for(int i=0;i<30;i++) + { + CPPUNIT_ASSERT_EQUAL(1,(int)m[i].size()); + CPPUNIT_ASSERT(m[i][8+i] > 0.15); + ret+=m[i][8+i]; + } + CPPUNIT_ASSERT_DOUBLES_EQUAL(ret,30.,1e-12); + // + m.clear(); + const int NB_OF_CELL_AXIAL_3=13; + static const double Z_VALS_3[NB_OF_CELL_AXIAL_3+1]={ + 0.,0.01,0.05,0.10,0.15,0.20,0.25,0.30, + 0.35,0.40,0.45,0.50,0.55,0.60 }; + vector zLev3(Z_VALS_3,Z_VALS_3+NB_OF_CELL_AXIAL_3+1); + Edge::interpolate1DLin(zLev3,zLev1,m); + CPPUNIT_ASSERT_EQUAL(13,(int)m.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.,m[0][8],1e-12); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.,m[1][8],1e-12); + for(int i=0;i<11;i++) + { + CPPUNIT_ASSERT_EQUAL(1,(int)m[i+2].size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(1.,m[i+2][i+9],1e-12); + } + QUADRATIC_PLANAR::setPrecision(1e-14); +} + +/*! + * Tests to avoid regressions : Basic one. + */ +void QuadraticPlanarInterpTest::checkNonRegression1() +{ + const double coords1[]= + { + 16.1732057215, -25.110999999800001, + 16.02555485246479, -25.340997988918762 + }; + Node *nS1=new Node(coords1); + Node *nE1=new Node(coords1+2); + const double radius1=2.902; + const double angleS1=-0.49999999950907054; const double angleL1=-0.0942156629996692; + const double center1[2]={13.66, -23.66}; + EdgeArcCircle *e1=new EdgeArcCircle(nS1,nE1,center1,radius1,angleS1,angleL1); + // + const double coords2[]= + { + 16.041579804000001, -25.350249998999999, + 16.367740958999999, -24.132999999999999 + }; + Node *nS2=new Node(coords2); + Node *nE2=new Node(coords2+2); + const double radius2=2.4345; + const double angleS2=-0.523598776190207; const double angleL2=0.5235987755846041; + const double center2[]={ 13.933240960547204, -24.132999998525658 }; + EdgeArcCircle *e2=new EdgeArcCircle(nS2,nE2,center2,radius2,angleS2,angleL2); + MergePoints merge; + QuadraticPolygon c1,c2; + e1->intersectWith(e2,merge,c1,c2); + CPPUNIT_ASSERT_EQUAL(2,c1.size()); CPPUNIT_ASSERT_EQUAL(2,c2.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getCurveLength(),c1.getPerimeterFast(),1e-5); + //clean-up + nS1->decrRef(); nE1->decrRef(); nS2->decrRef(); nE2->decrRef(); e1->decrRef(); e2->decrRef(); +} + +void QuadraticPlanarInterpTest::checkNonRegression2() +{ + QUADRATIC_PLANAR::setPrecision(1e-12); + QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9); + double coords1[]= + { + 15.141499999899999, -26.226033271399999, + 16.226033271199999, -25.141499999800001, + 16.1732057215, -25.110999999800001, + 15.110999999899999, -26.1732057217, + 15.755157392699999, -25.755157392499999, + 16.199619496299999, -25.126249999799999, + 15.7120238788, -25.712023879099998, + 15.126249999899999, -26.199619496499999 + }; + double coords2[]= + { + 15.933240959000001, -24.132999999999999, + 15.665291765999999, -25.132999998999999, + 16.041579804000001, -25.350249998999999, + 16.367740958999999, -24.132999999999999, + 15.865092611, -24.650638091000001, + 15.853435785, -25.241624998999999, + 16.284787383000001, -24.763094964, + 16.150490958999999, -24.132999999999999 + }; + vector nodes1; + nodes1.push_back(new Node(coords1)); + nodes1.push_back(new Node(coords1+2)); + nodes1.push_back(new Node(coords1+4)); + nodes1.push_back(new Node(coords1+6)); + nodes1.push_back(new Node(coords1+8)); + nodes1.push_back(new Node(coords1+10)); + nodes1.push_back(new Node(coords1+12)); + nodes1.push_back(new Node(coords1+14)); + QuadraticPolygon *pol1=QuadraticPolygon::buildArcCirclePolygon(nodes1); + vector nodes2; + nodes2.push_back(new Node(coords2)); + nodes2.push_back(new Node(coords2+2)); + nodes2.push_back(new Node(coords2+4)); + nodes2.push_back(new Node(coords2+6)); + nodes2.push_back(new Node(coords2+8)); + nodes2.push_back(new Node(coords2+10)); + nodes2.push_back(new Node(coords2+12)); + nodes2.push_back(new Node(coords2+14)); + QuadraticPolygon *pol2=QuadraticPolygon::buildArcCirclePolygon(nodes2); + vector v=pol1->intersectMySelfWith(*pol2); + CPPUNIT_ASSERT_EQUAL(1,(int)v.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.00173945,v[0]->getAreaFast(),1e-7); + delete v[0]; + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.00173945,pol1->intersectWith(*pol2),1e-7); + delete pol1; + delete pol2; +} + +/*! + * Tests to avoid regressions : Basic one. + */ +void QuadraticPlanarInterpTest::checkNonRegression3() +{ + const double coords1[]= + { + 10.962340811000001, -22.417749999000002, + 12.217990959, -21.162099852000001 + }; + Node *nS1=new Node(coords1); + Node *nE1=new Node(coords1+2); + const double radius1=3.4304999897666599; + const double angleS1=2.6179938783536514; const double angleL1=-0.52359877711901204; + const double center1[2]={13.933240950441375, -24.132999992807399}; + EdgeArcCircle *e1=new EdgeArcCircle(nS1,nE1,center1,radius1,angleS1,angleL1); + // + const double coords2[]= + { + 11.1467942784, -22.2090000002, + 11.0939667286, -22.178500000099998 + }; + Node *nS2=new Node(coords2); + Node *nE2=new Node(coords2+2); + EdgeLin *e2=new EdgeLin(nS2,nE2); + MergePoints merge; + QuadraticPolygon c1,c2; + CPPUNIT_ASSERT(e1->intersectWith(e2,merge,c1,c2)); + CPPUNIT_ASSERT_EQUAL(2,c1.size()); + CPPUNIT_ASSERT_EQUAL(2,c2.size()); + ElementaryEdge *tmp1=dynamic_cast(c1.front()); CPPUNIT_ASSERT(tmp1); + EdgeArcCircle *tmp2=dynamic_cast(tmp1->getPtr()); CPPUNIT_ASSERT(tmp2); + CPPUNIT_ASSERT_DOUBLES_EQUAL(2.6179938783536514,tmp2->getAngle0(),1e-14); + //clean-up + nS1->decrRef(); nE1->decrRef(); nS2->decrRef(); nE2->decrRef(); e1->decrRef(); e2->decrRef(); +} + +void QuadraticPlanarInterpTest::checkNonRegression4() +{ + QUADRATIC_PLANAR::setPrecision(1e-12); + QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9); + double coords1[]= + { + 10.962340811000001, -22.417749999000002, + 12.217990959, -21.162099852000001, + 12.051990958999999, -20.874579418, + 10.674820377, -22.251749999000001, + 11.507511146000001, -21.707270185999999, + 12.134990959, -21.018339635, + 11.272751694, -21.472510735, + 10.818580594, -22.334749999 + }; + + double coords2[]= + { + 10.758000000199999, -23.66, + 11.1467942784, -22.2090000002, + 11.0939667286, -22.178500000099998, + 10.696999999999999, -23.66, + 10.856883252299999, -22.908907131159999, + 11.1203805035, -22.1937500001, + 10.797961776699999, -22.893119169449999, + 10.727500000099999, -23.66 + }; + vector nodes1; + nodes1.push_back(new Node(coords1)); + nodes1.push_back(new Node(coords1+2)); + nodes1.push_back(new Node(coords1+4)); + nodes1.push_back(new Node(coords1+6)); + nodes1.push_back(new Node(coords1+8)); + nodes1.push_back(new Node(coords1+10)); + nodes1.push_back(new Node(coords1+12)); + nodes1.push_back(new Node(coords1+14)); + QuadraticPolygon *pol1=QuadraticPolygon::buildArcCirclePolygon(nodes1); + vector nodes2; + nodes2.push_back(new Node(coords2)); + nodes2.push_back(new Node(coords2+2)); + nodes2.push_back(new Node(coords2+4)); + nodes2.push_back(new Node(coords2+6)); + nodes2.push_back(new Node(coords2+8)); + nodes2.push_back(new Node(coords2+10)); + nodes2.push_back(new Node(coords2+12)); + nodes2.push_back(new Node(coords2+14)); + QuadraticPolygon *pol2=QuadraticPolygon::buildArcCirclePolygon(nodes2); + vector v=pol1->intersectMySelfWith(*pol2); + CPPUNIT_ASSERT_EQUAL(1,(int)v.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.00164773941455998,v[0]->getAreaFast(),1e-7); + delete v[0]; + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.00164773941455998,pol1->intersectWith(*pol2),1e-7); + delete pol1; + delete pol2; +} + +void QuadraticPlanarInterpTest::checkNonRegression5() +{ + INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-12); + INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5); + double coords1[]= + { + -1.7320508075000001, 1, + -1, 1.7320508075000001 , + -1.2172499999999999, 2.1083388455000001, + -2.1083388455000001, 1.2172499999999999, + -1.4142135623000001, 1.4142135623000001, + -1.108625, 1.9201948265, + -1.7214514588000001, 1.7214514588000001, + -1.9201948265, 1.108625}; + + double coords2[]= + { + -2.2379999998, 0, + -1.9381648534, 1.1189999998, + -1.9909924031999999, 1.1494999999, + -2.2989999998999999, 0, + -2.1617419990000002, 0.57923702298000002, + -1.9645786283, 1.1342499998, + -2.2206634745999998, 0.59502498461999997, + -2.2684999997999999, 0}; + vector nodes1; + nodes1.push_back(new Node(coords1)); + nodes1.push_back(new Node(coords1+2)); + nodes1.push_back(new Node(coords1+4)); + nodes1.push_back(new Node(coords1+6)); + nodes1.push_back(new Node(coords1+8)); + nodes1.push_back(new Node(coords1+10)); + nodes1.push_back(new Node(coords1+12)); + nodes1.push_back(new Node(coords1+14)); + QuadraticPolygon *pol1=QuadraticPolygon::buildArcCirclePolygon(nodes1); + vector nodes2; + nodes2.push_back(new Node(coords2)); + nodes2.push_back(new Node(coords2+2)); + nodes2.push_back(new Node(coords2+4)); + nodes2.push_back(new Node(coords2+6)); + nodes2.push_back(new Node(coords2+8)); + nodes2.push_back(new Node(coords2+10)); + nodes2.push_back(new Node(coords2+12)); + nodes2.push_back(new Node(coords2+14)); + QuadraticPolygon *pol2=QuadraticPolygon::buildArcCirclePolygon(nodes2); + pol1->dumpInXfigFileWithOther(*pol2,"this.fig"); + vector v=pol1->intersectMySelfWith(*pol2); + CPPUNIT_ASSERT_EQUAL(0,(int)v.size()); + //CPPUNIT_ASSERT_DOUBLES_EQUAL(0.00164773941455998,v[0]->getAreaFast(),1e-7); + //delete v[0]; + //CPPUNIT_ASSERT_DOUBLES_EQUAL(0.00164773941455998,pol1->intersectWith(*pol2),1e-7); + delete pol1; + delete pol2; +} + +void QuadraticPlanarInterpTest::checkNonRegression6() +{ + QUADRATIC_PLANAR::setPrecision(1e-12); + QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5); + double coords1[]= + { + 10.962340811000001, -22.417749999000002, + 12.217990959, -21.162099852000001, + 12.051990958999999, -20.874579418, + 10.674820377, -22.251749999000001, + 11.507511146000001, -21.707270185999999, + 12.134990959, -21.018339635, + 11.272751694, -21.472510735, + 10.818580594, -22.334749999 + }; + double coords2[]= + { 10.426, -23.66, + 10.859273844199999, -22.043000000100001, + 10.806446294799999, -22.012500000199999, + 10.3650000002, -23.66, + 10.536195877799999, -22.822979208099998, + 10.832860069499999, -22.027750000200001, + 10.477274402499999, -22.80719124657, + 10.3955000001, -23.66}; + vector nodes1; + nodes1.push_back(new Node(coords1)); + nodes1.push_back(new Node(coords1+2)); + nodes1.push_back(new Node(coords1+4)); + nodes1.push_back(new Node(coords1+6)); + nodes1.push_back(new Node(coords1+8)); + nodes1.push_back(new Node(coords1+10)); + nodes1.push_back(new Node(coords1+12)); + nodes1.push_back(new Node(coords1+14)); + QuadraticPolygon *pol1=QuadraticPolygon::buildArcCirclePolygon(nodes1); + vector nodes2; + nodes2.push_back(new Node(coords2)); + nodes2.push_back(new Node(coords2+2)); + nodes2.push_back(new Node(coords2+4)); + nodes2.push_back(new Node(coords2+6)); + nodes2.push_back(new Node(coords2+8)); + nodes2.push_back(new Node(coords2+10)); + nodes2.push_back(new Node(coords2+12)); + nodes2.push_back(new Node(coords2+14)); + QuadraticPolygon *pol2=QuadraticPolygon::buildArcCirclePolygon(nodes2); + vector v=pol1->intersectMySelfWith(*pol2); + CPPUNIT_ASSERT_EQUAL(1,(int)v.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(v[0]->getAreaOfZone(),0.0150659,1e-7); + delete v[0]; + delete pol1; + delete pol2; +} + +void QuadraticPlanarInterpTest::checkNonRegression7() +{ + QUADRATIC_PLANAR::setPrecision(1e-5); + QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5); + double coords1[]= + { + -2., 0, + -1.7320508075000001, 1, + -2.1083388455000001, 1.2172499999999999, + -2.4344999999999999, 0, + -1.9318516525603098, 0.51763809027157182, + -1.9201948265, 1.108625, + -2.3515464241024469, 0.63009496529570408, + -2.2172499999999999, 0 + }; + double coords2[]= + { -2.3369999999000002, 0, + -2.0239013684999998, 1.1684999999000001, + -2.1927763221999998, 1.2659999998, + -2.5319999998, 0, + -2.2573686559260442, 0.60486010843437632, + -2.1083388453499996, 1.2172499998499999, + -2.445724191994314, 0.65532982205982326, + -2.4344999998499999, 0 }; + vector nodes1; + nodes1.push_back(new Node(coords1)); + nodes1.push_back(new Node(coords1+2)); + nodes1.push_back(new Node(coords1+4)); + nodes1.push_back(new Node(coords1+6)); + nodes1.push_back(new Node(coords1+8)); + nodes1.push_back(new Node(coords1+10)); + nodes1.push_back(new Node(coords1+12)); + nodes1.push_back(new Node(coords1+14)); + QuadraticPolygon *pol1=QuadraticPolygon::buildArcCirclePolygon(nodes1); + vector nodes2; + nodes2.push_back(new Node(coords2)); + nodes2.push_back(new Node(coords2+2)); + nodes2.push_back(new Node(coords2+4)); + nodes2.push_back(new Node(coords2+6)); + nodes2.push_back(new Node(coords2+8)); + nodes2.push_back(new Node(coords2+10)); + nodes2.push_back(new Node(coords2+12)); + nodes2.push_back(new Node(coords2+14)); + QuadraticPolygon *pol2=QuadraticPolygon::buildArcCirclePolygon(nodes2); + vector v=pol1->intersectMySelfWith(*pol2); + CPPUNIT_ASSERT_EQUAL(1,(int)v.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.121795,v[0]->getAreaOfZone(),1.e-6); + delete v[0]; + delete pol1; + delete pol2; +} + +void QuadraticPlanarInterpTest::checkNonRegression8() +{ + QUADRATIC_PLANAR::setPrecision(1e-3); + QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5); + double coords1[]= + { + -13.933240959000001, -28.559499999, + -16.146490959000001, -27.966461449000001, + -16.383240958999998, -28.376524478, + -13.933240959000001, -29.032999999000001, + -15.078903461873765, -28.408670669106311, + -16.264865958999998, -28.1714929635, + -15.201454280317435, -28.866036547696734, + -13.933240959000001, -28.796249999 }; + double coords2[]= + { -16.382999999950002, -28.376524478457149, + -13.933000000014729, -29.03299999982551, + -13.93300000006697, -28.793999999915993, + -16.263500000000001, -28.169544407039268, + -15.201213320921273, -28.866036548734634, + -13.933000000040851, -28.913499999870751, + -15.139355569325469, -28.635180276305853, + -16.323249999975001, -28.273034442748209 }; + vector nodes1; + nodes1.push_back(new Node(coords1)); + nodes1.push_back(new Node(coords1+2)); + nodes1.push_back(new Node(coords1+4)); + nodes1.push_back(new Node(coords1+6)); + nodes1.push_back(new Node(coords1+8)); + nodes1.push_back(new Node(coords1+10)); + nodes1.push_back(new Node(coords1+12)); + nodes1.push_back(new Node(coords1+14)); + QuadraticPolygon *pol1=QuadraticPolygon::buildArcCirclePolygon(nodes1); + vector nodes2; + nodes2.push_back(new Node(coords2)); + nodes2.push_back(new Node(coords2+2)); + nodes2.push_back(new Node(coords2+4)); + nodes2.push_back(new Node(coords2+6)); + nodes2.push_back(new Node(coords2+8)); + nodes2.push_back(new Node(coords2+10)); + nodes2.push_back(new Node(coords2+12)); + nodes2.push_back(new Node(coords2+14)); + QuadraticPolygon *pol2=QuadraticPolygon::buildArcCirclePolygon(nodes2); + vector v=pol1->intersectMySelfWith(*pol2); + CPPUNIT_ASSERT_EQUAL(1,(int)v.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(0.598232,v[0]->getAreaOfZone(),1.e-6); + delete v[0]; + delete pol1; + delete pol2; +} + +void QuadraticPlanarInterpTest::checkNonRegression9() +{ + QUADRATIC_PLANAR::setPrecision(1e-7); + QUADRATIC_PLANAR::setArcDetectionPrecision(1e-8); + double coords1[]= + { + -0.04476229252902969, -0.085118027765365603, + -0.046952683430894329, -0.085704941238358354, + -0.046952683430894329, -0.088063823748058725, + -0.043582851274179504, -0.087160879944491371, + -0.045818853668170414, -0.085555669718918592, + -0.046952683430894329, -0.086884382493208526, + -0.045208329947517549, -0.087834175256748526, + -0.044172571901604597, -0.086139453854928494 }; + + double coords2[]= + { -0.05065868681155701, -0.087744551996665671, + -0.046951871439587615, -0.088737790182236015, + -0.046951871439683469, -0.088063823751059062, + -0.050321703596054014, -0.087160879946116557, + -0.0488706602695924, -0.08848517684025306, + -0.046951871439635542, -0.088400806966647538, + -0.048696224921445964, -0.087834175258503858, + -0.050490195203805516, -0.087452715971391121}; + + vector nodes1; + nodes1.push_back(new Node(coords1)); + nodes1.push_back(new Node(coords1+2)); + nodes1.push_back(new Node(coords1+4)); + nodes1.push_back(new Node(coords1+6)); + nodes1.push_back(new Node(coords1+8)); + nodes1.push_back(new Node(coords1+10)); + nodes1.push_back(new Node(coords1+12)); + nodes1.push_back(new Node(coords1+14)); + QuadraticPolygon *pol1=QuadraticPolygon::buildArcCirclePolygon(nodes1); + vector nodes2; + nodes2.push_back(new Node(coords2)); + nodes2.push_back(new Node(coords2+2)); + nodes2.push_back(new Node(coords2+4)); + nodes2.push_back(new Node(coords2+6)); + nodes2.push_back(new Node(coords2+8)); + nodes2.push_back(new Node(coords2+10)); + nodes2.push_back(new Node(coords2+12)); + nodes2.push_back(new Node(coords2+14)); + QuadraticPolygon *pol2=QuadraticPolygon::buildArcCirclePolygon(nodes2); + vector v=pol1->intersectMySelfWith(*pol2); + CPPUNIT_ASSERT_EQUAL(0,(int)v.size()); + delete pol1; + delete pol2; +} + +void QuadraticPlanarInterpTest::checkNonRegression10() +{ + INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7); + INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7); + double coords1[]= + { -0.002269581957210453, -0.09851030343724453, + -0.004268022334182935, -0.1059685844580936, + -0.002777851483521377, -0.1023709937816271}; + double coords2[]= + { -0.004114727297178323, -0.1049870239624718, + -0.003544545103522544, -0.1053162188055505}; + Node *n1_1=new Node(coords1); + Node *n2_1=new Node(coords1+2); + Node *n3_1=new Node(coords1+4); + Node *n1_2=new Node(coords2); + Node *n2_2=new Node(coords2+2); + EdgeArcCircle *e1=new EdgeArcCircle(n1_1,n3_1,n2_1); + EdgeLin *e2=new EdgeLin(n1_2,n2_2); + MergePoints merge; + ComposedEdge *c1=new ComposedEdge; + ComposedEdge *c2=new ComposedEdge; + CPPUNIT_ASSERT(e1->intersectWith(e2,merge,*c1,*c2)); + CPPUNIT_ASSERT_EQUAL(2,c1->size()); + CPPUNIT_ASSERT_EQUAL(2,c2->size()); + ComposedEdge::Delete(c1); ComposedEdge::Delete(c2); + n1_1->decrRef(); n2_1->decrRef(); n3_1->decrRef(); + n1_2->decrRef(); n2_2->decrRef(); + e1->decrRef(); e2->decrRef(); +} + +void QuadraticPlanarInterpTest::checkNonRegression11() +{ + INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7); + INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7); + double coords1[]= + { -0.002269581957210453, -0.09851030343724453, + -0.004268022334182935, -0.1059685844580936, + -0.002886178753789801, -0.1067663922211958, + -0.0006739664310059821, -0.09851030343724453, + -0.002777851483521377, -0.1023709937816271, + -0.003577100543986368, -0.1063674883396447, + -0.001236605237717319, -0.1027839694676665, + -0.001471774194108217, -0.09851030343724453}; + double coords2[]= + { -0.003544545103522544, -0.1053162188055505, + -0.001941023322604723, -0.09851030343724451, + -0.002598140593501099, -0.09851030343724451, + -0.004114727297178323, -0.1049870239624718, + -0.002347317802266182, -0.1020064358043286, + -0.002269581958052911, -0.09851030343724451, + -0.002982346712452072, -0.1018362598405457, + -0.003829636200350435, -0.1051516213840111}; + + vector nodes1; + nodes1.push_back(new Node(coords1)); + nodes1.push_back(new Node(coords1+2)); + nodes1.push_back(new Node(coords1+4)); + nodes1.push_back(new Node(coords1+6)); + nodes1.push_back(new Node(coords1+8)); + nodes1.push_back(new Node(coords1+10)); + nodes1.push_back(new Node(coords1+12)); + nodes1.push_back(new Node(coords1+14)); + QuadraticPolygon *pol1=QuadraticPolygon::buildArcCirclePolygon(nodes1); + vector nodes2; + nodes2.push_back(new Node(coords2)); + nodes2.push_back(new Node(coords2+2)); + nodes2.push_back(new Node(coords2+4)); + nodes2.push_back(new Node(coords2+6)); + nodes2.push_back(new Node(coords2+8)); + nodes2.push_back(new Node(coords2+10)); + nodes2.push_back(new Node(coords2+12)); + nodes2.push_back(new Node(coords2+14)); + QuadraticPolygon *pol2=QuadraticPolygon::buildArcCirclePolygon(nodes2); + vector v=pol1->intersectMySelfWith(*pol2); + CPPUNIT_ASSERT_EQUAL(1,(int)v.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(2.28973e-06,v[0]->getAreaOfZone(),1.e-11); + delete v[0]; + delete pol1; + delete pol2; +} + +void QuadraticPlanarInterpTest::checkNonRegression12() +{ + INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-6); + INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7); + double coords1[]= + { -0.5032251558760915, -0.8716087994449138, + -0.4695268343089433, -0.8806382374805872, + -0.4695268343089433, -0.8570494123835835, + -0.4914307433275896, -0.8511802776536561, + -0.4869703691141082, -0.8783417525751493, + -0.4695268343089433, -0.8688438249320853, + -0.480865131947653, -0.8555566971861125, + -0.4973279496018406, -0.8613945385492849}; + + double coords2[]= + { -0.5065868681155701, -0.8774455199666568, + -0.4695187143958762, -0.8873779018223601, + -0.4695187143968347, -0.8806382375105907, + -0.5032170359605401, -0.8716087994611657, + -0.488706602695924, -0.8848517684025307, + -0.4695187143963554, -0.8840080696664754, + -0.4869622492144596, -0.8783417525850385, + -0.5049019520380551, -0.8745271597139112}; + + vector nodes1; + nodes1.push_back(new Node(coords1)); + nodes1.push_back(new Node(coords1+2)); + nodes1.push_back(new Node(coords1+4)); + nodes1.push_back(new Node(coords1+6)); + nodes1.push_back(new Node(coords1+8)); + nodes1.push_back(new Node(coords1+10)); + nodes1.push_back(new Node(coords1+12)); + nodes1.push_back(new Node(coords1+14)); + QuadraticPolygon *pol1=QuadraticPolygon::buildArcCirclePolygon(nodes1); + vector nodes2; + nodes2.push_back(new Node(coords2)); + nodes2.push_back(new Node(coords2+2)); + nodes2.push_back(new Node(coords2+4)); + nodes2.push_back(new Node(coords2+6)); + nodes2.push_back(new Node(coords2+8)); + nodes2.push_back(new Node(coords2+10)); + nodes2.push_back(new Node(coords2+12)); + nodes2.push_back(new Node(coords2+14)); + QuadraticPolygon *pol2=QuadraticPolygon::buildArcCirclePolygon(nodes2); + pol1->dumpInXfigFileWithOther(*pol2,"tutu.fig");// tony + vector v=pol1->intersectMySelfWith(*pol2); + CPPUNIT_ASSERT_EQUAL(1,(int)v.size()); + CPPUNIT_ASSERT_DOUBLES_EQUAL(2.28973e-06,v[0]->getAreaOfZone(),1.e-11); + delete v[0]; + delete pol1; + delete pol2; +} diff --git a/src/INTERP_KERNEL/Test/TestInterpKernel.cxx b/src/INTERP_KERNEL/Test/TestInterpKernel.cxx index 1618714bb..e9827a1af 100644 --- a/src/INTERP_KERNEL/Test/TestInterpKernel.cxx +++ b/src/INTERP_KERNEL/Test/TestInterpKernel.cxx @@ -29,6 +29,7 @@ #include "RemapperTest.hxx" #include "MultiElement2DTests.hxx" #include "SingleElementPlanarTests.hxx" +#include "QuadraticPlanarInterpTest.hxx" using namespace INTERP_TEST; @@ -36,13 +37,14 @@ using namespace INTERP_TEST; CPPUNIT_TEST_SUITE_REGISTRATION( HexaTests ); CPPUNIT_TEST_SUITE_REGISTRATION( MultiElementTetraTests ); CPPUNIT_TEST_SUITE_REGISTRATION( SingleElementTetraTests ); -CPPUNIT_TEST_SUITE_REGISTRATION( INTERP_TEST::TransformedTriangleIntersectTest ); -CPPUNIT_TEST_SUITE_REGISTRATION( INTERP_TEST::TransformedTriangleTest ); +CPPUNIT_TEST_SUITE_REGISTRATION( TransformedTriangleIntersectTest ); +CPPUNIT_TEST_SUITE_REGISTRATION( TransformedTriangleTest ); CPPUNIT_TEST_SUITE_REGISTRATION( BBTreeTest); CPPUNIT_TEST_SUITE_REGISTRATION( RemapperTest); CPPUNIT_TEST_SUITE_REGISTRATION( PointLocatorTest); CPPUNIT_TEST_SUITE_REGISTRATION( MultiElement2DTests ); CPPUNIT_TEST_SUITE_REGISTRATION( SingleElementPlanarTests ); +CPPUNIT_TEST_SUITE_REGISTRATION( QuadraticPlanarInterpTest ); // --- generic Main program from KERNEL_SRC/src/Basics/Test