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Refactoring QuadraticPlanar precision tuning. Fixes intersector bugs. abn/intersec_prec
authorabn <adrien.bruneton@cea.fr>
Mon, 26 Jun 2017 13:45:17 +0000 (15:45 +0200)
committerabn <adrien.bruneton@cea.fr>
Mon, 26 Jun 2017 14:24:34 +0000 (16:24 +0200)
20 files changed:
src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DBounds.cxx
src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DComposedEdge.cxx
src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdge.cxx
src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdgeArcCircle.cxx
src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdgeLin.cxx
src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DNode.hxx
src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DPrecision.cxx
src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DPrecision.hxx
src/INTERP_KERNEL/Geometric2DIntersector.hxx
src/INTERP_KERNEL/Geometric2DIntersector.txx
src/INTERP_KERNEL/InterpolationOptions.cxx
src/INTERP_KERNELTest/QuadraticPlanarInterpTest2.cxx
src/INTERP_KERNELTest/QuadraticPlanarInterpTest4.cxx
src/INTERP_KERNELTest/QuadraticPlanarInterpTest5.cxx
src/MEDCoupling/MEDCouplingPointSet.cxx
src/MEDCoupling/MEDCouplingUMesh.cxx
src/MEDCoupling/MEDCouplingUMesh_internal.cxx
src/MEDCoupling/MEDCouplingUMesh_internal.hxx
src/MEDCoupling/MEDCouplingUMesh_intersection.cxx
src/MEDCoupling_Swig/MEDCouplingIntersectTest.py

index c65b3aa96376d1a0d29d90fff98b005c14ceb010..4f2915ed4b495c47bee1715b8123847c620a1677 100644 (file)
@@ -148,15 +148,16 @@ double Bounds::fitYForXFigD(double val, int res) const
 
 Bounds *Bounds::nearlyAmIIntersectingWith(const Bounds& other) const
 {
-  if( (other._x_min > _x_max+QUADRATIC_PLANAR::_precision) || (other._x_max < _x_min-QUADRATIC_PLANAR::_precision) || (other._y_min > _y_max+QUADRATIC_PLANAR::_precision) 
-      || (other._y_max < _y_min-QUADRATIC_PLANAR::_precision) )
+  double eps = QuadraticPlanarPrecision::getPrecision();
+  if( (other._x_min > _x_max+eps) || (other._x_max < _x_min-eps) || (other._y_min > _y_max+eps)
+      || (other._y_max < _y_min-eps) )
     return 0;
   if( (other._x_min >= _x_max ) || (other._x_max <= _x_min) || (other._y_min >= _y_max) || (other._y_max <= _y_min) )
     {
-      return new Bounds(std::max(_x_min-QUADRATIC_PLANAR::_precision,other._x_min),
-          std::min(_x_max+QUADRATIC_PLANAR::_precision,other._x_max),
-          std::max(_y_min-QUADRATIC_PLANAR::_precision,other._y_min),
-          std::min(_y_max+QUADRATIC_PLANAR::_precision,other._y_max));//In approx cases.
+      return new Bounds(std::max(_x_min-eps,other._x_min),
+          std::min(_x_max+eps,other._x_max),
+          std::max(_y_min-eps,other._y_min),
+          std::min(_y_max+eps,other._y_max));//In approx cases.
     }
   else
     return new Bounds(std::max(_x_min,other._x_min),std::min(_x_max,other._x_max),std::max(_y_min,other._y_min),std::min(_y_max,other._y_max));
@@ -183,7 +184,7 @@ Position Bounds::nearlyWhere(double x, double y) const
   bool thinY=Node::areDoubleEquals(_y_min,_y_max);
   if(!thinX)
     {
-      if((Node::areDoubleEquals(x,_x_min) || Node::areDoubleEquals(x,_x_max)) && ((y<_y_max+QUADRATIC_PLANAR::_precision) && (y>_y_min-QUADRATIC_PLANAR::_precision)))
+      if((Node::areDoubleEquals(x,_x_min) || Node::areDoubleEquals(x,_x_max)) && ((y<_y_max+QuadraticPlanarPrecision::getPrecision()) && (y>_y_min-QuadraticPlanarPrecision::getPrecision())))
         return ON_BOUNDARY_POS;
     }
   else
@@ -191,7 +192,7 @@ Position Bounds::nearlyWhere(double x, double y) const
       return OUT;
   if(!thinY)
     {
-      if((Node::areDoubleEquals(y,_y_min) || Node::areDoubleEquals(y,_y_max)) && ((x<_x_max+QUADRATIC_PLANAR::_precision) && (x>_x_min-QUADRATIC_PLANAR::_precision)))
+      if((Node::areDoubleEquals(y,_y_min) || Node::areDoubleEquals(y,_y_max)) && ((x<_x_max+QuadraticPlanarPrecision::getPrecision()) && (x>_x_min-QuadraticPlanarPrecision::getPrecision())))
         return ON_BOUNDARY_POS;
     }
   else
index 226ff2ccbd24e104a9caddd4eaf98596f8e9526a..f445f5e446d9152e5a686f751601f67a2cbc251f 100644 (file)
@@ -541,14 +541,14 @@ bool ComposedEdge::isInOrOut2(Node *nodeToTest) const
   std::set<Node *> nodes;
   getAllNodes(nodes);
   for(std::set<Node *>::const_iterator iter=nodes.begin();iter!=nodes.end();iter++)
-    if(sqrt((*iter)->distanceWithSq(*nodeToTest))<QUADRATIC_PLANAR::_precision)
+    if(sqrt((*iter)->distanceWithSq(*nodeToTest))<QuadraticPlanarPrecision::getPrecision())
       return true;
   double ref(isInOrOutAlg(nodeToTest,nodes,inOutSwitch));
   bool ret(false);
   for(std::set< IntersectElement >::iterator iter4=inOutSwitch.begin();iter4!=inOutSwitch.end();iter4++)
     {
       double val((*iter4).getVal1());
-      if(fabs(val-ref)>=QUADRATIC_PLANAR::_precision)
+      if(fabs(val-ref)>=QuadraticPlanarPrecision::getPrecision())
         {
           if(val<ref)
             {
index 574c6ff85568d5eef4785bae192689c1b54d7e3f..37dd4f892b6c46209d10e4e9fdeef4c1cc4b220a 100644 (file)
@@ -930,7 +930,7 @@ bool Edge::isEqual(const Edge& other) const
 
 inline bool eqpair(const std::pair<double,Node *>& p1, const std::pair<double,Node *>& p2)
 {
-  return fabs(p1.first-p2.first)<QUADRATIC_PLANAR::_precision;
+  return fabs(p1.first-p2.first)<QuadraticPlanarPrecision::getPrecision();
 }
 
 /**
@@ -1005,12 +1005,12 @@ void Edge::sortIdsAbs(const std::vector<INTERP_KERNEL::Node *>& addNodes, const
   for(std::vector< std::pair<double,Node *> >::const_iterator it=an2.begin();it!=itend;it++)
     {
       int idd=(*mapp2.find((*it).second)).second;
-      if((*it).first<QUADRATIC_PLANAR::_precision)
+      if((*it).first<QuadraticPlanarPrecision::getPrecision())
         {
           startId=idd;
           continue;
         }
-      if((*it).first>1-QUADRATIC_PLANAR::_precision)
+      if((*it).first>1-QuadraticPlanarPrecision::getPrecision())
         {
           endId=idd;
           continue;
index e0a5ea8e6b18aba0dcff5501d675ab65545d1b1f..fc3fce7edfb48c74ad2d967435259ac4d7c261f0 100644 (file)
@@ -174,7 +174,7 @@ void ArcCArcCIntersector::areOverlappedOrOnlyColinears(const Bounds *whereToFind
 {
   _dist=Node::distanceBtw2Pt(getE1().getCenter(),getE2().getCenter());
   double radius1=getE1().getRadius(); double radius2=getE2().getRadius();
-  if(_dist>radius1+radius2+QUADRATIC_PLANAR::_precision || _dist+std::min(radius1,radius2)+QUADRATIC_PLANAR::_precision<std::max(radius1,radius2))
+  if(_dist>radius1+radius2+QuadraticPlanarPrecision::getPrecision() || _dist+std::min(radius1,radius2)+QuadraticPlanarPrecision::getPrecision()<std::max(radius1,radius2))
     {
       obviousNoIntersection=true;
       areOverlapped=false;
@@ -328,7 +328,7 @@ void ArcCSegIntersector::areOverlappedOrOnlyColinears(const Bounds *whereToFind,
       ((*(_e2.getStartNode()))[0]-center[0])*((*(_e2.getEndNode()))[1]-center[1])-
       ((*(_e2.getStartNode()))[1]-center[1])*((*(_e2.getEndNode()))[0]-center[0]);
   _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))
+  if(_determinant>-2*QuadraticPlanarPrecision::getPrecision())//QuadraticPlanarPrecision::getPrecision()*QuadraticPlanarPrecision::getPrecision()*_drSq*_drSq/(2.*_dx*_dx))
     obviousNoIntersection=false;
   else
     obviousNoIntersection=true;   
@@ -351,7 +351,7 @@ std::list< IntersectElement > ArcCSegIntersector::getIntersectionsCharacteristic
 {
   std::list< IntersectElement > ret;
   const double *center=getE1().getCenter();
-  if(!(fabs(_determinant)<(2.*QUADRATIC_PLANAR::_precision)))//QUADRATIC_PLANAR::_precision*QUADRATIC_PLANAR::_precision*_drSq*_drSq/(2.*_dx*_dx))
+  if(!(fabs(_determinant)<(2.*QuadraticPlanarPrecision::getPrecision())))//QuadraticPlanarPrecision::getPrecision()*QuadraticPlanarPrecision::getPrecision()*_drSq*_drSq/(2.*_dx*_dx))
     {
       double determinant=EdgeArcCircle::SafeSqrt(_determinant);
       double x1=(_cross*_dy/_drSq+Node::sign(_dy)*_dx*determinant)+center[0];
@@ -644,9 +644,9 @@ void EdgeArcCircle::getMiddleOfPoints(const double *p1, const double *p2, double
   //
   double myDelta1(angle1-_angle0),myDelta2(angle2-_angle0);
   if(_angle>0.)
-    { myDelta1=myDelta1>-QUADRATIC_PLANAR::_precision?myDelta1:myDelta1+2.*M_PI; myDelta2=myDelta2>-QUADRATIC_PLANAR::_precision?myDelta2:myDelta2+2.*M_PI; }
+    { myDelta1=myDelta1>-QuadraticPlanarPrecision::getPrecision()?myDelta1:myDelta1+2.*M_PI; myDelta2=myDelta2>-QuadraticPlanarPrecision::getPrecision()?myDelta2:myDelta2+2.*M_PI; }
   else
-    { myDelta1=myDelta1<QUADRATIC_PLANAR::_precision?myDelta1:myDelta1-2.*M_PI; myDelta2=myDelta2<QUADRATIC_PLANAR::_precision?myDelta2:myDelta2-2.*M_PI; }
+    { myDelta1=myDelta1<QuadraticPlanarPrecision::getPrecision()?myDelta1:myDelta1-2.*M_PI; myDelta2=myDelta2<QuadraticPlanarPrecision::getPrecision()?myDelta2:myDelta2-2.*M_PI; }
   ////
   mid[0]=_center[0]+_radius*cos(_angle0+(myDelta1+myDelta2)/2.);
   mid[1]=_center[1]+_radius*sin(_angle0+(myDelta1+myDelta2)/2.);
@@ -703,14 +703,14 @@ bool EdgeArcCircle::isLower(double val1, double val2) const
   double myDelta2=val2-_angle0;
   if(_angle>0.)
     {
-      myDelta1=myDelta1>-(_radius*QUADRATIC_PLANAR::_precision)?myDelta1:myDelta1+2.*M_PI;//in some cases val1 or val2 are so close to angle0 that myDelta is close to 0. but negative.
-      myDelta2=myDelta2>-(_radius*QUADRATIC_PLANAR::_precision)?myDelta2:myDelta2+2.*M_PI;
+      myDelta1=myDelta1>-(_radius*QuadraticPlanarPrecision::getPrecision())?myDelta1:myDelta1+2.*M_PI;//in some cases val1 or val2 are so close to angle0 that myDelta is close to 0. but negative.
+      myDelta2=myDelta2>-(_radius*QuadraticPlanarPrecision::getPrecision())?myDelta2:myDelta2+2.*M_PI;
       return myDelta1<myDelta2;
     }
   else
     {
-      myDelta1=myDelta1<(_radius*QUADRATIC_PLANAR::_precision)?myDelta1:myDelta1-2.*M_PI;
-      myDelta2=myDelta2<(_radius*QUADRATIC_PLANAR::_precision)?myDelta2:myDelta2-2.*M_PI;
+      myDelta1=myDelta1<(_radius*QuadraticPlanarPrecision::getPrecision())?myDelta1:myDelta1-2.*M_PI;
+      myDelta2=myDelta2<(_radius*QuadraticPlanarPrecision::getPrecision())?myDelta2:myDelta2-2.*M_PI;
       return myDelta2<myDelta1;
     }
 }
index 1ee8e706885ab12851f4872b9985f07856079405..5ab94034820f472dc429c2c1028f3d704b28f557 100644 (file)
@@ -108,20 +108,20 @@ std::list< IntersectElement > SegSegIntersector::getIntersectionsCharacteristicV
 bool SegSegIntersector::areColinears() const
 {
   double determinant=_matrix[0]*_matrix[3]-_matrix[1]*_matrix[2];
-  return fabs(determinant)<QUADRATIC_PLANAR::_arc_detection_precision;
+  return fabs(determinant)<QuadraticPlanarArcDetectionPrecision::getArcDetectionPrecision();
 }
 
 /*!
  * Should be called \b once ! non const method.
  * \param whereToFind specifies the box where final seek should be done. Essentially it is used for caracteristic reason.
- * \param colinearity returns if regarding QUADRATIC_PLANAR::_precision ; e1 and e2 are colinears
+ * \param colinearity returns if regarding QuadraticPlanarPrecision::getPrecision() ; e1 and e2 are colinears
  *                    If true 'this' is modified ! So this method be called once above all if true is returned for this parameter.
  * \param areOverlapped if colinearity if true, this parameter looks if e1 and e2 are overlapped.
  */
 void SegSegIntersector::areOverlappedOrOnlyColinears(const Bounds *whereToFind, bool& colinearity, bool& areOverlapped)
 {
   double determinant=_matrix[0]*_matrix[3]-_matrix[1]*_matrix[2];
-  if(fabs(determinant)>2.*QUADRATIC_PLANAR::_precision)//2*_precision due to max of offset on _start and _end
+  if(fabs(determinant)>2.*QuadraticPlanarPrecision::getPrecision())//2*_precision due to max of offset on _start and _end
     {
       colinearity=false; areOverlapped=false;
       _matrix[0]/=determinant; _matrix[1]/=determinant; _matrix[2]/=determinant; _matrix[3]/=determinant;
@@ -136,7 +136,7 @@ void SegSegIntersector::areOverlappedOrOnlyColinears(const Bounds *whereToFind,
       double deno=sqrt(_matrix[0]*_matrix[0]+_matrix[1]*_matrix[1]);
       double x=(*(_e1.getStartNode()))[0]-(*(_e2.getStartNode()))[0];
       double y=(*(_e1.getStartNode()))[1]-(*(_e2.getStartNode()))[1];
-      areOverlapped=fabs((_matrix[1]*y+_matrix[0]*x)/deno)<QUADRATIC_PLANAR::_precision;
+      areOverlapped=fabs((_matrix[1]*y+_matrix[0]*x)/deno)<QuadraticPlanarPrecision::getPrecision();
     }
 }
 
index b1fa82d0799ecb0d046ee792c665af44e18a5587..970b0f3280d154afa099e068490efb9daa237d72 100644 (file)
@@ -88,9 +88,9 @@ namespace INTERP_KERNEL
     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; }
+    static bool areDoubleEquals(double a, double b) { return fabs(a-b) < QuadraticPlanarPrecision::getPrecision(); }
     //! 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 bool areDoubleEqualsWP(double a, double b, double k) { return fabs(a-b) < k*QuadraticPlanarPrecision::getPrecision(); }
     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]); }
     //
index f570ec74c0bb45266f3741cf2396ca35b0cd8ae3..e21076145112afdf49196eb078763e490026104d 100644 (file)
 
 #include "InterpKernelGeo2DPrecision.hxx"
 
-double INTERP_KERNEL::QUADRATIC_PLANAR::_precision=1e-14;
+double INTERP_KERNEL::QuadraticPlanarPrecision::_precision=1e-14;
+double INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::_arc_detection_precision=1e-14;
+
+INTERP_KERNEL::QuadraticPlanarPrecision::QuadraticPlanarPrecision(double precision):
+    _initial_precision(_precision)
+{
+  _precision=precision;
+}
+
+INTERP_KERNEL::QuadraticPlanarPrecision::~QuadraticPlanarPrecision()
+{
+  _precision = _initial_precision;
+}
+
+INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::QuadraticPlanarArcDetectionPrecision(double precision):
+    _initial_arc_detection_precision(_arc_detection_precision)
+{
+  _arc_detection_precision=precision;
+}
+
+INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::~QuadraticPlanarArcDetectionPrecision()
+{
+  _arc_detection_precision = _initial_arc_detection_precision;
+}
 
-double INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=1e-14;
 
-void INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(double precision)
+void INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(double precision)
 { 
-  INTERP_KERNEL::QUADRATIC_PLANAR::_precision=precision;
+  _precision=precision;
 }
 
-void INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(double precision)
+void INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(double precision)
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=precision;
+  _arc_detection_precision=precision;
 }
index 19131234796ac9fdb0789cd6816b0d394b46a267..3db7d194df44bae6b9d27030cb6cfebaaafb6c9c 100644 (file)
 
 namespace INTERP_KERNEL
 {
-  class INTERPKERNEL_EXPORT QUADRATIC_PLANAR
+  /* !!TODO: a more global review of the code should be done, so that eps is always a parameter of all methods
+     instead of being stored as a static attribute.
+  */
+
+  /** Class storing the precision for the detection of colinear segments, coincident points, etc ...
+   * in Geometric2D computations.
+   *
+   * RAII pattern allowing to temporarily override Geometric2D precision.
+   * When the instance is destroyed, the previous precision is set back.
+   *
+   */
+  class QuadraticPlanarPrecision
   {
   public:
-    static double _precision;
-    static double _arc_detection_precision;
+    QuadraticPlanarPrecision(double prec);
+    virtual ~QuadraticPlanarPrecision();
+
     static void setPrecision(double precision);
+    inline static double getPrecision() { return _precision; }
+  private:
+    static double _precision;
+    double _initial_precision;
+  };
+
+  /** Class storing the precision for the detection of degenerated arc of circles
+   * in Geometric2D computations.
+   *
+   * RAII pattern allowing to temporarily override Geometric2D precision.
+   * When the instance is destroyed, the previous precision is set back.
+   */
+  class QuadraticPlanarArcDetectionPrecision
+  {
+  public:
+    QuadraticPlanarArcDetectionPrecision(double prec);
+    virtual ~QuadraticPlanarArcDetectionPrecision();
+
     static void setArcDetectionPrecision(double precision);
+    inline static double getArcDetectionPrecision() { return _arc_detection_precision; }
+  private:
+    static double _arc_detection_precision;
+    double _initial_arc_detection_precision;
+
   };
 }
 
 #endif
+
index a1a19a38d18a3e0e1caf4e410d8f7231276625f8..541e5f4abdc4e1a78845f0e80ac3e680bcdd1278 100644 (file)
@@ -54,6 +54,8 @@ namespace INTERP_KERNEL
     QuadraticPolygon *buildPolygonOfOneEdgeFrom(const std::vector<double>& coords, NormalizedCellType type);
     QuadraticPolygon *buildPolygonAFrom(ConnType cell, int nbOfPoints, NormalizedCellType type);
     QuadraticPolygon *buildPolygonBFrom(ConnType cell, int nbOfPoints, NormalizedCellType type);
+
+    QuadraticPlanarPrecision _precision;
   };
 }
 
index 786f41c5631d1be652ad4c65a62f9db333d2e197..38c7c8d81970ddb60860fb60ce882d15c3993a91 100644 (file)
@@ -44,9 +44,9 @@ namespace INTERP_KERNEL
   GEO2D_INTERSECTOR::Geometric2DIntersector(const MyMeshType& meshT, const MyMeshType& meshS,
                                             double dimCaracteristic, double md3DSurf, double minDot3DSurf, double medianPlane,
                                             double precision, int orientation):
-    InterpType<MyMeshType,MyMatrix,GEO2D_INTERSECTOR >(meshT,meshS,dimCaracteristic, precision, md3DSurf, minDot3DSurf, medianPlane, true, orientation, 0)
+    InterpType<MyMeshType,MyMatrix,GEO2D_INTERSECTOR >(meshT,meshS,dimCaracteristic, precision, md3DSurf, minDot3DSurf, medianPlane, true, orientation, 0),
+    _precision(precision)
   {
-    QUADRATIC_PLANAR::_precision=precision;
   }
   
   INTERSECTOR_TEMPLATE
index 23c2e353dc7293bd9d7bf3810045fd683ffd68ec..d66ffce1333058e7b441d3b89efc2afe0150c17b 100644 (file)
@@ -96,12 +96,12 @@ void INTERP_KERNEL::InterpolationOptions::init()
 
 double INTERP_KERNEL::InterpolationOptions::getArcDetectionPrecision() const
 {
-  return INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision;
+  return INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::getArcDetectionPrecision();
 }
 
 void INTERP_KERNEL::InterpolationOptions::setArcDetectionPrecision(double p)
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=p;
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(p);
 }
 
 std::string INTERP_KERNEL::InterpolationOptions::getIntersectionTypeRepr() const
index 50e2c4cc398313837d6eef516e0f9efcd248057a..4f78ab3840f5a8a48a2667546e99903ea2569670 100644 (file)
@@ -349,7 +349,7 @@ void QuadraticPlanarInterpTest::IntersectArcCircleBase()
       delete intersector; e2->decrRef(); e1->decrRef();
     }
   // Tangent intersection
-  QUADRATIC_PLANAR::setPrecision(1e-5);
+  QuadraticPlanarPrecision::setPrecision(1e-5);
   for(unsigned k=0;k<8;k++)
     {
       double center2[2]; center[0]=0.; center[1]=0.;
@@ -370,7 +370,7 @@ void QuadraticPlanarInterpTest::IntersectArcCircleBase()
       v4.clear(); v4.clear();
       delete intersector; e2->decrRef(); e1->decrRef();
     }
-  QUADRATIC_PLANAR::setPrecision(1e-14);
+  QuadraticPlanarPrecision::setPrecision(1e-14);
   // Extremities # 1
   for(unsigned k=0;k<8;k++)
     {
index c31c999deac120217758993e470d82feae0f6786..019eeb84e0cddbeb41c7e337fac8a67368244354 100644 (file)
@@ -495,8 +495,8 @@ void QuadraticPlanarInterpTest::checkBarycenterCalculations()
  */
 void QuadraticPlanarInterpTest::checkHighLevelFunctionTest1()
 {
-  QUADRATIC_PLANAR::setPrecision(1e-12);
-  QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9);
+  QuadraticPlanarPrecision::setPrecision(1e-12);
+  QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-9);
   double coords[]={
     8.8334591186000004, 5.0999999999999996,
     7.1014083111000001, 6.0999999999999996,
@@ -581,13 +581,13 @@ void QuadraticPlanarInterpTest::checkHighLevelFunctionTest1()
   pol=QuadraticPolygon::BuildArcCirclePolygon(nodes);
   pol->getBarycenter(tmp,tmp2);
   delete pol;
-  QUADRATIC_PLANAR::setPrecision(1e-14);
+  QuadraticPlanarPrecision::setPrecision(1e-14);
 }
 
 void QuadraticPlanarInterpTest::check1DInterpLin()
 {
-  QUADRATIC_PLANAR::setPrecision(1e-7);
-  QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9);
+  QuadraticPlanarPrecision::setPrecision(1e-7);
+  QuadraticPlanarArcDetectionPrecision::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, 
@@ -631,7 +631,7 @@ void QuadraticPlanarInterpTest::check1DInterpLin()
       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);
+  QuadraticPlanarPrecision::setPrecision(1e-14);
 }
 
 /*!
@@ -639,8 +639,8 @@ void QuadraticPlanarInterpTest::check1DInterpLin()
  */
 void QuadraticPlanarInterpTest::checkEpsilonCoherency1()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-12);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-12);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-5);
 
   const double pol1[]={
     -2.1083388455000001, 1.2172499999999999,
@@ -709,8 +709,8 @@ void QuadraticPlanarInterpTest::checkNonRegression1()
 
 void QuadraticPlanarInterpTest::checkNonRegression2()
 {
-  QUADRATIC_PLANAR::setPrecision(1e-12);
-  QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9);
+  QuadraticPlanarPrecision::setPrecision(1e-12);
+  QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-9);
   double coords1[]=
     {
       15.141499999899999, -26.226033271399999,
@@ -801,8 +801,8 @@ void QuadraticPlanarInterpTest::checkNonRegression3()
 
 void QuadraticPlanarInterpTest::checkNonRegression4()
 {
-  QUADRATIC_PLANAR::setPrecision(1e-12);
-  QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9);
+  QuadraticPlanarPrecision::setPrecision(1e-12);
+  QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-9);
   double coords1[]=
     {
       10.962340811000001, -22.417749999000002,
@@ -857,8 +857,8 @@ void QuadraticPlanarInterpTest::checkNonRegression4()
 
 void QuadraticPlanarInterpTest::checkNonRegression5()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-12);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-12);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-5);
   double coords1[]=
     {
       -1.7320508075000001, 1,
@@ -913,8 +913,8 @@ void QuadraticPlanarInterpTest::checkNonRegression5()
 
 void QuadraticPlanarInterpTest::checkNonRegression6()
 {
-  QUADRATIC_PLANAR::setPrecision(1e-12);
-  QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5);
+  QuadraticPlanarPrecision::setPrecision(1e-12);
+  QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-5);
   double coords1[]=
     {
       10.962340811000001, -22.417749999000002,
@@ -965,8 +965,8 @@ void QuadraticPlanarInterpTest::checkNonRegression6()
 
 void QuadraticPlanarInterpTest::checkNonRegression7()
 {
-  QUADRATIC_PLANAR::setPrecision(1e-5);
-  QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5);
+  QuadraticPlanarPrecision::setPrecision(1e-5);
+  QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-5);
   double coords1[]=
     {
       -2., 0,
@@ -1017,8 +1017,8 @@ void QuadraticPlanarInterpTest::checkNonRegression7()
 
 void QuadraticPlanarInterpTest::checkNonRegression8()
 {
-  QUADRATIC_PLANAR::setPrecision(1e-3);
-  QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5);
+  QuadraticPlanarPrecision::setPrecision(1e-3);
+  QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-5);
   double coords1[]=
     {
       -13.933240959000001, -28.559499999,
@@ -1068,8 +1068,8 @@ void QuadraticPlanarInterpTest::checkNonRegression8()
 
 void QuadraticPlanarInterpTest::checkNonRegression9()
 {
-  QUADRATIC_PLANAR::setPrecision(1e-7);
-  QUADRATIC_PLANAR::setArcDetectionPrecision(1e-8);
+  QuadraticPlanarPrecision::setPrecision(1e-7);
+  QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-8);
   double coords1[]=
     {
       -0.04476229252902969, -0.085118027765365603,
@@ -1119,8 +1119,8 @@ void QuadraticPlanarInterpTest::checkNonRegression9()
 
 void QuadraticPlanarInterpTest::checkNonRegression10()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords1[]=
     { -0.002269581957210453, -0.09851030343724453,
       -0.004268022334182935, -0.1059685844580936,
@@ -1149,8 +1149,8 @@ void QuadraticPlanarInterpTest::checkNonRegression10()
 
 void QuadraticPlanarInterpTest::checkNonRegression11()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords1[]=
     { -0.002269581957210453, -0.09851030343724453,
       -0.004268022334182935, -0.1059685844580936,
@@ -1200,8 +1200,8 @@ void QuadraticPlanarInterpTest::checkNonRegression11()
 
 void QuadraticPlanarInterpTest::checkNonRegression12()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-6);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-6);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords1[]=
     { -0.5032251558760915, -0.8716087994449138,
       -0.4695268343089433, -0.8806382374805872,
@@ -1252,8 +1252,8 @@ void QuadraticPlanarInterpTest::checkNonRegression12()
 
 void QuadraticPlanarInterpTest::checkNonRegression13()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-6);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-6);
 
   double coords_1[194]={ 
     0, 0, 0.304375, -7.454791178893722e-17, 0.2152256265236553, -0.2152256265236555, -5.591093384170291e-17, -0.304375, 
@@ -1348,8 +1348,8 @@ void QuadraticPlanarInterpTest::checkNonRegression13()
 */
 void QuadraticPlanarInterpTest::checkNonRegression14()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-6);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-6);
 
   double coords[72]={
     1.,0.,1.3,0.,-1.3,0.,-1.,0.,1.15,0.,0.,1.3,-1.15,0.,0.,1.,
@@ -1418,8 +1418,8 @@ void QuadraticPlanarInterpTest::checkNonRegression14()
  */
 void QuadraticPlanarInterpTest::checkNonRegression15()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-6);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-6);
 
   double coords[72]={
     1.,0.,1.3,0.,-1.3,0.,-1.,0.,1.15,0.,0.,1.3,-1.15,0.,0.,1.,
@@ -1494,8 +1494,8 @@ private:
  */
 void QuadraticPlanarInterpTest::checkNonRegression16()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords1[194]={ 
     0, 0, 0.304375, 0, 0.2152256265236554, 0.2152256265236554, 1.86369779472343e-17, 0.304375, 
     -0.2152256265236554, 0.2152256265236554, -0.304375, 3.727395589446861e-17, -0.2152256265236555, -0.2152256265236554, -5.591093384170291e-17, -0.304375, 
@@ -1574,8 +1574,8 @@ void QuadraticPlanarInterpTest::checkNonRegression16()
  */
 void QuadraticPlanarInterpTest::checkNonRegression17()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -1., 0., 1., 0. , 1.5, 0., -1.5, 0., 
     0. , 1., 1.25, 0., 0., 1.5, -1.25, 0.};
@@ -1614,7 +1614,7 @@ void QuadraticPlanarInterpTest::checkNonRegression17()
 
 void QuadraticPlanarInterpTest::checkNormalize()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-14);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-14);
   Node *n1=new Node(0.,0.);                Node *n4=new Node(0.,-3.);
   Node *n2=new Node(10.,0.);               Node *n5=new Node(10.,-3.);
   Node *n3=new Node(5.,10.);               Node *n6=new Node(5.,7.);
@@ -1665,7 +1665,7 @@ void QuadraticPlanarInterpTest::checkNormalize()
 
 void QuadraticPlanarInterpTest::checkMakePartitionAbs1()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-14);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-14);
   Node *n0=new Node(0.,0.);                Node *n4=new Node(0.5,0.25);
   Node *n1=new Node(0.,0.5);               Node *n5=new Node(0.3,1.2);
   Node *n2=new Node(1.,0.5);               Node *n6=new Node(1.1,1.3);
index 494e9530a7db9f95d2a29bc1f4fd3fb2e877389a..bdb9c15bb144c9d96acfde6781fd321de0a4e15b 100644 (file)
@@ -45,8 +45,8 @@ private:
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0000()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.383022221559489, 0.3213938048432697, -0.5745333323392334, 0.4820907072649046, 0.5745333323392335, 0.4820907072649044, 0.383022221559489, 0.3213938048432696,
     -0.4787777769493612, 0.4017422560540872, 4.592273826833915e-17, 0.75, 0.4787777769493612, 0.401742256054087, 3.061515884555943e-17, 0.5 };
@@ -71,8 +71,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0000()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0001()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.383022221559489, 0.3213938048432697, -0.5745333323392334, 0.4820907072649046, 0.5745333323392335, 0.4820907072649044, 0.383022221559489, 0.3213938048432696,
     -0.4787777769493612, 0.4017422560540872, 4.592273826833915e-17, 0.75, 0.4787777769493612, 0.401742256054087, 3.061515884555943e-17, 0.5 };
@@ -97,8 +97,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0001()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0002()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.383022221559489, 0.3213938048432697, -0.5745333323392334, 0.4820907072649046, 0.5745333323392335, 0.4820907072649044, 0.383022221559489, 0.3213938048432696,
     -0.4787777769493612, 0.4017422560540872, 4.592273826833915e-17, 0.75, 0.4787777769493612, 0.401742256054087, 3.061515884555943e-17, 0.5 };
@@ -123,8 +123,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0002()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0003()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.3535533905932737, 0.3535533905932738, -0.5303300858899106, 0.5303300858899107, 0.5303300858899107, 0.5303300858899106, 0.3535533905932738, 0.3535533905932737,
     -0.4419417382415922, 0.4419417382415922, 4.592273826833915e-17, 0.75, 0.4419417382415922, 0.4419417382415922, 3.061515884555943e-17, 0.5 };
@@ -149,8 +149,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0003()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0004()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.4596194077712559, 0.4596194077712559, -0.5303300858899106, 0.5303300858899107, 0.5303300858899107, 0.5303300858899106, 0.4596194077712559, 0.4596194077712559,
     -0.4949747468305832, 0.4949747468305833, 4.592273826833915e-17, 0.75, 0.4949747468305833, 0.4949747468305832, 3.979970649922726e-17, 0.65 };
@@ -175,8 +175,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0004()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0005()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.383022221559489, 0.3213938048432697, -0.6128355544951823, 0.5142300877492316, 0.6128355544951825, 0.5142300877492314, 0.383022221559489, 0.3213938048432696,
     -0.4979288880273356, 0.4178119462962507, 4.898425415289509e-17, 0.8, 0.4979288880273357, 0.4178119462962505, 3.061515884555943e-17, 0.5 };
@@ -201,8 +201,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0005()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0006()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.383022221559489, 0.3213938048432697, -0.5362311101832845, 0.4499513267805776, 0.5362311101832846, 0.4499513267805774, 0.383022221559489, 0.3213938048432696,
     -0.4596266658713867, 0.3856725658119237, 4.28612223837832e-17, 0.7, 0.4596266658713868, 0.3856725658119236, 3.061515884555943e-17, 0.5 };
@@ -227,8 +227,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0006()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0007()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.383022221559489, 0.3213938048432697, -0.5362311101832845, 0.4499513267805776, 0.5362311101832846, 0.4499513267805774, 0.383022221559489, 0.3213938048432696,
     -0.4596266658713867, 0.3856725658119237, 4.28612223837832e-17, 0.7, 0.4596266658713868, 0.3856725658119236, 3.061515884555943e-17, 0.5 };
@@ -253,8 +253,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0007()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0008()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.383022221559489, 0.3213938048432697, -0.5362311101832845, 0.4499513267805776, 0.5362311101832846, 0.4499513267805774, 0.383022221559489, 0.3213938048432696,
     -0.4596266658713867, 0.3856725658119237, 4.28612223837832e-17, 0.7, 0.4596266658713868, 0.3856725658119236, 3.061515884555943e-17, 0.5 };
@@ -279,8 +279,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0008()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0009()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.3863703305156274, -0.1035276180410081, -0.4829629131445342, -0.1294095225512602, 0.4829629131445342, -0.1294095225512604, 0.3863703305156274, -0.1035276180410083,
     -0.4346666218300808, -0.1164685702961342, 1.416374613080751e-16, 0.5, 0.4346666218300808, -0.1164685702961343, 1.133099690464601e-16, 0.4 };
@@ -304,8 +304,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0009()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0010()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.3863703305156274, -0.1035276180410081, -0.4829629131445342, -0.1294095225512602, 0.4829629131445342, -0.1294095225512604, 0.3863703305156274, -0.1035276180410083,
 -0.4346666218300808, -0.1164685702961342, 1.416374613080751e-16, 0.5, 0.4346666218300808, -0.1164685702961343, 1.133099690464601e-16, 0.4 };
@@ -329,8 +329,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0010()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0011()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.3863703305156274, -0.1035276180410081, -0.4829629131445342, -0.1294095225512602, 0.4829629131445342, -0.1294095225512604, 0.3863703305156274, -0.1035276180410083,
 -0.4346666218300808, -0.1164685702961342, 1.416374613080751e-16, 0.5, 0.4346666218300808, -0.1164685702961343, 1.133099690464601e-16, 0.4 };
@@ -372,8 +372,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0011()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar2511()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.3863703305156274, -0.1035276180410081, -0.4829629131445342, -0.1294095225512602, 0.4829629131445342, -0.1294095225512604, 0.3863703305156274, -0.1035276180410083,
     -0.4346666218300808, -0.1164685702961342, 1.416374613080751e-16, 0.5, 0.4346666218300808, -0.1164685702961343, 1.133099690464601e-16, 0.4, };
@@ -416,8 +416,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar2511()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0012()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
     -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
@@ -450,8 +450,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0012()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0013()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
     -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
@@ -484,8 +484,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0013()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0014()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
 -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
@@ -528,8 +528,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0014()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0015()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
 -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
@@ -572,8 +572,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0015()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0016()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
 -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
@@ -616,8 +616,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0016()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0017()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
     -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
@@ -661,8 +661,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0017()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0018()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
     -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
@@ -706,8 +706,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0018()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0019()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
     -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
@@ -732,8 +732,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0019()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0020()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
     -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
@@ -777,8 +777,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0020()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0021()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
     -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
@@ -821,8 +821,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0021()
 }
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0022()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
     -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
@@ -847,8 +847,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0022()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0023()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
     -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5, };
@@ -873,8 +873,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0023()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0024()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
 -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
@@ -898,8 +898,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0024()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar2524()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
 -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
@@ -923,8 +923,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar2524()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0025()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
     -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
@@ -958,8 +958,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0025()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0026()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.4, 4.898425415289509e-17, -0.75, 9.184547653667829e-17, 0.75, 0, 0.4, 0,
     -0.575, 7.041486534478669e-17, 4.592273826833915e-17, 0.75, 0.575, 0, 2.449212707644755e-17, 0.4 };
@@ -993,8 +993,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0026()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0027()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.4, 4.898425415289509e-17, -0.75, 9.184547653667829e-17, 0.75, 0, 0.4, 0,
     -0.575, 7.041486534478669e-17, 4.592273826833915e-17, 0.75, 0.575, 0, 2.449212707644755e-17, 0.4 };
@@ -1038,8 +1038,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0027()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0028()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.4, 4.898425415289509e-17, -0.75, 9.184547653667829e-17, 0.75, 0, 0.4, 0,
     -0.575, 7.041486534478669e-17, 4.592273826833915e-17, 0.75, 0.575, 0, 2.449212707644755e-17, 0.4 };
@@ -1083,8 +1083,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0028()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0029()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.4, 4.898425415289509e-17, -0.75, 9.184547653667829e-17, 0.75, 0, 0.4, 0,
     -0.575, 7.041486534478669e-17, 4.592273826833915e-17, 0.75, 0.575, 0, 2.449212707644755e-17, 0.4 };
@@ -1128,8 +1128,8 @@ void QuadraticPlanarInterpTest::checkNonRegressionOmar0029()
 
 void QuadraticPlanarInterpTest::checkNonRegressionOmar0030()
 {
-  INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
-  INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
   double coords[16]={
     -0.4, 4.898425415289509e-17, -0.75, 9.184547653667829e-17, 0.75, 0, 0.4, 0,
     -0.575, 7.041486534478669e-17, 4.592273826833915e-17, 0.75, 0.575, 0, 2.449212707644755e-17, 0.4 };
index b373b3cfdfc5fea66a5f59a4615f2a9006f8f5c3..c52028de653a881fbcacebbb556086f177ce2c5f 100644 (file)
@@ -1181,6 +1181,9 @@ void MEDCouplingPointSet::project2DCellOnXY(const int *startConn, const int *end
  */
 bool MEDCouplingPointSet::isButterfly2DCell(const std::vector<double>& res, bool isQuad, double eps)
 {
+  INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
+
   std::size_t nbOfNodes(res.size()/2);
   std::vector<INTERP_KERNEL::Node *> nodes(nbOfNodes);
   for(std::size_t i=0;i<nbOfNodes;i++)
@@ -1188,8 +1191,6 @@ bool MEDCouplingPointSet::isButterfly2DCell(const std::vector<double>& res, bool
       INTERP_KERNEL::Node *tmp=new INTERP_KERNEL::Node(res[2*i],res[2*i+1]);
       nodes[i]=tmp;
     }
-  INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
-  INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
   INTERP_KERNEL::QuadraticPolygon *pol=0;
   if(isQuad)
     pol=INTERP_KERNEL::QuadraticPolygon::BuildArcCirclePolygon(nodes);
index 8848ab8c26ff7a0a004117090f432ade57c1f24d..c20930714891eec7013deaaea4d3836057ec3ab8 100644 (file)
@@ -5417,6 +5417,8 @@ DataArrayDouble *MEDCouplingUMesh::getBoundingBoxForBBTreeFast() const
 DataArrayDouble *MEDCouplingUMesh::getBoundingBoxForBBTree2DQuadratic(double arcDetEps) const
 {
   checkFullyDefined();
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(arcDetEps);
+
   int spaceDim(getSpaceDimension()),mDim(getMeshDimension()),nbOfCells(getNumberOfCells());
   if(spaceDim!=2 || mDim!=2)
     throw INTERP_KERNEL::Exception("MEDCouplingUMesh::getBoundingBoxForBBTree2DQuadratic : This method should be applied on mesh with mesh dimension equal to 2 and space dimension also equal to 2!");
@@ -5428,7 +5430,6 @@ DataArrayDouble *MEDCouplingUMesh::getBoundingBoxForBBTree2DQuadratic(double arc
     {
       const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel((INTERP_KERNEL::NormalizedCellType)conn[*connI]));
       int sz(connI[1]-connI[0]-1);
-      INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=arcDetEps;
       std::vector<INTERP_KERNEL::Node *> nodes(sz);
       INTERP_KERNEL::QuadraticPolygon *pol(0);
       for(int j=0;j<sz;j++)
@@ -5465,6 +5466,7 @@ DataArrayDouble *MEDCouplingUMesh::getBoundingBoxForBBTree1DQuadratic(double arc
   int spaceDim(getSpaceDimension()),mDim(getMeshDimension()),nbOfCells(getNumberOfCells());
   if(spaceDim!=2 || mDim!=1)
     throw INTERP_KERNEL::Exception("MEDCouplingUMesh::getBoundingBoxForBBTree1DQuadratic : This method should be applied on mesh with mesh dimension equal to 1 and space dimension also equal to 2!");
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(arcDetEps);
   MCAuto<DataArrayDouble> ret(DataArrayDouble::New()); ret->alloc(nbOfCells,2*spaceDim);
   double *bbox(ret->getPointer());
   const double *coords(_coords->begin());
@@ -5473,7 +5475,6 @@ DataArrayDouble *MEDCouplingUMesh::getBoundingBoxForBBTree1DQuadratic(double arc
     {
       const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel((INTERP_KERNEL::NormalizedCellType)conn[*connI]));
       int sz(connI[1]-connI[0]-1);
-      INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=arcDetEps;
       std::vector<INTERP_KERNEL::Node *> nodes(sz);
       INTERP_KERNEL::Edge *edge(0);
       for(int j=0;j<sz;j++)
index 10c0858400c273f6f5907d74884e262e7bf4bbbd..6f2948c6d4decca312508e32f62b054757d689b5 100644 (file)
@@ -348,7 +348,7 @@ void MEDCouplingUMesh::tessellate2DCurveInternal(double eps)
   double epsa=fabs(eps);
   if(epsa<std::numeric_limits<double>::min())
     throw INTERP_KERNEL::Exception("MEDCouplingUMesh::tessellate2DCurveInternal : epsilon is null ! Please specify a higher epsilon. If too tiny it can lead to a huge amount of nodes and memory !");
-  INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=1.e-10;
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(1.e-10);  // RAII
   int nbCells=getNumberOfCells();
   int nbNodes=getNumberOfNodes();
   const int *conn=_nodal_connec->begin();
index a1be4e63618015a1f6ab0681fca7446d4172da6c..dfb6b5977dadfd976b13807b132245a6a7914830 100644 (file)
@@ -102,6 +102,10 @@ template<int SPACEDIM>
 void MEDCouplingUMesh::getCellsContainingPointsAlg(const double *coords, const double *pos, int nbOfPoints,
                                                    double eps, MCAuto<DataArrayInt>& elts, MCAuto<DataArrayInt>& eltsIndex) const
 {
+  // Override precision for this method only:
+  INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
+
   elts=DataArrayInt::New(); eltsIndex=DataArrayInt::New(); eltsIndex->alloc(nbOfPoints+1,1); eltsIndex->setIJ(0,0,0); elts->alloc(0,1);
   int *eltsIndexPtr(eltsIndex->getPointer());
   MCAuto<DataArrayDouble> bboxArr(getBoundingBoxForBBTree(eps));
@@ -132,8 +136,6 @@ void MEDCouplingUMesh::getCellsContainingPointsAlg(const double *coords, const d
             {
               if(SPACEDIM!=2)
                 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::getCellsContainingPointsAlg : not implemented yet for POLYGON and QPOLYGON in spaceDim 3 !");
-              INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
-              INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
               std::vector<INTERP_KERNEL::Node *> nodes(sz);
               INTERP_KERNEL::QuadraticPolygon *pol(0);
               for(int j=0;j<sz;j++)
index 0af597a3d36afbc272d3f96d620a077cbefe5cbe..ba18effcd6d5d474b4391d1046f0b1459f8bf936 100644 (file)
@@ -1170,8 +1170,8 @@ void MEDCouplingUMesh::Intersect1DMeshes(const MEDCouplingUMesh *m1Desc, const M
                                          std::vector< std::vector<int> >& intersectEdge1, std::vector< std::vector<int> >& colinear2, std::vector< std::vector<int> >& subDiv2, std::vector<double>& addCoo, std::map<int,int>& mergedNodes)
 {
   static const int SPACEDIM=2;
-  INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
-  INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
+  INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
   const int *c1(m1Desc->getNodalConnectivity()->begin()),*ci1(m1Desc->getNodalConnectivityIndex()->begin());
   // Build BB tree of all edges in the tool mesh (second mesh)
   MCAuto<DataArrayDouble> bbox1Arr(m1Desc->getBoundingBoxForBBTree()),bbox2Arr(m2Desc->getBoundingBoxForBBTree());
@@ -1567,6 +1567,8 @@ MEDCouplingUMesh *MEDCouplingUMesh::Intersect2DMeshes(const MEDCouplingUMesh *m1
     throw INTERP_KERNEL::Exception("MEDCouplingUMesh::Intersect2DMeshes : input meshes must be not NULL !");
   m1->checkFullyDefined();
   m2->checkFullyDefined();
+  INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
   if(m1->getMeshDimension()!=2 || m1->getSpaceDimension()!=2 || m2->getMeshDimension()!=2 || m2->getSpaceDimension()!=2)
     throw INTERP_KERNEL::Exception("MEDCouplingUMesh::Intersect2DMeshes works on umeshes m1 AND m2  with meshdim equal to 2 and spaceDim equal to 2 too!");
 
@@ -1647,8 +1649,8 @@ void MEDCouplingUMesh::Intersect2DMeshWith1DLine(const MEDCouplingUMesh *mesh2D,
   // Step 1: compute all edge intersections (new nodes)
   std::vector< std::vector<int> > intersectEdge1, colinear2, subDiv2;
   std::vector<double> addCoo,addCoordsQuadratic;  // coordinates of newly created nodes
-  INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
-  INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
+  INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
   //
   // Build desc connectivity
   DataArrayInt *desc1(DataArrayInt::New()),*descIndx1(DataArrayInt::New()),*revDesc1(DataArrayInt::New()),*revDescIndx1(DataArrayInt::New());
@@ -1842,8 +1844,8 @@ DataArrayInt *MEDCouplingUMesh::conformize2D(double eps)
   std::vector< std::vector<int> > intersectEdge(nDescCell),overlapEdge(nDescCell);
   std::vector<double> addCoo;
   BBTree<SPACEDIM,int> myTree(bbox,0,0,nDescCell,-eps);
-  INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
-  INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
+  INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
   for(int i=0;i<nDescCell;i++)
     {
       std::vector<int> candidates;
@@ -1970,8 +1972,8 @@ DataArrayInt *MEDCouplingUMesh::colinearize2D(double eps)
   checkConsistencyLight();
   if(getSpaceDimension()!=2 || getMeshDimension()!=2)
     throw INTERP_KERNEL::Exception("MEDCouplingUMesh::colinearize2D : This method only works for meshes with spaceDim=2 and meshDim=2 !");
-  INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
-  INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
+  INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
+  INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
   int nbOfCells(getNumberOfCells()),nbOfNodes(getNumberOfNodes());
   const int *cptr(_nodal_connec->begin()),*ciptr(_nodal_connec_index->begin());
   MCAuto<DataArrayInt> newc(DataArrayInt::New()),newci(DataArrayInt::New()); newci->alloc(nbOfCells+1,1); newc->alloc(0,1); newci->setIJ(0,0,0);
index 786ee271d8fce6991899e1313dae4d06930a4654..f5789188157d16a83a339a2c38cb5570355e76f3 100644 (file)
@@ -312,6 +312,68 @@ class MEDCouplingIntersectTest(unittest.TestCase):
         self.assertTrue(f.getArray().isEqual(valuesExpected,1e-12))
         pass
 
+    def testIntersect2DMeshes7(self):
+        """ Quadratic precision values were improperly reset before testing colinearities """
+        eps = 1.0e-08
+        mesh1 = MEDCouplingUMesh('assemblyGrid_Pij', 2)
+        coo = DataArrayDouble([(10.80630000000000,10.80630000000000),(9.48750000000000,10.80630000000000),(10.75250000000000,10.80630000000000),(9.48750000000000,9.48750000000000),(10.75250000000000,9.48750000000000),(10.80630000000000,9.48750000000000),(9.48750000000000,10.75250000000000),(10.75250000000000,10.75250000000000),(10.80630000000000,10.75250000000000)])
+        mesh1.setCoords(coo)
+        c = DataArrayInt([5, 4, 3, 6, 7, 5, 5, 4, 7, 8, 5, 1, 2, 7, 6, 5, 2, 0, 8, 7])
+        cI = DataArrayInt([0, 5, 10, 15, 20])
+        mesh1.setConnectivity(c, cI)
+        mesh1.checkConsistency()
+
+        mesh2 = MEDCouplingUMesh('merge', 2)
+        coo = DataArrayDouble([(9.48750000000001,9.48750000000001),(10.75249999999975,9.48749999999955),(10.12000000000001,9.48750000000001),(10.80629999999976,9.48749999999955),(8.22250000000029,10.75250000000028),(9.48749999999961,10.75249999999971),(8.85500000000029,10.75250000000028),(9.48750000000001,10.12000000000001),(10.75249999999338,10.75249999999338),(10.41000000000001,10.12000000000001),(10.32506096654411,10.32506096654411),(10.12000000000001,10.41000000000001),(9.91493903345591,10.32506096654411),(9.83000000000001,10.12000000000001),(9.91493903345591,9.91493903345591),(10.12000000000001,9.83000000000001),(10.32506096654411,9.91493903345591),(10.11999999999961,10.75249999999971),(10.75249999999975,10.11999999999958),(10.49000000000001,10.12000000000001),(10.38162950903903,10.38162950903903),(10.12000000000001,10.49000000000001),(9.85837049096099,10.38162950903903),(9.75000000000001,10.12000000000001),(9.85837049096099,9.85837049096099),(10.12000000000001,9.75000000000001),(10.38162950903903,9.85837049096099),(9.88665476220845,10.35334523779157),(9.88665476220845,9.88665476220845),(9.67293524548050,9.67293524548050),(9.67293524548050,10.56706475451952),(10.80629999999339,10.75249999999338),(8.22250000000029,10.80630000000028),(9.48749999999961,10.80629999999971),(10.75249999999338,10.80629999999339),(10.80629999999339,10.80629999999339),(10.77939999999976,9.48749999999955),(10.77939999999339,10.75249999999338),(10.80629999999976,10.11999999999958),(8.22250000000029,10.77940000000028),(8.85500000000029,10.80630000000028),(9.48749999999961,10.77939999999971),(10.11999999999961,10.80629999999971),(10.75249999999338,10.77939999999339),(10.77939999999339,10.80629999999339),(10.80629999999339,10.77939999999339)])
+        mesh2.setCoords(coo)
+        c = DataArrayInt([32, 4, 32, 33, 5, 39, 40, 41, 6, 32, 5, 33, 34, 8, 41, 42, 43, 17, 32, 8, 34, 35, 31, 43, 44, 45, 37, 32, 14, 12, 10, 16, 13, 11, 9, 15, 32, 22, 12, 14, 24, 27, 13, 28, 23, 32, 24, 0, 5, 22, 29, 7, 30, 23, 32, 24, 14, 16, 10, 12, 22, 20, 26, 28, 15, 9, 11, 27, 21, 19, 25, 32, 22, 5, 8, 1, 0, 24, 26, 20, 30, 17, 18, 2, 29, 25, 19, 21, 32, 1, 8, 31, 3, 18, 37, 38, 36])
+        cI = DataArrayInt([0, 9, 18, 27, 36, 45, 54, 71, 88, 97])
+        mesh2.setConnectivity(c, cI)
+        mesh2.checkConsistency()
+
+        result, mapResToInit, mapResToRef = MEDCouplingUMesh.Intersect2DMeshes(mesh1, mesh2, eps)
+
+    def testIntersect2DMeshes8(self):
+        """ Quadratic precision values were improperly reset before testing colinearities """
+        eps = 1.0e-08
+        mesh1 = MEDCouplingUMesh('assemblyGrid_Pij', 2)
+        coo = DataArrayDouble([(10.80630000000000,10.80630000000000),(9.48750000000000,10.80630000000000),(10.75250000000000,10.80630000000000),(9.48750000000000,9.48750000000000),(10.75250000000000,9.48750000000000),(10.80630000000000,9.48750000000000),(9.48750000000000,10.75250000000000),(10.75250000000000,10.75250000000000),(10.80630000000000,10.75250000000000),(10.12000000000000,9.48750000000000),(10.77940000000000,9.48750000000000),(9.48750000000000,10.12000000000000),(10.12000000000000,10.75250000000000),(10.75250000000000,10.12000000000000),(10.77940000000000,10.75250000000000),(10.80630000000000,10.12000000000000),(9.48750000000000,10.77940000000000),(10.12000000000000,10.80630000000000),(10.75250000000000,10.77940000000000),(10.77940000000000,10.80630000000000),(10.80630000000000,10.77940000000000)])
+        mesh1.setCoords(coo)
+        c = DataArrayInt([32, 4, 3, 6, 7, 9, 11, 12, 13, 32, 5, 4, 7, 8, 10, 13, 14, 15, 32, 1, 2, 7, 6, 17, 18, 12, 16, 32, 2, 0, 8, 7, 19, 20, 14, 18])
+        cI = DataArrayInt([0, 9, 18, 27, 36])
+        mesh1.setConnectivity(c, cI)
+        mesh1.checkConsistency()
+
+        mesh2 = MEDCouplingUMesh('merge', 2)
+        coo = DataArrayDouble([(9.48750000000001,9.48750000000001),(10.75249999999975,9.48749999999955),(10.12000000000001,9.48750000000001),(10.80629999999976,9.48749999999955),(8.22250000000029,10.75250000000028),(9.48749999999961,10.75249999999971),(8.85500000000029,10.75250000000028),(9.48750000000001,10.12000000000001),(10.75249999999338,10.75249999999338),(10.41000000000001,10.12000000000001),(10.32506096654411,10.32506096654411),(10.12000000000001,10.41000000000001),(9.91493903345591,10.32506096654411),(9.83000000000001,10.12000000000001),(9.91493903345591,9.91493903345591),(10.12000000000001,9.83000000000001),(10.32506096654411,9.91493903345591),(10.11999999999961,10.75249999999971),(10.75249999999975,10.11999999999958),(10.49000000000001,10.12000000000001),(10.38162950903903,10.38162950903903),(10.12000000000001,10.49000000000001),(9.85837049096099,10.38162950903903),(9.75000000000001,10.12000000000001),(9.85837049096099,9.85837049096099),(10.12000000000001,9.75000000000001),(10.38162950903903,9.85837049096099),(9.88665476220845,10.35334523779157),(9.88665476220845,9.88665476220845),(9.67293524548050,9.67293524548050),(9.67293524548050,10.56706475451952),(10.80629999999339,10.75249999999338),(8.22250000000029,10.80630000000028),(9.48749999999961,10.80629999999971),(10.75249999999338,10.80629999999339),(10.80629999999339,10.80629999999339),(10.77939999999976,9.48749999999955),(10.77939999999339,10.75249999999338),(10.80629999999976,10.11999999999958),(8.22250000000029,10.77940000000028),(8.85500000000029,10.80630000000028),(9.48749999999961,10.77939999999971),(10.11999999999961,10.80629999999971),(10.75249999999338,10.77939999999339),(10.77939999999339,10.80629999999339),(10.80629999999339,10.77939999999339)])
+        mesh2.setCoords(coo)
+        c = DataArrayInt([32, 4, 32, 33, 5, 39, 40, 41, 6, 32, 5, 33, 34, 8, 41, 42, 43, 17, 32, 8, 34, 35, 31, 43, 44, 45, 37, 32, 14, 12, 10, 16, 13, 11, 9, 15, 32, 22, 12, 14, 24, 27, 13, 28, 23, 32, 24, 0, 5, 22, 29, 7, 30, 23, 32, 24, 14, 16, 10, 12, 22, 20, 26, 28, 15, 9, 11, 27, 21, 19, 25, 32, 22, 5, 8, 1, 0, 24, 26, 20, 30, 17, 18, 2, 29, 25, 19, 21, 32, 1, 8, 31, 3, 18, 37, 38, 36])
+        cI = DataArrayInt([0, 9, 18, 27, 36, 45, 54, 71, 88, 97])
+        mesh2.setConnectivity(c, cI)
+        mesh2.checkConsistency()
+
+        result, mapResToInit, mapResToRef = MEDCouplingUMesh.Intersect2DMeshes(mesh1, mesh2, eps)
+
+    def testIntersect2DMeshes9(self):
+        """ Quadratic precision values were improperly reset before testing colinearities """
+        eps = 1.0e-08
+        mesh1 = MEDCouplingUMesh('merge', 2)
+        coo = DataArrayDouble([(10.80629999999339,10.80629999999339),(9.48749999999961,10.80629999999971),(10.75249999999338,10.80629999999339),(9.48750000000001,9.48750000000001),(10.75249999999975,9.48749999999955),(10.80629999999976,9.48749999999955),(9.48749999999961,10.75249999999971),(10.75249999999338,10.75249999999338),(10.80629999999339,10.75249999999338)])
+        mesh1.setCoords(coo)
+        c = DataArrayInt([5, 4, 3, 6, 7, 5, 5, 4, 7, 8, 5, 1, 2, 7, 6, 5, 2, 0, 8, 7])
+        cI = DataArrayInt([0, 5, 10, 15, 20])
+        mesh1.setConnectivity(c, cI)
+        mesh1.checkConsistency()
+
+        mesh2 = MEDCouplingUMesh('merge', 2)
+        coo = DataArrayDouble([(9.48749999999998,8.22249999999998),(10.75250000000034,8.22250000000030),(10.80630000000034,8.22250000000030),(9.48750000000001,9.48750000000001),(10.75249999999975,9.48749999999955),(10.80629999999976,9.48749999999955),(9.48749999999961,10.75249999999971),(10.75249999999338,10.75249999999338),(10.80629999999339,10.75249999999338),(10.11999999999999,8.22249999999998),(9.48749999999998,8.85499999999998),(10.40999999999999,8.85499999999998),(10.32506096654408,9.06006096654408),(10.11999999999999,9.14499999999998),(9.91493903345589,9.06006096654408),(9.82999999999998,8.85499999999998),(9.91493903345589,8.64993903345588),(10.11999999999999,8.56499999999998),(10.32506096654408,8.64993903345588),(10.12000000000001,9.48750000000001),(10.75250000000034,8.85500000000035),(10.48999999999999,8.85499999999998),(10.38162950903901,9.11662950903900),(10.11999999999999,9.22499999999998),(9.85837049096096,9.11662950903900),(9.74999999999998,8.85499999999998),(9.85837049096096,8.59337049096096),(10.11999999999999,8.48499999999998),(10.38162950903901,8.59337049096096),(9.88665476220842,9.08834523779154),(9.88665476220842,8.62165476220842),(9.67293524548047,8.40793524548047),(9.67293524548047,9.30206475451949),(9.48750000000001,10.12000000000001),(10.41000000000001,10.12000000000001),(10.32506096654411,10.32506096654411),(10.12000000000001,10.41000000000001),(9.91493903345591,10.32506096654411),(9.83000000000001,10.12000000000001),(9.91493903345591,9.91493903345591),(10.12000000000001,9.83000000000001),(10.32506096654411,9.91493903345591),(10.11999999999961,10.75249999999971),(10.75249999999975,10.11999999999958),(10.49000000000001,10.12000000000001),(10.38162950903903,10.38162950903903),(10.12000000000001,10.49000000000001),(9.85837049096099,10.38162950903903),(9.75000000000001,10.12000000000001),(9.85837049096099,9.85837049096099),(10.12000000000001,9.75000000000001),(10.38162950903903,9.85837049096099),(9.88665476220845,10.35334523779157),(9.88665476220845,9.88665476220845),(9.67293524548050,9.67293524548050),(9.67293524548050,10.56706475451952),(10.77940000000034,8.22250000000030),(10.77939999999976,9.48749999999955),(10.80630000000034,8.85500000000035),(10.77939999999339,10.75249999999338),(10.80629999999976,10.11999999999958)])
+        mesh2.setCoords(coo)
+        c = DataArrayInt([32, 16, 14, 12, 18, 15, 13, 11, 17, 32, 24, 14, 16, 26, 29, 15, 30, 25, 32, 26, 0, 3, 24, 31, 10, 32, 25, 32, 26, 16, 18, 12, 14, 24, 22, 28, 30, 17, 11, 13, 29, 23, 21, 27, 32, 24, 3, 4, 1, 0, 26, 28, 22, 32, 19, 20, 9, 31, 27, 21, 23, 32, 1, 4, 5, 2, 20, 57, 58, 56, 32, 39, 37, 35, 41, 38, 36, 34, 40, 32, 47, 37, 39, 49, 52, 38, 53, 48, 32, 49, 3, 6, 47, 54, 33, 55, 48, 32, 49, 39, 41, 35, 37, 47, 45, 51, 53, 40, 34, 36, 52, 46, 44, 50, 32, 47, 6, 7, 4, 3, 49, 51, 45, 55, 42, 43, 19, 54, 50, 44, 46, 32, 4, 7, 8, 5, 43, 59, 60, 57])
+        cI = DataArrayInt([0, 9, 18, 27, 44, 61, 70, 79, 88, 97, 114, 131, 140])
+        mesh2.setConnectivity(c, cI)
+        mesh2.checkConsistency()
+
+        result, mapResToInit, mapResToRef = MEDCouplingUMesh.Intersect2DMeshes(mesh1, mesh2, eps)
 
     def testSwig2Intersect2DMeshesQuadra1(self):
         import cmath