-// Copyright (C) 2007-2014 CEA/DEN, EDF R&D
+// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
namespace INTERP_KERNEL
{
typedef enum
- {
- SEG = 1,
- ARC_CIRCLE = 4,
- ARC_PARABOL = 8
- } TypeOfFunction;
+ {
+ SEG = 1,
+ ARC_CIRCLE = 4,
+ ARC_PARABOL = 8
+ } TypeOfFunction;
typedef enum
- {
- CIRCLE = 0 ,
- PARABOL = 1
- } TypeOfMod4QuadEdge;
+ {
+ CIRCLE = 0 ,
+ PARABOL = 1
+ } TypeOfMod4QuadEdge;
typedef enum
- {
- START = 5,
- END = 1,
- INSIDE = 2,
- OUT_BEFORE = 3,
- OUT_AFTER = 4
- } TypeOfLocInEdge; //see Edge::OFFSET_FOR_TYPEOFLOCINEDGE
-
+ {
+ START = 5,
+ END = 1,
+ INSIDE = 2,
+ OUT_BEFORE = 3,
+ OUT_AFTER = 4
+ } TypeOfLocInEdge; //see Edge::OFFSET_FOR_TYPEOFLOCINEDGE
+
typedef enum
- {
- FULL_IN_1 = 1,
- FULL_ON_1 = 4,
- FULL_OUT_1 = 2,
- FULL_UNKNOWN = 3
- } TypeOfEdgeLocInPolygon;
+ {
+ FULL_IN_1 = 1,
+ FULL_ON_1 = 4,
+ FULL_OUT_1 = 2,
+ FULL_UNKNOWN = 3
+ } TypeOfEdgeLocInPolygon;
class INTERPKERNEL_EXPORT MergePoints
{
bool isEnd2(unsigned rk) const;
void clear();
unsigned getNumberOfAssociations() const;
+ void updateMergedNodes(int e1Start, int e1End, int e2Start, int e2End, std::map<int,int>& mergedNodes);
+ private:
+ static void PushInMap(int key, int value, std::map<int,int>& mergedNodes);
private:
unsigned _ass1Start1 : 1;
unsigned _ass1End1 : 1;
class INTERPKERNEL_EXPORT EdgeIntersector
{
protected:
- //! All non symetric methods are relative to 'e1'.
+ //! All non symmetric methods are relative to 'e1'.
EdgeIntersector(const Edge& e1, const Edge& e2):_e1(e1),_e2(e2) { }
public:
virtual ~EdgeIntersector() { }
virtual bool keepOrder() const = 0;
+ virtual bool areColinears() const = 0;
//!to call only if 'areOverlapped' have been set to true when areOverlappedOrOnlyColinears was called
virtual bool haveTheySameDirection() const = 0;
//!to call only if 'areOverlapped' have been set to true when areOverlappedOrOnlyColinears was called
void declareOn() const;
void declareIn() const;
void declareOut() const;
+ void initHitStatus() const { _hit=false; }
+ bool getHitStatus() const { return _hit; }
+ void hitMeAlone(double xBary, double yBary, double dimChar) { _hit=true; applySimilarity(xBary,yBary,dimChar); }
+ void unHitMeAlone(double xBary, double yBary, double dimChar) { _hit=true; unApplySimilarity(xBary,yBary,dimChar); }
+ void hitMeAfter(double xBary, double yBary, double dimChar) { if(!_hit) hitMeAlone(xBary,yBary,dimChar); }
+ void unHitMeAfter(double xBary, double yBary, double dimChar) { if(!_hit) unHitMeAlone(xBary,yBary,dimChar); }
const Bounds& getBounds() const { return _bounds; }
void fillXfigStreamForLoc(std::ostream& stream) const;
Node *getNode(TypeOfLocInEdge where) const { if(where==START) return _start; else if(where==END) return _end; else return 0; }
virtual double getCurveLength() const = 0;
virtual void getBarycenter(double *bary) const = 0;
virtual void getBarycenterOfZone(double *bary) const = 0;
+ //! return the middle of two points
+ virtual void getMiddleOfPoints(const double *p1, const double *p2, double *mid) const = 0;
+ //! return the middle of two points respecting the orientation defined by this (relevant for arc of circle). By default same as getMiddleOfPoints()
+ virtual void getMiddleOfPointsOriented(const double *p1, const double *p2, double *mid) const;
//! Retrieves a point that is owning to this, well placed for IN/OUT detection of this. Typically midlle of this is returned.
virtual Node *buildRepresentantOfMySelf() const = 0;
//! Given a magnitude specified by sub-type returns if in or not. See getCharactValue method.
virtual void dumpInXfigFile(std::ostream& stream, bool direction, int resolution, const Bounds& box) const = 0;
bool isEqual(const Edge& other) const;
public:
+ bool sortSubNodesAbs(const double *coo, std::vector<int>& subNodes);
void sortIdsAbs(const std::vector<INTERP_KERNEL::Node *>& addNodes, const std::map<INTERP_KERNEL::Node *, int>& mapp1, const std::map<INTERP_KERNEL::Node *, int>& mapp2, std::vector<int>& edgesThis);
virtual void fillGlobalInfoAbs(bool direction, const std::map<INTERP_KERNEL::Node *,int>& mapThis, const std::map<INTERP_KERNEL::Node *,int>& mapOther, int offset1, int offset2, double fact, double baryX, double baryY,
std::vector<int>& edgesThis, std::vector<double>& addCoo, std::map<INTERP_KERNEL::Node *,int> mapAddCoo) const = 0;
static bool SplitOverlappedEdges(const Edge *e1, const Edge *e2, Node *nS, Node *nE, bool direction, int code,
ComposedEdge& outVal1, ComposedEdge& outVal2);
protected:
+ mutable bool _hit;
mutable unsigned char _cnt;
mutable TypeOfEdgeLocInPolygon _loc;
Bounds _bounds;