/usr/include/gmsh/GenericFace.h is in libgmsh-dev 2.10.1+dfsg1-1ubuntu4.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 | // Gmsh - Copyright (C) 1997-2015 C. Geuzaine, J.-F. Remacle
//
// See the LICENSE.txt file for license information. Please report all
// bugs and problems to the public mailing list <gmsh@geuz.org>.
//
// Contributed by Paul-Emile Bernard
#ifndef _GENERIC_FACE_H_
#define _GENERIC_FACE_H_
#include "GmshConfig.h"
#include "GFace.h"
#include "GModel.h"
#include "GenericVertex.h"
#include "GenericEdge.h"
#include "Range.h"
#include <vector>
/* The set of Generic Entities is a generic interface to any other modeler.
Callbacks (function pointers) are given, sending requests, enquiries, to the
native modeler. */
class GenericFace : public GFace {
protected:
int id;
double umin, umax, vmin, vmax;// face uv bounds
bool _periodic[2];// is periodic in u, v
double _period[2];
public:
// callbacks typedef
typedef bool (*ptrfunction_int_refstring)(int, std::string&);
typedef bool (*ptrfunction_int_refbool_refbool_refdouble_refdouble)(int, bool&, bool&, double&, double&);
typedef bool (*ptrfunction_int_refvector_refvector)(const int , const std::vector<double> &, std::vector<double> &);
typedef bool (*ptrfunction_int_refvector_refvector_refvector)(const int , const std::vector<double> &, std::vector<double> &, std::vector<double> &);
typedef bool (*ptrfunction_int_refvector_refbool)(const int , const std::vector<double> &, bool &);
typedef bool (*ptrfunction_int_int_refdouble_refdouble)(const int, const int, double &, double &);
typedef bool (*ptrfunction_int_refvector_refvector_refvector_refdouble_refdouble)(const int, const std::vector<double> &, std::vector<double> &, std::vector<double> &, double &, double &);
typedef bool (*ptrfunction_int_refvector_refvector_refvector_refvector)(const int , const std::vector<double> &, std::vector<double> &, std::vector<double> &, std::vector<double> &);
GenericFace(GModel *m, int num, int _native_id);
virtual ~GenericFace();
Range<double> parBounds(int i) const;
virtual GPoint point(double par1, double par2) const;
virtual GPoint closestPoint(const SPoint3 & queryPoint,
const double initialGuess[2]) const;
virtual bool containsPoint(const SPoint3 &pt) const;
virtual SVector3 normal(const SPoint2 ¶m) const;
virtual Pair<SVector3,SVector3> firstDer(const SPoint2 ¶m) const;
virtual void secondDer(const SPoint2 &, SVector3 *, SVector3 *, SVector3 *) const;
virtual GEntity::GeomType geomType() const;
virtual SPoint2 parFromPoint(const SPoint3 &, bool onSurface=true) const;
virtual double curvatureMax(const SPoint2 ¶m) const;
virtual double curvatures(const SPoint2 ¶m, SVector3 *dirMax, SVector3 *dirMin,
double *curvMax, double *curvMin) const;
virtual bool periodic(int dir) const { return false;}//_periodic[dir]; }// TODO ?
virtual double period(int dir) const{ return _period[dir]; };
ModelType getNativeType() const { return GenericModel; }
virtual int getNativeInt()const{return id;};
void addBndInfo(int loop, GEdge *ptr, int sign)
{
bnd.insert(std::make_pair(loop, std::make_pair(ptr,sign)));
l_dirs.push_back(sign);
l_edges.push_back(ptr);
loopsnumber.insert(loop);
ptr->addFace(this);
};
void createLoops();
void computePeriodicity();
// sets callbacks
static void setFaceGeomType(ptrfunction_int_refstring fct){FaceGeomType = fct;};
static void setFaceUVFromXYZ(ptrfunction_int_refvector_refvector fct){FaceUVFromXYZ = fct;};
static void setFaceClosestPoint(ptrfunction_int_refvector_refvector_refvector fct){FaceClosestPoint = fct;};
static void setFaceContainsPointFromXYZ(ptrfunction_int_refvector_refbool fct){FaceContainsPointFromXYZ = fct;};
static void setFaceContainsPointFromUV(ptrfunction_int_refvector_refbool fct){FaceContainsPointFromUV = fct;};
static void setFaceXYZFromUV(ptrfunction_int_refvector_refvector fct){FaceXYZFromUV = fct;};
static void setFaceParBounds(ptrfunction_int_int_refdouble_refdouble fct){FaceParBounds = fct;};
static void setFaceCurvatures(ptrfunction_int_refvector_refvector_refvector_refdouble_refdouble fct){FaceCurvatures = fct;};
static void setFaceEvalNormal(ptrfunction_int_refvector_refvector fct){FaceEvalNormal = fct;};
static void setFaceFirstDer(ptrfunction_int_refvector_refvector_refvector fct){FaceFirstDer = fct;};
static void setFaceSecondDer(ptrfunction_int_refvector_refvector_refvector_refvector fct){FaceSecondDer = fct;};
static void setFacePeriodicInfo(ptrfunction_int_refbool_refbool_refdouble_refdouble fct){FacePeriodicInfo = fct;};
private:
std::multimap<int, std::pair<GEdge*,int> > bnd;
std::set<int> loopsnumber;
// the callbacks:
static ptrfunction_int_refstring FaceGeomType;
static ptrfunction_int_refvector_refvector FaceUVFromXYZ,FaceXYZFromUV,FaceEvalNormal;
static ptrfunction_int_refvector_refvector_refvector FaceClosestPoint,FaceFirstDer;
static ptrfunction_int_refvector_refbool FaceContainsPointFromXYZ,FaceContainsPointFromUV;
static ptrfunction_int_int_refdouble_refdouble FaceParBounds;
static ptrfunction_int_refvector_refvector_refvector_refdouble_refdouble FaceCurvatures;
static ptrfunction_int_refvector_refvector_refvector_refvector FaceSecondDer;
static ptrfunction_int_refbool_refbool_refdouble_refdouble FacePeriodicInfo;
};
#endif
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