netgen/libsrc/meshing/meshtool.hpp

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2009-01-13 04:40:13 +05:00
#ifndef FILE_MESHTOOL
#define FILE_MESHTOOL
///
extern void MeshQuality2d (const Mesh & mesh);
///
extern void MeshQuality3d (const Mesh & mesh,
ARRAY<int> * inclass = NULL);
///
extern void SaveEdges (const Mesh & mesh,
const char * geomfile,
double h,
char * filename);
///
extern void SaveSurfaceMesh (const Mesh & mesh,
double h,
char * filename);
/*
///
extern void Save2DMesh (
const Mesh & mesh2d,
const ARRAY<class SplineSegment*> * splines,
ostream & outfile);
*/
class Surface;
///
extern void SaveVolumeMesh (
const ARRAY<Point3d> & points,
const ARRAY<Element> & elements,
const ARRAY<Element> & volelements,
const ARRAY<Surface*> & surfaces,
char * filename);
///
void SaveVolumeMesh (const Mesh & mesh,
const class CSGeometry & geometry,
char * filename);
///
extern int CheckCode ();
///
extern double CalcTetBadness (const Point3d & p1,
const Point3d & p2,
const Point3d & p3,
const Point3d & p4,
double h);
///
extern double CalcTetBadnessGrad (const Point3d & p1,
const Point3d & p2,
const Point3d & p3,
const Point3d & p4,
double h, int pi,
Vec<3> & grad);
/** Calculates volume of an element.
The volume of the tetrahedron el is computed
*/
// extern double CalcVolume (const ARRAY<Point3d> & points,
// const Element & el);
/** The total volume of all elements is computed.
This function calculates the volume of the mesh */
extern double CalcVolume (const ARRAY<Point3d> & points,
const ARRAY<Element> & elements);
///
extern int CheckSurfaceMesh (const Mesh & mesh);
///
extern int CheckSurfaceMesh2 (const Mesh & mesh);
///
extern int CheckMesh3D (const Mesh & mesh);
///
extern void RemoveProblem (Mesh & mesh, int domainnr);
#endif