#ifndef NGINTERFACE_V2 #define NGINTERFACE_V2 /**************************************************************************/ /* File: nginterface_v2.hpp */ /* Author: Joachim Schoeberl */ /* Date: May 09 */ /**************************************************************************/ /* C++ interface to Netgen */ namespace netgen { class Ng_Element { class Ng_Points { public: int num; const int * ptr; int Size() const { return num; } int operator[] (int i) const { return ptr[i]-1; } }; class Ng_Vertices { public: int num; const int * ptr; int Size() const { return num; } int operator[] (int i) const { return ptr[i]-1; } }; class Ng_Edges { public: int num; const int * ptr; int Size() const { return num; } int operator[] (int i) const { return abs (ptr[i])-1; } }; class Ng_Faces { public: int num; const int * ptr; int Size() const { return num; } int operator[] (int i) const { return (ptr[i]-1) / 8; } }; public: NG_ELEMENT_TYPE type; NG_ELEMENT_TYPE GetType() const { return type; } Ng_Points points; // all points Ng_Vertices vertices; Ng_Edges edges; Ng_Faces faces; }; class Ng_Point { public: double * pt; double operator[] (int i) { return pt[i]; } }; template class Ng_Node; template <> class Ng_Node<1> { class Ng_Vertices { public: const int * ptr; int Size() const { return 2; } int operator[] (int i) const { return ptr[i]-1; } }; public: Ng_Vertices vertices; }; template <> class Ng_Node<2> { class Ng_Vertices { public: int nv; const int * ptr; int Size() const { return nv; } int operator[] (int i) const { return ptr[i]-1; } }; class Ng_Edges { public: int ned; const int * ptr; int Size() const { return ned; } int operator[] (int i) const { return ptr[i]-1; } }; public: Ng_Vertices vertices; Ng_Edges edges; }; DLL_HEADER class Ngx_Mesh { private: class Mesh * mesh; public: Ngx_Mesh(class Mesh * amesh); virtual ~Ngx_Mesh(); int GetDimension() const; int GetNLevels() const; int GetNElements (int dim) const; int GetNNodes (int nt) const; Ng_Point GetPoint (int nr) const; template Ng_Element GetElement (int nr) const; template int GetElementIndex (int nr) const; /// Curved Elements: /// elnr .. element nr /// xi..... DIM_EL local coordinates /// x ..... DIM_SPACE global coordinates /// dxdxi...DIM_SPACE x DIM_EL Jacobian matrix (row major storage) template void ElementTransformation (int elnr, const double * xi, double * x, double * dxdxi) const; /// Curved Elements: /// elnr .. element nr /// npts .. number of points /// xi..... DIM_EL local coordinates /// sxi ... step xi /// x ..... DIM_SPACE global coordinates /// dxdxi...DIM_SPACE x DIM_EL Jacobian matrix (row major storage) template void MultiElementTransformation (int elnr, int npts, const double * xi, size_t sxi, double * x, size_t sx, double * dxdxi, size_t sdxdxi) const; template Ng_Node GetNode (int nr); template int GetNNodes (); // Find element of point, returns local coordinates template int FindElementOfPoint (double * p, double * lami, bool build_searchtrees = false, int * const indices = NULL, int numind = 0); }; DLL_HEADER Ngx_Mesh * LoadMesh (const string & filename); } #endif