Netgen mesh library : nglib
eryar@163.com
摘要Abstract:本文主是對Netgen的庫nglib的用法進(jìn)行介紹。主要參考資料是Netgen用戶指南。最后給出一個具體程序?qū)嵗?
關(guān)鍵字Key Words:Netgen, nglib, Mesh
一、引言 Introduction
Netgen網(wǎng)格生成庫nglib是以C++源程序形式提供,可以編譯為Unix/Linux或Windows上的庫文件。程序開發(fā)使用的接口文件是nglib.h。
二、頭文件 The Header File
接口文件中包含了一些類型定義和函數(shù)調(diào)用,所有的Netgen類型和函數(shù)都帶有前綴Ng。類型和函數(shù)首字母大寫,所有常量都是大寫。
三、類型和常量 Types and Constants
// ** Constants used within Netgen *********************
/// Maximum allowed number of nodes per volume element
#define NG_VOLUME_ELEMENT_MAXPOINTS 10
/// Maximum allowed number of nodes per surface element
#define NG_SURFACE_ELEMENT_MAXPOINTS 8
// *** Data-types for accessing Netgen functionality ***
/// Data type for NETGEN mesh
typedef void * Ng_Mesh;
/// Data type for NETGEN CSG geometry
typedef void * Ng_CSG_Geometry;
/// Data type for NETGEN 2D geometry
typedef void * Ng_Geometry_2D;
/// Data type for NETGEN STL geometry
typedef void * Ng_STL_Geometry;
// *** Special Enum types used within Netgen ***********
/// Currently implemented surface element types
enum Ng_Surface_Element_Type
{ NG_TRIG = 1, NG_QUAD = 2, NG_TRIG6 = 3, NG_QUAD6 = 4, NG_QUAD8 = 5 };
/// Currently implemented volume element types
enum Ng_Volume_Element_Type
{ NG_TET = 1, NG_PYRAMID = 2, NG_PRISM = 3, NG_TET10 = 4 };
/// Values returned by Netgen functions
enum Ng_Result
{
NG_ERROR = -1,
NG_OK = 0,
NG_SURFACE_INPUT_ERROR = 1,
NG_VOLUME_FAILURE = 2,
NG_STL_INPUT_ERROR = 3,
NG_SURFACE_FAILURE = 4,
NG_FILE_NOT_FOUND = 5
};
// *** Classes required for use within Netgen **********
/// Netgen Meshing Parameters class
class Ng_Meshing_Parameters
{
public:
int uselocalh; //!< Switch to enable / disable usage of local mesh size modifiers
double maxh; //!< Maximum global mesh size allowed
double minh; //!< Minimum global mesh size allowed
double fineness; //!< Mesh density: 0
1 (0 => coarse; 1 => fine)
double grading; //!< Mesh grading: 01 (0 => uniform mesh; 1 => aggressive local grading)
double elementsperedge; //!< Number of elements to generate per edge of the geometry
double elementspercurve; //!< Elements to generate per curvature radius
Ng_Mesh表示Netgen網(wǎng)格的數(shù)據(jù)結(jié)構(gòu)。Ng_STL_Geometry表示STL幾何。可以通過Ng_Meshing_Parameters來指定生成網(wǎng)格時的參數(shù)。Netgen函數(shù)的返回值類型是Ng_Result。
四、初始化 Initialization
分別調(diào)用如下兩個函數(shù)對netgen初始化和析構(gòu):
/*! \brief Initialise the Netgen library and prepare for use
*/
DLL_HEADER void Ng_Init ();
/*! \brief Exit the Netgen meshing kernel in a clean manner
*/
DLL_HEADER void Ng_Exit ();
五、網(wǎng)格的訪問 Mesh access
Netgen網(wǎng)格可以通過如下函數(shù)來處理。一個網(wǎng)格包含nodes, surface elements和volume elements。都是從1開始計數(shù)的。
// Generates new mesh structure
Ng_Mesh * Ng_NewMesh ();
void Ng_DeleteMesh (Ng_Mesh * mesh);
// feeds points, surface elements and volume elements to the mesh
void Ng_AddPoint (Ng_Mesh * mesh, double * x);
void Ng_AddSurfaceElement (Ng_Mesh * mesh, Ng_Surface_Element_Type et, int * pi);
void Ng_AddVolumeElement (Ng_Mesh * mesh, Ng_Volume_Element_Type et, int * pi);
// ask for number of points, surface and volume elements
int Ng_GetNP (Ng_Mesh * mesh);
int Ng_GetNSE (Ng_Mesh * mesh);
int Ng_GetNE (Ng_Mesh * mesh);
// return point coordinates
void Ng_GetPoint (Ng_Mesh * mesh, int num, double * x);
// return surface and volume element in pi
Ng_Surface_Element_Type
Ng_GetSurfaceElement (Ng_Mesh * mesh, int num, int * pi);
Ng_Volume_Element_Type
Ng_GetVolumeElement (Ng_Mesh * mesh, int num, int * pi);
更多信息請參考其頭文件nglib.h。
在生成網(wǎng)格時,用戶可以指定網(wǎng)格大小及一些約束。函數(shù)Ng_GenerateVolumeMesh從曲面生成網(wǎng)格。
/*! \brief Apply a global restriction on mesh element size
*/
DLL_HEADER void Ng_RestrictMeshSizeGlobal (Ng_Mesh * mesh, double h);
/*! \brief Locally restrict the mesh element size at the given point
*/
DLL_HEADER void Ng_RestrictMeshSizePoint (Ng_Mesh * mesh, double * p, double h);
/*! \brief Locally restrict the mesh element size within a specified box
*/
DLL_HEADER void Ng_RestrictMeshSizeBox (Ng_Mesh * mesh, double * pmin, double * pmax, double h);
/*! \brief Create a 3D Volume Mesh given a Surface Mesh
*/
DLL_HEADER Ng_Result Ng_GenerateVolumeMesh (Ng_Mesh * mesh, Ng_Meshing_Parameters * mp);
六、STL幾何 STL Geometry
STL幾何數(shù)據(jù)可以從STL文件(ASCII或二進(jìn)制)讀取,也可以由一個個的三角形組裝而成。
// loads geometry from STL file
DLL_HEADER Ng_STL_Geometry * Ng_STL_LoadGeometry (const char * filename, int binary = 0);
// generate new STL Geometry
DLL_HEADER Ng_STL_Geometry * Ng_STL_NewGeometry ();
// fills STL Geometry
// positive orientation
// normal vector may be null-pointer
DLL_HEADER void Ng_STL_AddTriangle (Ng_STL_Geometry * geom,
double * p1, double * p2, double * p3,
double * nv = NULL);
// add (optional) edges :
DLL_HEADER void Ng_STL_AddEdge (Ng_STL_Geometry * geom,
double * p1, double * p2);
// after adding triangles (and edges) initialize
DLL_HEADER Ng_Result Ng_STL_InitSTLGeometry (Ng_STL_Geometry * geom);
// automatically generates edges:
DLL_HEADER Ng_Result Ng_STL_MakeEdges (Ng_STL_Geometry * geom,
Ng_Mesh* mesh,
Ng_Meshing_Parameters * mp);
// generates mesh, empty mesh must be already created.
DLL_HEADER Ng_Result Ng_STL_GenerateSurfaceMesh (Ng_STL_Geometry * geom,
Ng_Mesh * mesh,
Ng_Meshing_Parameters * mp);
七、示例程序 Example Code
在Netgen的安裝目錄下的nglib文件夾中有兩個示例程序ng_vol.cpp和ng_stl.cpp。其中ng_vol.cpp程序開始時從cube.surf文件讀入點坐標(biāo)和曲面的三角形,生成的volumne mesh輸出到文件:cuve.vol。經(jīng)過測試,程序可以運行,修改過的代碼如下所示:
#include <iostream>
#include <fstream>
namespace nglib {
#include <nglib.h>
}
#pragma comment(lib, "nglib.lib")
int main(int argc, char* argv[])
{
std::cout << "Netgen Testing" << std::endl;
int i = 0;
int np = 0;
int nse = 0;
int ne = 0;
int trig[3] = {0};
int tet[4] = {0};
double point[3] = {0.0};
std::string strMeshFile = (argc > 1)? argv[1]: "cube.surf";
std::ifstream meshFile(strMeshFile.c_str());
// initialize the Netgen library.
nglib::Ng_Init();
// Generate new mesh structure.
nglib::Ng_Mesh* mesh = nglib::Ng_NewMesh();
// Read surface mesh from file.
// feed points to the mesh.
meshFile >> np;
std::cout << "Reading " << np << " points" << std::endl;
for (int i = 0; i < np; ++i)
{
meshFile >> point[0] >> point[1] >> point[2];
nglib::Ng_AddPoint(mesh, point);
}
std::cout << "done." << std::endl;
// feed surface elements to the mesh.
meshFile >> nse;
std::cout << "Reading " << nse << " faces" << std::endl;
for (int i = 0; i < nse; ++i)
{
meshFile >> trig[0] >> trig[1] >> trig[2];
nglib::Ng_AddSurfaceElement(mesh, nglib::NG_TRIG, trig);
}
std::cout << "done." << std::endl;
// generate volume mesh.
nglib::Ng_Meshing_Parameters mp;
mp.maxh = 1e6;
mp.fineness = 1;
mp.second_order = 0;
std::cout << "start meshing" << std::endl;
nglib::Ng_GenerateVolumeMesh(mesh, &mp);
std::cout << "meshing done." << std::endl;
// volume mesh output.
np = nglib::Ng_GetNP(mesh);
std::cout << "Points: " << np << std::endl;
for (int i = 1; i <= np; ++i)
{
nglib::Ng_GetPoint(mesh, i, point);
std::cout << i << ": " << point[0] << ", " << point[1] << ", " << point[2] << std::endl;
}
ne = nglib::Ng_GetNE(mesh);
std::cout << "Elements: " << ne << std::endl;
for (int i = 1; i <= ne; ++i)
{
nglib::Ng_GetVolumeElement(mesh, i, tet);
std::cout << i << ": " << tet[0] << ", " << tet[1] << ", " << tet[2] << ", " << tet[3] << std::endl;
}
// Save mesh.
nglib::Ng_SaveMesh(mesh, "test.vol");
// deconstruct Netgen library.
nglib::Ng_Exit();
return 0;
}
