Heavily restructured the code of Trimeshinfo.

Now divided the collecting part from the reporting one (xml and ascii)
This commit is contained in:
Paolo Cignoni 2005-11-14 09:21:07 +00:00
parent fe97d7b970
commit a5d8bd82ac
3 changed files with 197 additions and 457 deletions

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@ -115,16 +115,19 @@
Filter="cpp;c;cxx;def;odl;idl;hpj;bat;asm;asmx" Filter="cpp;c;cxx;def;odl;idl;hpj;bat;asm;asmx"
UniqueIdentifier="{4FC737F1-C7A5-4376-A066-2A32D752A2FF}"> UniqueIdentifier="{4FC737F1-C7A5-4376-A066-2A32D752A2FF}">
<File <File
RelativePath="..\..\trimeshinfo\main.cpp"> RelativePath="..\..\..\wrap\ply\plylib.cpp">
</File> </File>
<File <File
RelativePath="..\..\..\wrap\ply\plylib.cpp"> RelativePath="..\..\trimeshinfo\trimeshinfo.cpp">
</File> </File>
</Filter> </Filter>
<Filter <Filter
Name="Header Files" Name="Header Files"
Filter="h;hpp;hxx;hm;inl;inc;xsd" Filter="h;hpp;hxx;hm;inl;inc;xsd"
UniqueIdentifier="{93995380-89BD-4b04-88EB-625FBE52EBFB}"> UniqueIdentifier="{93995380-89BD-4b04-88EB-625FBE52EBFB}">
<File
RelativePath="..\..\..\vcg\complex\trimesh\clean.h">
</File>
<File <File
RelativePath=".\defs.h"> RelativePath=".\defs.h">
</File> </File>

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@ -1,48 +1,18 @@
// -----------------------------------------------------------------------------------------------
#ifndef _DEFS_H #ifndef _DEFS_H
#define _DEFS_H #define _DEFS_H
// ----------------------------------------------------------------------------------------------- // -----------------------------------------------------------------------------------------------
// command line parameters
#define CMD_LINE_ARG_HIST 'H'
#define CMD_LINE_ARG_VERTEX_SAMPLE 'V'
#define CMD_LINE_ARG_EDGE_SAMPLE 'E'
#define CMD_LINE_ARG_FACE_SAMPLE 'F'
#define CMD_LINE_ARG_SAMPLE_TYPE 'S'
#define CMD_LINE_ARG_MONTECARLO_SAMPLING 'M'
#define CMD_LINE_ARG_SUBDIVISION_SAMPLING 'S'
#define CMD_LINE_ARG_SIMILAR_TRIANGLES_SAMPLING 'T'
#define CMD_LINE_ARG_N_SAMPLES 'N'
#define CMD_LINE_ARG_SAMPLES_PER_AREA_UNIT 'A'
#define CMD_LINE_ARG_SAVE_DISPLACEMENT 'O'
#define CMD_LINE_ARG_SAVE_ERROR_AS_COLOUR 'C'
// error messages // error messages
#define MSG_ERR_N_ARGS "\nUsage: "\ #define MSG_ERR_N_ARGS \
"trimeshinfo filename \n" "\nUsage: "\
"trimeshinfo filename [opt]\n"\
"where opt can be:\n"\
" -x[y|n] Enable or not XML info dumping (default no)\n"\
" -a[y|n] Enable or not ascii info dumping (default yes)\n"\
" -o<filename.ext> Save the input mesh in the specified format\n"
#define MSG_ERR_MESH_LOAD "error loading the input meshes.\n" #define MSG_ERR_MESH_LOAD "error loading the input meshes.\n"
#define MSG_ERR_INVALID_OPTION "unable to parse option '%s'\n" #define MSG_ERR_INVALID_OPTION "unable to parse option '%s'\n"
#define MSG_ERR_FILE_OPEN "unable to open the output file.'n"
#define MSG_ERR_UNKNOWN_FORMAT "unknown file format '%s'.\n"
// global constants
#define NO_SAMPLES_PER_FACE 10
#define N_SAMPLES_EDGE_TO_FACE_RATIO 0.1
#define BBOX_FACTOR 0.1
#define INFLATE_PERCENTAGE 0.02
#define MIN_SIZE 125 /* 125 = 5^3 */
#define N_HIST_BINS 256
#define PRINT_EVERY_N_ELEMENTS 1000
#define FILE_EXT_SMF "smf"
#define FILE_EXT_PLY "ply"
// strings
#define STR_HIST_FILENAME_DEFAULT "hist.txt"
#define STR_NEW_MESH_FILENAME_DEFAULT "error.ply"
#define STR_NEW_MESH_FILENAME_DEFAULT_2 "error_colour.ply"
// -----------------------------------------------------------------------------------------------
#endif #endif
// ----------------------------------------------------------------------------------------------- // -----------------------------------------------------------------------------------------------

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@ -2,7 +2,7 @@
* VCGLib o o * * VCGLib o o *
* Visual and Computer Graphics Library o o * * Visual and Computer Graphics Library o o *
* _ O _ * * _ O _ *
* Copyright(C) 2004 \/)\/ * * Copyright(C) 2005 \/)\/ *
* Visual Computing Lab /\/| * * Visual Computing Lab /\/| *
* ISTI - Italian National Research Council | * * ISTI - Italian National Research Council | *
* \ * * \ *
@ -24,6 +24,9 @@
History History
$Log: not supported by cvs2svn $ $Log: not supported by cvs2svn $
Revision 1.9 2005/11/04 15:37:57 rita_borgo
Removed Debug option
Revision 1.8 2005/10/11 16:03:40 rita_borgo Revision 1.8 2005/10/11 16:03:40 rita_borgo
Moved all the main functions inside clean.h Moved all the main functions inside clean.h
@ -68,15 +71,12 @@ Self-intersection first release
Revision 1.2 2005/01/03 16:13:09 rita_borgo Revision 1.2 2005/01/03 16:13:09 rita_borgo
Added Standard comments Added Standard comments
****************************************************************************/ ****************************************************************************/
#include <vector> #include <vector>
#include <string> #include <string>
#include <stack> #include <stack>
using namespace std; using namespace std;
#include<vcg/simplex/face/with/afav.h> #include<vcg/simplex/face/with/afav.h>
#include<vcg/simplex/face/pos.h> #include<vcg/simplex/face/pos.h>
#include<vcg/complex/trimesh/base.h> #include<vcg/complex/trimesh/base.h>
@ -89,27 +89,30 @@ using namespace std;
#include <vcg/math/histogram.h> #include <vcg/math/histogram.h>
#include <wrap/io_trimesh/import.h> #include <wrap/io_trimesh/import.h>
#include <wrap/io_trimesh/export_ply.h> #include <wrap/io_trimesh/export.h>
#include <wrap/io_trimesh/export_stl.h>
#include <wrap/io_trimesh/export_dxf.h> #include<vcg/simplex/vertexplus/base.h>
#include<vcg/simplex/faceplus/base.h>
#include<vcg/simplex/vertexplus/component.h>
#include<vcg/simplex/faceplus/component.h>
#include "XMLTree.h" #include "XMLTree.h"
#include <wrap/io_trimesh/export_off.h>
// loader
#include<wrap/io_trimesh/import_ply.h>
#include <vcg/space/index/grid_static_ptr.h> #include <vcg/space/index/grid_static_ptr.h>
#include "defs.h" #include "defs.h"
#include "trimeshtype.h" //#include "trimeshtype.h"
string ans;
using namespace std;
using namespace vcg; using namespace vcg;
using namespace tri; //using namespace tri;
using namespace face; //using namespace face;
class CFace;
class CEdge;
class CVertex : public VertexSimp2< CVertex, CEdge, CFace, vert::Coord3f, vert::Flag, vert::Normal3f >{};
class CFace : public FaceSimp2< CVertex, CEdge, CFace, face::FFAdj, face::VertexRef, face::Flag > {};
class CMesh : public vcg::tri::TriMesh< vector<CVertex>, vector<CFace> > {};
typedef CMesh::VertexPointer VertexPointer; typedef CMesh::VertexPointer VertexPointer;
typedef CMesh::VertexIterator VertexIterator; typedef CMesh::VertexIterator VertexIterator;
@ -128,425 +131,189 @@ void OpenMesh(const char *filename, CMesh &m)
typedef CMesh::VertexPointer VertexPointer; typedef CMesh::VertexPointer VertexPointer;
typedef CMesh::VertexIterator VertexIterator; typedef CMesh::VertexIterator VertexIterator;
typedef CMesh::FaceContainer FaceContainer; typedef CMesh::FaceContainer FaceContainer;
typedef CMesh::ScalarType ScalarType; typedef CMesh::ScalarType ScalarType;
struct MeshInfo
{
string FileName;
int vn,fn;
bool Manifold;
int count_e,boundary_e,count_fd,count_uv,numholes;
int BEdges;
float Volume;
int numcomponents,Genus;
bool Regular,Semiregular;
bool Orientable,Oriented;
int dv;
bool SelfIntersect;
};
void PrintAsciiInfo(MeshInfo &mi)
{
printf("\t Mesh info:\n");
printf(" \t M: '%s'\n\t Number of vertices: %d \n", mi.FileName.c_str(), mi.vn);
printf("\t Number of faces: %d \n", mi.fn);
void main(int argc,char ** argv) if (!mi.Manifold) printf( "\t Manifold: NO\n");
else printf( "\t Manifold: YES\n");
printf("\t Number of edges: %d \n", mi.count_e);
printf("\t Number of internal edges: %d \n", mi.count_e-mi.boundary_e);
printf("\t Number of boundary edges: %i \n", mi.boundary_e);
printf("\t Number of degenerated faces: %d\n", mi.count_fd);
printf("\t Number of unreferenced vertices: %d\n",mi.count_uv);
printf("\t Number of holes/boundaries: %d \n", mi.numholes);
if( mi.Volume) printf("\t Volume: %f \n", mi.Volume);
else printf("\t Volume: UNDEFINED, mesh is either non-manifold or has holes \n");
printf("\t Number of connected components: %d\n", mi.numcomponents);
if (mi.Manifold) printf( "\t Genus: %d \n", mi.Genus);
else printf( "\t Genus (n/a)\n");
if (mi.Regular) printf("\t Type of Mesh: REGULAR\n");
else if (mi.Semiregular) printf("\t Type of Mesh: SEMIREGULAR\n");
else printf("\t Type of Mesh: IRREGULAR\n");
if (!mi.Manifold) {
printf( "\t Orientable Mesh: NO\n");
printf( "\t Oriented Mesh: NO\n");
} else {
printf( "\t Orientable Mesh: %s\n",mi.Orientable?"Yes":"No");
printf( "\t Oriented Mesh: %s\n",mi.Oriented?"Yes":"No");
}
printf( "\t Number of duplicated vertices found: %d\n",mi.dv);
printf( "\t Self Intersection: %s\n",mi.SelfIntersect?"Yes":"No");
}
void PrintXMLInfo(MeshInfo &mi)
{
XMLTree doc;
doc.initializeMain();
char s[256];
sprintf(s,"%d",mi.vn); doc.addNode(s, VALUE_INTEGER, "Number of Vertices");
sprintf(s,"%d",mi.fn); doc.addNode(s, VALUE_INTEGER, "Number of Faces");
if(mi.Manifold) doc.addNode("No", VALUE_BOOL,"Manifold");
else doc.addNode("Yes", VALUE_BOOL,"Manifold");
sprintf(s,"%d",mi.count_e); doc.addNode(s, VALUE_INTEGER,"Number of Edges");
sprintf(s,"%d",mi.count_fd); doc.addNode(s, VALUE_INTEGER,"Number of Degenerated Faces");
sprintf(s,"%d",mi.count_uv); doc.addNode(s, VALUE_INTEGER,"Number of unreferenced vertices");
sprintf(s,"%d",mi.numholes); doc.addNode(s, VALUE_INTEGER,"Number of Holes");
sprintf(s,"%d",mi.BEdges); doc.addNode(s, VALUE_INTEGER,"Number of Border Edges");
sprintf(s,"%f",mi.Volume); doc.addNode(s, VALUE_FLOAT,"Volume");
sprintf(s,"%d",mi.numcomponents); doc.addNode(s, VALUE_INTEGER,"Number of Connected Components");
sprintf(s,"%d",mi.Genus); doc.addNode(s, VALUE_INTEGER,"Genus");
if (mi.Regular) doc.addNode("REGULAR", VALUE_STRING,"Type of Mesh");
else if (mi.Semiregular) doc.addNode("SEMIREGULAR", VALUE_STRING,"Type of Mesh");
else doc.addNode("IRREGULAR", VALUE_STRING,"Type of Mesh");
if (!mi.Manifold) {
doc.addNode("NO", VALUE_STRING,"Orientable Mesh");
doc.addNode("NO", VALUE_STRING,"Oriented Mesh");
} else {
doc.addNode(mi.Orientable?"Yes":"No", VALUE_STRING,"Orientable Mesh");
doc.addNode( mi.Oriented?"Yes":"No", VALUE_STRING,"Oriented Mesh");
}
sprintf(s,"%d",mi.dv); doc.addNode(s, VALUE_INTEGER,"Duplicated Vertices");
doc.addNode( mi.SelfIntersect?"Yes":"No", VALUE_STRING,"Self Intersection");
doc.finalizeMain();
doc.printXMLTree();
}
int main(int argc,char ** argv)
{ {
CMesh m; CMesh m;
XMLTree doc; bool SaveFlag=false;
bool AsciiFlag=true;
bool XmlFlag=false;
string SaveName;
MeshInfo mi;
//load the mesh
//argv[1]=(char*)"c:\\checkup\\debug\\column1m.ply";
//argv[1] = "C:\\sf\\apps\\msvc\\trimeshinfo\\Release\\prism.off";
//argv[1] = "C:\\sf\\apps\\msvc\\trimeshinfo\\Release\\prova1.ply";
// print program info
printf("-------------------------------\n" printf("-------------------------------\n"
" TriMeshInfo V.1.01 \n" " TriMeshInfo V.1.2 \n"
" http://vcg.isti.cnr.it\n" " http://vcg.isti.cnr.it\n"
" release date: "__DATE__"\n" " release date: "__DATE__"\n"
"-------------------------------\n\n"); "-------------------------------\n\n");
// load input meshes. // load input meshes.
if(argc <= 1) if(argc <= 1) {
{
printf(MSG_ERR_N_ARGS); printf(MSG_ERR_N_ARGS);
exit(-1); exit(-1);
} }
mi.FileName=argv[1];
for(int i=3; i < argc;)
OpenMesh(argv[1],m);
doc.initializeMain();
printf("\t Mesh info:\n");
printf(" \t M: '%s'\n\t Number of vertices: %d \n", argv[1], m.vn);
printf("\t Number of faces: %d \n", m.fn);
/*------------XML file part ------------------*/
char* s =new(char[25]);
sprintf(s,"%d",m.vn);
doc.addNode(s, VALUE_INTEGER,"Number of Vertices");
sprintf(s,"%d",m.fn);
doc.addNode(s, VALUE_INTEGER, "Number of Faces");
/*--------------------------------------------*/
if(m.HasPerFaceColor()||m.HasPerVertexColor())
{ {
Color4b Color=m.C(); if(argv[i][0]=='-')
printf( "\t Object color(4b): %f %f %f \n", Color[0], Color[1], Color[2]); switch(argv[i][1])
{
/*------------XML file part ------------------*/ case 'o' : SaveFlag=true; SaveName=argv[i][2]; break;
case 'x' : if(argv[i][2]=='y') { XmlFlag = true; printf("Enable XML Printing\n"); }
sprintf(s,"%f %f %f ",Color[0], Color[1], Color[2]); else { XmlFlag = false; printf("Disable XML Printing\n"); } break;
doc.addNode(s, VALUE_FLOAT,"Colors"); case 'a' : if(argv[i][2]=='y') { AsciiFlag = true; printf("Enable Ascii Printing\n"); }
/*--------------------------------------------*/ else { AsciiFlag = false; printf("Disable Ascii Printing\n"); } break;
default : printf(MSG_ERR_INVALID_OPTION, argv[i]);
exit(0);
}
i++;
} }
OpenMesh(mi.FileName.c_str(),m);
mi.vn=m.vn; mi.fn=m.fn;
vcg::tri::UpdateTopology<CMesh>::FaceFace(m); vcg::tri::UpdateTopology<CMesh>::FaceFace(m);
// IS MANIFOLD // IS MANIFOLD
tri::Clean<CMesh>::Initialize(m); tri::Clean<CMesh>::Initialize(m);
mi.Manifold = tri::Clean<CMesh>::IsComplexManifold(m);
bool Manifold = tri::Clean<CMesh>::IsComplexManifold(m);
if (!Manifold)
{
printf( "\t Manifold: NO\n");
/*------------XML file part ------------------*/
s = "No";
doc.addNode(s, VALUE_BOOL,"Manifold");
/*--------------------------------------------*/
}
else
{
printf( "\t Manifold: YES\n");
/*------------XML file part ------------------*/
s = "Yes";
doc.addNode(s, VALUE_BOOL,"Manifold");
/*--------------------------------------------*/
}
// COUNT EDGES // COUNT EDGES
int count_e=0; tri::Clean<CMesh>::CountEdges(m, mi.count_e, mi.boundary_e);
int boundary_e = 0;
tri::Clean<CMesh>::CountEdges(m, count_e, boundary_e);
printf("\t Number of edges: %d \n", count_e);
printf("\t Number of internal edges: %d \n", count_e-boundary_e);
printf("\t Number of boundary edges: %i \n", boundary_e);
/*------------XML file part ------------------*/
s = new(char[25]);
sprintf(s,"%d",count_e);
doc.addNode(s, VALUE_INTEGER,"Number of Edges");
/*--------------------------------------------*/
// DEGENERATED FACES // DEGENERATED FACES
mi.count_fd = tri::Clean<CMesh>::DegeneratedFaces(m);
int count_fd = tri::Clean<CMesh>::DegeneratedFaces(m);
printf("\t Number of degenerated faces: %d\n", count_fd);
/*------------XML file part ------------------*/
sprintf(s,"%d",count_fd);
doc.addNode(s, VALUE_INTEGER,"Number of Degenerated Faces");
/*--------------------------------------------*/
// UNREFERENCED VERTEX // UNREFERENCED VERTEX
mi.count_uv = tri::Clean<CMesh>::DetectUnreferencedVertex(m);
int count_uv = tri::Clean<CMesh>::DetectUnreferencedVertex(m);
printf("\t Number of unreferenced vertices: %d\n",count_uv);
/*------------XML file part ------------------*/
sprintf(s,"%d",count_uv);
doc.addNode(s, VALUE_INTEGER,"Number of unreferenced vertices");
/*--------------------------------------------*/
// HOLES COUNT // HOLES COUNT
if(mi.Manifold)
int numholes =0 ;
if(Manifold)
{ {
numholes = tri::Clean<CMesh>::CountHoles(m); mi.numholes = tri::Clean<CMesh>::CountHoles(m);
printf("\t Number of holes/boundaries: %d \n", numholes); mi.BEdges = tri::Clean<CMesh>::BorderEdges(m, mi.numholes);
/*------------XML file part ------------------*/
sprintf(s,"%d",numholes);
doc.addNode(s, VALUE_INTEGER,"Number of Holes");
/*--------------------------------------------*/
if(numholes>0)
{
printf("\t Edges per hole/boundary:\n\t (");
int BEdges = tri::Clean<CMesh>::BorderEdges(m, numholes);
/*------------XML file part ------------------*/
sprintf(s,"%d",BEdges);
doc.addNode(s, VALUE_INTEGER,"Number of Border Edges");
/*--------------------------------------------*/
} }
}
else
printf( "\t Number of holes: UNDEFINED, mesh is non-manifold \n");
// Mesh Volume // Mesh Volume
float vol = m.Volume(); if(mi.numholes==0) mi.Volume = m.Volume();
int nuh = numholes;
if((m.Volume()!=0.)&&(Manifold)&&(numholes==0))
{
printf("\t Volume: %f \n", m.Volume());
/*------------XML file part ------------------*/
sprintf(s,"%f",m.Volume());
doc.addNode(s, VALUE_FLOAT,"Volume");
/*--------------------------------------------*/
}
else
{
printf("\t Volume: UNDEFINED, mesh is either non-manifold or has holes \n");
}
// CONNECTED COMPONENTS // CONNECTED COMPONENTS
mi.numcomponents = tri::Clean<CMesh>::ConnectedComponents(m);
if(mi.Manifold) mi.Genus=tri::Clean<CMesh>::MeshGenus(m,mi.count_uv, mi.numholes, mi.numcomponents, mi.count_e);
int numcomponents = tri::Clean<CMesh>::ConnectedComponents(m);
printf("\t Number of connected components: %d\n", numcomponents);
/*------------XML file part ------------------*/
sprintf(s,"%d",numcomponents);
doc.addNode(s, VALUE_INTEGER,"Number of Connected Components");
/*--------------------------------------------*/
//GENUS --> 2( #components - genus ) = #vertices + #faces - #edge - #boundary_loops = eulernumber - #holes
//eulero = (mesh.vn-count_uv) - (count_e)+mesh.fn;
if(Manifold)
{
printf( "\t Genus: %d \n", tri::Clean<CMesh>::MeshGenus(m,count_uv, numholes, numcomponents, count_e));
/*------------XML file part ------------------*/
sprintf(s,"%d",tri::Clean<CMesh>::MeshGenus(m,count_uv, numholes, numcomponents, count_e));
doc.addNode(s, VALUE_INTEGER,"Genus");
/*--------------------------------------------*/
}
else//(!Manifold)
printf( "\t Genus: UNDEFINED, mesh is non-manifold \n");
// REGULARITY // REGULARITY
bool Regular=true; tri::Clean<CMesh>::IsRegularMesh(m, mi.Regular, mi.Semiregular);
bool Semiregular=true;
tri::Clean<CMesh>::IsRegularMesh(m, Regular, Semiregular);
if (Regular)
{
printf("\t Type of Mesh: REGULAR\n");
/*------------XML file part ------------------*/
s="REGULAR";
doc.addNode(s, VALUE_STRING,"Type of Mesh");
/*--------------------------------------------*/
}
else if (Semiregular)
{
printf("\t Type of Mesh: SEMIREGULAR\n");
s="SEMIREGULAR";
doc.addNode(s, VALUE_STRING,"Type of Mesh");
}
else
{
printf("\t Type of Mesh: IRREGULAR\n");
/*------------XML file part ------------------*/
s="IRREGULAR";
doc.addNode(s, VALUE_STRING,"Type of Mesh");
/*--------------------------------------------*/
}
// ORIENTABLE E ORIENTED MESH // ORIENTABLE E ORIENTED MESH
if (mi.Manifold) tri::Clean<CMesh>::IsOrientedMesh(m, mi.Oriented, mi.Orientable);
bool Orientable=true; mi.dv = tri::Clean<CMesh>::RemoveDuplicateVertex(m);
bool Oriented=true;
if (!Manifold)
{
printf( "\t Orientable Mesh: NO\n");
/*------------XML file part ------------------*/
s="NO";
doc.addNode(s, VALUE_STRING,"Orientable Mesh");
/*--------------------------------------------*/
}
else
{
tri::Clean<CMesh>::IsOrientedMesh(m, Oriented, Orientable);
if (Orientable)
{
printf( "\t Orientable Mesh: YES\n");
/*------------XML file part ------------------*/
s="YES";
doc.addNode(s, VALUE_STRING,"Orientable Mesh");
/*--------------------------------------------*/
}
else
{
printf( "\t Orientable Mesh: NO\n");
/*------------XML file part ------------------*/
s="NO";
doc.addNode(s, VALUE_STRING,"Orientable Mesh");
/*--------------------------------------------*/
}
}
if (Oriented && Manifold)
{
printf( "\t Oriented Mesh: YES\n");
/*------------XML file part ------------------*/
s="YES";
doc.addNode(s, VALUE_STRING,"Oriented Mesh");
/*--------------------------------------------*/
}
else
{
printf( "\t Oriented Mesh: NO\n");
/*------------XML file part ------------------*/
s="NO";
doc.addNode(s, VALUE_STRING,"Oriented Mesh");
/*--------------------------------------------*/
}
int dv = tri::Clean<CMesh>::RemoveDuplicateVertex(m);
if(dv>0)
{
printf( "\t Number of duplicated vertices found: %d\n",dv);
/*------------XML file part ------------------*/
char* s =new(char[25]);
sprintf(s,"%d",dv);
doc.addNode(s, VALUE_INTEGER,"Duplicated Vertices");
/*--------------------------------------------*/
}
else
{
printf( "\t Duplicated vertices: NO\n");
/*------------XML file part ------------------*/
s="NO";
doc.addNode(s, VALUE_STRING,"Duplicated Vertices");
/*--------------------------------------------*/
}
// SELF INTERSECTION // SELF INTERSECTION
mi.SelfIntersect = tri::Clean<CMesh>::SelfIntersections(m);
if(SaveFlag) tri::io::Exporter<CMesh>::Save(m,SaveName.c_str());
printf("\t Model Bounding Box Diagonal: %f\n", m.bbox.Diag()); if(AsciiFlag) PrintAsciiInfo(mi);
if (tri::Clean<CMesh>::SelfIntersections(m)) if(XmlFlag) PrintXMLInfo(mi);
{ return 0;
printf( "\t Self Intersection: YES\n");
/*------------XML file part ------------------*/
s="YES";
doc.addNode(s, VALUE_STRING,"Self Intersection");
/*--------------------------------------------*/
}
else
{
printf( "\t Self Intersection: NO\n");
/*------------XML file part ------------------*/
s="NO";
doc.addNode(s, VALUE_STRING,"Self Intersection");
/*--------------------------------------------*/
}
string fs;
cout<< "\t To save the file: [s/S]\n \t ";
cin>>ans;
if((ans == "S")||(ans == "s"))
{
cout<< "\t available formats: [ply, off, dxf, stl]"<<endl;
cout<< "\t enter format \n \t ";
cin>>ans;
cout<<"\t enter filename \n \t ";
cin>>fs;
const char* filesave = fs.c_str();
if(ans == "ply")
tri::io::ExporterPLY<CMesh>::Save(m, filesave);
else if(ans == "stl")
tri::io::ExporterSTL<CMesh>::Save(m,filesave);
else if(ans == "dxf")
tri::io::ExporterDXF<CMesh>::Save(m,filesave);
else if(ans == "off")
tri::io::ExporterOFF<CMesh>::Save(m,filesave);
}
cout<<"\t create XML files? [y/Y|n/N] \n \t ";
cin>>ans;
if((ans=="Y")||(ans=="y"))
{
doc.finalizeMain();
doc.printXMLTree();
}
} }