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Shinya Kitaoka |
810553 |
#pragma once
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
#ifndef TCG_TRIANGULATE_HPP
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Toshihiro Shimizu |
890ddd |
#define TCG_TRIANGULATE_HPP
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Toshihiro Shimizu |
890ddd |
|
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Toshihiro Shimizu |
890ddd |
// tcg includes
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Toshihiro Shimizu |
890ddd |
#include "../triangulate.h"
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Toshihiro Shimizu |
890ddd |
#include "../traits.h"
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Toshihiro Shimizu |
890ddd |
#include "../point_ops.h"
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Toshihiro Shimizu |
890ddd |
|
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Toshihiro Shimizu |
890ddd |
// OS-specific includes
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Campbell Barton |
d869b5 |
#if defined(_WIN32)
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Toshihiro Shimizu |
890ddd |
#include "windows.h"
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Toshihiro Shimizu |
890ddd |
#include <gl glu.h=""></gl>
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Campbell Barton |
d869b5 |
#elif defined(MACOSX)
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Toshihiro Shimizu |
890ddd |
#include <glut glut.h=""></glut>
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Campbell Barton |
d869b5 |
#elif defined(LINUX)
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Campbell Barton |
107701 |
#include <gl glut.h=""></gl>
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Campbell Barton |
40cabe |
#include <cstring></cstring>
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Toshihiro Shimizu |
890ddd |
#endif
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Toshihiro Shimizu |
890ddd |
|
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Toshihiro Shimizu |
890ddd |
#ifndef TCG_GLU_CALLBACK
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Toshihiro Shimizu |
890ddd |
#ifdef WIN32
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Toshihiro Shimizu |
890ddd |
#define TCG_GLU_CALLBACK void(CALLBACK *)()
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Toshihiro Shimizu |
890ddd |
#else
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Toshihiro Shimizu |
890ddd |
#define TCG_GLU_CALLBACK void (*)()
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Toshihiro Shimizu |
890ddd |
#endif
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Toshihiro Shimizu |
890ddd |
#endif
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
#ifndef CALLBACK
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Toshihiro Shimizu |
890ddd |
#define CALLBACK
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Toshihiro Shimizu |
890ddd |
#endif
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
namespace tcg {
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
//**************************************************************************************
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Toshihiro Shimizu |
890ddd |
// GLU Tessellator Callbacks
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Toshihiro Shimizu |
890ddd |
//**************************************************************************************
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
namespace detail {
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
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Toshihiro Shimizu |
890ddd |
struct CBackData {
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Shinya Kitaoka |
120a6e |
mesh_type *m_mesh;
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Shinya Kitaoka |
120a6e |
int m_triangle[3];
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Shinya Kitaoka |
120a6e |
int m_i;
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Toshihiro Shimizu |
890ddd |
};
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Toshihiro Shimizu |
890ddd |
|
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Toshihiro Shimizu |
890ddd |
//============================================================================
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
// NOTE: must be declared with CALLBACK directive
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Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
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Shinya Kitaoka |
120a6e |
void CALLBACK tessBegin(GLenum type, void *polygon_data) {
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Shinya Kitaoka |
120a6e |
assert(type == GL_TRIANGLES);
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
CBackData<mesh_type> *data = (CBackData<mesh_type> *)polygon_data;</mesh_type></mesh_type>
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Shinya Kitaoka |
120a6e |
data->m_i = 0;
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Toshihiro Shimizu |
890ddd |
}
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
//----------------------------------------------------------------------------
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
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Shinya Kitaoka |
120a6e |
void CALLBACK tessEnd(void *polygon_data) {
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Shinya Kitaoka |
120a6e |
CBackData<mesh_type> *data = (CBackData<mesh_type> *)polygon_data;</mesh_type></mesh_type>
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Shinya Kitaoka |
120a6e |
assert(data->m_i == 0);
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Toshihiro Shimizu |
890ddd |
}
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
//----------------------------------------------------------------------------
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
template <typename mesh_type,="" typename="" vertex_type=""></typename>
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Shinya Kitaoka |
120a6e |
void CALLBACK tessVertex(void *vertex_data, void *polygon_data) {
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Shinya Kitaoka |
120a6e |
typedef typename mesh_type::vertex_type::point_type point_type;
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
CBackData<mesh_type> *data = (CBackData<mesh_type> *)polygon_data;</mesh_type></mesh_type>
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Shinya Kitaoka |
120a6e |
vertex_type *vData = (vertex_type *)vertex_data;
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
GLdouble(&pos)[3] =
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Shinya Kitaoka |
120a6e |
TriMeshStuff::glu_vertex_traits<vertex_type>::vertex3d(*vData);</vertex_type>
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Shinya Kitaoka |
120a6e |
int &idx = TriMeshStuff::glu_vertex_traits<vertex_type>::index(*vData);</vertex_type>
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
if (idx < 0) {
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Shinya Kitaoka |
120a6e |
data->m_mesh->addVertex(
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Shinya Kitaoka |
120a6e |
typename mesh_type::vertex_type(point_type(pos[0], pos[1])));
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Shinya Kitaoka |
120a6e |
idx = data->m_mesh->verticesCount() - 1;
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Shinya Kitaoka |
120a6e |
}
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
data->m_triangle[data->m_i] = idx;
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Shinya Kitaoka |
120a6e |
data->m_i = (data->m_i + 1) % 3;
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
if (data->m_i == 0)
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Shinya Kitaoka |
120a6e |
data->m_mesh->addFace(data->m_triangle[0], data->m_triangle[1],
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Shinya Kitaoka |
120a6e |
data->m_triangle[2]);
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Toshihiro Shimizu |
890ddd |
}
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
//----------------------------------------------------------------------------
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
// Supplied to ensure that triangle primitives are always of type GL_TRIANGLE
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Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
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Shinya Kitaoka |
120a6e |
void CALLBACK edgeFlag(GLboolean flag) {}
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
} // namespace tcg::detail
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
//**************************************************************************************
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Toshihiro Shimizu |
890ddd |
// Polygon triangulation
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Toshihiro Shimizu |
890ddd |
//**************************************************************************************
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
namespace detail {
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
template <typename func=""></typename>
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Shinya Kitaoka |
120a6e |
void gluRegister(GLUtesselator *tess, GLenum which, Func *func) {
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Shinya Kitaoka |
120a6e |
gluTessCallback(tess, which, (TCG_GLU_CALLBACK)func);
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Toshihiro Shimizu |
890ddd |
}
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
} // namespace tcg::detail
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
//---------------------------------------------------------------------------
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Toshihiro Shimizu |
890ddd |
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Toshihiro Shimizu |
890ddd |
template <typename containersreader="" forit,="" typename=""></typename>
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Shinya Kitaoka |
120a6e |
void gluTriangulate(ForIt tribeBegin, ForIt tribeEnd,
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Shinya Kitaoka |
120a6e |
ContainersReader &meshes_reader) {
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Shinya Kitaoka |
120a6e |
using namespace detail;
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
typedef typename tcg::traits<typename forit::value_type="">::pointed_type</typename>
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Shinya Kitaoka |
120a6e |
family_type;
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Shinya Kitaoka |
120a6e |
typedef typename tcg::traits<typename family_type::value_type="">::pointed_type</typename>
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Shinya Kitaoka |
120a6e |
polygon_type;
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Shinya Kitaoka |
120a6e |
typedef typename polygon_type::value_type vertex_type;
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
typedef typename tcg::container_reader_traits<containersreader> output;</containersreader>
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Shinya Kitaoka |
120a6e |
typedef
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Shinya Kitaoka |
120a6e |
typename tcg::traits<typename output::value_type="">::pointed_type mesh_type;</typename>
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
GLUtesselator *tess = gluNewTess(); // create a tessellator
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Shinya Kitaoka |
120a6e |
assert(tess);
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
// Declare callbacks
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
// NOTE: On g++, it seems that at this point each of the callbacks still have
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Shinya Kitaoka |
120a6e |
// undefined type.
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Shinya Kitaoka |
120a6e |
// We use the above gluRegister template to force the compiler to generate
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Shinya Kitaoka |
120a6e |
// these types.
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Toshihiro Shimizu |
890ddd |
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Shinya Kitaoka |
120a6e |
gluRegister(tess, GLU_TESS_BEGIN_DATA, tessBegin<mesh_type>);</mesh_type>
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Shinya Kitaoka |
120a6e |
gluRegister(tess, GLU_TESS_END_DATA, tessEnd<mesh_type>);</mesh_type>
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Shinya Kitaoka |
120a6e |
gluRegister(tess, GLU_TESS_VERTEX_DATA, tessVertex<mesh_type, vertex_type="">);</mesh_type,>
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Shinya Kitaoka |
120a6e |
gluRegister(tess, GLU_TESS_EDGE_FLAG, edgeFlag<mesh_type>);</mesh_type>
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
output::openContainer(meshes_reader);
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
// Iterate the tribe. For every polygons family, associate one output mesh
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Shinya Kitaoka |
120a6e |
for (ForIt it = tribeBegin; it != tribeEnd; ++it) {
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Shinya Kitaoka |
120a6e |
// Build the output mesh and initialize stuff
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Shinya Kitaoka |
120a6e |
mesh_type *mesh = new mesh_type;
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
CBackData<mesh_type> cbData; // Callback Data about the mesh</mesh_type>
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Shinya Kitaoka |
120a6e |
cbData.m_mesh = mesh;
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
// Tessellate the family
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Shinya Kitaoka |
120a6e |
gluTessBeginPolygon(tess, (void *)&cbData);
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
typename family_type::iterator ft, fEnd = (*it)->end();
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Shinya Kitaoka |
120a6e |
for (ft = (*it)->begin(); ft != fEnd; ++ft) {
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Shinya Kitaoka |
120a6e |
gluTessBeginContour(tess);
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
typename polygon_type::iterator pt, pEnd = (*ft)->end();
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Shinya Kitaoka |
120a6e |
for (pt = (*ft)->begin(); pt != pEnd; ++pt)
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Shinya Kitaoka |
120a6e |
gluTessVertex(
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Shinya Kitaoka |
120a6e |
tess, TriMeshStuff::glu_vertex_traits<vertex_type>::vertex3d(*pt),</vertex_type>
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Shinya Kitaoka |
120a6e |
(void *)&*pt);
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
gluTessEndContour(tess);
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Shinya Kitaoka |
120a6e |
}
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
gluTessEndPolygon(tess); // Invokes the family tessellation
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
output::addElement(meshes_reader, mesh);
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Shinya Kitaoka |
120a6e |
}
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|
Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
gluDeleteTess(tess); // delete after tessellation
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Toshihiro Shimizu |
890ddd |
|
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Shinya Kitaoka |
120a6e |
output::closeContainer(meshes_reader);
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|
Toshihiro Shimizu |
890ddd |
}
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
//**************************************************************************************
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|
Toshihiro Shimizu |
890ddd |
// Mesh refinement
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Toshihiro Shimizu |
890ddd |
//**************************************************************************************
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|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
namespace detail {
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
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Shinya Kitaoka |
120a6e |
inline void touchEdge(std::vector<uchar> &buildEdge, mesh_type &mesh, int e) {</uchar>
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|
Shinya Kitaoka |
120a6e |
typename mesh_type::edge_type &ed = mesh.edge(e);
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|
Shinya Kitaoka |
120a6e |
int f1 = ed.face(0), f2 = ed.face(1);
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|
Shinya Kitaoka |
120a6e |
|
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Shinya Kitaoka |
120a6e |
if (f1 >= 0) {
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|
Shinya Kitaoka |
120a6e |
typename mesh_type::face_type &f = mesh.face(f1);
|
|
Shinya Kitaoka |
120a6e |
buildEdge[f.edge(0)] = 1, buildEdge[f.edge(1)] = 1,
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|
Shinya Kitaoka |
120a6e |
buildEdge[f.edge(2)] = 1;
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|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
if (f2 >= 0) {
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|
Shinya Kitaoka |
120a6e |
typename mesh_type::face_type &f = mesh.face(f2);
|
|
Shinya Kitaoka |
120a6e |
buildEdge[f.edge(0)] = 1, buildEdge[f.edge(1)] = 1,
|
|
Shinya Kitaoka |
120a6e |
buildEdge[f.edge(2)] = 1;
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Toshihiro Shimizu |
890ddd |
}
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
//---------------------------------------------------------------------------
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
|
|
Shinya Kitaoka |
120a6e |
inline void touchVertex(std::vector<uchar> &buildEdge, mesh_type &mesh, int v) {</uchar>
|
|
Shinya Kitaoka |
120a6e |
// Sign all adjacent edges and adjacent faces' edges to v
|
|
Shinya Kitaoka |
120a6e |
typename mesh_type::vertex_type &vx = mesh.vertex(v);
|
|
Shinya Kitaoka |
120a6e |
const tcg::list<int> &incidentEdges = vx.edges();</int>
|
|
Shinya Kitaoka |
120a6e |
tcg::list<int>::const_iterator it;</int>
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
for (it = incidentEdges.begin(); it != incidentEdges.end(); ++it)
|
|
Shinya Kitaoka |
120a6e |
touchEdge(buildEdge, mesh, *it);
|
|
Toshihiro Shimizu |
890ddd |
}
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
//================================================================================
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
|
|
Shinya Kitaoka |
120a6e |
class BoundaryEdges {
|
|
Shinya Kitaoka |
120a6e |
std::vector<uchar> m_boundaryVertices;</uchar>
|
|
Shinya Kitaoka |
120a6e |
const mesh_type &m_mesh;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
public:
|
|
Shinya Kitaoka |
120a6e |
BoundaryEdges(const mesh_type &mesh) : m_mesh(mesh) {
|
|
Shinya Kitaoka |
120a6e |
const tcg::list<typename mesh_type::edge_type=""> &edges = mesh.edges();</typename>
|
|
Shinya Kitaoka |
120a6e |
const tcg::list<typename mesh_type::vertex_type=""> &vertices =</typename>
|
|
Shinya Kitaoka |
120a6e |
mesh.vertices();
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
m_boundaryVertices.resize(vertices.nodesCount(), 0);
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
typename tcg::list<typename mesh_type::edge_type="">::const_iterator it;</typename>
|
|
Shinya Kitaoka |
120a6e |
for (it = edges.begin(); it != edges.end(); ++it) {
|
|
Shinya Kitaoka |
120a6e |
if (it->face(0) < 0 || it->face(1) < 0) {
|
|
Shinya Kitaoka |
120a6e |
m_boundaryVertices[it->vertex(0)] = true;
|
|
Shinya Kitaoka |
120a6e |
m_boundaryVertices[it->vertex(1)] = true;
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
~BoundaryEdges() {}
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
void setBoundaryVertex(int v) {
|
|
Shinya Kitaoka |
120a6e |
m_boundaryVertices.resize(m_mesh.vertices().nodesCount(), 0);
|
|
Shinya Kitaoka |
120a6e |
m_boundaryVertices[v] = 1;
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
bool isBoundaryVertex(int v) const {
|
|
Shinya Kitaoka |
120a6e |
return v < int(m_boundaryVertices.size()) && m_boundaryVertices[v];
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
bool isBoundaryEdge(int e) const {
|
|
Shinya Kitaoka |
120a6e |
const typename mesh_type::edge_type &ed = m_mesh.edge(e);
|
|
Shinya Kitaoka |
120a6e |
return ed.face(0) < 0 || ed.face(1) < 0;
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Toshihiro Shimizu |
890ddd |
};
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
} // namespace tcg::detail
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
//=============================================================================
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
|
|
Toshihiro Shimizu |
890ddd |
void TriMeshStuff::DefaultEvaluator<mesh_type>::actionSort(</mesh_type>
|
|
Shinya Kitaoka |
120a6e |
const mesh_type &mesh, int e,
|
|
Shinya Kitaoka |
120a6e |
typename ActionEvaluator<mesh_type>::Action *actionSequence) {</mesh_type>
|
|
Shinya Kitaoka |
120a6e |
typedef ActionEvaluator<mesh_type> ActionEvaluator;</mesh_type>
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
int count = 0;
|
|
Shinya Kitaoka |
120a6e |
memset(actionSequence, ActionEvaluator::NONE,
|
|
Shinya Kitaoka |
120a6e |
3 * sizeof(typename ActionEvaluator::Action));
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
// Try to minimize the edge length deviation in e's neighbourhood
|
|
Shinya Kitaoka |
120a6e |
const typename mesh_type::edge_type &ed = mesh.edge(e);
|
|
Shinya Kitaoka |
120a6e |
int f1 = ed.face(0), f2 = ed.face(1);
|
|
Shinya Kitaoka |
120a6e |
const TPointD *v1, *v2, *v3, *v4;
|
|
Shinya Kitaoka |
120a6e |
double length[6];
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
v1 = &mesh.vertex(ed.vertex(0)).P();
|
|
Shinya Kitaoka |
120a6e |
v2 = &mesh.vertex(ed.vertex(1)).P();
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
length[0] = norm(*v2 - *v1);
|
|
Shinya Kitaoka |
120a6e |
double lengthMax = length[0], lengthMin = length[0];
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
if (f1 >= 0) {
|
|
Shinya Kitaoka |
120a6e |
v3 = &mesh.vertex(mesh.otherFaceVertex(f1, e)).P();
|
|
Shinya Kitaoka |
120a6e |
length[1] = norm(*v3 - *v1);
|
|
Shinya Kitaoka |
120a6e |
length[2] = norm(*v3 - *v2);
|
|
Shinya Kitaoka |
120a6e |
lengthMax = std::max({lengthMax, length[1], length[2]});
|
|
Shinya Kitaoka |
120a6e |
lengthMin = std::min({lengthMin, length[1], length[2]});
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
if (f2 >= 0) {
|
|
Shinya Kitaoka |
120a6e |
v4 = &mesh.vertex(mesh.otherFaceVertex(f2, e)).P();
|
|
Shinya Kitaoka |
120a6e |
length[3] = norm(*v4 - *v1);
|
|
Shinya Kitaoka |
120a6e |
length[4] = norm(*v4 - *v2);
|
|
Shinya Kitaoka |
120a6e |
lengthMax = std::max({lengthMax, length[3], length[4]});
|
|
Shinya Kitaoka |
120a6e |
lengthMin = std::min({lengthMin, length[3], length[4]});
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
if (f1 >= 0 && f2 >= 0) {
|
|
Shinya Kitaoka |
120a6e |
// Build the edge lengths
|
|
Shinya Kitaoka |
120a6e |
length[5] = norm(*v4 - *v3);
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
// Evaluate swap - take the triangles with least maximum mean boundary edge
|
|
Shinya Kitaoka |
120a6e |
double m1 = (length[0] + length[1] + length[2]) / 3.0;
|
|
Shinya Kitaoka |
120a6e |
double m2 = (length[0] + length[3] + length[4]) / 3.0;
|
|
Shinya Kitaoka |
120a6e |
double m3 = (length[5] + length[1] + length[3]) / 3.0;
|
|
Shinya Kitaoka |
120a6e |
double m4 = (length[5] + length[2] + length[4]) / 3.0;
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
if (std::max(m3, m4) < std::max(m1, m2) - 1e-5)
|
|
Shinya Kitaoka |
120a6e |
actionSequence[count++] = ActionEvaluator::SWAP;
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
// NOTE: The original swap evaluation was about maximizing the minimal face
|
|
Shinya Kitaoka |
120a6e |
// angle.
|
|
Shinya Kitaoka |
120a6e |
// However, this requires quite some cross products - the above test is
|
|
Shinya Kitaoka |
120a6e |
// sufficiently
|
|
Shinya Kitaoka |
120a6e |
// simple and has a similar behaviour.
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
// Evaluate collapse
|
|
Shinya Kitaoka |
120a6e |
if (length[0] < m_collapseValue)
|
|
Shinya Kitaoka |
120a6e |
actionSequence[count++] = ActionEvaluator::COLLAPSE;
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
// Evaluate split
|
|
Shinya Kitaoka |
120a6e |
if (length[0] > m_splitValue)
|
|
Shinya Kitaoka |
120a6e |
actionSequence[count++] = ActionEvaluator::SPLIT;
|
|
Toshihiro Shimizu |
890ddd |
}
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
//=============================================================================
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
namespace detail {
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
|
|
Shinya Kitaoka |
120a6e |
inline bool testSwap(const mesh_type &mesh, int e) {
|
|
Shinya Kitaoka |
120a6e |
// Retrieve adjacent faces
|
|
Shinya Kitaoka |
120a6e |
const typename mesh_type::edge_type &ed = mesh.edge(e);
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
int f1 = ed.face(0), f2 = ed.face(1);
|
|
Shinya Kitaoka |
120a6e |
if (f1 < 0 || f2 < 0) return false;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
// Retrieve the 4 adjacent vertices
|
|
Shinya Kitaoka |
120a6e |
const typename mesh_type::vertex_type &v1 = mesh.vertex(ed.vertex(0));
|
|
Shinya Kitaoka |
120a6e |
const typename mesh_type::vertex_type &v2 = mesh.vertex(ed.vertex(1));
|
|
Shinya Kitaoka |
120a6e |
const typename mesh_type::vertex_type &v3 =
|
|
Shinya Kitaoka |
120a6e |
mesh.vertex(mesh.otherFaceVertex(f1, ed.getIndex()));
|
|
Shinya Kitaoka |
120a6e |
const typename mesh_type::vertex_type &v4 =
|
|
Shinya Kitaoka |
120a6e |
mesh.vertex(mesh.otherFaceVertex(f2, ed.getIndex()));
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
// Make sure that vertex v4 lies between the semiplane generated by v3v1 and
|
|
Shinya Kitaoka |
120a6e |
// v3v2
|
|
Shinya Kitaoka |
120a6e |
TPointD a(v1.P() - v3.P()), b(v2.P() - v3.P());
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
double normA = norm(a), normB = norm(b);
|
|
Shinya Kitaoka |
120a6e |
if (normA < 1e-5 || normB < 1e-5) return false;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
a = a * (1.0 / normA);
|
|
Shinya Kitaoka |
120a6e |
b = b * (1.0 / normB);
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
TPointD c(v4.P() - v1.P()), d(v4.P() - v2.P());
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
double normC = norm(c), normD = norm(d);
|
|
Shinya Kitaoka |
120a6e |
if (normC < 1e-5 || normD < 1e-5) return false;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
c = c * (1.0 / normC);
|
|
Shinya Kitaoka |
120a6e |
d = d * (1.0 / normD);
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
double crossAC = point_ops::cross(a, c);
|
|
Shinya Kitaoka |
120a6e |
int signAC = crossAC < -1e-5 ? -1 : crossAC > 1e-5 ? 1 : 0;
|
|
Shinya Kitaoka |
120a6e |
double crossBD = point_ops::cross(b, d);
|
|
Shinya Kitaoka |
120a6e |
int signBD = crossBD < -1e-5 ? -1 : crossBD > 1e-5 ? 1 : 0;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
return signAC == -signBD;
|
|
Toshihiro Shimizu |
890ddd |
}
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
//----------------------------------------------------------------------------
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
// Tests edge e for admissibility of ad edge collapse. Edge e must not have
|
|
Shinya Kitaoka |
120a6e |
// adjacent
|
|
Shinya Kitaoka |
120a6e |
// faces with boundary components.
|
|
Shinya Kitaoka |
120a6e |
// Furthermore, we must test that faces adjacent to f1 and f2 keep e on the same
|
|
Shinya Kitaoka |
120a6e |
// side of
|
|
Shinya Kitaoka |
120a6e |
// the line passing through v3v1 and v3v2.
|
|
Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
|
|
Shinya Kitaoka |
120a6e |
inline bool testCollapse(const mesh_type &mesh, int e,
|
|
Shinya Kitaoka |
120a6e |
const BoundaryEdges<mesh_type> &boundary) {</mesh_type>
|
|
Shinya Kitaoka |
120a6e |
// Any face adjacent to e must have no boundary edge
|
|
Shinya Kitaoka |
120a6e |
const typename mesh_type::edge_type &ed = mesh.edge(e);
|
|
Shinya Kitaoka |
120a6e |
int f1 = ed.face(0), f2 = ed.face(1);
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
if (f1 < 0 || f2 < 0) return false;
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
int v1 = mesh.edge(e).vertex(0), v2 = mesh.edge(e).vertex(1);
|
|
Shinya Kitaoka |
120a6e |
if (boundary.isBoundaryVertex(v1) || boundary.isBoundaryVertex(v2))
|
|
Shinya Kitaoka |
120a6e |
return false;
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
// Test faces adjacent to v1 or v2. Since one of their vertices will change,
|
|
Shinya Kitaoka |
120a6e |
// we must make sure that their
|
|
Shinya Kitaoka |
120a6e |
//'side' does not change too.
|
|
Shinya Kitaoka |
120a6e |
int v = mesh.otherFaceVertex(f1, e);
|
|
Shinya Kitaoka |
120a6e |
int l = mesh.edgeInciding(v1, v);
|
|
Shinya Kitaoka |
120a6e |
int f =
|
|
Shinya Kitaoka |
120a6e |
mesh.edge(l).face(0) == f1 ? mesh.edge(l).face(1) : mesh.edge(l).face(0);
|
|
Shinya Kitaoka |
120a6e |
int vNext = mesh.otherFaceVertex(f, l);
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
while (f != f2) {
|
|
Shinya Kitaoka |
120a6e |
// Test face f
|
|
Shinya Kitaoka |
120a6e |
if (tsign(point_ops::cross(mesh.vertex(vNext).P() - mesh.vertex(v).P(),
|
|
Shinya Kitaoka |
120a6e |
mesh.vertex(v2).P() - mesh.vertex(v).P())) !=
|
|
Shinya Kitaoka |
120a6e |
tsign(point_ops::cross(mesh.vertex(vNext).P() - mesh.vertex(v).P(),
|
|
Shinya Kitaoka |
120a6e |
mesh.vertex(v1).P() - mesh.vertex(v).P())))
|
|
Shinya Kitaoka |
120a6e |
return false;
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
// Update vars
|
|
Shinya Kitaoka |
120a6e |
v = vNext;
|
|
Shinya Kitaoka |
120a6e |
l = mesh.edgeInciding(v1, v);
|
|
Shinya Kitaoka |
120a6e |
f = mesh.edge(l).face(0) == f ? mesh.edge(l).face(1) : mesh.edge(l).face(0);
|
|
Shinya Kitaoka |
120a6e |
vNext = mesh.otherFaceVertex(f, l);
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
// Same with respect to v2
|
|
Shinya Kitaoka |
120a6e |
v = mesh.otherFaceVertex(f1, e);
|
|
Shinya Kitaoka |
120a6e |
l = mesh.edgeInciding(v2, v);
|
|
Shinya Kitaoka |
120a6e |
f = mesh.edge(l).face(0) == f1 ? mesh.edge(l).face(1) : mesh.edge(l).face(0);
|
|
Shinya Kitaoka |
120a6e |
vNext = mesh.otherFaceVertex(f, l);
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
while (f != f2) {
|
|
Shinya Kitaoka |
120a6e |
// Test face f
|
|
Shinya Kitaoka |
120a6e |
if (tsign(point_ops::cross(mesh.vertex(vNext).P() - mesh.vertex(v).P(),
|
|
Shinya Kitaoka |
120a6e |
mesh.vertex(v2).P() - mesh.vertex(v).P())) !=
|
|
Shinya Kitaoka |
120a6e |
tsign(point_ops::cross(mesh.vertex(vNext).P() - mesh.vertex(v).P(),
|
|
Shinya Kitaoka |
120a6e |
mesh.vertex(v1).P() - mesh.vertex(v).P())))
|
|
Shinya Kitaoka |
120a6e |
return false;
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
// Update vars
|
|
Shinya Kitaoka |
120a6e |
v = vNext;
|
|
Shinya Kitaoka |
120a6e |
l = mesh.edgeInciding(v2, v);
|
|
Shinya Kitaoka |
120a6e |
f = mesh.edge(l).face(0) == f ? mesh.edge(l).face(1) : mesh.edge(l).face(0);
|
|
Shinya Kitaoka |
120a6e |
vNext = mesh.otherFaceVertex(f, l);
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
|
|
Shinya Kitaoka |
120a6e |
return true;
|
|
Toshihiro Shimizu |
890ddd |
}
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
} // namespace tcg::detail
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
//----------------------------------------------------------------------------
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
template <typename mesh_type=""></typename>
|
|
Shinya Kitaoka |
120a6e |
void refineMesh(mesh_type &mesh, TriMeshStuff::ActionEvaluator<mesh_type> &eval,</mesh_type>
|
|
Shinya Kitaoka |
120a6e |
unsigned long maxActions) {
|
|
Shinya Kitaoka |
120a6e |
using namespace detail;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
typedef TriMeshStuff::ActionEvaluator<mesh_type> Evaluator;</mesh_type>
|
|
Shinya Kitaoka |
120a6e |
typedef typename Evaluator::Action Action;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
// DIAGNOSTICS_TIMER("simplifyMesh");
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
// Build boundary edges. They will not be altered by the simplification
|
|
Shinya Kitaoka |
120a6e |
// procedure.
|
|
Shinya Kitaoka |
120a6e |
detail::BoundaryEdges<mesh_type> boundary(mesh);</mesh_type>
|
|
Shinya Kitaoka |
120a6e |
Action actions[3], *act, *actEnd = actions + 3;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
tcg::list<edge> &edges = mesh.edges();</edge>
|
|
Shinya Kitaoka |
120a6e |
tcg::list<edge>::iterator it;</edge>
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
// DIAGNOSTICS_SET("Simplify | Vertex count (before simplify)",
|
|
Shinya Kitaoka |
120a6e |
// mesh.vertexCount());
|
|
Shinya Kitaoka |
120a6e |
// DIAGNOSTICS_SET("Simplify | Edges count (before simplify)", edges.size());
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
// Build a vector of the edges to be analyzed
|
|
Shinya Kitaoka |
120a6e |
std::vector<uchar> buildEdge(edges.nodesCount(), 1);</uchar>
|
|
Shinya Kitaoka |
120a6e |
int touchedIdx;
|
|
Shinya Kitaoka |
120a6e |
bool boundaryEdge;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Toshihiro Shimizu |
890ddd |
cycle:
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
if (maxActions-- == 0) return;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
// Analyze mesh for possible updates. Perform the first one.
|
|
Shinya Kitaoka |
120a6e |
for (it = edges.begin(); it != edges.end(); ++it) {
|
|
Shinya Kitaoka |
120a6e |
if (!buildEdge[it.m_idx]) continue;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
boundaryEdge = boundary.isBoundaryEdge(it.m_idx);
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
eval.actionSort(mesh, it.m_idx, actions);
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
for (act = actions; act < actEnd; ++act) {
|
|
Shinya Kitaoka |
120a6e |
// Try to perform the i-th action
|
|
Shinya Kitaoka |
120a6e |
if (*act == Evaluator::NONE)
|
|
Shinya Kitaoka |
120a6e |
break;
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
else if (!boundaryEdge && *act == Evaluator::SWAP &&
|
|
Shinya Kitaoka |
120a6e |
testSwap(mesh, it.m_idx)) {
|
|
Shinya Kitaoka |
120a6e |
touchedIdx = mesh.swapEdge(it.m_idx);
|
|
Shinya Kitaoka |
120a6e |
touchEdge(buildEdge, mesh, touchedIdx);
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
goto cycle;
|
|
Shinya Kitaoka |
120a6e |
} else if (!boundaryEdge && *act == Evaluator::COLLAPSE &&
|
|
Shinya Kitaoka |
120a6e |
testCollapse(mesh, it.m_idx, boundary)) {
|
|
Shinya Kitaoka |
120a6e |
touchedIdx = mesh.collapseEdge(it.m_idx);
|
|
Shinya Kitaoka |
120a6e |
touchVertex(buildEdge, mesh, touchedIdx);
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
goto cycle;
|
|
Shinya Kitaoka |
120a6e |
} else if (*act == Evaluator::SPLIT) {
|
|
Shinya Kitaoka |
120a6e |
Edge &ed = mesh.edge(it.m_idx);
|
|
Shinya Kitaoka |
120a6e |
touchVertex(buildEdge, mesh, ed.vertex(0));
|
|
Shinya Kitaoka |
120a6e |
touchVertex(buildEdge, mesh, ed.vertex(1));
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
touchedIdx = mesh.splitEdge(it.m_idx);
|
|
Shinya Kitaoka |
120a6e |
if (buildEdge.size() < edges.size()) buildEdge.resize(edges.size());
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
touchVertex(buildEdge, mesh, touchedIdx);
|
|
Shinya Kitaoka |
120a6e |
if (boundaryEdge) boundary.setBoundaryVertex(touchedIdx);
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
goto cycle;
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
buildEdge[it.m_idx] = 0;
|
|
Shinya Kitaoka |
120a6e |
}
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
// DIAGNOSTICS_SET("Simplify | Vertex count (after simplify)",
|
|
Shinya Kitaoka |
120a6e |
// mesh.vertexCount());
|
|
Shinya Kitaoka |
120a6e |
// DIAGNOSTICS_SET("Simplify | Edges count (after simplify)", edges.size());
|
|
Toshihiro Shimizu |
890ddd |
}
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
} // namespace tcg
|
|
Toshihiro Shimizu |
890ddd |
|
|
Shinya Kitaoka |
120a6e |
#endif // TCG_TRIANGULATE_HPP
|