vcglib/vcg/simplex/vertexplus/component_ocf.h

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/****************************************************************************
* VCGLib o o *
* Visual and Computer Graphics Library o o *
* _ O _ *
* Copyright(C) 2004 \/)\/ *
* Visual Computing Lab /\/| *
* ISTI - Italian National Research Council | *
* \ *
* All rights reserved. *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License (http://www.gnu.org/licenses/gpl.txt) *
* for more details. *
* *
****************************************************************************/
/****************************************************************************
History
$Log: not supported by cvs2svn $
2008-02-05 21:42:43 +01:00
Revision 1.12 2008/02/04 21:26:49 ganovelli
added ImportLocal which imports all local attributes into vertexplus and faceplus.
A local attribute is everything (N(), C(), Q()....) except pointers to other simplices
(i.e. FFAdj, VFAdj, VertexRef) which are set to NULL.
Added some function for const attributes
Revision 1.11 2007/12/11 18:25:31 cignoni
added missing include limits
2007-12-11 19:25:31 +01:00
Revision 1.10 2007/12/11 11:36:03 cignoni
Added the CompactVertexVector garbage collecting function.
Revision 1.9 2006/12/11 23:42:00 ganovelli
bug Index()() instead of Index()
2006-12-12 00:42:00 +01:00
Revision 1.8 2006/12/04 11:17:42 ganovelli
added forward declaration of TriMesh
2006-12-04 12:17:42 +01:00
Revision 1.7 2006/11/07 17:22:52 cignoni
many gcc compiling issues
2006-11-07 18:22:53 +01:00
Revision 1.6 2006/11/07 15:13:57 zifnab1974
Necessary changes for compilation with gcc 3.4.6. Especially the hash function is a problem
Revision 1.5 2006/11/07 11:29:24 cignoni
Corrected some errors in the reflections Has*** functions
Revision 1.4 2006/10/31 16:02:59 ganovelli
vesione 2005 compliant
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Revision 1.3 2006/02/28 11:59:55 ponchio
g++ compliance:
begin() -> (*this).begin() and for end(), size(), Base(), Index()
Revision 1.2 2005/12/12 11:17:32 cignoni
Corrected update function, now only the needed simplexes should be updated.
Revision 1.1 2005/10/14 15:07:59 cignoni
First Really Working version
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****************************************************************************/
/*
Note
OCF = Optional Component Fast (hopefully)
compare with OCC(Optional Component Compact)
Mainly the trick here is to store a base pointer in each simplex...
****************************************************************************/
#ifndef __VCG_VERTEX_PLUS_COMPONENT_OCF
#define __VCG_VERTEX_PLUS_COMPONENT_OCF
#include <vcg/simplex/vertexplus/component.h>
#include <vector>
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#include <limits>
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namespace vcg {
namespace vert {
/*
All the Components that can be added to a vertex should be defined in the namespace vert:
*/
template <class VALUE_TYPE>
class vector_ocf: public std::vector<VALUE_TYPE> {
typedef std::vector<VALUE_TYPE> BaseType;
typedef typename vector_ocf<VALUE_TYPE>::iterator ThisTypeIterator;
public:
vector_ocf():std::vector<VALUE_TYPE>(){
QualityEnabled=false;
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ColorEnabled=false;
NormalEnabled=false;
VFAdjacencyEnabled=false;
}
// override di tutte le funzioni che possono spostare
// l'allocazione in memoria del container
void push_back(const VALUE_TYPE & v)
{
BaseType::push_back(v);
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BaseType::back()._ovp = this;
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}
void pop_back();
void resize(const unsigned int & _size)
{
int oldsize = BaseType::size();
BaseType::resize(_size);
if(oldsize<_size){
ThisTypeIterator firstnew = BaseType::begin();
advance(firstnew,oldsize);
_updateOVP(firstnew,(*this).end());
}
if(ColorEnabled) CV.resize(_size);
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if(NormalEnabled) NV.resize(_size);
}
void reserve(const unsigned int & _size)
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{
BaseType::reserve(_size);
if (ColorEnabled) CV.reserve(_size);
if (NormalEnabled) NV.reserve(_size);
}
void _updateOVP(ThisTypeIterator lbegin, ThisTypeIterator lend)
{
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ThisTypeIterator vi;
for(vi=lbegin;vi!=lend;++vi)
(*vi)._ovp=this;
}
// this function is called by the specialized Reorder function, that is called whenever someone call the allocator::CompactVertVector
void Reorder(std::vector<size_t> &newVertIndex )
{
size_t pos=0;
size_t i=0;
if(ColorEnabled) assert( CV.size() == newVertIndex.size() );
if(NormalEnabled) assert( NV.size() == newVertIndex.size() );
for(i=0;i<newVertIndex.size();++i)
{
if(newVertIndex[i] != std::numeric_limits<size_t>::max() )
{
assert(newVertIndex[i] <= i);
if(ColorEnabled) CV[newVertIndex[i]] = CV[i];
if(NormalEnabled) NV[newVertIndex[i]] = NV[i];;
}
}
}
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////////////////////////////////////////
// Enabling Eunctions
bool IsQualityEnabled() const {return QualityEnabled;}
void EnableQuality() {
assert(VALUE_TYPE::HasQualityOcf());
QualityEnabled=true;
QV.resize((*this).size());
}
void DisableQuality() {
assert(VALUE_TYPE::HasQualityOcf());
QualityEnabled=false;
QV.clear();
}
bool IsColorEnabled() const {return ColorEnabled;}
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void EnableColor() {
assert(VALUE_TYPE::HasColorOcf());
ColorEnabled=true;
CV.resize((*this).size());
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}
void DisableColor() {
assert(VALUE_TYPE::HasColorOcf());
ColorEnabled=false;
CV.clear();
}
bool IsNormalEnabled() const {return NormalEnabled;}
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void EnableNormal() {
assert(VALUE_TYPE::HasNormalOcf());
NormalEnabled=true;
NV.resize((*this).size());
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}
void DisableNormal() {
assert(VALUE_TYPE::HasNormalOcf());
NormalEnabled=false;
NV.clear();
}
void EnableVFAdjacency() {
assert(VALUE_TYPE::HasVFAdjacencyOcf());
VFAdjacencyEnabled=true;
AV.resize((*this).size());
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}
void DisableVFAdjacency() {
assert(VALUE_TYPE::HasVFAdjacencyOcf());
VFAdjacencyEnabled=false;
AV.clear();
}
struct VFAdjType {
typename VALUE_TYPE::FacePointer _fp ;
int _zp ;
};
public:
std::vector<typename VALUE_TYPE::QualityType> QV;
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std::vector<typename VALUE_TYPE::ColorType> CV;
std::vector<typename VALUE_TYPE::NormalType> NV;
std::vector<struct VFAdjType> AV;
bool QualityEnabled;
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bool ColorEnabled;
bool NormalEnabled;
bool VFAdjacencyEnabled;
};
//template<> void EnableAttribute<typename VALUE_TYPE::NormalType>(){ NormalEnabled=true;}
/*------------------------- COORD -----------------------------------------*/
/*----------------------------- VFADJ ------------------------------*/
template <class T> class VFAdjOcf: public T {
public:
typename T::FacePointer &VFp() {
assert((*this).Base().VFAdjacencyEnabled);
return (*this).Base().AV[(*this).Index()()]._fp;
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}
typename T::FacePointer cVFp() const {
if(! (*this).Base().VFAdjacencyEnabled ) return 0;
else return (*this).Base().AV[(*this).Index()()]._fp;
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}
int &VFi() {
assert((*this).Base().VFAdjacencyEnabled);
return (*this).Base().AV[(*this).Index()()]._zp;
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}
template <class LeftV>
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void ImportLocal(const LeftV & leftV){VFp() = NULL; VFi() = -1; T::ImporLocal(leftV);}
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static bool HasVFAdjacency() { return true; }
static bool HasVFAdjacencyOcf() { return true; }
private:
};
/*------------------------- Normal -----------------------------------------*/
template <class A, class T> class NormalOcf: public T {
public:
typedef A NormalType;
static bool HasNormal() { return true; }
static bool HasNormalOcf() { return true; }
NormalType &N() {
// you cannot use Normals before enabling them with: yourmesh.vert.EnableNormal()
assert((*this).Base().NormalEnabled);
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return (*this).Base().NV[(*this).Index()]; }
const NormalType &N() const {
// you cannot use Normals before enabling them with: yourmesh.vert.EnableNormal()
assert((*this).Base().NormalEnabled);
return (*this).Base().NV[(*this).Index()]; }
template <class LeftV>
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void ImportLocal(const LeftV & leftV){ N() = leftV.cN(); T::ImporLocal(leftV);}
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};
template <class T> class Normal3sOcf: public NormalOcf<vcg::Point3s, T> {};
template <class T> class Normal3fOcf: public NormalOcf<vcg::Point3f, T> {};
template <class T> class Normal3dOcf: public NormalOcf<vcg::Point3d, T> {};
///*-------------------------- COLOR ----------------------------------*/
template <class A, class T> class ColorOcf: public T {
public:
typedef A ColorType;
ColorType &C() { assert((*this).Base().NormalEnabled); return (*this).Base().CV[(*this).Index()()]; }
const ColorType &cC() const { assert((*this).Base().NormalEnabled); return (*this).Base().CV[(*this).Index()()]; }
template <class LeftV>
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void ImportLocal(const LeftV & leftV){ C() = leftV.cC(); T::ImporLocal(leftV);}
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static bool HasColor() { return true; }
static bool HasColorOcf() { return true; }
};
template <class T> class Color4bOcf: public ColorOcf<vcg::Color4b, T> {};
///*-------------------------- QUALITY ----------------------------------*/
template <class A, class T> class QualityOcf: public T {
public:
typedef A QualityType;
QualityType &Q() { assert((*this).Base().QualityEnabled); return (*this).Base().QV[(*this).Index()()]; }
template <class LeftV>
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void ImportLocal(const LeftV & leftV){ Q() = leftV.cQ(); T::ImporLocal(leftV);}
static bool HasQuality() { return true; }
static bool HasQualityOcf() { return true; }
};
template <class T> class QualityfOcf: public QualityOcf<float, T> {};
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///*-------------------------- InfoOpt ----------------------------------*/
template < class T> class InfoOcf: public T {
public:
vector_ocf<typename T::VertType> &Base() const { return *_ovp;}
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inline int Index() const {
typename T::VertType const *tp=static_cast<typename T::VertType const*>(this);
int tt2=tp- &*(_ovp->begin());
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return tt2;
}
public:
vector_ocf<typename T::VertType> *_ovp;
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};
} // end namespace vert
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template < class, class > class TriMesh;
namespace tri
{
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template < class VertexType, class FaceContainerType >
bool HasPerVertexQuality (const TriMesh < vert::vector_ocf< VertexType > , FaceContainerType > & m)
{
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if(VertexType::HasQualityOcf()) return m.vert.IsQualityEnabled();
else return VertexType::HasQuality();
}
template < class VertexType >
void Reorder( std::vector<size_t> &newVertIndex, vert::vector_ocf< VertexType > &vertVec)
{
vertVec.Reorder(newVertIndex);
}
}
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}// end namespace vcg
#endif