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vcglib/wrap/gl/gl_mesh_attributes_info.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. *
* *
****************************************************************************/
#ifndef __VCG_GL_MESH_ATTRIBUTES_INFO
#define __VCG_GL_MESH_ATTRIBUTES_INFO
#include <vector>
#include <string>
#include <bitset>
namespace vcg
{
struct GLMeshAttributesInfo
{
struct Exception : public std::exception
{
Exception(const char* text)
:std::exception(),_text(text) {}
~Exception() throw() {}
inline const char* what() const throw() {return _text.c_str();}
private:
std::string _text;
};
/*WARNING!!!! why not a plain and simple enum? because i need to add further values to this enumeration, but the user of the class should not be interested and/or directly manage those other additional values*/
/*the struct is extended in GLMeshAttributesFeeder class, introducing the ATT_VERTINDICES and ATT_EDGEINDICES values for the class internal use*/
struct ATT_NAMES
{
static const unsigned int ATT_VERTPOSITION = 0;
static const unsigned int ATT_VERTNORMAL = 1;
static const unsigned int ATT_FACENORMAL = 2;
static const unsigned int ATT_VERTCOLOR = 3;
static const unsigned int ATT_FACECOLOR = 4;
static const unsigned int ATT_VERTTEXTURE = 5;
static const unsigned int ATT_WEDGETEXTURE = 6;
enum {ATT_ARITY = 7};
ATT_NAMES()
:_val(ATT_VERTPOSITION)
{
}
ATT_NAMES(unsigned int att)
{
if (att >= ATT_NAMES::enumArity())
throw Exception("Out of range value\n");
else
_val = att;
}
static unsigned int enumArity()
{
return ATT_NAMES::ATT_ARITY;
}
operator unsigned int() const
{
return _val;
}
bool operator==(unsigned int r) const
{
return (_val == r);
}
bool operator!=(unsigned int r) const
{
return (_val != r);
}
protected:
unsigned int _val;
};
enum PRIMITIVE_MODALITY
{
PR_POINTS = 0,
PR_WIREFRAME_EDGES = 1,
PR_WIREFRAME_TRIANGLES = 2,
PR_SOLID = 3,
PR_ARITY = 4
};
static PRIMITIVE_MODALITY next(PRIMITIVE_MODALITY pm)
{
int tmp = static_cast<int>(pm);
if (tmp == PR_ARITY)
throw Exception("PRIMITIVE_MODALITY iterator: PR_ARITY passed as parameter!");
++tmp;
return static_cast<PRIMITIVE_MODALITY>(tmp);
}
typedef std::bitset<PR_ARITY> PRIMITIVE_MODALITY_MASK;
template<typename ATT_NAMES_DERIVED_CLASS>
class RenderingAtts
{
public:
RenderingAtts(bool defaultvalue = false)
{
reset(defaultvalue);
}
RenderingAtts(const RenderingAtts<ATT_NAMES_DERIVED_CLASS>& att)
{
reset();
//_atts = new bool[ATT_NAMES_DERIVED_CLASS::enumArity()];
for(unsigned int ii = 0;ii < ATT_NAMES_DERIVED_CLASS::enumArity();++ii)
(*this)[ii] = att[ii];
}
~RenderingAtts()
{
}
RenderingAtts<ATT_NAMES_DERIVED_CLASS>& operator=(const RenderingAtts<ATT_NAMES_DERIVED_CLASS>& att)
{
reset();
for(unsigned int ii = 0;ii < ATT_NAMES_DERIVED_CLASS::enumArity();++ii)
(*this)[ii] = att[ii];
return (*this);
}
/*bool operator[](ATT_NAMES_DERIVED_CLASS att) const
{
unsigned int ii = att;
if (ii >= ATT_NAMES_DERIVED_CLASS::enumArity())
throw GLFeederException("Out of range value\n");
return _atts[ii];
}
bool& operator[](ATT_NAMES_DERIVED_CLASS att)
{
unsigned int ii = att;
if (ii >= ATT_NAMES_DERIVED_CLASS::enumArity())
throw GLFeederException("Out of range value\n");
return _atts[ii];
}*/
bool operator[](unsigned int ind) const
{
if (ind >= ATT_NAMES_DERIVED_CLASS::enumArity())
throw Exception("Out of range value\n");
return _atts[ind];
}
bool& operator[](unsigned int ind)
{
if (ind >= ATT_NAMES_DERIVED_CLASS::enumArity())
throw Exception("Out of range value\n");
return _atts[ind];
}
void reset(bool defaultvalue = false)
{
//delete[] _atts;
//_atts = new bool[ATT_NAMES_DERIVED_CLASS::enumArity()];
for(unsigned int ii = 0;ii < ATT_NAMES_DERIVED_CLASS::enumArity();++ii)
_atts[ii] = defaultvalue;
}
static RenderingAtts<ATT_NAMES_DERIVED_CLASS> unionSet(const RenderingAtts<ATT_NAMES_DERIVED_CLASS>& a,const RenderingAtts<ATT_NAMES_DERIVED_CLASS>& b)
{
RenderingAtts<ATT_NAMES_DERIVED_CLASS> res;
for(unsigned int ii = 0; ii < ATT_NAMES_DERIVED_CLASS::enumArity();++ii)
res[ii] = a[ii] || b[ii];
return res;
}
static RenderingAtts<ATT_NAMES_DERIVED_CLASS> complementSet(const RenderingAtts<ATT_NAMES_DERIVED_CLASS>& a,const RenderingAtts<ATT_NAMES_DERIVED_CLASS>& b)
{
/*TRUTH TABLE*/
//this[ATT_NAMES] | rq[ATT_NAMES] | res
// true | true | false
// true | false | true
// false | true | false
// false | false | false
RenderingAtts<ATT_NAMES_DERIVED_CLASS> res = a;
for(unsigned int ii = 0; ii < ATT_NAMES_DERIVED_CLASS::enumArity();++ii)
{
if (res[ii])
res[ii] = !(b[ii]);
}
return res;
}
static RenderingAtts<ATT_NAMES_DERIVED_CLASS> intersectionSet(const RenderingAtts<ATT_NAMES_DERIVED_CLASS>& a,const RenderingAtts<ATT_NAMES_DERIVED_CLASS>& b)
{
RenderingAtts<ATT_NAMES_DERIVED_CLASS> res;
for(unsigned int ii = 0; ii < ATT_NAMES_DERIVED_CLASS::enumArity();++ii)
res[ii] = a[ii] && b[ii];
return res;
}
size_t serialize(std::string& str) const
{
for (unsigned int ii = 0; ii < ATT_NAMES_DERIVED_CLASS::enumArity(); ++ii)
str.append(((_atts[ii]) ? "1" : "0"));
return ATT_NAMES_DERIVED_CLASS::enumArity();
}
void deserialize(const std::string& str)
{
std::bitset<ATT_NAMES_DERIVED_CLASS::ATT_ARITY> bset(str);
for (unsigned int ii = 0; ii < ATT_NAMES_DERIVED_CLASS::enumArity(); ++ii)
_atts[ATT_NAMES_DERIVED_CLASS::enumArity() - ii - 1] = bset[ii];
}
//template<typename MESHTYPE>
//static void computeARequestedAttributesSetCompatibleWithMesh(const MESHTYPE& mesh,const PRIMITIVE_MODALITY_MASK,RenderingAtts<ATT_NAMES_DERIVED_CLASS>& rqatt)
//{
// if (mesh.VN() == 0)
// {
// rqatt.reset();
// return;
// }
// rqatt[ATT_NAMES_DERIVED_CLASS::ATT_VERTPOSITION] = true;
// rqatt[ATT_NAMES_DERIVED_CLASS::ATT_VERTNORMAL] = rqatt[ATT_NAMES_DERIVED_CLASS::ATT_VERTNORMAL] && vcg::tri::HasPerVertexNormal(mesh);
// rqatt[ATT_NAMES_DERIVED_CLASS::ATT_FACENORMAL] = rqatt[ATT_NAMES_DERIVED_CLASS::ATT_FACENORMAL] && vcg::tri::HasPerFaceNormal(mesh);
// rqatt[ATT_NAMES_DERIVED_CLASS::ATT_VERTCOLOR] = rqatt[ATT_NAMES_DERIVED_CLASS::ATT_VERTCOLOR] && vcg::tri::HasPerVertexColor(mesh);
// rqatt[ATT_NAMES_DERIVED_CLASS::ATT_FACECOLOR] = rqatt[ATT_NAMES_DERIVED_CLASS::ATT_FACECOLOR] && vcg::tri::HasPerFaceColor(mesh);
// rqatt[ATT_NAMES_DERIVED_CLASS::ATT_FIXEDCOLOR] = rqatt[ATT_NAMES_DERIVED_CLASS::ATT_FIXEDCOLOR];
// rqatt[ATT_NAMES_DERIVED_CLASS::ATT_VERTTEXTURE] = rqatt[ATT_NAMES_DERIVED_CLASS::ATT_VERTTEXTURE] && vcg::tri::HasPerVertexTexCoord(mesh);
// rqatt[ATT_NAMES_DERIVED_CLASS::ATT_WEDGETEXTURE] = rqatt[ATT_NAMES_DERIVED_CLASS::ATT_WEDGETEXTURE] && vcg::tri::HasPerWedgeTexCoord(mesh);
//}
protected:
/*an array of enumArity() bool values*/
bool _atts[ATT_NAMES_DERIVED_CLASS::ATT_ARITY];
//std::bitset<ATT_NAMES_DERIVED_CLASS::ATT_ARITY> _atts;
};
typedef RenderingAtts<ATT_NAMES> RendAtts;
struct DebugInfo
{
std::string _tobeallocated;
std::string _tobedeallocated;
std::string _tobeupdated;
std::string _currentlyallocated;
std::vector<std::string> _perviewdata;
DebugInfo()
:_tobeallocated(),_tobedeallocated(),_tobeupdated(),_currentlyallocated(),_perviewdata()
{
}
void reset()
{
_tobeallocated.clear();
_tobedeallocated.clear();
_tobeupdated.clear();
_currentlyallocated.clear();
_perviewdata.clear();
}
static const char* primitiveName(size_t ind)
{
static std::string res;
if (ind == size_t(PR_POINTS))
res = std::string("PR_POINTS");
if (ind == size_t(PR_WIREFRAME_EDGES))
res = std::string("PR_WIREFRAME_EDGES");
if (ind == size_t(PR_WIREFRAME_TRIANGLES))
res = std::string("PR_WIREFRAME_TRIANGLES");
if (ind == size_t(PR_SOLID))
res = std::string("PR_SOLID");
return res.c_str();
}
};
protected:
struct INT_ATT_NAMES : public ATT_NAMES
{
/*WARNING!!!!!! the edges index bo it's just used only by the edges and quads meshes, NOT by the triangle meshes. Triangles meshes use just the vertex index array*/
/*WHY? cause quads meshes need both index arrays. One to render the "usual" mesh, the other one to render the wireframe quadrangulation on top of it*/
/*A triangles meshes rendered in wireframe or in solid wireframe, in order to save GPU memory, use the glPolygonMode approach*/
/*Edges meshes uses the edges index array just for a matter of coherence*/
/*WARNING!!!! to be changed whit ATT_NAMES::enumArity() (and so on...) as soon as constexpr will be supported by most of the old c++ compilers*/
static const unsigned int ATT_VERTINDICES = 7;
static const unsigned int ATT_EDGEINDICES = 8;
enum {ATT_ARITY = 9};
INT_ATT_NAMES()
:ATT_NAMES()
{
}
INT_ATT_NAMES(unsigned int att)
:ATT_NAMES()
{
if (att >= INT_ATT_NAMES::enumArity())
throw Exception("Out of range value\n");
else
_val = att;
}
static unsigned int enumArity()
{
return INT_ATT_NAMES::ATT_ARITY;
}
operator unsigned int() const
{
return _val;
}
};
class InternalRendAtts : public RenderingAtts<INT_ATT_NAMES>
{
public:
typedef INT_ATT_NAMES AttName;
InternalRendAtts()
:RenderingAtts<INT_ATT_NAMES>()
{
}
InternalRendAtts(const RendAtts& reqatt)
:RenderingAtts<INT_ATT_NAMES>()
{
for(unsigned int ii = 0;ii < ATT_NAMES::enumArity();++ii)
{
(*this)[ii] = reqatt[ii];
}
(*this)[INT_ATT_NAMES::ATT_VERTINDICES] = false;
(*this)[INT_ATT_NAMES::ATT_EDGEINDICES] = false;
}
InternalRendAtts(const RendAtts& reqatt,PRIMITIVE_MODALITY pm)
:RenderingAtts<INT_ATT_NAMES>()
{
for(unsigned int ii = 0;ii < ATT_NAMES::enumArity();++ii)
(*this)[ii] = reqatt[ii];
(*this)[INT_ATT_NAMES::ATT_VERTINDICES] = isVertexIndexingRequired(reqatt,pm);
(*this)[INT_ATT_NAMES::ATT_EDGEINDICES] = isEdgeIndexingRequired(pm);
}
InternalRendAtts(const RenderingAtts<INT_ATT_NAMES>& r)
:RenderingAtts<INT_ATT_NAMES>(r)
{
}
//upcast from InternalRendAtts to RendAtts
operator RendAtts() const
{
RendAtts rendatt;
for(unsigned int ii = 0;ii < ATT_NAMES::enumArity();++ii)
rendatt[ii] = _atts[ii];
return rendatt;
}
InternalRendAtts& setIndexingIfNeeded(PRIMITIVE_MODALITY pm)
{
(*this)[INT_ATT_NAMES::ATT_VERTINDICES] = isVertexIndexingRequired((*this),pm);
(*this)[INT_ATT_NAMES::ATT_EDGEINDICES] = isEdgeIndexingRequired(pm);
return (*this);
}
static bool isPerVertexAttribute(INT_ATT_NAMES name)
{
return ((name == INT_ATT_NAMES::ATT_VERTPOSITION) || (name == INT_ATT_NAMES::ATT_VERTNORMAL) || (name == INT_ATT_NAMES::ATT_VERTCOLOR) || (name == INT_ATT_NAMES::ATT_VERTTEXTURE));
}
static bool replicatedPipelineNeeded(const RendAtts& rqatt)
{
return (rqatt[INT_ATT_NAMES::ATT_FACENORMAL] || rqatt[INT_ATT_NAMES::ATT_FACECOLOR] || rqatt[INT_ATT_NAMES::ATT_WEDGETEXTURE]);
}
static bool isVertexIndexingRequired(const RendAtts& rqatt,PRIMITIVE_MODALITY pm)
{
return (!replicatedPipelineNeeded(rqatt) && ((pm == PR_SOLID) || (pm == PR_WIREFRAME_TRIANGLES)));
}
static bool isEdgeIndexingRequired(PRIMITIVE_MODALITY pm)
{
return (pm == PR_WIREFRAME_EDGES);
}
/*static void suggestedMinimalAttributeSetForPrimitiveModalityMask(PRIMITIVE_MODALITY_MASK pm,RenderingAtts<INT_ATT_NAMES>& atts)
{
if ((pm == (unsigned int)(PR_NONE)) || (pm == (unsigned int)(PR_BBOX)))
{
atts.reset();
return;
}
if (pm & PR_POINTS)
{
atts[INT_ATT_NAMES::ATT_VERTPOSITION] = true;
}
if (pm & PR_WIREFRAME_EDGES)
{
atts[INT_ATT_NAMES::ATT_VERTPOSITION] = true;
atts[INT_ATT_NAMES::ATT_EDGEINDICES] = true;
}
if ((pm & PR_WIREFRAME_TRIANGLES) || (pm & PR_SOLID))
{
atts[INT_ATT_NAMES::ATT_VERTPOSITION] = true;
atts[INT_ATT_NAMES::ATT_VERTINDICES] = true;
}
}*/
};
};
}
#endif
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