khanat-code-old/code/nel/include/nel/3d/cube_grid.h
2015-12-13 20:23:08 +01:00

368 lines
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C++

// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 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 Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
#ifndef NL_CUBE_GRID_H
#define NL_CUBE_GRID_H
#include "nel/misc/types_nl.h"
#include "nel/misc/triangle.h"
#include "nel/misc/plane.h"
#include "nel/3d/quad_grid.h"
#include "nel/3d/static_quad_grid.h"
namespace NL3D {
// ***************************************************************************
/**
* Class used to classify elements in space around a point (good for pointlight raytracing)
* Elements are copied at insertion, and are duplicated at compilation along the grids.
* Therefore TCell should be small (ie a pointer). This constraint help because memory is much more
* reduced when compile is called.
*
* \author Matthieu Besson
* \author Lionel Berenguier
* \author Nevrax France
* \date 2001
*/
template <class TCell>
class CCubeGrid
{
public:
CCubeGrid ();
~CCubeGrid ();
/** Create the cubeGrid, specifying center of this one, and number of Cells per side.
*
*/
void create (const CVector &center, int nSize);
void insert (const NLMISC::CTriangle &tri, const TCell &cell);
/// compile the container, storing in CStaticQuadGrid.
void compile();
// Selection. CubeGrid must be compilated. NB: it clear old selection.
void select (const NLMISC::CVector &v);
TCell getSel ();
void nextSel ();
bool isEndSel ();
// ************************
private:
NLMISC::CVector _Center;
enum gridPos { kUp = 0, kDown, kLeft, kRight, kFront, kBack };
// This is temp used at element insertion. freed at compile() time
NL3D::CQuadGrid<TCell> _Grids[6];
// For fast selection, and minimum memory overhead.
NL3D::CStaticQuadGrid<TCell> _StaticGrids[6];
bool _Compiled;
// Selection.
const TCell *_Selection;
uint _CurSel;
uint _NumSels;
private:
void project (const NLMISC::CTriangle &tri, NLMISC::CPlane pyr[4], NLMISC::CPlane &gridPlane,
sint32 nGridNb, const TCell &cell);
};
// ***************************************************************************
// ***************************************************************************
// Implementation
// ***************************************************************************
// ***************************************************************************
// ***************************************************************************
template<class TCell>
CCubeGrid<TCell>::CCubeGrid ()
{
NLMISC::CMatrix tmp;
NLMISC::CVector I, J, K;
// grids[kUp].changeBase( );
I = NLMISC::CVector( 1, 0, 0 );
J = NLMISC::CVector( 0, -1, 0 );
K = NLMISC::CVector( 0, 0, -1 );
tmp.identity(); tmp.setRot( I, J, K, true );
_Grids[kDown].changeBase( tmp );
I = NLMISC::CVector( 0, 0, 1 );
J = NLMISC::CVector( 0, 1, 0 );
K = NLMISC::CVector( -1, 0, 0 );
tmp.identity(); tmp.setRot( I, J, K, true);
_Grids[kLeft].changeBase( tmp );
I = NLMISC::CVector( 0, 0, -1 );
J = NLMISC::CVector( 0, 1, 0 );
K = NLMISC::CVector( 1, 0, 0 );
tmp.identity(); tmp.setRot( I, J, K, true);
_Grids[kRight].changeBase( tmp );
I = NLMISC::CVector( 1, 0, 0 );
J = NLMISC::CVector( 0, 0, 1 );
K = NLMISC::CVector( 0, -1, 0 );
tmp.identity(); tmp.setRot( I, J, K, true);
_Grids[kFront].changeBase( tmp );
I = NLMISC::CVector( 1, 0, 0 );
J = NLMISC::CVector( 0, 0, -1 );
K = NLMISC::CVector( 0, 1, 0 );
tmp.identity(); tmp.setRot( I, J, K, true);
_Grids[kBack].changeBase( tmp );
_Compiled= false;
}
// ***************************************************************************
template<class TCell>
CCubeGrid<TCell>::~CCubeGrid ()
{
}
// ***************************************************************************
template<class TCell>
void CCubeGrid<TCell>::create (const CVector &center, int nSize)
{
nlassert(!_Compiled);
_Center= center;
_Grids[kUp].create ( nSize, 1.0f / ((float)nSize) );
_Grids[kDown].create ( nSize, 1.0f / ((float)nSize) );
_Grids[kLeft].create ( nSize, 1.0f / ((float)nSize) );
_Grids[kRight].create ( nSize, 1.0f / ((float)nSize) );
_Grids[kFront].create ( nSize, 1.0f / ((float)nSize) );
_Grids[kBack].create ( nSize, 1.0f / ((float)nSize) );
}
// ***************************************************************************
template<class TCell>
void CCubeGrid<TCell>::insert (const NLMISC::CTriangle &triIn, const TCell &cell)
{
nlassert(!_Compiled);
// Center triangle on _Center.
NLMISC::CTriangle tri= triIn;
tri.V0-= _Center;
tri.V1-= _Center;
tri.V2-= _Center;
NLMISC::CPlane p[4], gp;
// Construct clip pyramid for grid : UP
p[0].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,-1,+1 ), NLMISC::CVector( +1,-1,+1 ) );
p[1].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,-1,+1 ), NLMISC::CVector( +1,+1,+1 ) );
p[2].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,+1,+1 ), NLMISC::CVector( -1,+1,+1 ) );
p[3].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,+1,+1 ), NLMISC::CVector( -1,-1,+1 ) );
gp.make( NLMISC::CVector(0,0,1), NLMISC::CVector(0,0,0.5) );
project( tri, p, gp, kUp, cell );
// Construct clip pyramid for grid : DOWN
p[0].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,-1,-1 ), NLMISC::CVector( -1,-1,-1 ) );
p[1].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,-1,-1 ), NLMISC::CVector( -1,+1,-1 ) );
p[2].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,+1,-1 ), NLMISC::CVector( +1,+1,-1 ) );
p[3].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,+1,-1 ), NLMISC::CVector( +1,-1,-1 ) );
gp.make( NLMISC::CVector(0,0,-1), NLMISC::CVector(0,0,-0.5) );
project( tri, p, gp, kDown, cell );
// Construct clip pyramid for grid : LEFT
p[0].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,-1,-1 ), NLMISC::CVector( -1,-1,+1 ) );
p[1].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,-1,+1 ), NLMISC::CVector( -1,+1,+1 ) );
p[2].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,+1,+1 ), NLMISC::CVector( -1,+1,-1 ) );
p[3].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,+1,-1 ), NLMISC::CVector( -1,-1,-1 ) );
gp.make( NLMISC::CVector(-1,0,0), NLMISC::CVector(-0.5,0,0) );
project( tri, p, gp, kLeft, cell );
// Construct clip pyramid for grid : RIGHT
p[0].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,-1,+1 ), NLMISC::CVector( +1,-1,-1 ) );
p[1].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,-1,-1 ), NLMISC::CVector( +1,+1,-1 ) );
p[2].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,+1,-1 ), NLMISC::CVector( +1,+1,+1 ) );
p[3].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,+1,+1 ), NLMISC::CVector( +1,-1,+1 ) );
gp.make( NLMISC::CVector(1,0,0), NLMISC::CVector(0.5,0,0) );
project( tri, p, gp, kRight, cell );
// Construct clip pyramid for grid : FRONT
p[0].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,-1,-1 ), NLMISC::CVector( +1,-1,-1 ) );
p[1].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,-1,-1 ), NLMISC::CVector( +1,-1,+1 ) );
p[2].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,-1,+1 ), NLMISC::CVector( -1,-1,+1 ) );
p[3].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,-1,+1 ), NLMISC::CVector( -1,-1,-1 ) );
gp.make( NLMISC::CVector(0,-1,0), NLMISC::CVector(0,-0.5,0) );
project( tri, p, gp, kFront, cell );
// Construct clip pyramid for grid : BACK
p[0].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,+1,+1 ), NLMISC::CVector( +1,+1,-1 ) );
p[1].make( NLMISC::CVector(0,0,0), NLMISC::CVector( +1,+1,-1 ), NLMISC::CVector( -1,+1,-1 ) );
p[2].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,+1,-1 ), NLMISC::CVector( -1,+1,+1 ) );
p[3].make( NLMISC::CVector(0,0,0), NLMISC::CVector( -1,+1,+1 ), NLMISC::CVector( +1,+1,+1 ) );
gp.make( NLMISC::CVector(0,1,0), NLMISC::CVector(0,0.5,0) );
project( tri, p, gp, kBack, cell );
}
// ***************************************************************************
template<class TCell>
void CCubeGrid<TCell>::compile()
{
nlassert(!_Compiled);
// For all Grids.
uint i;
for(i=0; i<6; i++)
{
// build the _StaticGrid
_StaticGrids[i].build(_Grids[i]);
// And reset the grid. contReset is necessary to clean the CBlockMemory.
NLMISC::contReset(_Grids[i]);
}
// done
_Compiled= true;
// Clear the Selection
_Selection= NULL;
_CurSel= 0;
_NumSels= 0;
}
// ***************************************************************************
template<class TCell>
void CCubeGrid<TCell>::select (const NLMISC::CVector &vIn)
{
nlassert(_Compiled);
// Center triangle on _Center.
NLMISC::CVector v= vIn-_Center;
sint nSelGrid= -1;
NLMISC::CPlane gp;
// Get the plane
if( ( -v.z <= v.x ) && ( v.x <= v.z ) &&
( -v.z <= v.y ) && ( v.y <= v.z ) &&
( 0.0f <= v.z ) )
{
nSelGrid = kUp;
gp.make( NLMISC::CVector(0,0,1), NLMISC::CVector(0,0,0.5) );
}
if( ( v.z <= v.x ) && ( v.x <= -v.z ) &&
( v.z <= v.y ) && ( v.y <= -v.z ) &&
( v.z <= 0.0f ) )
{
nSelGrid = kDown;
gp.make( NLMISC::CVector(0,0,-1), NLMISC::CVector(0,0,-0.5) );
}
if( ( v.x <= 0.0f ) &&
( v.x <= v.y ) && ( v.y <= -v.x ) &&
( v.x <= v.z ) && ( v.z <= -v.x ) )
{
nSelGrid = kLeft;
gp.make( NLMISC::CVector(-1,0,0), NLMISC::CVector(-0.5,0,0) );
}
if( ( 0.0f <= v.x ) &&
( -v.x <= v.y ) && ( v.y <= v.x ) &&
( -v.x <= v.z ) && ( v.z <= v.x ) )
{
nSelGrid = kRight;
gp.make( NLMISC::CVector(1,0,0), NLMISC::CVector(0.5,0,0) );
}
if( ( v.y <= v.x ) && ( v.x <= -v.y ) &&
( v.y <= 0.0f ) &&
( v.y <= v.z ) && ( v.z <= -v.y ) )
{
nSelGrid = kFront;
gp.make( NLMISC::CVector(0,-1,0), NLMISC::CVector(0,-0.5,0) );
}
if( ( -v.y <= v.x ) && ( v.x <= v.y ) &&
( 0.0f <= v.y ) &&
( -v.y <= v.z ) && ( v.z <= v.y ) )
{
nSelGrid = kBack;
gp.make( NLMISC::CVector(0,1,0), NLMISC::CVector(0,0.5,0) );
}
nlassert(nSelGrid!=-1);
NLMISC::CVector newV = gp.intersect( NLMISC::CVector(0,0,0), v );
_Selection= _StaticGrids[nSelGrid].select(newV, _NumSels);
_CurSel = 0;
}
// ***************************************************************************
template<class TCell>
TCell CCubeGrid<TCell>::getSel ()
{
nlassert(_Compiled);
return _Selection[_CurSel];
}
// ***************************************************************************
template<class TCell>
void CCubeGrid<TCell>::nextSel ()
{
nlassert(_Compiled);
++_CurSel;
}
// ***************************************************************************
template<class TCell>
bool CCubeGrid<TCell>::isEndSel ()
{
nlassert(_Compiled);
return (_CurSel == _NumSels);
}
// ***************************************************************************
template<class TCell>
void CCubeGrid<TCell>::project (const NLMISC::CTriangle &tri, NLMISC::CPlane pyr[4], NLMISC::CPlane &gridPlane, sint32 nGridNb, const TCell &cell)
{
NLMISC::CVector vIn[7], vOut[7];
sint32 i, nOut;
vIn[0] = tri.V0; vIn[1] = tri.V1; vIn[2] = tri.V2;
nOut = pyr[0].clipPolygonFront( vIn, vOut, 3 );
if( nOut == 0 ) return;
for( i = 0; i < nOut; ++i ) vIn[i] = vOut[i];
nOut = pyr[1].clipPolygonFront( vIn, vOut, nOut );
if( nOut == 0 ) return;
for( i = 0; i < nOut; ++i ) vIn[i] = vOut[i];
nOut = pyr[2].clipPolygonFront( vIn, vOut, nOut );
if( nOut == 0 ) return;
for( i = 0; i < nOut; ++i ) vIn[i] = vOut[i];
nOut = pyr[3].clipPolygonFront( vIn, vOut, nOut );
if( nOut >= 3 )
{
NLMISC::CVector vMin(1, 1, 1), vMax(-1, -1, -1);
for( i = 0; i < nOut; ++i )
{
vOut[i] = gridPlane.intersect( NLMISC::CVector(0, 0, 0), vOut[i] );
if( vMin.x > vOut[i].x ) vMin.x = vOut[i].x;
if( vMin.y > vOut[i].y ) vMin.y = vOut[i].y;
if( vMin.z > vOut[i].z ) vMin.z = vOut[i].z;
if( vMax.x < vOut[i].x ) vMax.x = vOut[i].x;
if( vMax.y < vOut[i].y ) vMax.y = vOut[i].y;
if( vMax.z < vOut[i].z ) vMax.z = vOut[i].z;
}
// Create the bbox
_Grids[nGridNb].insert( vMin, vMax, cell );
}
}
} // NL3D
#endif // NL_CUBE_GRID_H
/* End of cube_grid.h */