OpenSceneGraph/examples/osggpucull/AggregateGeometryVisitor.h
2015-07-23 11:14:00 +00:00

291 lines
10 KiB
C++

/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2014 Robert Osfield
* Copyright (C) 2014 Pawel Ksiezopolski
*
* This library is open source and may be redistributed and/or modified under
* the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or
* (at your option) any later version. The full license is in LICENSE file
* included with this distribution, and on the openscenegraph.org website.
*
* This library 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
* OpenSceneGraph Public License for more details.
*
*/
#ifndef AGREGATE_GEOMETRY_VISITOR_H
#define AGREGATE_GEOMETRY_VISITOR_H 1
#include <osg/Geode>
#include <osg/Geometry>
#include <osg/Transform>
#include <osg/NodeVisitor>
#include <osg/TriangleIndexFunctor>
// AggregateGeometryVisitor uses ConvertTrianglesOperator to create and fill osg::Geometry
// with data matching users needs
struct ConvertTrianglesOperator : public osg::Referenced
{
ConvertTrianglesOperator()
: osg::Referenced()
{
}
virtual void initGeometry( osg::Geometry* outputGeometry ) = 0;
virtual bool pushNode( osg::Node* node )
{
return false;
}
virtual void popNode() = 0;
virtual void setGeometryData( const osg::Matrix &matrix, osg::Geometry *inputGeometry, osg::Geometry* outputGeometry, float typeID, float lodNumber ) = 0;
virtual void operator() ( unsigned int i1, unsigned int i2, unsigned int i3 ) = 0;
};
class GetVec2FromArrayVisitor : public osg::ValueVisitor
{
public:
GetVec2FromArrayVisitor()
{
}
void apply( GLfloat& value )
{
out = osg::Vec2( value, 0.0 );
}
void apply( osg::Vec2& value )
{
out = osg::Vec2( value.x(), value.y() );
}
virtual void apply( osg::Vec2d& value )
{
out = osg::Vec2( value.x(), value.y() );
}
void apply( osg::Vec3& value )
{
out = osg::Vec2( value.x(), value.y() );
}
void apply( osg::Vec4& value )
{
out = osg::Vec2( value.x(), value.y() );
}
void apply( osg::Vec3d& value )
{
out = osg::Vec2( value.x(), value.y() );
}
void apply( osg::Vec4d& value )
{
out = osg::Vec2( value.x(), value.y() );
}
osg::Vec2 out;
};
// ConvertTrianglesOperatorClassic is a ConvertTrianglesOperator that creates
// aggregated geometry with standard set of vertex attributes : vertices, normals, color and texCoord0.
// texCoord1 holds additional information about vertex ( typeID, lodNumber, boneIndex )
struct ConvertTrianglesOperatorClassic : public ConvertTrianglesOperator
{
ConvertTrianglesOperatorClassic()
: ConvertTrianglesOperator(), _typeID(0.0f), _lodNumber(0.0f)
{
_boneIndices.push_back(0.0);
}
virtual void initGeometry( osg::Geometry* outputGeometry )
{
osg::Vec3Array* vertices = new osg::Vec3Array; outputGeometry->setVertexArray( vertices );
osg::Vec4Array* colors = new osg::Vec4Array; outputGeometry->setColorArray( colors, osg::Array::BIND_PER_VERTEX );
osg::Vec3Array* normals = new osg::Vec3Array; outputGeometry->setNormalArray( normals, osg::Array::BIND_PER_VERTEX );
osg::Vec2Array* texCoords0 = new osg::Vec2Array; outputGeometry->setTexCoordArray( 0, texCoords0 );
osg::Vec3Array* texCoords1 = new osg::Vec3Array; outputGeometry->setTexCoordArray( 1, texCoords1 );
outputGeometry->setStateSet(NULL);
}
virtual bool pushNode( osg::Node* node )
{
std::map<std::string,float>::iterator it = _boneNames.find( node->getName() );
if(it==_boneNames.end())
return false;
_boneIndices.push_back( it->second );
return true;
}
virtual void popNode()
{
_boneIndices.pop_back();
}
virtual void setGeometryData( const osg::Matrix &matrix, osg::Geometry *inputGeometry, osg::Geometry* outputGeometry, float typeID, float lodNumber )
{
_matrix = matrix;
_inputVertices = dynamic_cast<osg::Vec3Array *>( inputGeometry->getVertexArray() );
_inputColors = dynamic_cast<osg::Vec4Array *>( inputGeometry->getColorArray() );
_inputNormals = dynamic_cast<osg::Vec3Array *>( inputGeometry->getNormalArray() );
_inputTexCoord0 = inputGeometry->getTexCoordArray(0);
_outputVertices = dynamic_cast<osg::Vec3Array *>( outputGeometry->getVertexArray() );
_outputColors = dynamic_cast<osg::Vec4Array *>( outputGeometry->getColorArray() );
_outputNormals = dynamic_cast<osg::Vec3Array *>( outputGeometry->getNormalArray() );
_outputTexCoord0 = dynamic_cast<osg::Vec2Array *>( outputGeometry->getTexCoordArray(0) );
_outputTexCoord1 = dynamic_cast<osg::Vec3Array *>( outputGeometry->getTexCoordArray(1) );
_typeID = typeID;
_lodNumber = lodNumber;
}
virtual void operator() ( unsigned int i1, unsigned int i2, unsigned int i3 )
{
unsigned int ic1=i1, ic2=i2, ic3=i3, in1=i1, in2=i2, in3=i3, it01=i1, it02=i2, it03=i3;
if ( _inputColors!=NULL && _inputColors->size() == 1 )
{
ic1=0; ic2=0; ic3=0;
}
if ( _inputNormals!=NULL && _inputNormals->size() == 1 )
{
in1=0; in2=0; in3=0;
}
if ( _inputTexCoord0!=NULL && _inputTexCoord0->getNumElements()==1 )
{
it01=0; it02=0; it03=0;
}
_outputVertices->push_back( _inputVertices->at( i1 ) * _matrix );
_outputVertices->push_back( _inputVertices->at( i2 ) * _matrix );
_outputVertices->push_back( _inputVertices->at( i3 ) * _matrix );
if( _inputColors != NULL )
{
_outputColors->push_back( _inputColors->at( ic1 ) );
_outputColors->push_back( _inputColors->at( ic2 ) );
_outputColors->push_back( _inputColors->at( ic3 ) );
}
else
{
for(unsigned int i=0; i<3; ++i)
_outputColors->push_back( osg::Vec4(1.0,1.0,1.0,1.0) );
}
if( _inputNormals != NULL )
{
_outputNormals->push_back( osg::Matrix::transform3x3( _inputNormals->at( in1 ), _matrix ) );
_outputNormals->push_back( osg::Matrix::transform3x3( _inputNormals->at( in2 ), _matrix ) );
_outputNormals->push_back( osg::Matrix::transform3x3( _inputNormals->at( in3 ), _matrix ) );
}
else
{
for(unsigned int i=0; i<3; ++i)
_outputNormals->push_back( osg::Vec3( 0.0,0.0,1.0 ) );
}
if( _inputTexCoord0 != NULL )
{
_inputTexCoord0->accept( it01, _inputTexCoord0Visitor );
_outputTexCoord0->push_back( _inputTexCoord0Visitor.out );
_inputTexCoord0->accept( it02, _inputTexCoord0Visitor );
_outputTexCoord0->push_back( _inputTexCoord0Visitor.out );
_inputTexCoord0->accept( it03, _inputTexCoord0Visitor );
_outputTexCoord0->push_back( _inputTexCoord0Visitor.out );
}
else
{
for(unsigned int i=0; i<3; ++i)
_outputTexCoord0->push_back( osg::Vec2(0.0,0.0) );
}
for(unsigned int i=0; i<3; ++i)
_outputTexCoord1->push_back( osg::Vec3( _typeID, _lodNumber, _boneIndices.back() ) );
}
void registerBoneByName( const std::string& boneName, int boneIndex )
{
_boneNames[boneName] = float(boneIndex);
}
osg::Matrix _matrix;
osg::Vec3Array* _inputVertices;
osg::Vec4Array* _inputColors;
osg::Vec3Array* _inputNormals;
osg::Array* _inputTexCoord0;
osg::Vec3Array* _outputVertices;
osg::Vec4Array* _outputColors;
osg::Vec3Array* _outputNormals;
osg::Vec2Array* _outputTexCoord0;
osg::Vec3Array* _outputTexCoord1;
float _typeID;
float _lodNumber;
std::vector<float> _boneIndices;
std::map<std::string,float> _boneNames;
GetVec2FromArrayVisitor _inputTexCoord0Visitor;
};
class AggregateGeometryVisitor : public osg::NodeVisitor
{
public:
AggregateGeometryVisitor( ConvertTrianglesOperator* ctOperator );
void init();
// osg::TriangleIndexFunctor uses its template parameter as a base class, so we must use an adapter pattern to hack it
struct ConvertTrianglesBridge
{
inline void setConverter( ConvertTrianglesOperator* cto )
{
_converter = cto;
}
inline void initGeometry( osg::Geometry* outputGeometry )
{
_converter->initGeometry(outputGeometry);
}
inline bool pushNode( osg::Node* node )
{
return _converter->pushNode( node );
}
inline void popNode()
{
_converter->popNode();
}
inline void setGeometryData( const osg::Matrix &matrix, osg::Geometry *inputGeometry, osg::Geometry* outputGeometry, float typeID, float lodNumber )
{
_converter->setGeometryData(matrix,inputGeometry,outputGeometry,typeID, lodNumber);
}
inline void operator() ( unsigned int i1, unsigned int i2, unsigned int i3 )
{
_converter->operator()(i1,i2,i3);
}
osg::ref_ptr<ConvertTrianglesOperator> _converter;
};
// struct returning information about added object ( first vertex, vertex count, primitiveset index )
// used later to create indirect command texture buffers
struct AddObjectResult
{
AddObjectResult( unsigned int f, unsigned int c, unsigned int i )
: first(f), count(c), index(i)
{
}
unsigned int first;
unsigned int count;
unsigned int index;
};
AddObjectResult addObject( osg::Node* object, unsigned int typeID, unsigned int lodNumber );
void apply( osg::Node& node );
void apply( osg::Transform& transform );
void apply( osg::Geode& geode );
inline osg::Geometry* getAggregatedGeometry()
{
return _aggregatedGeometry.get();
}
protected:
osg::ref_ptr<osg::Geometry> _aggregatedGeometry;
osg::TriangleIndexFunctor<ConvertTrianglesBridge> _ctOperator;
std::vector<osg::Matrix> _matrixStack;
unsigned int _currentTypeID;
unsigned int _currentLodNumber;
};
#endif