OpenSceneGraph/include/osgUtil/Statistics
Robert Osfield dd32e6425e Added StatsVisitor to include/osg/Statistics, and usage of it in osgUtil::Optimizer.
Added --optimize <string> option to osgconv
2006-07-13 15:25:22 +00:00

372 lines
12 KiB
C++

/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2005 Robert Osfield
*
* 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 OSGUTIL_STATISTICS
#define OSGUTIL_STATISTICS 1
#include <osg/PrimitiveSet>
#include <osg/Drawable>
#include <osg/NodeVisitor>
#include <osg/Geode>
#include <osg/LOD>
#include <osg/Switch>
#include <osg/Geometry>
#include <osg/Transform>
#include <map>
#include <set>
#include <ostream>
namespace osgUtil {
/**
* Statistics base class. Used to extract primitive information from
* the renderBin(s). Add a case of getStats(osgUtil::Statistics *stat)
* for any new drawable (or drawable derived class) that you generate
* (eg see Geometry.cpp). There are 20 types of drawable counted - actually only
* 14 cases can occur in reality. these represent sets of GL_POINTS, GL_LINES
* GL_LINESTRIPS, LOOPS, TRIANGLES, TRI-fans, tristrips, quads, quadstrips etc
* The number of triangles rendered is inferred:
* each triangle = 1 triangle (number of vertices/3)
* each quad = 2 triangles (nverts/2)
* each trifan or tristrip = (length-2) triangles and so on.
*/
class Statistics : public osg::PrimitiveFunctor
{
public:
typedef std::pair<unsigned int,unsigned int> PrimitivePair;
typedef std::map<GLenum,PrimitivePair> PrimitiveValueMap;
typedef std::map<GLenum, unsigned int> PrimitiveCountMap;
Statistics()
{
reset();
};
enum statsType
{
STAT_NONE, // default
STAT_FRAMERATE,
STAT_GRAPHS,
STAT_PRIMS,
STAT_PRIMSPERVIEW,
STAT_PRIMSPERBIN,
STAT_DC,
STAT_RESTART // hint to restart the stats
};
void reset()
{
numDrawables=0;
nummat=0;
depth=0;
stattype=STAT_NONE;
nlights=0;
nbins=0;
nimpostor=0;
_vertexCount=0;
_primitiveCount.clear();
_currentPrimitiveFunctorMode=0;
_primitives_count.clear();
_total_primitives_count=0;
_number_of_vertexes=0;
}
void setType(statsType t) {stattype=t;}
virtual void setVertexArray(unsigned int count,const osg::Vec3*) { _vertexCount += count; }
virtual void setVertexArray(unsigned int count,const osg::Vec2*) { _vertexCount += count; }
virtual void setVertexArray(unsigned int count,const osg::Vec4*) { _vertexCount += count; }
virtual void drawArrays(GLenum mode,GLint,GLsizei count)
{
PrimitivePair& prim = _primitiveCount[mode];
++prim.first;
prim.second+=count;
_primitives_count[mode] += _calculate_primitives_number_by_mode(mode, count);
}
virtual void drawElements(GLenum mode,GLsizei count,const GLubyte*)
{
PrimitivePair& prim = _primitiveCount[mode];
++prim.first;
prim.second+=count;
_primitives_count[mode] += _calculate_primitives_number_by_mode(mode, count);
}
virtual void drawElements(GLenum mode,GLsizei count,const GLushort*)
{
PrimitivePair& prim = _primitiveCount[mode];
++prim.first;
prim.second+=count;
_primitives_count[mode] += _calculate_primitives_number_by_mode(mode, count);
}
virtual void drawElements(GLenum mode,GLsizei count,const GLuint*)
{
PrimitivePair& prim = _primitiveCount[mode];
++prim.first;
prim.second+=count;
_primitives_count[mode] += _calculate_primitives_number_by_mode(mode, count);
}
virtual void begin(GLenum mode)
{
_currentPrimitiveFunctorMode=mode;
PrimitivePair& prim = _primitiveCount[mode];
++prim.first;
_number_of_vertexes = 0;
}
inline void vertex()
{
PrimitivePair& prim = _primitiveCount[_currentPrimitiveFunctorMode];
++prim.second;
_number_of_vertexes++;
}
virtual void vertex(float,float,float) { vertex(); }
virtual void vertex(const osg::Vec3&) { vertex(); }
virtual void vertex(const osg::Vec2&) { vertex(); }
virtual void vertex(const osg::Vec4&) { vertex(); }
virtual void vertex(float,float) { vertex(); }
virtual void vertex(float,float,float,float) { vertex(); }
virtual void end()
{
_primitives_count[_currentPrimitiveFunctorMode] +=
_calculate_primitives_number_by_mode(_currentPrimitiveFunctorMode, _number_of_vertexes);
_vertexCount += _number_of_vertexes;
}
void addDrawable() { numDrawables++;}
void addMatrix() { nummat++;}
void addLight(int np) { nlights+=np;}
void addImpostor(int np) { nimpostor+= np; }
inline int getBins() { return nbins;}
void setDepth(int d) { depth=d; }
void addBins(int np) { nbins+= np; }
void setBinNo(int n) { _binNo=n;}
public:
PrimitiveCountMap::iterator GetPrimitivesBegin() { return _primitives_count.begin(); }
PrimitiveCountMap::iterator GetPrimitivesEnd() { return _primitives_count.end(); }
int numDrawables, nummat, nbins;
int nlights;
int depth; // depth into bins - eg 1.1,1.2,1.3 etc
int _binNo;
statsType stattype;
int nimpostor; // number of impostors rendered
unsigned int _vertexCount;
PrimitiveValueMap _primitiveCount;
GLenum _currentPrimitiveFunctorMode;
private:
PrimitiveCountMap _primitives_count;
unsigned int _total_primitives_count;
unsigned int _number_of_vertexes;
inline unsigned int _calculate_primitives_number_by_mode(GLenum, GLsizei);
};
inline unsigned int Statistics::_calculate_primitives_number_by_mode(GLenum mode, GLsizei count)
{
switch (mode)
{
case GL_POINTS:
case GL_LINE_LOOP:
case GL_POLYGON: return count;
case GL_LINES: return count / 2;
case GL_LINE_STRIP: return count - 1;
case GL_TRIANGLES: return count / 3;
case GL_TRIANGLE_STRIP:
case GL_TRIANGLE_FAN: return count - 2;
case GL_QUADS: return count / 4;
case GL_QUAD_STRIP: return count / 2 - 1;
default: return 0;
}
}
/** StatsVisitor for collecting statistics about scene graph.*/
class StatsVisitor : public osg::NodeVisitor
{
public:
typedef std::set<osg::Node*> NodeSet;
typedef std::set<osg::Drawable*> DrawableSet;
StatsVisitor():
osg::NodeVisitor(osg::NodeVisitor::TRAVERSE_ALL_CHILDREN),
_numInstancedGroup(0),
_numInstancedSwitch(0),
_numInstancedLOD(0),
_numInstancedTransform(0),
_numInstancedGeode(0),
_numInstancedDrawable(0),
_numInstancedGeometry(0) {}
void reset()
{
_numInstancedGroup = 0;
_numInstancedSwitch = 0;
_numInstancedLOD = 0;
_numInstancedTransform = 0;
_numInstancedGeode = 0;
_numInstancedDrawable = 0;
_numInstancedGeometry = 0;
_groupSet.clear();
_transformSet.clear();
_lodSet.clear();
_switchSet.clear();
_geodeSet.clear();
_drawableSet.clear();
_geometrySet.clear();
_uniqueStats.reset();
_instancedStats.reset();
}
void apply(osg::Group& node)
{
++_numInstancedGroup;
_groupSet.insert(&node);
traverse(node);
}
void apply(osg::Transform& node)
{
++_numInstancedTransform;
_transformSet.insert(&node);
traverse(node);
}
void apply(osg::LOD& node)
{
++_numInstancedLOD;
_lodSet.insert(&node);
traverse(node);
}
void apply(osg::Switch& node)
{
++_numInstancedSwitch;
_switchSet.insert(&node);
traverse(node);
}
void apply(osg::Geode& node)
{
++_numInstancedGeode;
_geodeSet.insert(&node);
for(unsigned int i=0; i<node.getNumDrawables();++i)
{
apply(*node.getDrawable(i));
}
traverse(node);
}
void apply(osg::Drawable& drawable)
{
++_numInstancedDrawable;
drawable.accept(_instancedStats);
_drawableSet.insert(&drawable);
osg::Geometry* geometry = dynamic_cast<osg::Geometry*>(&drawable);
if (geometry)
{
++_numInstancedGeometry;
_geometrySet.insert(geometry);
}
}
void totalUpStats()
{
_uniqueStats.reset();
for(DrawableSet::iterator itr = _drawableSet.begin();
itr != _drawableSet.end();
++itr)
{
(*itr)->accept(_uniqueStats);
}
}
void print(std::ostream& out)
{
unsigned int unique_primitives = 0;
osgUtil::Statistics::PrimitiveCountMap::iterator pcmitr;
for(pcmitr = _uniqueStats.GetPrimitivesBegin();
pcmitr != _uniqueStats.GetPrimitivesEnd();
++pcmitr)
{
unique_primitives += pcmitr->second;
}
unsigned int instanced_primitives = 0;
for(pcmitr = _instancedStats.GetPrimitivesBegin();
pcmitr != _instancedStats.GetPrimitivesEnd();
++pcmitr)
{
instanced_primitives += pcmitr->second;
}
out<<"Object Type\t#Unique\t#Instanced"<<std::endl;
out<<"Group \t"<<_groupSet.size()<<"\t"<<_numInstancedGroup<<std::endl;
out<<"Transform \t"<<_transformSet.size()<<"\t"<<_numInstancedTransform<<std::endl;
out<<"LOD \t"<<_lodSet.size()<<"\t"<<_numInstancedLOD<<std::endl;
out<<"Switch \t"<<_switchSet.size()<<"\t"<<_numInstancedSwitch<<std::endl;
out<<"Geode \t"<<_geodeSet.size()<<"\t"<<_numInstancedGeode<<std::endl;
out<<"Drawable \t"<<_drawableSet.size()<<"\t"<<_numInstancedDrawable<<std::endl;
out<<"Geometry \t"<<_geometrySet.size()<<"\t"<<_numInstancedGeometry<<std::endl;
out<<"Vertices \t"<<_uniqueStats._vertexCount<<"\t"<<_instancedStats._vertexCount<<std::endl;
out<<"Primitives \t"<<unique_primitives<<"\t"<<instanced_primitives<<std::endl;
}
unsigned int _numInstancedGroup;
unsigned int _numInstancedSwitch;
unsigned int _numInstancedLOD;
unsigned int _numInstancedTransform;
unsigned int _numInstancedGeode;
unsigned int _numInstancedDrawable;
unsigned int _numInstancedGeometry;
NodeSet _groupSet;
NodeSet _transformSet;
NodeSet _lodSet;
NodeSet _switchSet;
NodeSet _geodeSet;
DrawableSet _drawableSet;
DrawableSet _geometrySet;
osgUtil::Statistics _uniqueStats;
osgUtil::Statistics _instancedStats;
};
}
#endif