OpenSceneGraph/applications/osgfilecache/osgfilecache.cpp

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/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2006 Robert Osfield
*
* This application is open source and may be redistributed and/or modified
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* freely and without restriction, both in commercial and non commercial applications,
* as long as this copyright notice is maintained.
*
* This application 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.
*/
#include <osg/Timer>
#include <osg/ArgumentParser>
#include <osg/ApplicationUsage>
#include <osg/CoordinateSystemNode>
#include <osg/Geometry>
#include <osg/PagedLOD>
#include <osg/io_utils>
#include <osgTerrain/TerrainTile>
#include <osgDB/Archive>
#include <osgDB/ReadFile>
#include <osgDB/WriteFile>
#include <osgDB/FileUtils>
#include <osgDB/FileCache>
#include <osgDB/FileNameUtils>
#include <iostream>
#include <algorithm>
#include <signal.h>
#include <stdlib.h>
static bool s_ExitApplication = false;
struct Extents
{
Extents():
_maxLevel(0),
_min(DBL_MAX,DBL_MAX),
_max(-DBL_MAX,-DBL_MAX) {}
Extents(unsigned int maxLevel, double minX, double minY, double maxX, double maxY):
_maxLevel(maxLevel),
_min(minX, minY),
_max(maxX, maxY) {}
Extents(const Extents& extents):
_maxLevel(extents._maxLevel),
_min(extents._min),
_max(extents._max) {}
Extents& operator = (const Extents& rhs)
{
if (&rhs == this) return *this;
_maxLevel = rhs._maxLevel;
_min = rhs._min;
_max = rhs._max;
return *this;
}
bool intersects(unsigned level, osg::Vec2d& in_min, osg::Vec2d& in_max)
{
osg::notify(osg::INFO)<<"intersects("<<level<<", min="<<in_min<<" max="<<in_max<<")"<<std::endl;
osg::notify(osg::INFO)<<" _maxLevel="<<_maxLevel<<", _min="<<_min<<" _max="<<_max<<std::endl;
if (level>_maxLevel) return false;
osg::Vec2d union_min, union_max;
// handle mins
if (_min.x()!=DBL_MAX && in_min.x()!=DBL_MAX)
{
// both _min.x() and in_min.x() are defined so use max of two
union_min.x() = _min.x()>in_min.x() ? _min.x() : in_min.x();
}
else
{
// one or both _min.x() and in_min.x() aren't defined so use min of two
union_min.x() = _min.x()<in_min.x() ? _min.x() : in_min.x();
}
if (_min.y()!=DBL_MAX && in_min.y()!=DBL_MAX)
{
// both _min.y() and in_min.y() are defined so use max of two
union_min.y() = _min.y()>in_min.y() ? _min.y() : in_min.y();
}
else
{
// one or both _min.y() and in_min.y() aren't defined so use min of two
union_min.y() = _min.y()<in_min.y() ? _min.y() : in_min.y();
}
// handle maxs
if (_max.x()!=-DBL_MAX && in_max.x()!=-DBL_MAX)
{
// both _max.x() and in_max.x() are defined so use max of two
union_max.x() = _max.x()<in_max.x() ? _max.x() : in_max.x();
}
else
{
// one or both _max.x() and in_max.x() aren't defined so use max of two
union_max.x() = _max.x()>in_max.x() ? _max.x() : in_max.x();
}
if (_max.y()!=-DBL_MAX && in_max.y()!=-DBL_MAX)
{
// both _max.y() and in_max.y() are defined so use max of two
union_max.y() = _max.y()<in_max.y() ? _max.y() : in_max.y();
}
else
{
// one or both _max.y() and in_max.y() aren't defined so use max of two
union_max.y() = _max.y()>in_max.y() ? _max.y() : in_max.y();
}
bool result = union_min.x()<union_max.x() && union_min.y()<union_max.y() ;
osg::notify(osg::INFO)<<" union_min="<<union_min<<" union_max="<<union_max<<" result = "<<result<<std::endl;
return result;
}
unsigned int _maxLevel;
osg::Vec2d _min;
osg::Vec2d _max;
};
class LoadDataVisitor : public osg::NodeVisitor
{
public:
LoadDataVisitor():
osg::NodeVisitor(osg::NodeVisitor::TRAVERSE_ALL_CHILDREN),
_currentLevel(0) {}
void setFileCache(osgDB::FileCache* fileCache) { _fileCache = fileCache; }
void addExtents(unsigned int maxLevel, double minX, double minY, double maxX, double maxY)
{
_extentsList.push_back(Extents(maxLevel, minX, minY, maxX, maxY));
}
void addExtents(unsigned int maxLevel)
{
_extentsList.push_back(Extents(maxLevel, DBL_MAX, DBL_MAX, -DBL_MAX, -DBL_MAX));
}
void apply(osg::CoordinateSystemNode& cs)
{
_csnStack.push_back(&cs);
if (!s_ExitApplication) traverse(cs);
_csnStack.pop_back();
}
void apply(osg::Group& group)
{
if (s_ExitApplication) return;
osgTerrain::TerrainTile* terrainTile = dynamic_cast<osgTerrain::TerrainTile*>(&group);
osgTerrain::Locator* locator = terrainTile ? terrainTile->getLocator() : 0;
if (locator)
{
osg::Vec3d l00(0.0,0.0,0.0);
osg::Vec3d l10(1.0,0.0,0.0);
osg::Vec3d l11(1.0,1.0,0.0);
osg::Vec3d l01(0.0,1.0,0.0);
osg::Vec3d w00, w10, w11, w01;
locator->convertLocalToModel(l00, w00);
locator->convertLocalToModel(l10, w10);
locator->convertLocalToModel(l11, w11);
locator->convertLocalToModel(l01, w01);
if (locator->getEllipsoidModel() &&
locator->getCoordinateSystemType()==osgTerrain::Locator::GEOCENTRIC)
{
convertXYZToLatLongHeight(locator->getEllipsoidModel(), w00);
convertXYZToLatLongHeight(locator->getEllipsoidModel(), w10);
convertXYZToLatLongHeight(locator->getEllipsoidModel(), w11);
convertXYZToLatLongHeight(locator->getEllipsoidModel(), w01);
}
updateBound(w00);
updateBound(w10);
updateBound(w11);
updateBound(w01);
return;
}
traverse(group);
}
void apply(osg::Transform& transform)
{
osg::Matrix matrix;
if (!_matrixStack.empty()) matrix = _matrixStack.back();
transform.computeLocalToWorldMatrix(matrix,this);
pushMatrix(matrix);
traverse(transform);
popMatrix();
}
void apply(osg::PagedLOD& plod)
{
if (s_ExitApplication) return;
++_currentLevel;
initBound();
// first compute the bounds of this subgraph
for(unsigned int i=0; i<plod.getNumFileNames(); ++i)
{
if (plod.getFileName(i).empty())
{
traverse(plod);
}
}
if (intersects())
{
for(unsigned int i=0; i<plod.getNumFileNames(); ++i)
{
osg::notify(osg::INFO)<<" filename["<<i<<"] "<<plod.getFileName(i)<<std::endl;
if (!plod.getFileName(i).empty())
{
std::string filename;
if (!plod.getDatabasePath().empty())
{
filename = plod.getDatabasePath() + plod.getFileName(i);
}
else
{
filename = plod.getFileName(i);
}
osg::ref_ptr<osg::Node> node = readNodeFileAndWriteToCache(filename);
if (!s_ExitApplication && node.valid()) node->accept(*this);
}
}
}
--_currentLevel;
}
void apply(osg::Geode& geode)
{
for(unsigned int i=0; i<geode.getNumDrawables(); ++i)
{
osg::Geometry* geom = geode.getDrawable(i)->asGeometry();
if (geom)
{
osg::Vec3Array* vertices = dynamic_cast<osg::Vec3Array*>(geom->getVertexArray());
if (vertices) updateBound(*vertices);
}
}
}
osg::Node* readNodeFileAndWriteToCache(const std::string& filename)
{
osg::Node* node = 0;
if (_fileCache.valid() )
{
if (_fileCache->existsInCache(filename))
{
osg::notify(osg::NOTICE)<<"reading from FileCache: "<<filename<<std::endl;
node = _fileCache->readNode(filename, osgDB::Registry::instance()->getOptions()).takeNode();
}
else
{
osg::notify(osg::NOTICE)<<"reading : "<<filename<<std::endl;
node = osgDB::readNodeFile(filename);
if (node)
{
osg::notify(osg::NOTICE)<<"write to FileCache : "<<filename<<std::endl;
_fileCache->writeNode(*node, filename, osgDB::Registry::instance()->getOptions());
}
}
}
else
{
osg::notify(osg::NOTICE)<<"reading : "<<filename<<std::endl;
node = osgDB::readNodeFile(filename);
}
return node;
}
protected:
inline void pushMatrix(osg::Matrix& matrix) { _matrixStack.push_back(matrix); }
inline void popMatrix() { _matrixStack.pop_back(); }
void convertXYZToLatLongHeight(osg::EllipsoidModel* em, osg::Vec3d& v)
{
em->convertXYZToLatLongHeight(v.x(), v.y(), v.z(),
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v.y(), v.x(), v.z());
v.x() = osg::RadiansToDegrees(v.x());
v.y() = osg::RadiansToDegrees(v.y());
}
void initBound()
{
_min.set(DBL_MAX, DBL_MAX);
_max.set(-DBL_MAX, -DBL_MAX);
}
void updateBound(osg::Vec3d& v)
{
if (v.x() < _min.x()) _min.x() = v.x();
if (v.y() < _min.y()) _min.y() = v.y();
if (v.x() > _max.x()) _max.x() = v.x();
if (v.y() > _max.y()) _max.y() = v.y();
}
void updateBound(osg::Vec3Array& vertices)
{
// set up matrix
osg::Matrix matrix;
if (!_matrixStack.empty()) matrix = _matrixStack.back();
// set up ellipsoid model
osg::EllipsoidModel* em = !_csnStack.empty() ? _csnStack.back()->getEllipsoidModel() : 0;
for(osg::Vec3Array::iterator itr = vertices.begin();
itr != vertices.end();
++itr)
{
osg::Vec3d v = osg::Vec3d(*itr) * matrix;
if (em) convertXYZToLatLongHeight(em, v);
updateBound(v);
}
}
bool intersects()
{
osg::notify(osg::INFO)<<"intersects() _min = "<<_min<<" _max = "<<_max<<std::endl;
for(ExtentsList::iterator itr = _extentsList.begin();
itr != _extentsList.end();
++itr)
{
if (itr->intersects(_currentLevel, _min, _max)) return true;
}
return false;
}
typedef std::vector<Extents> ExtentsList;
typedef std::vector<osg::Matrix> MatrixStack;
typedef std::vector<osg::CoordinateSystemNode*> CSNStack;
osg::ref_ptr<osgDB::FileCache> _fileCache;
ExtentsList _extentsList;
unsigned int _currentLevel;
MatrixStack _matrixStack;
CSNStack _csnStack;
osg::Vec2d _min;
osg::Vec2d _max;
};
static void signalHandler(int sig)
{
printf("\nCaught signal %d, requesting exit...\n\n",sig);
s_ExitApplication = true;
}
int main( int argc, char **argv )
{
#ifndef _WIN32
signal(SIGHUP, signalHandler);
signal(SIGQUIT, signalHandler);
signal(SIGKILL, signalHandler);
signal(SIGUSR1, signalHandler);
signal(SIGUSR2, signalHandler);
#endif
signal(SIGABRT, signalHandler);
signal(SIGINT, signalHandler);
signal(SIGTERM, signalHandler);
// use an ArgumentParser object to manage the program arguments.
osg::ArgumentParser arguments(&argc,argv);
// set up the usage document, in case we need to print out how to use this program.
arguments.getApplicationUsage()->setApplicationName(arguments.getApplicationName());
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arguments.getApplicationUsage()->setDescription(arguments.getApplicationName()+" is an application for collecting a set of separate files into a single archive file that can be later read in OSG applications..");
arguments.getApplicationUsage()->setCommandLineUsage(arguments.getApplicationName()+" [options] filename ...");
arguments.getApplicationUsage()->addCommandLineOption("-l level","Read down to level across the whole database.");
arguments.getApplicationUsage()->addCommandLineOption("-e level minX minY maxX maxY","Read down to <level> across the extents minX, minY to maxY, maxY. Note, for geocentric datase X and Y are longitude and latitude respectively.");
arguments.getApplicationUsage()->addCommandLineOption("-c directory","Shorthand for --file-cache directory.");
arguments.getApplicationUsage()->addCommandLineOption("--file-cache directory","Set directory as to place cache download files.");
// if user request help write it out to cout.
if (arguments.read("-h") || arguments.read("--help"))
{
arguments.getApplicationUsage()->write(std::cout);
return 1;
}
LoadDataVisitor ldv;
std::string fileCachePath;
while(arguments.read("--file-cache",fileCachePath) || arguments.read("-c",fileCachePath)) {}
if (fileCachePath.empty())
{
const char* env_fileCachePath = getenv("OSG_FILE_CACHE");
if (env_fileCachePath)
{
fileCachePath = env_fileCachePath;
}
}
if (fileCachePath.empty())
{
std::cout<<"No path to the file cache defined, please set OSG_FILE_PATH env var, or use --file-cache <directory> to set a suitable directory for the file cache."<<std::endl;
return 1;
}
ldv.setFileCache(new osgDB::FileCache(fileCachePath));
unsigned int maxLevels = 0;
while(arguments.read("-l",maxLevels))
{
ldv.addExtents(maxLevels);
}
double minX, maxX, minY, maxY;
while(arguments.read("-e",maxLevels, minX, minY, maxX, maxY))
{
ldv.addExtents(maxLevels, minX, minY, maxX, maxY);
}
std::string filename;
for(int i=1; i<arguments.argc(); ++i)
{
if (!arguments.isOption(i))
{
filename = arguments[i];
break;
}
}
if (filename.empty())
{
std::cout<<"No file to load specified."<<std::endl;
return 1;
}
osg::ref_ptr<osg::Node> loadedModel = ldv.readNodeFileAndWriteToCache(filename);
if (!loadedModel)
{
std::cout<<"No data loaded, please specify a database to load"<<std::endl;
return 1;
}
loadedModel->accept(ldv);
if (s_ExitApplication)
{
std::cout<<"osgfilecache cleanly exited in response to signal."<<std::endl;
}
return 0;
}