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OpenSceneGraph/src/osgViewer/ViewerBase.cpp
Robert Osfield 06abd75198 From Mathias Froehlich, "We are currently getting issues with locale settings and some osg plugins. 
Therefore I have changed all the occurances of atof by asciiToFloat or
asciiToDouble.

I believe that it is safe to do so at least for all the plugins.
Included here are also asciiToFloat conversion of environment variables. One
might argue that these should be locale dependent. But IMO these should be
set and interpreted by osg independent of the current locale.
"
2009-06-25 16:07:49 +00:00

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/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2006 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.
*/
#include <stdlib.h>
#include <string.h>
#include <osgViewer/ViewerBase>
#include <osgViewer/View>
#include <osgViewer/Renderer>
#include <osg/io_utils>
#include <osg/TextureCubeMap>
#include <osg/TextureRectangle>
#include <osg/TexMat>
#include <osg/DeleteHandler>
#include <osgUtil/Optimizer>
#include <osgUtil/IntersectionVisitor>
#include <osgUtil/Statistics>
static osg::ApplicationUsageProxy ViewerBase_e0(osg::ApplicationUsage::ENVIRONMENTAL_VARIABLE,"OSG_CONFIG_FILE <filename>","Specify a viewer configuration file to load by default.");
static osg::ApplicationUsageProxy ViewerBase_e1(osg::ApplicationUsage::ENVIRONMENTAL_VARIABLE,"OSG_THREADING <value>","Set the threading model using by Viewer, <value> can be SingleThreaded, CullDrawThreadPerContext, DrawThreadPerContext or CullThreadPerCameraDrawThreadPerContext.");
static osg::ApplicationUsageProxy ViewerBase_e2(osg::ApplicationUsage::ENVIRONMENTAL_VARIABLE,"OSG_SCREEN <value>","Set the default screen that windows should open up on.");
static osg::ApplicationUsageProxy ViewerBase_e3(osg::ApplicationUsage::ENVIRONMENTAL_VARIABLE,"OSG_WINDOW x y width height","Set the default window dimensions that windows should open up on.");
static osg::ApplicationUsageProxy ViewerBase_e4(osg::ApplicationUsage::ENVIRONMENTAL_VARIABLE,"OSG_RUN_FRAME_SCHEME","Frame rate manage scheme that viewer run should use, ON_DEMAND or CONTINUOUS (default).");
static osg::ApplicationUsageProxy ViewerBase_e5(osg::ApplicationUsage::ENVIRONMENTAL_VARIABLE,"OSG_RUN_MAX_FRAME_RATE","Set the maximum number of frame as second that viewer run. 0.0 is default and disables an frame rate capping.");
using namespace osgViewer;
ViewerBase::ViewerBase():
osg::Object(true)
{
viewerBaseInit();
}
ViewerBase::ViewerBase(const ViewerBase& base):
osg::Object(true)
{
viewerBaseInit();
}
void ViewerBase::viewerBaseInit()
{
_firstFrame = true;
_done = false;
_keyEventSetsDone = osgGA::GUIEventAdapter::KEY_Escape;
_quitEventSetsDone = true;
_releaseContextAtEndOfFrameHint = true;
_threadingModel = AutomaticSelection;
_threadsRunning = false;
_endBarrierPosition = AfterSwapBuffers;
_requestRedraw = true;
_requestContinousUpdate = false;
_runFrameScheme = CONTINUOUS;
_runMaxFrameRate = 0.0f;
const char* str = getenv("OSG_RUN_FRAME_SCHEME");
if (str)
{
if (strcmp(str, "ON_DEMAND")==0) _runFrameScheme = ON_DEMAND;
else if (strcmp(str, "CONTINUOUS")==0) _runFrameScheme = CONTINUOUS;
}
str = getenv("OSG_RUN_MAX_FRAME_RATE");
if (str)
{
_runMaxFrameRate = osg::asciiToDouble(str);
}
}
void ViewerBase::setThreadingModel(ThreadingModel threadingModel)
{
if (_threadingModel == threadingModel) return;
if (_threadsRunning) stopThreading();
_threadingModel = threadingModel;
if (isRealized() && _threadingModel!=SingleThreaded) startThreading();
}
ViewerBase::ThreadingModel ViewerBase::suggestBestThreadingModel()
{
const char* str = getenv("OSG_THREADING");
if (str)
{
if (strcmp(str,"SingleThreaded")==0) return SingleThreaded;
else if (strcmp(str,"CullDrawThreadPerContext")==0) return CullDrawThreadPerContext;
else if (strcmp(str,"DrawThreadPerContext")==0) return DrawThreadPerContext;
else if (strcmp(str,"CullThreadPerCameraDrawThreadPerContext")==0) return CullThreadPerCameraDrawThreadPerContext;
}
Contexts contexts;
getContexts(contexts);
if (contexts.empty()) return SingleThreaded;
#if 0
// temporary hack to disable multi-threading under Windows till we find good solutions for
// crashes that users are seeing.
return SingleThreaded;
#endif
Cameras cameras;
getCameras(cameras);
if (cameras.empty()) return SingleThreaded;
int numProcessors = OpenThreads::GetNumberOfProcessors();
if (contexts.size()==1)
{
if (numProcessors==1) return SingleThreaded;
else return DrawThreadPerContext;
}
#if 1
if (numProcessors >= static_cast<int>(cameras.size()+contexts.size()))
{
return CullThreadPerCameraDrawThreadPerContext;
}
#endif
return DrawThreadPerContext;
}
void ViewerBase::setUpThreading()
{
Contexts contexts;
getContexts(contexts);
if (_threadingModel==SingleThreaded)
{
if (_threadsRunning) stopThreading();
else
{
// we'll set processor affinity here to help single threaded apps
// with multiple processor cores, and using the database pager.
int numProcessors = OpenThreads::GetNumberOfProcessors();
bool affinity = numProcessors>1;
if (affinity)
{
OpenThreads::SetProcessorAffinityOfCurrentThread(0);
Scenes scenes;
getScenes(scenes);
for(Scenes::iterator itr = scenes.begin();
itr != scenes.end();
++itr)
{
Scene* scene = *itr;
osgDB::DatabasePager* dp = scene->getDatabasePager();
if (dp)
{
for(unsigned int i=0; i<dp->getNumDatabaseThreads(); ++i)
{
osgDB::DatabasePager::DatabaseThread* dt = dp->getDatabaseThread(i);
dt->setProcessorAffinity(1);
}
}
}
}
}
}
else
{
if (!_threadsRunning) startThreading();
}
}
void ViewerBase::setEndBarrierPosition(BarrierPosition bp)
{
if (_endBarrierPosition == bp) return;
if (_threadsRunning) stopThreading();
_endBarrierPosition = bp;
if (_threadingModel!=SingleThreaded) startThreading();
}
void ViewerBase::stopThreading()
{
if (!_threadsRunning) return;
osg::notify(osg::INFO)<<"ViewerBase::stopThreading() - stopping threading"<<std::endl;
Contexts contexts;
getContexts(contexts);
Cameras cameras;
getCameras(cameras);
Contexts::iterator gcitr;
Cameras::iterator citr;
for(Cameras::iterator camItr = cameras.begin();
camItr != cameras.end();
++camItr)
{
osg::Camera* camera = *camItr;
Renderer* renderer = dynamic_cast<Renderer*>(camera->getRenderer());
if (renderer) renderer->release();
}
// delete all the graphics threads.
for(gcitr = contexts.begin();
gcitr != contexts.end();
++gcitr)
{
(*gcitr)->setGraphicsThread(0);
}
// delete all the camera threads.
for(citr = cameras.begin();
citr != cameras.end();
++citr)
{
(*citr)->setCameraThread(0);
}
for(Cameras::iterator camItr = cameras.begin();
camItr != cameras.end();
++camItr)
{
osg::Camera* camera = *camItr;
Renderer* renderer = dynamic_cast<Renderer*>(camera->getRenderer());
if (renderer)
{
renderer->setGraphicsThreadDoesCull( true );
renderer->setDone(false);
}
}
_threadsRunning = false;
_startRenderingBarrier = 0;
_endRenderingDispatchBarrier = 0;
_endDynamicDrawBlock = 0;
osg::notify(osg::INFO)<<"Viewer::stopThreading() - stopped threading."<<std::endl;
}
void ViewerBase::startThreading()
{
if (_threadsRunning) return;
osg::notify(osg::INFO)<<"Viewer::startThreading() - starting threading"<<std::endl;
// release any context held by the main thread.
releaseContext();
_threadingModel = _threadingModel==AutomaticSelection ? suggestBestThreadingModel() : _threadingModel;
Contexts contexts;
getContexts(contexts);
osg::notify(osg::INFO)<<"Viewer::startThreading() - contexts.size()="<<contexts.size()<<std::endl;
Cameras cameras;
getCameras(cameras);
unsigned int numThreadsOnStartBarrier = 0;
unsigned int numThreadsOnEndBarrier = 0;
switch(_threadingModel)
{
case(SingleThreaded):
numThreadsOnStartBarrier = 1;
numThreadsOnEndBarrier = 1;
return;
case(CullDrawThreadPerContext):
numThreadsOnStartBarrier = contexts.size()+1;
numThreadsOnEndBarrier = contexts.size()+1;
break;
case(DrawThreadPerContext):
numThreadsOnStartBarrier = 1;
numThreadsOnEndBarrier = 1;
break;
case(CullThreadPerCameraDrawThreadPerContext):
numThreadsOnStartBarrier = cameras.size()+1;
numThreadsOnEndBarrier = 1;
break;
default:
osg::notify(osg::NOTICE)<<"Error: Threading model not selected"<<std::endl;
return;
}
// using multi-threading so make sure that new objects are allocated with thread safe ref/unref
osg::Referenced::setThreadSafeReferenceCounting(true);
Scenes scenes;
getScenes(scenes);
for(Scenes::iterator scitr = scenes.begin();
scitr != scenes.end();
++scitr)
{
if ((*scitr)->getSceneData())
{
osg::notify(osg::INFO)<<"Making scene thread safe"<<std::endl;
// make sure that existing scene graph objects are allocated with thread safe ref/unref
(*scitr)->getSceneData()->setThreadSafeRefUnref(true);
// update the scene graph so that it has enough GL object buffer memory for the graphics contexts that will be using it.
(*scitr)->getSceneData()->resizeGLObjectBuffers(osg::DisplaySettings::instance()->getMaxNumberOfGraphicsContexts());
}
}
int numProcessors = OpenThreads::GetNumberOfProcessors();
bool affinity = numProcessors>1;
Contexts::iterator citr;
unsigned int numViewerDoubleBufferedRenderingOperation = 0;
bool graphicsThreadsDoesCull = _threadingModel == CullDrawThreadPerContext || _threadingModel==SingleThreaded;
for(Cameras::iterator camItr = cameras.begin();
camItr != cameras.end();
++camItr)
{
osg::Camera* camera = *camItr;
Renderer* renderer = dynamic_cast<Renderer*>(camera->getRenderer());
if (renderer)
{
renderer->setGraphicsThreadDoesCull(graphicsThreadsDoesCull);
renderer->setDone(false);
++numViewerDoubleBufferedRenderingOperation;
}
}
if (_threadingModel==CullDrawThreadPerContext)
{
_startRenderingBarrier = 0;
_endRenderingDispatchBarrier = 0;
_endDynamicDrawBlock = 0;
}
else if (_threadingModel==DrawThreadPerContext ||
_threadingModel==CullThreadPerCameraDrawThreadPerContext)
{
_startRenderingBarrier = 0;
_endRenderingDispatchBarrier = 0;
_endDynamicDrawBlock = new osg::EndOfDynamicDrawBlock(numViewerDoubleBufferedRenderingOperation);
#ifndef OSGUTIL_RENDERBACKEND_USE_REF_PTR
if (!osg::Referenced::getDeleteHandler()) osg::Referenced::setDeleteHandler(new osg::DeleteHandler(2));
else osg::Referenced::getDeleteHandler()->setNumFramesToRetainObjects(2);
#endif
}
if (numThreadsOnStartBarrier>1)
{
_startRenderingBarrier = new osg::BarrierOperation(numThreadsOnStartBarrier, osg::BarrierOperation::NO_OPERATION);
}
if (numThreadsOnEndBarrier>1)
{
_endRenderingDispatchBarrier = new osg::BarrierOperation(numThreadsOnEndBarrier, osg::BarrierOperation::NO_OPERATION);
}
osg::ref_ptr<osg::BarrierOperation> swapReadyBarrier = contexts.empty() ? 0 : new osg::BarrierOperation(contexts.size(), osg::BarrierOperation::NO_OPERATION);
osg::ref_ptr<osg::SwapBuffersOperation> swapOp = new osg::SwapBuffersOperation();
typedef std::map<OpenThreads::Thread*, int> ThreadAffinityMap;
ThreadAffinityMap threadAffinityMap;
unsigned int processNum = 1;
for(citr = contexts.begin();
citr != contexts.end();
++citr, ++processNum)
{
osg::GraphicsContext* gc = (*citr);
if (!gc->isRealized())
{
osg::notify(osg::INFO)<<"ViewerBase::startThreading() : Realizng window "<<gc<<std::endl;
gc->realize();
}
gc->getState()->setDynamicObjectRenderingCompletedCallback(_endDynamicDrawBlock.get());
// create the a graphics thread for this context
gc->createGraphicsThread();
if (affinity) gc->getGraphicsThread()->setProcessorAffinity(processNum % numProcessors);
threadAffinityMap[gc->getGraphicsThread()] = processNum % numProcessors;
// add the startRenderingBarrier
if (_threadingModel==CullDrawThreadPerContext && _startRenderingBarrier.valid()) gc->getGraphicsThread()->add(_startRenderingBarrier.get());
// add the rendering operation itself.
gc->getGraphicsThread()->add(new osg::RunOperations());
if (_threadingModel==CullDrawThreadPerContext && _endBarrierPosition==BeforeSwapBuffers && _endRenderingDispatchBarrier.valid())
{
// add the endRenderingDispatchBarrier
gc->getGraphicsThread()->add(_endRenderingDispatchBarrier.get());
}
if (swapReadyBarrier.valid()) gc->getGraphicsThread()->add(swapReadyBarrier.get());
// add the swap buffers
gc->getGraphicsThread()->add(swapOp.get());
if (_threadingModel==CullDrawThreadPerContext && _endBarrierPosition==AfterSwapBuffers && _endRenderingDispatchBarrier.valid())
{
// add the endRenderingDispatchBarrier
gc->getGraphicsThread()->add(_endRenderingDispatchBarrier.get());
}
}
if (_threadingModel==CullThreadPerCameraDrawThreadPerContext && numThreadsOnStartBarrier>1)
{
Cameras::iterator camItr;
for(camItr = cameras.begin();
camItr != cameras.end();
++camItr, ++processNum)
{
osg::Camera* camera = *camItr;
camera->createCameraThread();
if (affinity) camera->getCameraThread()->setProcessorAffinity(processNum % numProcessors);
threadAffinityMap[camera->getCameraThread()] = processNum % numProcessors;
osg::GraphicsContext* gc = camera->getGraphicsContext();
// add the startRenderingBarrier
if (_startRenderingBarrier.valid()) camera->getCameraThread()->add(_startRenderingBarrier.get());
Renderer* renderer = dynamic_cast<Renderer*>(camera->getRenderer());
renderer->setGraphicsThreadDoesCull(false);
camera->getCameraThread()->add(renderer);
if (_endRenderingDispatchBarrier.valid())
{
// add the endRenderingDispatchBarrier
gc->getGraphicsThread()->add(_endRenderingDispatchBarrier.get());
}
}
for(camItr = cameras.begin();
camItr != cameras.end();
++camItr)
{
osg::Camera* camera = *camItr;
if (camera->getCameraThread() && !camera->getCameraThread()->isRunning())
{
osg::notify(osg::INFO)<<" camera->getCameraThread()-> "<<camera->getCameraThread()<<std::endl;
camera->getCameraThread()->startThread();
}
}
}
#if 0
if (affinity)
{
OpenThreads::SetProcessorAffinityOfCurrentThread(0);
if (_scene.valid() && _scene->getDatabasePager())
{
#if 0
_scene->getDatabasePager()->setProcessorAffinity(1);
#else
_scene->getDatabasePager()->setProcessorAffinity(0);
#endif
}
}
#endif
#if 0
if (affinity)
{
for(ThreadAffinityMap::iterator titr = threadAffinityMap.begin();
titr != threadAffinityMap.end();
++titr)
{
titr->first->setProcessorAffinity(titr->second);
}
}
#endif
for(citr = contexts.begin();
citr != contexts.end();
++citr)
{
osg::GraphicsContext* gc = (*citr);
if (gc->getGraphicsThread() && !gc->getGraphicsThread()->isRunning())
{
osg::notify(osg::INFO)<<" gc->getGraphicsThread()->startThread() "<<gc->getGraphicsThread()<<std::endl;
gc->getGraphicsThread()->startThread();
// OpenThreads::Thread::YieldCurrentThread();
}
}
_threadsRunning = true;
osg::notify(osg::INFO)<<"Set up threading"<<std::endl;
}
void ViewerBase::getWindows(Windows& windows, bool onlyValid)
{
windows.clear();
Contexts contexts;
getContexts(contexts, onlyValid);
for(Contexts::iterator itr = contexts.begin();
itr != contexts.end();
++itr)
{
osgViewer::GraphicsWindow* gw = dynamic_cast<osgViewer::GraphicsWindow*>(*itr);
if (gw) windows.push_back(gw);
}
}
void ViewerBase::checkWindowStatus()
{
Contexts contexts;
getContexts(contexts);
// osg::notify(osg::NOTICE)<<"Viewer::checkWindowStatus() - "<<contexts.size()<<std::endl;
if (contexts.size()==0)
{
_done = true;
if (areThreadsRunning()) stopThreading();
}
}
void ViewerBase::addUpdateOperation(osg::Operation* operation)
{
if (!operation) return;
if (!_updateOperations) _updateOperations = new osg::OperationQueue;
_updateOperations->add(operation);
}
void ViewerBase::removeUpdateOperation(osg::Operation* operation)
{
if (!operation) return;
if (_updateOperations.valid())
{
_updateOperations->remove(operation);
}
}
void ViewerBase::setIncrementalCompileOperation(osgUtil::IncrementalCompileOperation* ico)
{
if (_incrementalCompileOperation == ico) return;
Contexts contexts;
getContexts(contexts, false);
if (_incrementalCompileOperation.valid()) _incrementalCompileOperation->removeContexts(contexts);
// assign new operation
_incrementalCompileOperation = ico;
if (_incrementalCompileOperation) _incrementalCompileOperation->assignContexts(contexts);
}
int ViewerBase::run()
{
if (!isRealized())
{
realize();
}
const char* str = getenv("OSG_RUN_FRAME_COUNT");
int runTillFrameNumber = str==0 ? -1 : atoi(str);
while(!done() || (runTillFrameNumber>=0 && getViewerFrameStamp()->getFrameNumber()>runTillFrameNumber))
{
double minFrameTime = _runMaxFrameRate>0.0 ? 1.0/_runMaxFrameRate : 0.0;
osg::Timer_t startFrameTick = osg::Timer::instance()->tick();
if (_runFrameScheme==ON_DEMAND)
{
if (checkNeedToDoFrame()) frame();
}
else
{
frame();
}
// work out if we need to force a sleep to hold back the frame rate
osg::Timer_t endFrameTick = osg::Timer::instance()->tick();
double frameTime = osg::Timer::instance()->delta_s(startFrameTick, endFrameTick);
if (frameTime < minFrameTime) OpenThreads::Thread::microSleep(static_cast<unsigned int>(1000000.0*(minFrameTime-frameTime)));
}
return 0;
}
void ViewerBase::frame(double simulationTime)
{
if (_done) return;
// osg::notify(osg::NOTICE)<<std::endl<<"CompositeViewer::frame()"<<std::endl<<std::endl;
if (_firstFrame)
{
viewerInit();
if (!isRealized())
{
realize();
}
_firstFrame = false;
}
advance(simulationTime);
eventTraversal();
updateTraversal();
renderingTraversals();
}
void ViewerBase::renderingTraversals()
{
bool _outputMasterCameraLocation = false;
if (_outputMasterCameraLocation)
{
Views views;
getViews(views);
for(Views::iterator itr = views.begin();
itr != views.end();
++itr)
{
osgViewer::View* view = *itr;
if (view)
{
const osg::Matrixd& m = view->getCamera()->getInverseViewMatrix();
osg::notify(osg::NOTICE)<<"View "<<view<<", Master Camera position("<<m.getTrans()<<"), rotation("<<m.getRotate()<<")"<<std::endl;
}
}
}
// check to see if windows are still valid
checkWindowStatus();
if (_done) return;
double beginRenderingTraversals = elapsedTime();
osg::FrameStamp* frameStamp = getViewerFrameStamp();
if (getViewerStats() && getViewerStats()->collectStats("scene"))
{
int frameNumber = frameStamp ? frameStamp->getFrameNumber() : 0;
Views views;
getViews(views);
for(Views::iterator vitr = views.begin();
vitr != views.end();
++vitr)
{
View* view = *vitr;
osg::Stats* stats = view->getStats();
osg::Node* sceneRoot = view->getSceneData();
if (sceneRoot && stats)
{
osgUtil::StatsVisitor statsVisitor;
sceneRoot->accept(statsVisitor);
statsVisitor.totalUpStats();
unsigned int unique_primitives = 0;
osgUtil::Statistics::PrimitiveCountMap::iterator pcmitr;
for(pcmitr = statsVisitor._uniqueStats.GetPrimitivesBegin();
pcmitr != statsVisitor._uniqueStats.GetPrimitivesEnd();
++pcmitr)
{
unique_primitives += pcmitr->second;
}
stats->setAttribute(frameNumber, "Number of unique StateSet", static_cast<double>(statsVisitor._statesetSet.size()));
stats->setAttribute(frameNumber, "Number of unique Group", static_cast<double>(statsVisitor._groupSet.size()));
stats->setAttribute(frameNumber, "Number of unique Transform", static_cast<double>(statsVisitor._transformSet.size()));
stats->setAttribute(frameNumber, "Number of unique LOD", static_cast<double>(statsVisitor._lodSet.size()));
stats->setAttribute(frameNumber, "Number of unique Switch", static_cast<double>(statsVisitor._switchSet.size()));
stats->setAttribute(frameNumber, "Number of unique Geode", static_cast<double>(statsVisitor._geodeSet.size()));
stats->setAttribute(frameNumber, "Number of unique Drawable", static_cast<double>(statsVisitor._drawableSet.size()));
stats->setAttribute(frameNumber, "Number of unique Geometry", static_cast<double>(statsVisitor._geometrySet.size()));
stats->setAttribute(frameNumber, "Number of unique Vertices", static_cast<double>(statsVisitor._uniqueStats._vertexCount));
stats->setAttribute(frameNumber, "Number of unique Primitives", static_cast<double>(unique_primitives));
unsigned int instanced_primitives = 0;
for(pcmitr = statsVisitor._instancedStats.GetPrimitivesBegin();
pcmitr != statsVisitor._instancedStats.GetPrimitivesEnd();
++pcmitr)
{
instanced_primitives += pcmitr->second;
}
stats->setAttribute(frameNumber, "Number of instanced Stateset", static_cast<double>(statsVisitor._numInstancedStateSet));
stats->setAttribute(frameNumber, "Number of instanced Group", static_cast<double>(statsVisitor._numInstancedGroup));
stats->setAttribute(frameNumber, "Number of instanced Transform", static_cast<double>(statsVisitor._numInstancedTransform));
stats->setAttribute(frameNumber, "Number of instanced LOD", static_cast<double>(statsVisitor._numInstancedLOD));
stats->setAttribute(frameNumber, "Number of instanced Switch", static_cast<double>(statsVisitor._numInstancedSwitch));
stats->setAttribute(frameNumber, "Number of instanced Geode", static_cast<double>(statsVisitor._numInstancedGeode));
stats->setAttribute(frameNumber, "Number of instanced Drawable", static_cast<double>(statsVisitor._numInstancedDrawable));
stats->setAttribute(frameNumber, "Number of instanced Geometry", static_cast<double>(statsVisitor._numInstancedGeometry));
stats->setAttribute(frameNumber, "Number of instanced Vertices", static_cast<double>(statsVisitor._instancedStats._vertexCount));
stats->setAttribute(frameNumber, "Number of instanced Primitives", static_cast<double>(instanced_primitives));
}
}
}
Scenes scenes;
getScenes(scenes);
for(Scenes::iterator sitr = scenes.begin();
sitr != scenes.end();
++sitr)
{
Scene* scene = *sitr;
osgDB::DatabasePager* dp = scene ? scene->getDatabasePager() : 0;
if (dp)
{
dp->signalBeginFrame(frameStamp);
}
if (scene->getSceneData())
{
// fire off a build of the bounding volumes while we
// are still running single threaded.
scene->getSceneData()->getBound();
}
}
// osg::notify(osg::NOTICE)<<std::endl<<"Start frame"<<std::endl;
Contexts contexts;
getContexts(contexts);
Cameras cameras;
getCameras(cameras);
Contexts::iterator itr;
bool doneMakeCurrentInThisThread = false;
if (_endDynamicDrawBlock.valid())
{
_endDynamicDrawBlock->reset();
}
// dispatch the rendering threads
if (_startRenderingBarrier.valid()) _startRenderingBarrier->block();
// reset any double buffer graphics objects
for(Cameras::iterator camItr = cameras.begin();
camItr != cameras.end();
++camItr)
{
osg::Camera* camera = *camItr;
Renderer* renderer = dynamic_cast<Renderer*>(camera->getRenderer());
if (renderer)
{
if (!renderer->getGraphicsThreadDoesCull() && !(camera->getCameraThread()))
{
renderer->cull();
}
}
}
for(itr = contexts.begin();
itr != contexts.end();
++itr)
{
if (_done) return;
if (!((*itr)->getGraphicsThread()) && (*itr)->valid())
{
doneMakeCurrentInThisThread = true;
makeCurrent(*itr);
(*itr)->runOperations();
}
}
// osg::notify(osg::NOTICE)<<"Joing _endRenderingDispatchBarrier block "<<_endRenderingDispatchBarrier.get()<<std::endl;
// wait till the rendering dispatch is done.
if (_endRenderingDispatchBarrier.valid()) _endRenderingDispatchBarrier->block();
for(itr = contexts.begin();
itr != contexts.end();
++itr)
{
if (_done) return;
if (!((*itr)->getGraphicsThread()) && (*itr)->valid())
{
doneMakeCurrentInThisThread = true;
makeCurrent(*itr);
(*itr)->swapBuffers();
}
}
for(Scenes::iterator sitr = scenes.begin();
sitr != scenes.end();
++sitr)
{
Scene* scene = *sitr;
osgDB::DatabasePager* dp = scene ? scene->getDatabasePager() : 0;
if (dp)
{
dp->signalEndFrame();
}
}
// wait till the dynamic draw is complete.
if (_endDynamicDrawBlock.valid())
{
// osg::Timer_t startTick = osg::Timer::instance()->tick();
_endDynamicDrawBlock->block();
// osg::notify(osg::NOTICE)<<"Time waiting "<<osg::Timer::instance()->delta_m(startTick, osg::Timer::instance()->tick())<<std::endl;;
}
if (_releaseContextAtEndOfFrameHint && doneMakeCurrentInThisThread)
{
//osg::notify(osg::NOTICE)<<"Doing release context"<<std::endl;
releaseContext();
}
if (getViewerStats() && getViewerStats()->collectStats("update"))
{
double endRenderingTraversals = elapsedTime();
// update current frames stats
getViewerStats()->setAttribute(frameStamp->getFrameNumber(), "Rendering traversals begin time ", beginRenderingTraversals);
getViewerStats()->setAttribute(frameStamp->getFrameNumber(), "Rendering traversals end time ", endRenderingTraversals);
getViewerStats()->setAttribute(frameStamp->getFrameNumber(), "Rendering traversals time taken", endRenderingTraversals-beginRenderingTraversals);
}
_requestRedraw = false;
}
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