OpenSceneGraph/src/osgViewer/CompositeViewer.cpp

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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 <osg/GLExtensions>
#include <osgUtil/GLObjectsVisitor>
#include <osgGA/TrackballManipulator>
#include <osgViewer/CompositeViewer>
#include <osg/io_utils>
using namespace osgViewer;
CompositeViewer::CompositeViewer():
_firstFrame(true),
_done(false),
_keyEventSetsDone(osgGA::GUIEventAdapter::KEY_Escape),
_quitEventSetsDone(true),
_threadingModel(ThreadPerContext),
_endBarrierPosition(AfterSwapBuffers),
_numThreadsOnBarrier(0)
{
// make sure View is safe to reference multi-threaded.
setThreadSafeRefUnref(true);
_frameStamp = new osg::FrameStamp;
_frameStamp->setFrameNumber(0);
_frameStamp->setReferenceTime(0);
_frameStamp->setSimulationTime(0);
setEventQueue(new osgGA::EventQueue);
_eventVisitor = new osgGA::EventVisitor;
}
CompositeViewer::~CompositeViewer()
{
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osg::notify(osg::INFO)<<"CompositeViewer::~CompositeViewer()"<<std::endl;
stopThreading();
Scenes scenes;
getScenes(scenes);
for(Scenes::iterator sitr = scenes.begin();
sitr != scenes.end();
++sitr)
{
Scene* scene = *sitr;
if (scene->getDatabasePager())
{
scene->getDatabasePager()->cancel();
scene->setDatabasePager(0);
}
}
Contexts contexts;
getContexts(contexts);
// clear out all the previously assigned operations
for(Contexts::iterator citr = contexts.begin();
citr != contexts.end();
++citr)
{
(*citr)->close();
}
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osg::notify(osg::INFO)<<"finished CompositeViewer::~CompsiteViewer()"<<std::endl;
}
void CompositeViewer::addView(osgViewer::View* view)
{
_views.push_back(view);
setUpRenderingSupport();
}
bool CompositeViewer::isRealized() const
{
Contexts contexts;
const_cast<CompositeViewer*>(this)->getContexts(contexts);
unsigned int numRealizedWindows = 0;
// clear out all the previously assigned operations
for(Contexts::iterator citr = contexts.begin();
citr != contexts.end();
++citr)
{
if ((*citr)->isRealized()) ++numRealizedWindows;
}
return numRealizedWindows > 0;
}
int CompositeViewer::run()
{
for(Views::iterator itr = _views.begin();
itr != _views.end();
++itr)
{
osgViewer::View* view = itr->get();
if (view->getCameraManipulator()==0)
{
view->setCameraManipulator(new osgGA::TrackballManipulator());
}
}
if (!isRealized())
{
realize();
}
while (!done())
{
frame();
}
return 0;
}
void CompositeViewer::setStartTick(osg::Timer_t tick)
{
_startTick = tick;
Contexts contexts;
getContexts(contexts,false);
for(Contexts::iterator citr = contexts.begin();
citr != contexts.end();
++citr)
{
osgViewer::GraphicsWindow* gw = dynamic_cast<osgViewer::GraphicsWindow*>(*citr);
if (gw)
{
gw->getEventQueue()->setStartTick(_startTick);
}
}
}
void CompositeViewer::setReferenceTime(double time)
{
osg::Timer_t tick = osg::Timer::instance()->tick();
double currentTime = osg::Timer::instance()->delta_s(_startTick, tick);
double delta_ticks = (time-currentTime)*(osg::Timer::instance()->getSecondsPerTick());
if (delta_ticks>=0) tick += osg::Timer_t(delta_ticks);
else tick -= osg::Timer_t(-delta_ticks);
// assign the new start tick
setStartTick(tick);
}
void CompositeViewer::setThreadingModel(ThreadingModel threadingModel)
{
if (_threadingModel == threadingModel) return;
if (_threadingModel!=SingleThreaded) stopThreading();
_threadingModel = threadingModel;
if (_threadingModel!=SingleThreaded) startThreading();
}
void CompositeViewer::setEndBarrierPosition(BarrierPosition bp)
{
if (_endBarrierPosition == bp) return;
if (_threadingModel!=SingleThreaded) stopThreading();
_endBarrierPosition = bp;
if (_threadingModel!=SingleThreaded) startThreading();
}
void CompositeViewer::stopThreading()
{
if (_numThreadsOnBarrier==0) return;
osg::notify(osg::INFO)<<"CompositeViewer::stopThreading() - stopping threading"<<std::endl;
Contexts contexts;
getContexts(contexts);
// delete all the graphics threads.
for(Contexts::iterator itr = contexts.begin();
itr != contexts.end();
++itr)
{
(*itr)->setGraphicsThread(0);
}
_startRenderingBarrier = 0;
_endRenderingDispatchBarrier = 0;
_numThreadsOnBarrier = 0;
}
// Compile operation, that compile OpenGL objects.
struct CompositeViewerCompileOperation : public osg::GraphicsOperation
{
CompositeViewerCompileOperation():
osg::GraphicsOperation("Compile",false)
{
}
virtual void operator () (osg::GraphicsContext* context)
{
// OpenThreads::ScopedLock<OpenThreads::Mutex> lock(mutex);
// osg::notify(osg::NOTICE)<<"Compile "<<context<<" "<<OpenThreads::Thread::CurrentThread()<<std::endl;
// context->makeCurrentImplementation();
osgUtil::GLObjectsVisitor compileVisitor;
compileVisitor.setState(context->getState());
for(osg::GraphicsContext::Cameras::iterator itr = context->getCameras().begin();
itr != context->getCameras().end();
++itr)
{
(*itr)->accept(compileVisitor);
}
// osg::notify(osg::NOTICE)<<"Done Compile "<<context<<" "<<OpenThreads::Thread::CurrentThread()<<std::endl;
}
};
// Draw operation, that does a draw on the scene graph.
struct CompositeViewerRunOperations : public osg::GraphicsOperation
{
CompositeViewerRunOperations():
osg::GraphicsOperation("RunOperation",true)
{
}
virtual void operator () (osg::GraphicsContext* gc)
{
gc->runOperations();
}
osg::GraphicsContext* _originalContext;
};
unsigned int CompositeViewer::computeNumberOfThreadsIncludingMainRequired()
{
Contexts contexts;
getContexts(contexts);
if (contexts.empty()) return 0;
if (contexts.size()==1 || _threadingModel==SingleThreaded)
{
return 1;
}
bool firstContextAsMainThread = _threadingModel == ThreadPerContext;
return firstContextAsMainThread ? contexts.size() : contexts.size()+1;
}
void CompositeViewer::startThreading()
{
unsigned int numThreadsIncludingMainThread = computeNumberOfThreadsIncludingMainRequired();
// return if we don't need multiple threads.
if (numThreadsIncludingMainThread <= 1) return;
// return if threading is already up and running
if (numThreadsIncludingMainThread == _numThreadsOnBarrier) return;
if (_numThreadsOnBarrier!=0)
{
// we already have threads running but not the right number, so stop them and then create new threads.
stopThreading();
}
osg::notify(osg::INFO)<<"CompositeViewer::startThreading() - starting threading"<<std::endl;
// 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 sitr = scenes.begin();
sitr != scenes.end();
++sitr)
{
osg::Node* sceneData = (*sitr)->getSceneData();
if (sceneData)
{
osg::notify(osg::INFO)<<"Making scene thread safe"<<std::endl;
// make sure that existing scene graph objects are allocated with thread safe ref/unref
sceneData->setThreadSafeRefUnref(true);
// update the scene graph so that it has enough GL object buffer memory for the graphics contexts that will be using it.
sceneData->resizeGLObjectBuffers(osg::DisplaySettings::instance()->getMaxNumberOfGraphicsContexts());
}
}
Contexts contexts;
getContexts(contexts);
int numProcessors = OpenThreads::GetNumberOfProcessors();
bool affinity = false;
bool firstContextAsMainThread = numThreadsIncludingMainThread==contexts.size();
// osg::notify(osg::NOTICE)<<"numThreadsIncludingMainThread=="<<numThreadsIncludingMainThread<<std::endl;
_numThreadsOnBarrier = numThreadsIncludingMainThread;
_startRenderingBarrier = new osg::BarrierOperation(_numThreadsOnBarrier, osg::BarrierOperation::NO_OPERATION);
_endRenderingDispatchBarrier = new osg::BarrierOperation(_numThreadsOnBarrier, osg::BarrierOperation::NO_OPERATION);
osg::ref_ptr<osg::SwapBuffersOperation> swapOp = new osg::SwapBuffersOperation();
Contexts::iterator citr = contexts.begin();
unsigned int processNum = 0;
if (firstContextAsMainThread)
{
++processNum;
++citr;
}
for(;
citr != contexts.end();
++citr,
++processNum)
{
osg::GraphicsContext* gc = (*citr);
// create the a graphics thread for this context
gc->createGraphicsThread();
if (affinity) gc->getGraphicsThread()->setProcessorAffinity(processNum % numProcessors);
gc->getGraphicsThread()->add(new CompositeViewerCompileOperation());
// add the startRenderingBarrier
gc->getGraphicsThread()->add(_startRenderingBarrier.get());
// add the rendering operation itself.
gc->getGraphicsThread()->add(new CompositeViewerRunOperations());
if (_endBarrierPosition==BeforeSwapBuffers)
{
// add the endRenderingDispatchBarrier
gc->getGraphicsThread()->add(_endRenderingDispatchBarrier.get());
}
// add the swap buffers
gc->getGraphicsThread()->add(swapOp.get());
if (_endBarrierPosition==AfterSwapBuffers)
{
// add the endRenderingDispatchBarrier
gc->getGraphicsThread()->add(_endRenderingDispatchBarrier.get());
}
}
if (firstContextAsMainThread)
{
if (affinity) OpenThreads::SetProcessorAffinityOfCurrentThread(0);
}
for(citr = contexts.begin();
citr != contexts.end();
++citr)
{
osg::GraphicsContext* gc = (*citr);
if (gc->getGraphicsThread() && !gc->getGraphicsThread()->isRunning())
{
//osg::notify(osg::NOTICE)<<" gc->getGraphicsThread()->startThread() "<<gc->getGraphicsThread()<<std::endl;
gc->getGraphicsThread()->startThread();
// OpenThreads::Thread::YieldCurrentThread();
}
}
}
void CompositeViewer::checkWindowStatus()
{
unsigned int numThreadsIncludingMainThread = computeNumberOfThreadsIncludingMainRequired();
if (numThreadsIncludingMainThread != _numThreadsOnBarrier)
{
stopThreading();
if (numThreadsIncludingMainThread > 1) startThreading();
}
if (numThreadsIncludingMainThread==0) _done = true;
}
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void CompositeViewer::init()
{
osg::notify(osg::INFO)<<"CompositeViewer::init()"<<std::endl;
for(Views::iterator itr = _views.begin();
itr != _views.end();
++itr)
{
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(*itr)->init();
}
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}
void CompositeViewer::getContexts(Contexts& contexts, bool onlyValid)
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{
typedef std::set<osg::GraphicsContext*> ContextSet;
ContextSet contextSet;
for(Views::iterator vitr = _views.begin();
vitr != _views.end();
++vitr)
{
osgViewer::View* view = vitr->get();
if (view->getCamera() &&
view->getCamera()->getGraphicsContext() &&
(view->getCamera()->getGraphicsContext()->valid() || !onlyValid))
{
contextSet.insert(view->getCamera()->getGraphicsContext());
}
for(unsigned int i=0; i<view->getNumSlaves(); ++i)
{
View::Slave& slave = view->getSlave(i);
if (slave._camera.valid() &&
slave._camera->getGraphicsContext() &&
(slave._camera->getGraphicsContext()->valid() || !onlyValid))
{
contextSet.insert(slave._camera->getGraphicsContext());
}
}
}
contexts.clear();
contexts.reserve(contextSet.size());
for(ContextSet::iterator itr = contextSet.begin();
itr != contextSet.end();
++itr)
{
contexts.push_back(const_cast<osg::GraphicsContext*>(*itr));
}
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}
void CompositeViewer::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 CompositeViewer::getScenes(Scenes& scenes, bool onlyValid)
{
typedef std::set<osgViewer::Scene*> SceneSet;
SceneSet sceneSet;
for(Views::iterator vitr = _views.begin();
vitr != _views.end();
++vitr)
{
osgViewer::View* view = vitr->get();
if (view->getScene() && (!onlyValid || view->getScene()->getSceneData()))
{
sceneSet.insert(view->getScene());
}
}
for(SceneSet::iterator sitr = sceneSet.begin();
sitr != sceneSet.end();
++sitr)
{
scenes.push_back(const_cast<osgViewer::Scene*>(*sitr));
}
}
// Draw operation, that does a draw on the scene graph.
struct CompositeViewerRenderingOperation : public osg::GraphicsOperation
{
CompositeViewerRenderingOperation(osgUtil::SceneView* sceneView, osgDB::DatabasePager* databasePager):
osg::GraphicsOperation("Render",true),
_sceneView(sceneView),
_databasePager(databasePager)
{
_sceneView->getCullVisitor()->setDatabaseRequestHandler(_databasePager.get());
}
virtual void operator () (osg::GraphicsContext*)
{
if (!_sceneView) return;
// osg::notify(osg::NOTICE)<<"RenderingOperation"<<std::endl;
_sceneView->cull();
_sceneView->draw();
if (_databasePager.valid())
{
double availableTime = 0.004; // 4 ms
_databasePager->compileGLObjects(*(_sceneView->getState()), availableTime);
_sceneView->flushDeletedGLObjects(availableTime);
}
}
osg::observer_ptr<osgUtil::SceneView> _sceneView;
osg::observer_ptr<osgDB::DatabasePager> _databasePager;
};
void CompositeViewer::setUpRenderingSupport()
{
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#if 1
_cameraSceneViewMap.clear();
Contexts contexts;
getContexts(contexts);
osg::FrameStamp* frameStamp = getFrameStamp();
for(Contexts::iterator gcitr = contexts.begin();
gcitr != contexts.end();
++gcitr)
{
(*gcitr)->removeAllOperations();
osg::GraphicsContext* gc = *gcitr;
osg::GraphicsContext::Cameras& cameras = gc->getCameras();
osg::State* state = gc->getState();
for(osg::GraphicsContext::Cameras::iterator citr = cameras.begin();
citr != cameras.end();
++citr)
{
osg::Camera* camera = *citr;
osgViewer::View* view = dynamic_cast<osgViewer::View*>(camera->getView());
osgViewer::Scene* scene = view ? view->getScene() : 0;
osg::DisplaySettings* ds = view ? view->getDisplaySettings() : 0;
if (!ds) ds = osg::DisplaySettings::instance();
osgDB::DatabasePager* dp = scene ? scene->getDatabasePager() : 0;
camera->setStats(new osg::Stats("Camera"));
osgUtil::SceneView* sceneView = new osgUtil::SceneView;
_cameraSceneViewMap[camera] = sceneView;
sceneView->setGlobalStateSet(view ? view->getCamera()->getStateSet() : 0);
sceneView->setDefaults();
sceneView->setDisplaySettings(ds);
sceneView->setCamera(camera);
sceneView->setState(state);
sceneView->setFrameStamp(frameStamp);
if (dp) dp->setCompileGLObjectsForContextID(state->getContextID(), true);
gc->add(new CompositeViewerRenderingOperation(sceneView, dp));
}
}
#else
osg::FrameStamp* frameStamp = getFrameStamp();
// what should we do with the old sceneViews?
_cameraSceneViewMap.clear();
Contexts contexts;
getContexts(contexts);
// clear out all the previously assigned operations
for(Contexts::iterator citr = contexts.begin();
citr != contexts.end();
++citr)
{
(*citr)->removeAllOperations();
}
for(Views::iterator itr = _views.begin();
itr != _views.end();
++itr)
{
osgViewer::View* view = itr->get();
osg::DisplaySettings* ds = view->getDisplaySettings() ? view->getDisplaySettings() : osg::DisplaySettings::instance();
osgDB::DatabasePager* dp = view->getScene() ? view->getScene()->getDatabasePager() : 0;
if (view->getCamera() && view->getCamera()->getGraphicsContext())
{
osgUtil::SceneView* sceneView = new osgUtil::SceneView;
_cameraSceneViewMap[view->getCamera()] = sceneView;
sceneView->setGlobalStateSet(view->getCamera()->getStateSet());
sceneView->setDefaults();
sceneView->setDisplaySettings(ds);
sceneView->setCamera(view->getCamera());
sceneView->setState(view->getCamera()->getGraphicsContext()->getState());
sceneView->setSceneData(view->getSceneData());
sceneView->setFrameStamp(frameStamp);
if (dp) dp->setCompileGLObjectsForContextID(view->getCamera()->getGraphicsContext()->getState()->getContextID(), true);
view->getCamera()->getGraphicsContext()->add(new CompositeViewerRenderingOperation(sceneView, dp));
}
for(unsigned i=0; i<view->getNumSlaves(); ++i)
{
View::Slave& slave = view->getSlave(i);
if (slave._camera.valid() && slave._camera->getGraphicsContext())
{
osgUtil::SceneView* sceneView = new osgUtil::SceneView;
_cameraSceneViewMap[slave._camera] = sceneView;
sceneView->setGlobalStateSet(view->getCamera()->getStateSet());
sceneView->setDefaults();
sceneView->setCamera(slave._camera.get());
sceneView->setDisplaySettings(ds);
sceneView->setState(slave._camera->getGraphicsContext()->getState());
sceneView->setSceneData(view->getSceneData());
sceneView->setFrameStamp(frameStamp);
if (dp) dp->setCompileGLObjectsForContextID(slave._camera->getGraphicsContext()->getState()->getContextID(), true);
slave._camera->getGraphicsContext()->add(new CompositeViewerRenderingOperation(sceneView, dp));
}
}
}
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#endif
}
void CompositeViewer::realize()
{
//osg::notify(osg::INFO)<<"CompositeViewer::realize()"<<std::endl;
setCameraWithFocus(0);
if (_views.empty())
{
osg::notify(osg::NOTICE)<<"CompositeViewer::realize() - not views to realize."<<std::endl;
_done = true;
return;
}
Contexts contexts;
getContexts(contexts);
if (contexts.empty())
{
osg::notify(osg::INFO)<<"CompositeViewer::realize() - No valid contexts found, setting up view across all screens."<<std::endl;
// no windows are already set up so set up a default view
_views[0]->setUpViewAcrossAllScreens();
getContexts(contexts);
}
if (contexts.empty())
{
osg::notify(osg::NOTICE)<<"CompositeViewer::realize() - failed to set up any windows"<<std::endl;
_done = true;
return;
}
setUpRenderingSupport();
for(Contexts::iterator citr = contexts.begin();
citr != contexts.end();
++citr)
{
(*citr)->realize();
}
bool grabFocus = true;
if (grabFocus)
{
for(Contexts::iterator citr = contexts.begin();
citr != contexts.end();
++citr)
{
osgViewer::GraphicsWindow* gw = dynamic_cast<osgViewer::GraphicsWindow*>(*citr);
if (gw)
{
gw->grabFocusIfPointerInWindow();
}
}
}
startThreading();
// initialize the global timer to be relative to the current time.
osg::Timer::instance()->setStartTick();
// pass on the start tick to all the associated eventqueues
setStartTick(osg::Timer::instance()->getStartTick());
}
void CompositeViewer::frame(double simulationTime)
{
if (_done) return;
// osg::notify(osg::NOTICE)<<std::endl<<"CompositeViewer::frame()"<<std::endl<<std::endl;
if (_firstFrame)
{
init();
if (!isRealized())
{
realize();
}
_firstFrame = false;
}
advance(simulationTime);
eventTraversal();
updateTraversal();
renderingTraversals();
}
void CompositeViewer::advance(double simulationTime)
{
if (_done) return;
_frameStamp->setFrameNumber(_frameStamp->getFrameNumber()+1);
_frameStamp->setReferenceTime( osg::Timer::instance()->delta_s(_startTick, osg::Timer::instance()->tick()) );
if (simulationTime==USE_REFERENCE_TIME)
{
_frameStamp->setSimulationTime(_frameStamp->getReferenceTime());
}
else
{
_frameStamp->setSimulationTime(simulationTime);
}
}
void CompositeViewer::setCameraWithFocus(osg::Camera* camera)
{
_cameraWithFocus = camera;
if (camera)
{
for(Views::iterator vitr = _views.begin();
vitr != _views.end();
++vitr)
{
View* view = vitr->get();
if (view->containsCamera(camera))
{
_viewWithFocus = view;
return;
}
}
}
_viewWithFocus = 0;
}
void CompositeViewer::eventTraversal()
{
if (_done) return;
if (_views.empty()) return;
// osg::notify(osg::NOTICE)<<"CompositeViewer::frameEventTraversal()."<<std::endl;
// need to copy events from the GraphicsWindow's into local EventQueue;
typedef std::map<osgViewer::View*, osgGA::EventQueue::Events> ViewEventsMap;
ViewEventsMap viewEventsMap;
Contexts contexts;
getContexts(contexts);
Scenes scenes;
getScenes(scenes);
osgViewer::View* masterView = getViewWithFocus() ? getViewWithFocus() : _views[0].get();
osg::Camera* masterCamera = masterView->getCamera();
osgGA::GUIEventAdapter* eventState = masterView->getEventQueue()->getCurrentEventState();
osg::Matrix masterCameraVPW = masterCamera->getViewMatrix() * masterCamera->getProjectionMatrix();
if (masterCamera->getViewport())
{
osg::Viewport* viewport = masterCamera->getViewport();
masterCameraVPW *= viewport->computeWindowMatrix();
eventState->setInputRange( viewport->x(), viewport->y(), viewport->x() + viewport->width(), viewport->y() + viewport->height());
}
else
{
eventState->setInputRange(-1.0, -1.0, 1.0, 1.0);
}
for(Contexts::iterator citr = contexts.begin();
citr != contexts.end();
++citr)
{
osgViewer::GraphicsWindow* gw = dynamic_cast<osgViewer::GraphicsWindow*>(*citr);
if (gw)
{
gw->checkEvents();
osgGA::EventQueue::Events gw_events;
gw->getEventQueue()->takeEvents(gw_events);
osgGA::EventQueue::Events::iterator itr;
for(itr = gw_events.begin();
itr != gw_events.end();
++itr)
{
osgGA::GUIEventAdapter* event = itr->get();
bool pointerEvent = false;
float x = event->getX();
float y = event->getY();
bool invert_y = event->getMouseYOrientation()==osgGA::GUIEventAdapter::Y_INCREASING_DOWNWARDS;
if (invert_y && gw->getTraits()) y = gw->getTraits()->height - y;
switch(event->getEventType())
{
case(osgGA::GUIEventAdapter::PUSH):
case(osgGA::GUIEventAdapter::RELEASE):
case(osgGA::GUIEventAdapter::DRAG):
case(osgGA::GUIEventAdapter::MOVE):
{
pointerEvent = true;
if (event->getEventType()!=osgGA::GUIEventAdapter::DRAG || !getCameraWithFocus())
{
osg::GraphicsContext::Cameras& cameras = gw->getCameras();
for(osg::GraphicsContext::Cameras::iterator citr = cameras.begin();
citr != cameras.end();
++citr)
{
osg::Camera* camera = *citr;
osg::Viewport* viewport = camera ? camera->getViewport() : 0;
if (camera->getView() &&
viewport &&
x >= viewport->x() && y >= viewport->y() &&
x <= (viewport->x()+viewport->width()) && y <= (viewport->y()+viewport->height()) )
{
setCameraWithFocus(camera);
if (getViewWithFocus()!=masterView)
{
// need to reset the masterView
masterView = getViewWithFocus();
masterCamera = masterView->getCamera();
eventState = masterView->getEventQueue()->getCurrentEventState();
masterCameraVPW = masterCamera->getViewMatrix() * masterCamera->getProjectionMatrix();
if (masterCamera->getViewport())
{
osg::Viewport* viewport = masterCamera->getViewport();
masterCameraVPW *= viewport->computeWindowMatrix();
eventState->setInputRange( viewport->x(), viewport->y(), viewport->x() + viewport->width(), viewport->y() + viewport->height());
}
else
{
eventState->setInputRange(-1.0, -1.0, 1.0, 1.0);
}
}
}
}
}
break;
}
default:
break;
}
if (pointerEvent)
{
if (getCameraWithFocus())
{
osg::Viewport* viewport = getCameraWithFocus()->getViewport();
osg::Matrix localCameraVPW = getCameraWithFocus()->getViewMatrix() * getCameraWithFocus()->getProjectionMatrix();
if (viewport) localCameraVPW *= viewport->computeWindowMatrix();
osg::Matrix matrix( osg::Matrix::inverse(localCameraVPW) * masterCameraVPW );
osg::Vec3d new_coord = osg::Vec3d(x,y,0.0) * matrix;
x = new_coord.x();
y = new_coord.y();
event->setInputRange(eventState->getXmin(), eventState->getYmin(), eventState->getXmax(), eventState->getYmax());
event->setX(x);
event->setY(y);
event->setMouseYOrientation(osgGA::GUIEventAdapter::Y_INCREASING_UPWARDS);
}
// pass along the new pointer events details to the eventState of the viewer
eventState->setX(x);
eventState->setY(y);
eventState->setButtonMask(event->getButtonMask());
eventState->setMouseYOrientation(osgGA::GUIEventAdapter::Y_INCREASING_UPWARDS);
}
else
{
event->setInputRange(eventState->getXmin(), eventState->getYmin(), eventState->getXmax(), eventState->getYmax());
event->setX(eventState->getX());
event->setY(eventState->getY());
event->setButtonMask(eventState->getButtonMask());
event->setMouseYOrientation(eventState->getMouseYOrientation());
}
//osg::notify(osg::NOTICE)<<" mouse x = "<<event->getX()<<" y="<<event->getY()<<std::endl;
// osg::notify(osg::NOTICE)<<" mouse Xmin = "<<event->getXmin()<<" Ymin="<<event->getYmin()<<" xMax="<<event->getXmax()<<" Ymax="<<event->getYmax()<<std::endl;
}
for(itr = gw_events.begin();
itr != gw_events.end();
++itr)
{
osgGA::GUIEventAdapter* event = itr->get();
switch(event->getEventType())
{
case(osgGA::GUIEventAdapter::CLOSE_WINDOW):
{
gw->close();
break;
}
default:
break;
}
}
viewEventsMap[masterView].insert( viewEventsMap[masterView].end(), gw_events.begin(), gw_events.end() );
}
}
// osg::notify(osg::NOTICE)<<"mouseEventState Xmin = "<<eventState->getXmin()<<" Ymin="<<eventState->getYmin()<<" xMax="<<eventState->getXmax()<<" Ymax="<<eventState->getYmax()<<std::endl;
for(Views::iterator vitr = _views.begin();
vitr != _views.end();
++vitr)
{
View* view = vitr->get();
view->getEventQueue()->frame( getFrameStamp()->getReferenceTime() );
view->getEventQueue()->takeEvents(viewEventsMap[view]);
}
#if 0
_eventQueue->getCurrentEventState()->setInputRange(eventState->getXmin(), eventState->getYmin(), eventState->getXmax(), eventState->getYmax());
_eventQueue->getCurrentEventState()->setX(eventState->getX());
_eventQueue->getCurrentEventState()->setY(eventState->getY());
_eventQueue->getCurrentEventState()->setButtonMask(eventState->getButtonMask());
_eventQueue->getCurrentEventState()->setMouseYOrientation(eventState->getMouseYOrientation());
_eventQueue->frame( getFrameStamp()->getReferenceTime() );
_eventQueue->takeEvents(events);
#endif
// osg::notify(osg::NOTICE)<<"Events "<<events.size()<<std::endl;
if ((_keyEventSetsDone!=0) || _quitEventSetsDone)
{
for(ViewEventsMap::iterator veitr = viewEventsMap.begin();
veitr != viewEventsMap.end();
++veitr)
{
for(osgGA::EventQueue::Events::iterator itr = veitr->second.begin();
itr != veitr->second.end();
++itr)
{
osgGA::GUIEventAdapter* event = itr->get();
switch(event->getEventType())
{
case(osgGA::GUIEventAdapter::KEYUP):
if (_keyEventSetsDone && event->getKey()==_keyEventSetsDone) _done = true;
break;
case(osgGA::GUIEventAdapter::QUIT_APPLICATION):
if (_quitEventSetsDone) _done = true;
break;
default:
break;
}
}
}
}
if (_done) return;
for(ViewEventsMap::iterator veitr = viewEventsMap.begin();
veitr != viewEventsMap.end();
++veitr)
{
View* view = veitr->first;
_eventVisitor->setActionAdapter(view);
for(osgGA::EventQueue::Events::iterator itr = veitr->second.begin();
itr != veitr->second.end();
++itr)
{
osgGA::GUIEventAdapter* event = itr->get();
if (view->getCameraManipulator())
{
if (view->getCameraManipulator()->handle( *event, *view)) event->setHandled(true);
}
for(View::EventHandlers::iterator hitr = view->getEventHandlers().begin();
hitr != view->getEventHandlers().end();
++hitr)
{
if ((*hitr)->handle( *event, *view, 0, 0)) event->setHandled(true);
}
}
}
if (_eventVisitor.valid())
{
_eventVisitor->setFrameStamp(getFrameStamp());
_eventVisitor->setTraversalNumber(getFrameStamp()->getFrameNumber());
for(ViewEventsMap::iterator veitr = viewEventsMap.begin();
veitr != viewEventsMap.end();
++veitr)
{
View* view = veitr->first;
for(osgGA::EventQueue::Events::iterator itr = veitr->second.begin();
itr != veitr->second.end();
++itr)
{
osgGA::GUIEventAdapter* event = itr->get();
_eventVisitor->reset();
_eventVisitor->addEvent( event );
view->getSceneData()->accept(*_eventVisitor);
}
}
}
}
void CompositeViewer::updateTraversal()
{
if (_done) return;
Scenes scenes;
getScenes(scenes);
for(Scenes::iterator sitr = scenes.begin();
sitr != scenes.end();
++sitr)
{
(*sitr)->frameUpdateTraversal();
}
for(Views::iterator vitr = _views.begin();
vitr != _views.end();
++vitr)
{
View* view = vitr->get();
view->getCamera()->setViewMatrix( view->getCameraManipulator()->getInverseMatrix());
view->updateSlaves();
}
}
void CompositeViewer::renderingTraversals()
{
// check to see if windows are still valid
checkWindowStatus();
if (_done) return;
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(getFrameStamp());
}
}
// osg::notify(osg::NOTICE)<<std::endl<<"Joing _startRenderingBarrier block"<<std::endl;
Contexts contexts;
getContexts(contexts);
// dispatch the the rendering threads
if (_startRenderingBarrier.valid()) _startRenderingBarrier->block();
Contexts::iterator itr;
for(itr = contexts.begin();
itr != contexts.end();
++itr)
{
if (_done) return;
if (!((*itr)->getGraphicsThread()))
{
(*itr)->makeCurrent();
(*itr)->runOperations();
(*itr)->releaseContext();
}
}
// osg::notify(osg::NOTICE)<<"Joing _endRenderingDispatchBarrier block"<<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)->makeCurrent();
(*itr)->swapBuffers();
(*itr)->releaseContext();
}
}
for(Scenes::iterator sitr = scenes.begin();
sitr != scenes.end();
++sitr)
{
Scene* scene = *sitr;
osgDB::DatabasePager* dp = scene ? scene->getDatabasePager() : 0;
if (dp)
{
dp->signalEndFrame();
}
}
}