// redraw the window
void display(void)
{
// redraw the client window
_mgr->redraw();
OSG::commitChanges();
try
{
if(_cluster_win != NULL)
{
OSG::Thread::getCurrentChangeList()->dump();
// redraw the server windows
_cluster_win->render((OSG::RenderAction *) _mgr->getRenderAction());
}
}
catch(OSG_STDEXCEPTION_NAMESPACE::exception &e)
{
//printf("error: '%s'\n", e.what());
printf("ClusterServer was killed!\n");
_cluster_win = NULL;
}
OSG::commitChanges();
OSG::clearChangeList();
}
//
// redraw the window
//
void display(void)
{
// render
mgr->redraw();
// all done, swap
glutSwapBuffers();
}
// redraw the window
void display(void)
{
// render
mgr->redraw();
// all done, swap (better not GV)
//glutSwapBuffers();
}
// redraw the window
void display(void)
{
OSG::Real64 t = OSG::getSystemTime();
// render scene
_mgr->redraw();
t = OSG::getSystemTime() - t;
if(t > 0.0)
printf("fps: %f\r", 1.0f / OSG::Real32(t));
else
printf("fps: very fast ...\r");
}
// redraw the window
void display( void )
{
// create the matrix
OSG::Matrix m;
OSG::Real32 t = glutGet(GLUT_ELAPSED_TIME );
m.setTransform(OSG::Quaternion(OSG::Vec3f(0,1,0), t / 1000.f));
// set the transform's matrix
trans->setMatrix(m);
OSG::commitChanges();
mgr->redraw();
}
// redraw the window
void display(void)
{
// std::cout << ">> FRAME START" << std::endl;
static OSG::Time tAcc = 0;
static OSG::UInt32 fc = 0;
OSG::Time t0 = OSG::getSystemTime();
OSG::FrameHandler::the()->frame();
OSG::commitChangesAndClear();
mgr->idle();
mgr->redraw();
OSG::Time t1 = OSG::getSystemTime();
tAcc += (t1 - t0);
fc += 1;
if(tAcc >= 1)
{
std::cout << "frame count [" << fc
<< "] fc/tAcc [" << (fc/tAcc)
<< "] tAcc/fc [" << (1000.f * (tAcc/fc))
<< "] ms tAcc [" << tAcc << "] s" << std::endl;
tAcc = 0;
fc = 0;
}
// std::cout << "<< FRAME END" << std::endl;
// mgr->getWindow()->registerConstant(GL_MAX_VERTEX_UNIFORM_COMPONENTS );
// mgr->getWindow()->registerConstant(GL_MAX_FRAGMENT_UNIFORM_COMPONENTS);
// OSG::Real32 maxVPUniforms =
// mgr->getWindow()->getConstantValue(GL_MAX_VERTEX_UNIFORM_COMPONENTS);
// OSG::Real32 maxFPUniforms =
// mgr->getWindow()->getConstantValue(GL_MAX_FRAGMENT_UNIFORM_COMPONENTS);
// std::cout << "GL_MAX_VERTEX_UNIFORM_COMPONENTS [" << maxVPUniforms
// << "] GL_MAX_FRAGMENT_UNIFORM_COMPONENTS [" << maxFPUniforms
// << "]" << std::endl;
}
// redraw the window
void display( void )
{
// create the matrix
OSG::Real32 t = glutGet(GLUT_ELAPSED_TIME );
// stagger the lights in time, so that they follow each other
for(OSG::UInt16 i = 0; i < nlights; ++i)
{
OSG::Matrix m;
makeMatrix(t - 2000 * i, m);
lightBeacons[i]->setMatrix(m);
}
OSG::commitChanges();
mgr->redraw();
}
//
// redraw the window
//
void display(void)
{
// create the matrix
OSG::Matrix m;
OSG::Real32 t = glutGet(GLUT_ELAPSED_TIME );
// set the transforms' matrices
m.setTransform(OSG::Vec3f(0, 0, OSG::osgSin(t / 1000.f) * 1.5),
OSG::Quaternion( OSG::Vec3f (1, 0, 0), t / 500.f));
cyltrans->setMatrix(m);
m.setTransform(OSG::Vec3f(OSG::osgSin(t / 1000.f), 0, 0),
OSG::Quaternion( OSG::Vec3f (0, 0, 1), t / 1000.f));
tortrans->setMatrix(m);
OSG::commitChanges();
mgr->redraw();
}
// redraw the window
void display( void )
{
// update the geometry
OSG::Matrix m;
OSG::Real32 t = glutGet(GLUT_ELAPSED_TIME );
m.setTransform(OSG::Vec3f(OSG::osgSin(t / 1000.f),
OSG::osgCos(t / 1000.f),
OSG::osgSin(t / 1000.f)),
OSG::Quaternion( OSG::Vec3f(0,1,0), t / 1000.f));
trans->setMatrix(m);
// update the image
grabImage(image);
// redraw the screen
mgr->redraw();
}
//
// redraw the window
//
void display(void)
{
// light spot direction and light position must be provided in eye space
update_light_state(ubo_light_state, lights);
// create the matrix
OSG::Matrix m;
OSG::Real32 t = glutGet(GLUT_ELAPSED_TIME );
// set the transforms' matrices
m.setTransform(OSG::Vec3f(0, 0, OSG::osgSin(t / 1000.f) * 1.5),
OSG::Quaternion( OSG::Vec3f (1, 0, 0), t / 500.f));
cyltrans->setMatrix(m);
m.setTransform(OSG::Vec3f(OSG::osgSin(t / 1000.f), 0, 0),
OSG::Quaternion( OSG::Vec3f (0, 0, 1), t / 1000.f));
tortrans->setMatrix(m);
OSG::commitChanges();
mgr->redraw();
}
// redraw the window
void display(void)
{
static OSG::Real32 speed = 10000.0f;
static OSG::Real32 t = glutGet(GLUT_ELAPSED_TIME);
static OSG::Real32 t2 = 0.0;
OSG::Real32 td = glutGet(GLUT_ELAPSED_TIME) - t;
if(td > speed)
t = glutGet(GLUT_ELAPSED_TIME);
if(_animation)
{
t2 = (2 * OSG::Pi / speed) * td;
_shl_vp->updateUniformVariable("cos_time_0_2PI", OSG::osgCos(t2));
_shl_vp->updateUniformVariable("sin_time_0_2PI", OSG::osgSin(t2));
}
OSG::Thread::getCurrentChangeList()->commitChanges();
// render scene
_mgr->redraw();
}
void display(void)
{
mgr->redraw();
}
// redraw the window
void display(void)
{
mgr->idle();
mgr->redraw();
}
// redraw the window
void display(void)
{
// render scene
_mgr->redraw();
}
int doMain(int argc, char **argv)
{
//
// This might be necessary depending on the
// used platform to ensure that the corresponding
// libraries get loaded.
//
OSG::preloadSharedObject("OSGFileIO");
OSG::preloadSharedObject("OSGImageFileIO");
OSG::preloadSharedObject("OSGContribPLY");
OSG::osgInit(argc,argv);
// GLUT init
glutInit(&argc, argv);
glutInitDisplayMode(GLUT_RGB | GLUT_DEPTH | GLUT_STENCIL | GLUT_DOUBLE);
glutCreateWindow("OpenSG");
glutReshapeFunc(reshape);
glutDisplayFunc(display);
glutIdleFunc(display);
glutMouseFunc(mouse);
glutMotionFunc(motion);
glutKeyboardFunc(keyboard);
OSG::PassiveWindowRefPtr pwin=OSG::PassiveWindow::create();
pwin->init();
// create the SimpleSceneManager helper
mgr = OSG::SimpleSceneManager::create();
// create the window and initial camera/viewport
mgr->setWindow(pwin);
//
// for storing clipplane beacon we use a container
// collection attachment which we attach to the scene
// node. Otherwise the scene could not be saved correctly,
// as the beacons would be lost.
//
container = OSG::ContainerCollection::create();
//
// Implementation details:
// For each clip plane we provide a ClipPlaneChunk, the plane geometry,
// the plane transform core and at least a plane color conveniently in
// a vector of type VecClipPlaneDetailsT. The next function call
// initializes this data structure.
//
createClipPlaneDetails();
//
// The scene
//
scene = OSG::Node::create();
scene->setCore(OSG::Group::create());
scene->addAttachment(container);
//
// A place for accessing the box and torus.
//
vecGeometries.push_back(NULL);
vecGeometries.push_back(NULL);
//
// Build concrete clipping planes and update the clip plane details.
//
ClipPlaneData data1;
ClipPlaneData data2;
data1._equation = OSG::Vec4f(0,0,1,0);
data1._enabled = true;
data2._equation = OSG::Vec4f(1,0,0,0);
data2._enabled = false;
vecClipPlaneData.push_back(data1);
vecClipPlaneData.push_back(data2);
updateClipPlanes(vecClipPlaneData);
keyboard('3',-1,-1);
keyboard('4',-1,-1);
// tell the manager what to manage
mgr->setRoot(scene);
// show the whole scene
mgr->showAll();
mgr->redraw();
pwin->dumpExtensions();
return 0;
}
// redraw the window
void display(void)
{
if(glutGetWindow() == mainwinid)
{
#ifdef OSG_WITH_NVPERFSDK
if(nvDataProvider->nCounters())
{
nvDataProvider->sample();
OSG::Char8 str[40];
for(int i = 0; nvStatElems[i] != NULL; ++i)
{
if(collector != NULL)
{
sprintf(str, "%s: %f", nvStatElems[i]->getDescription().c_str(),
nvDataProvider->value(i));
OSG::StatStringElem *e = dynamic_cast<OSG::StatStringElem*>(
collector->getElem(*nvStatElems[i]));
e->set(str);
}
}
}
if(runExperiment)
{
int nCount;
const char *expCounters[] = {
"2D Bottleneck", "2D SOL",
"IDX Bottleneck", "IDX SOL",
"GEOM Bottleneck", "GEOM SOL",
"ZCULL Bottleneck", "ZCULL SOL",
"TEX Bottleneck", "TEX SOL",
"ROP Bottleneck", "ROP SOL",
"SHD Bottleneck", "SHD SOL",
"FB Bottleneck", "FB SOL",
"GPU Bottleneck", // Needs to be last
NULL };
for(int i = 0; expCounters[i] != NULL; ++i)
{
NVPMAddCounterByName(const_cast<char *>(expCounters[i]));
}
NVPMBeginExperiment(&nCount);
FLOG(("NVPerfKitSDK: Running %d passes\n", nCount));
for(int i = 0; i < nCount; i++)
{
NVPMBeginPass(i);
mgr->redraw();
NVPMEndPass(i);
}
NVPMEndExperiment();
UINT64 value, cycles;
for(int i = 0; expCounters[i] != NULL; ++i)
{
NVPMGetCounterValueByName(const_cast<char *>(expCounters[i]), 0, &value, &cycles);
FLOG(("%s: %lld value, %lld cycles (%.4f%%)\n",
expCounters[i], value, cycles, value * 100. / cycles));
}
char buffer[1000] = "";
NVPMGetGPUBottleneckName(value, buffer);
FLOG(("GPU Bottleneck: '%s'\n", buffer));
for(int i = 0; expCounters[i] != NULL; ++i)
{
//NVPMRemoveCounterByName(expCounters[i]);
}
runExperiment = false;
}
#endif
mgr->redraw();
}
else if(glutGetWindow() == debugwinid)
{
// Use RenderAction to prevent new occlusion culling on debug output
debugwin->render(debugact);
}
}
// redraw the window
void display(void)
{
g_mgr->idle();
g_mgr->redraw();
OSG::Thread::getCurrentChangeList()->clear();
}
void Animate()
{
//Show FPS
//showFpsCounter();
if(bAnim == true)
{
static OSG::Real64 t0 = OSG::getSystemTime();
OSG::Real64 t = OSG::getSystemTime() - t0;
OSG::Real32 rot0 = t * 0.25;
if(rot0 > 360.0)
rot0 -= 360.0;
OSG::Real32 rota = t * 0.5;
if(rota > 360.0)
rota -= 360.0;
OSG::Real32 rotb = t * 1.0;
if(rotb > 360.0)
rotb -= 360.0;
OSG::Real32 rotc = t * 1.5;
if(rotc > 360.0)
rotc -= 360.0;
OSG::Real32 rotd = t * 2.0;
if(rotd > 360.0)
rotd -= 360.0;
// _light2_trans->editMatrix().setTranslate(-100.0*sin(rota),-100.0*cos(rota), 250.0);
//animate Trees
OSG::Quaternion q;
q.setValueAsAxisRad(1, 1, 1, 0.5 * sin(rota));
_tree1_trans->editMatrix().setRotate(q);
_tree1_trans->editMatrix().setScale(OSG::Vec3f(12.0, 12.0, 10.0));
q.setIdentity();
q.setValueAsAxisRad(1, 1, 1, 0.5 * sin(rotc));
_tree2_trans->editMatrix().setRotate(q);
_tree2_trans->editMatrix().setScale(OSG::Vec3f(12.0, 12.0, 10.0));
q.setIdentity();
q.setValueAsAxisRad(1, 1, 1, 0.5 * sin(rotb));
_tree3_trans->editMatrix().setRotate(q);
_tree3_trans->editMatrix().setScale(OSG::Vec3f(12.0, 12.0, 10.0));
q.setIdentity();
q.setValueAsAxisRad(1, 1, 1, 0.5 * sin(rotb));
_tree4_trans->editMatrix().setRotate(q);
_tree4_trans->editMatrix().setScale(OSG::Vec3f(12.0, 12.0, 10.0));
q.setIdentity();
q.setValueAsAxisRad(1, 1, 1, 0.5 * sin(rotc));
_tree5_trans->editMatrix().setRotate(q);
_tree5_trans->editMatrix().setScale(OSG::Vec3f(12.0, 12.0, 10.0));
q.setIdentity();
q.setValueAsAxisRad(1, 1, 1, 0.5 * sin(rotb));
_tree6_trans->editMatrix().setRotate(q);
_tree6_trans->editMatrix().setScale(OSG::Vec3f(12.0, 12.0, 10.0));
q.setIdentity();
q.setValueAsAxisRad(1, 1, 1, 0.5 * sin(rotd));
_tree7_trans->editMatrix().setRotate(q);
_tree7_trans->editMatrix().setScale(OSG::Vec3f(12.0, 12.0, 10.0));
q.setIdentity();
q.setValueAsAxisRad(1, 1, 1, 0.5 * sin(rotb));
_tree8_trans->editMatrix().setRotate(q);
_tree8_trans->editMatrix().setScale(OSG::Vec3f(12.0, 12.0, 10.0));
q.setIdentity();
q.setValueAsAxisRad(1, 1, 1, 0.5 * sin(rotc));
_tree9_trans->editMatrix().setRotate(q);
_tree9_trans->editMatrix().setScale(OSG::Vec3f(12.0, 12.0, 10.0));
q.setIdentity();
{
OSG::Matrix m;
m.setIdentity();
OSG::Vec3f scale(0.15f,0.15f,0.15f);
OSG::Vec3f trans(-40.0 * sin(rotb),-40.0 * cos(rotb),
50.0 + 25.0 * sin(rotd));
q.setValueAsAxisRad(0, 0, 1, -rotb);
m.setTransform(trans, q, scale);
_obj1_trans->setMatrix(m);
}
// {
// _light2_trans->editMatrix().setTranslate(-40.0 * sin(rotb), -40.0 *
// cos(rotb),
// 50.0 + 25.0 * sin(rotd));
// }
//animate Dinos
{
OSG::Matrix m;
m.setIdentity();
OSG::Vec3f scale(5.0,5.0,5.0);
OSG::Real32 ztrans1 = sin(2.0 * rotd);
if(ztrans1 < 0)
ztrans1 *= -1.0;
OSG::Vec3f trans(-96.0 * cos(rot0),-96.0 * sin(rot0),
10.0 + 8.0 * ztrans1);
m.setScale(OSG::Vec3f(5.0, 5.0, 5.0));
q.setValueAsAxisRad(0, 0, 1, rot0 - 170);
m.setTransform(trans, q, scale);
_dino1_trans->setMatrix(m);
}
{
OSG::Matrix m;
m.setIdentity();
OSG::Vec3f scale(3.0,3.0,3.0);
OSG::Real32 ztrans1 = sin(2.5 * rotd);
if(ztrans1 < 0)
ztrans1 *= -1.0;
OSG::Vec3f trans(-96.0 * cos((rot0 - 0.5)),-96.0 * sin((rot0 - 0.5)),
6.0 + 8.0 * ztrans1);
m.setScale(OSG::Vec3f(5.0, 5.0, 5.0));
q.setValueAsAxisRad(0, 0, 1, rot0 - 169.9);
m.setTransform(trans, q, scale);
_dino2_trans->setMatrix(m);
}
{
OSG::Matrix m;
m.setIdentity();
OSG::Vec3f scale(3.0,3.0,3.0);
OSG::Real32 ztrans1 = sin(3.0 * rotd);
if(ztrans1 < 0)
ztrans1 *= -1.0;
OSG::Vec3f trans(-96.0 * cos((rot0 - 0.8)),-96.0 * sin((rot0 - 0.8)),
6.0 + 8.0 * ztrans1);
m.setScale(OSG::Vec3f(5.0, 5.0, 5.0));
q.setValueAsAxisRad(0, 0, 1, rot0 - 170.1);
m.setTransform(trans, q, scale);
_dino3_trans->setMatrix(m);
}
{
OSG::Matrix m;
m.setIdentity();
OSG::Vec3f scale(3.0,3.0,3.0);
OSG::Real32 ztrans1 = sin(2.75 * rotd);
if(ztrans1 < 0)
ztrans1 *= -1.0;
OSG::Vec3f trans(-96.0 * cos((rot0 - 1.2)),-96.0 * sin((rot0 - 1.2)),
6.0 + 8.0 * ztrans1);
m.setScale(OSG::Vec3f(5.0, 5.0, 5.0));
q.setValueAsAxisRad(0, 0, 1, rot0 - 170.1);
m.setTransform(trans, q, scale);
_dino4_trans->setMatrix(m);
}
}
_navigator.idle(_mousebuttons, _lastx, _lasty);
mgr->redraw();
}
// redraw the window
void display(void)
{
_navigator.updateCameraTransformation();
mgr->redraw();
}
int main(int argc, char **argv)
{
g_error = 0.01f;
if ( argc > 1 && !strcmp(argv[1], "-f"))
{
std::cerr << "Using forceTesselate()." << std::endl;
useForceTesselate = true;
++argv, --argc;
}
if ( argc == 2 )
{
g_error = atof( argv[1] );
}
if ( g_error < 0.001 )
{
g_error = 0.001f;
}
OSG::osgInit(argc,argv);
// GLUT init
glutInit(&argc, argv);
glutInitDisplayMode(GLUT_RGB | GLUT_DEPTH | GLUT_DOUBLE);
int winid = glutCreateWindow("OpenSG");
glutReshapeFunc(reshape);
glutDisplayFunc(display);
glutIdleFunc(display);
glutMouseFunc(mouse);
glutMotionFunc(motion);
glutKeyboardFunc(keyboard);
{
OSG::GLUTWindowRefPtr gwin = OSG::GLUTWindow::create();
gwin->setGlutId(winid);
gwin->init();
// create the scene
OSG::NodeRefPtr scene;
scene = makeScene( );
if ( scene == NULL )
{
std::cerr<<"makeScene returned NullFC, exiting..."<<std::endl;
return -1;
}
// create the SimpleSceneManager helper
mgr = OSG::SimpleSceneManager::create();
// create the window and initial camera/viewport
mgr->setWindow( gwin );
// tell the manager what to manage
mgr->setRoot ( scene );
// show the whole scene
mgr->showAll();
mgr->redraw();
OSG::SolidBackgroundRefPtr bgr = OSG::SolidBackground::create();
bgr->setColor( OSG::Color3f( 0.7f, 0.7f, 0.7f ));
mgr->getWindow()->getPort(0)->setBackground( bgr );
}
// GLUT main loop
glutMainLoop();
return 0;
}
