void TerrainManager::fixCompositorClearColor()
{
// hack
// now with extensive error checking
if (CompositorManager::getSingleton().hasCompositorChain(gEnv->mainCamera->getViewport()))
{
// //CompositorManager::getSingleton().getCompositorChain(gEnv->ogreCamera->getViewport())->getCompositor(0)->getTechnique()->getOutputTargetPass()->getPass(0)->setClearColour(fade_color);
CompositorInstance *co = CompositorManager::getSingleton().getCompositorChain(gEnv->mainCamera->getViewport())->_getOriginalSceneCompositor();
if (co)
{
CompositionTechnique *ct = co->getTechnique();
if (ct)
{
CompositionTargetPass *ctp = ct->getOutputTargetPass();
if (ctp)
{
CompositionPass *p = ctp->getPass(0);
if (p)
{
p->setClearColour(fade_color);
}
}
}
}
}
}
//-----------------------------------------------------------------------
void CompositorChain::_compile()
{
clearCompiledState();
bool compositorsEnabled = false;
// force default scheme so materials for compositor quads will determined correctly
MaterialManager& matMgr = MaterialManager::getSingleton();
String prevMaterialScheme = matMgr.getActiveScheme();
matMgr.setActiveScheme(MaterialManager::DEFAULT_SCHEME_NAME);
/// Set previous CompositorInstance for each compositor in the list
CompositorInstance *lastComposition = mOriginalScene;
mOriginalScene->mPreviousInstance = 0;
CompositionPass* pass = mOriginalScene->getTechnique()->getOutputTargetPass()->getPass(0);
pass->setClearBuffers(mViewport->getClearBuffers());
pass->setClearColour(mViewport->getBackgroundColour());
for(Instances::iterator i=mInstances.begin(); i!=mInstances.end(); ++i)
{
if((*i)->getEnabled())
{
compositorsEnabled = true;
(*i)->mPreviousInstance = lastComposition;
lastComposition = (*i);
}
}
/// Compile misc targets
lastComposition->_compileTargetOperations(mCompiledState);
/// Final target viewport (0)
mOutputOperation.renderSystemOperations.clear();
lastComposition->_compileOutputOperation(mOutputOperation);
// Deal with viewport settings
if (compositorsEnabled != mAnyCompositorsEnabled)
{
mAnyCompositorsEnabled = compositorsEnabled;
if (mAnyCompositorsEnabled)
{
// Save old viewport clearing options
mOldClearEveryFrameBuffers = mViewport->getClearBuffers();
// Don't clear anything every frame since we have our own clear ops
mViewport->setClearEveryFrame(false);
}
else
{
// Reset clearing options
mViewport->setClearEveryFrame(mOldClearEveryFrameBuffers > 0,
mOldClearEveryFrameBuffers);
}
}
// restore material scheme
matMgr.setActiveScheme(prevMaterialScheme);
mDirty = false;
}
//---------------------------------------------------------------------
void CompositorManager::_reconstructAllCompositorResources()
{
// In order to deal with shared resources, we have to disable *all* compositors
// first, that way shared resources will get freed
typedef vector<CompositorInstance*>::type InstVec;
InstVec instancesToReenable;
for (Chains::iterator i = mChains.begin(); i != mChains.end(); ++i)
{
CompositorChain* chain = i->second;
CompositorChain::InstanceIterator instIt = chain->getCompositors();
while (instIt.hasMoreElements())
{
CompositorInstance* inst = instIt.getNext();
if (inst->getEnabled())
{
inst->setEnabled(false);
instancesToReenable.push_back(inst);
}
}
}
//UVs are lost, and will never be reconstructed unless we do them again, now
if( mRectangle )
mRectangle->setDefaultUVs();
for (InstVec::iterator i = instancesToReenable.begin(); i != instancesToReenable.end(); ++i)
{
CompositorInstance* inst = *i;
inst->setEnabled(true);
}
}
void TerrainManager::initHDR()
{
Viewport *vp = gEnv->mainCamera->getViewport();
CompositorInstance *instance = CompositorManager::getSingleton().addCompositor(vp, "HDR", 0);
CompositorManager::getSingleton().setCompositorEnabled(vp, "HDR", true);
// HDR needs a special listener
hdr_listener = new HDRListener();
instance->addListener(hdr_listener);
hdr_listener->notifyViewportSize(vp->getActualWidth(), vp->getActualHeight());
hdr_listener->notifyCompositor(instance);
}
void DeferredShadingSystem::logCurrentMode(void)
{
if(mActive == false)
{
LogManager::getSingleton().logMessage("No Compositor Enabled!");
return;
}
CompositorInstance* ci = mInstance[mCurrentMode];
assert(ci->getEnabled() == true);
LogManager::getSingleton().logMessage("Current Mode: ");
LogManager::getSingleton().logMessage(ci->getCompositor()->getName());
}
//-----------------------------------------------------------------------
void CompositorManager::removeCompositor(Viewport *vp, const String &compositor)
{
CompositorChain *chain = getCompositorChain(vp);
for(size_t pos=0; pos < chain->getNumCompositors(); ++pos)
{
CompositorInstance *instance = chain->getCompositor(pos);
if(instance->getCompositor()->getName() == compositor)
{
chain->removeCompositor(pos);
break;
}
}
}
//-----------------------------------------------------------------------
void CompositorManager::setCompositorEnabled(Viewport *vp, const String &compositor, bool value)
{
CompositorChain *chain = getCompositorChain(vp);
for(size_t pos=0; pos < chain->getNumCompositors(); ++pos)
{
CompositorInstance *instance = chain->getCompositor(pos);
if(instance->getCompositor()->getName() == compositor)
{
chain->setCompositorEnabled(pos, value);
break;
}
}
}
//-----------------------------------------------------------------------
void CompositorChain::setCompositorEnabled(size_t position, bool state)
{
CompositorInstance* inst = getCompositor(position);
if (!state && inst->getEnabled())
{
// If we're disabling a 'middle' compositor in a chain, we have to be
// careful about textures which might have been shared by non-adjacent
// instances which have now become adjacent.
CompositorInstance* nextInstance = getNextInstance(inst, true);
if (nextInstance)
{
CompositionTechnique::TargetPassIterator tpit = nextInstance->getTechnique()->getTargetPassIterator();
while(tpit.hasMoreElements())
{
CompositionTargetPass* tp = tpit.getNext();
if (tp->getInputMode() == CompositionTargetPass::IM_PREVIOUS)
{
if (nextInstance->getTechnique()->getTextureDefinition(tp->getOutputName())->pooled)
{
// recreate
nextInstance->freeResources(false, true);
nextInstance->createResources(false);
}
}
}
}
}
inst->setEnabled(state);
}
void CameraBlurListener::notifyMaterialRender(uint32 pass_id, MaterialPtr &mat)
{
if (pass_id == 999)
{
if (mApp->pGame->pause == false)
{
//acquire the texture flipping attribute in the first frame
if(compositorinstance)
{
mRequiresTextureFlipping = compositorinstance->getRenderTarget("previousscene")->requiresTextureFlipping();
compositorinstance=NULL;
}
// this is the camera you're using
#ifndef SR_EDITOR
Camera *cam = mApp->mSplitMgr->mCameras.front();
#else
Camera *cam = mApp->mCamera;
#endif
// get the pass
Pass *pass = mat->getBestTechnique()->getPass(0);
GpuProgramParametersSharedPtr params = pass->getFragmentProgramParameters();
const RenderTarget::FrameStats& stats = mApp->getWindow()->getStatistics();
float m_lastFPS =stats.lastFPS;
Matrix4 projectionMatrix = cam->getProjectionMatrix();
if (mRequiresTextureFlipping)
{
// Because we're not using setProjectionMatrix, this needs to be done here
// Invert transformed y
projectionMatrix[1][0] = -projectionMatrix[1][0];
projectionMatrix[1][1] = -projectionMatrix[1][1];
projectionMatrix[1][2] = -projectionMatrix[1][2];
projectionMatrix[1][3] = -projectionMatrix[1][3];
}
Matrix4 iVP = (projectionMatrix * cam->getViewMatrix()).inverse();
if (params->_findNamedConstantDefinition("EPF_ViewProjectionInverseMatrix"))
params->setNamedConstant("EPF_ViewProjectionInverseMatrix", iVP);
if (params->_findNamedConstantDefinition("EPF_PreviousViewProjectionMatrix"))
params->setNamedConstant("EPF_PreviousViewProjectionMatrix", prevviewproj);
if (params->_findNamedConstantDefinition("intensity"))
params->setNamedConstant("intensity", mApp->pSet->blur_int);
float interpolationFactor = m_lastFPS * 0.03f ; //* m_timeScale m_timeScale is a multiplier to control motion blur interactively
Quaternion current_orientation = cam->getDerivedOrientation();
Vector3 current_position = cam->getDerivedPosition();
Quaternion estimatedOrientation = Quaternion::Slerp(interpolationFactor, current_orientation, (m_pPreviousOrientation));
Vector3 estimatedPosition = (1-interpolationFactor) * current_position + interpolationFactor * (m_pPreviousPosition);
Matrix4 prev_viewMatrix = Math::makeViewMatrix(estimatedPosition, estimatedOrientation);//.inverse().transpose();
// compute final matrix
prevviewproj = projectionMatrix * prev_viewMatrix;
// update position and orientation for next update time
m_pPreviousOrientation = current_orientation;
m_pPreviousPosition = current_position;
}
}
}
virtual void execute(SceneManager *sm, RenderSystem *rs)
{
// Fire listener
instance->_fireNotifyMaterialRender(pass_id, mat);
Rectangle2D * mRectangle=static_cast<Rectangle2D *>(CompositorManager::getSingleton()._getTexturedRectangle2D());
if (mQuadCornerModified)
{
// insure positions are using peculiar render system offsets
RenderSystem* rs = Root::getSingleton().getRenderSystem();
Viewport* vp = rs->_getViewport();
Real hOffset = rs->getHorizontalTexelOffset() / (0.5 * vp->getActualWidth());
Real vOffset = rs->getVerticalTexelOffset() / (0.5 * vp->getActualHeight());
mRectangle->setCorners(mQuadLeft + hOffset, mQuadTop - vOffset, mQuadRight + hOffset, mQuadBottom - vOffset);
}
// Queue passes from mat
Technique::PassIterator i = technique->getPassIterator();
while(i.hasMoreElements())
{
sm->_injectRenderWithPass(
i.getNext(),
mRectangle,
false // don't allow replacement of shadow passes
);
}
}
//---------------------------------------------------------------------
void CompositorManager::_reconstructAllCompositorResources()
{
for (Chains::iterator i = mChains.begin(); i != mChains.end(); ++i)
{
CompositorChain* chain = i->second;
CompositorChain::InstanceIterator instIt = chain->getCompositors();
while (instIt.hasMoreElements())
{
CompositorInstance* inst = instIt.getNext();
if (inst->getEnabled())
{
inst->setEnabled(false);
inst->setEnabled(true);
}
}
}
}
void DeferredShadingSystem::setupLightMaterials(void)
{
assert( mLightMaterialsDirty
&& mCurrentMode == DSM_SHOWLIT
&& mInstance[mCurrentMode]->getEnabled()==true);
CompositorInstance* ci = mInstance[mCurrentMode];
String mrt0 = ci->getTextureInstanceName("mrt_output", 0);
String mrt1 = ci->getTextureInstanceName("mrt_output", 1);
for(LightList::iterator it = mDirtyLightList.begin(); it != mDirtyLightList.end(); ++it)
{
MLight* light = *it;
setupMaterial(light->getMaterial(), mrt0, mrt1);
}
mLightMaterialsDirty = false;
}
//-----------------------------------------------------------------------------------
void Sample_Compositor::changePage(size_t pageNum)
{
assert(pageNum < mNumCompositorPages);
mActiveCompositorPage = pageNum;
size_t maxCompositorsInPage = mCompositorNames.size() - (pageNum * COMPOSITORS_PER_PAGE);
for (size_t i=0; i < COMPOSITORS_PER_PAGE; i++)
{
String checkBoxName = "Compositor_" + Ogre::StringConverter::toString(i);
CheckBox* cb = static_cast<CheckBox*>(mTrayMgr->getWidget(TL_TOPLEFT, checkBoxName));
if (i < maxCompositorsInPage)
{
String compositorName = mCompositorNames[pageNum * COMPOSITORS_PER_PAGE + i];
CompositorInstance *tmpCompo = CompositorManager::getSingleton().getCompositorChain(mViewport)
->getCompositor(compositorName);
cb->setCaption(compositorName);
if( tmpCompo )
{
cb->setChecked( tmpCompo->getEnabled(), false );
cb->show();
}
else
{
cb->setChecked( false, false );
cb->hide();
}
}
else
{
cb->hide();
}
}
OgreBites::Button* pageButton = static_cast<OgreBites::Button*>(mTrayMgr->getWidget(TL_TOPLEFT, "PageButton"));
Ogre::StringStream ss;
ss << "Compositors " << pageNum + 1 << "/" << mNumCompositorPages;
pageButton->setCaption(ss.str());
}
void DeferredShadingSystem::logCurrentMode(void)
{
if (mActive==false)
{
LogManager::getSingleton().logMessage("No Compositor Enabled!");
return;
}
CompositorInstance* ci = mInstance[mCurrentMode];
assert(ci->getEnabled()==true);
LogManager::getSingleton().logMessage("Current Mode: ");
LogManager::getSingleton().logMessage(ci->getCompositor()->getName());
if (mCurrentMode==DSM_SHOWLIT)
{
LogManager::getSingleton().logMessage("Current mrt outputs are:");
LogManager::getSingleton().logMessage(ci->getTextureInstanceName("mrt_output", 0));
LogManager::getSingleton().logMessage(ci->getTextureInstanceName("mrt_output", 1));
}
}
virtual void execute(SceneManager *sm, RenderSystem *rs)
{
// Fire listener
instance->_fireNotifyMaterialRender(pass_id, mat);
// Queue passes from mat
Technique::PassIterator i = technique->getPassIterator();
while(i.hasMoreElements())
{
sm->_injectRenderWithPass(
i.getNext(),
CompositorManager::getSingleton()._getTexturedRectangle2D(),
false // don't allow replacement of shadow passes
);
}
}
void BaseGame::Initialize()
{
ResourceGroupManager::getSingleton().addResourceLocation(Directories::GetContentDirectory() + "/Fonts", "FileSystem", "Essential");
ResourceGroupManager::getSingleton().initialiseResourceGroup("Essential");
// Create scene manager
m_sceneMgr = m_root->createSceneManager(ST_GENERIC, "SceneManager");
m_sceneMgr->setAmbientLight(ColourValue::Black);
// Light
m_light = m_sceneMgr->createLight();
m_light->setType(Light::LT_DIRECTIONAL);
m_light->setDirection(1.0f, 0.0f, 0.0f);
// Space camera
m_camera = new SpaceCamera(*this, Vector3(0, 0, -5));
assert(m_camera);
GetCamera().setFOVy(FieldOfView);
GetCamera().setNearClipDistance(NearPlane);
GetCamera().setFarClipDistance(FarPlane);
m_viewport = m_renderWnd->addViewport(&GetCamera());
m_viewport->setBackgroundColour(m_backgroundColour);
GetCamera().setAspectRatio(Real(m_viewport->getActualWidth()) / Real(m_viewport->getActualHeight()));
m_viewport->setCamera(&GetCamera());
// Ogre overlay
m_textRenderer = new TextRenderer();
Game::Initialize();
// Player
m_player = new Player(*this);
// Sprite
m_sceneMgr->getRenderQueue()->getQueueGroup(RENDER_QUEUE_MAIN + 1)->setShadowsEnabled(false);
m_sprite = new Sprite();
m_sprite->Init(m_sceneMgr, m_viewport, RENDER_QUEUE_MAIN + 1, true);
m_sprite->SetSpriteLocation(Directories::GetContentDirectory() + "/Sprites");
// Lens flare
m_lensFlare = new LensFlare(*this, LensFlare::DefaultSunPos);
//
// Compositors
//
CompositorManager &compMgr = CompositorManager::getSingleton();
// Bloom (crash on d3d if device lost occur)
compMgr.addCompositor(m_viewport, "Bloom");
if (m_root->getRenderSystem()->getName().find("Direct3D") == std::string::npos)
{
compMgr.setCompositorEnabled(m_viewport, "Bloom", true);
}
// Radial blur
CompositorInstance *radialBlur = compMgr.addCompositor(m_viewport, "Radial Blur");
radialBlur->addListener(new RadialBlurListener(*m_player));
compMgr.setCompositorEnabled(m_viewport, "Radial Blur", true);
//
// CEGUI
//
m_ceguiLogger = new CEGUI::DefaultLogger();
assert(m_ceguiLogger);
CEGUI::Logger::getSingleton().setLogFilename(Directories::GetWritablePath("cegui.log"));
m_renderer = &CEGUI::OgreRenderer::bootstrapSystem(*m_renderWnd);
// Disable calls to beginFrame and endFrame, which also disables
// default rendering: we will use a custom rendering method.
m_renderer->setFrameControlExecutionEnabled(true);
// Hook back into the rendering process
//m_sceneMgr->addRenderQueueListener(new CEGUIRQListener(m_renderer, RENDER_QUEUE_OVERLAY, false));
CEGUI::Imageset::setDefaultResourceGroup("GUI");
CEGUI::Font::setDefaultResourceGroup("GUI");
CEGUI::Scheme::setDefaultResourceGroup("GUI");
CEGUI::WidgetLookManager::setDefaultResourceGroup("GUI");
CEGUI::WindowManager::setDefaultResourceGroup("GUI");
CEGUI::ScriptModule::setDefaultResourceGroup("GUI");
CEGUI::SchemeManager::getSingleton().create("VanillaSkin.scheme");
CEGUI::SchemeManager::getSingleton().create("TaharezLook.scheme");
CEGUI::SchemeManager::getSingleton().create("InGame.scheme");
// Set default font
CEGUI::Font &font = CEGUI::FontManager::getSingleton().create("GameFont.font", "GUI");
CEGUI::System::getSingleton().setDefaultFont(&font);
// Set mouse cursor
CEGUI::System::getSingleton().setDefaultMouseCursor("Vanilla-Images", "MouseArrow");
CEGUI::MouseCursor::getSingleton().setImage(CEGUI::System::getSingleton().getDefaultMouseCursor());
// Set initial cursor position
CEGUI::System::getSingleton().injectMousePosition((float)m_renderWnd->getWidth() / 2.0f + 1, (float)m_renderWnd->getHeight() / 2.0f);
//
// Sound
//
m_sound = new Sound();
// FPS
m_textRenderer->AddTextBox("txtFps", "Fps: ",
(Real)m_viewport->getActualLeft(), (Real)m_viewport->getActualTop(),
(Real)m_viewport->getActualWidth(), (Real)m_viewport->getActualHeight() + m_fpsOverlayHeight);
}
//---------------------------------------------------------------------
void CompositorInstance::deriveTextureRenderTargetOptions(
const String& texname, bool *hwGammaWrite, uint *fsaa)
{
// search for passes on this texture def that either include a render_scene
// or use input previous
bool renderingScene = false;
CompositionTechnique::TargetPassIterator it = mTechnique->getTargetPassIterator();
while (it.hasMoreElements())
{
CompositionTargetPass* tp = it.getNext();
if (tp->getOutputName() == texname)
{
if (tp->getInputMode() == CompositionTargetPass::IM_PREVIOUS)
{
// this may be rendering the scene implicitly
// Can't check mPreviousInstance against mChain->_getOriginalSceneCompositor()
// at this time, so check the position
CompositorChain::InstanceIterator instit = mChain->getCompositors();
renderingScene = true;
while(instit.hasMoreElements())
{
CompositorInstance* inst = instit.getNext();
if (inst == this)
break;
else if (inst->getEnabled())
{
// nope, we have another compositor before us, this will
// be doing the AA
renderingScene = false;
}
}
if (renderingScene)
break;
}
else
{
// look for a render_scene pass
CompositionTargetPass::PassIterator pit = tp->getPassIterator();
while(pit.hasMoreElements())
{
CompositionPass* pass = pit.getNext();
if (pass->getType() == CompositionPass::PT_RENDERSCENE)
{
renderingScene = true;
break;
}
}
}
}
}
if (renderingScene)
{
// Ok, inherit settings from target
RenderTarget* target = mChain->getViewport()->getTarget();
*hwGammaWrite = target->isHardwareGammaEnabled();
*fsaa = target->getFSAA();
}
else
{
*hwGammaWrite = false;
*fsaa = 0;
}
}
//-----------------------------------------------------------------------------------
void Sample_Compositor::checkBoxToggled(OgreBites::CheckBox * box)
{
if (Ogre::StringUtil::startsWith(box->getName(), "Compositor_", false))
{
String compositorName = box->getCaption();
String activeTex = mDebugTextureSelectMenu->getSelectedItem();
if (!box->isChecked())
{
//Remove the items from the debug menu and remove debug texture if from disabled compositor
bool debuggingRemovedTex = StringUtil::startsWith(activeTex, compositorName, false);
if (debuggingRemovedTex)
{
mDebugTextureTUS->setContentType(TextureUnitState::CONTENT_NAMED);
mDebugTextureSelectMenu->selectItem(0, true);
}
for (unsigned int i = 1; i < mDebugTextureSelectMenu->getNumItems(); i++)
{
if (StringUtil::startsWith(mDebugTextureSelectMenu->getItems()[i], compositorName, false))
{
mDebugTextureSelectMenu->removeItem(i);
i--;
}
}
if (!debuggingRemovedTex)
{
//Selection clears itself when removing items. Restore.
mDebugTextureSelectMenu->selectItem(activeTex, false);
}
}
CompositorManager::getSingleton().setCompositorEnabled(mViewport, compositorName, box->isChecked());
if (box->isChecked())
{
//Add the items to the selectable texture menu
CompositorInstance* instance = CompositorManager::getSingleton().getCompositorChain(mViewport)->getCompositor(compositorName);
if (instance)
{
CompositionTechnique::TextureDefinitionIterator it = instance->getTechnique()->getTextureDefinitionIterator();
while (it.hasMoreElements())
{
CompositionTechnique::TextureDefinition* texDef = it.getNext();
size_t numTextures = texDef->formatList.size();
if (numTextures > 1)
{
for (size_t i=0; i<numTextures; i++)
{
//Dirty string composition. NOT ROBUST!
mDebugTextureSelectMenu->addItem(compositorName + ";" + texDef->name + ";" +
Ogre::StringConverter::toString((Ogre::uint32)i));
}
}
else
{
mDebugTextureSelectMenu->addItem(compositorName + ";" + texDef->name);
}
}
mDebugTextureSelectMenu->selectItem(activeTex, false);
}
}
}
}
