void HMDStereoRender::drawAll(ISceneManager* smgr) {
ICameraSceneNode* camera = smgr->getActiveCamera();
camera->OnAnimate(_timer->getTime());
// Render Left
_driver->setRenderTarget(_renderTexture, true, true, video::SColor(0,0,0,0));
_pCamera->setProjectionMatrix(_projectionLeft);
vector3df r = camera->getRotation();
vector3df tx(-_eyeSeparation, 0.0,0.0);
tx.rotateXZBy(-r.Y);
tx.rotateYZBy(-r.X);
tx.rotateXYBy(-r.Z);
_pCamera->setPosition(camera->getPosition() + tx);
_pCamera->setTarget(camera->getTarget() + tx);
smgr->setActiveCamera(_pCamera);
smgr->drawAll();
_driver->setRenderTarget(0, false, false, video::SColor(0,100,100,100));
_driver->setViewPort(_viewportLeft);
_distortionCB.lensCenter[0] = _lensShift;
_driver->setMaterial(_renderMaterial);
_driver->drawIndexedTriangleList(_planeVertices, 4, _planeIndices, 2);
// Render Right
_driver->setRenderTarget(_renderTexture, true, true, video::SColor(0,0,0,0));
_pCamera->setProjectionMatrix(_projectionRight);
vector3df r2 = camera->getRotation();
vector3df tx2(-_eyeSeparation, 0.0,0.0);
tx.rotateXZBy(-r2.Y);
tx.rotateYZBy(-r2.X);
tx.rotateXYBy(-r2.Z);
_pCamera->setPosition(camera->getPosition() + tx2);
_pCamera->setTarget(camera->getTarget() + tx2);
smgr->drawAll();
_driver->setRenderTarget(0, false, false, video::SColor(0,100,100,100));
_driver->setViewPort(_viewportRight);
_distortionCB.lensCenter[0] = -_lensShift;
_driver->setMaterial(_renderMaterial);
_driver->drawIndexedTriangleList(_planeVertices, 4, _planeIndices, 2);
smgr->setActiveCamera(camera);
}
void EffectHandler::update(const irr::u32 time, const bool screenSpaceOnly,irr::video::ITexture* outputTarget,irr::scene::ISceneNode* node,irr::core::array<scene::IMeshBuffer*>* buffers)
{
if(outputTarget)
{
if(outputTarget->getSize()!= ScreenRTT->getSize())
{
setScreenRenderTargetResolution(outputTarget->getSize());
}
}
if (shadowsUnsupported || smgr->getActiveCamera() == 0)
return;
if (!ShadowNodeArray.empty() && !LightList.empty())
{
driver->setRenderTarget(ScreenQuad.rt[0], true, true, AmbientColour);
ICameraSceneNode* activeCam = smgr->getActiveCamera();
activeCam->OnAnimate(device->getTimer()->getTime());
activeCam->OnRegisterSceneNode();
activeCam->render();
const u32 ShadowNodeArraySize = ShadowNodeArray.size();
const u32 LightListSize = LightList.size();
for (u32 l = 0; l < LightListSize; ++l)
{
// Set max distance constant for depth shader.
depthMC->FarLink = LightList[l].getFarValue();
driver->setTransform(ETS_VIEW, LightList[l].getViewMatrix());
driver->setTransform(ETS_PROJECTION, LightList[l].getProjectionMatrix());
ITexture* currentShadowMapTexture = getShadowMapTexture(LightList[l].getShadowMapResolution());
driver->setRenderTarget(currentShadowMapTexture, true, true, SColor(0xffffffff));
for (u32 i = 0; i < ShadowNodeArraySize; ++i)
{
if (ShadowNodeArray[i].shadowMode == ESM_RECEIVE || ShadowNodeArray[i].shadowMode == ESM_EXCLUDE)
continue;
const u32 CurrentMaterialCount = ShadowNodeArray[i].node->getMaterialCount();
core::array<irr::s32> BufferMaterialList(CurrentMaterialCount);
BufferMaterialList.set_used(0);
for (u32 m = 0; m < CurrentMaterialCount; ++m)
{
BufferMaterialList.push_back(ShadowNodeArray[i].node->getMaterial(m).MaterialType);
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)
(BufferMaterialList[m] == video::EMT_TRANSPARENT_ALPHA_CHANNEL_REF ? DepthT : Depth);
}
ShadowNodeArray[i].node->OnAnimate(device->getTimer()->getTime());
ShadowNodeArray[i].node->render();
const u32 BufferMaterialListSize = BufferMaterialList.size();
for (u32 m = 0; m < BufferMaterialListSize; ++m)
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)BufferMaterialList[m];
}
// Blur the shadow map texture if we're using VSM filtering.
if (useVSM)
{
ITexture* currentSecondaryShadowMap = getShadowMapTexture(LightList[l].getShadowMapResolution(), true);
driver->setRenderTarget(currentSecondaryShadowMap, true, true, SColor(0xffffffff));
ScreenQuad.getMaterial().setTexture(0, currentShadowMapTexture);
ScreenQuad.getMaterial().setTexture(0, currentShadowMapTexture);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)VSMBlurH;
ScreenQuad.getMaterial().TextureLayer[0].TextureWrapU=1;
ScreenQuad.getMaterial().TextureLayer[0].BilinearFilter=0;
//ScreenQuad.getMaterial().TextureLayer[1].BilinearFilter=false;
ScreenQuad.render(driver);
driver->setRenderTarget(currentShadowMapTexture, true, true, SColor(0xffffffff));
ScreenQuad.getMaterial().setTexture(0, currentSecondaryShadowMap);
ScreenQuad.getMaterial().setTexture(0, currentSecondaryShadowMap);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)VSMBlurV;
ScreenQuad.getMaterial().TextureLayer[0].BilinearFilter=0;
//ScreenQuad.getMaterial().TextureLayer[1].BilinearFilter=false;
ScreenQuad.render(driver);
}
driver->setRenderTarget(ScreenQuad.rt[1], true, true, SColor(0,0,0,0));
driver->setTransform(ETS_VIEW, activeCam->getViewMatrix());
driver->setTransform(ETS_PROJECTION, activeCam->getProjectionMatrix());
shadowMC->LightColour = LightList[l].getLightColor();
shadowMC->LightLink = LightList[l].getPosition();
shadowMC->FarLink = LightList[l].getFarValue();
shadowMC->ViewLink = LightList[l].getViewMatrix();
shadowMC->ProjLink = LightList[l].getProjectionMatrix();
shadowMC->MapRes = (f32)LightList[l].getShadowMapResolution();
for (u32 i = 0; i < ShadowNodeArraySize; ++i)
{
if (ShadowNodeArray[i].shadowMode == ESM_CAST || ShadowNodeArray[i].shadowMode == ESM_EXCLUDE)
continue;
const u32 CurrentMaterialCount = ShadowNodeArray[i].node->getMaterialCount();
core::array<irr::s32> BufferMaterialList(CurrentMaterialCount);
core::array<irr::video::ITexture*> BufferTextureList(CurrentMaterialCount);
core::array<u8> clampModesUList(CurrentMaterialCount);
core::array<u8> clampModesVList(CurrentMaterialCount);
for (u32 m = 0; m < CurrentMaterialCount; ++m)
{
BufferMaterialList.push_back(ShadowNodeArray[i].node->getMaterial(m).MaterialType);
BufferTextureList.push_back(ShadowNodeArray[i].node->getMaterial(m).getTexture(0));
if (screenSpaceOnly)
{
if(LightList[l].isSpot())
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)ShadowSSS[ShadowNodeArray[i].filterType];
else
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)ShadowSS[ShadowNodeArray[i].filterType];
}
else
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)Shadow[ShadowNodeArray[i].filterType];
ShadowNodeArray[i].node->getMaterial(m).setTexture(0, currentShadowMapTexture);
clampModesUList.push_back(ShadowNodeArray[i].node->getMaterial(m).TextureLayer[0].TextureWrapU);
clampModesVList.push_back(ShadowNodeArray[i].node->getMaterial(m).TextureLayer[0].TextureWrapV);
//ShadowNodeArray[i].node->getMaterial(m).TextureLayer[0].TextureWrapU=video::ETC_CLAMP;
//ShadowNodeArray[i].node->getMaterial(m).TextureLayer[0].TextureWrapV=video::ETC_CLAMP;
}
//Render all project shadow maps
if (!node)
{
ShadowNodeArray[i].node->OnAnimate(device->getTimer()->getTime());
ShadowNodeArray[i].node->render();
}
else
{
//render projected shadows on specific buffers of a single shAdow map
if (ShadowNodeArray[i].node==node)
{
ShadowNodeArray[i].node->OnAnimate(device->getTimer()->getTime());
driver->setTransform(video::ETS_WORLD, node->getAbsoluteTransformation());
irr::core::array<scene::IMeshBuffer*>bufferlist=*buffers;
for (int buf=0; buf<bufferlist.size(); buf++)
{
driver->setMaterial(ShadowNodeArray[i].node->getMaterial(buf));
driver->drawMeshBuffer(bufferlist[buf]);
}
}
}
for (u32 m = 0; m < CurrentMaterialCount; ++m)
{
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)BufferMaterialList[m];
ShadowNodeArray[i].node->getMaterial(m).setTexture(0, BufferTextureList[m]);
ShadowNodeArray[i].node->getMaterial(m).TextureLayer[0].TextureWrapU=clampModesUList[m];
ShadowNodeArray[i].node->getMaterial(m).TextureLayer[0].TextureWrapV=clampModesVList[m];
}
}
driver->setRenderTarget(ScreenQuad.rt[0], false, false, SColor(0,0,0,0));
ScreenQuad.getMaterial().setTexture(0, ScreenQuad.rt[1]);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)Simple;
ScreenQuad.getMaterial().ColorMask=0xffffffff;
ScreenQuad.render(driver);
}
/*
// Render all the excluded and casting-only nodes.
for (u32 i = 0;i < ShadowNodeArraySize;++i)
{
if (ShadowNodeArray[i].shadowMode != ESM_CAST && ShadowNodeArray[i].shadowMode != ESM_EXCLUDE)
continue;
const u32 CurrentMaterialCount = ShadowNodeArray[i].node->getMaterialCount();
core::array<irr::s32> BufferMaterialList(CurrentMaterialCount);
BufferMaterialList.set_used(0);
for (u32 m = 0;m < CurrentMaterialCount;++m)
{
BufferMaterialList.push_back(ShadowNodeArray[i].node->getMaterial(m).MaterialType);
switch (BufferMaterialList[m])
{
case EMT_TRANSPARENT_ALPHA_CHANNEL_REF:
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)WhiteWashTRef;
break;
case EMT_TRANSPARENT_ADD_COLOR:
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)WhiteWashTAdd;
break;
case EMT_TRANSPARENT_ALPHA_CHANNEL:
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)WhiteWashTAlpha;
break;
default:
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)WhiteWash;
break;
}
}
ShadowNodeArray[i].node->OnAnimate(device->getTimer()->getTime());
ShadowNodeArray[i].node->render();
for (u32 m = 0;m < CurrentMaterialCount;++m)
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)BufferMaterialList[m];
}*/
}
else
{
driver->setRenderTarget(ScreenQuad.rt[0], true, true, SColor(0xffffffff));
}
if (!screenSpaceOnly)
{
driver->setRenderTarget(ScreenQuad.rt[1], true, true, SColor(0xffffffff));
core::list<scene::ISceneNode*>::ConstIterator it = smgr->getRootSceneNode()->getChildren().begin();
while (it!=smgr->getRootSceneNode()->getChildren().end())
{
scene::ISceneNode* node = *it;
node->OnAnimate(time);
node->render();
it++;
}
}
const u32 PostProcessingRoutinesSize = PostProcessingRoutines.size();
if (!screenSpaceOnly)
{
driver->setRenderTarget(outputTarget, true, true, SColor(0x0));
ScreenQuad.getMaterial().setTexture(0, ScreenQuad.rt[1]);
ScreenQuad.getMaterial().setTexture(1, ScreenQuad.rt[0]);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)LightModulate;
ScreenQuad.render(driver);
}
if (outputTarget)
{
driver->setRenderTarget(ScreenRTT , true, true, SColor(0,255,0,255));
ScreenQuad.getMaterial().setTexture(0, ScreenQuad.rt[0]);
ScreenQuad.getMaterial().setTexture(1, ScreenQuad.rt[0]);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)VSMBlurH;
ScreenQuad.getMaterial().TextureLayer[0].TextureWrapU=1;
ScreenQuad.getMaterial().TextureLayer[0].TextureWrapV=1;
ScreenQuad.getMaterial().TextureLayer[0].BilinearFilter=true;
ScreenQuad.getMaterial().TextureLayer[1].BilinearFilter=false;
//ScreenQuad.getMaterial().setFlag(video::EMF_BILINEAR_FILTER,false);
ScreenQuad.render(driver);
driver->setRenderTarget(ScreenQuad.rt[0], true, true, SColor(0,255,0,255)) ;
ScreenQuad.getMaterial().setTexture(0, ScreenRTT );
ScreenQuad.getMaterial().setTexture(1, ScreenRTT );
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)VSMBlurV;
ScreenQuad.getMaterial().TextureLayer[0].TextureWrapU=1;
ScreenQuad.getMaterial().TextureLayer[0].TextureWrapV=1;
ScreenQuad.getMaterial().TextureLayer[0].BilinearFilter=true;
ScreenQuad.getMaterial().TextureLayer[1].BilinearFilter=false;
ScreenQuad.render(driver);
//ScreenQuad.getMaterial().setFlag(video::EMF_BILINEAR_FILTER,false);
ScreenQuad.render(driver);
driver->setRenderTarget(outputTarget, true, true, SColor(0,255,0,255)) ;
ScreenQuad.getMaterial().setTexture(0, ScreenQuad.rt[0] );
ScreenQuad.getMaterial().setTexture(1, ScreenQuad.rt[0] );
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)VSMBlurH;
ScreenQuad.getMaterial().TextureLayer[0].TextureWrapU=1;
ScreenQuad.getMaterial().TextureLayer[0].TextureWrapV=1;
ScreenQuad.getMaterial().TextureLayer[0].BilinearFilter=true;
ScreenQuad.getMaterial().TextureLayer[1].BilinearFilter=true;
ScreenQuad.render(driver);
}
}
void effectHandler::update(irr::video::ITexture* outputTarget)
{
if(shadowsUnsupported || smgr->getActiveCamera() == 0)
return;
if(!ShadowNodeArray.empty() && !LightList.empty())
{
driver->setRenderTarget(ScreenQuad.rt[0], true, true, AmbientColour);
ICameraSceneNode* activeCam = smgr->getActiveCamera();
activeCam->OnAnimate(device->getTimer()->getTime());
activeCam->OnRegisterSceneNode();
activeCam->render();
const u32 LightListSize = LightList.size();
for(u32 l = 0;l < LightListSize;++l)
{
// Set max distance constant for depth shader.
depthMC->FarLink = LightList[l].getFarValue();
driver->setTransform(ETS_VIEW, LightList[l].getViewMatrix());
driver->setTransform(ETS_PROJECTION, LightList[l].getProjectionMatrix());
driver->setRenderTarget(ShadowMapTex, true, true, SColor(0xffffffff));
const u32 ShadowNodeArraySize = ShadowNodeArray.size();
for(u32 i = 0;i < ShadowNodeArraySize;++i)
{
if(ShadowNodeArray[i].shadowMode == ESM_RECEIVE)
continue;
BufferMaterialList.set_used(0);
const u32 CurrentMaterialCount = ShadowNodeArray[i].node->getMaterialCount();
for(u32 m = 0;m < CurrentMaterialCount;++m)
{
BufferMaterialList.push_back(ShadowNodeArray[i].node->getMaterial(m).MaterialType);
ShadowNodeArray[i].node->getMaterial(m).MaterialType =
ShadowNodeArray[i].node->getMaterial(m).MaterialType == Effects[EET_MRWIGGLE]
? (E_MATERIAL_TYPE)DepthWiggle : (E_MATERIAL_TYPE)Depth;
}
ShadowNodeArray[i].node->OnAnimate(device->getTimer()->getTime());
ShadowNodeArray[i].node->render();
const u32 BufferMaterialListSize = BufferMaterialList.size();
for(u32 m = 0;m < BufferMaterialListSize;++m)
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)BufferMaterialList[m];
}
driver->setTransform(ETS_VIEW, activeCam->getViewMatrix());
driver->setTransform(ETS_PROJECTION, activeCam->getProjectionMatrix());
shadowMC->LightColour = LightList[l].getLightColor();
shadowMC->LightLink = LightList[l].getPosition();
shadowMC->FarLink = LightList[l].getFarValue();
shadowMC->ViewLink = LightList[l].getViewMatrix();
shadowMC->ProjLink = LightList[l].getProjectionMatrix();
driver->setRenderTarget(ScreenQuad.rt[1], true, true, SColor(0xffffffff));
for(u32 i = 0;i < ShadowNodeArraySize;++i)
{
const u32 CurrentMaterialCount = ShadowNodeArray[i].node->getMaterialCount();
BufferMaterialList.reallocate(CurrentMaterialCount);
BufferTextureList.reallocate(CurrentMaterialCount);
core::array<bool> BilinearBuffer(CurrentMaterialCount);
BufferMaterialList.set_used(0);
BufferTextureList.set_used(0);
BilinearBuffer.set_used(0);
for(u32 m = 0;m < CurrentMaterialCount;++m)
{
BufferMaterialList.push_back(ShadowNodeArray[i].node->getMaterial(m).MaterialType);
BufferTextureList.push_back(ShadowNodeArray[i].node->getMaterial(m).getTexture(0));
BilinearBuffer.push_back(ShadowNodeArray[i].node->getMaterial(m).TextureLayer[0].BilinearFilter);
ShadowNodeArray[i].node->getMaterial(m).MaterialType =
(ShadowNodeArray[i].shadowMode == ESM_CAST) ? (E_MATERIAL_TYPE)WhiteWash
: (E_MATERIAL_TYPE)Solid[ShadowNodeArray[i].filterType];
ShadowNodeArray[i].node->getMaterial(m).setTexture(0, ShadowMapTex);
ShadowNodeArray[i].node->getMaterial(m).TextureLayer[0].BilinearFilter = false;
}
ShadowNodeArray[i].node->OnAnimate(device->getTimer()->getTime());
ShadowNodeArray[i].node->render();
for(u32 m = 0;m < CurrentMaterialCount;++m)
{
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)BufferMaterialList[m];
ShadowNodeArray[i].node->getMaterial(m).setTexture(0, BufferTextureList[m]);
ShadowNodeArray[i].node->getMaterial(m).TextureLayer[0].BilinearFilter = BilinearBuffer[m];
}
}
driver->setRenderTarget(ScreenQuad.rt[0], false, false, SColor(0x0));
ScreenQuad.getMaterial().setTexture(0, ScreenQuad.rt[1]);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)Simple;
ScreenQuad.render(driver);
}
}
else
{
driver->setRenderTarget(ScreenQuad.rt[0], true, true, SColor(0xffffffff));
}
driver->setRenderTarget(ScreenQuad.rt[1], true, true, ClearColour);
smgr->drawAll();
const u32 PostProcessingRoutinesSize = PostProcessingRoutines.size();
driver->setRenderTarget(PostProcessingRoutinesSize
? ScreenRTT : outputTarget, true, true, SColor(0x0));
ScreenQuad.getMaterial().setTexture(0, ScreenQuad.rt[1]);
ScreenQuad.getMaterial().setTexture(1, ScreenQuad.rt[0]);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)LightModulate;
ScreenQuad.render(driver);
if(PostProcessingRoutinesSize)
{
bool Alter = 0;
ScreenQuad.getMaterial().setTexture(1, ScreenRTT);
ScreenQuad.getMaterial().setTexture(2, DepthRTT);
for(u32 i = 0;i < PostProcessingRoutinesSize;++i)
{
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)PostProcessingRoutines[i];
Alter = !Alter;
ScreenQuad.getMaterial().setTexture(0, i == 0 ? ScreenRTT : ScreenQuad.rt[int(!Alter)]);
driver->setRenderTarget(i >= PostProcessingRoutinesSize - 1 ?
outputTarget : ScreenQuad.rt[int(Alter)], true, true, ClearColour);
ScreenQuad.render(driver);
}
}
// Perform depth pass after rendering, to ensure animations stay up to date.
if(DepthPass)
{
driver->setRenderTarget(DepthRTT, true, true, SColor(0xffffffff));
// Set max distance constant for depth shader.
depthMC->FarLink = smgr->getActiveCamera()->getFarValue();
for(u32 i = 0;i < DepthPassArray.size();++i)
{
BufferMaterialList.set_used(0);
for(u32 g = 0;g < DepthPassArray[i]->getMaterialCount();++g)
BufferMaterialList.push_back(DepthPassArray[i]->getMaterial(g).MaterialType);
DepthPassArray[i]->setMaterialType((E_MATERIAL_TYPE)Depth);
DepthPassArray[i]->OnAnimate(device->getTimer()->getTime());
DepthPassArray[i]->render();
for(u32 g = 0;g < DepthPassArray[i]->getMaterialCount();++g)
DepthPassArray[i]->getMaterial(g).MaterialType = (E_MATERIAL_TYPE)BufferMaterialList[g];
}
}
}
void EffectHandler::update(irr::video::ITexture* outputTarget)
{
if(shadowsUnsupported || smgr->getActiveCamera() == 0)
return;
if(!ShadowNodeArray.empty() && !LightList.empty())
{
driver->setRenderTarget(ScreenQuad.rt[0], true, true, AmbientColour);
ICameraSceneNode* activeCam = smgr->getActiveCamera();
activeCam->OnAnimate(device->getTimer()->getTime());
activeCam->OnRegisterSceneNode();
activeCam->render();
const u32 ShadowNodeArraySize = ShadowNodeArray.size();
const u32 LightListSize = LightList.size();
for(u32 l = 0;l < LightListSize;++l)
{
// Set max distance constant for depth shader.
depthMC->FarLink = LightList[l].getFarValue();
driver->setTransform(ETS_VIEW, LightList[l].getViewMatrix());
driver->setTransform(ETS_PROJECTION, LightList[l].getProjectionMatrix());
ITexture* currentShadowMapTexture = getShadowMapTexture(LightList[l].getShadowMapResolution());
driver->setRenderTarget(currentShadowMapTexture, true, true, SColor(0xffffffff));
for(u32 i = 0;i < ShadowNodeArraySize;++i)
{
if(ShadowNodeArray[i].shadowMode == ESM_RECEIVE || ShadowNodeArray[i].shadowMode == ESM_EXCLUDE)
continue;
const u32 CurrentMaterialCount = ShadowNodeArray[i].node->getMaterialCount();
core::array<irr::s32> BufferMaterialList(CurrentMaterialCount);
BufferMaterialList.set_used(0);
for(u32 m = 0;m < CurrentMaterialCount;++m)
{
BufferMaterialList.push_back(ShadowNodeArray[i].node->getMaterial(m).MaterialType);
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)
(BufferMaterialList[m] == video::EMT_TRANSPARENT_ALPHA_CHANNEL_REF ? DepthT : Depth);
}
ShadowNodeArray[i].node->OnAnimate(device->getTimer()->getTime());
ShadowNodeArray[i].node->render();
const u32 BufferMaterialListSize = BufferMaterialList.size();
for(u32 m = 0;m < BufferMaterialListSize;++m)
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)BufferMaterialList[m];
}
// Blur the shadow map texture if we're using VSM filtering.
if(useVSM)
{
ITexture* currentSecondaryShadowMap = getShadowMapTexture(LightList[l].getShadowMapResolution(), true);
driver->setRenderTarget(currentSecondaryShadowMap, true, true, SColor(0xffffffff));
ScreenQuad.getMaterial().setTexture(0, currentShadowMapTexture);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)VSMBlurH;
ScreenQuad.render(driver);
driver->setRenderTarget(currentShadowMapTexture, true, true, SColor(0xffffffff));
ScreenQuad.getMaterial().setTexture(0, currentSecondaryShadowMap);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)VSMBlurV;
ScreenQuad.render(driver);
}
driver->setRenderTarget(ScreenQuad.rt[1], true, true, SColor(0xffffffff));
driver->setTransform(ETS_VIEW, activeCam->getViewMatrix());
driver->setTransform(ETS_PROJECTION, activeCam->getProjectionMatrix());
shadowMC->LightColour = LightList[l].getLightColor();
shadowMC->LightLink = LightList[l].getPosition();
shadowMC->FarLink = LightList[l].getFarValue();
shadowMC->ViewLink = LightList[l].getViewMatrix();
shadowMC->ProjLink = LightList[l].getProjectionMatrix();
shadowMC->MapRes = (f32)LightList[l].getShadowMapResolution();
for(u32 i = 0;i < ShadowNodeArraySize;++i)
{
if(ShadowNodeArray[i].shadowMode == ESM_CAST || ShadowNodeArray[i].shadowMode == ESM_EXCLUDE)
continue;
const u32 CurrentMaterialCount = ShadowNodeArray[i].node->getMaterialCount();
core::array<irr::s32> BufferMaterialList(CurrentMaterialCount);
core::array<irr::video::ITexture*> BufferTextureList(CurrentMaterialCount);
for(u32 m = 0;m < CurrentMaterialCount;++m)
{
BufferMaterialList.push_back(ShadowNodeArray[i].node->getMaterial(m).MaterialType);
BufferTextureList.push_back(ShadowNodeArray[i].node->getMaterial(m).getTexture(0));
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)Shadow[ShadowNodeArray[i].filterType];
ShadowNodeArray[i].node->getMaterial(m).setTexture(0, currentShadowMapTexture);
}
ShadowNodeArray[i].node->OnAnimate(device->getTimer()->getTime());
ShadowNodeArray[i].node->render();
for(u32 m = 0;m < CurrentMaterialCount;++m)
{
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)BufferMaterialList[m];
ShadowNodeArray[i].node->getMaterial(m).setTexture(0, BufferTextureList[m]);
}
}
driver->setRenderTarget(ScreenQuad.rt[0], false, false, SColor(0x0));
ScreenQuad.getMaterial().setTexture(0, ScreenQuad.rt[1]);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)Simple;
ScreenQuad.render(driver);
}
// Render all the excluded and casting-only nodes.
for(u32 i = 0;i < ShadowNodeArraySize;++i)
{
if(ShadowNodeArray[i].shadowMode != ESM_CAST && ShadowNodeArray[i].shadowMode != ESM_EXCLUDE)
continue;
const u32 CurrentMaterialCount = ShadowNodeArray[i].node->getMaterialCount();
core::array<irr::s32> BufferMaterialList(CurrentMaterialCount);
BufferMaterialList.set_used(0);
for(u32 m = 0;m < CurrentMaterialCount;++m)
{
BufferMaterialList.push_back(ShadowNodeArray[i].node->getMaterial(m).MaterialType);
switch(BufferMaterialList[m])
{
case EMT_TRANSPARENT_ALPHA_CHANNEL_REF:
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)WhiteWashTRef;
break;
case EMT_TRANSPARENT_ADD_COLOR:
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)WhiteWashTAdd;
break;
case EMT_TRANSPARENT_ALPHA_CHANNEL:
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)WhiteWashTAlpha;
break;
default:
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)WhiteWash;
break;
}
}
ShadowNodeArray[i].node->OnAnimate(device->getTimer()->getTime());
ShadowNodeArray[i].node->render();
for(u32 m = 0;m < CurrentMaterialCount;++m)
ShadowNodeArray[i].node->getMaterial(m).MaterialType = (E_MATERIAL_TYPE)BufferMaterialList[m];
}
}
else
{
driver->setRenderTarget(ScreenQuad.rt[0], true, true, SColor(0xffffffff));
}
driver->setRenderTarget(ScreenQuad.rt[1], true, true, ClearColour);
smgr->drawAll();
const u32 PostProcessingRoutinesSize = PostProcessingRoutines.size();
driver->setRenderTarget(PostProcessingRoutinesSize
? ScreenRTT : outputTarget, true, true, SColor(0x0));
ScreenQuad.getMaterial().setTexture(0, ScreenQuad.rt[1]);
ScreenQuad.getMaterial().setTexture(1, ScreenQuad.rt[0]);
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)LightModulate;
ScreenQuad.render(driver);
// Perform depth pass after rendering, to ensure animations stay up to date.
if(DepthPass)
{
driver->setRenderTarget(DepthRTT, true, true, SColor(0xffffffff));
// Set max distance constant for depth shader.
depthMC->FarLink = smgr->getActiveCamera()->getFarValue();
for(u32 i = 0;i < DepthPassArray.size();++i)
{
core::array<irr::s32> BufferMaterialList(DepthPassArray[i]->getMaterialCount());
BufferMaterialList.set_used(0);
for(u32 g = 0;g < DepthPassArray[i]->getMaterialCount();++g)
BufferMaterialList.push_back(DepthPassArray[i]->getMaterial(g).MaterialType);
DepthPassArray[i]->setMaterialType((E_MATERIAL_TYPE)Depth);
DepthPassArray[i]->OnAnimate(device->getTimer()->getTime());
DepthPassArray[i]->render();
for(u32 g = 0;g < DepthPassArray[i]->getMaterialCount();++g)
DepthPassArray[i]->getMaterial(g).MaterialType = (E_MATERIAL_TYPE)BufferMaterialList[g];
}
driver->setRenderTarget(0, false, false);
}
if(PostProcessingRoutinesSize)
{
bool Alter = false;
ScreenQuad.getMaterial().setTexture(1, ScreenRTT);
ScreenQuad.getMaterial().setTexture(2, DepthRTT);
for(u32 i = 0;i < PostProcessingRoutinesSize;++i)
{
ScreenQuad.getMaterial().MaterialType = (E_MATERIAL_TYPE)PostProcessingRoutines[i].materialType;
Alter = !Alter;
ScreenQuad.getMaterial().setTexture(0, i == 0 ? ScreenRTT : ScreenQuad.rt[int(!Alter)]);
driver->setRenderTarget(i >= PostProcessingRoutinesSize - 1 ?
outputTarget : ScreenQuad.rt[int(Alter)], true, true, ClearColour);
if(PostProcessingRoutines[i].renderCallback) PostProcessingRoutines[i].renderCallback->OnPreRender(this);
ScreenQuad.render(driver);
if(PostProcessingRoutines[i].renderCallback) PostProcessingRoutines[i].renderCallback->OnPostRender(this);
}
}
}