//----------------------------------------------------------------------------- // Copyright (c) 2012 GarageGames, LLC // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to // deal in the Software without restriction, including without limitation the // rights to use, copy, modify, merge, publish, distribute, sublicense, and/or // sell copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS // IN THE SOFTWARE. //----------------------------------------------------------------------------- #include "T3D/lighting/reflectionProbe.h" #include "math/mathIO.h" #include "scene/sceneRenderState.h" #include "console/consoleTypes.h" #include "core/stream/bitStream.h" #include "materials/baseMatInstance.h" #include "console/engineAPI.h" #include "gfx/gfxDrawUtil.h" #include "gfx/gfxDebugEvent.h" #include "gfx/gfxTransformSaver.h" #include "math/mathUtils.h" #include "gfx/bitmap/gBitmap.h" #include "core/stream/fileStream.h" #include "core/fileObject.h" #include "core/resourceManager.h" #include "console/simPersistId.h" #include "T3D/gameFunctions.h" #include "postFx/postEffect.h" #include "renderInstance/renderProbeMgr.h" #include "renderInstance/renderProbeMgr.h" #include "math/util/sphereMesh.h" #include "materials/materialManager.h" #include "math/util/matrixSet.h" #include "gfx/bitmap/cubemapSaver.h" #include "materials/materialFeatureTypes.h" #include "gfx/gfxTextureManager.h" #include "T3D/lighting/IBLUtilities.h" #include "scene/reflector.h" extern bool gEditingMission; extern ColorI gCanvasClearColor; bool ReflectionProbe::smRenderPreviewProbes = true; IMPLEMENT_CO_NETOBJECT_V1(ReflectionProbe); ConsoleDocClass(ReflectionProbe, "@brief An example scene object which renders a mesh.\n\n" "This class implements a basic SceneObject that can exist in the world at a " "3D position and render itself. There are several valid ways to render an " "object in Torque. This class implements the preferred rendering method which " "is to submit a MeshRenderInst along with a Material, vertex buffer, " "primitive buffer, and transform and allow the RenderMeshMgr handle the " "actual setup and rendering for you.\n\n" "See the C++ code for implementation details.\n\n" "@ingroup Examples\n"); ImplementEnumType(ReflectProbeType, "Type of mesh data available in a shape.\n" "@ingroup gameObjects") { ProbeRenderInst::Sphere, "Sphere", "Sphere shaped" }, { ProbeRenderInst::Box, "Box", "Box shape" } EndImplementEnumType; ImplementEnumType(ReflectionModeEnum, "Type of mesh data available in a shape.\n" "@ingroup gameObjects") { ReflectionProbe::NoReflection, "No Reflections", "This probe does not provide any local reflection data"}, { ReflectionProbe::StaticCubemap, "Static Cubemap", "Uses a static CubemapData" }, { ReflectionProbe::BakedCubemap, "Baked Cubemap", "Uses a cubemap baked from the probe's current position" }, //{ ReflectionProbe::DynamicCubemap, "Dynamic Cubemap", "Uses a cubemap baked from the probe's current position, updated at a set rate" }, EndImplementEnumType; //----------------------------------------------------------------------------- // Object setup and teardown //----------------------------------------------------------------------------- ReflectionProbe::ReflectionProbe() { // Flag this object so that it will always // be sent across the network to clients mNetFlags.set(Ghostable | ScopeAlways); mTypeMask = LightObjectType | MarkerObjectType; mProbeShapeType = ProbeRenderInst::Box; mReflectionModeType = BakedCubemap; mEnabled = true; mBake = false; mDirty = false; mRadius = 10; mUseCubemap = false; mUseHDRCaptures = true; mStaticCubemap = NULL; mProbeUniqueID = ""; mEditorShapeInst = NULL; mEditorShape = NULL; mRefreshRateMS = 200; mDynamicLastBakeMS = 0; mMaxDrawDistance = 75; mResourcesCreated = false; mProbeInfo = nullptr; mPrefilterSize = 64; mPrefilterMipLevels = mLog2(F32(mPrefilterSize)); mPrefilterMap = nullptr; mIrridianceMap = nullptr; mProbePosOffset = Point3F::Zero; mEditPosOffset = false; mProbeInfoIdx = -1; mCaptureMask = REFLECTION_PROBE_CAPTURE_TYPEMASK; } ReflectionProbe::~ReflectionProbe() { if (mEditorShapeInst) SAFE_DELETE(mEditorShapeInst); if (mProbeInfo) SAFE_DELETE(mProbeInfo); if (mReflectionModeType != StaticCubemap && mStaticCubemap) mStaticCubemap->deleteObject(); } //----------------------------------------------------------------------------- // Object Editing //----------------------------------------------------------------------------- void ReflectionProbe::initPersistFields() { addGroup("Rendering"); addProtectedField("enabled", TypeBool, Offset(mEnabled, ReflectionProbe), &_setEnabled, &defaultProtectedGetFn, "Regenerate Voxel Grid"); addField("radius", TypeF32, Offset(mRadius, ReflectionProbe), "The name of the material used to render the mesh."); addField("posOffset", TypePoint3F, Offset(mProbePosOffset, ReflectionProbe), ""); //addProtectedField("EditPosOffset", TypeBool, Offset(mEditPosOffset, ReflectionProbe), // &_toggleEditPosOffset, &defaultProtectedGetFn, "Toggle Edit Pos Offset Mode", AbstractClassRep::FieldFlags::FIELD_ComponentInspectors); endGroup("Rendering"); addGroup("Reflection"); addField("ReflectionMode", TypeReflectionModeEnum, Offset(mReflectionModeType, ReflectionProbe), "The type of mesh data to use for collision queries."); addField("StaticCubemap", TypeCubemapName, Offset(mCubemapName, ReflectionProbe), "Cubemap used instead of reflection texture if fullReflect is off."); addProtectedField("Bake", TypeBool, Offset(mBake, ReflectionProbe), &_doBake, &defaultProtectedGetFn, "Regenerate Voxel Grid", AbstractClassRep::FieldFlags::FIELD_ComponentInspectors); endGroup("Reflection"); Con::addVariable("$Light::renderReflectionProbes", TypeBool, &RenderProbeMgr::smRenderReflectionProbes, "Toggles rendering of light frustums when the light is selected in the editor.\n\n" "@note Only works for shadow mapped lights.\n\n" "@ingroup Lighting"); Con::addVariable("$Light::renderPreviewProbes", TypeBool, &ReflectionProbe::smRenderPreviewProbes, "Toggles rendering of light frustums when the light is selected in the editor.\n\n" "@note Only works for shadow mapped lights.\n\n" "@ingroup Lighting"); // SceneObject already handles exposing the transform Parent::initPersistFields(); } void ReflectionProbe::inspectPostApply() { Parent::inspectPostApply(); mDirty = true; // Flag the network mask to send the updates // to the client object setMaskBits(-1); } bool ReflectionProbe::_setEnabled(void *object, const char *index, const char *data) { ReflectionProbe* probe = reinterpret_cast< ReflectionProbe* >(object); probe->mEnabled = dAtob(data); probe->setMaskBits(-1); return true; } bool ReflectionProbe::_doBake(void *object, const char *index, const char *data) { ReflectionProbe* probe = reinterpret_cast< ReflectionProbe* >(object); //if (probe->mDirty) // probe->bake(probe->mReflectionPath, 256); ReflectionProbe *clientProbe = (ReflectionProbe*)probe->getClientObject(); if (clientProbe) { clientProbe->bake(); } return false; } bool ReflectionProbe::_toggleEditPosOffset(void *object, const char *index, const char *data) { ReflectionProbe* probe = reinterpret_cast< ReflectionProbe* >(object); probe->mEditPosOffset = !probe->mEditPosOffset; //if (probe->mDirty) // probe->bake(probe->mReflectionPath, 256); return false; } bool ReflectionProbe::onAdd() { if (!Parent::onAdd()) return false; mEditPosOffset = false; mObjBox.minExtents.set(-1, -1, -1); mObjBox.maxExtents.set(1, 1, 1); //mObjScale.set(mRadius/2, mRadius/2, mRadius/2); // Skip our transform... it just dirties mask bits. Parent::setTransform(mObjToWorld); resetWorldBox(); // Add this object to the scene addToScene(); if (isServerObject()) { if (!mPersistentId) mPersistentId = getOrCreatePersistentId(); mProbeUniqueID = std::to_string(mPersistentId->getUUID().getHash()).c_str(); } // Refresh this object's material (if any) if (isClientObject()) { createGeometry(); updateProbeParams(); } setMaskBits(-1); return true; } void ReflectionProbe::onRemove() { // Remove this object from the scene removeFromScene(); Parent::onRemove(); } void ReflectionProbe::handleDeleteAction() { //we're deleting it? //Then we need to clear out the processed cubemaps(if we have them) String prefilPath = getPrefilterMapPath(); if (Platform::isFile(prefilPath)) { Platform::fileDelete(prefilPath); } String irrPath = getIrradianceMapPath(); if (Platform::isFile(irrPath)) { Platform::fileDelete(irrPath); } Parent::handleDeleteAction(); } void ReflectionProbe::setTransform(const MatrixF & mat) { // Let SceneObject handle all of the matrix manipulation if (!mEditPosOffset) Parent::setTransform(mat); else mProbePosOffset = mat.getPosition(); mDirty = true; // Dirty our network mask so that the new transform gets // transmitted to the client object setMaskBits(TransformMask); } U32 ReflectionProbe::packUpdate(NetConnection *conn, U32 mask, BitStream *stream) { // Allow the Parent to get a crack at writing its info U32 retMask = Parent::packUpdate(conn, mask, stream); // Write our transform information if (stream->writeFlag(mask & TransformMask)) { mathWrite(*stream, getTransform()); mathWrite(*stream, getScale()); mathWrite(*stream, mProbePosOffset); } if (stream->writeFlag(mask & ShapeTypeMask)) { stream->write((U32)mProbeShapeType); } if (stream->writeFlag(mask & UpdateMask)) { stream->write(mRadius); } if (stream->writeFlag(mask & BakeInfoMask)) { stream->write(mProbeUniqueID); } if (stream->writeFlag(mask & EnabledMask)) { stream->writeFlag(mEnabled); } if (stream->writeFlag(mask & ModeMask)) { stream->write((U32)mReflectionModeType); } if (stream->writeFlag(mask & CubemapMask)) { stream->writeFlag(mUseCubemap); stream->write(mCubemapName); } return retMask; } void ReflectionProbe::unpackUpdate(NetConnection *conn, BitStream *stream) { // Let the Parent read any info it sent Parent::unpackUpdate(conn, stream); if (stream->readFlag()) // TransformMask { mathRead(*stream, &mObjToWorld); mathRead(*stream, &mObjScale); setTransform(mObjToWorld); mathRead(*stream, &mProbePosOffset); } if (stream->readFlag()) // ShapeTypeMask { U32 shapeType = ProbeRenderInst::Sphere; stream->read(&shapeType); mProbeShapeType = (ProbeRenderInst::ProbeShapeType)shapeType; createGeometry(); } if (stream->readFlag()) // UpdateMask { stream->read(&mRadius); } if (stream->readFlag()) // BakeInfoMask { stream->read(&mProbeUniqueID); } if (stream->readFlag()) // EnabledMask { mEnabled = stream->readFlag(); } bool isMaterialDirty = false; if (stream->readFlag()) // ModeMask { U32 reflectModeType = BakedCubemap; stream->read(&reflectModeType); mReflectionModeType = (ReflectionModeType)reflectModeType; isMaterialDirty = true; } updateProbeParams(); if (stream->readFlag()) // CubemapMask { mUseCubemap = stream->readFlag(); String newCubemapName; stream->read(&mCubemapName); //if (newCubemapName != mCubemapName) { processStaticCubemap(); } isMaterialDirty = true; } if (isMaterialDirty) { updateMaterial(); } //PROBEMGR->updateProbes(); } void ReflectionProbe::createGeometry() { // Clean up our previous shape if (mEditorShapeInst) SAFE_DELETE(mEditorShapeInst); mEditorShape = NULL; String shapeFile = "tools/resources/ReflectProbeSphere.dae"; // Attempt to get the resource from the ResourceManager mEditorShape = ResourceManager::get().load(shapeFile); if (mEditorShape) { mEditorShapeInst = new TSShapeInstance(mEditorShape, isClientObject()); } } //----------------------------------------------------------------------------- // Object Rendering //----------------------------------------------------------------------------- void ReflectionProbe::updateProbeParams() { if (mProbeInfo == nullptr) { mProbeInfo = new ProbeRenderInst(); mProbeInfoIdx = ProbeRenderInst::all.size() - 1; mProbeInfo->mIsEnabled = false; } updateMaterial(); mProbeInfo->mProbeShapeType = mProbeShapeType; mProbeInfo->mTransform = getWorldTransform(); mProbeInfo->mPosition = getPosition(); mObjScale.set(mRadius, mRadius, mRadius); // Skip our transform... it just dirties mask bits. Parent::setTransform(mObjToWorld); resetWorldBox(); mProbeInfo->mBounds = mWorldBox; mProbeInfo->mRadius = mRadius; mProbeInfo->mIsSkylight = false; mProbeInfo->mProbePosOffset = mProbePosOffset; mProbeInfo->mDirty = true; mProbeInfo->mScore = mMaxDrawDistance; } void ReflectionProbe::processStaticCubemap() { if (mReflectionModeType != StaticCubemap) return; createClientResources(); Sim::findObject(mCubemapName, mStaticCubemap); if (!mStaticCubemap) { Con::errorf("ReflectionProbe::updateMaterial() - unable to find static cubemap file!"); return; } if (mStaticCubemap->mCubemap == nullptr) { mStaticCubemap->createMap(); mStaticCubemap->updateFaces(); } String prefilPath = getPrefilterMapPath(); String irrPath = getIrradianceMapPath(); if (mUseHDRCaptures) { mIrridianceMap->mCubemap->initDynamic(mPrefilterSize, GFXFormatR16G16B16A16F); mPrefilterMap->mCubemap->initDynamic(mPrefilterSize, GFXFormatR16G16B16A16F); } else { mIrridianceMap->mCubemap->initDynamic(mPrefilterSize, GFXFormatR8G8B8A8); mPrefilterMap->mCubemap->initDynamic(mPrefilterSize, GFXFormatR8G8B8A8); } //if (!Platform::isFile(irrPath) || !Platform::isFile(prefilPath)) { GFXTextureTargetRef renderTarget = GFX->allocRenderToTextureTarget(false); IBLUtilities::GenerateIrradianceMap(renderTarget, mStaticCubemap->mCubemap, mIrridianceMap->mCubemap); IBLUtilities::GeneratePrefilterMap(renderTarget, mStaticCubemap->mCubemap, mPrefilterMipLevels, mPrefilterMap->mCubemap); IBLUtilities::SaveCubeMap(getIrradianceMapPath(), mIrridianceMap->mCubemap); IBLUtilities::SaveCubeMap(getPrefilterMapPath(), mPrefilterMap->mCubemap); } mProbeInfo->mCubemap = mPrefilterMap->mCubemap; mProbeInfo->mIrradianceCubemap = mIrridianceMap->mCubemap; } void ReflectionProbe::updateMaterial() { createClientResources(); if (mReflectionModeType != DynamicCubemap) { mProbeInfo->mCubeReflector.unregisterReflector(); if ((mReflectionModeType == BakedCubemap) && !mProbeUniqueID.isEmpty()) { if (mPrefilterMap != nullptr && mPrefilterMap->mCubemap.isValid()) { mProbeInfo->mCubemap = mPrefilterMap->mCubemap; } else { mEnabled = false; } if (mIrridianceMap != nullptr && mIrridianceMap->mCubemap.isValid()) { mProbeInfo->mIrradianceCubemap = mIrridianceMap->mCubemap; } else { mEnabled = false; } } } else { if (mReflectionModeType == DynamicCubemap && !mDynamicCubemap.isNull()) { mProbeInfo->mCubemap = mDynamicCubemap; mProbeInfo->mCubeReflector.registerReflector(this, reflectorDesc); //need to decide how we wanna do the reflectorDesc. static name or a field } else { mEnabled = false; } } //Make us ready to render if (mEnabled) mProbeInfo->mIsEnabled = true; else mProbeInfo->mIsEnabled = false; } bool ReflectionProbe::createClientResources() { //irridiance resources if (!mIrridianceMap) { mIrridianceMap = new CubemapData(); mIrridianceMap->registerObject(); mIrridianceMap->createMap(); } String irrPath = getIrradianceMapPath(); if (Platform::isFile(irrPath)) { mIrridianceMap->setCubemapFile(FileName(irrPath)); mIrridianceMap->updateFaces(); } if (mIrridianceMap->mCubemap.isNull()) Con::errorf("ReflectionProbe::createClientResources() - Unable to load baked irradiance map at %s", getIrradianceMapPath().c_str()); // if (!mPrefilterMap) { mPrefilterMap = new CubemapData(); mPrefilterMap->registerObject(); mPrefilterMap->createMap(); } String prefilPath = getPrefilterMapPath(); if (Platform::isFile(prefilPath)) { mPrefilterMap->setCubemapFile(FileName(prefilPath)); mPrefilterMap->updateFaces(); } if (mPrefilterMap->mCubemap.isNull()) Con::errorf("ReflectionProbe::createClientResources() - Unable to load baked prefilter map at %s", getPrefilterMapPath().c_str()); mResourcesCreated = true; return true; } void ReflectionProbe::generateTextures() { } void ReflectionProbe::prepRenderImage(SceneRenderState *state) { if (!mEnabled || !RenderProbeMgr::smRenderReflectionProbes) return; Point3F distVec = getRenderPosition() - state->getCameraPosition(); F32 dist = distVec.len(); //Culling distance. Can be adjusted for performance options considerations via the scalar if (dist > mMaxDrawDistance * Con::getFloatVariable("$pref::GI::ProbeDrawDistScale", 1.0)) { mProbeInfo->mScore = mMaxDrawDistance; return; } if (mReflectionModeType == DynamicCubemap && mRefreshRateMS < (Platform::getRealMilliseconds() - mDynamicLastBakeMS)) { bake(); mDynamicLastBakeMS = Platform::getRealMilliseconds(); } //Submit our probe to actually do the probe action // Get a handy pointer to our RenderPassmanager //RenderPassManager *renderPass = state->getRenderPass(); //Update our score based on our radius, distance mProbeInfo->mScore = mProbeInfo->mRadius/mMax(dist,1.0f); Point3F vect = distVec; vect.normalizeSafe(); mProbeInfo->mScore *= mMax(mAbs(mDot(vect, state->getCameraTransform().getForwardVector())),0.001f); //Register PROBEMGR->registerProbe(mProbeInfoIdx); if (ReflectionProbe::smRenderPreviewProbes && gEditingMission && mEditorShapeInst && mPrefilterMap != nullptr) { GFXTransformSaver saver; // Calculate the distance of this object from the camera Point3F cameraOffset; getRenderTransform().getColumn(3, &cameraOffset); cameraOffset -= state->getDiffuseCameraPosition(); dist = cameraOffset.len(); if (dist < 0.01f) dist = 0.01f; // Set up the LOD for the shape F32 invScale = (1.0f / getMax(getMax(mObjScale.x, mObjScale.y), mObjScale.z)); mEditorShapeInst->setDetailFromDistance(state, dist * invScale); // Make sure we have a valid level of detail if (mEditorShapeInst->getCurrentDetail() < 0) return; BaseMatInstance* probePrevMat = mEditorShapeInst->getMaterialList()->getMaterialInst(0); setPreviewMatParameters(state, probePrevMat); // GFXTransformSaver is a handy helper class that restores // the current GFX matrices to their original values when // it goes out of scope at the end of the function // Set up our TS render state TSRenderState rdata; rdata.setSceneState(state); rdata.setFadeOverride(1.0f); if(mReflectionModeType != DynamicCubemap) rdata.setCubemap(mPrefilterMap->mCubemap); else rdata.setCubemap(mDynamicCubemap); // We might have some forward lit materials // so pass down a query to gather lights. LightQuery query; query.init(getWorldSphere()); rdata.setLightQuery(&query); // Set the world matrix to the objects render transform MatrixF mat = getRenderTransform(); mat.scale(Point3F(1, 1, 1)); Point3F centerPos = mat.getPosition(); centerPos += mProbePosOffset; mat.setPosition(centerPos); GFX->setWorldMatrix(mat); // Animate the the shape mEditorShapeInst->animate(); // Allow the shape to submit the RenderInst(s) for itself mEditorShapeInst->render(rdata); saver.restore(); } // If the light is selected or light visualization // is enabled then register the callback. const bool isSelectedInEditor = (gEditingMission && isSelected()); if (isSelectedInEditor) { ObjectRenderInst *ri = state->getRenderPass()->allocInst(); ri->renderDelegate.bind(this, &ReflectionProbe::_onRenderViz); ri->type = RenderPassManager::RIT_Editor; state->getRenderPass()->addInst(ri); } } void ReflectionProbe::_onRenderViz(ObjectRenderInst *ri, SceneRenderState *state, BaseMatInstance *overrideMat) { if (!RenderProbeMgr::smRenderReflectionProbes) return; GFXDrawUtil *draw = GFX->getDrawUtil(); GFXStateBlockDesc desc; desc.setZReadWrite(true, false); desc.setCullMode(GFXCullNone); desc.setBlend(true); // Base the sphere color on the light color. ColorI color = ColorI::WHITE; color.alpha = 25; if (mProbeShapeType == ProbeRenderInst::Sphere) { draw->drawSphere(desc, mRadius, getPosition(), color); } else { const MatrixF worldToObjectXfm = getTransform(); Box3F cube(-Point3F(mRadius, mRadius, mRadius),Point3F(mRadius, mRadius, mRadius)); Box3F wb = getWorldBox(); cube.setCenter(getPosition()+mProbePosOffset); wb.setCenter(getPosition() + mProbePosOffset); draw->drawCube(desc, cube, color, &worldToObjectXfm); draw->drawCube(desc, wb, color, &worldToObjectXfm); } } void ReflectionProbe::setPreviewMatParameters(SceneRenderState* renderState, BaseMatInstance* mat) { if (!mat->getFeatures().hasFeature(MFT_isDeferred)) return; //Set up the params MaterialParameters *matParams = mat->getMaterialParameters(); //Get the deferred render target NamedTexTarget* deferredTexTarget = NamedTexTarget::find("deferred"); GFXTextureObject *deferredTexObject = deferredTexTarget->getTexture(); if (!deferredTexObject) return; GFX->setTexture(0, deferredTexObject); //Set the cubemap GFX->setCubeTexture(1, mPrefilterMap->mCubemap); //Set the invViewMat MatrixSet &matrixSet = renderState->getRenderPass()->getMatrixSet(); const MatrixF &worldToCameraXfm = matrixSet.getWorldToCamera(); MaterialParameterHandle *invViewMat = mat->getMaterialParameterHandle("$invViewMat"); matParams->setSafe(invViewMat, worldToCameraXfm); } DefineEngineMethod(ReflectionProbe, postApply, void, (), , "A utility method for forcing a network update.\n") { object->inspectPostApply(); } String ReflectionProbe::getPrefilterMapPath() { if (mProbeUniqueID.isEmpty()) { Con::errorf("ReflectionProbe::getPrefilterMapPath() - We don't have a set output path or persistant id, so no valid path can be provided!"); return ""; } String path = Con::getVariable("$pref::ReflectionProbes::CurrentLevelPath", "levels/"); char fileName[256]; dSprintf(fileName, 256, "%s%s_Prefilter.dds", path.c_str(), mProbeUniqueID.c_str()); return fileName; } String ReflectionProbe::getIrradianceMapPath() { if (mProbeUniqueID.isEmpty()) { Con::errorf("ReflectionProbe::getIrradianceMapPath() - We don't have a set output path or persistant id, so no valid path can be provided!"); return ""; } String path = Con::getVariable("$pref::ReflectionProbes::CurrentLevelPath", "levels/"); char fileName[256]; dSprintf(fileName, 256, "%s%s_Irradiance.dds", path.c_str(), mProbeUniqueID.c_str()); return fileName; } void ReflectionProbe::bake() { if (mReflectionModeType == DynamicCubemap) return; PROBEMGR->bakeProbe(this); setMaskBits(CubemapMask); } DefineEngineMethod(ReflectionProbe, Bake, void, (), , "@brief returns true if control object is inside the fog\n\n.") { ReflectionProbe *clientProbe = (ReflectionProbe*)object->getClientObject(); if (clientProbe) { clientProbe->bake(); } }