/* OpenSceneGraph example, osgfpdepth. * * 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 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Demonstration of floating point depth buffers. The most basic way to use * a floating point depth buffer in OpenGL is to create a frame buffer * object, attach a color and floating point depth texture, render, * and then copy the color texture to the screen. When doing * multisampling we can't use textures directly, so we have to create * render buffers with the proper format. Then we let OSG handle the * details of resolving the multisampling. * * When using a floating point depth buffer, it's advantageous to * reverse the depth buffer range (and the depth test, of course) so * that 0.0 corresponds to the far plane. See * e.g. http://www.humus.name/index.php?ID=25 for details. */ using namespace osg; using namespace std; /* createFBO() and destroyFBO(), and the supporting classes and * functions below, are only used to test possible valid frame buffer * configurations at startup. They wouldn't be used in a normal OSG * program unless we wanted to enumerate all the valid FBO * combinations and let the user choose between them. */ // Properties of an FBO that we will try to create struct FboConfig { FboConfig() : colorFormat(0), depthFormat(0), redbits(0), depthBits(0), depthSamples(0), coverageSamples(0) { } FboConfig(const string& name_, GLenum colorFormat_, GLenum depthFormat_, int redbits_, int depthBits_, int depthSamples_ = 0, int coverageSamples_ = 0) : name(name_), colorFormat(colorFormat_), depthFormat(depthFormat_), redbits(redbits_), depthBits(depthBits_), depthSamples(depthSamples_), coverageSamples(coverageSamples_) { } string name; GLenum colorFormat; GLenum depthFormat; int redbits; int depthBits; int depthSamples; int coverageSamples; }; // Properties of a buffer struct BufferConfig { BufferConfig() {} BufferConfig(const string& name_, GLenum format_, int bits_) : name(name_), format(format_), bits(bits_) { } string name; GLenum format; int bits; }; typedef vector BufferConfigList; vector validConfigs; // Ugly global variables for the viewport width and height int width, height; // This is only used when testing possible frame buffer configurations // to find valid ones. struct FboData { ref_ptr tex; // color texture ref_ptr depthTex; // depth texture ref_ptr fb; // render framebuffer ref_ptr resolveFB; // multisample resolve target }; Texture2D* makeDepthTexture(int width, int height, GLenum internalFormat); // Assemble lists of the valid buffer configurations, along with the // possibilities for multisample coverage antialiasing, if any. void getPossibleConfigs(GraphicsContext* gc, BufferConfigList& colorConfigs, BufferConfigList& depthConfigs, vector& coverageConfigs) { int maxSamples = 0; int coverageSampleConfigs = 0; unsigned contextID = gc->getState()->getContextID(); colorConfigs.push_back(BufferConfig("RGBA8", GL_RGBA8, 8)); depthConfigs.push_back(BufferConfig("D24", GL_DEPTH_COMPONENT24, 24)); FBOExtensions* fboe = FBOExtensions::instance(contextID, true); if (!fboe->isSupported()) return; if (fboe->isMultisampleSupported()) glGetIntegerv(GL_MAX_SAMPLES_EXT, &maxSamples); // isMultisampleCoverageSupported if (isGLExtensionSupported(contextID, "GL_NV_framebuffer_multisample_coverage")) { glGetIntegerv(GL_MAX_MULTISAMPLE_COVERAGE_MODES_NV, &coverageSampleConfigs); coverageConfigs.resize(coverageSampleConfigs * 2 + 4); glGetIntegerv(GL_MULTISAMPLE_COVERAGE_MODES_NV, &coverageConfigs[0]); } if (isGLExtensionSupported(contextID, "GL_ARB_depth_buffer_float")) depthConfigs.push_back(BufferConfig("D32F", GL_DEPTH_COMPONENT32F, 32)); else if (isGLExtensionSupported(contextID, "GL_NV_depth_buffer_float")) depthConfigs.push_back(BufferConfig("D32F", GL_DEPTH_COMPONENT32F_NV, 32)); } bool checkFramebufferStatus(GraphicsContext* gc, bool silent = false) { State& state = *gc->getState(); unsigned contextID = state.getContextID(); FBOExtensions* fboe = FBOExtensions::instance(contextID, true); switch(fboe->glCheckFramebufferStatus(GL_FRAMEBUFFER_EXT)) { case GL_FRAMEBUFFER_COMPLETE_EXT: break; case GL_FRAMEBUFFER_UNSUPPORTED_EXT: if (!silent) cout << "Unsupported framebuffer format\n"; return false; case GL_FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT_EXT: if (!silent) cout << "Framebuffer incomplete, missing attachment\n"; return false; case GL_FRAMEBUFFER_INCOMPLETE_ATTACHMENT_EXT: if (!silent) cout << "Framebuffer incomplete, duplicate attachment\n"; return false; case GL_FRAMEBUFFER_INCOMPLETE_DIMENSIONS_EXT: if (!silent) cout << "Framebuffer incomplete, attached images must have same dimensions\n"; return false; case GL_FRAMEBUFFER_INCOMPLETE_FORMATS_EXT: if (!silent) cout << "Framebuffer incomplete, attached images must have same format\n"; return false; case GL_FRAMEBUFFER_INCOMPLETE_DRAW_BUFFER_EXT: if (!silent) cout << "Framebuffer incomplete, missing draw buffer\n"; return false; case GL_FRAMEBUFFER_INCOMPLETE_READ_BUFFER_EXT: if (!silent) cout << "Framebuffer incomplete, missing read buffer\n"; return false; default: return false; } return true; } // Attempt to create an FBO with a certain configuration. If the FBO // is created with fewer bits in any of its parameters, the creation // is deemed to have failed. Even though the result is a valid FBO, // we're only interested in discrete, valid configurations. bool createFBO(GraphicsContext* gc, FboConfig &config, FboData &data) { bool result = true; bool multisample = config.depthSamples > 0; bool csaa = config.coverageSamples > config.depthSamples; data.fb = new FrameBufferObject; int texWidth = 512, texHeight = 512; data.tex = new Texture2D; data.tex->setTextureSize(texWidth, texHeight); data.tex->setInternalFormat(config.colorFormat); data.tex->setSourceFormat(GL_RGBA); data.tex->setSourceType(GL_FLOAT); data.tex->setFilter(Texture::MIN_FILTER, Texture::LINEAR_MIPMAP_LINEAR); data.tex->setFilter(Texture::MAG_FILTER, Texture::LINEAR); data.tex->setWrap(Texture::WRAP_S, Texture::CLAMP_TO_EDGE); data.tex->setWrap(Texture::WRAP_T, Texture::CLAMP_TO_EDGE); RenderBuffer* colorRB = 0; RenderBuffer* depthRB = 0; if (multisample) { data.resolveFB = new FrameBufferObject; data.resolveFB->setAttachment(Camera::COLOR_BUFFER, FrameBufferAttachment(data.tex.get())); colorRB = new RenderBuffer(texWidth, texHeight, config.colorFormat, config.coverageSamples, config.depthSamples); data.fb->setAttachment(Camera::COLOR_BUFFER, FrameBufferAttachment(colorRB)); depthRB = new RenderBuffer(texWidth, texHeight, config.depthFormat, config.coverageSamples, config.depthSamples); data.fb->setAttachment(Camera::DEPTH_BUFFER, FrameBufferAttachment(depthRB)); } else { data.depthTex = makeDepthTexture(texWidth, texHeight, config.depthFormat); data.fb->setAttachment(Camera::COLOR_BUFFER, FrameBufferAttachment(data.tex.get())); data.fb->setAttachment(Camera::DEPTH_BUFFER, FrameBufferAttachment(data.depthTex.get())); } State& state = *gc->getState(); unsigned int contextID = state.getContextID(); FBOExtensions* fboe = FBOExtensions::instance(contextID, true); data.fb->apply(state); result = checkFramebufferStatus(gc, true); if (!result) { fboe->glBindFramebuffer(GL_FRAMEBUFFER_EXT, 0); return false; } int query; if (multisample) { GLuint colorRBID = colorRB->getObjectID(contextID, fboe); fboe->glBindRenderbuffer(GL_RENDERBUFFER_EXT, colorRBID); if (csaa) { fboe->glGetRenderbufferParameteriv(GL_RENDERBUFFER_EXT, GL_RENDERBUFFER_COVERAGE_SAMPLES_NV, &query); if (query < config.coverageSamples) result = false; else config.coverageSamples = query; fboe->glGetRenderbufferParameteriv(GL_RENDERBUFFER_EXT, GL_RENDERBUFFER_COLOR_SAMPLES_NV, &query); if ( query < config.depthSamples) result = false; else config.depthSamples = query; // report back the actual number } else { fboe->glGetRenderbufferParameteriv(GL_RENDERBUFFER_EXT, GL_RENDERBUFFER_SAMPLES_EXT, &query); if (query < config.depthSamples) result = false; else config.depthSamples = query; } } glGetIntegerv( GL_RED_BITS, &query); if (query != config.redbits) result = false; glGetIntegerv(GL_DEPTH_BITS, &query); if ( query != config.depthBits) result = false; if (result && multisample && data.resolveFB.valid()) { data.resolveFB->apply(state); result = checkFramebufferStatus(gc, true); if (result) { glGetIntegerv( GL_RED_BITS, &query); if (query != config.redbits) result = false; } } fboe->glBindFramebuffer(GL_FRAMEBUFFER_EXT, 0); return result; } void destroyFBO(GraphicsContext* gc, FboData &data) { data.tex = 0; data.depthTex = 0; data.fb = 0; data.resolveFB = 0; State& state = *gc->getState(); double availableTime = 100.0; RenderBuffer::flushDeletedRenderBuffers(state.getContextID(), 0.0, availableTime); availableTime = 100.0; FrameBufferObject::flushDeletedFrameBufferObjects(state.getContextID(), 0.0, availableTime); } void setAttachmentsFromConfig(Camera* camera, const FboConfig& config); Switch* makeTexturesAndGeometry(int width, int height, Switch* sw = 0); // Application state accessed from event handlers and main function; // contains state that can be changed by the user and the OSG classes // used to display / indicate that state. // // camera - Camera with fbo, using either fp depth buffer or fixed // switch child 0 - texture containing rendering of scene // switch child 1 - fp depth buffer as texture // switch child 2 - integer depth buffer as texture // textNotAvailable- "not available" text if texture isn't valid. struct AppState : public Referenced { AppState(osgViewer::Viewer* viewer_); void setStateFromConfig(const FboConfig& config); void advanceConfig(int increment); void updateDisplayedTexture(); void updateNear(); virtual ~AppState() {} ref_ptr sw; // switch between displayed texture bool displayScene; bool invertRange; int currentConfig; osgViewer::Viewer* viewer; double zNear; ref_ptr camera; // text displayed on the screen showing the user's choices ref_ptr textProjection; ref_ptr configText; ref_ptr zNearText; ref_ptr textNotAvailable; ref_ptr textInverted; }; AppState::AppState(osgViewer::Viewer* viewer_) : displayScene(true), invertRange(true), currentConfig(0), viewer(viewer_), zNear(0.03125) { sw = new Switch; string fontName("fonts/arial.ttf"); // Text description of current config configText = new osgText::Text; configText->setDataVariance(Object::DYNAMIC); configText->setFont(fontName); configText->setPosition(Vec3(50.0f, 50.0f, 0.0f)); configText->setColor(Vec4(1.0, 1.0, 1.0, 1.0)); Geode* textGeode = new Geode; textGeode->addDrawable(configText.get()); // Text for the near plane distance zNearText = new osgText::Text; zNearText->setDataVariance(Object::DYNAMIC); zNearText->setFont(fontName); zNearText->setPosition(Vec3(1230.0f, 50.0f, 0.0f)); zNearText->setColor(Vec4(1.0, 1.0, 1.0, 1.0)); zNearText->setAlignment(osgText::Text::RIGHT_BASE_LINE); textGeode->addDrawable(zNearText.get()); // Projection that lets the text be placed in pixels. textProjection = new Projection; textProjection->setMatrix(Matrix::ortho2D(0,1280,0,1024)); textProjection->addChild(textGeode); // "texture not available" text displayed when the user trys to // display the depth texture while multisampling. osgText::Text* noCanDo = new osgText::Text; noCanDo->setFont(fontName); noCanDo->setPosition(Vec3(512.0f, 384.0f, 0.0f)); noCanDo->setColor(Vec4(1.0, 0.0, 0.0, 1.0)); noCanDo->setText("not available"); textNotAvailable = new Geode; textNotAvailable->addDrawable(noCanDo); textProjection->addChild(textNotAvailable.get()); // Is the depth test inverted? osgText::Text* inverted = new osgText::Text; inverted->setFont(fontName); inverted->setPosition(Vec3(512.0f, 50.0f, 0.0f)); inverted->setColor(Vec4(1.0, 1.0, 1.0, 1.0)); inverted->setText("inverted depth test"); textInverted = new Geode; textInverted->addDrawable(inverted); textInverted->setNodeMask(~0); textProjection->addChild(textInverted); textProjection->getOrCreateStateSet()->setRenderBinDetails(11, "RenderBin"); } void AppState::setStateFromConfig(const FboConfig& config) { Camera* camera = viewer->getSlave(0)._camera.get(); setAttachmentsFromConfig(camera, config); osgViewer::Renderer* renderer = dynamic_cast(camera->getRenderer()); if (renderer) renderer->setCameraRequiresSetUp(true); if (configText.valid()) { configText->setText(validConfigs[currentConfig].name); configText->update(); } updateDisplayedTexture(); } void AppState::advanceConfig(int increment) { currentConfig = (currentConfig + increment) % validConfigs.size(); setStateFromConfig(validConfigs[currentConfig]); } void AppState::updateDisplayedTexture() { if (displayScene) sw->setSingleChildOn(0); else if (validConfigs[currentConfig].depthSamples > 0 || validConfigs[currentConfig].coverageSamples > 0) sw->setAllChildrenOff(); else if (validConfigs[currentConfig].depthFormat != GL_DEPTH_COMPONENT24) sw->setSingleChildOn(2); else sw->setSingleChildOn(3); if (displayScene || (validConfigs[currentConfig].depthSamples == 0 && validConfigs[currentConfig].coverageSamples == 0)) textNotAvailable->setNodeMask(0); else textNotAvailable->setNodeMask(~0); } void AppState::updateNear() { // Assume that the viewing frustum is symmetric. double fovy, aspectRatio, cNear, cFar; viewer->getCamera()->getProjectionMatrixAsPerspective(fovy, aspectRatio, cNear, cFar); viewer->getCamera()->setProjectionMatrixAsPerspective(fovy, aspectRatio, zNear, cFar); stringstream nearStream; nearStream << "near: " << zNear; zNearText->setText(nearStream.str()); zNearText->update(); } class ConfigHandler : public osgGA::GUIEventHandler { public: ConfigHandler(AppState* appState) : _appState(appState) { } virtual bool handle(const osgGA::GUIEventAdapter& ea, osgGA::GUIActionAdapter& aa, Object*, NodeVisitor* /*nv*/) { if (ea.getHandled()) return false; osgViewer::Viewer* viewer = dynamic_cast(&aa); if (!viewer) return false; switch(ea.getEventType()) { case osgGA::GUIEventAdapter::KEYUP: { if (ea.getKey()=='d') { _appState->displayScene = !_appState->displayScene; _appState->updateDisplayedTexture(); return true; } else if (ea.getKey()==osgGA::GUIEventAdapter::KEY_Right || ea.getKey()==osgGA::GUIEventAdapter::KEY_KP_Right) { _appState->advanceConfig(1); return true; } else if (ea.getKey()==osgGA::GUIEventAdapter::KEY_Left || ea.getKey()==osgGA::GUIEventAdapter::KEY_KP_Left) { _appState->advanceConfig(-1); return true; } break; } default: break; } return false; } void getUsage(ApplicationUsage& usage) const { usage.addKeyboardMouseBinding("d", "display depth texture"); usage.addKeyboardMouseBinding("right arrow", "next frame buffer configuration"); usage.addKeyboardMouseBinding("left arrow", "previous frame buffer configuration"); } protected: virtual ~ConfigHandler() {} ref_ptr _appState; }; class DepthHandler : public osgGA::GUIEventHandler { public: DepthHandler(AppState *appState, Depth* depth) : _appState(appState), _depth(depth) { depth->setDataVariance(Object::DYNAMIC); } virtual bool handle(const osgGA::GUIEventAdapter& ea, osgGA::GUIActionAdapter& /*aa*/, Object*, NodeVisitor* /*nv*/) { if (ea.getHandled()) return false; ref_ptr depth = _depth.lock(); if (!depth.valid()) return false; switch(ea.getEventType()) { case(osgGA::GUIEventAdapter::KEYUP): { if (ea.getKey() == 'i') { _appState->invertRange = !_appState->invertRange; if (!_appState->invertRange) { _appState->camera->setClearDepth(1.0f); depth->setFunction(Depth::LESS); depth->setRange(0.0f, 1.0f); _appState->textInverted->setNodeMask(0); } else { _appState->camera->setClearDepth(0.0f); depth->setFunction(Depth::GEQUAL); depth->setRange(1.0f, 0.0f); _appState->textInverted->setNodeMask(~0); } return true; } else if (ea.getKey()==osgGA::GUIEventAdapter::KEY_Up || ea.getKey()==osgGA::GUIEventAdapter::KEY_KP_Up) { _appState->zNear *= 2.0; _appState->updateNear(); return true; } else if (ea.getKey()==osgGA::GUIEventAdapter::KEY_Down || ea.getKey()==osgGA::GUIEventAdapter::KEY_KP_Down) { _appState->zNear *= .5; _appState->updateNear(); return true; } break; } default: break; } return false; } void getUsage(ApplicationUsage& usage) const { usage.addKeyboardMouseBinding("i", "invert depth buffer range"); usage.addKeyboardMouseBinding("up arrow", "double near plane distance"); usage.addKeyboardMouseBinding("down arrow", "half near plane distance"); } protected: virtual ~DepthHandler() {} ref_ptr _appState; observer_ptr _depth; }; Geode* createTextureQuad(Texture2D *texture) { Vec3Array *vertices = new Vec3Array; vertices->push_back(Vec3(-1.0, -1.0, 0.0)); vertices->push_back(Vec3(1.0, -1.0, 0.0)); vertices->push_back(Vec3(1.0, 1.0, 0.0)); vertices->push_back(Vec3(-1.0, 1.0, 0.0)); Vec2Array *texcoord = new Vec2Array; texcoord->push_back(Vec2(0.0, 0.0)); texcoord->push_back(Vec2(1.0, 0.0)); texcoord->push_back(Vec2(1.0, 1.0)); texcoord->push_back(Vec2(0.0, 1.0)); Geometry *geom = new Geometry; geom->setVertexArray(vertices); geom->setTexCoordArray(0, texcoord); geom->addPrimitiveSet(new DrawArrays(GL_QUADS, 0, 4)); Geode *geode = new Geode; geode->addDrawable(geom); geode->getOrCreateStateSet()->setTextureAttributeAndModes(0, texture, StateAttribute::ON); return geode; } struct ResizedCallback : public osg::GraphicsContext::ResizedCallback { ResizedCallback(AppState* appState) : _appState(appState) { } void resizedImplementation(GraphicsContext* gc, int x, int y, int width, int height); ref_ptr _appState; }; void ResizedCallback::resizedImplementation(GraphicsContext* gc, int x, int y, int width, int height) { gc->resizedImplementation(x, y, width, height); makeTexturesAndGeometry(width, height, _appState->sw); _appState->setStateFromConfig(validConfigs[_appState ->currentConfig]); osgViewer::Viewer* viewer = _appState->viewer; Viewport* vp = viewer->getSlave(0)._camera->getViewport(); if (vp) { double oldWidth = vp->width(), oldHeight = vp->height(); double aspectRatioChange = (width / oldWidth) / (height / oldHeight); vp->setViewport(0, 0, width, height); if (aspectRatioChange != 1.0) { Camera* master = viewer->getCamera(); switch (master->getProjectionResizePolicy()) { case Camera::HORIZONTAL: master->getProjectionMatrix() *= Matrix::scale(1.0/aspectRatioChange,1.0,1.0); break; case Camera::VERTICAL: master->getProjectionMatrix() *= Matrix::scale(1.0, aspectRatioChange,1.0); break; default: break; } } } } // Prefer GL_DEPTH_COMPONENT32F, otherwise use // GL_DEPTH_COMPONENT32F_NV if available GLenum depthTextureEnum = 0; // Standard OSG code for initializing osgViewer::Viewer with explicit // creation of own graphics context. This is also a good time to test // for valid frame buffer configurations; we have a valid graphics // context, but multithreading hasn't started, etc. GraphicsContext* setupGC(osgViewer::Viewer& viewer, ArgumentParser& arguments) { int x = -1, y = -1, width = -1, height = -1; while (arguments.read("--window",x,y,width,height)) {} GraphicsContext::WindowingSystemInterface* wsi = GraphicsContext::getWindowingSystemInterface(); if (!wsi) { OSG_NOTIFY(NOTICE)<<"View::setUpViewOnSingleScreen() : Error, no WindowSystemInterface available, cannot create windows."<getScreenResolution(si, w, h); x = 0; y = 0; width = w; height = h; decoration = false; } ref_ptr traits = new GraphicsContext::Traits(ds); traits->hostName = si.hostName; traits->displayNum = si.displayNum; traits->screenNum = si.screenNum; traits->x = x; traits->y = y; traits->width = width; traits->height = height; traits->windowDecoration = decoration; traits->doubleBuffer = true; traits->sharedContext = 0; ref_ptr gc = GraphicsContext::createGraphicsContext(traits.get()); osgViewer::GraphicsWindow* gw = dynamic_cast(gc.get()); if (gw) { OSG_NOTIFY(INFO)<<"View::setUpViewOnSingleScreen - GraphicsWindow has been created successfully."<getEventQueue()->getCurrentEventState() ->setWindowRectangle(0, 0, width, height); } else { OSG_NOTIFY(NOTICE)<<" GraphicsWindow has not been created successfully."<getProjectionMatrixAsPerspective(fovy, aspectRatio, zNear, zFar); double newAspectRatio = double(traits->width) / double(traits->height); double aspectRatioChange = newAspectRatio / aspectRatio; if (aspectRatioChange != 1.0) { viewer.getCamera()->getProjectionMatrix() *= Matrix::scale(1.0/aspectRatioChange,1.0,1.0); } // Context has to be current to test for extensions gc->realize(); gc->makeCurrent(); unsigned int contextID = gc->getState()->getContextID(); FBOExtensions* fboe = FBOExtensions::instance(contextID, true); if (!fboe->isSupported()) { OSG_NOTIFY(NOTICE) << "Frame buffer objects are not supported\n"; gc->releaseContext(); gc->close(true); return 0; } if (isGLExtensionSupported(contextID, "GL_ARB_depth_buffer_float")) depthTextureEnum = GL_DEPTH_COMPONENT32F; else if (isGLExtensionSupported(contextID, "GL_NV_depth_buffer_float")) depthTextureEnum = GL_DEPTH_COMPONENT32F_NV; BufferConfigList colorConfigs; BufferConfigList depthConfigs; vector coverageConfigs; getPossibleConfigs(gc, colorConfigs, depthConfigs, coverageConfigs); int coverageSampleConfigs = (coverageConfigs.size() - 4) / 2; cout << "color configs\nname\tbits\n"; for (BufferConfigList::const_iterator colorItr = colorConfigs.begin(), colorEnd = colorConfigs.end(); colorItr != colorEnd; ++colorItr) { for (BufferConfigList::const_iterator depthItr = depthConfigs.begin(), depthEnd = depthConfigs.end(); depthItr != depthEnd; ++depthItr) { string root = colorItr->name + " " + depthItr->name; FboConfig config(root, colorItr->format, depthItr->format, colorItr->bits, depthItr->bits); FboData data; if (createFBO(gc, config, data)) validConfigs.push_back(config); destroyFBO(gc, data); if (coverageConfigs.size() > 0) { //CSAA provides a list of all supported AA modes for //quick enumeration for (int kk = 0; kk < coverageSampleConfigs; kk++) { stringstream msText; msText << root; config.depthSamples = coverageConfigs[kk*2+1]; config.coverageSamples = coverageConfigs[kk*2]; if ( config.coverageSamples == config.depthSamples ) { // Normal antialiasing msText << " - " << config.depthSamples << " MSAA"; } else { // coverage antialiasing msText << " - " << config.coverageSamples << "/" << config.depthSamples << " CSAA"; } config.name = msText.str(); if (createFBO(gc, config, data)) { validConfigs.push_back( config); } destroyFBO(gc, data); } } } } if (validConfigs.empty()) { cout << "no valid frame buffer configurations!\n"; return 0; } cout << "valid frame buffer configurations:\n"; for (vector::iterator itr = validConfigs.begin(), end = validConfigs.end(); itr != end; ++itr) cout << itr->name << "\n"; gc->releaseContext(); return gc.release(); } ref_ptr colorTexture; ref_ptr depthTexture; ref_ptr depthTexture24; Texture2D* makeDepthTexture(int width, int height, GLenum internalFormat) { Texture2D *depthTex = new Texture2D; depthTex->setTextureSize(width, height); depthTex->setSourceFormat(GL_DEPTH_COMPONENT); depthTex->setSourceType(GL_FLOAT); depthTex->setInternalFormat(internalFormat); depthTex->setFilter(Texture2D::MIN_FILTER, Texture2D::NEAREST); depthTex->setFilter(Texture2D::MAG_FILTER, Texture2D::NEAREST); depthTex->setWrap(Texture::WRAP_S, Texture::CLAMP_TO_EDGE); depthTex->setWrap(Texture::WRAP_T, Texture::CLAMP_TO_EDGE); return depthTex; } Camera* makeRttCamera(GraphicsContext* gc, int width, int height) { Camera* rttCamera = new Camera; rttCamera->setGraphicsContext(gc); rttCamera->setClearMask(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT); rttCamera->setClearColor(Vec4(0.0, 0.4, 0.5, 0.0)); // normally the depth test is inverted, although the user can // change that. rttCamera->setClearDepth(0.0); rttCamera->setViewport(0, 0, width, height); rttCamera->setDrawBuffer(GL_FRONT); rttCamera->setReadBuffer(GL_FRONT); rttCamera->setRenderTargetImplementation(Camera::FRAME_BUFFER_OBJECT); rttCamera->setComputeNearFarMode(CullSettings::DO_NOT_COMPUTE_NEAR_FAR); return rttCamera; } void setAttachmentsFromConfig(Camera* camera, const FboConfig& config) { // XXX Detaching the old buffers may not be necessary. if (!camera->getBufferAttachmentMap().empty()) { camera->detach(Camera::COLOR_BUFFER); camera->detach(Camera::DEPTH_BUFFER); } camera->attach(Camera::COLOR_BUFFER, colorTexture.get(), 0, 0, false, config.coverageSamples, config.depthSamples); if (config.coverageSamples != 0 || config.depthSamples != 0) camera->attach(Camera::DEPTH_BUFFER, config.depthFormat); else if (config.depthFormat == GL_DEPTH_COMPONENT24) camera->attach(Camera::DEPTH_BUFFER, depthTexture24); else camera->attach(Camera::DEPTH_BUFFER, depthTexture); } // Create the parts of the local scene graph used to display the final // results. Switch* makeTexturesAndGeometry(int width, int height, Switch* sw) { if (!sw) sw = new Switch; colorTexture = new Texture2D; colorTexture->setTextureSize(width, height); colorTexture->setInternalFormat(GL_RGBA); colorTexture->setFilter(Texture2D::MIN_FILTER, Texture2D::LINEAR); colorTexture->setFilter(Texture2D::MAG_FILTER, Texture2D::LINEAR); colorTexture->setWrap(Texture::WRAP_S, Texture::CLAMP_TO_EDGE); colorTexture->setWrap(Texture::WRAP_T, Texture::CLAMP_TO_EDGE); colorTexture->setBorderColor(Vec4(0, 0, 0, 0)); depthTexture24 = makeDepthTexture(width, height, GL_DEPTH_COMPONENT24); if (depthTextureEnum) depthTexture = makeDepthTexture(width, height, depthTextureEnum); else depthTexture = depthTexture24; sw->removeChildren(0, sw->getNumChildren()); sw->addChild(createTextureQuad(colorTexture)); sw->addChild(createTextureQuad(depthTexture)); sw->addChild(createTextureQuad(depthTexture24)); sw->setSingleChildOn(0); return sw; } int main(int argc, char **argv) { // use an ArgumentParser object to manage the program arguments. ArgumentParser arguments(&argc,argv); arguments.getApplicationUsage()->setDescription(arguments.getApplicationName() + " demonstrates using a floating point depth buffer.\nThe user can invert the depth buffer range and choose among available multi-sample configurations."); arguments.getApplicationUsage()->setCommandLineUsage(arguments.getApplicationName()+" [options] filename ..."); arguments.getApplicationUsage()->addCommandLineOption("--far ", "Set far plane value"); // if user request help write it out to cout. if (arguments.read("-h") || arguments.read("--help")) { arguments.getApplicationUsage()->write(std::cout); return 1; } float zFar = 500.0f; while (arguments.read("--far", zFar)) ; // construct the viewer. osgViewer::Viewer viewer; ref_ptr appState = new AppState(&viewer); viewer.addEventHandler(new osgViewer::StatsHandler); viewer.addEventHandler(new osgViewer::WindowSizeHandler); viewer.addEventHandler(new osgViewer::ScreenCaptureHandler); // The aspect ratio is set to the correct ratio for the window in // setupGC(). viewer.getCamera() ->setProjectionMatrixAsPerspective(40.0, 1.0, appState->zNear, zFar); GraphicsContext* gc = setupGC(viewer, arguments); if (!gc) return 1; gc->setResizedCallback(new ResizedCallback(appState.get())); const GraphicsContext::Traits* traits = gc->getTraits(); width = traits->width; height = traits->height; if (arguments.argc()<=1) { arguments.getApplicationUsage()->write(std::cout,osg::ApplicationUsage::COMMAND_LINE_OPTION); return 1; } ref_ptr loadedModel = osgDB::readNodeFiles(arguments); if (!loadedModel) { cerr << "couldn't load " << argv[1] << "\n"; return 1; } osgUtil::Optimizer optimizer; optimizer.optimize(loadedModel.get()); // creates texture to be rendered Switch* sw = makeTexturesAndGeometry(width, height, appState->sw); ref_ptr rttCamera = makeRttCamera(gc, width, height); rttCamera->setRenderOrder(Camera::PRE_RENDER); viewer.addSlave(rttCamera); appState->camera = rttCamera; // geometry and slave camera to display the result Group* displayRoot = new Group; displayRoot->addChild(sw); displayRoot->addChild(appState->textProjection); StateSet* displaySS = displayRoot->getOrCreateStateSet(); displaySS->setMode(GL_LIGHTING, StateAttribute::OFF); displaySS->setMode(GL_DEPTH_TEST, StateAttribute::OFF); Camera* texCamera = new Camera; texCamera->setGraphicsContext(gc); texCamera->setClearMask(GL_COLOR_BUFFER_BIT); texCamera->setClearColor(Vec4(0.0, 0.0, 0.0, 0.0)); texCamera->setReferenceFrame(Camera::ABSOLUTE_RF); texCamera->setViewport(0, 0, width, height); texCamera->setDrawBuffer(GL_BACK); texCamera->setReadBuffer(GL_BACK); texCamera->addChild(displayRoot); texCamera->setAllowEventFocus(false); texCamera->setCullingMode(CullSettings::NO_CULLING); texCamera->setProjectionResizePolicy(Camera::FIXED); viewer.addSlave(texCamera, Matrixd(), Matrixd(), false); viewer.addEventHandler(new ConfigHandler(appState)); // add model to the viewer. Group* sceneRoot = new Group; StateSet* sceneSS = sceneRoot->getOrCreateStateSet(); Depth* depth = new Depth(Depth::GEQUAL, 1.0, 0.0); sceneSS->setAttributeAndModes(depth,(StateAttribute::ON | StateAttribute::OVERRIDE)); #if 0 // Hack to work around Blender osg export bug sceneSS->setAttributeAndModes(new CullFace(CullFace::BACK)); #endif sceneRoot->addChild(loadedModel.get()); appState->setStateFromConfig(validConfigs[0]); appState->updateNear(); viewer.addEventHandler(new DepthHandler(appState.get(), depth)); // add the help handler viewer.addEventHandler(new osgViewer ::HelpHandler(arguments.getApplicationUsage())); viewer.setSceneData(sceneRoot); return viewer.run(); }