/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2006 Robert Osfield * * This library is open source and may be redistributed and/or modified under * the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or * (at your option) any later version. The full license is in LICENSE file * included with this distribution, and on the openscenegraph.org website. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * OpenSceneGraph Public License for more details. * * ViewDependentShadow codes Copyright (C) 2008 Wojciech Lewandowski * Thanks to to my company http://www.ai.com.pl for allowing me free this work. */ #ifndef OSGSHADOW_VIEWDEPENDENTSHADOWTECHINIQUE #define OSGSHADOW_VIEWDEPENDENTSHADOWTECHINIQUE 1 #include #include #include #include namespace osgShadow { /** META_ViewDependentShadowTechniqueData macro defines initViewDependentData method used by derived shadow techniques to initialize their specific ViewData objects. initViewDependentData will be called from ViewDependentShadowTechnique base class to init derived class */ #define META_ViewDependentShadowTechniqueData( ShadowTechnique, TechniqueData )\ virtual ViewDependentShadowTechnique::ViewData * initViewDependentData \ ( osgUtil::CullVisitor *cv, ViewDependentShadowTechnique::ViewData * vd ) \ { \ TechniqueData* td = dynamic_cast( vd ); \ if ( !td ) td = new TechniqueData; \ td->init( this, cv ); \ return td; \ } /** ViewDependentShadowTechnique is a base class for all View Dependent Shadow techniques. It defines fundamental object structure and methods to manage separate shadow resources for each view of the scene. By view we understand osg::View or SceneView instance and their associated Camera. Typical osg application has one or more such views. View Dependent Shadow techniques manage shadow generation for them. View Dependent Shadow techniques are used to optimize shadow algorithms for part of the scene seen on the view. If rest of the scene is behind view frustum, there is no sense in computing shadows for it. Since in practice we often use 3d databases extending far beyond current camera frustum View Dependent Shadow approach may produce much better shadows. The other goal is to provide framework for thread safe rendering of the shadows. It allows to use shadows with different OSG threading models. Conceptually ViewDependentShadowTechnique is similar to osgSim::OverlayNode. Its a container class for number of ViewData (or ViewData derived) objects doing actual shadow work for each of the scene views. But ViewDependentShadowTechnique is intended as foundation layer for all derived classes so in some way it extends osgSim::OverlayNode approach a bit. HOW IT WORKS: ViewDependendentShadowTechnique is derived from osgShadow::ShadowTechnique and as such overrides virtual methods of osgShadow::ShadowTechnique. But most of the shadow dirty work is done by ViewData objects, ViewDependendentShadowTechnique::cull is the only osgShadow::ShadowTechnique method where ViewDependendentShadowTechnique does something significant: What ViewDependentShadowTechnique::cull( CullVisitor & cv ) does ? It identifies View. CullVisitor ptr is used as View identificator. In practice we do not check and interpret what are actual Views and SceneViews set up by application. We focus on Camera and CullVisitors as a identificators of views. We can safely do this because each such view will have associated unique CullVisitor used to cull the scene in every frame. Based on CullVisitor ptr passed to cull method, associated Technique::ViewData object is created (if necessary) and then seleced. Then control is passed to this ViewData object. So, each view has its associated unique ViewData (or derived) object performing dirty work of shadow resources management and shadow generation for the view. To support creation of classes derived from ViewDependentShadowTechnique it was necessary to provide mechanism to override ViewData and allow for initialization of new derived ViewData objects. Creation and initialization is performed when ViewDependendentShadowTechnique::cull gets called with CullVistor ptr which does not yet have associated ViewData object. When it happens, virtual initViewDependentData method is called to give derived techniques a chance to allocate and iniitalize its specific resources as new ViewData derived instance. In practice initViewDependentData in derived techniques should look the same as in base class so as a convenience it was defined as META_ViewDependentShadowTechnique macro. Derived techniques use this macro to override initViewDependentData method for their usage. After ViewData derived object is construted and selected, control is passed to this object by call to virtual ViewData::cull method. The rest of work is the done by this object. ViewDependentShadowTechnique::ViewData is intended as a base class so it does nothing. In practice the rest of dirty work will do new ViewData classes implemented in derived techniques. */ class OSGSHADOW_EXPORT ViewDependentShadowTechnique : public osgShadow::ShadowTechnique { public: /** osgShadow::ShadowTechnique equivalent methods for view dependent techniques */ /** Classic OSG constructor */ ViewDependentShadowTechnique( void ); /** Classic OSG cloning constructor */ ViewDependentShadowTechnique( const ViewDependentShadowTechnique& vdst, const osg::CopyOp& copyop=osg::CopyOp::SHALLOW_COPY ); /** Declaration of standard OSG object methods */ META_Object( osgShadow, ViewDependentShadowTechnique ); /** Dirty view data bits and force update of view data resources */ virtual void dirty(); /** Initialize the ShadowedScene and some data structures.*/ virtual void init(); /** Run the update traversal of the ShadowedScene and update any local cached data structures.*/ virtual void update(osg::NodeVisitor& nv); /** Run the cull traversal of the ShadowedScene and set up the rendering for this ShadowTechnique.*/ virtual void cull(osgUtil::CullVisitor& cv); /** Clean scene graph from any shadow technique specific nodes, state and drawables.*/ virtual void cleanSceneGraph(); /** Traverse shadow scene graph.*/ virtual void traverse(osg::NodeVisitor& nv); /** Resize any per context GLObject buffers to specified size. */ virtual void resizeGLObjectBuffers(unsigned int maxSize); /** If State is non-zero, this function releases any associated OpenGL objects for * the specified graphics context. Otherwise, releases OpenGL objects * for all graphics contexts. */ virtual void releaseGLObjects(osg::State* = 0) const; protected: /** Classic protected OSG destructor */ ~ViewDependentShadowTechnique( void ); /** Base container class for view dependent shadow resources. Techniques based on ViewDependentShadowTechnique will usually define similar struct and derive it from ViewData to contain their specufic resources. */ struct OSGSHADOW_EXPORT ViewData: public osg::Referenced { virtual const char* className() const { return "ViewData"; } /** Method called upon ViewData instance to initialize internal variables */ virtual void init ( ViewDependentShadowTechnique *st, osgUtil::CullVisitor *cv ); /** Method called by ViewDependentShadowTechnique to allow ViewData do the hard work computing shadows for its associated view */ virtual void cull(); /** Dirty is called by parent ViewDependentShadowTechnique to force update of resources after some of them were modified in parent technique */ virtual void dirty( bool flag ); /** Simple constructor zeroing all variables. */ ViewData(): _dirty( true ), _cv( NULL ), _st( NULL ) { }; /** Mutex used to guard _dirty flag from override in case when parent technique calls dirty() simultaneously with ViewData while it is updating resources inside init method. */ OpenThreads::Mutex _mutex; /** Dirty flag tells this instance to update its resources */ bool _dirty; /** View's CullVisitor associated with this ViewData instance */ osg::observer_ptr< osgUtil::CullVisitor > _cv; /** Parent ViewDependentShadowTechnique */ osg::observer_ptr< ViewDependentShadowTechnique > _st; virtual void resizeGLObjectBuffers(unsigned int maxSize) {} /** If State is non-zero, this function releases any associated OpenGL objects for * the specified graphics context. Otherwise, releases OpenGL objects * for all graphics contexts. */ virtual void releaseGLObjects(osg::State* = 0) const {} }; /** Map of view dependent data per view cull visitor (CVs are used as indices) ViewDependentShadowTechnique uses this map to find VieData for each cull vitior */ typedef std::map< osg::ref_ptr< osg::Identifier >, osg::ref_ptr< ViewData > > ViewDataMap; ViewDataMap _viewDataMap; /** Mutex used to serialize accesses to ViewDataMap */ OpenThreads::Mutex _viewDataMapMutex; /** Return view dependent data for the cull visitor */ virtual ViewDependentShadowTechnique::ViewData * getViewDependentData( osgUtil::CullVisitor * cv ); /** Define view dependent data for the cull visitor */ virtual void setViewDependentData( osgUtil::CullVisitor * cv, ViewDependentShadowTechnique::ViewData * data ); /** Declare standard initViewDependentData method. */ META_ViewDependentShadowTechniqueData( ViewDependentShadowTechnique, ViewData ) }; } // namespace osgShadow #endif