/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2005 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace osg; unsigned int Drawable::s_numberDrawablesReusedLastInLastFrame = 0; unsigned int Drawable::s_numberNewDrawablesInLastFrame = 0; unsigned int Drawable::s_numberDeletedDrawablesInLastFrame = 0; // static cache of deleted display lists which can only // by completely deleted once the appropriate OpenGL context // is set. Used osg::Drawable::deleteDisplayList(..) and flushDeletedDisplayLists(..) below. typedef std::multimap DisplayListMap; typedef std::map DeletedDisplayListCache; static OpenThreads::Mutex s_mutex_deletedDisplayListCache; static DeletedDisplayListCache s_deletedDisplayListCache; GLuint Drawable::generateDisplayList(unsigned int contextID, unsigned int sizeHint) { OpenThreads::ScopedLock lock(s_mutex_deletedDisplayListCache); DisplayListMap& dll = s_deletedDisplayListCache[contextID]; if (dll.empty()) { ++s_numberNewDrawablesInLastFrame; return glGenLists( 1 ); } else { DisplayListMap::iterator itr = dll.lower_bound(sizeHint); if (itr!=dll.end()) { // osg::notify(osg::NOTICE)<<"Reusing a display list of size = "<first<<" for requested size = "<second; dll.erase(itr); return globj; } else { // osg::notify(osg::NOTICE)<<"Creating a new display list of size = "< lock(s_mutex_deletedDisplayListCache); // insert the globj into the cache for the appropriate context. s_deletedDisplayListCache[contextID].insert(DisplayListMap::value_type(sizeHint,globj)); } } void Drawable::flushAllDeletedDisplayLists(unsigned int contextID) { OpenThreads::ScopedLock lock(s_mutex_deletedDisplayListCache); DeletedDisplayListCache::iterator citr = s_deletedDisplayListCache.find(contextID); if (citr!=s_deletedDisplayListCache.end()) { DisplayListMap& dll = citr->second; for(DisplayListMap::iterator ditr=dll.begin(); ditr!=dll.end(); ++ditr) { glDeleteLists(ditr->second,1); } dll.clear(); } } void Drawable::flushDeletedDisplayLists(unsigned int contextID, double& availableTime) { // if no time available don't try to flush objects. if (availableTime<=0.0) return; const osg::Timer& timer = *osg::Timer::instance(); osg::Timer_t start_tick = timer.tick(); double elapsedTime = 0.0; unsigned int noDeleted = 0; { OpenThreads::ScopedLock lock(s_mutex_deletedDisplayListCache); DeletedDisplayListCache::iterator citr = s_deletedDisplayListCache.find(contextID); if (citr!=s_deletedDisplayListCache.end()) { DisplayListMap& dll = citr->second; bool trimFromFront = true; if (trimFromFront) { unsigned int prev_size = dll.size(); DisplayListMap::iterator ditr=dll.begin(); unsigned int maxNumToDelete = (dll.size() > s_minimumNumberOfDisplayListsToRetainInCache) ? dll.size()-s_minimumNumberOfDisplayListsToRetainInCache : 0; for(; ditr!=dll.end() && elapsedTimesecond,1); elapsedTime = timer.delta_s(start_tick,timer.tick()); ++noDeleted; ++Drawable::s_numberDeletedDrawablesInLastFrame; } if (ditr!=dll.begin()) dll.erase(dll.begin(),ditr); if (noDeleted+dll.size() != prev_size) { osg::notify(osg::WARN)<<"Error in delete"< s_minimumNumberOfDisplayListsToRetainInCache) ? dll.size()-s_minimumNumberOfDisplayListsToRetainInCache : 0; for(; ditr!=dll.rend() && elapsedTimesecond,1); elapsedTime = timer.delta_s(start_tick,timer.tick()); ++noDeleted; ++Drawable::s_numberDeletedDrawablesInLastFrame; } if (ditr!=dll.rbegin()) dll.erase(ditr.base(),dll.end()); if (noDeleted+dll.size() != prev_size) { osg::notify(osg::WARN)<<"Error in delete"< lock(s_mutex_deletedVertexBufferObjectCache); // insert the globj into the cache for the appropriate context. s_deletedVertexBufferObjectCache[contextID].insert(DisplayListMap::value_type(0,globj)); } } /** flush all the cached display list which need to be deleted * in the OpenGL context related to contextID.*/ void Drawable::flushDeletedVertexBufferObjects(unsigned int contextID,double /*currentTime*/, double& availableTime) { // if no time available don't try to flush objects. if (availableTime<=0.0) return; const osg::Timer& timer = *osg::Timer::instance(); osg::Timer_t start_tick = timer.tick(); double elapsedTime = 0.0; { OpenThreads::ScopedLock lock(s_mutex_deletedVertexBufferObjectCache); DeletedDisplayListCache::iterator citr = s_deletedVertexBufferObjectCache.find(contextID); if (citr!=s_deletedVertexBufferObjectCache.end()) { const Extensions* extensions = getExtensions(contextID,true); unsigned int noDeleted = 0; DisplayListMap& dll = citr->second; DisplayListMap::iterator ditr=dll.begin(); for(; ditr!=dll.end() && elapsedTimeglDeleteBuffers(1,&(ditr->second)); elapsedTime = timer.delta_s(start_tick,timer.tick()); ++noDeleted; } if (ditr!=dll.begin()) dll.erase(dll.begin(),ditr); if (noDeleted!=0) notify(osg::INFO)<<"Number VBOs deleted = "<removeParent(this); if (_stateset->requiresUpdateTraversal()) --delta_update; if (_stateset->requiresEventTraversal()) --delta_event; } // set the stateset. _stateset = stateset; // add this node to the new stateset to the parent list. if (_stateset.valid()) { _stateset->addParent(this); if (_stateset->requiresUpdateTraversal()) ++delta_update; if (_stateset->requiresEventTraversal()) ++delta_event; } // only inform parents if change occurs and drawable doesn't already have an update callback if (delta_update!=0 && !_updateCallback) { for(ParentList::iterator itr=_parents.begin(); itr!=_parents.end(); ++itr) { (*itr)->setNumChildrenRequiringUpdateTraversal( (*itr)->getNumChildrenRequiringUpdateTraversal()+delta_update ); } } // only inform parents if change occurs and drawable doesn't already have an event callback if (delta_event!=0 && !_eventCallback) { for(ParentList::iterator itr=_parents.begin(); itr!=_parents.end(); ++itr) { (*itr)->setNumChildrenRequiringEventTraversal( (*itr)->getNumChildrenRequiringEventTraversal()+delta_event ); } } } void Drawable::setNumChildrenRequiringUpdateTraversal(unsigned int num) { // if no changes just return. if (_numChildrenRequiringUpdateTraversal==num) return; // note, if _updateCallback is set then the // parents won't be affected by any changes to // _numChildrenRequiringUpdateTraversal so no need to inform them. if (!_updateCallback && !_parents.empty()) { // need to pass on changes to parents. int delta = 0; if (_numChildrenRequiringUpdateTraversal>0) --delta; if (num>0) ++delta; if (delta!=0) { // the number of callbacks has changed, need to pass this // on to parents so they know whether app traversal is // reqired on this subgraph. for(ParentList::iterator itr =_parents.begin(); itr != _parents.end(); ++itr) { (*itr)->setNumChildrenRequiringUpdateTraversal( (*itr)->getNumChildrenRequiringUpdateTraversal()+delta ); } } } // finally update this objects value. _numChildrenRequiringUpdateTraversal=num; } void Drawable::setNumChildrenRequiringEventTraversal(unsigned int num) { // if no changes just return. if (_numChildrenRequiringEventTraversal==num) return; // note, if _eventCallback is set then the // parents won't be affected by any changes to // _numChildrenRequiringEventTraversal so no need to inform them. if (!_eventCallback && !_parents.empty()) { // need to pass on changes to parents. int delta = 0; if (_numChildrenRequiringEventTraversal>0) --delta; if (num>0) ++delta; if (delta!=0) { // the number of callbacks has changed, need to pass this // on to parents so they know whether app traversal is // reqired on this subgraph. for(ParentList::iterator itr =_parents.begin(); itr != _parents.end(); ++itr) { (*itr)->setNumChildrenRequiringEventTraversal( (*itr)->getNumChildrenRequiringEventTraversal()+delta ); } } } // finally Event this objects value. _numChildrenRequiringEventTraversal=num; } osg::StateSet* Drawable::getOrCreateStateSet() { if (!_stateset) setStateSet(new StateSet); return _stateset.get(); } void Drawable::dirtyBound() { if (_bbox_computed) { _bbox_computed = false; // dirty parent bounding sphere's to ensure that all are valid. for(ParentList::iterator itr=_parents.begin(); itr!=_parents.end(); ++itr) { (*itr)->dirtyBound(); } } } void Drawable::compileGLObjects(State& state) const { if (!_useDisplayList) return; // get the contextID (user defined ID of 0 upwards) for the // current OpenGL context. unsigned int contextID = state.getContextID(); // get the globj for the current contextID. GLuint& globj = _globjList[contextID]; // call the globj if already set otherwise comple and execute. if( globj != 0 ) { glDeleteLists( globj, 1 ); } globj = generateDisplayList(contextID, getGLObjectSizeHint()); glNewList( globj, GL_COMPILE ); if (_drawCallback.valid()) _drawCallback->drawImplementation(state,this); else drawImplementation(state); glEndList(); } void Drawable::releaseGLObjects(State* state) const { if (_stateset.valid()) _stateset->releaseGLObjects(state); if (!_useDisplayList) return; if (state) { // get the contextID (user defined ID of 0 upwards) for the // current OpenGL context. unsigned int contextID = state->getContextID(); // get the globj for the current contextID. GLuint& globj = _globjList[contextID]; // call the globj if already set otherwise comple and execute. if( globj != 0 ) { glDeleteLists( globj, 1 ); globj = 0; } } else { const_cast(this)->dirtyDisplayList(); } } void Drawable::setSupportsDisplayList(bool flag) { // if value unchanged simply return. if (_supportsDisplayList==flag) return; // if previously set to true then need to check about display lists. if (_supportsDisplayList) { if (_useDisplayList) { // used to support display lists and display lists switched // on so now delete them and turn useDisplayList off. dirtyDisplayList(); _useDisplayList = false; } } // set with new value. _supportsDisplayList=flag; } void Drawable::setUseDisplayList(bool flag) { // if value unchanged simply return. if (_useDisplayList==flag) return; // if was previously set to true, remove display list. if (_useDisplayList) { dirtyDisplayList(); } if (_supportsDisplayList) { // set with new value. _useDisplayList = flag; } else // does not support display lists. { if (flag) { notify(WARN)<<"Warning: attempt to setUseDisplayList(true) on a drawable with does not support display lists."<requiresUpdateTraversal())) { for(ParentList::iterator itr=_parents.begin(); itr!=_parents.end(); ++itr) { (*itr)->setNumChildrenRequiringUpdateTraversal((*itr)->getNumChildrenRequiringUpdateTraversal()+delta); } } } void Drawable::setEventCallback(EventCallback* ac) { if (_eventCallback==ac) return; int delta = 0; if (_eventCallback.valid()) --delta; if (ac) ++delta; _eventCallback = ac; if (delta!=0 && !(_stateset.valid() && _stateset->requiresEventTraversal())) { for(ParentList::iterator itr=_parents.begin(); itr!=_parents.end(); ++itr) { (*itr)->setNumChildrenRequiringEventTraversal( (*itr)->getNumChildrenRequiringEventTraversal()+delta ); } } } struct ComputeBound : public PrimitiveFunctor { ComputeBound():_vertices(0) {} virtual void setVertexArray(unsigned int,const Vec2*) { notify(WARN)<<"ComputeBound does not support Vec2* vertex arrays"<0;--count,++vert) { _bb.expandBy(*vert); } } } virtual void drawElements(GLenum,GLsizei count,const GLubyte* indices) { if (_vertices) { for(;count>0;--count,++indices) { _bb.expandBy(_vertices[*indices]); } } } virtual void drawElements(GLenum,GLsizei count,const GLushort* indices) { if (_vertices) { for(;count>0;--count,++indices) { _bb.expandBy(_vertices[*indices]); } } } virtual void drawElements(GLenum,GLsizei count,const GLuint* indices) { if (_vertices) { for(;count>0;--count,++indices) { _bb.expandBy(_vertices[*indices]); } } } virtual void begin(GLenum) {} virtual void vertex(const Vec2& vert) { _bb.expandBy(osg::Vec3(vert[0],vert[1],0.0f)); } virtual void vertex(const Vec3& vert) { _bb.expandBy(vert); } virtual void vertex(const Vec4& vert) { if (vert[3]!=0.0f) _bb.expandBy(osg::Vec3(vert[0],vert[1],vert[2])/vert[3]); } virtual void vertex(float x,float y) { _bb.expandBy(x,y,1.0f); } virtual void vertex(float x,float y,float z) { _bb.expandBy(x,y,z); } virtual void vertex(float x,float y,float z,float w) { if (w!=0.0f) _bb.expandBy(x/w,y/w,z/w); } virtual void end() {} const Vec3* _vertices; BoundingBox _bb; }; bool Drawable::computeBound() const { ComputeBound cb; Drawable* non_const_this = const_cast(this); non_const_this->accept(cb); _bbox = cb._bb; _bbox_computed = true; return true; } void Drawable::setBound(const BoundingBox& bb) const { _bbox = bb; _bbox_computed = true; } ////////////////////////////////////////////////////////////////////////////// // // Extension support // typedef buffered_value< ref_ptr > BufferedExtensions; static BufferedExtensions s_extensions; Drawable::Extensions* Drawable::getExtensions(unsigned int contextID,bool createIfNotInitalized) { if (!s_extensions[contextID] && createIfNotInitalized) s_extensions[contextID] = new Drawable::Extensions(contextID); return s_extensions[contextID].get(); } void Drawable::setExtensions(unsigned int contextID,Extensions* extensions) { s_extensions[contextID] = extensions; } Drawable::Extensions::Extensions(unsigned int contextID) { setupGLExtenions(contextID); } Drawable::Extensions::Extensions(const Extensions& rhs): Referenced() { _isVertexProgramSupported = rhs._isVertexProgramSupported; _isSecondaryColorSupported = rhs._isSecondaryColorSupported; _isFogCoordSupported = rhs._isFogCoordSupported; _isMultiTexSupported = rhs._isMultiTexSupported; _isOcclusionQuerySupported = rhs._isOcclusionQuerySupported; _glFogCoordfv = rhs._glFogCoordfv; _glSecondaryColor3ubv = rhs._glSecondaryColor3ubv; _glSecondaryColor3fv = rhs._glSecondaryColor3fv; _glMultiTexCoord1f = rhs._glMultiTexCoord1f; _glMultiTexCoord2fv = rhs._glMultiTexCoord2fv; _glMultiTexCoord3fv = rhs._glMultiTexCoord3fv; _glMultiTexCoord4fv = rhs._glMultiTexCoord4fv; _glVertexAttrib1s = rhs._glVertexAttrib1s; _glVertexAttrib1f = rhs._glVertexAttrib1f; _glVertexAttrib2fv = rhs._glVertexAttrib2fv; _glVertexAttrib3fv = rhs._glVertexAttrib3fv; _glVertexAttrib4fv = rhs._glVertexAttrib4fv; _glVertexAttrib4ubv = rhs._glVertexAttrib4ubv; _glVertexAttrib4Nubv = rhs._glVertexAttrib4Nubv; _glGenBuffers = rhs._glGenBuffers; _glBindBuffer = rhs._glBindBuffer; _glBufferData = rhs._glBufferData; _glBufferSubData = rhs._glBufferSubData; _glDeleteBuffers = rhs._glDeleteBuffers; _glGenOcclusionQueries = rhs._glGenOcclusionQueries; _glDeleteOcclusionQueries = rhs._glDeleteOcclusionQueries; _glIsOcclusionQuery = rhs._glIsOcclusionQuery; _glBeginOcclusionQuery = rhs._glBeginOcclusionQuery; _glEndOcclusionQuery = rhs._glEndOcclusionQuery; _glGetOcclusionQueryiv = rhs._glGetOcclusionQueryiv; _glGetOcclusionQueryuiv = rhs._glGetOcclusionQueryuiv; _gl_gen_queries_arb = rhs._gl_gen_queries_arb; _gl_delete_queries_arb = rhs._gl_delete_queries_arb; _gl_is_query_arb = rhs._gl_is_query_arb; _gl_begin_query_arb = rhs._gl_begin_query_arb; _gl_end_query_arb = rhs._gl_end_query_arb; _gl_get_queryiv_arb = rhs._gl_get_queryiv_arb; _gl_get_query_objectiv_arb = rhs._gl_get_query_objectiv_arb; _gl_get_query_objectuiv_arb = rhs._gl_get_query_objectuiv_arb; } void Drawable::Extensions::lowestCommonDenominator(const Extensions& rhs) { if (!rhs._isVertexProgramSupported) _isVertexProgramSupported = false; if (!rhs._isSecondaryColorSupported) _isSecondaryColorSupported = false; if (!rhs._isFogCoordSupported) _isFogCoordSupported = false; if (!rhs._isMultiTexSupported) _isMultiTexSupported = false; if (!rhs._isOcclusionQuerySupported) _isOcclusionQuerySupported = false; if (!rhs._isARBOcclusionQuerySupported) _isARBOcclusionQuerySupported = false; if (!rhs._glFogCoordfv) _glFogCoordfv = 0; if (!rhs._glSecondaryColor3ubv) _glSecondaryColor3ubv = 0; if (!rhs._glSecondaryColor3fv) _glSecondaryColor3fv = 0; if (!rhs._glMultiTexCoord1f) _glMultiTexCoord1f = 0; if (!rhs._glMultiTexCoord2fv) _glMultiTexCoord2fv = 0; if (!rhs._glMultiTexCoord3fv) _glMultiTexCoord3fv = 0; if (!rhs._glMultiTexCoord4fv) _glMultiTexCoord4fv = 0; if (!rhs._glVertexAttrib1s) _glVertexAttrib1s = 0; if (!rhs._glVertexAttrib1f) _glVertexAttrib1f = 0; if (!rhs._glVertexAttrib2fv) _glVertexAttrib2fv = 0; if (!rhs._glVertexAttrib3fv) _glVertexAttrib3fv = 0; if (!rhs._glVertexAttrib4fv) _glVertexAttrib4fv = 0; if (!rhs._glVertexAttrib4ubv) _glVertexAttrib4ubv = 0; if (!rhs._glVertexAttrib4Nubv) _glVertexAttrib4Nubv = 0; if (!rhs._glGenBuffers) _glGenBuffers = 0; if (!rhs._glBindBuffer) _glBindBuffer = 0; if (!rhs._glBufferData) _glBufferData = 0; if (!rhs._glBufferSubData) _glBufferSubData = 0; if (!rhs._glDeleteBuffers) _glDeleteBuffers = 0; if (!rhs._glIsBuffer) _glIsBuffer = 0; if (!rhs._glGetBufferSubData) _glGetBufferSubData = 0; if (!rhs._glMapBuffer) _glMapBuffer = 0; if (!rhs._glUnmapBuffer) _glUnmapBuffer = 0; if (!rhs._glGetBufferParameteriv) _glGetBufferParameteriv = 0; if (!rhs._glGetBufferPointerv) _glGetBufferPointerv = 0; if (!rhs._glGenOcclusionQueries) _glGenOcclusionQueries = 0; if (!rhs._glDeleteOcclusionQueries) _glDeleteOcclusionQueries = 0; if (!rhs._glIsOcclusionQuery) _glIsOcclusionQuery = 0; if (!rhs._glBeginOcclusionQuery) _glBeginOcclusionQuery = 0; if (!rhs._glEndOcclusionQuery) _glEndOcclusionQuery = 0; if (!rhs._glGetOcclusionQueryiv) _glGetOcclusionQueryiv = 0; if (!rhs._glGetOcclusionQueryuiv) _glGetOcclusionQueryuiv = 0; if (!rhs._gl_gen_queries_arb) _gl_gen_queries_arb = 0; if (!rhs._gl_delete_queries_arb) _gl_delete_queries_arb = 0; if (!rhs._gl_is_query_arb) _gl_is_query_arb = 0; if (!rhs._gl_begin_query_arb) _gl_begin_query_arb = 0; if (!rhs._gl_end_query_arb) _gl_end_query_arb = 0; if (!rhs._gl_get_queryiv_arb) _gl_get_queryiv_arb = 0; if (!rhs._gl_get_query_objectiv_arb) _gl_get_query_objectiv_arb = 0; if (!rhs._gl_get_query_objectuiv_arb) _gl_get_query_objectuiv_arb = 0; } void Drawable::Extensions::setupGLExtenions(unsigned int contextID) { _isVertexProgramSupported = isGLExtensionSupported(contextID,"GL_ARB_vertex_program"); _isSecondaryColorSupported = isGLExtensionSupported(contextID,"GL_EXT_secondary_color"); _isFogCoordSupported = isGLExtensionSupported(contextID,"GL_EXT_fog_coord"); _isMultiTexSupported = isGLExtensionSupported(contextID,"GL_ARB_multitexture"); _isOcclusionQuerySupported = osg::isGLExtensionSupported(contextID, "GL_NV_occlusion_query" ); _isARBOcclusionQuerySupported = osg::isGLExtensionSupported(contextID, "GL_ARB_occlusion_query" ); _glFogCoordfv = ((FogCoordProc)osg::getGLExtensionFuncPtr("glFogCoordfv","glFogCoordfvEXT")); _glSecondaryColor3ubv = ((SecondaryColor3ubvProc)osg::getGLExtensionFuncPtr("glSecondaryColor3ubv","glSecondaryColor3ubvEXT")); _glSecondaryColor3fv = ((SecondaryColor3fvProc)osg::getGLExtensionFuncPtr("glSecondaryColor3fv","glSecondaryColor3fvEXT")); _glMultiTexCoord1f = ((MultiTexCoord1fProc)osg::getGLExtensionFuncPtr("glMultiTexCoord1f","glMultiTexCoord1fARB")); _glMultiTexCoord2fv = ((MultiTexCoordfvProc)osg::getGLExtensionFuncPtr("glMultiTexCoord2fv","glMultiTexCoord2fvARB")); _glMultiTexCoord3fv = ((MultiTexCoordfvProc)osg::getGLExtensionFuncPtr("glMultiTexCoord3fv","glMultiTexCoord3fvARB")); _glMultiTexCoord4fv = ((MultiTexCoordfvProc)osg::getGLExtensionFuncPtr("glMultiTexCoord4fv","glMultiTexCoord4fvARB")); _glVertexAttrib1s = ((VertexAttrib1sProc)osg::getGLExtensionFuncPtr("glVertexAttrib1s","glVertexAttrib1sARB")); _glVertexAttrib1f = ((VertexAttrib1fProc)osg::getGLExtensionFuncPtr("glVertexAttrib1f","glVertexAttrib1fARB")); _glVertexAttrib2fv = ((VertexAttribfvProc)osg::getGLExtensionFuncPtr("glVertexAttrib2fv","glVertexAttrib2fvARB")); _glVertexAttrib3fv = ((VertexAttribfvProc)osg::getGLExtensionFuncPtr("glVertexAttrib3fv","glVertexAttrib3fvARB")); _glVertexAttrib4fv = ((VertexAttribfvProc)osg::getGLExtensionFuncPtr("glVertexAttrib4fv","glVertexAttrib4fvARB")); _glVertexAttrib4ubv = ((VertexAttribubvProc)osg::getGLExtensionFuncPtr("glVertexAttrib4ubv","glVertexAttrib4ubvARB")); _glVertexAttrib4Nubv = ((VertexAttribubvProc)osg::getGLExtensionFuncPtr("glVertexAttrib4Nubv","glVertexAttrib4NubvARB")); _glGenBuffers = ((GenBuffersProc)osg::getGLExtensionFuncPtr("glGenBuffers","glGenBuffersARB")); _glBindBuffer = ((BindBufferProc)osg::getGLExtensionFuncPtr("glBindBuffer","glBindBufferARB")); _glBufferData = ((BufferDataProc)osg::getGLExtensionFuncPtr("glBufferData","glBufferDataARB")); _glBufferSubData = ((BufferSubDataProc)osg::getGLExtensionFuncPtr("glBufferSubData","glBufferSubDataARB")); _glDeleteBuffers = ((DeleteBuffersProc)osg::getGLExtensionFuncPtr("glDeleteBuffers","glDeleteBuffersARB")); _glIsBuffer = ((IsBufferProc)osg::getGLExtensionFuncPtr("glIsBuffer","glIsBufferARB")); _glGetBufferSubData = ((GetBufferSubDataProc)osg::getGLExtensionFuncPtr("glGetBufferSubData","glGetBufferSubDataARB")); _glMapBuffer = ((MapBufferProc)osg::getGLExtensionFuncPtr("glMapBuffer","glMapBufferARB")); _glUnmapBuffer = ((UnmapBufferProc)osg::getGLExtensionFuncPtr("glUnmapBuffer","glUnmapBufferARB")); _glGetBufferParameteriv = ((GetBufferParameterivProc)osg::getGLExtensionFuncPtr("glGetBufferParameteriv","glGetBufferParameterivARB")); _glGetBufferPointerv = ((GetBufferPointervProc)osg::getGLExtensionFuncPtr("glGetBufferPointerv","glGetBufferPointervARB")); _glGenOcclusionQueries = ((GenOcclusionQueriesProc)osg::getGLExtensionFuncPtr("glGenOcclusionQueries","glGenOcclusionQueriesNV")); _glDeleteOcclusionQueries = ((DeleteOcclusionQueriesProc)osg::getGLExtensionFuncPtr("glDeleteOcclusionQueries","glDeleteOcclusionQueriesNV")); _glIsOcclusionQuery = ((IsOcclusionQueryProc)osg::getGLExtensionFuncPtr("glIsOcclusionQuery","_glIsOcclusionQueryNV")); _glBeginOcclusionQuery = ((BeginOcclusionQueryProc)osg::getGLExtensionFuncPtr("glBeginOcclusionQuery","glBeginOcclusionQueryNV")); _glEndOcclusionQuery = ((EndOcclusionQueryProc)osg::getGLExtensionFuncPtr("glEndOcclusionQuery","glEndOcclusionQueryNV")); _glGetOcclusionQueryiv = ((GetOcclusionQueryivProc)osg::getGLExtensionFuncPtr("glGetOcclusionQueryiv","glGetOcclusionQueryivNV")); _glGetOcclusionQueryuiv = ((GetOcclusionQueryuivProc)osg::getGLExtensionFuncPtr("glGetOcclusionQueryuiv","glGetOcclusionQueryuivNV")); _gl_gen_queries_arb = (GenQueriesProc)osg::getGLExtensionFuncPtr("glGenQueries", "glGenQueriesARB"); _gl_delete_queries_arb = (DeleteQueriesProc)osg::getGLExtensionFuncPtr("glDeleteQueries", "glDeleteQueriesARB"); _gl_is_query_arb = (IsQueryProc)osg::getGLExtensionFuncPtr("glIsQuery", "glIsQueryARB"); _gl_begin_query_arb = (BeginQueryProc)osg::getGLExtensionFuncPtr("glBeginQuery", "glBeginQueryARB"); _gl_end_query_arb = (EndQueryProc)osg::getGLExtensionFuncPtr("glEndQuery", "glEndQueryARB"); _gl_get_queryiv_arb = (GetQueryivProc)osg::getGLExtensionFuncPtr("glGetQueryiv", "glGetQueryivARB"); _gl_get_query_objectiv_arb = (GetQueryObjectivProc)osg::getGLExtensionFuncPtr("glGetQueryObjectiv","glGetQueryObjectivARB"); _gl_get_query_objectuiv_arb = (GetQueryObjectuivProc)osg::getGLExtensionFuncPtr("glGetQueryObjectuiv","glGetQueryObjectuivARB"); } void Drawable::Extensions::glFogCoordfv(const GLfloat* coord) const { if (_glFogCoordfv) { _glFogCoordfv(coord); } else { notify(WARN)<<"Error: glFogCoordfv not supported by OpenGL driver"<