f634152de0
git-svn-id: http://svn.openscenegraph.org/osg/OpenSceneGraph/trunk@14575 16af8721-9629-0410-8352-f15c8da7e697
589 lines
25 KiB
C++
589 lines
25 KiB
C++
/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2006 Robert Osfield
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*
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* This library is open source and may be redistributed and/or modified under
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* the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or
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* (at your option) any later version. The full license is in LICENSE file
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* included with this distribution, and on the openscenegraph.org website.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* OpenSceneGraph Public License for more details.
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*/
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#ifndef OSG_DRAWABLE
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#define OSG_DRAWABLE 1
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#include <osg/BoundingBox>
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#include <osg/Shape>
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#include <osg/BufferObject>
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#include <osg/PrimitiveSet>
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#include <osg/RenderInfo>
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#include <osg/Group>
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#ifndef GL_NV_occlusion_query
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#define GL_OCCLUSION_TEST_HP 0x8165
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#define GL_OCCLUSION_TEST_RESULT_HP 0x8166
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#define GL_PIXEL_COUNTER_BITS_NV 0x8864
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#define GL_CURRENT_OCCLUSION_QUERY_ID_NV 0x8865
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#define GL_PIXEL_COUNT_NV 0x8866
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#define GL_PIXEL_COUNT_AVAILABLE_NV 0x8867
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#endif
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#ifndef GL_ARB_occlusion_query
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#define GL_SAMPLES_PASSED_ARB 0x8914
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#define GL_QUERY_COUNTER_BITS_ARB 0x8864
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#define GL_CURRENT_QUERY_ARB 0x8865
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#define GL_QUERY_RESULT_ARB 0x8866
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#define GL_QUERY_RESULT_AVAILABLE_ARB 0x8867
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#endif
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#ifndef GL_TIME_ELAPSED
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#define GL_TIME_ELAPSED 0x88BF
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#define GL_TIMESTAMP 0x8E28
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#endif
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#ifndef GL_QUERY_RESULT
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#define GL_QUERY_RESULT 0x8866
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#define GL_QUERY_RESULT_AVAILABLE 0x8867
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#endif
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namespace osg {
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class Vec2f;
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class Vec3f;
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class Vec4f;
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class Vec4ub;
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class Geometry;
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class NodeVisitor;
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class ArrayDispatchers;
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// this is defined to alter the way display lists are compiled inside the
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// the draw method, it has been found that the NVidia drivers fail completely
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// to optimize COMPILE_AND_EXECUTE in fact make it go slower than for no display
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// lists, but optimize a separate COMPILE very well?! Define it as default
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// the use of a separate COMPILE, then glCallList rather than use COMPILE_AND_EXECUTE.
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#define USE_SEPARATE_COMPILE_AND_EXECUTE
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/** Pure virtual base class for drawable geometry. In OSG, everything that can
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* be rendered is implemented as a class derived from \c Drawable. The
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* \c Drawable class contains no drawing primitives, since these are provided
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* by subclasses such as \c osg::Geometry.
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* <p>Notice that a \c Drawable is not a \c Node, and therefore it cannot be
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* directly added to a scene graph. Instead, <tt>Drawable</tt>s are attached to
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* <tt>Geode</tt>s, which are scene graph nodes.
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* <p>The OpenGL state that must be used when rendering a \c Drawable is
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* represented by a \c StateSet. Since a \c Drawable has a reference
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* (\c osg::ref_ptr) to a \c StateSet, <tt>StateSet</tt>s can be shared between
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* different <tt>Drawable</tt>s. In fact, sharing <tt>StateSet</tt>s is a good
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* way to improve performance, since this allows OSG to reduce the number of
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* expensive changes in the OpenGL state.
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* <p>Finally, <tt>Drawable</tt>s can also be shared between different
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* <tt>Geode</tt>s, so that the same geometry (loaded to memory just once) can
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* be used in different parts of the scene graph.
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*/
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class OSG_EXPORT Drawable : public Node
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{
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public:
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static unsigned int s_numberDrawablesReusedLastInLastFrame;
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static unsigned int s_numberNewDrawablesInLastFrame;
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static unsigned int s_numberDeletedDrawablesInLastFrame;
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Drawable();
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/** Copy constructor using CopyOp to manage deep vs shallow copy.*/
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Drawable(const Drawable& drawable,const CopyOp& copyop=CopyOp::SHALLOW_COPY);
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META_Node(osg, Drawable);
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virtual Drawable* asDrawable() { return this; }
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virtual const Drawable* asDrawable() const { return this; }
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/** Compute the DataVariance based on an assessment of callback etc.*/
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virtual void computeDataVariance();
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/** Get the list of matrices that transform this node from local coordinates to world coordinates.
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* The optional Node* haltTraversalAtNode allows the user to prevent traversal beyond a specifed node. */
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MatrixList getWorldMatrices(const osg::Node* haltTraversalAtNode=0) const;
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/** Set the initial bounding volume to use when computing the overall bounding volume.*/
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void setInitialBound(const osg::BoundingBox& bbox) { _initialBound = bbox; dirtyBound(); }
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/** Set the initial bounding volume to use when computing the overall bounding volume.*/
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const BoundingBox& getInitialBound() const { return _initialBound; }
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inline const BoundingSphere& getBound() const
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{
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if(!_boundingSphereComputed) getBoundingBox();
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return _boundingSphere;
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}
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/** Get BoundingBox of Drawable.
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* If the BoundingBox is not up to date then its updated via an internal call to computeBond().
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*/
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inline const BoundingBox& getBoundingBox() const
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{
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if(!_boundingSphereComputed)
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{
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_boundingBox = _initialBound;
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if (_computeBoundCallback.valid())
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_boundingBox.expandBy(_computeBoundCallback->computeBound(*this));
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else
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_boundingBox.expandBy(computeBoundingBox());
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if(_boundingBox.valid()){
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_boundingSphere.set(_boundingBox.center(), _boundingBox.radius());
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} else {
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_boundingSphere.init();
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}
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_boundingSphereComputed = true;
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}
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return _boundingBox;
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}
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/** Compute the bounding sphere around Drawables's geometry.*/
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virtual BoundingSphere computeBound() const;
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/** Compute the bounding box around Drawables's geometry.*/
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virtual BoundingBox computeBoundingBox() const;
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/** Callback to allow users to override the default computation of bounding volume. */
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struct ComputeBoundingBoxCallback : public osg::Object
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{
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ComputeBoundingBoxCallback() {}
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ComputeBoundingBoxCallback(const ComputeBoundingBoxCallback&,const CopyOp&) {}
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META_Object(osg,ComputeBoundingBoxCallback);
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virtual BoundingBox computeBound(const osg::Drawable&) const { return BoundingBox(); }
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};
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/** Set the compute bound callback to override the default computeBound.*/
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void setComputeBoundingBoxCallback(ComputeBoundingBoxCallback* callback) { _computeBoundCallback = callback; }
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/** Get the compute bound callback.*/
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ComputeBoundingBoxCallback* getComputeBoundingBoxCallback() { return _computeBoundCallback.get(); }
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/** Get the const compute bound callback.*/
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const ComputeBoundingBoxCallback* getComputeBoundingBoxCallback() const { return _computeBoundCallback.get(); }
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/** Set the Shape of the \c Drawable. The shape can be used to
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* speed up collision detection or as a guide for procedural
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* geometry generation.
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* @see osg::Shape.
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*/
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inline void setShape(Shape* shape) { _shape = shape; }
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/** Get the Shape of the Drawable.*/
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inline Shape* getShape() { return _shape.get(); }
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/** Get the const Shape of the const Drawable.*/
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inline const Shape* getShape() const { return _shape.get(); }
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/** Set the drawable so that it can or cannot be used in conjunction with OpenGL
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* display lists. When set to true, calls to Drawable::setUseDisplayList,
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* whereas when set to false, no display lists can be created and calls
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* to setUseDisplayList are ignored, and a warning is produced. The latter
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* is typically used to guard against the switching on of display lists
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* on objects with dynamic internal data such as continuous Level of Detail
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* algorithms.*/
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void setSupportsDisplayList(bool flag);
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/** Get whether display lists are supported for this drawable instance.*/
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inline bool getSupportsDisplayList() const { return _supportsDisplayList; }
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/** When set to true, force the draw method to use OpenGL Display List for rendering.
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If false, rendering directly. If the display list has not been compiled
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already, the next call to draw will automatically create the display list.*/
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void setUseDisplayList(bool flag);
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/** Return whether OpenGL display lists are being used for rendering.*/
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inline bool getUseDisplayList() const { return _useDisplayList; }
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/** Return OpenGL display list for specified contextID. */
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inline GLuint& getDisplayList(unsigned int contextID) const { return _globjList[contextID]; }
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/** When set to true, ignore the setUseDisplayList() settings, and hints to the drawImplementation
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method to use OpenGL vertex buffer objects for rendering.*/
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virtual void setUseVertexBufferObjects(bool flag);
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/** Return whether OpenGL vertex buffer objects should be used when supported by OpenGL driver.*/
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inline bool getUseVertexBufferObjects() const { return _useVertexBufferObjects; }
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/** Force a recompile on next draw() of any OpenGL display list associated with this geoset.*/
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virtual void dirtyDisplayList();
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/** Return the estimated size of GLObjects (display lists/vertex buffer objects) that are associated with this drawable.
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* This size is used a hint for reuse of deleted display lists/vertex buffer objects. */
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virtual unsigned int getGLObjectSizeHint() const { return 0; }
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/** Draw OpenGL primitives.
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* If the \c Drawable has \c _useDisplayList set to \c true, then use
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* an OpenGL display list, automatically compiling one if required.
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* Otherwise, call \c drawImplementation().
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* @note This method should \e not be overridden in subclasses, as it
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* manages the optional display list (notice this is not even
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* \c virtual). Subclasses should override
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* \c drawImplementation() instead.
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*/
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inline void draw(RenderInfo& renderInfo) const;
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/** Immediately compile this \c Drawable into an OpenGL Display List/VertexBufferObjects.
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* @note Operation is ignored if \c _useDisplayList is \c false or VertexBufferObjects are not used.
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*/
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virtual void compileGLObjects(RenderInfo& renderInfo) const;
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/** Set whether to use a mutex to ensure ref() and unref() are thread safe.*/
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virtual void setThreadSafeRefUnref(bool threadSafe);
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/** Resize any per context GLObject buffers to specified size. */
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virtual void resizeGLObjectBuffers(unsigned int maxSize);
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/** If State is non-zero, this function releases OpenGL objects for
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* the specified graphics context. Otherwise, releases OpenGL objects
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* for all graphics contexts. */
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virtual void releaseGLObjects(State* state=0) const;
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struct OSG_EXPORT UpdateCallback : public virtual Callback
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{
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UpdateCallback() {}
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UpdateCallback(const UpdateCallback&,const CopyOp&) {}
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META_Object(osg,UpdateCallback);
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/** override Callback::run() entry point to adapt to StateAttributeCallback::run(..) method.*/
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virtual bool run(osg::Object* object, osg::Object* data);
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/** do customized update code.*/
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virtual void update(osg::NodeVisitor*, osg::Drawable*) {}
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};
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struct OSG_EXPORT EventCallback : public virtual Callback
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{
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EventCallback() {}
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EventCallback(const EventCallback&,const CopyOp&) {}
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META_Object(osg,EventCallback);
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/** override Callback::run() entry point to adapt to StateAttributeCallback::run(..) method.*/
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virtual bool run(osg::Object* object, osg::Object* data);
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/** do customized Event code. */
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virtual void event(osg::NodeVisitor*, osg::Drawable*) {}
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};
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struct CullCallback : public virtual Callback
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{
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CullCallback() {}
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CullCallback(const CullCallback&,const CopyOp&) {}
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META_Object(osg,CullCallback);
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// just use the standard run implementation to passes run onto any nested callbacks.
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using Callback::run;
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/** deprecated.*/
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virtual bool cull(osg::NodeVisitor*, osg::Drawable*, osg::State*) const { return false; }
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/** do customized cull code, return true if drawable should be culled.*/
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virtual bool cull(osg::NodeVisitor* nv, osg::Drawable* drawable, osg::RenderInfo* renderInfo) const { return cull(nv, drawable, renderInfo? renderInfo->getState():0); }
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};
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/** Callback attached to an Drawable which allows the users to customize the drawing of an exist Drawable object.
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* The draw callback is implement as a replacement to the Drawable's own drawImplementation() method, if the
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* the user intends to decorate the existing draw code then simple call the drawable->drawImplementation() from
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* with the callbacks drawImplementation() method. This allows the users to do both pre and post callbacks
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* without fuss and can even disable the inner draw if required.*/
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struct DrawCallback : public virtual osg::Object
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{
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DrawCallback() {}
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DrawCallback(const DrawCallback&,const CopyOp&) {}
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META_Object(osg,DrawCallback);
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/** do customized draw code.*/
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virtual void drawImplementation(osg::RenderInfo& /*renderInfo*/,const osg::Drawable* /*drawable*/) const {}
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};
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/** Set the DrawCallback which allows users to attach customize the drawing of existing Drawable object.*/
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virtual void setDrawCallback(DrawCallback* dc) { _drawCallback=dc; dirtyDisplayList(); }
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/** Get the non const DrawCallback.*/
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DrawCallback* getDrawCallback() { return _drawCallback.get(); }
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/** Get the const DrawCallback.*/
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const DrawCallback* getDrawCallback() const { return _drawCallback.get(); }
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/** drawImplementation(RenderInfo&) is a pure virtual method for the actual implementation of OpenGL drawing calls, such as vertex arrays and primitives, that
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* must be implemented in concrete subclasses of the Drawable base class, examples include osg::Geometry and osg::ShapeDrawable.
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* drawImplementation(RenderInfo&) is called from the draw(RenderInfo&) method, with the draw method handling management of OpenGL display lists,
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* and drawImplementation(RenderInfo&) handling the actual drawing itself.
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* @param renderInfo The osg::RenderInfo object that encapsulates the current rendering information including the osg::State OpenGL state for the current graphics context. */
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virtual void drawImplementation(RenderInfo& /*renderInfo*/) const {}
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/** Return a OpenGL display list handle a newly generated or reused from display list cache. */
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static GLuint generateDisplayList(unsigned int contextID, unsigned int sizeHint = 0);
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/** Set the minimum number of display lists to retain in the deleted display list cache. */
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static void setMinimumNumberOfDisplayListsToRetainInCache(unsigned int minimum);
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/** Get the minimum number of display lists to retain in the deleted display list cache. */
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static unsigned int getMinimumNumberOfDisplayListsToRetainInCache();
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/** Use deleteDisplayList instead of glDeleteList to allow
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* OpenGL display list to be cached until they can be deleted
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* by the OpenGL context in which they were created, specified
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* by contextID.*/
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static void deleteDisplayList(unsigned int contextID,GLuint globj, unsigned int sizeHint = 0);
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/** Flush all the cached display list which need to be deleted
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* in the OpenGL context related to contextID.*/
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static void flushAllDeletedDisplayLists(unsigned int contextID);
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/** Flush all the cached display list which need to be deleted
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* in the OpenGL context related to contextID.
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* Note, unlike flush no OpenGL calls are made, instead the handles are all removed.
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* this call is useful for when an OpenGL context has been destroyed. */
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static void discardAllDeletedDisplayLists(unsigned int contextID);
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/** Flush the cached display list which need to be deleted
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* in the OpenGL context related to contextID.*/
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static void flushDeletedDisplayLists(unsigned int contextID,double& availableTime);
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typedef unsigned int AttributeType;
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enum AttributeTypes
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{
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VERTICES = 0,
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WEIGHTS = 1,
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NORMALS = 2,
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COLORS = 3,
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SECONDARY_COLORS = 4,
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FOG_COORDS = 5,
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ATTRIBUTE_6 = 6,
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ATTRIBUTE_7 = 7,
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TEXTURE_COORDS = 8,
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TEXTURE_COORDS_0 = TEXTURE_COORDS,
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TEXTURE_COORDS_1 = TEXTURE_COORDS_0+1,
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TEXTURE_COORDS_2 = TEXTURE_COORDS_0+2,
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TEXTURE_COORDS_3 = TEXTURE_COORDS_0+3,
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TEXTURE_COORDS_4 = TEXTURE_COORDS_0+4,
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TEXTURE_COORDS_5 = TEXTURE_COORDS_0+5,
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TEXTURE_COORDS_6 = TEXTURE_COORDS_0+6,
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TEXTURE_COORDS_7 = TEXTURE_COORDS_0+7
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// only eight texture coord examples provided here, but underlying code can handle any no of texture units,
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// simply co them as (TEXTURE_COORDS_0+unit).
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};
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class AttributeFunctor
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{
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public:
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virtual ~AttributeFunctor() {}
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virtual void apply(AttributeType,unsigned int,GLbyte*) {}
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virtual void apply(AttributeType,unsigned int,GLshort*) {}
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virtual void apply(AttributeType,unsigned int,GLint*) {}
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virtual void apply(AttributeType,unsigned int,GLubyte*) {}
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virtual void apply(AttributeType,unsigned int,GLushort*) {}
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virtual void apply(AttributeType,unsigned int,GLuint*) {}
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virtual void apply(AttributeType,unsigned int,float*) {}
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virtual void apply(AttributeType,unsigned int,Vec2*) {}
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virtual void apply(AttributeType,unsigned int,Vec3*) {}
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virtual void apply(AttributeType,unsigned int,Vec4*) {}
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virtual void apply(AttributeType,unsigned int,Vec4ub*) {}
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virtual void apply(AttributeType,unsigned int,double*) {}
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virtual void apply(AttributeType,unsigned int,Vec2d*) {}
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virtual void apply(AttributeType,unsigned int,Vec3d*) {}
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virtual void apply(AttributeType,unsigned int,Vec4d*) {}
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};
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/** Return true if the Drawable subclass supports accept(AttributeFunctor&).*/
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virtual bool supports(const AttributeFunctor&) const { return false; }
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/** accept an AttributeFunctor and call its methods to tell it about the internal attributes that this Drawable has.
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* return true if functor handled by drawable,
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* return false on failure of drawable to generate functor calls.*/
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virtual void accept(AttributeFunctor&) {}
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class ConstAttributeFunctor
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{
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public:
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virtual ~ConstAttributeFunctor() {}
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virtual void apply(AttributeType,unsigned int,const GLbyte*) {}
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virtual void apply(AttributeType,unsigned int,const GLshort*) {}
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virtual void apply(AttributeType,unsigned int,const GLint*) {}
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virtual void apply(AttributeType,unsigned int,const GLubyte*) {}
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virtual void apply(AttributeType,unsigned int,const GLushort*) {}
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virtual void apply(AttributeType,unsigned int,const GLuint*) {}
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virtual void apply(AttributeType,unsigned int,const float*) {}
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virtual void apply(AttributeType,unsigned int,const Vec2*) {}
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virtual void apply(AttributeType,unsigned int,const Vec3*) {}
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virtual void apply(AttributeType,unsigned int,const Vec4*) {}
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virtual void apply(AttributeType,unsigned int,const Vec4ub*) {}
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virtual void apply(AttributeType,unsigned int,const double*) {}
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virtual void apply(AttributeType,unsigned int,const Vec2d*) {}
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virtual void apply(AttributeType,unsigned int,const Vec3d*) {}
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virtual void apply(AttributeType,unsigned int,const Vec4d*) {}
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};
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/** Return true if the Drawable subclass supports accept(ConstAttributeFunctor&).*/
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virtual bool supports(const ConstAttributeFunctor&) const { return false; }
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/** Accept an AttributeFunctor and call its methods to tell it about the internal attributes that this Drawable has.
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* return true if functor handled by drawable,
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* return false on failure of drawable to generate functor calls.*/
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virtual void accept(ConstAttributeFunctor&) const {}
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/** Return true if the Drawable subclass supports accept(PrimitiveFunctor&).*/
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virtual bool supports(const PrimitiveFunctor&) const { return false; }
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/** Accept a PrimitiveFunctor and call its methods to tell it about the internal primitives that this Drawable has.
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* return true if functor handled by drawable, return false on failure of drawable to generate functor calls.
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* Note, PrimtiveFunctor only provides const access of the primitives, as primitives may be procedurally generated
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* so one cannot modify it.*/
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virtual void accept(PrimitiveFunctor&) const {}
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/** Return true if the Drawable subclass supports accept(PrimitiveIndexFunctor&).*/
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virtual bool supports(const PrimitiveIndexFunctor&) const { return false; }
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/** Accept a PrimitiveIndexFunctor and call its methods to tell it about the internal primitives that this Drawable has.
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* return true if functor handled by drawable, return false on failure of drawable to generate functor calls.
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* Note, PrimtiveIndexFunctor only provide const access of the primitives, as primitives may be procedurally generated
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* so one cannot modify it.*/
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virtual void accept(PrimitiveIndexFunctor&) const {}
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protected:
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Drawable& operator = (const Drawable&) { return *this;}
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virtual ~Drawable();
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/** set the bounding box .*/
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void setBound(const BoundingBox& bb) const;
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friend class Node;
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friend class Geode;
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friend class StateSet;
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BoundingBox _initialBound;
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ref_ptr<ComputeBoundingBoxCallback> _computeBoundCallback;
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mutable BoundingBox _boundingBox;
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mutable bool _boundingBoxComputed;
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ref_ptr<Shape> _shape;
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bool _supportsDisplayList;
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bool _useDisplayList;
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bool _supportsVertexBufferObjects;
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bool _useVertexBufferObjects;
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typedef osg::buffered_value<GLuint> GLObjectList;
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mutable GLObjectList _globjList;
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ref_ptr<UpdateCallback> _drawableUpdateCallback;
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ref_ptr<EventCallback> _drawableEventCallback;
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ref_ptr<CullCallback> _drawableCullCallback;
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ref_ptr<DrawCallback> _drawCallback;
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};
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inline void Drawable::draw(RenderInfo& renderInfo) const
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{
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#ifdef OSG_GL_DISPLAYLISTS_AVAILABLE
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if (_useDisplayList && !(_supportsVertexBufferObjects && _useVertexBufferObjects && renderInfo.getState()->isVertexBufferObjectSupported()))
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{
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// get the contextID (user defined ID of 0 upwards) for the
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// current OpenGL context.
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unsigned int contextID = renderInfo.getContextID();
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// get the globj for the current contextID.
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GLuint& globj = _globjList[contextID];
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// call the globj if already set otherwise compile and execute.
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if( globj != 0 )
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{
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glCallList( globj );
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}
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else if (_useDisplayList)
|
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{
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#ifdef USE_SEPARATE_COMPILE_AND_EXECUTE
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globj = generateDisplayList(contextID, getGLObjectSizeHint());
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glNewList( globj, GL_COMPILE );
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if (_drawCallback.valid())
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_drawCallback->drawImplementation(renderInfo,this);
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else
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drawImplementation(renderInfo);
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glEndList();
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|
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glCallList( globj);
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#else
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globj = generateDisplayList(contextID, getGLObjectSizeHint());
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glNewList( globj, GL_COMPILE_AND_EXECUTE );
|
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if (_drawCallback.valid())
|
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_drawCallback->drawImplementation(renderInfo,this);
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else
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drawImplementation(renderInfo);
|
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glEndList();
|
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#endif
|
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}
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|
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return;
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|
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}
|
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#endif
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|
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// draw object as nature intended..
|
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if (_drawCallback.valid())
|
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_drawCallback->drawImplementation(renderInfo,this);
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else
|
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drawImplementation(renderInfo);
|
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}
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|
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}
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#endif
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