706 lines
26 KiB
Plaintext
706 lines
26 KiB
Plaintext
//C++ header - Open Scene Graph - Copyright (C) 1998-2002 Robert Osfield
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//Distributed under the terms of the GNU Library General Public License (LGPL)
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//as published by the Free Software Foundation.
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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/State>
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#include <osg/Types>
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#include <osg/NodeVisitor>
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#include <vector>
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#include <map>
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#include <set>
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namespace osg {
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class Vec2;
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class Vec3;
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class Vec4;
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class UByte4;
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class Node;
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// this is define 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 sperate 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. Contains no drawing primitives
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directly, these are provided by subclasses such as osg::Geometry. State attributes
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for a Drawable are maintained in StateSet which the Drawable maintains
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a referenced counted pointer to. Both Drawable's and StateSet's can
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be shared for optimal memory usage and graphics performance.
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*/
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class SG_EXPORT Drawable : public Object
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{
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public:
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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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virtual bool isSameKindAs(const Object* obj) const { return dynamic_cast<const Drawable*>(obj)!=NULL; }
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virtual const char* libraryName() const { return "osg"; }
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virtual const char* className() const { return "Drawable"; }
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/** A vector of osg::Node pointers which is used to store the parent(s) of drawable.*/
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typedef std::vector<Node*> ParentList;
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/** Get the parent list of drawable. */
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inline const ParentList& getParents() const { return _parents; }
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/** Get the a copy of parent list of node. A copy is returned to
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* prevent modification of the parent list.*/
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inline ParentList getParents() { return _parents; }
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/** Get a single parent of Drawable.
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* @param i index of the parent to get.
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* @return the parent i.
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*/
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inline Node* getParent(const unsigned int i) { return _parents[i]; }
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/** Get a single const parent of Drawable.
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* @param i index of the parent to get.
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* @return the parent i.
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*/
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inline const Node* getParent(const unsigned int i) const { return _parents[i]; }
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/**
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* Get the number of parents of node.
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* @return the number of parents of this node.
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*/
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inline const unsigned int getNumParents() const { return _parents.size(); }
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/** Set the StateSet attached to the Drawable.
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Previously attached StateSet are automatically unreferenced on
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assignment of a new drawstate.*/
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inline void setStateSet(StateSet *state) { _dstate = state; }
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/** Get the attached StateSet.*/
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inline StateSet* getStateSet() { return _dstate.get();}
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/** Get the attached const StateSet.*/
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inline const StateSet* getStateSet() const { return _dstate.get();}
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/** Set the drawable to it can or cannot be used in conjunction with OpenGL
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* display lists. With 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 later
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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(const bool flag);
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/** Get whether display lists are supported for this drawable instance.*/
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inline const 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 already
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compile the next call to draw will automatically create the display list.*/
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void setUseDisplayList(const bool flag);
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/** Return whether OpenGL display lists are being used for rendering.*/
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inline const bool getUseDisplayList() const { return _useDisplayList; }
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/** Force a recompile on next draw() of any OpenGL display list associated with this geoset.*/
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void dirtyDisplayList();
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/** Dirty the bounding box, forcing a computeBound() on the next call
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* to getBound(). Should be called in the internal geometry of the Drawable
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* is modified.*/
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void dirtyBound();
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/** get bounding box of geoset.
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* Note, now made virtual to make it possible to implement user-drawn
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* objects albeit so what crudely, to be improved later.
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*/
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inline const BoundingBox& getBound() const
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{
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if( !_bbox_computed)
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computeBound();
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return _bbox;
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}
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/** draw OpenGL primitives.
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* If the drawable has _useDisplayList set to true then use an OpenGL display
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* list, automatically compiling one if required.
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* Otherwise call drawImmediateMode().
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* Note, draw method should *not* be overridden in subclasses as it
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* manages the optional display list.
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*/
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inline void draw(State& state);
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/** Immediately compile this drawable into an OpenGL Display List.
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Note I, operation is ignored if _useDisplayList to false.
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Note II, compile is not intended to be overridden in subclasses.*/
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void compile(State& state);
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struct AppCallback : public osg::Referenced
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{
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/** do customized app code.*/
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virtual void app(osg::NodeVisitor *visitor, osg::Drawable* drawable) = 0;
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};
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/** Set the AppCallback which allows users to attach customize the undating of an object during the app traversal.*/
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void setAppCallback(AppCallback* ac);
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/** Get the non const AppCallback.*/
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AppCallback* getAppCallback() { return _appCallback.get(); }
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/** Get the const AppCallback.*/
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const AppCallback* getAppCallback() const { return _appCallback.get(); }
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struct CullCallback : public osg::Referenced
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{
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/** do customized cull code.*/
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virtual bool cull(osg::NodeVisitor *visitor, osg::Drawable* drawable, osg::State *state=NULL) const = 0;
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};
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/** Set the CullCallback which allows users to attach customize the culling of Drawable during the cull traversal.*/
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void setCullCallback(CullCallback* cc) { _cullCallback=cc; }
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/** Get the non const CullCallback.*/
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CullCallback* getCullCallback() { return _cullCallback.get(); }
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/** Get the const CullCallback.*/
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const CullCallback* getCullCallback() const { return _cullCallback.get(); }
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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 drawImmediateMode() method, if the
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* the user intends to decorate the exist draw code then simple call the drawable->drawImmediateMode() from
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* with the callbacks drawImmediateMode() method. This allows the users to do both pre and post callbacks
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* without fuss and can even diable the inner draw in required.*/
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struct DrawCallback : public osg::Referenced
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{
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/** do customized draw code.*/
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virtual void drawImmediateMode(State& state,osg::Drawable* drawable) const = 0;
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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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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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/** draw directly ignoring an OpenGL display list which could be attached.
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* This is the internal draw method which does the drawing itself,
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* and is the method to override when deriving from Drawable.
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*/
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virtual void drawImmediateMode(State& state) = 0;
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/** use deleteDisplayList instead of glDeleteList to allow
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* OpenGL display list to 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(uint contextID,uint globj);
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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 flushDeletedDisplayLists(uint contextID);
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enum AttributeType
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{
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VERTICES,
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NORMALS,
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COLORS,
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TEXTURE_COORDS,
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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 texure 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,UByte4*) {}
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};
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/** accept an AttributeFunctor and call its methods to tell it about the interal attributes that this Drawable has.*/
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virtual void accept(AttributeFunctor&) {}
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class PrimitiveFunctor
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{
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public:
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virtual ~PrimitiveFunctor() {}
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virtual void setVertexArray(unsigned int count,Vec3* vertices) = 0;
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virtual void drawArrays(GLenum mode,GLint first,GLsizei count) = 0;
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virtual void drawElements(GLenum mode,GLsizei count,GLubyte* indices) = 0;
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virtual void drawElements(GLenum mode,GLsizei count,GLushort* indices) = 0;
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virtual void drawElements(GLenum mode,GLsizei count,GLuint* indices) = 0;
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virtual void begin(GLenum mode) = 0;
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virtual void vertex(const Vec3& vert) = 0;
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virtual void vertex(float x,float y,float z) = 0;
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virtual void end() = 0;
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};
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/** accept a PrimtiveFunctor and call its methods to tell it about the interal primtives that this Drawable has.*/
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virtual void accept(PrimitiveFunctor&) {}
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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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/** compute the bounding box of the drawable. Method must be
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implemented by subclasses.*/
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virtual const bool computeBound() const;
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void addParent(osg::Node* node);
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void removeParent(osg::Node* node);
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ParentList _parents;
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friend class Node;
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friend class Geode;
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ref_ptr<StateSet> _dstate;
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bool _supportsDisplayList;
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bool _useDisplayList;
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typedef std::vector<uint> GLObjectList;
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mutable GLObjectList _globjList;
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mutable BoundingBox _bbox;
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mutable bool _bbox_computed;
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ref_ptr<AppCallback> _appCallback;
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ref_ptr<DrawCallback> _drawCallback;
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ref_ptr<CullCallback> _cullCallback;
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// static cache of deleted display lists which can only
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// by completely deleted once the appropriate OpenGL context
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// is set.
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typedef std::map<uint,std::set<uint> > DeletedDisplayListCache;
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static DeletedDisplayListCache s_deletedDisplayListCache;
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};
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inline void Drawable::draw(State& state)
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{
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if (_useDisplayList)
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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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uint contextID = state.getContextID();
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// fill in array if required.
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while (_globjList.size()<=contextID) _globjList.push_back(0);
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// get the globj for the current contextID.
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uint& 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 = glGenLists( 1 );
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glNewList( globj, GL_COMPILE );
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if (_drawCallback.valid())
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_drawCallback->drawImmediateMode(state,this);
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else
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drawImmediateMode(state);
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glEndList();
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glCallList( globj);
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#else
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globj = glGenLists( 1 );
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glNewList( globj, GL_COMPILE_AND_EXECUTE );
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if (_drawCallback.valid())
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_drawCallback->drawImmediateMode(state,this);
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else
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drawImmediateMode(state);
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glEndList();
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#endif
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}
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}
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else
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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->drawImmediateMode(state,this);
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else
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drawImmediateMode(state);
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}
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};
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template<class T>
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class TriangleFunctor : public Drawable::PrimitiveFunctor, public T
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{
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public:
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TriangleFunctor()
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{
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_vertexArraySize=0;
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_vertexArrayPtr=0;
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_modeCache=0;
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}
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virtual ~TriangleFunctor() {}
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virtual void setVertexArray(unsigned int count,Vec3* vertices)
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{
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_vertexArraySize = count;
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_vertexArrayPtr = vertices;
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}
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virtual void drawArrays(GLenum mode,GLint first,GLsizei count)
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{
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if (_vertexArrayPtr==0 && count==0) return;
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switch(mode)
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{
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case(GL_TRIANGLES):
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{
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Vec3* vlast = &_vertexArrayPtr[first+count];
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for(Vec3* vptr=&_vertexArrayPtr[first];vptr<vlast;vptr+=3)
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operator()(*(vptr),*(vptr+1),*(vptr+2));
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break;
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}
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case(GL_TRIANGLE_STRIP):
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{
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Vec3* vptr = &_vertexArrayPtr[first];
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for(GLsizei i=2;i<count;++i,++vptr)
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{
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if ((i%2)) operator()(*(vptr),*(vptr+2),*(vptr+1));
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else operator()(*(vptr),*(vptr+1),*(vptr+2));
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}
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break;
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}
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case(GL_QUADS):
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{
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Vec3* vptr = &_vertexArrayPtr[first];
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for(GLsizei i=3;i<count;i+=4,vptr+=4)
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{
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operator()(*(vptr),*(vptr+1),*(vptr+2));
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operator()(*(vptr),*(vptr+2),*(vptr+3));
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}
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break;
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}
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case(GL_QUAD_STRIP):
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{
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Vec3* vptr = &_vertexArrayPtr[first];
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for(GLsizei i=3;i<count;i+=2,vptr+=2)
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{
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operator()(*(vptr),*(vptr+1),*(vptr+2));
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operator()(*(vptr+1),*(vptr+3),*(vptr+2));
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}
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break;
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}
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case(GL_POLYGON): // treat polygons as GL_TRIANGLE_FAN
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case(GL_TRIANGLE_FAN):
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{
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Vec3* vfirst = &_vertexArrayPtr[first];
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Vec3* vptr = vfirst+1;
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for(GLsizei i=2;i<count;++i,++vptr)
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{
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operator()(*(vfirst),*(vptr),*(vptr+1));
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}
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break;
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}
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case(GL_POINTS):
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case(GL_LINES):
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case(GL_LINE_STRIP):
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case(GL_LINE_LOOP):
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default:
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// can't be converted into to triangles.
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break;
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}
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}
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virtual void drawElements(GLenum mode,GLsizei count,GLubyte* indices)
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{
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if (indices==0 || count==0) return;
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typedef GLubyte* IndexPointer;
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switch(mode)
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{
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case(GL_TRIANGLES):
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{
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IndexPointer ilast = &indices[count];
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for(IndexPointer iptr=indices;iptr<ilast;iptr+=3)
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operator()(_vertexArrayPtr[*iptr],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
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break;
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}
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case(GL_TRIANGLE_STRIP):
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{
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IndexPointer iptr = indices;
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for(GLsizei i=2;i<count;++i,++iptr)
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{
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if ((i%2)) operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+2)],_vertexArrayPtr[*(iptr+1)]);
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else operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
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}
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break;
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}
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case(GL_QUADS):
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{
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IndexPointer iptr = indices;
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for(GLsizei i=3;i<count;i+=4,iptr+=4)
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{
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operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
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operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+2)],_vertexArrayPtr[*(iptr+3)]);
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}
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break;
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}
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case(GL_QUAD_STRIP):
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{
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IndexPointer iptr = indices;
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for(GLsizei i=3;i<count;i+=2,iptr+=2)
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{
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operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
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operator()(_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+3)],_vertexArrayPtr[*(iptr+2)]);
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}
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break;
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}
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case(GL_POLYGON): // treat polygons as GL_TRIANGLE_FAN
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case(GL_TRIANGLE_FAN):
|
|
{
|
|
IndexPointer iptr = indices;
|
|
Vec3& vfirst = _vertexArrayPtr[*iptr];
|
|
++iptr;
|
|
for(GLsizei i=2;i<count;++i,++iptr)
|
|
{
|
|
operator()(vfirst,_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)]);
|
|
}
|
|
break;
|
|
}
|
|
case(GL_POINTS):
|
|
case(GL_LINES):
|
|
case(GL_LINE_STRIP):
|
|
case(GL_LINE_LOOP):
|
|
default:
|
|
// can't be converted into to triangles.
|
|
break;
|
|
}
|
|
}
|
|
|
|
virtual void drawElements(GLenum mode,GLsizei count,GLushort* indices)
|
|
{
|
|
if (indices==0 || count==0) return;
|
|
|
|
typedef GLushort* IndexPointer;
|
|
|
|
switch(mode)
|
|
{
|
|
case(GL_TRIANGLES):
|
|
{
|
|
IndexPointer ilast = &indices[count];
|
|
for(IndexPointer iptr=indices;iptr<ilast;iptr+=3)
|
|
{
|
|
operator()(_vertexArrayPtr[*iptr],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
|
|
}
|
|
break;
|
|
}
|
|
case(GL_TRIANGLE_STRIP):
|
|
{
|
|
IndexPointer iptr = indices;
|
|
for(GLsizei i=2;i<count;++i,++iptr)
|
|
{
|
|
if ((i%2)) operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+2)],_vertexArrayPtr[*(iptr+1)]);
|
|
else operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
|
|
}
|
|
break;
|
|
}
|
|
case(GL_QUADS):
|
|
{
|
|
IndexPointer iptr = indices;
|
|
for(GLsizei i=3;i<count;i+=4,iptr+=4)
|
|
{
|
|
operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
|
|
operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+2)],_vertexArrayPtr[*(iptr+3)]);
|
|
}
|
|
break;
|
|
}
|
|
case(GL_QUAD_STRIP):
|
|
{
|
|
IndexPointer iptr = indices;
|
|
for(GLsizei i=3;i<count;i+=2,iptr+=2)
|
|
{
|
|
operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
|
|
operator()(_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+3)],_vertexArrayPtr[*(iptr+2)]);
|
|
}
|
|
break;
|
|
}
|
|
case(GL_POLYGON): // treat polygons as GL_TRIANGLE_FAN
|
|
case(GL_TRIANGLE_FAN):
|
|
{
|
|
IndexPointer iptr = indices;
|
|
Vec3& vfirst = _vertexArrayPtr[*iptr];
|
|
++iptr;
|
|
for(GLsizei i=2;i<count;++i,++iptr)
|
|
{
|
|
operator()(vfirst,_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)]);
|
|
}
|
|
break;
|
|
}
|
|
case(GL_POINTS):
|
|
case(GL_LINES):
|
|
case(GL_LINE_STRIP):
|
|
case(GL_LINE_LOOP):
|
|
default:
|
|
// can't be converted into to triangles.
|
|
break;
|
|
}
|
|
}
|
|
|
|
virtual void drawElements(GLenum mode,GLsizei count,GLuint* indices)
|
|
{
|
|
if (indices==0 || count==0) return;
|
|
|
|
typedef GLuint* IndexPointer;
|
|
|
|
switch(mode)
|
|
{
|
|
case(GL_TRIANGLES):
|
|
{
|
|
IndexPointer ilast = &indices[count];
|
|
for(IndexPointer iptr=indices;iptr<ilast;iptr+=3)
|
|
operator()(_vertexArrayPtr[*iptr],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
|
|
break;
|
|
}
|
|
case(GL_TRIANGLE_STRIP):
|
|
{
|
|
IndexPointer iptr = indices;
|
|
for(GLsizei i=2;i<count;++i,++iptr)
|
|
{
|
|
if ((i%2)) operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+2)],_vertexArrayPtr[*(iptr+1)]);
|
|
else operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
|
|
}
|
|
break;
|
|
}
|
|
case(GL_QUADS):
|
|
{
|
|
IndexPointer iptr = indices;
|
|
for(GLsizei i=3;i<count;i+=4,iptr+=4)
|
|
{
|
|
operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
|
|
operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+2)],_vertexArrayPtr[*(iptr+3)]);
|
|
}
|
|
break;
|
|
}
|
|
case(GL_QUAD_STRIP):
|
|
{
|
|
IndexPointer iptr = indices;
|
|
for(GLsizei i=3;i<count;i+=2,iptr+=2)
|
|
{
|
|
operator()(_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+2)]);
|
|
operator()(_vertexArrayPtr[*(iptr+1)],_vertexArrayPtr[*(iptr+3)],_vertexArrayPtr[*(iptr+2)]);
|
|
}
|
|
break;
|
|
}
|
|
case(GL_POLYGON): // treat polygons as GL_TRIANGLE_FAN
|
|
case(GL_TRIANGLE_FAN):
|
|
{
|
|
IndexPointer iptr = indices;
|
|
Vec3& vfirst = _vertexArrayPtr[*iptr];
|
|
++iptr;
|
|
for(GLsizei i=2;i<count;++i,++iptr)
|
|
{
|
|
operator()(vfirst,_vertexArrayPtr[*(iptr)],_vertexArrayPtr[*(iptr+1)]);
|
|
}
|
|
break;
|
|
}
|
|
case(GL_POINTS):
|
|
case(GL_LINES):
|
|
case(GL_LINE_STRIP):
|
|
case(GL_LINE_LOOP):
|
|
default:
|
|
// can't be converted into to triangles.
|
|
break;
|
|
}
|
|
}
|
|
|
|
|
|
|
|
/** begin(..),vertex(..) & end() are convinience methods for adapting
|
|
* non vertex array primitives to vertex array based primitives.
|
|
* this is done to simplify the implementation of primtive functor
|
|
* subclasses - users only need override drawArray and drawElements.*/
|
|
inline void begin(GLenum mode)
|
|
{
|
|
_modeCache = mode;
|
|
_vertexCache.clear();
|
|
}
|
|
|
|
inline void vertex(const Vec3& vert) { _vertexCache.push_back(vert); }
|
|
inline void vertex(float x,float y,float z) { _vertexCache.push_back(osg::Vec3(x,y,z)); }
|
|
inline void end()
|
|
{
|
|
if (!_vertexCache.empty())
|
|
{
|
|
setVertexArray(_vertexCache.size(),&_vertexCache.front());
|
|
drawArrays(_modeCache,0,_vertexCache.size());
|
|
}
|
|
}
|
|
|
|
protected:
|
|
|
|
|
|
unsigned int _vertexArraySize;
|
|
Vec3* _vertexArrayPtr;
|
|
|
|
GLenum _modeCache;
|
|
std::vector<Vec3> _vertexCache;
|
|
|
|
};
|
|
|
|
|
|
}
|
|
|
|
#endif
|