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Ruta de la carpeta: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\ogre\include\OgreBillboardSet.h
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/* ----------------------------------------------------------------------------- This source file is part of OGRE (Object-oriented Graphics Rendering Engine) For the latest info, see http://www.ogre3d.org/ Copyright (c) 2000-2006 Torus Knot Software Ltd Also see acknowledgements in Readme.html This program is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA, or go to http://www.gnu.org/copyleft/lesser.txt. You may alternatively use this source under the terms of a specific version of the OGRE Unrestricted License provided you have obtained such a license from Torus Knot Software Ltd. ----------------------------------------------------------------------------- */ #ifndef __BillboardSet_H__ #define __BillboardSet_H__ #include "OgrePrerequisites.h" #include "OgreMovableObject.h" #include "OgreRenderable.h" #include "OgreRadixSort.h" #include "OgreCommon.h" namespace Ogre { /** Enum covering what exactly a billboard's position means (center, top-left etc). @see BillboardSet::setBillboardOrigin */ enum BillboardOrigin { BBO_TOP_LEFT, BBO_TOP_CENTER, BBO_TOP_RIGHT, BBO_CENTER_LEFT, BBO_CENTER, BBO_CENTER_RIGHT, BBO_BOTTOM_LEFT, BBO_BOTTOM_CENTER, BBO_BOTTOM_RIGHT }; /** The rotation type of billboard. */ enum BillboardRotationType { /// Rotate the billboard's vertices around their facing direction BBR_VERTEX, /// Rotate the billboard's texture coordinates BBR_TEXCOORD }; /** The type of billboard to use. */ enum BillboardType { /// Standard point billboard (default), always faces the camera completely and is always upright BBT_POINT, /// Billboards are oriented around a shared direction vector (used as Y axis) and only rotate around this to face the camera BBT_ORIENTED_COMMON, /// Billboards are oriented around their own direction vector (their own Y axis) and only rotate around this to face the camera BBT_ORIENTED_SELF, /// Billboards are perpendicular to a shared direction vector (used as Z axis, the facing direction) and X, Y axis are determined by a shared up-vertor BBT_PERPENDICULAR_COMMON, /// Billboards are perpendicular to their own direction vector (their own Z axis, the facing direction) and X, Y axis are determined by a shared up-vertor BBT_PERPENDICULAR_SELF }; /** A collection of billboards (faces which are always facing the given direction) with the same (default) dimensions, material and which are fairly close proximity to each other. @remarks Billboards are rectangles made up of 2 tris which are always facing the given direction. They are typically used for special effects like particles. This class collects together a set of billboards with the same (default) dimensions, material and relative locality in order to process them more efficiently. The entire set of billboards will be culled as a whole (by default, although this can be changed if you want a large set of billboards which are spread out and you want them culled individually), individual Billboards have locations which are relative to the set (which itself derives it's position from the SceneNode it is attached to since it is a MoveableObject), they will be rendered as a single rendering operation, and some calculations will be sped up by the fact that they use the same dimensions so some workings can be reused. @par A BillboardSet can be created using the SceneManager::createBillboardSet method. They can also be used internally by other classes to create effects. @note Billboard bounds are only automatically calculated when you create them. If you modify the position of a billboard you may need to call _updateBounds if the billboard moves outside the original bounds. Similarly, the bounds do no shrink when you remove a billboard, if you want them to call _updateBounds, but note this requires a potentially expensive examination of every billboard in the set. */ class _OgreExport BillboardSet : public MovableObject, public Renderable { protected: /** Private constructor (instances cannot be created directly). */ BillboardSet(); /// Bounds of all billboards in this set AxisAlignedBox mAABB; /// Bounding radius Real mBoundingRadius; /// Origin of each billboard BillboardOrigin mOriginType; /// Rotation type of each billboard BillboardRotationType mRotationType; /// Default width of each billboard Real mDefaultWidth; /// Default height of each billboard Real mDefaultHeight; /// Name of the material to use String mMaterialName; /// Pointer to the material to use MaterialPtr mpMaterial; /// True if no billboards in this set have been resized - greater efficiency. bool mAllDefaultSize; /// Flag indicating whether to autoextend pool bool mAutoExtendPool; /// Flag indicating whether the billboards has to be sorted bool mSortingEnabled; // Use 'true' billboard to cam position facing, rather than camera direcion bool mAccurateFacing; bool mAllDefaultRotation; bool mWorldSpace; typedef std::list
ActiveBillboardList; typedef std::list
FreeBillboardList; typedef std::vector
BillboardPool; /** Active billboard list. @remarks This is a linked list of pointers to billboards in the billboard pool. @par This allows very fast instertions and deletions from anywhere in the list to activate / deactivate billboards (required for particle systems etc) as well as resuse of Billboard instances in the pool without construction & destruction which avoids memory thrashing. */ ActiveBillboardList mActiveBillboards; /** Free billboard queue. @remarks This contains a list of the billboards free for use as new instances as required by the set. Billboard instances are preconstructed up to the estimated size in the mBillboardPool vector and are referenced on this deque at startup. As they get used this deque reduces, as they get released back to to the set they get added back to the deque. */ FreeBillboardList mFreeBillboards; /** Pool of billboard instances for use and reuse in the active billboard list. @remarks This vector will be preallocated with the estimated size of the set,and will extend as required. */ BillboardPool mBillboardPool; /// The vertex position data for all billboards in this set. VertexData* mVertexData; /// Shortcut to main buffer (positions, colours, texture coords) HardwareVertexBufferSharedPtr mMainBuf; /// Locked pointer to buffer float* mLockPtr; /// Boundary offsets based on origin and camera orientation /// Vector3 vLeftOff, vRightOff, vTopOff, vBottomOff; /// Final vertex offsets, used where sizes all default to save calcs Vector3 mVOffset[4]; /// Current camera Camera* mCurrentCamera; // Parametric offsets of origin Real mLeftOff, mRightOff, mTopOff, mBottomOff; // Camera axes in billboard space Vector3 mCamX, mCamY; // Camera direction in billboard space Vector3 mCamDir; // Camera orientation in billboard space Quaternion mCamQ; // Camera position in billboard space Vector3 mCamPos; /// The vertex index data for all billboards in this set (1 set only) //unsigned short* mpIndexes; IndexData* mIndexData; /// Flag indicating whether each billboard should be culled separately (default: false) bool mCullIndividual; typedef std::vector< Ogre::FloatRect > TextureCoordSets; TextureCoordSets mTextureCoords; /// The type of billboard to render BillboardType mBillboardType; /// Common direction for billboards of type BBT_ORIENTED_COMMON and BBT_PERPENDICULAR_COMMON Vector3 mCommonDirection; /// Common up-vector for billboards of type BBT_PERPENDICULAR_SELF and BBT_PERPENDICULAR_COMMON Vector3 mCommonUpVector; /// Internal method for culling individual billboards inline bool billboardVisible(Camera* cam, const Billboard& bill); // Number of visible billboards (will be == getNumBillboards if mCullIndividual == false) unsigned short mNumVisibleBillboards; /// Internal method for increasing pool size virtual void increasePool(size_t size); //----------------------------------------------------------------------- // The internal methods which follow are here to allow maximum flexibility as to // when various components of the calculation are done. Depending on whether the // billboards are of fixed size and whether they are point or oriented type will // determine how much calculation has to be done per-billboard. NOT a one-size fits all approach. //----------------------------------------------------------------------- /** Internal method for generating billboard corners. @remarks Optional parameter pBill is only present for type BBT_ORIENTED_SELF and BBT_PERPENDICULAR_SELF */ void genBillboardAxes(Vector3* pX, Vector3 *pY, const Billboard* pBill = 0); /** Internal method, generates parametric offsets based on origin. */ void getParametricOffsets(Real& left, Real& right, Real& top, Real& bottom); /** Internal method for generating vertex data. @param offsets Array of 4 Vector3 offsets @param bb Referenceto billboard */ void genVertices(const Vector3* const offsets, const Billboard& pBillboard); /** Internal method generates vertex offsets. @remarks Takes in parametric offsets as generated from getParametericOffsets, width and height values and billboard x and y axes as generated from genBillboardAxes. Fills output array of 4 vectors with vector offsets from origin for left-top, right-top, left-bottom, right-bottom corners. */ void genVertOffsets(Real inleft, Real inright, Real intop, Real inbottom, Real width, Real height, const Vector3& x, const Vector3& y, Vector3* pDestVec); /** Sort by direction functor */ struct SortByDirectionFunctor { /// Direction to sort in Vector3 sortDir; SortByDirectionFunctor(const Vector3& dir); float operator()(Billboard* bill) const; }; /** Sort by distance functor */ struct SortByDistanceFunctor { /// Position to sort in Vector3 sortPos; SortByDistanceFunctor(const Vector3& pos); float operator()(Billboard* bill) const; }; static RadixSort
mRadixSorter; /// Use point rendering? bool mPointRendering; private: /// Flag indicating whether the HW buffers have been created. bool mBuffersCreated; /// The number of billboard in the pool. size_t mPoolSize; /// Is external billboard data in use? bool mExternalData; /** Internal method creates vertex and index buffers. */ void _createBuffers(void); /** Internal method destroys vertex and index buffers. */ void _destroyBuffers(void); public: /** Usual constructor - this is called by the SceneManager. @param name The name to give the billboard set (must be unique) @param poolSize The initial size of the billboard pool. Estimate of the number of billboards which will be required, and pass it using this parameter. The set will preallocate this number to avoid memory fragmentation. The default behaviour once this pool has run out is to double it. @param externalDataSource If true, the source of data for drawing the billboards will not be the internal billboard list, but external data. When driving thebillboard from external data, you must call _notifyCurrentCamera to reorient the billboards, setPoolSize to set the maximum billboards you want to use, beginBillboards to start the update, and injectBillboard per billboard, followed by endBillboards. @see BillboardSet::setAutoextend */ BillboardSet( const String& name, unsigned int poolSize = 20, bool externalDataSource = false); virtual ~BillboardSet(); /** Creates a new billboard and adds it to this set. @remarks Behaviour once the billboard pool has been exhausted depends on the BillboardSet::setAutoextendPool option. @param position The position of the new billboard realtive to the certer of the set @param colour Optional base colour of the billboard. @returns On success, a pointer to a newly created Billboard is returned. @par On failiure (i.e. no more space and can't autoextend),
NULL
is returned. @see BillboardSet::setAutoextend */ Billboard* createBillboard( const Vector3& position, const ColourValue& colour = ColourValue::White ); /** Creates a new billboard and adds it to this set. @remarks Behaviour once the billboard pool has been exhausted depends on the BillboardSet::setAutoextendPool option. @param x @param y @param z The position of the new billboard realtive to the certer of the set @param colour Optional base colour of the billboard. @returns On success, a pointer to a newly created Billboard is returned. @par On failiure (i.e. no more space and can't autoextend),
NULL
is returned. @see BillboardSet::setAutoextend */ Billboard* createBillboard( Real x, Real y, Real z, const ColourValue& colour = ColourValue::White ); /** Returns the number of active billboards which currently make up this set. */ virtual int getNumBillboards(void) const; /** Tells the set whether to allow automatic extension of the pool of billboards. @remarks A BillboardSet stores a pool of pre-constructed billboards which are used as needed when a new billboard is requested. This allows applications to create / remove billboards efficiently without incurring construction / destruction costs (a must for sets with lots of billboards like particle effects). This method allows you to configure the behaviour when a new billboard is requested but the billboard pool has been exhausted. @par The default behaviour is to allow the pool to extend (typically this allocates double the current pool of billboards when the pool is expended), equivalent to calling this method with autoExtend = true. If you set the parameter to false however, any attempt to create a new billboard when the pool has expired will simply fail silently, returning a null pointer. @param autoextend true to double the pool every time it runs out, false to fail silently. */ virtual void setAutoextend(bool autoextend); /** Returns true if the billboard pool automatically extends. @see BillboardSet::setAutoextend */ virtual bool getAutoextend(void) const; /** Enables sorting for this BillboardSet. (default: off) @param sortenable true to sort the billboards according to their distance to the camera */ virtual void setSortingEnabled(bool sortenable); /** Returns true if sorting of billboards is enabled based on their distance from the camera @see BillboardSet::setSortingEnabled */ virtual bool getSortingEnabled(void) const; /** Adjusts the size of the pool of billboards available in this set. @remarks See the BillboardSet::setAutoextend method for full details of the billboard pool. This method adjusts the preallocated size of the pool. If you try to reduce the size of the pool, the set has the option of ignoring you if too many billboards are already in use. Bear in mind that calling this method will incur significant construction / destruction calls so should be avoided in time-critical code. The same goes for auto-extension, try to avoid it by estimating the pool size correctly up-front. @param size The new size for the pool. */ virtual void setPoolSize(size_t size); /** Returns the current size of the billboard pool. @returns The current size of the billboard pool. @see BillboardSet::setAutoextend */ virtual unsigned int getPoolSize(void) const; /** Empties this set of all billboards. */ virtual void clear(); /** Returns a pointer to the billboard at the supplied index. @note This method requires linear time since the billboard list is a linked list. @param index The index of the billboard that is requested. @returns On success, a valid pointer to the requested billboard is returned. @par On failiure,
NULL
is returned. */ virtual Billboard* getBillboard(unsigned int index) const; /** Removes the billboard at the supplied index. @note This method requires linear time since the billboard list is a linked list. */ virtual void removeBillboard(unsigned int index); /** Removes a billboard from the set. @note This version is more efficient than removing by index. */ virtual void removeBillboard(Billboard* pBill); /** Sets the point which acts as the origin point for all billboards in this set. @remarks This setting controls the fine tuning of where a billboard appears in relation to it's position. It could be that a billboard's position represents it's center (e.g. for fireballs), it could mean the center of the bottom edge (e.g. a tree which is positioned on the ground), the top-left corner (e.g. a cursor). @par The default setting is BBO_CENTER. @param origin A member of the BillboardOrigin enum specifying the origin for all the billboards in this set. */ virtual void setBillboardOrigin(BillboardOrigin origin); /** Gets the point which acts as the origin point for all billboards in this set. @returns A member of the BillboardOrigin enum specifying the origin for all the billboards in this set. */ virtual BillboardOrigin getBillboardOrigin(void) const; /** Sets billboard rotation type. @remarks This setting controls the billboard rotation type, you can deciding rotate the billboard's vertices around their facing direction or rotate the billboard's texture coordinates. @par The default settings is BBR_TEXCOORD. @param rotationType A member of the BillboardRotationType enum specifying the rotation type for all the billboards in this set. */ virtual void setBillboardRotationType(BillboardRotationType rotationType); /** Sets billboard rotation type. @returns A member of the BillboardRotationType enum specifying the rotation type for all the billboards in this set. */ virtual BillboardRotationType getBillboardRotationType(void) const; /** Sets the default dimensions of the billboards in this set. @remarks All billboards in a set are created with these default dimensions. The set will render most efficiently if all the billboards in the set are the default size. It is possible to alter the size of individual billboards at the expense of extra calculation. See the Billboard class for more info. @param width The new default width for the billboards in this set. @param height The new default height for the billboards in this set. */ virtual void setDefaultDimensions(Real width, Real height); /** See setDefaultDimensions - this sets 1 component individually. */ virtual void setDefaultWidth(Real width); /** See setDefaultDimensions - this gets 1 component individually. */ virtual Real getDefaultWidth(void) const; /** See setDefaultDimensions - this sets 1 component individually. */ virtual void setDefaultHeight(Real height); /** See setDefaultDimensions - this gets 1 component individually. */ virtual Real getDefaultHeight(void) const; /** Sets the name of the material to be used for this billboard set. @param name The new name of the material to use for this set. */ virtual void setMaterialName(const String& name); /** Sets the name of the material to be used for this billboard set. @returns The name of the material that is used for this set. */ virtual const String& getMaterialName(void) const; /** Overridden from MovableObject @see MovableObject */ virtual void _notifyCurrentCamera(Camera* cam); /** Begin injection of billboard data; applicable when constructing the BillboardSet for external data use. @param numBillboards If you know the number of billboards you will be issuing, state it here to make the update more efficient. */ void beginBillboards(size_t numBillboards = 0); /** Define a billboard. */ void injectBillboard(const Billboard& bb); /** Finish defining billboards. */ void endBillboards(void); /** Set the bounds of the BillboardSet. @remarks You may need to call this if you're injecting billboards manually, and you're relying on the BillboardSet to determine culling. */ void setBounds(const AxisAlignedBox& box, Real radius); /** Overridden from MovableObject @see MovableObject */ virtual const AxisAlignedBox& getBoundingBox(void) const; /** Overridden from MovableObject @see MovableObject */ virtual Real getBoundingRadius(void) const; /** Overridden from MovableObject @see MovableObject */ virtual void _updateRenderQueue(RenderQueue* queue); /** Overridden from MovableObject @see MovableObject */ virtual const MaterialPtr& getMaterial(void) const; /** Overridden from MovableObject @see MovableObject */ virtual void getRenderOperation(RenderOperation& op); /** Overridden from MovableObject @see MovableObject */ virtual void getWorldTransforms(Matrix4* xform) const; /** @copydoc Renderable::getWorldOrientation */ const Quaternion& getWorldOrientation(void) const; /** @copydoc Renderable::getWorldPosition */ const Vector3& getWorldPosition(void) const; /** Internal callback used by Billboards to notify their parent that they have been resized. */ virtual void _notifyBillboardResized(void); /** Internal callback used by Billboards to notify their parent that they have been rotated.. */ virtual void _notifyBillboardRotated(void); /** Returns whether or not billbards in this are tested individually for culling. */ virtual bool getCullIndividually(void) const; /** Sets whether culling tests billboards in this individually as well as in a group. @remarks Billboard sets are always culled as a whole group, based on a bounding box which encloses all billboards in the set. For fairly localised sets, this is enough. However, you can optionally tell the set to also cull individual billboards in the set, i.e. to test each individual billboard before rendering. The default is not to do this. @par This is useful when you have a large, fairly distributed set of billboards, like maybe trees on a landscape. You probably still want to group them into more than one set (maybe one set per section of landscape), which will be culled coarsely, but you also want to cull the billboards individually because they are spread out. Whilst you could have lots of single-tree sets which are culled separately, this would be inefficient to render because each tree would be issued as it's own rendering operation. @par By calling this method with a parameter of true, you can have large billboard sets which are spaced out and so get the benefit of batch rendering and coarse culling, but also have fine-grained culling so unnecessary rendering is avoided. @param cullIndividual If true, each billboard is tested before being sent to the pipeline as well as the whole set having to pass the coarse group bounding test. */ virtual void setCullIndividually(bool cullIndividual); /** Sets the type of billboard to render. @remarks The default sort of billboard (BBT_POINT), always has both x and y axes parallel to the camera's local axes. This is fine for 'point' style billboards (e.g. flares, smoke, anything which is symmetrical about a central point) but does not look good for billboards which have an orientation (e.g. an elongated raindrop). In this case, the oriented billboards are more suitable (BBT_ORIENTED_COMMON or BBT_ORIENTED_SELF) since they retain an independant Y axis and only the X axis is generated, perpendicular to both the local Y and the camera Z. @par In some case you might want the billboard has fixed Z axis and doesn't need to face to camera (e.g. an aureola around the player and parallel to the ground). You can use BBT_PERPENDICULAR_SELF which the billboard plane perpendicular to the billboard own direction. Or BBT_PERPENDICULAR_COMMON which the billboard plane perpendicular to the common direction. @note BBT_PERPENDICULAR_SELF and BBT_PERPENDICULAR_COMMON can't guarantee counterclockwise, you might use double-side material (
cull_hardware node
) to ensure no billboard are culled. @param bbt The type of billboard to render */ virtual void setBillboardType(BillboardType bbt); /** Returns the billboard type in use. */ virtual BillboardType getBillboardType(void) const; /** Use this to specify the common direction given to billboards of type BBT_ORIENTED_COMMON or BBT_PERPENDICULAR_COMMON. @remarks Use BBT_ORIENTED_COMMON when you want oriented billboards but you know they are always going to be oriented the same way (e.g. rain in calm weather). It is faster for the system to calculate the billboard vertices if they have a common direction. @par The common direction also use in BBT_PERPENDICULAR_COMMON, in this case the common direction treat as Z axis, and an additional common up-vector was use to determine billboard X and Y axis. @see setCommonUpVector @param vec The direction for all billboards. @note The direction are use as is, never normalised in internal, user are supposed to normalise it himself. */ virtual void setCommonDirection(const Vector3& vec); /** Gets the common direction for all billboards (BBT_ORIENTED_COMMON) */ virtual const Vector3& getCommonDirection(void) const; /** Use this to specify the common up-vector given to billboards of type BBT_PERPENDICULAR_SELF or BBT_PERPENDICULAR_COMMON. @remarks Use BBT_PERPENDICULAR_SELF or BBT_PERPENDICULAR_COMMON when you want oriented billboards perpendicular to specify direction vector (or, Z axis), and doesn't face to camera. In this case, we need an additional up-vector to determine the billboard X and Y axis. The generated billboard plane and X-axis guarantee perpendicular to specify direction. @see setCommonDirection @par The specify direction is billboard own direction when billboard type is BBT_PERPENDICULAR_SELF, and it's shared common direction when billboard type is BBT_PERPENDICULAR_COMMON. @param vec The up-vector for all billboards. @note The up-vector are use as is, never normalised in internal, user are supposed to normalise it himself. */ virtual void setCommonUpVector(const Vector3& vec); /** Gets the common up-vector for all billboards (BBT_PERPENDICULAR_SELF and BBT_PERPENDICULAR_COMMON) */ virtual const Vector3& getCommonUpVector(void) const; /** Sets whether or not billboards should use an 'accurate' facing model based on the vector from each billboard to the camera, rather than an optimised version using just the camera direction. @remarks By default, the axes for all billboards are calulated using the camera's view direction, not the vector from the camera position to the billboard. The former is faster, and most of the time the difference is not noticeable. However for some purposes (e.g. very large, static billboards) the changing billboard orientation when rotating the camera can be off putting, therefore you can enable this option to use a more expensive, but more accurate version. @param acc True to use the slower but more accurate model. Default is false. */ virtual void setUseAccurateFacing(bool acc) { mAccurateFacing = acc; } /** Gets whether or not billboards use an 'accurate' facing model based on the vector from each billboard to the camera, rather than an optimised version using just the camera direction. */ virtual bool getUseAccurateFacing(void) const { return mAccurateFacing; } /** Overridden from MovableObject */ virtual const String& getMovableType(void) const; /** Overridden, see Renderable */ Real getSquaredViewDepth(const Camera* cam) const; /** Update the bounds of the billboardset */ virtual void _updateBounds(void); /** @copydoc Renderable::getLights */ const LightList& getLights(void) const; /** Sort the billboard set. Only called when enabled via setSortingEnabled */ virtual void _sortBillboards( Camera* cam); /** Gets the sort mode of this billboard set */ virtual SortMode _getSortMode(void) const; /** Sets whether billboards should be treated as being in world space. @remarks This is most useful when you are driving the billboard set from an external data source. */ virtual void setBillboardsInWorldSpace(bool ws) { mWorldSpace = ws; } /** BillboardSet can use custom texture coordinates for various billboards. This is useful for selecting one of many particle images out of a tiled texture sheet, or doing flipbook animation within a single texture. @par The generic functionality is setTextureCoords(), which will copy the texture coordinate rects you supply into internal storage for the billboard set. If your texture sheet is a square grid, you can also use setTextureStacksAndSlices() for more convenience, which will construct the set of texture coordinates for you. @par When a Billboard is created, it can be assigned a texture coordinate set from within the sets you specify (that set can also be re-specified later). When drawn, the billboard will use those texture coordinates, rather than the full 0-1 range. @par @param coords is a vector of texture coordinates (in UV space) to choose from for each billboard created in the set. @param numCoords is how many such coordinate rectangles there are to choose from. @remarks Set 'coords' to 0 and/or 'numCoords' to 0 to reset the texture coord rects to the initial set of a single rectangle spanning 0 through 1 in both U and V (i e, the entire texture). @see BillboardSet::setTextureStacksAndSlices() Billboard::setTexcoordIndex() */ virtual void setTextureCoords( Ogre::FloatRect const * coords, uint16 numCoords ); /** setTextureStacksAndSlices() will generate texture coordinate rects as if the texture for the billboard set contained 'stacks' rows of 'slices' images each, all equal size. Thus, if the texture size is 512x512 and 'stacks' is 4 and 'slices' is 8, each sub-rectangle of the texture would be 128 texels tall and 64 texels wide. @remarks This function is short-hand for creating a regular set and calling setTextureCoords() yourself. The numbering used for Billboard::setTexcoordIndex() counts first across, then down, so top-left is 0, the one to the right of that is 1, and the lower-right is stacks*slices-1. @see BillboardSet::setTextureCoords() */ virtual void setTextureStacksAndSlices( uchar stacks, uchar slices ); /** getTextureCoords() returns the current texture coordinate rects in effect. By default, there is only one texture coordinate rect in the set, spanning the entire texture from 0 through 1 in each direction. @see BillboardSet::setTextureCoords() */ virtual Ogre::FloatRect const * getTextureCoords( uint16 * oNumCoords ); /** Set whether or not the BillboardSet will use point rendering rather than manually generated quads. @remarks By default a billboardset is rendered by generating geometry for a textured quad in memory, taking into account the size and orientation settings, and uploading it to the video card. The alternative is to use hardware point rendering, which means that only one position needs to be sent per billboard rather than 4 and the hardware sorts out how this is rendered based on the render state. @par Using point rendering is faster than generating quads manually, but is more restrictive. The following restrictions apply: \li Only the BBT_POINT type is supported \li Size and appearance of each billboard is controlled by the material (Pass::setPointSize, Pass::setPointSizeAttenuation, Pass::setPointSpritesEnabled) \li Per-billboard size is not supported (stems from the above) \li Per-billboard rotation is not supported, this can only be controlled through texture unit rotation \li Only BBO_CENTER origin is supported \li Per-billboard texture coordinates are not supported @par You will almost certainly want to enable in your material pass both point attenuation and point sprites if you use this option. @param enabled True to enable point rendering, false otherwise */ virtual void setPointRenderingEnabled(bool enabled); /** Returns whether point rendering is enabled. */ virtual bool isPointRenderingEnabled(void) const { return mPointRendering; } /// Override to return specific type flag uint32 getTypeFlags(void) const; }; /** Factory object for creating BillboardSet instances */ class _OgreExport BillboardSetFactory : public MovableObjectFactory { protected: MovableObject* createInstanceImpl( const String& name, const NameValuePairList* params); public: BillboardSetFactory() {} ~BillboardSetFactory() {} static String FACTORY_TYPE_NAME; const String& getType(void) const; void destroyInstance( MovableObject* obj); }; } #endif
OgreBillboardSet.h
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