Ogre::Frustum Class Reference

A frustum represents a pyramid, capped at the near and far end which is used to represent either a visible area or a projection area. More...

#include <OgreFrustum.h>

Inheritance diagram for Ogre::Frustum:

List of all members.

Public Types
typedef std::vector< ShadowRenderable * >	ShadowRenderableList
typedef VectorIterator< ShadowRenderableList >	ShadowRenderableListIterator
Public Member Functions
	Frustum ()
virtual	~Frustum ()
virtual void	setFOVy (const Radian &fovy)
	Sets the Y-dimension Field Of View (FOV) of the frustum.
virtual const Radian &	getFOVy (void) const
	Retrieves the frustums Y-dimension Field Of View (FOV).
virtual void	setNearClipDistance (Real nearDist)
	Sets the position of the near clipping plane.
virtual Real	getNearClipDistance (void) const
	Sets the position of the near clipping plane.
virtual void	setFarClipDistance (Real farDist)
	Sets the distance to the far clipping plane.
virtual Real	getFarClipDistance (void) const
	Retrieves the distance from the frustum to the far clipping plane.
virtual void	setAspectRatio (Real ratio)
	Sets the aspect ratio for the frustum viewport.
virtual Real	getAspectRatio (void) const
	Retreives the current aspect ratio.
virtual const Matrix4 &	getProjectionMatrix (void) const
	Gets the projection matrix for this frustum.
virtual const Matrix4 &	getStandardProjectionMatrix (void) const
	Gets the 'standard' projection matrix for this frustum, ie the projection matrix which conforms to standard right-handed rules.
virtual const Matrix4 &	getViewMatrix (void) const
	Gets the view matrix for this frustum.
virtual const Plane &	getFrustumPlane (unsigned short plane) const
	Retrieves a specified plane of the frustum.
virtual bool	isVisible (const AxisAlignedBox &bound, FrustumPlane *culledBy=0) const
	Tests whether the given container is visible in the Frustum.
virtual bool	isVisible (const Sphere &bound, FrustumPlane *culledBy=0) const
	Tests whether the given container is visible in the Frustum.
virtual bool	isVisible (const Vector3 &vert, FrustumPlane *culledBy=0) const
	Tests whether the given vertex is visible in the Frustum.
const AxisAlignedBox &	getBoundingBox (void) const
	Overridden from MovableObject.
Real	getBoundingRadius (void) const
	Overridden from MovableObject.
void	_updateRenderQueue (RenderQueue *queue)
	Overridden from MovableObject.
const String &	getMovableType (void) const
	Overridden from MovableObject.
const String &	getName (void) const
	Overridden from MovableObject.
void	_notifyCurrentCamera (Camera *cam)
	Overridden from MovableObject.
const MaterialPtr &	getMaterial (void) const
	Overridden from Renderable.
void	getRenderOperation (RenderOperation &op)
	Overridden from Renderable.
void	getWorldTransforms (Matrix4 *xform) const
	Overridden from Renderable.
const Quaternion &	getWorldOrientation (void) const
	Overridden from Renderable.
const Vector3 &	getWorldPosition (void) const
	Overridden from Renderable.
Real	getSquaredViewDepth (const Camera *cam) const
	Overridden from Renderable.
const LightList &	getLights (void) const
	Overridden from Renderable.
virtual const Vector3 *	getWorldSpaceCorners (void) const
	Gets the world space corners of the frustum.
virtual void	setProjectionType (ProjectionType pt)
	Sets the type of projection to use (orthographic or perspective).
virtual ProjectionType	getProjectionType (void) const
	Retrieves info on the type of projection used (orthographic or perspective).
virtual void	enableReflection (const Plane &p)
	Modifies this frustum so it always renders from the reflection of itself through the plane specified.
virtual void	enableReflection (const MovablePlane *p)
	Modifies this frustum so it always renders from the reflection of itself through the plane specified.
virtual void	disableReflection (void)
	Disables reflection modification previously turned on with enableReflection.
virtual bool	isReflected (void) const
	Returns whether this frustum is being reflected.
virtual const Matrix4 &	getReflectionMatrix (void) const
	Returns the reflection matrix of the frustum if appropriate.
virtual const Plane &	getReflectionPlane (void) const
	Returns the reflection plane of the frustum if appropriate.
virtual bool	projectSphere (const Sphere &sphere, Real *left, Real *top, Real *right, Real *bottom) const
	Project a sphere onto the near plane and get the bounding rectangle.
virtual void	enableCustomNearClipPlane (const MovablePlane *plane)
	Links the frustum to a custom near clip plane, which can be used to clip geometry in a custom manner without using user clip planes.
virtual void	enableCustomNearClipPlane (const Plane &plane)
	Links the frustum to a custom near clip plane, which can be used to clip geometry in a custom manner without using user clip planes.
virtual void	disableCustomNearClipPlane (void)
	Disables any custom near clip plane.
virtual bool	isCustomNearClipPlaneEnabled (void) const
	Is a custom near clip plane in use?
virtual Node *	getParentNode (void) const
	Returns the node to which this object is attached.
virtual SceneNode *	getParentSceneNode (void) const
	Returns the scene node to which this object is attached.
virtual void	_notifyAttached (Node *parent, bool isTagPoint=false)
	Internal method called to notify the object that it has been attached to a node.
virtual bool	isAttached (void) const
	Returns true if this object is attached to a SceneNode or TagPoint.
virtual bool	isInScene (void) const
	Returns true if this object is attached to a SceneNode or TagPoint, and this SceneNode / TagPoint is currently in an active part of the scene graph.
virtual const AxisAlignedBox &	getWorldBoundingBox (bool derive=false) const
	Retrieves the axis-aligned bounding box for this object in world coordinates.
virtual const Sphere &	getWorldBoundingSphere (bool derive=false) const
	Retrieves the worldspace bounding sphere for this object.
virtual void	setVisible (bool visible)
	Tells this object whether to be visible or not, if it has a renderable component.
virtual bool	isVisible (void) const
	Returns whether or not this object is supposed to be visible or not.
virtual void	setUserObject (UserDefinedObject *obj)
	Call this to associate your own custom user object instance with this MovableObject.
virtual UserDefinedObject *	getUserObject (void)
	Retrieves a pointer to a custom application object associated with this movable by an earlier call to setUserObject.
virtual void	setRenderQueueGroup (RenderQueueGroupID queueID)
	Sets the render queue group this entity will be rendered through.
virtual RenderQueueGroupID	getRenderQueueGroup (void) const
	Gets the queue group for this entity, see setRenderQueueGroup for full details.
virtual Matrix4	_getParentNodeFullTransform (void) const
	return the full transformation of the parent sceneNode or the attachingPoint node
virtual void	setQueryFlags (unsigned long flags)
	Sets the query flags for this object.
virtual void	addQueryFlags (unsigned long flags)
	As setQueryFlags, except the flags passed as parameters are appended to the existing flags on this object.
virtual void	removeQueryFlags (unsigned long flags)
	As setQueryFlags, except the flags passed as parameters are removed from the existing flags on this object.
virtual unsigned long	getQueryFlags (void) const
	Returns the query flags relevant for this object.
EdgeData *	getEdgeList (void)
	Define a default implementation of method from ShadowCaster which implements no shadows.
ShadowRenderableListIterator	getShadowVolumeRenderableIterator (ShadowTechnique shadowTechnique, const Light *light, HardwareIndexBufferSharedPtr *indexBuffer, bool extrudeVertices, Real extrusionDist, unsigned long flags=0)
	Define a default implementation of method from ShadowCaster which implements no shadows.
const AxisAlignedBox &	getLightCapBounds (void) const
	Overridden member from ShadowCaster.
const AxisAlignedBox &	getDarkCapBounds (const Light &light, Real dirLightExtrusionDist) const
	Overridden member from ShadowCaster.
void	setCastShadows (bool enabled)
	Sets whether or not this object will cast shadows.
bool	getCastShadows (void) const
	Returns whether shadow casting is enabled for this object.
Real	getPointExtrusionDistance (const Light *l) const
	Get the distance to extrude for a point/spot light.
virtual Technique *	getTechnique (void) const
	Retrieves a pointer to the Material Technique this renderable object uses.
virtual unsigned short	getNumWorldTransforms (void) const
	Returns the number of world transform matrices this renderable requires.
virtual bool	useIdentityProjection (void) const
	Returns whether or not to use an 'identity' projection.
virtual bool	useIdentityView (void) const
	Returns whether or not to use an 'identity' projection.
virtual SceneDetailLevel	getRenderDetail () const
	Returns the preferred rasterisation mode of this renderable.
virtual bool	getNormaliseNormals (void) const
	Returns whether or not this Renderable wishes the hardware to normalise normals.
virtual const PlaneList &	getClipPlanes () const
virtual bool	getCastsShadows (void) const
	Method which reports whether this renderable would normally cast a shadow.
void	setCustomParameter (size_t index, const Vector4 &value)
	Sets a custom parameter for this Renderable, which may be used to drive calculations for this specific Renderable, like GPU program parameters.
const Vector4 &	getCustomParameter (size_t index) const
	Gets the custom value associated with this Renderable at the given index.
virtual void	_updateCustomGpuParameter (const GpuProgramParameters::AutoConstantEntry &constantEntry, GpuProgramParameters *params) const
	Update a custom GpuProgramParameters constant which is derived from information only this Renderable knows.
virtual void	setRenderDetailOverrideable (bool override)
	Sets whether this renderable's chosen detail level can be overridden (downgraded) by the camera setting.
virtual bool	getRenderDetailOverrideable (void) const
	Gets whether this renderable's chosen detail level can be overridden (downgraded) by the camera setting.
Static Public Member Functions
void	extrudeVertices (HardwareVertexBufferSharedPtr vertexBuffer, size_t originalVertexCount, const Vector4 &lightPos, Real extrudeDist)
	Utility method for extruding vertices based on a light.
Static Public Attributes
const Real	INFINITE_FAR_PLANE_ADJUST
	Small constant used to reduce far plane projection to avoid inaccuracies.
Protected Types
typedef std::map< size_t, Vector4 >	CustomParameterMap
Protected Member Functions
virtual void	updateFrustum (void) const
virtual void	updateView (void) const
virtual bool	isViewOutOfDate (void) const
virtual bool	isFrustumOutOfDate (void) const
virtual void	invalidateFrustum (void) const
	Signal to update frustum information.
virtual void	invalidateView (void) const
	Signal to update view information.
virtual const Vector3 &	getPositionForViewUpdate (void) const
	Get the derived position of this frustum.
virtual const Quaternion &	getOrientationForViewUpdate (void) const
	Get the derived orientation of this frustum.
Real	getExtrusionDistance (const Vector3 &objectPos, const Light *light) const
	Helper moethod for calculating extrusion distance.
virtual void	updateEdgeListLightFacing (EdgeData *edgeData, const Vector4 &lightPos)
	Tells the caster to perform the tasks necessary to update the edge data's light listing.
virtual void	generateShadowVolume (EdgeData *edgeData, HardwareIndexBufferSharedPtr indexBuffer, const Light *light, ShadowRenderableList &shadowRenderables, unsigned long flags)
	Generates the indexes required to render a shadow volume into the index buffer which is passed in, and updates shadow renderables to use it.
virtual void	extrudeBounds (AxisAlignedBox &box, const Vector4 &lightPos, Real extrudeDist) const
	Utility method for extruding a bounding box.
Protected Attributes
ProjectionType	mProjType
	Orthographic or perspective?
Radian	mFOVy
	y-direction field-of-view (default 45)
Real	mFarDist
	Far clip distance - default 10000.
Real	mNearDist
	Near clip distance - default 100.
Real	mAspect
	x/y viewport ratio - default 1.3333
Plane	mFrustumPlanes [6]
	The 6 main clipping planes.
Quaternion	mLastParentOrientation
	Stored versions of parent orientation / position.
Vector3	mLastParentPosition
Matrix4	mProjMatrix
	Pre-calced projection matrix.
Matrix4	mStandardProjMatrix
	Pre-calced standard projection matrix.
Matrix4	mViewMatrix
	Pre-calced view matrix.
bool	mRecalcFrustum
	Something's changed in the frustrum shape?
bool	mRecalcView
	Something re the view pos has changed.
Real	mCoeffL [2]
	Temp coefficient values calculated from a frustum change, used when establishing the frustum planes when the view changes.
Real	mCoeffR [2]
	Temp coefficient values calculated from a frustum change, used when establishing the frustum planes when the view changes.
Real	mCoeffB [2]
	Temp coefficient values calculated from a frustum change, used when establishing the frustum planes when the view changes.
Real	mCoeffT [2]
	Temp coefficient values calculated from a frustum change, used when establishing the frustum planes when the view changes.
AxisAlignedBox	mBoundingBox
VertexData	mVertexData
MaterialPtr	mMaterial
Vector3	mWorldSpaceCorners [8]
bool	mReflect
	Is this frustum to act as a reflection of itself?
Matrix4	mReflectMatrix
	Derived reflection matrix.
Plane	mReflectPlane
	Fixed reflection plane.
const MovablePlane *	mLinkedReflectPlane
	Pointer to a reflection plane (automatically updated).
Plane	mLastLinkedReflectionPlane
	Record of the last world-space reflection plane info used.
bool	mObliqueDepthProjection
	Is this frustum using an oblique depth projection?
Plane	mObliqueProjPlane
	Fixed oblique projection plane.
const MovablePlane *	mLinkedObliqueProjPlane
	Pointer to oblique projection plane (automatically updated).
Plane	mLastLinkedObliqueProjPlane
	Record of the last world-space oblique depth projection plane info used.
Node *	mParentNode
	node to which this object is attached
bool	mParentIsTagPoint
bool	mVisible
	Is this object visible?
UserDefinedObject *	mUserObject
	User defined object which is linked to this object.
RenderQueueGroupID	mRenderQueueID
	The render queue to use when rendering this object.
bool	mRenderQueueIDSet
	Flags whether the RenderQueue's default should be used.
unsigned long	mQueryFlags
	Flags determining whether this object is included / excluded from scene queries.
AxisAlignedBox	mWorldAABB
	Cached world AABB of this object.
Sphere	mWorldBoundingSphere
AxisAlignedBox	mWorldDarkCapBounds
	World space AABB of this object's dark cap.
bool	mCastShadows
	Does this object cast shadows?
CustomParameterMap	mCustomParameters
bool	mRenderDetailOverrideable
Static Protected Attributes
String	msMovableType
	Shared class-level name for Movable type.
const PlaneList	msDummyPlaneList

---

Detailed Description

A frustum represents a pyramid, capped at the near and far end which is used to represent either a visible area or a projection area.

Can be used for a number of applications.

Definition at line 61 of file OgreFrustum.h.

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Member Typedef Documentation

typedef std::map<size_t, Vector4> Ogre::Renderable::CustomParameterMap [protected, inherited]

Definition at line 251 of file OgreRenderable.h.

typedef std::vector<ShadowRenderable*> Ogre::ShadowCaster::ShadowRenderableList [inherited]

Definition at line 121 of file OgreShadowCaster.h.

typedef VectorIterator<ShadowRenderableList> Ogre::ShadowCaster::ShadowRenderableListIterator [inherited]

Definition at line 122 of file OgreShadowCaster.h.

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Constructor & Destructor Documentation

Ogre::Frustum::Frustum (   )

virtual Ogre::Frustum::~Frustum (   )  [virtual]

---

Member Function Documentation

virtual Matrix4 Ogre::MovableObject::_getParentNodeFullTransform (  void   )  const [virtual, inherited]

return the full transformation of the parent sceneNode or the attachingPoint node

virtual void Ogre::MovableObject::_notifyAttached (  Node *  parent, bool  isTagPoint = false )  [virtual, inherited]

Internal method called to notify the object that it has been attached to a node. Reimplemented in Ogre::Entity, and Ogre::ParticleSystem.

void Ogre::Frustum::_notifyCurrentCamera (  Camera *  cam  )  [virtual]

Overridden from MovableObject. Implements Ogre::MovableObject.

virtual void Ogre::Renderable::_updateCustomGpuParameter (  const GpuProgramParameters::AutoConstantEntry &  constantEntry, GpuProgramParameters *  params )  const [virtual, inherited]

Update a custom GpuProgramParameters constant which is derived from information only this Renderable knows. Remarks: This method allows a Renderable to map in a custom GPU program parameter based on it's own data. This is represented by a GPU auto parameter of ACT_CUSTOM, and to allow there to be more than one of these per Renderable, the 'data' field on the auto parameter will identify which parameter is being updated. The implementation of this method must identify the parameter being updated, and call a 'setConstant' method on the passed in GpuProgramParameters object, using the details provided in the incoming auto constant setting to identify the index at which to set the parameter. You do not need to override this method if you're using the standard sets of data associated with the Renderable as provided by setCustomParameter and getCustomParameter. By default, the implementation will map from the value indexed by the 'constantEntry.data' parameter to a value previously set by setCustomParameter. But custom Renderables are free to override this if they want, in any case. Parameters: constantEntry  The auto constant entry referring to the parameter being updated params  The parameters object which this method should call to set the updated parameters. Reimplemented in Ogre::TerrainRenderable. Definition at line 219 of file OgreRenderable.h. References Ogre::GpuProgramParameters::AutoConstantEntry::data, Ogre::GpuProgramParameters::AutoConstantEntry::index, and params.

void Ogre::Frustum::_updateRenderQueue (  RenderQueue *  queue  )  [virtual]

Overridden from MovableObject. Implements Ogre::MovableObject.

virtual void Ogre::MovableObject::addQueryFlags (  unsigned long  flags  )  [virtual, inherited]

As setQueryFlags, except the flags passed as parameters are appended to the existing flags on this object. Definition at line 203 of file OgreMovableObject.h.

virtual void Ogre::Frustum::disableCustomNearClipPlane (  void   )  [virtual]

Disables any custom near clip plane.

virtual void Ogre::Frustum::disableReflection (  void   )  [virtual]

Disables reflection modification previously turned on with enableReflection.

virtual void Ogre::Frustum::enableCustomNearClipPlane (  const Plane &  plane  )  [virtual]

Links the frustum to a custom near clip plane, which can be used to clip geometry in a custom manner without using user clip planes. Remarks: There are several applications for clipping a scene arbitrarily by a single plane; the most common is when rendering a reflection to a texture, and you only want to render geometry that is above the water plane (to do otherwise results in artefacts). Whilst it is possible to use user clip planes, they are not supported on all cards, and sometimes are not hardware accelerated when they are available. Instead, where a single clip plane is involved, this technique uses a 'fudging' of the near clip plane, which is available and fast on all hardware, to perform as the arbitrary clip plane. This does change the shape of the frustum, leading to some depth buffer loss of precision, but for many of the uses of this technique that is not an issue. Note: This technique only works for perspective projection. Parameters: plane  The plane to link to to perform the clipping. This plane must continue to exist while the camera is linked to it; do not destroy it before the frustum.

virtual void Ogre::Frustum::enableCustomNearClipPlane (  const MovablePlane *  plane  )  [virtual]

Links the frustum to a custom near clip plane, which can be used to clip geometry in a custom manner without using user clip planes. Remarks: There are several applications for clipping a scene arbitrarily by a single plane; the most common is when rendering a reflection to a texture, and you only want to render geometry that is above the water plane (to do otherwise results in artefacts). Whilst it is possible to use user clip planes, they are not supported on all cards, and sometimes are not hardware accelerated when they are available. Instead, where a single clip plane is involved, this technique uses a 'fudging' of the near clip plane, which is available and fast on all hardware, to perform as the arbitrary clip plane. This does change the shape of the frustum, leading to some depth buffer loss of precision, but for many of the uses of this technique that is not an issue. This version of the method links to a plane, rather than requiring a by-value plane definition, and therefore you can make changes to the plane (e.g. by moving / rotating the node it is attached to) and they will automatically affect this object. Note: This technique only works for perspective projection. Parameters: plane  The plane to link to to perform the clipping. This plane must continue to exist while the camera is linked to it; do not destroy it before the frustum.

virtual void Ogre::Frustum::enableReflection (  const MovablePlane *  p  )  [virtual]

Modifies this frustum so it always renders from the reflection of itself through the plane specified. Note that this version of the method links to a plane so that changes to it are picked up automatically. It is important that this plane continues to exist whilst this object does; do not destroy the plane before the frustum. Remarks: This is obviously useful for performing planar reflections.

virtual void Ogre::Frustum::enableReflection (  const Plane &  p  )  [virtual]

Modifies this frustum so it always renders from the reflection of itself through the plane specified. Remarks: This is obviously useful for performing planar reflections.

virtual void Ogre::ShadowCaster::extrudeBounds (  AxisAlignedBox &  box, const Vector4 &  lightPos, Real  extrudeDist )  const [protected, virtual, inherited]

Utility method for extruding a bounding box. Parameters: box  Original bounding box, will be updated in-place lightPos  4D light position in object space, when w=0.0f this represents a directional light extrudeDist  The distance to extrude

void Ogre::ShadowCaster::extrudeVertices (  HardwareVertexBufferSharedPtr  vertexBuffer, size_t  originalVertexCount, const Vector4 &  lightPos, Real  extrudeDist )  [static, inherited]

Utility method for extruding vertices based on a light. Remarks: Unfortunately, because D3D cannot handle homogenous (4D) position coordinates in the fixed-function pipeline (GL can, but we have to be cross-API), when we extrude in software we cannot extrude to infinity the way we do in the vertex program (by setting w to 0.0f). Therefore we extrude by a fixed distance, which may cause some problems with larger scenes. Luckily better hardware (ie vertex programs) can fix this. Parameters: vertexBuffer  The vertex buffer containing ONLY xyz position values, which must be originalVertexCount * 2 * 3 floats long. originalVertexCount  The count of the original number of vertices, ie the number in the mesh, not counting the doubling which has already been done (by VertexData::prepareForShadowVolume) to provide the extruded area of the buffer. lightPos  4D light position in object space, when w=0.0f this represents a directional light extrudeDist  The distance to extrude

virtual void Ogre::ShadowCaster::generateShadowVolume (  EdgeData *  edgeData, HardwareIndexBufferSharedPtr  indexBuffer, const Light *  light, ShadowRenderableList &  shadowRenderables, unsigned long  flags )  [protected, virtual, inherited]

Generates the indexes required to render a shadow volume into the index buffer which is passed in, and updates shadow renderables to use it. Parameters: edgeData  The edge information to use indexBuffer  The buffer into which to write data into; current contents are assumed to be discardable. light  The light, mainly for type info as silhouette calculations should already have been done in updateEdgeListLightFacing shadowRenderables  A list of shadow renderables which has already been constructed but will need populating with details of the index ranges to be used. flags  Additional controller flags, see ShadowRenderableFlags

virtual Real Ogre::Frustum::getAspectRatio (  void   )  const [virtual]

Retreives the current aspect ratio.

const AxisAlignedBox& Ogre::Frustum::getBoundingBox (  void   )  const [virtual]

Overridden from MovableObject. Implements Ogre::MovableObject.

Real Ogre::Frustum::getBoundingRadius (  void   )  const [virtual]

Overridden from MovableObject. Implements Ogre::MovableObject. Reimplemented in Ogre::Camera.

bool Ogre::MovableObject::getCastShadows (  void   )  const [virtual, inherited]

Returns whether shadow casting is enabled for this object. Implements Ogre::ShadowCaster. Definition at line 238 of file OgreMovableObject.h.

virtual bool Ogre::Renderable::getCastsShadows (  void   )  const [virtual, inherited]

Method which reports whether this renderable would normally cast a shadow. Remarks: Subclasses should override this if they could have been used to generate a shadow. Reimplemented in Ogre::StaticGeometry::GeometryBucket, and Ogre::SubEntity. Definition at line 154 of file OgreRenderable.h.

virtual const PlaneList& Ogre::Renderable::getClipPlanes (   )  const [virtual, inherited]

Definition at line 146 of file OgreRenderable.h. References Ogre::PlaneList.

const Vector4& Ogre::Renderable::getCustomParameter (  size_t  index  )  const [inherited]

Gets the custom value associated with this Renderable at the given index. Parameters: @see  setCustomParaemter for full details. Definition at line 180 of file OgreRenderable.h. References OGRE_EXCEPT.

const AxisAlignedBox& Ogre::MovableObject::getDarkCapBounds (  const Light &  light, Real  dirLightExtrusionDist )  const [virtual, inherited]

Overridden member from ShadowCaster. Implements Ogre::ShadowCaster.

EdgeData* Ogre::MovableObject::getEdgeList (  void   )  [virtual, inherited]

Define a default implementation of method from ShadowCaster which implements no shadows. Implements Ogre::ShadowCaster. Reimplemented in Ogre::Entity, and Ogre::StaticGeometry::Region. Definition at line 213 of file OgreMovableObject.h.

Real Ogre::ShadowCaster::getExtrusionDistance (  const Vector3 &  objectPos, const Light *  light )  const [protected, inherited]

Helper moethod for calculating extrusion distance.

virtual Real Ogre::Frustum::getFarClipDistance (  void   )  const [virtual]

Retrieves the distance from the frustum to the far clipping plane.

virtual const Radian& Ogre::Frustum::getFOVy (  void   )  const [virtual]

Retrieves the frustums Y-dimension Field Of View (FOV).

virtual const Plane& Ogre::Frustum::getFrustumPlane (  unsigned short  plane  )  const [virtual]

Retrieves a specified plane of the frustum. Remarks: Gets a reference to one of the planes which make up the frustum frustum, e.g. for clipping purposes.

const AxisAlignedBox& Ogre::MovableObject::getLightCapBounds (  void   )  const [virtual, inherited]

Overridden member from ShadowCaster. Implements Ogre::ShadowCaster.

const LightList& Ogre::Frustum::getLights (  void   )  const [virtual]

Overridden from Renderable. Implements Ogre::Renderable.

const MaterialPtr& Ogre::Frustum::getMaterial (  void   )  const [virtual]

Overridden from Renderable. Implements Ogre::Renderable.

const String& Ogre::Frustum::getMovableType (  void   )  const [virtual]

Overridden from MovableObject. Implements Ogre::MovableObject. Reimplemented in Ogre::Camera.

const String& Ogre::Frustum::getName (  void   )  const [virtual]

Overridden from MovableObject. Implements Ogre::MovableObject. Reimplemented in Ogre::Camera.

virtual Real Ogre::Frustum::getNearClipDistance (  void   )  const [virtual]

Sets the position of the near clipping plane.

virtual bool Ogre::Renderable::getNormaliseNormals (  void   )  const [virtual, inherited]

Returns whether or not this Renderable wishes the hardware to normalise normals. Reimplemented in Ogre::SubEntity. Definition at line 138 of file OgreRenderable.h.

virtual unsigned short Ogre::Renderable::getNumWorldTransforms (  void   )  const [virtual, inherited]

Returns the number of world transform matrices this renderable requires. Remarks: When a renderable uses vertex blending, it uses multiple world matrices instead of a single one. Each vertex sent to the pipeline can reference one or more matrices in this list with given weights. If a renderable does not use vertex blending this method returns 1, which is the default for simplicity. Reimplemented in Ogre::BorderRenderable, and Ogre::SubEntity. Definition at line 104 of file OgreRenderable.h.

virtual const Quaternion& Ogre::Frustum::getOrientationForViewUpdate (  void   )  const [protected, virtual]

Get the derived orientation of this frustum. Reimplemented in Ogre::Camera.

virtual Node* Ogre::MovableObject::getParentNode (  void   )  const [virtual, inherited]

Returns the node to which this object is attached. Remarks: A MovableObject may be attached to either a SceneNode or to a TagPoint, the latter case if it's attached to a bone on an animated entity. Both are Node subclasses so this method will return either.

virtual SceneNode* Ogre::MovableObject::getParentSceneNode (  void   )  const [virtual, inherited]

Returns the scene node to which this object is attached. Remarks: A MovableObject may be attached to either a SceneNode or to a TagPoint, the latter case if it's attached to a bone on an animated entity. This method will return the scene node of the parent entity if the latter is true.

Real Ogre::MovableObject::getPointExtrusionDistance (  const Light *  l  )  const [virtual, inherited]

Get the distance to extrude for a point/spot light. Implements Ogre::ShadowCaster.

virtual const Vector3& Ogre::Frustum::getPositionForViewUpdate (  void   )  const [protected, virtual]

Get the derived position of this frustum. Reimplemented in Ogre::Camera.

virtual const Matrix4& Ogre::Frustum::getProjectionMatrix (  void   )  const [virtual]

Gets the projection matrix for this frustum. Mainly for use by OGRE internally. Remarks: This method retrieves the rendering-API dependent version of the projection matrix. If you want a 'typical' projection matrix then use getStandardProjectionMatrix.

virtual ProjectionType Ogre::Frustum::getProjectionType (  void   )  const [virtual]

Retrieves info on the type of projection used (orthographic or perspective).

virtual unsigned long Ogre::MovableObject::getQueryFlags (  void   )  const [virtual, inherited]

Returns the query flags relevant for this object. Definition at line 210 of file OgreMovableObject.h.

virtual const Matrix4& Ogre::Frustum::getReflectionMatrix (  void   )  const [virtual]

Returns the reflection matrix of the frustum if appropriate. Definition at line 381 of file OgreFrustum.h.

virtual const Plane& Ogre::Frustum::getReflectionPlane (  void   )  const [virtual]

Returns the reflection plane of the frustum if appropriate. Definition at line 383 of file OgreFrustum.h.

virtual SceneDetailLevel Ogre::Renderable::getRenderDetail (   )  const [virtual, inherited]

Returns the preferred rasterisation mode of this renderable. Reimplemented in Ogre::SubEntity. Definition at line 135 of file OgreRenderable.h. References Ogre::SceneDetailLevel, and Ogre::SDL_SOLID.

virtual bool Ogre::Renderable::getRenderDetailOverrideable (  void   )  const [virtual, inherited]

Gets whether this renderable's chosen detail level can be overridden (downgraded) by the camera setting. Reimplemented in Ogre::BorderRenderable. Definition at line 243 of file OgreRenderable.h.

void Ogre::Frustum::getRenderOperation (  RenderOperation &  op  )  [virtual]

Overridden from Renderable. Implements Ogre::Renderable.

virtual RenderQueueGroupID Ogre::MovableObject::getRenderQueueGroup (  void   )  const [virtual, inherited]

Gets the queue group for this entity, see setRenderQueueGroup for full details.

ShadowRenderableListIterator Ogre::MovableObject::getShadowVolumeRenderableIterator (  ShadowTechnique  shadowTechnique, const Light *  light, HardwareIndexBufferSharedPtr *  indexBuffer, bool  extrudeVertices, Real  extrusionDist, unsigned long  flags = 0 )  [virtual, inherited]

Define a default implementation of method from ShadowCaster which implements no shadows. Implements Ogre::ShadowCaster. Reimplemented in Ogre::Entity, and Ogre::StaticGeometry::Region.

Real Ogre::Frustum::getSquaredViewDepth (  const Camera *  cam  )  const [virtual]

Overridden from Renderable. Implements Ogre::Renderable.

virtual const Matrix4& Ogre::Frustum::getStandardProjectionMatrix (  void   )  const [virtual]

Gets the 'standard' projection matrix for this frustum, ie the projection matrix which conforms to standard right-handed rules. Remarks: This differs from the rendering-API dependent getProjectionMatrix in that it always returns a right-handed projection matrix result no matter what rendering API is being used - this is required for vertex and fragment programs for example. However, the resulting depth range may still vary between render systems since D3D uses [0,1] and GL uses [-1,1], and the range must be kept the same between programmable and fixed-function pipelines.

virtual Technique* Ogre::Renderable::getTechnique (  void   )  const [virtual, inherited]

Retrieves a pointer to the Material Technique this renderable object uses. Remarks: This is to allow Renderables to use a chosen Technique if they wish, otherwise they will use the best Technique available for the Material they are using. Reimplemented in Ogre::StaticGeometry::GeometryBucket, and Ogre::SubEntity. Definition at line 69 of file OgreRenderable.h.

virtual UserDefinedObject* Ogre::MovableObject::getUserObject (  void   )  [virtual, inherited]

Retrieves a pointer to a custom application object associated with this movable by an earlier call to setUserObject. Definition at line 171 of file OgreMovableObject.h.

virtual const Matrix4& Ogre::Frustum::getViewMatrix (  void   )  const [virtual]

Gets the view matrix for this frustum. Mainly for use by OGRE internally.

virtual const AxisAlignedBox& Ogre::MovableObject::getWorldBoundingBox (  bool  derive = false  )  const [virtual, inherited]

Retrieves the axis-aligned bounding box for this object in world coordinates. Implements Ogre::ShadowCaster. Reimplemented in Ogre::Entity.

virtual const Sphere& Ogre::MovableObject::getWorldBoundingSphere (  bool  derive = false  )  const [virtual, inherited]

Retrieves the worldspace bounding sphere for this object. Reimplemented in Ogre::Entity.

const Quaternion& Ogre::Frustum::getWorldOrientation (  void   )  const [virtual]

Overridden from Renderable. Implements Ogre::Renderable.

const Vector3& Ogre::Frustum::getWorldPosition (  void   )  const [virtual]

Overridden from Renderable. Implements Ogre::Renderable.

virtual const Vector3* Ogre::Frustum::getWorldSpaceCorners (  void   )  const [virtual]

Gets the world space corners of the frustum. Remarks: The corners are ordered as follows: top-right near, top-left near, bottom-left near, bottom-right near, top-right far, top-left far, bottom-left far, bottom-right far.

void Ogre::Frustum::getWorldTransforms (  Matrix4 *  xform  )  const [virtual]

Overridden from Renderable. Implements Ogre::Renderable.

virtual void Ogre::Frustum::invalidateFrustum (  void   )  const [protected, virtual]

Signal to update frustum information. Reimplemented in Ogre::Camera.

virtual void Ogre::Frustum::invalidateView (  void   )  const [protected, virtual]

Signal to update view information. Reimplemented in Ogre::Camera.

virtual bool Ogre::MovableObject::isAttached (  void   )  const [virtual, inherited]

Returns true if this object is attached to a SceneNode or TagPoint.

virtual bool Ogre::Frustum::isCustomNearClipPlaneEnabled (  void   )  const [virtual]

Is a custom near clip plane in use? Definition at line 448 of file OgreFrustum.h.

virtual bool Ogre::Frustum::isFrustumOutOfDate (  void   )  const [protected, virtual]

virtual bool Ogre::MovableObject::isInScene (  void   )  const [virtual, inherited]

Returns true if this object is attached to a SceneNode or TagPoint, and this SceneNode / TagPoint is currently in an active part of the scene graph.

virtual bool Ogre::Frustum::isReflected (  void   )  const [virtual]

Returns whether this frustum is being reflected. Definition at line 379 of file OgreFrustum.h.

virtual bool Ogre::Frustum::isViewOutOfDate (  void   )  const [protected, virtual]

Reimplemented in Ogre::Camera.

virtual bool Ogre::MovableObject::isVisible (  void   )  const [virtual, inherited]

Returns whether or not this object is supposed to be visible or not. Reimplemented in Ogre::StaticGeometry::Region.

virtual bool Ogre::Frustum::isVisible (  const Vector3 &  vert, FrustumPlane *  culledBy = 0 )  const [virtual]

Tests whether the given vertex is visible in the Frustum. Parameters: vert  Vertex to be checked culledBy  Optional pointer to an int which will be filled by the plane number which culled the box if the result was false; Returns: If the box was visible, true is returned. Otherwise, false is returned.

virtual bool Ogre::Frustum::isVisible (  const Sphere &  bound, FrustumPlane *  culledBy = 0 )  const [virtual]

Tests whether the given container is visible in the Frustum. Parameters: bound  Bounding sphere to be checked culledBy  Optional pointer to an int which will be filled by the plane number which culled the box if the result was false; Returns: If the sphere was visible, true is returned. Otherwise, false is returned.

virtual bool Ogre::Frustum::isVisible (  const AxisAlignedBox &  bound, FrustumPlane *  culledBy = 0 )  const [virtual]

Tests whether the given container is visible in the Frustum. Parameters: bound  Bounding box to be checked culledBy  Optional pointer to an int which will be filled by the plane number which culled the box if the result was false; Returns: If the box was visible, true is returned. Otherwise, false is returned.

virtual bool Ogre::Frustum::projectSphere (  const Sphere &  sphere, Real *  left, Real *  top, Real *  right, Real *  bottom )  const [virtual]

Project a sphere onto the near plane and get the bounding rectangle. Parameters: sphere  The world-space sphere to project radius  Radius of the sphere left,top,right,bottom  Pointers to destination values, these will be completed with the normalised device coordinates (in the range {-1,1}) Returns: true if the sphere was projected to a subset of the near plane, false if the entire near plane was contained

virtual void Ogre::MovableObject::removeQueryFlags (  unsigned long  flags  )  [virtual, inherited]

As setQueryFlags, except the flags passed as parameters are removed from the existing flags on this object. Definition at line 207 of file OgreMovableObject.h.

virtual void Ogre::Frustum::setAspectRatio (  Real  ratio  )  [virtual]

Sets the aspect ratio for the frustum viewport. Remarks: The ratio between the x and y dimensions of the rectangular area visible through the frustum is known as aspect ratio: aspect = width / height . The default for most fullscreen windows is 1.3333 - this is also assumed by Ogre unless you use this method to state otherwise.

void Ogre::MovableObject::setCastShadows (  bool  enabled  )  [inherited]

Sets whether or not this object will cast shadows. Remarks: This setting simply allows you to turn on/off shadows for a given object. An object will not cast shadows unless the scene supports it in any case (see SceneManager::setShadowTechnique), and also the material which is in use must also have shadow casting enabled. By default all entities cast shadows. If, however, for some reason you wish to disable this for a single object then you can do so using this method. Note: This method normally refers to objects which block the light, but since Light is also a subclass of MovableObject, in that context it means whether the light causes shadows itself. Definition at line 236 of file OgreMovableObject.h.

void Ogre::Renderable::setCustomParameter (  size_t  index, const Vector4 &  value )  [inherited]

Sets a custom parameter for this Renderable, which may be used to drive calculations for this specific Renderable, like GPU program parameters. Remarks: Calling this method simply associates a numeric index with a 4-dimensional value for this specific Renderable. This is most useful if the material which this Renderable uses a vertex or fragment program, and has an ACT_CUSTOM parameter entry. This parameter entry can refer to the index you specify as part of this call, thereby mapping a custom parameter for this renderable to a program parameter. Parameters: index  The index with which to associate the value. Note that this does not have to start at 0, and can include gaps. It also has no direct correlation with a GPU program parameter index - the mapping between the two is performed by the ACT_CUSTOM entry, if that is used. value  The value to associate. Definition at line 171 of file OgreRenderable.h.

virtual void Ogre::Frustum::setFarClipDistance (  Real  farDist  )  [virtual]

Sets the distance to the far clipping plane. Remarks: The view frustrum is a pyramid created from the frustum position and the edges of the viewport. This method sets the distance for the far end of that pyramid. Different applications need different values: e.g. a flight sim needs a much further far clipping plane than a first-person shooter. An important point here is that the larger the ratio between near and far clipping planes, the lower the accuracy of the Z-buffer used to depth-cue pixels. This is because the Z-range is limited to the size of the Z buffer (16 or 32-bit) and the max values must be spread over the gap between near and far clip planes. As it happens, you can affect the accuracy far more by altering the near distance rather than the far distance, but keep this in mind. Parameters: far  The distance to the far clipping plane from the frustum in world coordinates.If you specify 0, this means an infinite view distance which is useful especially when projecting shadows; but be careful not to use a near distance too close.

virtual void Ogre::Frustum::setFOVy (  const Radian &  fovy  )  [virtual]

Sets the Y-dimension Field Of View (FOV) of the frustum. Remarks: Field Of View (FOV) is the angle made between the frustum's position, and the edges of the 'screen' onto which the scene is projected. High values (90+ degrees) result in a wide-angle, fish-eye kind of view, low values (30- degrees) in a stretched, telescopic kind of view. Typical values are between 45 and 60 degrees. This value represents the VERTICAL field-of-view. The horizontal field of view is calculated from this depending on the dimensions of the viewport (they will only be the same if the viewport is square). Note: Setting the FOV overrides the value supplied for frustum::setNearClipPlane.

virtual void Ogre::Frustum::setNearClipDistance (  Real  nearDist  )  [virtual]

Sets the position of the near clipping plane. Remarks: The position of the near clipping plane is the distance from the frustums position to the screen on which the world is projected. The near plane distance, combined with the field-of-view and the aspect ratio, determines the size of the viewport through which the world is viewed (in world co-ordinates). Note that this world viewport is different to a screen viewport, which has it's dimensions expressed in pixels. The frustums viewport should have the same aspect ratio as the screen viewport it renders into to avoid distortion. Parameters: near  The distance to the near clipping plane from the frustum in world coordinates.

virtual void Ogre::Frustum::setProjectionType (  ProjectionType  pt  )  [virtual]

Sets the type of projection to use (orthographic or perspective). Default is perspective.

virtual void Ogre::MovableObject::setQueryFlags (  unsigned long  flags  )  [virtual, inherited]

Sets the query flags for this object. Remarks: When performing a scene query, this object will be included or excluded according to flags on the object and flags on the query. This is a bitwise value, so only when a bit on these flags is set, will it be included in a query asking for that flag. The meaning of the bits is application-specific. Definition at line 199 of file OgreMovableObject.h.

virtual void Ogre::Renderable::setRenderDetailOverrideable (  bool  override  )  [virtual, inherited]

Sets whether this renderable's chosen detail level can be overridden (downgraded) by the camera setting. Parameters: override  true means that a lower camera detail will override this renderables detail level, false means it won't. Definition at line 235 of file OgreRenderable.h.

virtual void Ogre::MovableObject::setRenderQueueGroup (  RenderQueueGroupID  queueID  )  [virtual, inherited]

Sets the render queue group this entity will be rendered through. Remarks: Render queues are grouped to allow you to more tightly control the ordering of rendered objects. If you do not call this method, all Entity objects default to the default queue (RenderQueue::getDefaultQueueGroup), which is fine for most objects. You may want to alter this if you want this entity to always appear in front of other objects, e.g. for a 3D menu system or such. See RenderQueue for more details. Parameters: queueID  Enumerated value of the queue group to use. Reimplemented in Ogre::Entity, and Ogre::ParticleSystem.

virtual void Ogre::MovableObject::setUserObject (  UserDefinedObject *  obj  )  [virtual, inherited]

Call this to associate your own custom user object instance with this MovableObject. Remarks: By simply making your game / application object a subclass of UserDefinedObject, you can establish a link between an OGRE instance of MovableObject and your own application classes. Call this method to establish the link. Definition at line 167 of file OgreMovableObject.h.

virtual void Ogre::MovableObject::setVisible (  bool  visible  )  [virtual, inherited]

Tells this object whether to be visible or not, if it has a renderable component. Note: An alternative approach of making an object invisible is to detach it from it's SceneNode, or to remove the SceneNode entirely. Detaching a node means that structurally the scene graph changes. Once this change has taken place, the objects / nodes that have been removed have less overhead to the visbility detection pass than simply making the object invisible, so if you do this and leave the objects out of the tree for a long time, it's faster. However, the act of detaching / reattaching nodes is in itself more expensive than setting an object visibility flag, since in the latter case structural changes are not made. Therefore, small or frequent visbility changes are best done using this method; large or more longer term changes are best done by detaching. Reimplemented in Ogre::Light.

virtual void Ogre::ShadowCaster::updateEdgeListLightFacing (  EdgeData *  edgeData, const Vector4 &  lightPos )  [protected, virtual, inherited]

Tells the caster to perform the tasks necessary to update the edge data's light listing. Can be overridden if the subclass needs to do additional things. Parameters: edgeData  The edge information to update lightPos  4D vector representing the light, a directional light has w=0.0

virtual void Ogre::Frustum::updateFrustum (  void   )  const [protected, virtual]

Reimplemented in Ogre::Camera.

virtual void Ogre::Frustum::updateView (  void   )  const [protected, virtual]

Reimplemented in Ogre::Camera.

virtual bool Ogre::Renderable::useIdentityProjection (  void   )  const [virtual, inherited]

Returns whether or not to use an 'identity' projection. Remarks: Usually Renderable objects will use a projection matrix as determined by the active camera. However, if they want they can cancel this out and use an identity projection, which effectively projects in 2D using a {-1, 1} view space. Useful for overlay rendering. Normal renderables need not override this. Reimplemented in Ogre::BorderRenderable, Ogre::OverlayElement, and Ogre::Rectangle2D. Definition at line 114 of file OgreRenderable.h.

virtual bool Ogre::Renderable::useIdentityView (  void   )  const [virtual, inherited]

Returns whether or not to use an 'identity' projection. Remarks: Usually Renderable objects will use a view matrix as determined by the active camera. However, if they want they can cancel this out and use an identity matrix, which means all geometry is assumed to be relative to camera space already. Useful for overlay rendering. Normal renderables need not override this. Reimplemented in Ogre::BorderRenderable, Ogre::OverlayElement, and Ogre::Rectangle2D. Definition at line 124 of file OgreRenderable.h.

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Member Data Documentation

const Real Ogre::Frustum::INFINITE_FAR_PLANE_ADJUST [static]

Small constant used to reduce far plane projection to avoid inaccuracies. Definition at line 453 of file OgreFrustum.h.

Real Ogre::Frustum::mAspect [protected]

x/y viewport ratio - default 1.3333 Definition at line 74 of file OgreFrustum.h.

AxisAlignedBox Ogre::Frustum::mBoundingBox [mutable, protected]

Definition at line 116 of file OgreFrustum.h.

bool Ogre::MovableObject::mCastShadows [protected, inherited]

Does this object cast shadows? Definition at line 67 of file OgreMovableObject.h.

Real Ogre::Frustum::mCoeffB[2] [mutable, protected]

Temp coefficient values calculated from a frustum change, used when establishing the frustum planes when the view changes. Definition at line 98 of file OgreFrustum.h.

Real Ogre::Frustum::mCoeffL[2] [mutable, protected]

Temp coefficient values calculated from a frustum change, used when establishing the frustum planes when the view changes. Definition at line 98 of file OgreFrustum.h.

Real Ogre::Frustum::mCoeffR[2] [mutable, protected]

Temp coefficient values calculated from a frustum change, used when establishing the frustum planes when the view changes. Definition at line 98 of file OgreFrustum.h.

Real Ogre::Frustum::mCoeffT[2] [mutable, protected]

Temp coefficient values calculated from a frustum change, used when establishing the frustum planes when the view changes. Definition at line 98 of file OgreFrustum.h.

CustomParameterMap Ogre::Renderable::mCustomParameters [protected, inherited]

Definition at line 252 of file OgreRenderable.h.

Real Ogre::Frustum::mFarDist [protected]

Far clip distance - default 10000. Definition at line 70 of file OgreFrustum.h.

Radian Ogre::Frustum::mFOVy [protected]

y-direction field-of-view (default 45) Definition at line 68 of file OgreFrustum.h.

Plane Ogre::Frustum::mFrustumPlanes[6] [mutable, protected]

The 6 main clipping planes. Definition at line 77 of file OgreFrustum.h.

Plane Ogre::Frustum::mLastLinkedObliqueProjPlane [mutable, protected]

Record of the last world-space oblique depth projection plane info used. Definition at line 140 of file OgreFrustum.h.

Plane Ogre::Frustum::mLastLinkedReflectionPlane [mutable, protected]

Record of the last world-space reflection plane info used. Definition at line 131 of file OgreFrustum.h.

Quaternion Ogre::Frustum::mLastParentOrientation [mutable, protected]

Stored versions of parent orientation / position. Definition at line 80 of file OgreFrustum.h.

Vector3 Ogre::Frustum::mLastParentPosition [mutable, protected]

Definition at line 81 of file OgreFrustum.h.

const MovablePlane* Ogre::Frustum::mLinkedObliqueProjPlane [protected]

Pointer to oblique projection plane (automatically updated). Definition at line 138 of file OgreFrustum.h.

const MovablePlane* Ogre::Frustum::mLinkedReflectPlane [protected]

Pointer to a reflection plane (automatically updated). Definition at line 129 of file OgreFrustum.h.

MaterialPtr Ogre::Frustum::mMaterial [protected]

Definition at line 119 of file OgreFrustum.h.

Real Ogre::Frustum::mNearDist [protected]

Near clip distance - default 100. Definition at line 72 of file OgreFrustum.h.

bool Ogre::Frustum::mObliqueDepthProjection [protected]

Is this frustum using an oblique depth projection? Definition at line 134 of file OgreFrustum.h.

Plane Ogre::Frustum::mObliqueProjPlane [mutable, protected]

Fixed oblique projection plane. Definition at line 136 of file OgreFrustum.h.

bool Ogre::MovableObject::mParentIsTagPoint [protected, inherited]

Definition at line 49 of file OgreMovableObject.h.

Node* Ogre::MovableObject::mParentNode [protected, inherited]

node to which this object is attached Definition at line 48 of file OgreMovableObject.h.

Matrix4 Ogre::Frustum::mProjMatrix [mutable, protected]

Pre-calced projection matrix. Definition at line 84 of file OgreFrustum.h.

ProjectionType Ogre::Frustum::mProjType [protected]

Orthographic or perspective? Definition at line 65 of file OgreFrustum.h.

unsigned long Ogre::MovableObject::mQueryFlags [protected, inherited]

Flags determining whether this object is included / excluded from scene queries. Definition at line 59 of file OgreMovableObject.h.

bool Ogre::Frustum::mRecalcFrustum [mutable, protected]

Something's changed in the frustrum shape? Definition at line 90 of file OgreFrustum.h.

bool Ogre::Frustum::mRecalcView [mutable, protected]

Something re the view pos has changed. Definition at line 92 of file OgreFrustum.h.

bool Ogre::Frustum::mReflect [protected]

Is this frustum to act as a reflection of itself? Definition at line 123 of file OgreFrustum.h.

Matrix4 Ogre::Frustum::mReflectMatrix [mutable, protected]

Derived reflection matrix. Definition at line 125 of file OgreFrustum.h.

Plane Ogre::Frustum::mReflectPlane [mutable, protected]

Fixed reflection plane. Definition at line 127 of file OgreFrustum.h.

bool Ogre::Renderable::mRenderDetailOverrideable [protected, inherited]

Definition at line 253 of file OgreRenderable.h.

RenderQueueGroupID Ogre::MovableObject::mRenderQueueID [protected, inherited]

The render queue to use when rendering this object. Definition at line 55 of file OgreMovableObject.h.

bool Ogre::MovableObject::mRenderQueueIDSet [protected, inherited]

Flags whether the RenderQueue's default should be used. Definition at line 57 of file OgreMovableObject.h.

const PlaneList Ogre::Renderable::msDummyPlaneList [static, protected, inherited]

Definition at line 250 of file OgreRenderable.h.

String Ogre::Frustum::msMovableType [static, protected]

Shared class-level name for Movable type. Reimplemented in Ogre::Camera. Definition at line 114 of file OgreFrustum.h.

Matrix4 Ogre::Frustum::mStandardProjMatrix [mutable, protected]

Pre-calced standard projection matrix. Definition at line 86 of file OgreFrustum.h.

UserDefinedObject* Ogre::MovableObject::mUserObject [protected, inherited]

User defined object which is linked to this object. Definition at line 53 of file OgreMovableObject.h.

VertexData Ogre::Frustum::mVertexData [mutable, protected]

Definition at line 117 of file OgreFrustum.h.

Matrix4 Ogre::Frustum::mViewMatrix [mutable, protected]

Pre-calced view matrix. Definition at line 88 of file OgreFrustum.h.

bool Ogre::MovableObject::mVisible [protected, inherited]

Is this object visible? Definition at line 51 of file OgreMovableObject.h.

AxisAlignedBox Ogre::MovableObject::mWorldAABB [mutable, protected, inherited]

Cached world AABB of this object. Reimplemented in Ogre::ParticleSystem. Definition at line 61 of file OgreMovableObject.h.

Sphere Ogre::MovableObject::mWorldBoundingSphere [mutable, protected, inherited]

Definition at line 63 of file OgreMovableObject.h.

AxisAlignedBox Ogre::MovableObject::mWorldDarkCapBounds [mutable, protected, inherited]

World space AABB of this object's dark cap. Definition at line 65 of file OgreMovableObject.h.

Vector3 Ogre::Frustum::mWorldSpaceCorners[8] [mutable, protected]

Definition at line 120 of file OgreFrustum.h.

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The documentation for this class was generated from the following file:

• OgreFrustum.h

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Copyright © 2000-2005 by The OGRE Team

This work is licensed under a Creative Commons Attribution-ShareAlike 2.5 License.
Last modified Sun Feb 12 13:00:33 2006