Ogre::TagPoint Class Reference

A tagged point on a skeleton, which can be used to attach entities to on specific other entities. More...

#include <OgreTagPoint.h>

Inheritance diagram for Ogre::TagPoint:

Public Types
typedef VectorIterator< ChildNodeMap >	ChildNodeIterator
typedef std::vector< Node * >	ChildNodeMap
typedef ConstVectorIterator< ChildNodeMap >	ConstChildNodeIterator
enum	TransformSpace { TS_LOCAL, TS_PARENT, TS_WORLD }
	Enumeration denoting the spaces which a transform can be relative to. More...

Public Member Functions
	TagPoint (unsigned short handle, Skeleton *creator)
const Quaternion &	_getBindingPoseInverseOrientation (void) const
	Gets the inverted binding pose orientation. More...
const Vector3 &	_getBindingPoseInversePosition (void) const
	Gets the inverted binding pose position. More...
const Vector3 &	_getBindingPoseInverseScale (void) const
	Gets the inverted binding pose scale. More...
const Quaternion &	_getDerivedOrientation (void) const
	Gets the orientation of the node as derived from all parents. More...
const Vector3 &	_getDerivedPosition (void) const
	Gets the position of the node as derived from all parents. More...
const Vector3 &	_getDerivedScale (void) const
	Gets the scaling factor of the node as derived from all parents. More...
const Affine3 &	_getFullLocalTransform (void) const
	Gets the transform of this node just for the skeleton (not entity) More...
const Affine3 &	_getFullTransform (void) const
	Gets the full transformation matrix for this node. More...
void	_getOffsetTransform (Affine3 &m) const
	Gets the transform which takes bone space to current from the binding pose. More...
void	_setDerivedOrientation (const Quaternion &q)
	Sets the final world orientation of the node directly. More...
void	_setDerivedPosition (const Vector3 &pos)
	Sets the final world position of the node directly. More...
virtual void	_update (bool updateChildren, bool parentHasChanged)
	Internal method to update the Node. More...
void	addChild (Node *child)
	Adds a (precreated) child scene node to this node. More...
void	cancelUpdate (Node *child)
	Called by children to notify their parent that they no longer need an update. More...
Vector3	convertLocalToWorldDirection (const Vector3 &localDir, bool useScale)
	Gets the world direction of a point in the node local space useful for simple transforms that don't require a child node. More...
Quaternion	convertLocalToWorldOrientation (const Quaternion &localOrientation)
	Gets the world orientation of an orientation in the node local space useful for simple transforms that don't require a child node. More...
Vector3	convertLocalToWorldPosition (const Vector3 &localPos)
	Gets the world position of a point in the node local space useful for simple transforms that don't require a child node. More...
Vector3	convertWorldToLocalDirection (const Vector3 &worldDir, bool useScale)
	Gets the local direction, relative to this node, of the given world-space direction. More...
Quaternion	convertWorldToLocalOrientation (const Quaternion &worldOrientation)
	Gets the local orientation, relative to this node, of the given world-space orientation. More...
Vector3	convertWorldToLocalPosition (const Vector3 &worldPos)
	Gets the local position, relative to this node, of the given world-space position. More...
Bone *	createChild (unsigned short handle, const Vector3 &translate=Vector3::ZERO, const Quaternion &rotate=Quaternion::IDENTITY)
	Creates a new Bone as a child of this bone. More...
virtual Node *	createChild (const Vector3 &translate=Vector3::ZERO, const Quaternion &rotate=Quaternion::IDENTITY)
	Creates an unnamed new Node as a child of this node. More...
virtual Node *	createChild (const String &name, const Vector3 &translate=Vector3::ZERO, const Quaternion &rotate=Quaternion::IDENTITY)
	Creates a new named Node as a child of this node. More...
Node *	getChild (unsigned short index) const
	Gets a pointer to a child node. More...
Node *	getChild (const String &name) const
	Gets a pointer to a named child node. More...
ChildNodeIterator	getChildIterator (void)
ConstChildNodeIterator	getChildIterator (void) const
MovableObject *	getChildObject (void) const
const ChildNodeMap &	getChildren () const
	List of sub-nodes of this Node. More...
DebugRenderable *	getDebugRenderable (Real scaling)
	Get a debug renderable for rendering the Node. More...
unsigned short	getHandle (void) const
	Gets the numeric handle for this bone (unique within the skeleton). More...
bool	getInheritOrientation (void) const
	Returns true if this node is affected by orientation applied to the parent node. More...
bool	getInheritParentEntityOrientation (void) const
	Returns true if this TagPoint is affected by orientation applied to the parent entity. More...
bool	getInheritParentEntityScale (void) const
	Returns true if this TagPoint is affected by scaling factors applied to the parent entity. More...
bool	getInheritScale (void) const
	Returns true if this node is affected by scaling factors applied to the parent node. More...
const Quaternion &	getInitialOrientation (void) const
	Gets the initial orientation of this node, see setInitialState for more info. More...
const Vector3 &	getInitialPosition (void) const
	Gets the initial position of this node, see setInitialState for more info. More...
const Vector3 &	getInitialScale (void) const
	Gets the initial position of this node, see setInitialState for more info. More...
const LightList &	getLights (void) const
	Gets a list of lights, ordered relative to how close they are to this renderable. More...
Listener *	getListener (void) const
	Gets the current listener for this Node. More...
Matrix3	getLocalAxes (void) const
	Gets a matrix whose columns are the local axes based on the nodes orientation relative to it's parent. More...
const String &	getName (void) const
	Returns the name of the node. More...
const Quaternion &	getOrientation () const
	Returns a quaternion representing the nodes orientation. More...
Node *	getParent (void) const
	Gets this node's parent (NULL if this is the root). More...
Entity *	getParentEntity (void) const
const Affine3 &	getParentEntityTransform (void) const
	Gets the transform of parent entity. More...
const Vector3 &	getPosition (void) const
	Gets the position of the node relative to it's parent. More...
const Vector3 &	getScale (void) const
	Gets the scaling factor of this node. More...
Real	getSquaredViewDepth (const Camera *cam) const
	Helper function, get the squared view depth. More...
const Any &	getUserAny (void) const
UserObjectBindings &	getUserObjectBindings ()
	Return an instance of user objects binding associated with this class. More...
const UserObjectBindings &	getUserObjectBindings () const
	Return an instance of user objects binding associated with this class. More...
bool	isManuallyControlled () const
	Getter for mManuallyControlled Flag. More...
void	needUpdate (bool forceParentUpdate=false)
	To be called in the event of transform changes to this node that require it's recalculation. More...
uint16	numChildren (void) const
	Reports the number of child nodes under this one. More...
virtual void	pitch (const Radian &angle, TransformSpace relativeTo=TS_LOCAL)
	Rotate the node around the X-axis. More...
virtual void	removeAllChildren (void)
	Removes all child Nodes attached to this node. More...
virtual Node *	removeChild (unsigned short index)
	Drops the specified child from this node. More...
virtual Node *	removeChild (Node *child)
virtual Node *	removeChild (const String &name)
	Drops the named child from this node. More...
void	requestUpdate (Node *child, bool forceParentUpdate=false)
	Called by children to notify their parent that they need an update. More...
void	reset (void)
	Resets the position and orientation of this Bone to the original binding position. More...
void	resetOrientation (void)
	Resets the nodes orientation (local axes as world axes, no rotation). More...
void	resetToInitialState (void)
	Resets the position / orientation / scale of this node to it's initial state, see setInitialState for more info. More...
virtual void	roll (const Radian &angle, TransformSpace relativeTo=TS_LOCAL)
	Rotate the node around the Z-axis. More...
void	rotate (const Vector3 &axis, const Radian &angle, TransformSpace relativeTo=TS_LOCAL)
	Rotate the node around an arbitrary axis. More...
void	rotate (const Quaternion &q, TransformSpace relativeTo=TS_LOCAL)
	Rotate the node around an aritrary axis using a Quarternion. More...
void	scale (const Vector3 &scale)
	Scales the node, combining it's current scale with the passed in scaling factor. More...
void	scale (Real x, Real y, Real z)
void	setBindingPose (void)
	Sets the current position / orientation to be the 'binding pose' ie the layout in which bones were originally bound to a mesh. More...
void	setChildObject (MovableObject *pObject)
void	setInheritOrientation (bool inherit)
	Tells the node whether it should inherit orientation from it's parent node. More...
void	setInheritParentEntityOrientation (bool inherit)
	Tells the TagPoint whether it should inherit orientation from it's parent entity. More...
void	setInheritParentEntityScale (bool inherit)
	Tells the TagPoint whether it should inherit scaling factors from it's parent entity. More...
void	setInheritScale (bool inherit)
	Tells the node whether it should inherit scaling factors from it's parent node. More...
void	setInitialState (void)
	Sets the current transform of this node to be the 'initial state' ie that position / orientation / scale to be used as a basis for delta values used in keyframe animation. More...
void	setListener (Listener *listener)
	Sets a listener for this Node. More...
void	setManuallyControlled (bool manuallyControlled)
	Sets whether or not this bone is manually controlled. More...
void	setOrientation (const Quaternion &q)
	Sets the orientation of this node via a quaternion. More...
void	setOrientation (Real w, Real x, Real y, Real z)
void	setParentEntity (Entity *pEntity)
void	setPosition (const Vector3 &pos)
	Sets the position of the node relative to it's parent. More...
void	setPosition (Real x, Real y, Real z)
void	setScale (const Vector3 &scale)
	Sets the scaling factor applied to this node. More...
void	setScale (Real x, Real y, Real z)
void	setUserAny (const Any &anything)
void	translate (const Vector3 &d, TransformSpace relativeTo=TS_PARENT)
	Moves the node along the Cartesian axes. More...
void	translate (Real x, Real y, Real z, TransformSpace relativeTo=TS_PARENT)
void	translate (const Matrix3 &axes, const Vector3 &move, TransformSpace relativeTo=TS_PARENT)
	Moves the node along arbitrary axes. More...
void	translate (const Matrix3 &axes, Real x, Real y, Real z, TransformSpace relativeTo=TS_PARENT)
void	updateFromParentImpl (void) const
	Overridden from Node in order to include parent Entity transform. More...
virtual void	yaw (const Radian &angle, TransformSpace relativeTo=TS_LOCAL)
	Rotate the node around the Y-axis. More...

Static Public Member Functions
static void	processQueuedUpdates (void)
	Process queued 'needUpdate' calls. More...
static void	queueNeedUpdate (Node *n)
	Queue a 'needUpdate' call to a node safely. More...

Detailed Description

A tagged point on a skeleton, which can be used to attach entities to on specific other entities.

Remarks

A Skeleton, like a Mesh, is shared between Entity objects and simply updated as required when it comes to rendering. However there are times when you want to attach another object to an animated entity, and make sure that attachment follows the parent entity's animation (for example, a character holding a gun in his / her hand). This class simply identifies attachment points on a skeleton which can be used to attach child objects.

The child objects themselves are not physically attached to this class; as it's name suggests this class just 'tags' the area. The actual child objects are attached to the Entity using the skeleton which has this tag point. Use the Entity::attachMovableObjectToBone method to attach the objects, which creates a new TagPoint on demand.

Member Typedef Documentation

ChildNodeMap

typedef std::vector<Node*> Ogre::Node::ChildNodeMap

inherited

ChildNodeIterator

typedef VectorIterator<ChildNodeMap> Ogre::Node::ChildNodeIterator

inherited

ConstChildNodeIterator

typedef ConstVectorIterator<ChildNodeMap> Ogre::Node::ConstChildNodeIterator

inherited

Member Enumeration Documentation

TransformSpace

enum Ogre::Node::TransformSpace

inherited

Enumeration denoting the spaces which a transform can be relative to.

Enumerator
TS_LOCAL	Transform is relative to the local space.
TS_PARENT	Transform is relative to the space of the parent node.
TS_WORLD	Transform is relative to world space.

Constructor & Destructor Documentation

TagPoint()

Ogre::TagPoint::TagPoint	(	unsigned short	handle,
		Skeleton *	creator
	)

Member Function Documentation

getParentEntity()

Entity* Ogre::TagPoint::getParentEntity

(

void

)

const

getChildObject()

MovableObject* Ogre::TagPoint::getChildObject

(

void

)

const

setParentEntity()

void Ogre::TagPoint::setParentEntity

(

Entity *

pEntity

)

setChildObject()

void Ogre::TagPoint::setChildObject

(

MovableObject *

pObject

)

setInheritParentEntityOrientation()

void Ogre::TagPoint::setInheritParentEntityOrientation

(

bool

inherit

)

Tells the TagPoint whether it should inherit orientation from it's parent entity.

Parameters

inherit

If true, this TagPoint's orientation will be affected by its parent entity's orientation. If false, it will not be affected.

getInheritParentEntityOrientation()

bool Ogre::TagPoint::getInheritParentEntityOrientation

(

void

)

const

Returns true if this TagPoint is affected by orientation applied to the parent entity.

setInheritParentEntityScale()

void Ogre::TagPoint::setInheritParentEntityScale

(

bool

inherit

)

Tells the TagPoint whether it should inherit scaling factors from it's parent entity.

Parameters

inherit

If true, this TagPoint's scaling factors will be affected by its parent entity's scaling factors. If false, it will not be affected.

getInheritParentEntityScale()

bool Ogre::TagPoint::getInheritParentEntityScale

(

void

)

const

Returns true if this TagPoint is affected by scaling factors applied to the parent entity.

getParentEntityTransform()

const Affine3& Ogre::TagPoint::getParentEntityTransform

(

void

)

const

Gets the transform of parent entity.

_getFullLocalTransform()

const Affine3& Ogre::TagPoint::_getFullLocalTransform

(

void

)

const

Gets the transform of this node just for the skeleton (not entity)

needUpdate()

void Ogre::TagPoint::needUpdate ( bool  forceParentUpdate = false )

virtual

To be called in the event of transform changes to this node that require it's recalculation.

Remarks

This not only tags the node state as being 'dirty', it also requests it's parent to know about it's dirtiness so it will get an update next time.

Parameters

forceParentUpdate

Even if the node thinks it has already told it's parent, tell it anyway

Reimplemented from Ogre::Bone.

updateFromParentImpl()

void Ogre::TagPoint::updateFromParentImpl ( void  ) const

virtual

Overridden from Node in order to include parent Entity transform.

Reimplemented from Ogre::Node.

getLights()

const LightList& Ogre::TagPoint::getLights

(

void

)

const

Gets a list of lights, ordered relative to how close they are to this renderable.

Remarks

Directional lights, which have no position, will always be first on this list.

createChild() [1/3]

Bone* Ogre::Bone::createChild ( unsigned short  handle, const Vector3 &  translate = Vector3::ZERO, const Quaternion &  rotate = Quaternion::IDENTITY  )

inherited

Creates a new Bone as a child of this bone.

Remarks

This method creates a new bone which will inherit the transforms of this bone, with the handle specified.

Parameters

handle	The numeric handle to give the new bone; must be unique within the Skeleton.
translate	Initial translation offset of child relative to parent
rotate	Initial rotation relative to parent

createChild() [2/3]

virtual Node* Ogre::Node::createChild ( const Vector3 &  translate = Vector3::ZERO, const Quaternion &  rotate = Quaternion::IDENTITY  )

virtualinherited

Creates an unnamed new Node as a child of this node.

Parameters

translate	Initial translation offset of child relative to parent
rotate	Initial rotation relative to parent

createChild() [3/3]

virtual Node* Ogre::Node::createChild ( const String &  name, const Vector3 &  translate = Vector3::ZERO, const Quaternion &  rotate = Quaternion::IDENTITY  )

virtualinherited

Creates a new named Node as a child of this node.

Remarks

This creates a child node with a given name, which allows you to look the node up from the parent which holds this collection of nodes.

Parameters

translate	Initial translation offset of child relative to parent
rotate	Initial rotation relative to parent

getHandle()

unsigned short Ogre::Bone::getHandle ( void  ) const

inherited

Gets the numeric handle for this bone (unique within the skeleton).

setBindingPose()

void Ogre::Bone::setBindingPose ( void  )

inherited

Sets the current position / orientation to be the 'binding pose' ie the layout in which bones were originally bound to a mesh.

reset()

void Ogre::Bone::reset ( void  )

inherited

Resets the position and orientation of this Bone to the original binding position.

Remarks

Bones are bound to the mesh in a binding pose. They are then modified from this position during animation. This method returns the bone to it's original position and orientation.

setManuallyControlled()

void Ogre::Bone::setManuallyControlled ( bool  manuallyControlled )

inherited

Sets whether or not this bone is manually controlled.

Remarks

Manually controlled bones can be altered by the application at runtime, and their positions will not be reset by the animation routines. Note that you should also make sure that there are no AnimationTrack objects referencing this bone, or if there are, you should disable them using pAnimation->destroyTrack(pBone->getHandle());

You can also use AnimationState::setBlendMask to mask out animation from chosen tracks if you want to prevent application of a scripted animation to a bone without altering the Animation definition.

isManuallyControlled()

bool Ogre::Bone::isManuallyControlled ( ) const

inherited

Getter for mManuallyControlled Flag.

_getOffsetTransform()

void Ogre::Bone::_getOffsetTransform ( Affine3 &  m ) const

inherited

Gets the transform which takes bone space to current from the binding pose.

Remarks

Internal use only.

_getBindingPoseInverseScale()

const Vector3& Ogre::Bone::_getBindingPoseInverseScale ( void  ) const

inlineinherited

Gets the inverted binding pose scale.

_getBindingPoseInversePosition()

const Vector3& Ogre::Bone::_getBindingPoseInversePosition ( void  ) const

inlineinherited

Gets the inverted binding pose position.

_getBindingPoseInverseOrientation()

const Quaternion& Ogre::Bone::_getBindingPoseInverseOrientation ( void  ) const

inlineinherited

Gets the inverted binding pose orientation.

getName()

const String& Ogre::Node::getName ( void  ) const

inlineinherited

Returns the name of the node.

getParent()

Node* Ogre::Node::getParent ( void  ) const

inlineinherited

Gets this node's parent (NULL if this is the root).

getOrientation()

const Quaternion& Ogre::Node::getOrientation ( ) const

inlineinherited

Returns a quaternion representing the nodes orientation.

setOrientation() [1/2]

void Ogre::Node::setOrientation ( const Quaternion &  q )

inherited

Sets the orientation of this node via a quaternion.

Remarks

Orientations, unlike other transforms, are not always inherited by child nodes. Whether or not orientations affect the orientation of the child nodes depends on the setInheritOrientation option of the child. In some cases you want a orientating of a parent node to apply to a child node (e.g. where the child node is a part of the same object, so you want it to be the same relative orientation based on the parent's orientation), but not in other cases (e.g. where the child node is just for positioning another object, you want it to maintain it's own orientation). The default is to inherit as with other transforms.

Note that rotations are oriented around the node's origin.

setOrientation() [2/2]

void Ogre::Node::setOrientation ( Real  w, Real  x, Real  y, Real  z  )

inherited

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

resetOrientation()

void Ogre::Node::resetOrientation ( void  )

inherited

Resets the nodes orientation (local axes as world axes, no rotation).

Remarks

Orientations, unlike other transforms, are not always inherited by child nodes. Whether or not orientations affect the orientation of the child nodes depends on the setInheritOrientation option of the child. In some cases you want a orientating of a parent node to apply to a child node (e.g. where the child node is a part of the same object, so you want it to be the same relative orientation based on the parent's orientation), but not in other cases (e.g. where the child node is just for positioning another object, you want it to maintain it's own orientation). The default is to inherit as with other transforms.

Note that rotations are oriented around the node's origin.

setPosition() [1/2]

void Ogre::Node::setPosition ( const Vector3 &  pos )

inherited

Sets the position of the node relative to it's parent.

setPosition() [2/2]

void Ogre::Node::setPosition ( Real  x, Real  y, Real  z  )

inherited

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

getPosition()

const Vector3& Ogre::Node::getPosition ( void  ) const

inlineinherited

Gets the position of the node relative to it's parent.

setScale() [1/2]

void Ogre::Node::setScale ( const Vector3 &  scale )

inherited

Sets the scaling factor applied to this node.

Remarks

Scaling factors, unlike other transforms, are not always inherited by child nodes. Whether or not scalings affect the size of the child nodes depends on the setInheritScale option of the child. In some cases you want a scaling factor of a parent node to apply to a child node (e.g. where the child node is a part of the same object, so you want it to be the same relative size based on the parent's size), but not in other cases (e.g. where the child node is just for positioning another object, you want it to maintain it's own size). The default is to inherit as with other transforms.

Note that like rotations, scalings are oriented around the node's origin.

setScale() [2/2]

void Ogre::Node::setScale ( Real  x, Real  y, Real  z  )

inherited

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

getScale()

const Vector3& Ogre::Node::getScale ( void  ) const

inlineinherited

Gets the scaling factor of this node.

setInheritOrientation()

void Ogre::Node::setInheritOrientation ( bool  inherit )

inherited

Tells the node whether it should inherit orientation from it's parent node.

Remarks

Orientations, unlike other transforms, are not always inherited by child nodes. Whether or not orientations affect the orientation of the child nodes depends on the setInheritOrientation option of the child. In some cases you want a orientating of a parent node to apply to a child node (e.g. where the child node is a part of the same object, so you want it to be the same relative orientation based on the parent's orientation), but not in other cases (e.g. where the child node is just for positioning another object, you want it to maintain it's own orientation). The default is to inherit as with other transforms.

Parameters

inherit

If true, this node's orientation will be affected by its parent's orientation. If false, it will not be affected.

getInheritOrientation()

bool Ogre::Node::getInheritOrientation ( void  ) const

inlineinherited

Returns true if this node is affected by orientation applied to the parent node.

Remarks

Orientations, unlike other transforms, are not always inherited by child nodes. Whether or not orientations affect the orientation of the child nodes depends on the setInheritOrientation option of the child. In some cases you want a orientating of a parent node to apply to a child node (e.g. where the child node is a part of the same object, so you want it to be the same relative orientation based on the parent's orientation), but not in other cases (e.g. where the child node is just for positioning another object, you want it to maintain it's own orientation). The default is to inherit as with other transforms.

See setInheritOrientation for more info.

setInheritScale()

void Ogre::Node::setInheritScale ( bool  inherit )

inherited

Tells the node whether it should inherit scaling factors from it's parent node.

Remarks

Scaling factors, unlike other transforms, are not always inherited by child nodes. Whether or not scalings affect the size of the child nodes depends on the setInheritScale option of the child. In some cases you want a scaling factor of a parent node to apply to a child node (e.g. where the child node is a part of the same object, so you want it to be the same relative size based on the parent's size), but not in other cases (e.g. where the child node is just for positioning another object, you want it to maintain it's own size). The default is to inherit as with other transforms.

Parameters

inherit

If true, this node's scale will be affected by its parent's scale. If false, it will not be affected.

getInheritScale()

bool Ogre::Node::getInheritScale ( void  ) const

inlineinherited

Returns true if this node is affected by scaling factors applied to the parent node.

Remarks

See setInheritScale for more info.

References Ogre::Quaternion::IDENTITY.

scale() [1/2]

void Ogre::Node::scale ( const Vector3 &  scale )

inherited

Scales the node, combining it's current scale with the passed in scaling factor.

Remarks

This method applies an extra scaling factor to the node's existing scale, (unlike setScale which overwrites it) combining it's current scale with the new one. E.g. calling this method twice with Vector3(2,2,2) would have the same effect as setScale(Vector3(4,4,4)) if the existing scale was 1.

Note that like rotations, scalings are oriented around the node's origin.

scale() [2/2]

void Ogre::Node::scale ( Real  x, Real  y, Real  z  )

inherited

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

translate() [1/4]

void Ogre::Node::translate ( const Vector3 &  d, TransformSpace  relativeTo = TS_PARENT  )

inherited

Moves the node along the Cartesian axes.

This method moves the node by the supplied vector along the world Cartesian axes, i.e. along world x,y,z

Parameters

d	Vector with x,y,z values representing the translation.
relativeTo	The space which this transform is relative to.

translate() [2/4]

void Ogre::Node::translate ( Real  x, Real  y, Real  z, TransformSpace  relativeTo = TS_PARENT  )

inherited

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

translate() [3/4]

void Ogre::Node::translate ( const Matrix3 &  axes, const Vector3 &  move, TransformSpace  relativeTo = TS_PARENT  )

inherited

Moves the node along arbitrary axes.

Remarks

This method translates the node by a vector which is relative to a custom set of axes.

Parameters

axes	A 3x3 Matrix containing 3 column vectors each representing the axes X, Y and Z respectively. In this format the standard cartesian axes would be expressed as: 1 0 0 0 1 0 0 0 1 i.e. the identity matrix.
move	Vector relative to the axes above.
relativeTo	The space which this transform is relative to.

translate() [4/4]

void Ogre::Node::translate ( const Matrix3 &  axes, Real  x, Real  y, Real  z, TransformSpace  relativeTo = TS_PARENT  )

inherited

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

roll()

virtual void Ogre::Node::roll ( const Radian &  angle, TransformSpace  relativeTo = TS_LOCAL  )

virtualinherited

Rotate the node around the Z-axis.

pitch()

virtual void Ogre::Node::pitch ( const Radian &  angle, TransformSpace  relativeTo = TS_LOCAL  )

virtualinherited

Rotate the node around the X-axis.

yaw()

virtual void Ogre::Node::yaw ( const Radian &  angle, TransformSpace  relativeTo = TS_LOCAL  )

virtualinherited

Rotate the node around the Y-axis.

Reimplemented in Ogre::SceneNode.

rotate() [1/2]

void Ogre::Node::rotate ( const Vector3 &  axis, const Radian &  angle, TransformSpace  relativeTo = TS_LOCAL  )

inherited

Rotate the node around an arbitrary axis.

rotate() [2/2]

void Ogre::Node::rotate ( const Quaternion &  q, TransformSpace  relativeTo = TS_LOCAL  )

inherited

Rotate the node around an aritrary axis using a Quarternion.

getLocalAxes()

Matrix3 Ogre::Node::getLocalAxes ( void  ) const

inherited

Gets a matrix whose columns are the local axes based on the nodes orientation relative to it's parent.

addChild()

void Ogre::Node::addChild ( Node *  child )

inherited

Adds a (precreated) child scene node to this node.

If it is attached to another node, it must be detached first.

Parameters

child

The Node which is to become a child node of this one

numChildren()

uint16 Ogre::Node::numChildren ( void  ) const

inlineinherited

Reports the number of child nodes under this one.

Deprecated:

use getChildren()

getChild() [1/2]

Node* Ogre::Node::getChild ( unsigned short  index ) const

inherited

Gets a pointer to a child node.

Remarks

There is an alternate getChild method which returns a named child.

Deprecated:

use getChildren()

getChild() [2/2]

Node* Ogre::Node::getChild ( const String &  name ) const

inherited

Gets a pointer to a named child node.

getChildIterator() [1/2]

ChildNodeIterator Ogre::Node::getChildIterator ( void  )

inherited

Deprecated:

use getChildren()

getChildIterator() [2/2]

ConstChildNodeIterator Ogre::Node::getChildIterator ( void  ) const

inherited

Deprecated:

use getChildren()

getChildren()

const ChildNodeMap& Ogre::Node::getChildren ( ) const

inlineinherited

List of sub-nodes of this Node.

removeChild() [1/3]

virtual Node* Ogre::Node::removeChild ( unsigned short  index )

virtualinherited

Drops the specified child from this node.

Remarks

Does not delete the node, just detaches it from this parent, potentially to be reattached elsewhere. There is also an alternate version which drops a named child from this node.

Reimplemented in Ogre::OctreeNode.

removeChild() [2/3]

virtual Node* Ogre::Node::removeChild ( Node *  child )

virtualinherited

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

Reimplemented in Ogre::OctreeNode.

removeChild() [3/3]

virtual Node* Ogre::Node::removeChild ( const String &  name )

virtualinherited

Drops the named child from this node.

Remarks

Does not delete the node, just detaches it from this parent, potentially to be reattached elsewhere.

Reimplemented in Ogre::OctreeNode.

removeAllChildren()

virtual void Ogre::Node::removeAllChildren ( void  )

virtualinherited

Removes all child Nodes attached to this node.

Does not delete the nodes, just detaches them from this parent, potentially to be reattached elsewhere.

Reimplemented in Ogre::OctreeNode.

_setDerivedPosition()

void Ogre::Node::_setDerivedPosition ( const Vector3 &  pos )

inherited

Sets the final world position of the node directly.

Remarks

It's advisable to use the local setPosition if possible

_setDerivedOrientation()

void Ogre::Node::_setDerivedOrientation ( const Quaternion &  q )

inherited

Sets the final world orientation of the node directly.

Remarks

It's advisable to use the local setOrientation if possible, this simply does the conversion for you.

_getDerivedOrientation()

const Quaternion& Ogre::Node::_getDerivedOrientation ( void  ) const

inherited

Gets the orientation of the node as derived from all parents.

_getDerivedPosition()

const Vector3& Ogre::Node::_getDerivedPosition ( void  ) const

inherited

Gets the position of the node as derived from all parents.

_getDerivedScale()

const Vector3& Ogre::Node::_getDerivedScale ( void  ) const

inherited

Gets the scaling factor of the node as derived from all parents.

_getFullTransform()

const Affine3& Ogre::Node::_getFullTransform ( void  ) const

inherited

Gets the full transformation matrix for this node.

Remarks

This method returns the full transformation matrix for this node, including the effect of any parent node transformations, provided they have been updated using the Node::_update method. This should only be called by a SceneManager which knows the derived transforms have been updated before calling this method. Applications using Ogre should just use the relative transforms.

_update()

virtual void Ogre::Node::_update ( bool  updateChildren, bool  parentHasChanged  )

virtualinherited

Internal method to update the Node.

Note

Updates this node and any relevant children to incorporate transforms etc. Don't call this yourself unless you are writing a SceneManager implementation.

Parameters

updateChildren	If true, the update cascades down to all children. Specify false if you wish to update children separately, e.g. because of a more selective SceneManager implementation.
parentHasChanged	This flag indicates that the parent transform has changed, so the child should retrieve the parent's transform and combine it with its own even if it hasn't changed itself.

Reimplemented in Ogre::SceneNode, Ogre::PCZSceneNode, and Ogre::BspSceneNode.

setListener()

void Ogre::Node::setListener ( Listener *  listener )

inlineinherited

Sets a listener for this Node.

Remarks

Note for size and performance reasons only one listener per node is allowed.

getListener()

Listener* Ogre::Node::getListener ( void  ) const

inlineinherited

Gets the current listener for this Node.

setInitialState()

void Ogre::Node::setInitialState ( void  )

inherited

Sets the current transform of this node to be the 'initial state' ie that position / orientation / scale to be used as a basis for delta values used in keyframe animation.

Remarks

You never need to call this method unless you plan to animate this node. If you do plan to animate it, call this method once you've loaded the node with it's base state, ie the state on which all keyframes are based.

If you never call this method, the initial state is the identity transform, ie do nothing.

resetToInitialState()

void Ogre::Node::resetToInitialState ( void  )

inherited

Resets the position / orientation / scale of this node to it's initial state, see setInitialState for more info.

getInitialPosition()

const Vector3& Ogre::Node::getInitialPosition ( void  ) const

inlineinherited

Gets the initial position of this node, see setInitialState for more info.

Remarks

Also resets the cumulative animation weight used for blending.

convertWorldToLocalPosition()

Vector3 Ogre::Node::convertWorldToLocalPosition ( const Vector3 &  worldPos )

inherited

Gets the local position, relative to this node, of the given world-space position.

convertLocalToWorldPosition()

Vector3 Ogre::Node::convertLocalToWorldPosition ( const Vector3 &  localPos )

inherited

Gets the world position of a point in the node local space useful for simple transforms that don't require a child node.

convertWorldToLocalDirection()

Vector3 Ogre::Node::convertWorldToLocalDirection ( const Vector3 &  worldDir, bool  useScale  )

inherited

Gets the local direction, relative to this node, of the given world-space direction.

convertLocalToWorldDirection()

Vector3 Ogre::Node::convertLocalToWorldDirection ( const Vector3 &  localDir, bool  useScale  )

inherited

Gets the world direction of a point in the node local space useful for simple transforms that don't require a child node.

convertWorldToLocalOrientation()

Quaternion Ogre::Node::convertWorldToLocalOrientation ( const Quaternion &  worldOrientation )

inherited

Gets the local orientation, relative to this node, of the given world-space orientation.

convertLocalToWorldOrientation()

Quaternion Ogre::Node::convertLocalToWorldOrientation ( const Quaternion &  localOrientation )

inherited

Gets the world orientation of an orientation in the node local space useful for simple transforms that don't require a child node.

getInitialOrientation()

const Quaternion& Ogre::Node::getInitialOrientation ( void  ) const

inlineinherited

Gets the initial orientation of this node, see setInitialState for more info.

getInitialScale()

const Vector3& Ogre::Node::getInitialScale ( void  ) const

inlineinherited

Gets the initial position of this node, see setInitialState for more info.

getSquaredViewDepth()

Real Ogre::Node::getSquaredViewDepth ( const Camera *  cam ) const

inherited

Helper function, get the squared view depth.

requestUpdate()

void Ogre::Node::requestUpdate ( Node *  child, bool  forceParentUpdate = false  )

inherited

Called by children to notify their parent that they need an update.

Parameters

forceParentUpdate

Even if the node thinks it has already told it's parent, tell it anyway

cancelUpdate()

void Ogre::Node::cancelUpdate ( Node *  child )

inherited

Called by children to notify their parent that they no longer need an update.

getDebugRenderable()

DebugRenderable* Ogre::Node::getDebugRenderable ( Real  scaling )

inherited

Get a debug renderable for rendering the Node.

Referenced by Ogre::SceneNode::getAutoTrackLocalDirection().

queueNeedUpdate()

static void Ogre::Node::queueNeedUpdate ( Node *  n )

staticinherited

Queue a 'needUpdate' call to a node safely.

Remarks

You can't call needUpdate() during the scene graph update, e.g. in response to a Node::Listener hook, because the graph is already being updated, and update flag changes cannot be made reliably in that context. Call this method if you need to queue a needUpdate call in this case.

processQueuedUpdates()

static void Ogre::Node::processQueuedUpdates ( void  )

staticinherited

Process queued 'needUpdate' calls.

setUserAny()

void Ogre::Node::setUserAny ( const Any &  anything )

inlineinherited

Deprecated:

use UserObjectBindings::setUserAny via getUserObjectBindings() instead.

Sets any kind of user value on this object.

Remarks

This method allows you to associate any user value you like with this Node. This can be a pointer back to one of your own classes for instance.

getUserAny()

const Any& Ogre::Node::getUserAny ( void  ) const

inlineinherited

Deprecated:

use UserObjectBindings::getUserAny via getUserObjectBindings() instead.

Retrieves the custom user value associated with this object.

getUserObjectBindings() [1/2]

UserObjectBindings& Ogre::Node::getUserObjectBindings ( )

inlineinherited

Return an instance of user objects binding associated with this class.

You can use it to associate one or more custom objects with this class instance.

See also

UserObjectBindings::setUserAny.

getUserObjectBindings() [2/2]

const UserObjectBindings& Ogre::Node::getUserObjectBindings ( ) const

inlineinherited

Return an instance of user objects binding associated with this class.

You can use it to associate one or more custom objects with this class instance.

See also

UserObjectBindings::setUserAny.

---

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

• OgreTagPoint.h