kanzi::Node2D Class Reference

Node2D is the base class of 2D nodes. More...

#include <kanzi/core.ui/node/node2d.hpp>

Inheritance diagram for kanzi::Node2D:

Classes
struct	ClippingArea
	Clipping information carried from parents. More...

Public Types
typedef ChildContainer::const_iterator	ChildConstIterator
	Iterator type for children. More...
typedef ChildContainer::const_reverse_iterator	ChildConstReverseIterator
	Reverse iterator type for children. More...
typedef vector< Node2DSharedPtr >	ChildContainer
	Container type for children. More...
enum	ForegroundHint { ForegroundHintNone, ForegroundHintTranslucent, ForegroundHintOpaque }
	Hint for foreground handling of nodes. More...
typedef NodeSharedPtr(*	HitTestVisitor) (Node2D &node, Vector2 nodePoint, void *userData)
	Hit test visitor function. More...
typedef Matrix3x3	LayoutMatrixType
typedef Vector2	LayoutVectorType
enum	PerspectiveTransformationMode { Screen, XFov, YFov }
	Node2D perspective transformation mode. More...
enum	PixelFormat { PixelFormatRgb, PixelFormatRgba }
	Pixel formats. More...
enum	RenderType { RenderTypeNone, RenderTypeTexture, RenderTypeManual, RenderTypeManualClipped }
	Node2D render type - affects elementary decisions about node rendering. More...
Public Types inherited from kanzi::Node
enum	ContentStretch {   ContentStretchNone, ContentStretchFill, ContentStretchUniform, ContentStretchUniformToFill,   ContentStretchRepeat }
	Content stretch option. More...
enum	DepthAlignment { DepthAlignmentBack, DepthAlignmentFront, DepthAlignmentCenter, DepthAlignmentStretch }
	Depth alignment options. More...
enum	HorizontalAlignment { HorizontalAlignmentLeft, HorizontalAlignmentRight, HorizontalAlignmentCenter, HorizontalAlignmentStretch }
	Horizontal alignment options. More...
typedef InputManipulatorContainer::const_iterator	InputManipulatorConstIterator
typedef vector< InputManipulatorBaseSharedPtr >	InputManipulatorContainer
	Gets the input manipulator iterator. More...
typedef InputManipulatorContainer::iterator	InputManipulatorIterator
typedef kanzi::vector< Node::MessageSubscriptionToken >	MessageSubscriptionTokenVector
typedef NodeComponentContainer::const_iterator	NodeComponentConstIterator
typedef vector< NodeComponentEntry >	NodeComponentContainer
	Gets the node component iterator. More...
typedef NodeComponentContainer::iterator	NodeComponentIterator
enum	VerticalAlignment { VerticalAlignmentBottom, VerticalAlignmentTop, VerticalAlignmentCenter, VerticalAlignmentStretch }
	Vertical alignment options. More...
typedef function< VisitorResult(Node &)>	Visitor
	Defines the type of the function that Kanzi executes for each node when visiting a node tree. More...
enum	VisitorOrder { VisitorPreOrder, VisitorPostOrder }
	Defines the order in which Kanzi visits the nodes in a node tree. More...
enum	VisitorResult { VisitorAbort, VisitorContinue, VisitorContinueSibling }
	Defines the return type of the Node::Visitor function. More...
Public Types inherited from kanzi::PropertyObject
typedef PropertyStorageContainer::const_iterator	PropertyStorageConstIterator
typedef vector< PropertyStoragePtr >	PropertyStorageContainer
typedef PropertyStorageContainer::iterator	PropertyStorageIterator
typedef intrusive_ptr< AbstractPropertyTypeDescriptor::PropertyStorage >	PropertyStoragePtr
typedef PropertyStorageContainer::reverse_iterator	PropertyStorageReverseIterator
Public Types inherited from kanzi::BindingHostConcept
using	BindingHostConceptSharedPtr = shared_ptr< BindingHostConcept >
	Binding host concept shared pointer type. More...
using	BindingRuntimeConstIterator = BindingRuntimeContainer::const_iterator
	Const iterator for binding runtimes. More...
using	BindingRuntimeContainer = vector< AbstractBindingRuntimeSharedPtr >
	Container for binding runtimes. More...
using	BindingRuntimeIterator = BindingRuntimeContainer::iterator
	Iterator for binding runtimes. More...

Public Member Functions
bool	addAbstractChildOverride (NodeSharedPtr child) override
	Node::addAbstractChildOverride() implementation. More...
void	addChild (Node2DSharedPtr child)
	Adds a child node. More...
void	arrange ()
	Performs layout arrangement on a 2D node. More...
ChildConstIterator	beginChildren () const
bool	compositionRequiresAlpha () const
	Returns whether composition requires alpha. More...
bool	compositionRequiresDepth () const
	Returns whether composition requires depth. More...
bool	compositionRequiresStencil () const
	Returns whether composition requires stencil. More...
optional< Vector2 >	containsGlobal (Vector2 point) const
	Checks whether a node area contains a point defined in screen space. If it does, writes the node-space coordinates into the outgoing point. More...
bool	containsLocal (Vector2 point) const
	Returns whether a node area contains a point defined in the local space of the node. More...
ChildConstIterator	endChildren () const
NodeSharedPtr	findAbstractChildOverride (string_view name) override
	Node::findAbstractChildOverride() implementation. More...
size_t	getAbstractChildCountOverride () override
	Node::getAbstractChildCountOverride() implementation. More...
size_t	getAbstractChildIndexOverride (const Node &node) override
NodeSharedPtr	getAbstractChildOverride (size_t index) override
	Node::getAbstractChildOverride() implementation. More...
Vector2	getActualSize () const
	Gets the actual size of a node. More...
Vector2	getAllocatedSize () const
	Gets the allocated size of a node. More...
Matrix3x3	getArrangeTransform () const
	Gets the arrange transform. More...
BrushSharedPtr	getBackgroundBrush () const
	Gets value of BackgroundBrushProperty. More...
BrushRenderer *	getBackgroundBrushRenderer () const
	Get background brush renderer. More...
QuadDescription	getBackgroundQuad () const
	Gets the background quad description. More...
Node2DSharedPtr	getChild (size_t index) const
	Returns a child from given index from object node. More...
Matrix3x3	getChildCompositionSpaceTransform () const
	Gets the transform used for composition children of the 2D node. More...
size_t	getChildCount () const
	Gets the number of children of the node. More...
size_t	getChildIndex (const Node &child) const
	Returns the index of a child in an object node. More...
ClippingArea	getClippingArea () const
	Gets the clipping area. More...
BrushSharedPtr	getCompositionBrush () const
	Gets value of CompositionBrushProperty. More...
BrushRenderer *	getCompositionBrushRenderer () const
	Access cache result brush renderer. More...
CompositionManager *	getCompositionManager () const
	Access composition manager. More...
TextureSharedPtr	getCompositionTarget () const
	Gets the composition target used for compositing the node. More...
NodeCompositor2D *	getCompositor () const
	Accesses the compositor component. More...
Vector2	getContentDesiredSize () const
	Gets the size desired by content. More...
Vector2	getDesiredSize () const
	Gets the desired size of a node. More...
NodeEffect2DSharedPtr	getEffect () const
	Gets the value of EffectProperty. More...
NodeEffectPrefab2DSharedPtr	getEffectPrefab () const
	Gets the value of EffectPrefabProperty. More...
NodeEffectRenderer2D *	getEffectRenderer () const
	Gets the effect renderer. More...
BrushSharedPtr	getForegroundBrush () const
	Gets value of ForegroundBrushProperty. More...
BrushRenderer *	getForegroundBrushRenderer () const
	Get foreground brush renderer. More...
float	getLayoutOpacity () const
	Gets the opacity after propagation from layouting hierarchy. More...
SRTValue2D	getLayoutTransformation () const
	Gets the value of the LayoutTransformationProperty. More...
TextureSharedPtr	getManagedCompositionTarget () const
	Gets the managed composition target of a node. More...
Matrix3x3	getParentSpaceTransform () const
	Gets the parent space transform of the 2D node. More...
Matrix3x3	getPartialArrangeTransform () const
	Gets the partial arrange transform. More...
NodeEffect2D *	getRenderableEffect () const
	Gets a pointer to the current effect if effect rendering is required. More...
Matrix3x3	getRenderQuadTransform () const
	Gets transformation used to render the 2D node. More...
TextureSharedPtr	getRenderTarget () const
	Gets value of RenderTargetProperty. More...
SRTValue2D	getRenderTransformation () const
	Gets the value of RenderTransformationProperty. More...
RenderType	getRenderType () const
	Get render type. More...
Vector2	getSecondPassDesiredSize () const
	Gets the second pass desired size. More...
Vector2	getUserDesiredSize () const
	Gets the size desired by user. More...
NodeVisual2D *	getVisual () const
	Access visual component. More...
Matrix3x3	getWorldTransform () const
	Gets the world transformation matrix. More...
optional< Vector2 >	globalToLocal (Vector2 point) const
bool	hasCenterClipArea () const
	Returns whether a 2D node has the center clip area (the area of foreground content). More...
bool	hasChild (const Node &child) const
	Returns whether the given node is a child of this node. More...
bool	hasCompositionTarget () const
	Indicates whether the node has a composition target. More...
bool	hasEffect () const
	Whether an active effect is applied to this node. More...
bool	hasManagedCompositionTarget () const
	Returns whether the node has a managed composition target. More...
bool	hasOutsideClipArea () const
	Returns whether a 2D node has outside clipping area. More...
bool	hasTranslucentForeground () const
	Returns whether the foreground of a 2D node has translucency. More...
NodeSharedPtr	hitTest (Vector2 point)
	Performs a hit test to a 2D node and all its child nodes. More...
NodeSharedPtr	hitTest (Vector2 point, const Metaclass *type)
	Performs a hit test to a 2D node and all its child nodes. More...
template<typename T >
shared_ptr< T >	hitTest (Vector2 point)
	Wrapper for hitTest(Vector2), casts the return value. More...
template<typename T >
shared_ptr< T >	hitTest (Vector2 point, const Metaclass *type)
	Wrapper for hitTest(Vector2, const Metaclass), casts the return value. More...
virtual tuple< NodeSharedPtr, Ray, float >	hitTestContent (Vector2 point)
	Default implementation of Node2D content hit test. More...
NodeSharedPtr	hitTestIterate (Vector2 point, HitTestVisitor visitor, void *userData)
	Hit tests nodes recursively from this node downwards and calls visitor function on the hit nodes. More...
void	insertChild (size_t index, Node2DSharedPtr child)
	Adds a child node for object node to given index. More...
bool	isCacheValid () const
	Returns whether the children cache is valid. More...
bool	isClearColorAllowed () const
	Returns whether this Node2D is allowed and should clear the color buffer of its own composition target. More...
bool	isCompletelyClipped () const
	Returns whether a node is completely clipped and needs not be rendered. More...
bool	isCompletelyTransparent () const
	Returns whether a node is completely transparent. More...
bool	isCompositionPotentiallyRequired () const
	Tell if node itself is going to get rendered into a composition target. More...
bool	isPerspectiveTransformActive () const
	Returns whether a node is being perspective transformed. More...
bool	isRenderChildrenAllowed () const
	Returns whether rendering children is allowed. More...
bool	isRenderSelfAllowed () const
	Returns whether render self is allowed. More...
bool	isSelfInCompositionTarget () const
	Returns whether the node is going to get rendered into a composition target. More...
bool	isVisibleForHitTesting () const
	Returns whether a 2D node is visible for hit testing. More...
void	layout (optional< Matrix3x3 > rootTransform)
	Does a layout pass starting from this node and iterating recursively all of its children. More...
void	layout ()
	Does layout pass with no root transformation (identity). More...
bool	measure (const Vector2 *availableSize, bool handleStretch)
	Measures one node. More...
virtual bool	measureRecursive ()
	Performs measure recursively. More...
bool	moveAbstractChildToPositionOverride (NodeSharedPtr child, size_t index) override
	Node::moveAbstractChildToPosition() implementation. More...
void	moveChildToPosition (Node2DSharedPtr child, size_t index)
	Moves a child node to a given position in the list of child nodes. More...
void	moveToBack ()
	Repositions the node to the beginning of its parent's children, so that it is drawn first. More...
void	moveToFront ()
	Repositions the node to the end of its parent's children, so that it is drawn last. More...
ChildConstReverseIterator	rbeginChildren () const
bool	removeAbstractChildOverride (Node &child) override
	Node::removeAbstractChildOverride() implementation. More...
void	removeAllChildren ()
	Removes all child nodes. More...
void	removeChild (const Node &child)
	Removes child node. More...
void	removeChild (size_t index)
	Removes child node at specified index. More...
ChildConstReverseIterator	rendChildren () const
void	render (Renderer3D &renderer, CompositionStack &compositionStack, const optional< Matrix3x3 > &baseTransform)
	Renders a node and its descendant nodes. More...
void	render (Renderer3D &renderer, CompositionStack &compositionStack)
	Render a node and its descendant nodes. More...
bool	requiresBackgroundBrushRendering () const
	Returns whether background brush rendering is required. More...
bool	requiresForegroundBrushRendering () const
	Returns whether foreground brush rendering is required. More...
bool	requiresLocalTransformationScope () const
	Indicates whether local transformation scope is required. More...
bool	requiresTilingUpdate () const
	Returns whether node geometry requires an update for the tiling. More...
void	resetCache ()
	Resets cached content for complete content of a node, including the node and its children. More...
void	setActualSize (Vector2 actualSize)
	Sets the actual size of a node. More...
void	setActualSize (float sizeX, float sizeY)
	Sets the actual size of a node. More...
void	setAllocatedSize (Vector2 allocatedSize)
	Sets the allocated size of a node. More...
void	setArrangeTransform (Matrix3x3 transform)
	Sets the arrange transform. More...
void	setAutoHeight ()
	Sets a node to determine its height automatically. More...
void	setAutoSize ()
	Sets a node to determine its width and height automatically. More...
void	setAutoWidth ()
	Sets a node to determine its width automatically. More...
void	setBackgroundBrush (BrushSharedPtr value)
	Sets value of BackgroundBrushProperty. More...
void	setClearColorAllowed (bool enabled)
	Sets clear color allowed. More...
void	setCompositionBrush (BrushSharedPtr value)
	Sets value of CompositionBrushProperty. More...
void	setCompositionRequested (bool enabled)
	Turns the composition request on or off. More...
void	setCompositionRequiresAlpha (bool enabled)
	Turns the composition alpha requirement on or off. More...
void	setCompositionRequiresDepth (bool enabled)
	Turns the composition depth requirement on or off. More...
void	setCompositionRequiresStencil (bool enabled)
	Turns the composition stencil requirement on or off. More...
void	setDesiredSize (Vector2 desiredSize)
	Sets the desired size of a node. More...
void	setEffectPrefab (NodeEffectPrefab2DSharedPtr value)
	Sets the value of EffectPrefabProperty. More...
void	setForegroundBrush (BrushSharedPtr value)
	Sets value of ForegroundBrushProperty. More...
void	setForegroundIsTranslucent (bool enabled)
	Sets the status of the foreground translucency. More...
void	setForegroundTranslucencyRequested (bool enabled)
	Enables or disables the foreground translucency request. More...
KZ_DEPRECATED void	setLayoutSize (float width, float height)
	Sets size properties of the node. More...
void	setLayoutTransformation (SRTValue2D value)
	Sets the value of the LayoutTransformationProperty. More...
void	setPotentialCompositionBitViewport (bool enabled)
	Turns the potential composition flag for the viewport on or off. More...
void	setRenderTarget (TextureSharedPtr texture)
	Sets value of RenderTargetProperty. More...
void	setRenderTransformation (SRTValue2D value)
	Sets the value of RenderTransformationProperty. More...
void	setRequiresLocalTransformationScope (bool enabled)
	Sets the local transformation scope requirement. More...
void	setRequiresTilingUpdate (bool enabled)
	Sets the tiling update requirement. More...
void	setSize (float width, float height)
	Sets the size of a node. More...
void	setSize (Vector2 size)
	Sets the size of a node. More...
void	transform ()
	Transforms a 2D node. More...
VisitorResult	visitAbstractChildOverride (const Visitor &visitor, VisitorOrder order) override
	Node::visitAbstractChild implementation. More...
	~Node2D () override
Public Member Functions inherited from kanzi::Node
ResourceSharedPtr	acquireResource (const ResourceID &id) const
	Acquires a resource from the node or the node's closest ancestor having the resource id in the resource dictionary. More...
template<typename T >
shared_ptr< T >	acquireResource (const ResourceID &id) const
	Acquires a resource from the node or the node's closest ancestor having the resource id in the resource dictionary, and casts the resource to given type. More...
ResourceManager::AcquireTaskSharedPtr	acquireResourceAsync (const ResourceID &key, ResourceManager::AsyncAcquireFinishedCallback func) const
	Posts an asynchronous task to acquire a resource. More...
ResourceDictionarySharedPtr	acquireResourceDictionary ()
	Gets a resource dictionary of a node. More...
void	addAnonymousResource (ResourceSharedPtr resource)
	Adds alias resource to an object node. More...
void	addInputManipulator (InputManipulatorBaseSharedPtr inputManipulator)
	Transfers the ownership and attaches an input manipulator to an object node. More...
template<typename TMessageType , typename TClass , typename TClassMethod >
MessageSubscriptionToken	addMessageFilter (TMessageType &messageType, TClass *messageHandlerObject, TClassMethod method)
	Adds a message filter where the filter is a method that is invoked on an object. More...
template<typename TMessageType >
MessageSubscriptionToken	addMessageFilter (const TMessageType &messageType, typename TMessageType::FunctionType function)
	Adds a message filter where the filter is a function. More...
template<typename TMessageType , typename TClass , typename TClassMethod >
MessageSubscriptionToken	addMessageHandler (TMessageType &messageType, TClass *messageHandlerObject, TClassMethod method)
	Adds a message handler where the handler is a method that is invoked on an object. More...
template<typename TMessageType >
MessageSubscriptionToken	addMessageHandler (const TMessageType &messageType, typename TMessageType::FunctionType function)
	Adds a message handler where the handler is a function. More...
template<typename TMessageType >
MessageSubscriptionToken	addMessageHandler (const TMessageType &messageType, typename TMessageType::FunctionType function, Node *messageSourceFilter)
	Adds a message handler where the handler is a function and you explicitly define the accepted source. More...
void	addNodeComponent (NodeComponentSharedPtr nodeComponent)
	Transfers the ownership of a node component to an object node. More...
void	addNodeComponentWithOwner (NodeComponentSharedPtr nodeComponent, const void *owner)
	Transfers the ownership of a node component to an object node and sets the owner of the node component. More...
void	addNodeReference (AbstractPropertyType propertyType, AbstractNodeReference *reference)
void	addResource (const ResourceID &resourceId, string_view resourceUrl)
	Adds a resource manager resource to an object node. If resourceID already exists in object, removes the existing entry. If resourceURL is NULL, error is thrown. */. More...
void	addResourceDictionary (ResourceDictionarySharedPtr resourceDictionary)
	Adds a nested resource dictionary to the resource dictionary of a node. More...
void	addResourceReference (AbstractPropertyType propertyType, AbstractResourceReference *reference)
	This is a helper for automatic resource tracking in ResourceReference. More...
template<typename TMessageType >
MessageSubscriptionToken	addTunnelingFilter (const TMessageType &messageType, typename TMessageType::FunctionType function)
	Adds a message filter where the filter is a function. More...
template<typename TMessageType , typename TClass , typename TClassMethod >
MessageSubscriptionToken	addTunnelingFilter (const TMessageType &messageType, TClass *messageHandlerObject, TClassMethod method)
	Adds a message filter where the filter is a method that is invoked on an object. More...
template<typename TMessageType >
MessageSubscriptionToken	addTunnelingHandler (const TMessageType &messageType, typename TMessageType::FunctionType function, Node *messageSourceFilter)
	Adds a message handler where the handler is a function and you explicitly define the accepted source. More...
AppliedStyleEntrySharedPtr	applyManualStyle (StyleSharedPtr style)
	Applies a style to an object node. More...
AppliedStyleEntrySharedPtr	applyStyle (StyleSharedPtr style)
	Applies a style to an object node. More...
void	applyStyles ()
	Apply all styles for an object node. More...
void	applyStylesRecursive ()
	Applies styles recursively. More...
void	attachRecursive ()
	Attaches an object node and its children recursively. More...
InputManipulatorConstIterator	beginInputManipulators () const
NodeComponentConstIterator	beginNodeComponents () const
void	clearChangeFlag (uint32_t flag)
	Clears a change flag. More...
void	clearChildChangeFlag (uint32_t flag)
	Clears a child change flag. More...
bool	containsResource (const ResourceID &resourceID) const
	Returns if object node resource dictionary contains the resource with given ID. Resource can be any type: style, alias or resource manager resource. */. More...
BindingLookupContextPtr	createLookupContext (NodeSharedPtr templateRoot)
	Creates a lookup context for the node. More...
void	detachRecursive ()
	Detaches a node and its descendants. More...
void	dispatchAbstractMessage (const AbstractMessageType &messageType, MessageArguments &messageArguments)
	Dispatches a message from this node with specified arguments. More...
template<typename TArgumentsType >
void	dispatchMessage (const MessageType< TArgumentsType > &messageType, typename MessageType< TArgumentsType >::ArgumentsType &messageArguments)
	Dispatches a message from this node with specified arguments. More...
InputManipulatorConstIterator	endInputManipulators () const
NodeComponentConstIterator	endNodeComponents () const
template<typename TNodeType >
shared_ptr< TNodeType >	findAbstractChild (string_view name)
	Find a child by name. Finds direct children as well as children connected indirectly for example Viewport->Scene. More...
optional< string >	findResourceURL (const ResourceID &resourceId) const
	Tries to find Resource URL for Resource ID from this node. More...
template<typename DataType >
DataType	getAbstractProperty (AbstractPropertyType abstractPropertyType) const
uint32_t	getChangeFlags () const
	Get current change flags. More...
uint32_t	getChildChangeFlags () const
	Get current child change flags. More...
FocusManager *	getFocusManager () const
	Returns the Focus Manager associated with the Screen node to which this node belongs. More...
FocusScope *	getFocusScopeInfo () const
	Returns the information about the focus scope for a node. More...
InputManager *	getInputManager () const
	Returns the Input Manager associated with the Screen node to which this node belongs. More...
AbstractPropertyTypeDescriptor::ValueSource *	getNodeFinalValueSource (AbstractPropertyTypeDescriptor &descriptor) const
template<typename DataType >
optional< typename PropertyType< DataType >::DataType >	getOptionalAbstractProperty (AbstractPropertyType abstractPropertyType) const
template<typename DataType >
optional< typename PropertyType< DataType >::Traits::ReturnType >	getOptionalProperty (const PropertyType< DataType > &propertyType) const
	Evaluates the property value in the same way as the overload above but does not default to the value in property metadata if there are no inputs to the property value. More...
Node *	getParent () const
	Returns the parent of the node. More...
template<typename DataType >
PropertyType< DataType >::Traits::ReturnType	getProperty (const PropertyType< DataType > &propertyType) const
	Returns the current value of a property. More...
ResourceDictionarySharedPtr	getResourceDictionary () const
	If a node has a resource dictionary, returns the resource dictionary of that node. More...
Screen *	getScreen () const
	Returns the Screen node to which this node belongs. More...
NodeSharedPtr	getTemplateRoot () const
	Gets the template root of this node. More...
void	invalidateArrange ()
	Invalidates arrange. More...
void	invalidateDraw ()
	Invalidates draw flag for the node. More...
void	invalidateFinalTransform ()
	Invalidates final transform for node. More...
void	invalidateMeasure ()
	Invalidates measure for the node. More...
void	invalidateRender ()
	Invalidates render for node. More...
bool	isAnyChangeFlagSet (uint32_t flag) const
	Checks if any of given flags is set. More...
bool	isAnyChildChangeFlagSet (uint32_t flag) const
	Checks if any child change flags (corresponding to given mask) are set. More...
bool	isAttached () const
	Returns true if the node is attached to a screen or one of its descendants. More...
bool	isAttaching () const
	Returns true if node is in the process of attaching, false otherwise. More...
bool	isChangeFlagSet (uint32_t flag) const
	Checks if a change flag is set. More...
bool	isChildChangeFlagSet (uint32_t flag) const
	Checks if child change flags match. More...
bool	isDetaching () const
	Returns true if the node currently detaching. More...
bool	isEffectivelyFocusable () const
	Returns whether a node is focusable. More...
bool	isEffectivelyVisible () const
	Returns whether a node and its ancestor nodes are visible. More...
bool	isInitialized () const
	Returns true if initialize() has been called, false otherwise. More...
bool	isInvalidArrange () const
	Checks if the node needs arrange. More...
bool	isInvalidDraw ()
	Tells if node draw flag is invalid. More...
bool	isInvalidFinalTransform () const
	Tells if final transform flag is invalid for node. More...
bool	isInvalidMeasure () const
	Check if the node needs measure. More...
bool	isInvalidRender () const
	Returns if node render flag is invalid. More...
bool	isNamed (string_view name) const
	KZ_METACLASS_PROPERTY_TYPE (FontFamilyProperty)
template<typename Type >
shared_ptr< Type >	lookupNode (string_view pathOrKey)
	Returns a node of specified type by looking it up with specified path or alias. More...
template<typename Type >
shared_ptr< Type >	lookupNodeComponent (string_view name)
	Returns a node component of specified type by looking it up with specified name. More...
Node *	lookupNodeRaw (string_view relativePath)
	Get an object node by another node and a relative path. More...
ObjectSharedPtr	lookupObject (string_view relativePath)
	Lookup for an object from a node. More...
template<typename Type >
shared_ptr< Type >	lookupObject (string_view relativePath)
	Lookup for an object from a node. More...
tuple< NodeSharedPtr, AbstractPropertyType >	lookupObjectForStateManager (string_view relativePath)
	Lookup for an node and possible object from within the node for state manager. More...
void	notifyResourceDictionaryModified ()
	Forces the re-evaluation of resource IDs in a node tree. More...
void	removeAnonymousResource (const Resource &resource)
	Removes anonymous resource from object node resources. More...
void	removeInputManipulator (InputManipulator &inputManipulator)
	Removes the ownership and detaches an input manipulator from an object node. More...
void	removeKZBData (flat_set< AbstractPropertyType > *keepProperties)
	Destroys all object node data loaded from KZB, including properties, bindings, node components, resources etc. More...
void	removeKZBData ()
	Destroys all object node data loaded from KZB. More...
void	removeMessageHandler (MessageSubscriptionToken token)
	Removes a message subscription. More...
void	removeNodeComponent (NodeComponent &nodeComponent)
	Removes the ownership of a node component from an object node. More...
void	removeNodeComponentWithOwner (const void *owner)
	Removes all bindings with the specified owner. More...
void	removeNodeReference (const AbstractNodeReference &reference)
void	removeResource (const ResourceID &resourceId)
	Removes a resource with given ID from object node resource dictionary. Does not do anything if resourceID was not found. */. More...
void	removeResourceReference (const AbstractResourceReference &reference)
	This is a helper for automatic resource tracking in ResourceReference. More...
void	setChangeFlag (uint32_t flag)
	Sets a change flag. More...
void	setChildChangeFlag (uint32_t flag)
	Sets a child change flag. More...
void	setParent (Node *parent)
	Kanzi uses this method internally to set the parent of a node. More...
void	setResourceDictionary (ResourceDictionarySharedPtr resourceDictionary)
	Replaces the resource dictionary of a node. More...
void	setScreen (Screen *screen)
	Sets the Screen node to which this node belongs. More...
void	setTemplateRoot (NodeSharedPtr templateRoot)
	Sets the template root of this node. More...
ResourceSharedPtr	tryAcquireResource (const ResourceID &id) const
	Acquires a resource from the node or the node's closest ancestor having the resource id in the resource dictionary. More...
template<typename T >
shared_ptr< T >	tryAcquireResource (const ResourceID &id) const
	Acquires a resource from the node or the node's closest ancestor having the resource and casts the resource to given type. More...
KZ_DEPRECATED NodeSharedPtr	trySetActiveFocus ()
	Tries to move the focus on this node. More...
NodeSharedPtr	trySetFocus ()
	Tries to move the focus to this node. More...
NodeSharedPtr	trySetFocus (FocusFallback fallbackOption)
	Tries to set the focus to the newFocusNode using FocusManager::trySetFocus() but with a fallback behavior in case the node does not gain focus. More...
void	unapplyStyle (AppliedStyleEntrySharedPtr appliedStyleEntry)
	Unapplies a style from an object node. More...
void	unapplyStyles ()
	Unapplies and removes all applied styles. More...
void	unapplyStylesRecursive ()
	Unapplies styles recursively. More...
void	validateArrange ()
	Validates arrange. More...
void	validateDraw ()
	Validates draw flags for the node. More...
void	validateDrawForChildrenRecursive ()
	Recursively validates draw for the children from this 2D node onwards. More...
void	validateMeasure ()
	Validates measure for the node. More...
void	validateRender ()
	Validates render for node. More...
VisitorResult	visit (const Visitor &visitor, VisitorOrder order)
	Visits a node and its descendants. More...
VisitorResult	visitDescendants (const Visitor &visitor, VisitorOrder order)
	Visits the descendants of a node. More...
	~Node () override
	Destructor. More...
string	getName () const
	Gets the value of NameProperty. More...
void	setName (string_view value)
	Sets the value of NameProperty. More...
string	getPath () const
	Gets the value of PathProperty. More...
void	setPath (string value)
	Sets the value of PathProperty. More...
string	getLocale () const
	Gets the value of LocaleProperty. More...
void	setLocale (string value)
	Sets the value of LocaleProperty. More...
bool	isHitTestable () const
	Gets the value of HitTestableProperty. More...
void	setHitTestable (bool value)
	Sets the value of HitTestableProperty. More...
bool	isHitTestableContainer () const
	Gets the value of HitTestableContainerProperty. More...
void	setHitTestableContainer (bool value)
	Sets the value of HitTestableContainerProperty. More...
bool	isVisible () const
	Gets the value of VisibleProperty. More...
void	setVisible (bool value)
	Sets the value of VisibleProperty. More...
bool	isEnabled () const
	Returns the value of the EnabledProperty. More...
void	setEnabled (bool value)
	Sets the value of the EnabledProperty. More...
bool	isEffectivelyEnabled () const
	Returns the value of EffectivelyEnabledProperty. More...
bool	isFocusable () const
	Gets the value of the FocusableProperty. More...
void	setFocusable (bool value)
	Sets the value of the FocusableProperty. More...
bool	isFocused () const
	Gets the value of the FocusedProperty. More...
void	setFocused (bool value)
	Sets the value of the FocusedProperty. More...
FocusState	getFocusState () const
	Gets the value of the FocusStateProperty. More...
void	setFocusState (FocusState state)
	Sets the value of the FocusStateProperty. More...
FontFamilySharedPtr	getFontFamily () const
	Gets the font family the node uses. More...
void	setFontFamily (FontFamilySharedPtr value)
	Sets the font family the node uses. More...
float	getVisibleAmountInParent () const
	Gets the value of VisibleAmountInParentProperty. More...
void	setVisibleAmountInParent (float value)
	Sets the value of VisibleAmountInParentProperty. More...
float	getProjection2DTo3DScale () const
	Gets the value of Projection2DTo3DScaleProperty. More...
void	setProjection2DTo3DScale (float value)
	Sets the value of Projection2DTo3DScaleProperty. More...
ResourceSharedPtr	getStyle () const
	Gets the value of StyleProperty. More...
void	setStyle (ResourceSharedPtr value)
	Sets the value of StyleProperty. More...
ResourceSharedPtr	getStateManager () const
	Gets the value of StateManagerProperty. More...
void	setStateManager (ResourceSharedPtr value)
	Sets the value of StateManagerProperty. More...
float	getWidth () const
	Gets the value of WidthProperty. More...
void	setWidth (float value)
	Sets the value of WidthProperty. More...
float	getHeight () const
	Gets the value of HeightProperty. More...
void	setHeight (float value)
	Sets the value of HeightProperty. More...
float	getDepth () const
	Gets the value of DepthProperty. More...
void	setDepth (float value)
	Sets the value of DepthProperty. More...
float	getActualWidth () const
	Gets the value of ActualWidthProperty. More...
void	setActualWidth (float value)
	Sets the value of ActualWidthProperty. More...
float	getActualHeight () const
	Gets the value of ActualHeightProperty. More...
void	setActualHeight (float value)
	Sets the value of ActualHeightProperty. More...
float	getActualDepth () const
	Gets the value of ActualDepthProperty. More...
void	setActualDepth (float value)
	Sets the value of ActualDepthProperty. More...
Node::HorizontalAlignment	getHorizontalAlignment () const
	Gets the value of HorizontalAlignmentProperty. More...
void	setHorizontalAlignment (Node::HorizontalAlignment value)
	Sets the value of HorizontalAlignmentProperty. More...
Node::VerticalAlignment	getVerticalAlignment () const
	Gets the value of VerticalAlignmentProperty. More...
void	setVerticalAlignment (Node::VerticalAlignment value)
	Sets the value of VerticalAlignmentProperty. More...
Node::DepthAlignment	getDepthAlignment () const
	Gets the value of DepthAlignmentProperty. More...
void	setDepthAlignment (Node::DepthAlignment value)
	Sets the value of DepthAlignmentProperty. More...
Vector2	getHorizontalMargin () const
	Gets the value of HorizontalMarginProperty. More...
void	setHorizontalMargin (Vector2 value)
	Sets the value of HorizontalMarginProperty. More...
Vector2	getVerticalMargin () const
	Gets the value of VerticalMarginProperty. More...
void	setVerticalMargin (Vector2 value)
	Sets the value of VerticalMarginProperty. More...
Vector2	getDepthMargin () const
	Gets the value of DepthMarginProperty. More...
void	setDepthMargin (Vector2 value)
	Sets the value of DepthMarginProperty. More...
Node::ContentStretch	getContentStretch () const
	Gets the value of ContentStretchProperty. More...
void	setContentStretch (Node::ContentStretch value)
	Sets the value of ContentStretchProperty. More...
float	getOpacity () const
	Gets the value of OpacityProperty. More...
void	setOpacity (float value)
	Sets the value of OpacityProperty. More...
bool	isHover () const
	Returns whether the node has HoverProperty set to true. More...
bool	isClipChildren () const
	Gets the value of ClipChildrenProperty. More...
void	setClipChildren (bool value)
	Sets the value of ClipChildrenProperty. More...
Public Member Functions inherited from kanzi::Object
AppliedStyleEntrySharedPtr	applyObjectStyle (kanzi::StyleSharedPtr style)
	Applies a style to an object. More...
void	applyObjectStyles ()
	Apply all styles for an object node. More...
Domain *	getDomain () const
	Returns the domain the object belongs to. More...
const Metaclass *	getDynamicMetaclass () const override
	Returns the metaclass of the dynamic type of the object. More...
MainLoopScheduler *	getMainLoopScheduler () const
	Returns the MainLoopScheduler instance of the associated Domain. More...
detail::MessageDispatcher *	getMessageDispatcher () const
	Returns the message dispatcher of the object. More...
ResourceManager *	getResourceManager () const
	Returns the resource manager of the object. More...
ScriptingContextSharedPtr	getScriptingContext () const
	Gets the scripting context of the object. More...
	Object (Domain *domain)
void	setScriptingContext (ScriptingContextSharedPtr context)
	Sets the scripting context of the object. More...
void	unapplyObjectStyle (AppliedStyleEntrySharedPtr appliedStyleEntry)
void	unapplyObjectStyles ()
	Unapplies and removes all applied styles. More...
	~Object () override
Public Member Functions inherited from kanzi::MetaObject
bool	isTypeOf (const Metaclass *objectType) const
	Determines if the type of this object is the given type or derived from it. More...
virtual	~MetaObject ()
Public Member Functions inherited from kanzi::PropertyObject
template<typename DataType >
void	addPropertyModifier (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Descriptor::ModifierCallback callback, void *owner)
template<typename DataType >
void	addPropertyModifierWithoutNotifyingHandlers (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Descriptor::ModifierCallback callback, void *owner)
	Adds a property modifier without notifying handlers. More...
template<typename DataType >
void	addPropertyNotificationHandler (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Descriptor::NotificationCallback callback, void *owner)
template<typename DataType >
void	addPropertyValueSource (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Descriptor::TypedValueSource *valueSource, PropertyValuePrecedence precedence, void *ownerPointer)
template<typename DataType >
void	addPropertyValueSource (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Descriptor::TypedValueSource *valueSource, PropertyValuePrecedence precedence, AbstractPropertyTypeDescriptor::ValueSourceOwner *owner)
PropertyStorageContainer::iterator	beginPropertyStorage ()
	Returns the begin iterator to the internal property storage container. More...
PropertyStorageContainer::const_iterator	beginPropertyStorage () const
	Returns the begin iterator to the internal property storage container. More...
void	clearPropertyFlag (AbstractPropertyType propertyType, uint32_t flag)
void	copyLocalValue (const PropertyObject &other, AbstractPropertyType propertyType)
	Copies local value of single property from another object. More...
void	copyLocalValues (const PropertyObject &other)
	Copies all local values from another object. More...
PropertyStorageContainer::iterator	endPropertyStorage ()
	Returns the end iterator to the internal property storage container. More...
PropertyStorageContainer::const_iterator	endPropertyStorage () const
	Returns the end iterator to the internal property storage container. More...
template<typename DataType >
PropertyType< DataType >::Traits::ReturnType	getAbstractProperty (AbstractPropertyType abstractPropertyType) const
template<typename DataType >
PropertyType< DataType >::Traits::ReturnType	getAbstractPropertyBase (AbstractPropertyType abstractPropertyType) const
template<typename DataType >
optional< typename PropertyType< DataType >::Traits::ReturnType >	getOptionalAbstractProperty (AbstractPropertyType abstractPropertyType) const
template<typename DataType >
optional< typename PropertyType< DataType >::Traits::ReturnType >	getOptionalProperty (const PropertyType< DataType > &propertyType) const
	Evaluates the property value in the same way as the overload above but does not default to the value in property metadata if there are no inputs to the property value. More...
template<typename DataType >
optional< typename PropertyType< DataType >::Traits::ReturnType >	getOptionalPropertyBase (const PropertyType< DataType > &propertyType) const
	Returns the current value of a property disregarding modifiers, but does not default to the value in property metadata if there are no inputs to the property value. More...
template<typename DataType >
PropertyType< DataType >::Traits::ReturnType	getProperty (const PropertyType< DataType > &propertyType) const
	Returns the current value of a property type. More...
template<typename DataType >
PropertyType< DataType >::Traits::ReturnType	getPropertyBase (const PropertyType< DataType > &propertyType) const
	Returns the current value of a property disregarding modifiers. More...
template<typename DataType >
size_t	getPropertyNotificationHandlerCount (const PropertyType< DataType > &propertyType) const
	Gets number of current notification handlers for given property type. More...
bool	hasBaseValue (AbstractPropertyType propertyType) const
	Evaluates whether there are any inputs into the property value, disregarding modifiers. More...
bool	hasLocalValue (AbstractPropertyType propertyType) const
	Evaluates whether there is a local value set for the property. More...
bool	hasNonClassValue (AbstractPropertyType propertyType) const
	Evaluates whether there is a value of any precedence higher than class default value set for the property. More...
bool	hasValue (AbstractPropertyType propertyType) const
	Evaluates whether there are any inputs into the property value. More...
bool	isPropertyFlagSet (AbstractPropertyType propertyType, uint32_t flag) const
	PropertyObject ()
void	removeKzbProperties (flat_set< AbstractPropertyType > *keepProperties)
	Remove all KZB properties that are not included in a given set. More...
void	removeKzbProperties ()
	Remove all KZB properties. More...
template<typename DataType >
void	removeLocalPropertyValueSource (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Descriptor::TypedValueSource *valueSource, void *ownerPointer)
void	removeLocalValue (AbstractPropertyType propertyType)
	Removes the local value associated with the property. More...
template<typename DataType >
void	removePropertyModifier (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Descriptor::ModifierCallback callback, void *owner)
template<typename DataType >
void	removePropertyNotificationHandler (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Descriptor::NotificationCallback callback, void *owner)
template<typename DataType >
void	removePropertyValueSource (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Descriptor::TypedValueSource *valueSource, void *ownerPointer)
template<typename DataType >
void	setAbstractProperty (AbstractPropertyType abstractPropertyType, typename PropertyType< DataType >::Traits::ParameterType value)
template<typename DataType >
void	setProperty (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Traits::ParameterType value)
	Sets the local value of a property type. More...
void	setPropertyFlag (AbstractPropertyType propertyType, uint32_t flag)
KZ_DEPRECATED void	validatePropertyModifiers (AbstractPropertyType propertyType)
	Validates property modifiers and notifies handlers. More...
void	validatePropertyModifiersAndNotifyHandlers (AbstractPropertyType propertyType)
	Validates property modifiers and notifies handlers. More...
virtual	~PropertyObject ()
Public Member Functions inherited from kanzi::BindingHostConceptImpl< Node >
void	addBindingRuntime (AbstractBindingRuntimeSharedPtr entry, shared_ptr< void > owner)
	Adds an already-created binding runtime to this binding host. More...
BindingRuntimeHandle	setBinding (AbstractBindingSharedPtr binding, shared_ptr< Node > templateRoot, AbstractPropertyType propertyType, PropertyField field, PropertyValuePrecedence precedence)
	Wrapper for setting a binding. More...
BindingRuntimeHandle	setBinding (AbstractBindingSharedPtr binding, shared_ptr< Node > templateRoot, AbstractPropertyType propertyType, PropertyField field)
	Wrapper for setting a binding. More...
BindingRuntimeHandle	setBinding (AbstractBindingSharedPtr binding, shared_ptr< Node > templateRoot, AbstractPropertyType propertyType, PropertyValuePrecedence precedence)
	Wrapper for setting a binding. More...
BindingRuntimeHandle	setBinding (AbstractBindingSharedPtr binding, AbstractPropertyType propertyType, PropertyField field, PropertyValuePrecedence precedence)
	Wrapper for setting a binding. More...
BindingRuntimeHandle	setBinding (AbstractBindingSharedPtr binding, AbstractPropertyType propertyType, PropertyField field)
	Wrapper for setting a binding. More...
BindingRuntimeHandle	setBinding (AbstractBindingSharedPtr binding, AbstractPropertyType propertyType, PropertyValuePrecedence precedence)
	Wrapper for setting a binding. More...
BindingRuntimeHandle	setBinding (AbstractBindingSharedPtr binding, AbstractPropertyType propertyType)
	Wrapper for setting a binding. More...
BindingRuntimeHandle	setBinding (AbstractBindingSharedPtr binding, shared_ptr< Node > templateRoot)
	Sets a binding with no target. More...
BindingRuntimeHandle	setBinding (AbstractBindingSharedPtr binding)
	Wrapper for setting a binding with no target. More...
BindingRuntimeHandle	setBindingWithOwner (AbstractBindingSharedPtr binding, shared_ptr< void > owner, shared_ptr< Node > templateRoot, AbstractPropertyType propertyType, PropertyField field, PropertyValuePrecedence precedence)
	Sets a binding to a certain property. More...
BindingRuntimeHandle	setBindingWithOwner (AbstractBindingSharedPtr binding, shared_ptr< void > owner, AbstractPropertyType propertyType, PropertyField field, PropertyValuePrecedence precedence)
	Wrapper for setting a binding with owner. More...
BindingRuntimeHandle	setBindingWithOwner (AbstractBindingSharedPtr binding, shared_ptr< void > owner, AbstractPropertyType propertyType)
	Wrapper for setting a binding with owner. More...
BindingRuntimeHandle	setBindingWithOwner (AbstractBindingSharedPtr binding, shared_ptr< void > owner, shared_ptr< Node > templateRoot)
	Sets a binding with no target. More...
BindingRuntimeHandle	setBindingWithOwner (AbstractBindingSharedPtr binding, shared_ptr< void > owner)
	Wrapper for setting a binding with no target. More...
BindingRuntimeHandle	setModifierBinding (AbstractBindingSharedPtr binding, shared_ptr< Node > templateRoot, AbstractPropertyType propertyType, PropertyField field)
	Wrapper for setting a modifier binding. More...
BindingRuntimeHandle	setModifierBinding (AbstractBindingSharedPtr binding, AbstractPropertyType propertyType, PropertyField field)
	Wrapper for setting a modifier binding. More...
BindingRuntimeHandle	setModifierBinding (AbstractBindingSharedPtr binding, AbstractPropertyType propertyType)
	Wrapper for setting a modifier binding. More...
BindingRuntimeHandle	setModifierBindingWithOwner (AbstractBindingSharedPtr binding, shared_ptr< void > owner, shared_ptr< Node > templateRoot, AbstractPropertyType propertyType, PropertyField field)
	Sets a modifier binding. More...
BindingRuntimeHandle	setModifierBindingWithOwner (AbstractBindingSharedPtr binding, shared_ptr< void > owner, AbstractPropertyType propertyType, PropertyField field)
	Wrapper for setting a modifier binding. More...
BindingRuntimeHandle	setModifierBindingWithOwner (AbstractBindingSharedPtr binding, shared_ptr< void > owner, AbstractPropertyType propertyType)
	Wrapper for setting a modifier binding. More...
Public Member Functions inherited from kanzi::BindingHostConcept
BindingRuntimeConstIterator	beginBindingRuntimes () const
	Returns an iterator to the beginning of binding runtimes. More...
BindingRuntimeConstIterator	endBindingRuntimes () const
	Returns an iterator to the end of binding runtimes. More...
AbstractBindingRuntimeSharedPtr	getBindingRuntime (size_t idx)
	Gets binding by index. More...
size_t	getBindingRuntimeCount () const
	Gets the number of binding runtimes added to this node. More...
void	removeAllBindings ()
	Removes all binding runtimes. More...
void	removeBinding (BindingRuntimeHandle &bindingRuntime)
	Removes a binding runtime added earlier. More...
void	removeBindingsWithOwner (shared_ptr< void > owner)
	Removes all binding runtimes with the specified owner. More...

Static Public Member Functions
static bool	isUnboundedLayoutSize (Vector2 layoutSize)
	Returns whether a layout size is an unbound layout size. More...
static bool	isValidLayoutSize (Vector2 size)
	Returns whether a size is a valid layout size. More...
static float	layoutUp ()
	Returns the direction to which the y axis grows for this node type. More...
static PropertyTypeEditorInfoSharedPtr	makeEditorInfo ()
static Vector2	replaceUnboundedLayoutSize (Vector2 layoutSize, Vector2 resetSize)
	Replaces any element of a layout size with appropriate element of the reset size if it is unbounded and returns the size. More...
static Vector2	replaceUnboundedLayoutSizeWithZero (Vector2 layoutSize)
	Replaces any element of a layout size with zero if it is unbounded and returns the size. More...
static Vector2	unboundedLayoutSize ()
	Returns an unbound layout size. More...
Static Public Member Functions inherited from kanzi::Node
static bool	isUnboundedLayoutValue (float layoutValue)
	Indicates whether a value is an unbound layout value. More...
static bool	isValidLayoutValue (float value)
	Indicates whether a value is valid layout value. More...
static float	replaceUnboundedLayoutValue (float layoutValue, float resetValue)
	Replaces layout value with the specified value if it is unbounded and returns it. More...
static float	replaceUnboundedLayoutValueWithZero (float layoutValue)
	Replaces layout value with zero if it is unbounded layout value and returns it. More...
static float	unboundedLayoutValue ()
	Returns an unbounded layout value. More...
Static Public Member Functions inherited from kanzi::Object
static const Metaclass *	getStaticMetaclass ()
	Returns the metaclass of Object class. More...
static PropertyTypeEditorInfoSharedPtr	makeEditorInfo ()
	Default implementation that returns empty editor info. More...
Static Public Member Functions inherited from kanzi::MetaObject
static const Metaclass *	getStaticMetaclass ()
	Returns the metaclass of Object class. More...
static PropertyTypeEditorInfoSharedPtr	makeEditorInfo ()
	Default implementation that returns empty editor info. More...

Protected Types
enum	Node2DFlags {   AllowClear, AllowRenderChildren, AllowRenderSelf, ForegroundIsTranslucent,   ForegroundTranslucencyRequested, RequiresBackgroundQuad, RequiresLocalTransformationScope, RequiresTilingUpdate,   Node2DFlagsBitCount }
	Different Node2D flags for bit set. More...
Protected Types inherited from kanzi::Object
typedef vector< AppliedStyleEntrySharedPtr >	AppliedStyleContainer
	Applied style container. More...

Protected Member Functions
NodeCompositor2D &	acquireCompositor ()
	Initializes and returns composition structure. More...
NodeVisual2D &	acquireVisual ()
	Initializes and returns visual structure. More...
Matrix3x3	applyCompositionForRenderSelf (Renderer3D &renderer, CompositionStack &compositionStack, const optional< Matrix3x3 > &baseTransform)
	Applies composition for rendering the node. More...
virtual void	arrangeOverride (Vector2 actualSize)
	Default implementation of Node2D arrange. More...
virtual void	arrangeRecursive (const Matrix3x3 &worldTransform, const Matrix3x3 &parentTransform, bool arrangeNeeded, bool transformChanged)
	Perform arrange recursively. More...
ClippingArea	calculateClippingArea (const Matrix3x3 &parentSpaceTransform) const
	Calculates clipping parameters. More...
optional< QuadDescription >	calculateContentStretch (Vector2 renderSize, Vector2 contentSize)
	Calculates content stretch. More...
bool	calculatePerspectiveTransformMatrices (int viewportWidth, int viewportHeight, Matrix4x4 &cameraMatrix, Matrix4x4 &projectionMatrix) const
	Calculate perspective transform matrices. More...
void	calculateTransformedBoundingArea (const Matrix3x3 &transform, Vector2 sizeIn)
	Calculates new transformed bounding area. More...
void	clearCompositionTarget (Renderer3D &renderer, CompositionStack &compositionStack)
	Clears the composition target of a 2D node. More...
Vector2	getDesiredSizeAxisAlignedBoundingBoxMaximum () const
	Gets the desired size axis aligned bounding box maximum. More...
Vector2	getDesiredSizeAxisAlignedBoundingBoxMinimum () const
	Gets the desired size axis aligned bounding box minimum. More...
optional< float >	getUserAspectRatio () const
	Gets the value of the aspect ratio property assigned to a node. More...
optional< float >	getUserHeight () const
	Gets the value of the layout height property assigned to a node. More...
optional< float >	getUserWidth () const
	Gets the value of the layout width property assigned to a node. More...
void	initialize ()
	Node2D -specific initialization. More...
bool	isEmptyActualSize () const
	Returns whether the size of the node is empty or invalid. More...
bool	isForegroundHintOpaque () const
	Indicates whether foreground hint is opaque. More...
bool	isForegroundHintTranslucent () const
	Indicates whether foreground hint is translucent. More...
virtual Vector2	measureOverride (Vector2 availableSize)
	Default implementation of Node2D size calculation. More...
	Node2D (Domain *domain, string_view name)
	Constructor. More...
void	onAttached () override
	Node::onDetached() implementation. More...
void	onDetached () override
	Node::onDetached() implementation. More...
void	onNodePropertyChanged (AbstractPropertyType propertyType, PropertyNotificationReason reason) override
	Node::onNodePropertyChanged implementation. More...
virtual void	onTransform ()
	Node2D transform function. More...
unsigned int	performClipping (QuadDescription &backgroundQuad, optional< QuadDescription > &foregroundQuad, optional< QuadDescription > &effectQuad, unsigned int clippingResult)
	Performs rectangle clipping. More...
bool	pushLocalViewportArea (CompositionStack &compositionStack, const optional< Matrix3x3 > &baseTransform)
	Pushes local viewport and scissor area into composition stack if it is required. More...
void	renderBackground (Renderer3D &renderer, const CompositionStack &compositionStack, const Matrix3x3 &transform)
	Renders the background quad of a Node2D. More...
void	renderChildren (Renderer3D &renderer, CompositionStack &compositionStack, const optional< Matrix3x3 > &baseTransform)
	Renders all children of a Node2D. More...
void	renderForeground (Renderer3D &renderer, CompositionStack &compositionStack, const Matrix3x3 &transform)
	Renders the foreground of a Node2D. More...
virtual void	renderForegroundOverride (Renderer3D &renderer, CompositionStack &compositionStack, const Matrix3x3 &transform)
	Node-specific foreground render. More...
virtual void	renderOverride (Renderer3D &renderer, CompositionStack &compositionStack, const optional< Matrix3x3 > &baseTransform)
	Node-specific top-level render call. More...
void	renderRecursive (Renderer3D &renderer, CompositionStack &compositionStack, const optional< Matrix3x3 > &baseTransform)
	Renders a Node2D and then recursively all its children. More...
virtual void	renderSelfOverride (Renderer3D &renderer, CompositionStack &compositionStack, const optional< Matrix3x3 > &baseTransform)
	Node-specific rendering. More...
void	restoreResources () override
	Node::restoreResources() implementation. More...
void	setDesiredSizeAxisAlignedBoundingBoxMaximum (Vector2 size)
	Sets the desired size axis aligned bounding box maximum. More...
void	setDesiredSizeAxisAlignedBoundingBoxMaximum (float sizeX, float sizeY)
	Sets the desired size maximum. More...
void	setDesiredSizeAxisAlignedBoundingBoxMinimum (Vector2 size)
	Sets the desired size axis aligned bounding box minimum. More...
void	setDesiredSizeAxisAlignedBoundingBoxMinimum (float sizeX, float sizeY)
	Sets the desired size axis aligned bounding box minimum. More...
void	setEffect (NodeEffect2DSharedPtr value)
	Sets the value of EffectProperty. More...
void	setPartialArrangeTransform (Matrix3x3 transform)
	Sets partial arrange transform. More...
void	setRenderChildrenAllowed (bool enabled)
	Turn render children on or off. More...
void	setRenderSelfAllowed (bool enabled)
	Turn render self on or off. More...
void	setRenderType (RenderType renderType)
	Set render type. More...
void	setSecondPassDesiredSize (Vector2 size)
	Set second pass desired size. More...
void	updateContentTexture (TextureSharedPtr texture)
	Update content texture for the foreground brush. More...
void	updateFinalTransform (const Matrix3x3 &worldTransform, const Matrix3x3 &parentTransform)
	Updates the transformation status based on node properties and calculations in measure and arrange phases. More...
bool	updateRender (const Matrix3x3 &worldTransform, const Matrix3x3 &parentTransform, bool transformChanged)
	Validates a node for rendering. More...
virtual void	updateRenderOverride ()
	Node-specific updates done before render. More...
Protected Member Functions inherited from kanzi::Node
void	attach ()
	Attaches the object node. More...
void	detach ()
	Detaches the object node. More...
void	initialize ()
	Node-specific initialization. More...
	Node (Domain *domain, string_view name)
	Constructor. More...
void	notifyPropertyHandlers (PropertyStoragePtr &propertyStorage, PropertyNotificationReason reason) override
	Notifies all property handlers on a property storage. More...
virtual void	updateFocusScopeInfo (FocusScopePtr &nodeScopeInfo)
	Updates the overlay scope information that is attached to the root node of an overlay scope. More...
void	updatePropertiesForConnectedNode ()
	Invokes property notifications for inherited properties during node tree connections. More...
void	updatePropertiesForDisconnectedNode (Node *oldParent)
	Invokes property notifications for inherited properties during node tree disconnections. More...
void	updateResourceReferences ()
void	updateResourceReferences (AbstractPropertyType propertyType)
void	updateResourceReferencesRecursive ()
void	updateResourceReferencesRecursive (const ResourceID &resourceID)
Protected Member Functions inherited from kanzi::Object
void	initialize ()
void	onCopy (const Object &other)
Protected Member Functions inherited from kanzi::MetaObject
void	initialize ()
	MetaObject ()
Protected Member Functions inherited from kanzi::PropertyObject
AbstractPropertyTypeDescriptor::ValueSourceEntry *	acquireLocalValueSourceEntry (AbstractPropertyTypeDescriptor &descriptor, PropertyStoragePtr &propertyStorage)
	Acquires a local value source entry that is free for the assignment of a value. More...
AbstractPropertyTypeDescriptor::ModifierStorage *	acquireModifierStorage (AbstractPropertyTypeDescriptor &descriptor, AbstractPropertyTypeDescriptor::PropertyStorage &propertyStorage)
AbstractPropertyTypeDescriptor::NotificationStorage *	acquireNotificationStorage (AbstractPropertyTypeDescriptor &descriptor)
PropertyStoragePtr	acquirePropertyStorage (AbstractPropertyTypeDescriptor &descriptor)
template<typename DataType >
void	addPropertyModifierBase (const PropertyType< DataType > &propertyType, typename PropertyType< DataType >::Descriptor::ModifierCallback callback, void *owner, bool notify)
	Adds a property modifier entry to the property modifier stack and validates them. More...
void	addPropertyValueSource (AbstractPropertyTypeDescriptor &descriptor, AbstractPropertyTypeDescriptor::ValueSource *valueSource, PropertyValuePrecedence precedence, void *ownerPointer)
	Internally adds a property value source. More...
void	addPropertyValueSource (AbstractPropertyTypeDescriptor &descriptor, AbstractPropertyTypeDescriptor::ValueSource *valueSource, PropertyValuePrecedence precedence, AbstractPropertyTypeDescriptor::ValueSourceOwner *owner)
	Internally adds a property value source. More...
AbstractPropertyTypeDescriptor::ValueSourceEntry *	constructLocalValueSourceEntry (AbstractPropertyTypeDescriptor &descriptor, AbstractPropertyTypeDescriptor::PropertyStorage &propertyStorage)
PropertyStoragePtr	constructPropertyStorage (AbstractPropertyTypeDescriptor &descriptor)
void	copyLocalValue (const AbstractPropertyTypeDescriptor::PropertyStorage &otherPropertyStorage)
	Copy local value from property storage. More...
AbstractPropertyTypeDescriptor::ModifierStorage *	findModifierStorage (AbstractPropertyTypeDescriptor &descriptor)
AbstractPropertyTypeDescriptor::NotificationStorage *	findNotificationStorage (AbstractPropertyTypeDescriptor &descriptor) const
AbstractPropertyTypeDescriptor::PropertyStorage *	findPropertyStorage (AbstractPropertyTypeDescriptor &descriptor) const
	Gets the property storage for given property type descriptor. More...
PropertyStoragePtr	findPropertyStoragePtr (AbstractPropertyTypeDescriptor &descriptor) const
	Gets property storage intrusive pointer which you can use to hold a reference until the end of the operation. More...
AbstractPropertyTypeDescriptor *	findPropertyTypeDescriptorByNameAndDataType (string_view name, PropertyDataType dataType) const
	Finds a property type descriptor by name and data type. More...
AbstractPropertyTypeDescriptor *	findPropertyTypeDescriptorByQualifiedNameAndDataType (string_view qualifiedName, PropertyDataType dataType) const
	Like findPropertyTypeDescriptorByNameAndDataType, but only searches by matching with qualified names. More...
AbstractPropertyTypeDescriptor *	findPropertyTypeDescriptorByUnqualifiedNameAndDataType (string_view unqualifiedName, PropertyDataType dataType) const
	Like findPropertyTypeDescriptorByNameAndDataType, but only searches by matching with unqualified names. More...
AbstractPropertyTypeDescriptor::ValueSource *	getClassValueSource (AbstractPropertyTypeDescriptor &descriptor) const
AbstractPropertyTypeDescriptor::ValueSource *	getFinalValueSource (AbstractPropertyTypeDescriptor &descriptor) const
AbstractPropertyTypeDescriptor::ValueSource *	getNonClassValueSource (AbstractPropertyTypeDescriptor &descriptor) const
AbstractPropertyTypeDescriptor::ValueSource *	getTopValueSource (AbstractPropertyTypeDescriptor &descriptor) const
	Gets the top-level value source for a given property descriptor. More...
void	onCopy (const PropertyObject &other)
void	removeLocalValue (AbstractPropertyTypeDescriptor &descriptor, PropertyStoragePtr &propertyStorage)
	Removes a local value from the given property storage. More...
void	removePropertyValueSource (AbstractPropertyTypeDescriptor &descriptor, AbstractPropertyTypeDescriptor::ValueSource *valueSource, void *owner)
	Removes a property value source. More...
void	validatePropertyModifiers (PropertyStoragePtr &propertyStorage)
	Validates property modifiers without notifying handlers. More...
void	validatePropertyModifiersAndNotifyHandlers (PropertyStoragePtr &propertyStorage)
	Validates property modifiers and notifies handlers. More...
Protected Member Functions inherited from kanzi::BindingHostConceptImpl< Node >
Node *	getThisObject ()
	Internal accessor for the Curiously Recurring Template Pattern. More...
const Node *	getThisObject () const
	Internal accessor for the Curiously Recurring Template Pattern. More...
Protected Member Functions inherited from kanzi::BindingHostConcept
void	attachBindings ()
	Attach all bindings stored in this object. More...
void	detachBindings ()
	Detach bindings. More...

Protected Attributes
QuadDescription	m_backgroundQuadDescription
	Background clipping quad / composition quad description. More...
NodeEffect2DSharedPtr	m_cachedEffect
	Cached effect instance. More...
ClippingArea	m_clipping
	Clipping parameters. More...
CompositionRequirements	m_compositionRequirements
	Composition requirements for this 2D node. More...
unique_ptr< NodeCompositor2D >	m_compositor
	Composition and caching information. More...
NodeEffectPrefab2DSharedPtr	m_currentEffectPrefab
	Currently instantiated effect prefab. More...
optional< QuadDescription >	m_effectQuadDescription
	Effect quad description. More...
unsigned int	m_validatedEffectPaddingChangeCounter
	Effect padding change counter value at which effect quad was last validated. More...
unique_ptr< NodeVisual2D >	m_visual
	Visual information. More...
Protected Attributes inherited from kanzi::Object
AppliedStyleContainer	m_appliedStyles
	Listing of applied styles applied to this object. More...
Protected Attributes inherited from kanzi::BindingHostConcept
BindingRuntimeContainer	m_bindingRuntimes
	Bindings in this object. More...

Friends
void	doListBoxArrange (Node2D &node)
class	Screen
class	Viewport3D

Properties
static PropertyType< float >	AspectRatioProperty
	AspectRatio property. More...
static PropertyType< bool >	ForceCompositionProperty
	ForceComposition property. More...
static PropertyType< Node2D::ForegroundHint >	ForegroundHintProperty
	ForegroundHint property. More...
static PropertyType< bool >	OffscreenRenderingProperty
	OffscreenRendering property. More...
static PropertyType< bool >	DisableRenderTargetClearProperty
	DisableRenderTargetClear property. More...
static PropertyType< Node2D::PixelFormat >	PixelFormatProperty
	PixelFormat property. More...
static PropertyType< bool >	RenderSelfProperty
	RenderSelf property. More...
static PropertyType< ResourceSharedPtr >	RenderTargetProperty
	RenderTarget property. More...
static PropertyType< float >	RenderTargetMinimumHeightProperty
	RenderTargetMinimumHeight property. More...
static PropertyType< float >	RenderTargetMinimumWidthProperty
	RenderTargetMinimumWidth property. More...
static PropertyType< float >	RenderTargetReallocationLimitProperty
	RenderTargetReallocationLimit property. More...
static PropertyType< CachingMode >	CachingModeProperty
	Sets the caching mode: More...
static PropertyType< bool >	CacheValidProperty
	Kanzi sets the value of this property to indicate whether the node is cached. More...
static PropertyType< SRTValue2D >	LayoutTransformationProperty
	Sets the layout transformation of the node. More...
static PropertyType< SRTValue2D >	RenderTransformationProperty
	Sets the render transformation of the node. More...
static PropertyType< SRTValue3D >	PerspectiveTransformationProperty
	Sets the perspective transformation of the node. More...
static PropertyType< PerspectiveTransformationMode >	PerspectiveTransformationModeProperty
	Sets the perspective transformation mode of the node. More...
static PropertyType< float >	PerspectiveTransformationFovProperty
	PerspectiveTransformationFov property. More...
static PropertyType< Vector3 >	PerspectiveTransformationPivotProperty
	PerspectiveTransformationOrigin property. More...
static PropertyType< Vector3 >	PerspectiveTransformationOriginProperty
	PerspectiveTransformationOrigin property. More...
static PropertyType< Vector2 >	RenderTransformationOriginProperty
	RenderTransformationOrigin property. More...
static PropertyType< bool >	SnapToPixelProperty
	SnapToPixel property. More...
static PropertyType< ResourceSharedPtr >	BackgroundBrushProperty
	BackgroundBrush property. More...
static PropertyType< ResourceSharedPtr >	CompositionBrushProperty
	CompositionBrush property. More...
static PropertyType< ResourceSharedPtr >	ForegroundBrushProperty
	ForegroundBrush property. More...
static PropertyType< ResourceSharedPtr >	EffectProperty
	Reports the runtime effect instance used by the node, instantiated from the NodeEffectPrefab2D. More...
static PropertyType< ResourceSharedPtr >	EffectPrefabProperty
	Sets the 2D Effect prefab to use for the node. More...
static PropertyType< MultisampleCount >	MultisampleLevelProperty
	Sets the number of anti-aliasing samples to use for temporary composition targets. More...
float	getAspectRatio () const
	Gets the value of AspectRatioProperty. More...
void	setAspectRatio (float value)
	Sets the value of AspectRatioProperty. More...
bool	isForceComposition () const
	Gets the value of ForceCompositionProperty. More...
void	setForceComposition (bool value)
	Sets the value of ForceCompositionProperty. More...
Node2D::ForegroundHint	getForegroundHint () const
	Gets the value of ForegroundHintProperty. More...
void	setForegroundHint (Node2D::ForegroundHint value)
	Sets the value of ForegroundHintProperty. More...
bool	isOffscreenRendering () const
	Gets the value of OffscreenRenderingProperty. More...
void	setOffscreenRendering (bool value)
	Sets the value of OffscreenRenderingProperty. More...
bool	isDisableRenderTargetClear () const
	Gets the value of DisableRenderTargetClearProperty. More...
void	setDisableRenderTargetClear (bool value)
	Sets the value of DisableRenderTargetClearProperty. More...
Node2D::PixelFormat	getPixelFormat () const
	Gets the value of PixelFormatProperty. More...
void	setPixelFormat (Node2D::PixelFormat value)
	Sets the value of PixelFormatProperty. More...
bool	isRenderSelf () const
	Gets the value of RenderSelfProperty. More...
void	setRenderSelf (bool value)
	Sets the value of RenderSelfProperty. More...
float	getRenderTargetMinimumHeight () const
	Gets the value of RenderTargetMinimumHeightProperty. More...
void	setRenderTargetMinimumHeight (float value)
	Sets the value of RenderTargetMinimumHeightProperty. More...
float	getRenderTargetMinimumWidth () const
	Gets the value of RenderTargetMinimumWidthProperty. More...
void	setRenderTargetMinimumWidth (float value)
	Sets the value of RenderTargetMinimumWidthProperty. More...
float	getRenderTargetReallocationLimit () const
	Gets the value of RenderTargetReallocationLimitProperty. More...
void	setRenderTargetReallocationLimit (float value)
	Sets the value of RenderTargetReallocationLimitProperty. More...
CachingMode	getCachingMode () const
	Gets the value of CachingModeProperty. More...
void	setCachingMode (CachingMode value)
	Sets the value of CachingModeProperty. More...
SRTValue3D	getPerspectiveTransformation () const
	Gets the value of PerspectiveTransformationProperty. More...
void	setPerspectiveTransformation (SRTValue3D value)
	Sets the value of PerspectiveTransformationProperty. More...
PerspectiveTransformationMode	getPerspectiveTransformationMode () const
	Gets the value of PerspectiveTransformationModeProperty. More...
void	setPerspectiveTransformationMode (PerspectiveTransformationMode value)
	Sets the value of PerspectiveTransformationModeProperty. More...
float	getPerspectiveTransformationFov () const
	Gets the value of PerspectiveTransformationFovProperty. More...
void	setPerspectiveTransformationFov (float value)
	Sets the value of PerspectiveTransformationProperty. More...
Vector3	getPerspectiveTransformationPivot () const
	Gets the value of PerspectiveTransformationPivotProperty. More...
void	setPerspectiveTransformationPivot (Vector3 value)
	Sets the value of PerspectiveTransformationPivotProperty. More...
Vector3	getPerspectiveTransformationOrigin () const
	Gets the value of PerspectiveTransformationOriginProperty. More...
void	setPerspectiveTransformationOrigin (Vector3 value)
	Sets the value of PerspectiveTransformationOriginProperty. More...
Vector2	getRenderTransformationOrigin () const
	Gets the value of RenderTransformationOriginProperty. More...
void	setRenderTransformationOrigin (Vector2 value)
	Sets the value of RenderTransformationOriginProperty. More...
bool	isSnapToPixel () const
	Gets the value of SnapToPixelProperty. More...
void	setSnapToPixel (bool value)
	Sets the value of SnapToPixelProperty. More...
MultisampleCount	getMultisampleLevel () const
	Gets the value of MultisampleLevelProperty. More...
void	setMultisampleLevel (MultisampleCount value)
	Sets the value of MultisampleLevelProperty. More...

Additional Inherited Members
Static Public Attributes inherited from kanzi::Node
static PropertyType< string >	NameProperty
	Name property. More...
static PropertyType< string >	PathProperty
	Path property. More...
static PropertyType< string >	LocaleProperty
	Locale property. More...
static PropertyType< bool >	CreatedFromKZBProperty
	CreatedFromKZB property. More...
static PropertyType< bool >	HitTestableProperty
	HitTestable property. More...
static PropertyType< bool >	HitTestableContainerProperty
	HitTestableContainer property. More...
static PropertyType< bool >	VisibleProperty
	Visible property. More...
static PropertyType< bool >	EnabledProperty
	Sets whether the node is enabled. More...
static PropertyType< bool >	EffectivelyEnabledProperty
	Indicates whether the node and its ancestor nodes are enabled. More...
static PropertyType< bool >	FocusableProperty
	Sets whether a node can get focus and can participate in the focus chain navigation. More...
static PropertyType< bool >	FocusedProperty
	Sets whether a node is an focus node and can receive key messages. More...
static PropertyType< FocusState >	FocusStateProperty
	Reports the focus state of a focusable node or focus scope node. More...
static PropertyType< ResourceSharedPtr >	FontFamilyProperty
	Sets the font family the node uses. More...
static PropertyType< float >	VisibleAmountInParentProperty
	VisibleAmountInParent property. More...
static PropertyType< float >	Projection2DTo3DScaleProperty
	Projection2DTo3DScale property. More...
static PropertyType< ResourceSharedPtr >	StyleProperty
	Style property. More...
static PropertyType< ResourceSharedPtr >	StateManagerProperty
	StateManager property. More...
static PropertyType< void * >	PrefabTemplateSourceProperty
	PrefabTemplateSource property. More...
static PropertyType< float >	WidthProperty
	Width property. More...
static PropertyType< float >	HeightProperty
	Height property. More...
static PropertyType< float >	DepthProperty
	Depth property. More...
static PropertyType< float >	ActualWidthProperty
	ActualWidth property. More...
static PropertyType< float >	ActualHeightProperty
	ActualHeight property. More...
static PropertyType< float >	ActualDepthProperty
	ActualDepth property. More...
static PropertyType< Node::HorizontalAlignment >	HorizontalAlignmentProperty
	HorizontalAlignment property. More...
static PropertyType< Node::VerticalAlignment >	VerticalAlignmentProperty
	VerticalAlignment property. More...
static PropertyType< Node::DepthAlignment >	DepthAlignmentProperty
	DepthAlignment property. More...
static PropertyType< Vector2 >	HorizontalMarginProperty
	Sets the horizontal space between this node and other nodes that are adjacent to this node in a layout. More...
static PropertyType< Vector2 >	VerticalMarginProperty
	Sets the vertical space between this node and other nodes that are adjacent to this node in a layout. More...
static PropertyType< Vector2 >	DepthMarginProperty
	Sets the space in the depth direction between this node and other nodes that are adjacent to this node in a layout. More...
static PropertyType< Node::ContentStretch >	ContentStretchProperty
	ContentStretch property. More...
static PropertyType< float >	OpacityProperty
	Opacity property. More...
static PropertyType< bool >	HoverProperty
	Kanzi updates the HoverProperty for a hit testable node to indicate whether the node is the foremost node under the cursor. More...
static PropertyType< bool >	ClipChildrenProperty
	ClipChildren property. More...
static PropertyType< int >	SceneGraphAddNodeChangeChildFlagsProperty
	SceneGraphAddNodeChangeChildFlags property. More...
static PropertyType< int >	SceneGraphAddNodeChangeParentFlagsProperty
	SceneGraphAddNodeChangeParentFlags property. More...
static PropertyType< int >	SceneGraphRemoveNodeChangeChildFlagsProperty
	SceneGraphRemoveNodeChangeChildFlags property. More...
static PropertyType< int >	SceneGraphRemoveNodeChangeParentFlagsProperty
	SceneGraphRemoveNodeChangeParentFlags property. More...
Static Protected Member Functions inherited from kanzi::Node
static VisitorResult	applyStylesVisitor (Node &node, bool apply)
static VisitorResult	attachVisitor (Node &node)
static VisitorResult	detachVisitor (Node &node)
static bool	processPropertyChanged (Node &node, AbstractPropertyType propertyType, const PropertyStoragePtr &nodePropertyStorage, AbstractPropertyTypeDescriptor::PropertyStorage *changedPropertyStorage, PropertyNotificationReason reason)
	Processes notification handlers for node and property storage. More...
static VisitorResult	propertyChangedVisitor (Node &node, AbstractPropertyType propertyType, AbstractPropertyTypeDescriptor::PropertyStorage *propertyStorage, PropertyNotificationReason reason)
static VisitorResult	updateAllResourcesVisitor (Node &node)
static VisitorResult	updateResourceVisitor (Node &node, const ResourceID &id)
static VisitorResult	validateDrawVisitor (Node &node)
	Visitor for validating draw. More...

Detailed Description

Node2D is the base class of 2D nodes.

Node2D implements functionality common to all 2D nodes, such as rendering, layouting, and hit testing.

To create UI graphs, use classes derived from Node2D, such as Image2D, EmptyNode2D, and StackLayout2D. To implement your own custom rendering and layout, derive from Node2D.

You can use methods of the Node2D class to configure common parameters for rendering and layout. Use methods of the derived classes to control behavior specific to them.

Creating nodes

To create a 2D node, call a create function that returns a shared pointer to the node.

To create an EmptyNode2D node:

        EmptyNode2DSharedPtr emptyNode = EmptyNode2D::create(domain, "empty node");

To create an Image2D node:

        Image2DSharedPtr imageNode = Image2D::create(domain, "image node", texture);

Each node has its own type of create function.

The constructors of nodes are protected, and can be accessed only by the inheriting classes. Node initialization happens within the create function, after constructing the node.

Node tree

Kanzi arranges nodes in a tree that you can think of as a directed acyclic graph with no loops. Each node can have multiple children but only one parent.

The root node of the node tree is always a 2D node. The root node does not have a parent, and it is usually of type Screen.

The Viewport2D node serves as a window to a 3D scene graph that Kanzi displays in the viewport area. A Viewport2D node must have a child Scene node as the root of the 3D scene graph. The child nodes of the Scene node are Node3D nodes.

Constructing the node tree

You can manipulate the node tree by adding children to nodes:

        // Create and add a child node.
        Node2DSharedPtr childNode = EmptyNode2D::create(domain, "child");
        parentNode->addChild(childNode);

You can remove children from a parent node:

        parentNode->removeChild(*childNode);

Parents take ownership, and hold a reference to the children.

Iterating the node tree

You can explore the node tree from a node by iterating its children:

            for (Node2D::ChildConstIterator it = parentNode->beginChildren(); (it != parentNode->endChildren()); ++it)
            {
                // Get the name from current child and do something with it as an example.
                stream << (*it)->getName() << "::";
            }

You can also go upwards to the parent:

            // Node2D will always have a parent of type Node2D.
            Node2D* parent = dynamic_cast<Node2D*>(child1->getParent());

The parent returned is valid except for the root node that has no parent (it returns nullptr).

Finding nodes

Finding nodes in the node tree is inherited from Node base class. You can look for nodes with a path:

            // "parent" is a child of screen.
            Node2DSharedPtr foundChild = screen->lookupNode<Node2D>("parent/child1");

The paths work relative from the node doing the lookup. You can also traverse upwards:

            // "child1" is a child of "parent", which is a child of screen.
            Node2DSharedPtr foundScreen = child1->lookupNode<Node2D>("../..");

If lookup fails, no node is returned. See node tree lookup in Node documentation.

Rendering

Kanzi renders nodes starting from the root node of the node tree, iterating the tree in depth-first algorithm.

A 2D node has a foreground and a background. Kanzi renders the foreground and background separately. Node classes can override the foreground or background rendering separately.

Foreground is the content of the node. For example, an image.

Background is the full node area. The background can be of the same size as the node content, or larger.

To fit the content to the node area, use the ContentStretchProperty.

Rendering order

Kanzi renders nodes in the order in which you add the nodes to the parent node. The node that you add first is rendered first.

You can modify the rendering order by reordering the child nodes within a parent node.

To render a node last, move that node to the front:

        // child1 will now be rendered last, after other children of the parent.
        child3->moveToFront();

To render a node first, move that node to the back:

        // child3 will now be rendered first before other children of the parent.
        child3->moveToBack();

Kanzi always renders the content of a parent node before rendering its child nodes.

Using brushes

Kanzi uses brushes to render the foreground, background, and the optional composition of a node. Brushes determine how Kanzi does the rendering. A brush can display a color or an image, tint content provided by the node, or use an arbitrary shader to render the content of a node.

A 2D node can have a foreground brush, background brush, and a composition brush. Use the ForegroundBrushProperty, BackgroundBrushProperty, and CompositionBrushProperty to access the brushes.

To set the foreground brush of a 2D node:

        textNode->setForegroundBrush(ColorBrush::create(domain, "color brush", ColorRGBA(0.5f, 1.0f, 0.5f, 1.0f)));

Use the foreground brush to render the content that the node provides. For example, an Image2D node provides an image. If a node does not provide foreground content, setting the foreground brush has no effect. Most 2D nodes render on top of the background an empty foreground of the same size as the background. For example, the EmptyNode2D node.

To set the background brush of a 2D node:

        // Set color brush to draw the background of an empty brush.
        empty->setBackgroundBrush(ColorBrush::create(domain, "color brush", ColorRGBA(0.8f, 1.0f, 0.2f, 1.0f)));

Use the background brush to render the content outside and behind the node foreground area. If the node has no foreground or the foreground is translucent, the background fills the entire node area. If the foreground is opaque and fills the entire node area, Kanzi does not render the background.

To disable rendering, set null brush:

        // Disable rendering of foreground by setting a null brush.
        image->setForegroundBrush(Brush::acquireNullBrush(*image->getResourceManager()));

Note that some node types have default brushes, which is why removing the brush property is not enough to disable rendering. Instead, Kanzi renders the node using the default brush.

Opacity

To control the translucency of a node, use the OpacityProperty. You can set the opacity of a node:

        // Set image to blend halfway between the background and the image.
        image->setOpacity(0.5f);

Opacity affects node background, foreground, and all node children.

When the brushes or content of a 2D node are translucent, the foreground and background of that node can be translucent even when you do not set the OpacityProperty.

Setting a 2D node as translucent affects all children of that node. To render overlapping translucency in the child nodes correctly, it is possible that you have to composite the parent node. See Composition.

Render transformation

To set the rendering position of a node relative to its parent, use the RenderTransformationProperty:

        // Rotate node ~90 degrees counter-clockwise and translate it 50 units to the right.
        node->setRenderTransformation(SRTValue2D(Vector2(1.0f, 1.0f), -1.570796f, Vector2(50.0f, 0.0f)));

Kanzi specifies the render transformation as SRT, that is, Scale, Rotation, and Translation.

By default, Kanzi performs the render transformation of a 2D node relative to the top-left corner of that node. To set the origin of the render transformation within the node, use the RenderTransformationOriginProperty:

        // Set node to rotate around its center point as opposed to top left corner.
        node->setRenderTransformationOrigin(Vector2(0.5f, 0.5f));

You can also set the render transformation origin outside the node:

        // Set node to rotate around point that's on the node area bottom but three times its width to the left.
        node->setRenderTransformationOrigin(Vector2(-3.0f, 1.0f));

The values set to render transform origin are relative to the size of the node. For example, the value 0.5 ; 0.5 sets the origin at the center of the node.

Kanzi applies the render transformation after applying layout transformation. Render transformation is not affected by layout constraints such as alignment and margins, and does not modify the size layout nodes take into account. See Layout transformation.

Perspective transformation

To bring limited 3D effects to a 2D node tree, you can apply perspective transformation in 3D space. Perspective transformation is an optional transformation that Kanzi applies as the last Node2D transformation, after the layout and render transformations.

To set the perspective transformation:

        // Rotate 2D node slightly over the Y axis to give it perspective.
        node->setPerspectiveTransformation(SRTValue3D(Vector3(1.0f, 1.0f, 1.0f), Vector3(0.0f, 0.2f, 0.0f), Vector3(0.0f, 0.0f, 0.0f)));

Kanzi applies the projection for perspective transformation in the space of the current composition space. Kanzi specifies the perspective transformation as 3D SRT, that is, 3-component Scale, Rotation, and Translation vectors.

NodeVisual2D

Kanzi stores in an object of type NodeVisual2D all information related to the foreground and background rendering in Node2D. NodeVisual2D holds the brush and geometry information that Kanzi needs to render 2D node. To save memory, if node has nothing to render, Kanzi does not allocate a visual component.

Once the visual component is allocated, Node2D never releases it.

Composition

By default, Kanzi renders a 2D node into the rendering context of the parent node. Usually, the top-level rendering context is the backbuffer, provided by the Screen node.

You can manually override this and render a node into a render target:

        // Set a render target to render the empty node in.
        emptyNode->setRenderTarget(renderTarget);

When you specify the render target, the node takes its size from the render target size. You can define fixed width and fixed height for a node that also has a render target set. The fixed size can be smaller than the size of the render target. In this case, rendering happens only on a part of the render target area. Specifying a fixed size larger than the render target size is undefined behavior. A node that Kanzi renders into a render target also draws the resulting composition to the rendering context of their parent.

To achieve the correct rendering result, in some cases, Kanzi automatically renders nodes using a render target.

If the opacity of a Viewport2D is not 1.0 or if its transformation has non-translation components, that Viewport2D renders to a render target:

            // Rotate viewport node 0.2 radians counter-clockwise.
            // The viewport will need to be composited.
            viewportNode->setRenderTransformation(SRTValue2D(Vector2(1.0f, 1.0f), 0.2f, Vector2(0.0f, 0.0f)));
            // Returns true.
            bool isInCompositionTarget = viewportNode->isSelfInCompositionTarget();

Viewport2D is a 'window' to a 3D scene. It must be aligned to the units in the parent render context. If this is not the case, it needs to be composited.

All nodes render to render targets if they have children and their opacity is not one:

            // Add an child to a parent node.
            parentNode->addChild(childNode);
            // Make the parent translucent.
            // The parent will need a composition target to ensure correct rendering result.
            parentNode->setOpacity(0.8f);
            // Returns true.
            bool isInCompositionTarget = parentNode->isSelfInCompositionTarget();

The parent has opacity set, so it will first need to do composition of all its children, and then render this composition using that opacity.

When you assign a render target manually, you can set that render target to take its size from the size of the node. In this case, Kanzi resizes the composition target to the size that the node gets during layout:

        // This example shows how to create a Texture and use it as a render target for a 2D node.
        //
        // Kanzi determines the size of the render target automatically from the size of the 2D node
        // and renders the node:
        // - To texture as specified with Node2D::setRenderTarget().
        // - Only to texture as specified with Node2D::setOffscreenRendering().
        //
        // \see Node2D::RenderTargetProperty
        // \see Node2D::OffscreenRenderingProperty
        // \see Texture::CreateInfoNode2DRenderTarget
        // \see Texture::create()

        // Create a node tree.
        ScreenSharedPtr screen = Screen::create(domain, "screen");
        screen->attach();

        // Create a node.
        // Set a size to the node to determine the size that Kanzi uses to set the size of the render target.
        EmptyNode2DSharedPtr node = EmptyNode2D::create(domain, "node");
        node->setWidth(static_cast<float>(width));
        node->setHeight(static_cast<float>(height));
        screen->addChild(node);

        // Create a background brush for the node.
        ColorBrushSharedPtr brush = ColorBrush::create(domain, "brush", ColorRGBA(0.4f, 0.4f, 0.9f, 1.0f));
        node->setBackgroundBrush(brush);

        // Create a render target texture for the node.
        // To create a texture with the same size as the node to which you assign it, set width divisor and height divisor to 1.
        Texture::CreateInfoNode2DRenderTarget textureCreateInfo(1, 1, GraphicsFormatR8G8B8A8_UNORM);
        textureCreateInfo.widthDivisor = 1;
        textureCreateInfo.heightDivisor = 1;
        TextureSharedPtr renderTarget = Texture::create(domain, textureCreateInfo, "texture");
        node->setRenderTarget(renderTarget);

        // Render only to render target texture.
        node->setOffscreenRendering(true);

        // Render the node tree.
        {
            CompositionStack& compositionStack = renderer->getCompositionStack();
            screen->setAllocatedSize(Vector2(static_cast<float>(width), static_cast<float>(height)));
            screen->setArrangeTransform(Matrix3x3());
            screen->layout();
            compositionStack.pushComposition(0, screen->getAllocatedSize());
            screen->render(*renderer, compositionStack);
            compositionStack.popComposition();
        }

        screen->detach();

Offscreen rendering

Nodes do not necessarily have to draw their composition onto the render context of their parent. To enable offscreen rendering:

        // Turn on offscreen rendering.
        // The node will be rendered into its render target, but not blit onto the parent render context.
        emptyNode->setOffscreenRendering(true);

When you enable offscreen rendering, Kanzi does not draw the node anywhere after rendering to its render target.

You can render the render target of the node using some other node:

        // Set image to use the render target previously set on the empty node.
        imageNode->setImage(emptyNode->getRenderTarget());

The render target behaves like a normal texture when used. Setting the render target to an Image2D determines its size unless you set the render target to use fixed size.

Clearing a render target

When Kanzi renders a Node2D to a render target, it clears the color and depth buffers of that render target. If the render target has a depth buffer, and the node is not a Viewport2D that clears it in a RenderPass, Kanzi clears the depth buffer. If the foreground of the node does not fill the complete composition area, or the combination of background and foreground is translucent, Kanzi clears the color buffer.

To disable the clearing of a render target:

        // Disable clearing of render target even if it would otherwise be done.
        emptyNode->setDisableRenderTargetClear(true);

When you disable the clearing of a render target, you prevent the node from clearing the render target even if the node would otherwise do it.

By default, Kanzi clears all render targets. This simplifies the rendering code and increases performance on GPUs that use tiled renderers.

Caching

To avoid rendering a 2D node and its descendants every frame, you can cache the rendering results of a 2D node. Caching carries a cost in GPU memory. Cache only complex nodes that are expensive to render and change rarely. You can either:

• Let Kanzi update the cache automatically whenever the node or any of its descendants change.
• Make Kanzi use the same cache until you manually invalidate that cache.

To control the caching of a 2D node, use the CachingModeProperty. You can enable or disable the cache:

        // Enable caching of node content and of all its descendants.
        parentNode->setCachingMode(CachingModeEnabled);

When the CachingModeProperty is set to CachingModeEnabled, the node content does not change until you either:

• Set the CachingModeProperty to CachingModeDisabled.
• Invalidate the cache.

To invalidate the cache:

        // Force redraw of node content.
        parentNode->resetCache();

After you invalidate the cache, Kanzi renders the node content once. After this, Kanzi considers the node cached again. You can disable the cache:

        // Disable caching of the node and all its descendants.
        parentNode->setCachingMode(CachingModeDisabled);

After you disable the cache, Kanzi renders the node normally and all changes to the node and its descendants are visible immediately.

Setting the CachingModeProperty to CachingModeAutomatic causes Kanzi to automatically update the cache of the node whenever the content of the node or its descendants change. To set Kanzi to automatically update the cache:

        // Set caching mode to automatic.
        parentNode->setCachingMode(CachingModeAutomatic);

When the caching mode is set to automatic, any change to the node or its descendants causes Kanzi to update the cache. You can manually set the draw flag on a child node to invalidate the cache:

        // Setting any property that invalidates the draw flag causes Kanzi to update the cache of the parent node.
        imageChildNode->setOpacity(1.0f);

Setting any property that controls rendering will eventually invalidate draw.

NodeCompositor2D

Kanzi stores in NodeCompositor2D all information related to compositing. This object holds composition targets, caching information, and a composition brush. Because compositing implies rendering, it is not possible to allocate a compositor without also allocating a NodeVisual2D. To save memory, if composition is not needed, Kanzi does not allocate a compositor component.

Once the compositor component is allocated, Node2D never releases it. Composition targets within compositor can be released if not needed.

Basic Layout

A 2D node tries to determine its size automatically. A 2D node with content by default takes the size of its content. For example, Image2D takes the size of the image that it displays. EmptyNode2D and Viewport2D have unbounded layout by default. This means that they take the entire available size. Kanzi calculates the available size from the size of the parent node, or the available screen area. To arrange nodes in a layout, use layout control nodes such as StackLayout2D or GridLayout2D.

To set the size of a 2D node:

        // Set width to 160 units and height to 90 units.
        node->setWidth(160.0f);
        node->setHeight(90.0f);

To set a 2D node to determine its size automatically, remove the fixed size:

        // Set width and height to be determined automatically.
        node->setAutoWidth();
        node->setAutoHeight();

or:

        // Set width and height to be determined automatically.
        node->setAutoSize();

You can configure a node to take its width or height based on a specified fixed size and an aspect ratio:

        // Sets node aspect ratio to ~16:9.
        node->setAspectRatio(1.777778f);

If fixed width and aspect ratio are defined, height is width divided by aspect ratio. If fixed height and aspect ratio are defined, width is height multiplied by aspect ratio. If both fixed width and fixed height are defined, aspect ratio has no effect.

If neither width or height are defined, but aspect ratio is defined, the result depends on the node. A node that has unbounded layout takes the largest size it can with the given aspect ratio while still fitting within its allocated size. Aspect ratio has no effect when the content of a node defines its size. This is analogous to having both fixed width and fixed height.

A 2D node has an allocated area specified by the area of the parent node or a layout node. You can configure a 2D node to align in its allocated area by setting horizontal and vertical alignment:

        // Align node to right bottom corner of its parent.
        node->setHorizontalAlignment(Node::HorizontalAlignmentRight);
        node->setVerticalAlignment(Node::VerticalAlignmentBottom);

Available values for horizontal alignment are:

• HorizontalAlignmentLeft
• HorizontalAlignmentRight
• HorizontalAlignmentCenter
• HorizontalAlignmentStretch

Available values for vertical alignment are:

• VerticalAlignmentTop
• VerticalAlignmentBottom
• VerticalAlignmentCenter
• VerticalAlignmentStretch

You can configure 2D node to fill its allocated area by setting alignment to stretch:

        // Set node to fill the area of its parent.
        node->setHorizontalAlignment(Node::HorizontalAlignmentStretch);
        node->setVerticalAlignment(Node::VerticalAlignmentStretch);

You can offset a 2D node from the edges of its parent node:

        // Offset node 20 units from left and top edges and 10 units from right and bottom edges of its parent.
        node->setHorizontalMargin(Vector2(20.0f, 10.0f));
        node->setVerticalMargin(Vector2(20.0f, 10.0f));

For horizontal margins, the order of values is left, then right. For vertical margins, the order of values is top, then bottom. Kanzi offsets the node from the edge of its allocated area by the amount equal to the margin that you set. When you do not set the margins, Kanzi aligns the node at the edge of allocated area.

Layout transformation

To set the transformation of a node relative to its parent node, set the LayoutTransformationProperty:

        // Rotate node ~45 degrees clockwise.
        node->setLayoutTransformation(SRTValue2D(Vector2(1.0f, 1.0f), 0.7853982f, Vector2(0.0f, 0.0f)));

Kanzi specifies the layout transform as SRT, that is, Scale, Rotation, and Translation.

When you transform a node with layout transformation, Kanzi applies alignment and margins to that node after the transformation. Kanzi applies render transformation after layout transformation, alignment, and margins.

See Render transformation and Perspective transformation.

Content stretch

The foreground content, such as an image, of a 2D node, has rules on how to stretch in relation to the node area.

These are the available content stretch modes:

• ContentStretchNone centers the foreground area in the node area and keeps the exact size of the content.

  If the node is smaller than the foreground area, it displays only a part of the content.

  If the node is larger than the foreground area, the remaining area is left for background rendering.

• ContentStretchFill sets the foreground area to take the exact node area.

  This can change the aspect ratio of the content.

• ContentStretchUniform sets the foreground content to stretch to fill the node area while keeping its aspect ratio.

  If the aspect ratio of the node is different from content aspect ratio, the remaining area is left for background rendering.

  This is the default content stretch mode.

• ContentStretchUniformToFill centers the foreground area relative to the node area and scales the foreground uniformly to fill the node area.

  If the aspect ratio of the node is different from the content aspect ratio, the node displays only part of the content.

To set the content stretch mode:

        image->setContentStretch(Node::ContentStretchFill);

Layout in main loop

During the main loop of the application, Kanzi calls layout for the root node. Before calling layout, Kanzi sets the allocated size of the Screen node to the size of the current graphics output. The layout pass evaluates only nodes that are marked as requiring layout. Kanzi calls render immediately after layout.

Because Kanzi calls render immediately after layout, you can modify the node tree and see the changes before the next call to the update function. It can be useful to determine the calculated sizes or locations of nodes before waiting for the next frame. To call layout manually:

        // Add node to screen.
        screen->addChild(node);

        // To determine node actual size, must call layout.
        // Before calling layout, must set allocated size of screen.
        screen->setAllocatedSize(Vector2(1280.0f, 720.0f));
        screen->layout();

After calling layout(), you can call getActualSize() to get the size determined by the node. Default allocated size is unbounded layout or infinity. When calling layout() manually, you must set the allocated size for the node that receives the layout() call.

See Implementing a custom 2D node - Layout.

Hit testing

You can hit test nodes in regard to their location on screen:

        // Create an image nodes and add it to the parent node.
        TextureSharedPtr texture = Texture::create(domain, Texture::CreateInfo2D(10, 10, GraphicsFormatR8G8B8_UNORM), "Example texture");
        Image2DSharedPtr childNode = Image2D::create(domain, "child", texture);
        parentNode->addChild(childNode);

        // Align image to bottom right of parent.
        parentNode->setWidth(400.0f);
        parentNode->setHeight(300.0f);
        childNode->setHorizontalAlignment(Node2D::HorizontalAlignmentRight);
        childNode->setVerticalAlignment(Node2D::VerticalAlignmentBottom);
        screen->layout();

        // Parent is of size 400, 300, so 395, 295 will hit inside a child of size 10, 10.
        NodeSharedPtr node = screen->hitTest(Vector2(395.0f, 295.0f));        

Hit testing uses the 'world' or 'render' coordinates of the node. These coordinates are relative to the screen, not to the parent node or to the node that does the hit testing. Hit testing takes into account the visibility and all transformations of a node.

Hit testing transforms global coordinates into Node2D local coordinates to determine if the node is hit. You can determine world (screen) space coordinates in the local coordinate space of a 2D node:

            optional<Vector2> localCoords = childNode->globalToLocal(Vector2(50.0f, 40.0f));

The return value is enclosed in an optional value, but is always valid if the node has a real nondegenerate transformation.

You can test whether given coordinates hit a node:

            optional<Vector2> localCoords = childNode->containsGlobal(Vector2(50.0f, 40.0f));

Checking whether a global coordinate is within a node is equal to calling globalToLocal() and then testing the result with containsLocal().

Implementing a custom 2D node

To do custom rendering and layout, you can implement a custom 2D node.

Defining the class

To define a custom Node2D implementation, inherit from the Node2D base class.

To define a Node2D implementation:

class ExampleNode2D;

typedef shared_ptr<ExampleNode2D> ExampleNode2DSharedPtr;

class ExampleNode2D : public kanzi::Node2D
{
public:
    static PropertyType<float> ExampleProperty;

    float getExampleProperty() const
    {
        return getProperty(ExampleProperty);
    }
    void setExampleProperty(float value)
    {
        setProperty(ExampleProperty, value);
    }

    KZ_METACLASS_BEGIN(ExampleNode2D, Node2D, "MyNamespace.ExampleNode2D")
        KZ_METACLASS_PROPERTY_TYPE(ExampleProperty)
    KZ_METACLASS_END()

    class ExampleMessageArguments : public MessageArguments
    {
    public:
        static PropertyType<bool> ExampleArgumentProperty;

        KZ_MESSAGE_ARGUMENTS_METACLASS_BEGIN(ExampleMessageArguments, MessageArguments, "MyNamespace.ExampleNode2D.ExampleMessageArguments")
            KZ_METACLASS_PROPERTY_TYPE(ExampleArgumentProperty)
        KZ_METACLASS_END()

        static PropertyTypeEditorInfoSharedPtr makeEditorInfo();
    };

    static MessageType<ExampleMessageArguments> ExampleMessage;

    static ExampleNode2DSharedPtr create(Domain* domain, string_view name);

protected:
    explicit ExampleNode2D(Domain* domain, string_view name);

    void initialize();

    Vector2 measureOverride(Vector2 availableSize) override;

    void updateRenderOverride() override;

    void onExampleMessage(ExampleMessageArguments& arguments);

private:
    ClassPropertyDefaultValue<float> m_classValueExampleProperty;
};

The next sections explain different parts of the node declaration.

Metaclass

Each class derived from Node2D must have a metaclass definition. To declare the metaclass, inherit from the Node2D base class and list the properties specific to the inherited node:

    KZ_METACLASS_BEGIN(ExampleNode2D, Node2D, "MyNamespace.ExampleNode2D")
        KZ_METACLASS_PROPERTY_TYPE(ExampleProperty)
    KZ_METACLASS_END()

For details about metaclass, see the description in Node documentation.

Property types

Local property types are declared in metaclass to belong to the node. Additionally, property types must be declared within the node:

    static PropertyType<float> ExampleProperty;

It is also often useful to declare setters and getters to wrap getProperty() and setProperty() for the custom property.

    float getExampleProperty() const
    {
        return getProperty(ExampleProperty);
    }
    void setExampleProperty(float value)
    {
        setProperty(ExampleProperty, value);
    }

After declaring a property type in the class, you must add the property definition. The definition lists property metadata. The example property is defined as follows:

PropertyType<float> ExampleNode2D::ExampleProperty(kzMakeFixedString("ExampleNode2D.Example"), 1.0f, PropertyTypeChangeFlagFinalTransformation, false,
                                                   KZ_DECLARE_EDITOR_METADATA
                                                   (
                                                       metadata.displayName = "Example property";
                                                       metadata.tooltip = "Property used as example.";
                                                       metadata.host = "Node:user, Node2D:context, Material:user";
                                                       metadata.lowerBound = "0.0";
                                                       metadata.upperBound = "1.0";
                                                       metadata.step = "0.01";
                                                   ));

Note that the property has the PropertyTypeChangeFlagFinalTransformation flag set. This means that updateRender must be called for the node when the property value changes.

These property change flags determine what Kanzi has to recalculate when the property value changes.

• PropertyTypeChangeFlagMeasure means that the node has to be measured.

  This causes measure and arrange to propagate from the node.

  Kanzi runs measure() to the node and potentially all of its ancestors if measured size changed.

  Then, Kanzi runs arrange() and updateRender() to the node, all of the changed nodes, and their descendants.

• PropertyTypeChangeFlagArrange means that the node has to be arranged.

  This causes arrange to propagate from the node.

  Kanzi runs arrange() and updateRender() to the node and all of its children.

• PropertyTypeChangeFlagRender means that the rendering parameters of the node changed and have to be updated.

  Kanzi runs updateRender() to the node. If the transformation or composition status of the node changed, Kanzi runs updateRender() to all children of the node.

  Updating the transformation of the node is a phase in updateRender(). If the transformation has not changed, Kanzi does not run this phase. Measure and arrange imply that the transform changed.

• PropertyTypeChangeFlagFinalTransformation means that the transformation of the node and its children have to be updated.

  Kanzi runs updateRender() to the node and its children.

Nodes can have class values for properties:

    ClassPropertyDefaultValue<float> m_classValueExampleProperty;

A class value overrides the default value that the node otherwise has for a property, but the value applies only to objects of a certain class.

For more information about properties in nodes, see the documentation of the Node class.

Message types

To communicate with each other, Kanzi nodes send messages.

Declare the message types in the node:

    class ExampleMessageArguments : public MessageArguments
    {
    public:
        static PropertyType<bool> ExampleArgumentProperty;

        KZ_MESSAGE_ARGUMENTS_METACLASS_BEGIN(ExampleMessageArguments, MessageArguments, "MyNamespace.ExampleNode2D.ExampleMessageArguments")
            KZ_METACLASS_PROPERTY_TYPE(ExampleArgumentProperty)
        KZ_METACLASS_END()

        static PropertyTypeEditorInfoSharedPtr makeEditorInfo();
    };

    static MessageType<ExampleMessageArguments> ExampleMessage;

Like the node itself, the message class must define a metaclass and properties.

You must also define the message type, metadata, and related property metadata:

PropertyType<bool> ExampleNode2D::ExampleMessageArguments::ExampleArgumentProperty(kzMakeFixedString("MessageArgument.ExampleNode2D.Example"), false, 0, false,
                                                                                   KZ_DECLARE_EDITOR_METADATA
                                                                                   (
                                                                                       metadata.displayName = "Example argument";
                                                                                       metadata.tooltip = "Example message argument property";
                                                                                   ));

PropertyTypeEditorInfoSharedPtr ExampleNode2D::ExampleMessageArguments::makeEditorInfo()
{
    return PropertyTypeEditorInfoSharedPtr(
        KZ_DECLARE_EDITOR_METADATA(
            metadata.displayName = "Example message";
            metadata.tooltip = "Example definition of a message that can be listened.";
        ));
}

MessageType<ExampleNode2D::ExampleMessageArguments> ExampleNode2D::ExampleMessage(kzMakeFixedString("Message.ExampleNode2D.Example"), nullptr);

The argument definition is similar to property type definition. You also need to define the message type and metadata for Kanzi Studio.

A node can subscribe to listen to any messages. Typically this happens on initialization.

For more information about messages, see the documentation of the Node class.

Initialize pattern

Constructing a node initializes node-specific values and passes them to the base class constructor.

ExampleNode2D::ExampleNode2D(Domain* domain, string_view name) :
    Node2D(domain, name),
    m_classValueExampleProperty(*this, ExampleProperty, 0.5f)
{
}

Class values are initialized in the constructor.

Further initialization is done in Node::initialize(), that is called from the create function:

ExampleNode2DSharedPtr ExampleNode2D::create(Domain* domain, string_view name)
{
    ExampleNode2DSharedPtr exampleNode(new ExampleNode2D(domain, name));

    exampleNode->initialize();

    return exampleNode;
}

In this example, the node subscribes to listen a message defined earlier upon initialize:

void ExampleNode2D::initialize()
{
    Node2D::initialize();

    addMessageHandler(ExampleMessage, bind(&ExampleNode2D::onExampleMessage, this, placeholders::_1));
}

void ExampleNode2D::onExampleMessage(ExampleMessageArguments& arguments)
{
    bool exampleArgument = arguments.getArgument(ExampleMessageArguments::ExampleArgumentProperty);

    // Use argument value to set example property in node.
    setExampleProperty(exampleArgument ? 1.0f : 0.0f);
}

For details of initialization, see the documentation of the Node class.

Attach and detach

When a node becomes a part of the node tree, it is attached. When a node is no longer a part of the node tree, it is detached. Nodes can also be attached or detached if their parent is attached or detached. This typically happens when the parent is added or removed from the node tree.

Attaching connects and activates node features related to its location in the node tree. This includes resource references, bindings, triggers, input manipulators, and so on.

For details on attach and detach, see the documentation of the Node class.

Rendering

Custom node rendering is controlled by overriding rendering functions and setting the render type. During the render process, nodes first call their rendering functions, then rendering descends to the children.

Rendering functions

To override the rendering of the foreground, implement renderForegroundOverride(). The default implementation of renderForegroundOverride() is empty, because all nodes decide on their own rendering.

To override the rendering of both the foreground and background, implement renderSelfOverride(). The default implementation of renderSelfOverride() applies the composition stack, and then defers to background and foreground rendering. When implementing this function, remember to ensure that the viewport settings are correct before you issue draw calls.

To use normal background rendering within overridden rendering, call renderBackground(). renderBackground() checks whether a background brush exists, and then renders the background quad. In the case of opaque foreground, background rendering renders a 'frame' around the node content area, if possible.

When you want to override the entire rendering process of a 2D node, implement renderOverride(). This can be necessary in some rare cases. For example, implement renderOverride() when you want to alter the way caching or the allocation of composition targets works.

For most nodes, implementing renderSelfOverride() is enough.

Render type

Node2D rendering is controlled by RenderType. Set it upon constructor or node initialization to reflect on node rendering behavior. RenderType acts as a hint to the rendering system, regarding how to set viewport settings and how to handle background rendering.

• RenderTypeNone is for nodes that do not have foreground content to render. For example, EmptyNode2D.
• RenderTypeTexture is for nodes that render their foreground as a rectangular quad. For example, Image2D.

• RenderTypeManual is for nodes that handle their own foreground rendering. For example, Viewport2D.

  This implies that the system has to set up viewport coordinates for the area of the node. This pushes a local viewport area to the composition stack.

  A node that uses RenderTypeManual needs to implement renderSelfOverride.

• RenderTypeManualClipped is for nodes that handle their own foreground rendering, but do not need a local viewport area. For example, TextBlock2D.

  This implies that nodes that use RenderTypeManualClipped either clip their own content, or you do not care about clipping.

  A node that uses RenderTypeManualClipped needs to implement at least renderForegroundOverride, possibly renderSelfOverride.

Layout

A custom node follows the layout directives described in the Basic layout section. You can override the layout partially by implementing layout functions.

Measurement pass

In measure(), Kanzi determines the desired size of a node.

The measurement pass descends recursively downwards until it finds nodes that are flagged as needing measure. For every node whose size changed, measure ascends upwards to the root and flags the node as requiring arrange.

To override the size that Kanzi otherwise determines for the node, implement measureOverride():

Vector2 ExampleNode2D::measureOverride(Vector2 /*availableSize*/)
{
    return Vector2(128.0f, 128.0f);
}

The size returned by measureOverride() determines the desired size of the content. The desired size of the node is affected by the desired size of the content and the properties of the node.

Arrange pass

In arrange(), Kanzi determines the actual size and transformation of the node.

The arrange pass descends recursively downwards to nodes that are flagged as needing arrange, and then arranges those nodes and their children.

The arrange process:

1. Reads the available size for the node.
2. Determines the transformation and actual size of the node based on the properties of the node.

Nodes that perform layout on their child nodes must implement arrangeOverride(). During the arrange pass of the parent node, Kanzi already finished measuring the children nodes. Arranging children works by iterating over child nodes and setting their allocated sizes and arrange transformations. For non-layout nodes, (default) arrangeOverride() sets the allocated size of the child nodes as the actual size of the node, and resets child arrange transformation.

Update render pass

In updateRender(), Kanzi determines the final transformation, brushes, and composition settings of a node.

Kanzi calls updateRender() after arrange for all nodes that are marked as requiring a transformation update.

A node can implement updateRenderOverride() to do custom clipping or modify brush or composition settings:

void ExampleNode2D::updateRenderOverride()
{
    // Check if we have a color brush as background brush.
    ColorBrushSharedPtr brush = dynamic_pointer_cast<ColorBrush>(getBackgroundBrush());
    if (brush)
    {
        // Set blue component of color depending on our example property.
        ColorRGBA color = brush->getColor();
        color.setBlue(getExampleProperty());
        brush->setColor(color);
    }
}

Member Typedef Documentation

typedef Vector2 kanzi::Node2D::LayoutVectorType

typedef Matrix3x3 kanzi::Node2D::LayoutMatrixType

typedef vector<Node2DSharedPtr> kanzi::Node2D::ChildContainer

Container type for children.

typedef ChildContainer::const_iterator kanzi::Node2D::ChildConstIterator

Iterator type for children.

typedef ChildContainer::const_reverse_iterator kanzi::Node2D::ChildConstReverseIterator

Reverse iterator type for children.

typedef NodeSharedPtr(* kanzi::Node2D::HitTestVisitor) (Node2D &node, Vector2 nodePoint, void *userData)

Hit test visitor function.

Member Enumeration Documentation

enum kanzi::Node2D::PixelFormat

Pixel formats.

Enumerator
PixelFormatRgb	Managed render targets use RGB format.
PixelFormatRgba	Managed render targets use RGBA format.

enum kanzi::Node2D::ForegroundHint

Hint for foreground handling of nodes.

Enumerator
ForegroundHintNone	No hint given, assumed the background of a node can be rendered after content.
ForegroundHintTranslucent	Some elements rendered within the node are translucent over the background.
ForegroundHintOpaque	Node content is assumed to be fully opaque, meaning that there is no need to render the background.

enum kanzi::Node2D::RenderType

Node2D render type - affects elementary decisions about node rendering.

Enumerator
RenderTypeNone	Node has no foreground content to render.
RenderTypeTexture	Node renders itself as a textured quad.
RenderTypeManual	Node handles its own rendering.
RenderTypeManualClipped	Node handles its own rendering, but also clips its own content. This means that the node does not need additional composition area definitions, and can be rendered directly.

enum kanzi::Node2D::PerspectiveTransformationMode

Node2D perspective transformation mode.

Enumerator
Screen	Screen coordinates.
XFov	3D coordinates with a field of view in x direction.
YFov	3D coordinates with a field of view in y direction.

enum kanzi::Node2D::Node2DFlags

protected

Different Node2D flags for bit set.

Enumerator
AllowClear	Is clearing allowed? This flag is turned on by default, but can be disabled by node properties. 2D nodes only clear color buffers, even if other buffers are created.
AllowRenderChildren	Are children rendered for this node or are they handled in a special manner?
AllowRenderSelf	Is the node allowed to render itself?
ForegroundIsTranslucent	Does layout detected foreground translucency?
ForegroundTranslucencyRequested	Has an extra request been filed (by implementations) for foreground translucency?.
RequiresBackgroundQuad	Is background quad required.
RequiresLocalTransformationScope	Node requires local transformation scope. Set by specialized node classes that perform their own custom composition.
RequiresTilingUpdate	Node requires tiling update. Kanzi sets this when the value of a tiling property changes, and clears it after updating the node geometry. Since Kanzi 3.9.5
Node2DFlagsBitCount	Number of options.

Constructor & Destructor Documentation

kanzi::Node2D::~Node2D ( )

override

kanzi::Node2D::Node2D ( Domain *  domain, string_view  name  )

explicitprotected

Constructor.

Parameters

domain	Domain to use.
name	Node name.

Member Function Documentation

static float kanzi::Node2D::layoutUp ( )

inlinestatic

Returns the direction to which the y axis grows for this node type.

Returns

The direction of the y axis.

static bool kanzi::Node2D::isValidLayoutSize ( Vector2  size )

inlinestatic

Returns whether a size is a valid layout size.

A size is valid if all its elements are valid layout values.

Parameters

size	The size for which to test whether it is a valid layout size.

Returns

If the size is a valid layout size, true, otherwise false.

See also

Node::isValidLayoutValue()

static Vector2 kanzi::Node2D::unboundedLayoutSize ( )

inlinestatic

Returns an unbound layout size.

Returns

Unbound layout size.

static bool kanzi::Node2D::isUnboundedLayoutSize ( Vector2  layoutSize )

inlinestatic

Returns whether a layout size is an unbound layout size.

A size is a an unbound layout size if any of its elements is an unbounded layout value.

Parameters

layoutSize

The layout size for which to test whether it is unbound layout size.

Returns

If the layout size is an unbound layout size,true, otherwise false.

static Vector2 kanzi::Node2D::replaceUnboundedLayoutSize ( Vector2  layoutSize, Vector2  resetSize  )

inlinestatic

Replaces any element of a layout size with appropriate element of the reset size if it is unbounded and returns the size.

Parameters

layoutSize	Layout size to test if any of its elements is unbounded layout value.
resetSize	The size whose values are used as a replacement for specified layout size's unbounded value elements.

Returns

layoutSize with its unbounded value elements replaced with the elements of resetSize.

static Vector2 kanzi::Node2D::replaceUnboundedLayoutSizeWithZero ( Vector2  layoutSize )

inlinestatic

Replaces any element of a layout size with zero if it is unbounded and returns the size.

Parameters

layoutSize

Layout size to test if any of its elements is unbounded layout value.

Returns

layoutSize with its unbounded value elements replaced with zero.

float kanzi::Node2D::getAspectRatio ( ) const

inline

Gets the value of AspectRatioProperty.

See also

setAspectRatio()

void kanzi::Node2D::setAspectRatio ( float  value )

inline

Sets the value of AspectRatioProperty.

See also

getAspectRatio()

bool kanzi::Node2D::isForceComposition ( ) const

inline

Gets the value of ForceCompositionProperty.

See also

setForceComposition()

void kanzi::Node2D::setForceComposition ( bool  value )

inline

Sets the value of ForceCompositionProperty.

See also

isForceComposition()

Node2D::ForegroundHint kanzi::Node2D::getForegroundHint ( ) const

inline

Gets the value of ForegroundHintProperty.

See also

setForegroundHint()

void kanzi::Node2D::setForegroundHint ( Node2D::ForegroundHint  value )

inline

Sets the value of ForegroundHintProperty.

See also

getForegroundHint()

bool kanzi::Node2D::isOffscreenRendering ( ) const

inline

Gets the value of OffscreenRenderingProperty.

See also

setOffscreenRendering()

void kanzi::Node2D::setOffscreenRendering ( bool  value )

inline

Sets the value of OffscreenRenderingProperty.

See also

isOffscreenRendering()

bool kanzi::Node2D::isDisableRenderTargetClear ( ) const

inline

Gets the value of DisableRenderTargetClearProperty.

See also

setDisableRenderTargetClear()

void kanzi::Node2D::setDisableRenderTargetClear ( bool  value )

inline

Sets the value of DisableRenderTargetClearProperty.

See also

isDisableRenderTargetClear()

Node2D::PixelFormat kanzi::Node2D::getPixelFormat ( ) const

inline

Gets the value of PixelFormatProperty.

See also

setPixelFormat()

void kanzi::Node2D::setPixelFormat ( Node2D::PixelFormat  value )

inline

Sets the value of PixelFormatProperty.

See also

getPixelFormat()

bool kanzi::Node2D::isRenderSelf ( ) const

inline

Gets the value of RenderSelfProperty.

See also

setRenderSelf()

void kanzi::Node2D::setRenderSelf ( bool  value )

inline

Sets the value of RenderSelfProperty.

See also

isRenderSelf()

float kanzi::Node2D::getRenderTargetMinimumHeight ( ) const

inline

Gets the value of RenderTargetMinimumHeightProperty.

See also

setRenderTargetMinimumHeight()

void kanzi::Node2D::setRenderTargetMinimumHeight ( float  value )

inline

Sets the value of RenderTargetMinimumHeightProperty.

See also

getRenderTargetMinimumHeight()

float kanzi::Node2D::getRenderTargetMinimumWidth ( ) const

inline

Gets the value of RenderTargetMinimumWidthProperty.

See also

setRenderTargetMinimumWidth()

void kanzi::Node2D::setRenderTargetMinimumWidth ( float  value )

inline

Sets the value of RenderTargetMinimumWidthProperty.

See also

getRenderTargetMinimumWidth()

float kanzi::Node2D::getRenderTargetReallocationLimit ( ) const

inline

Gets the value of RenderTargetReallocationLimitProperty.

See also

setRenderTargetReallocationLimit()

void kanzi::Node2D::setRenderTargetReallocationLimit ( float  value )

inline

Sets the value of RenderTargetReallocationLimitProperty.

See also

getRenderTargetReallocationLimit()

CachingMode kanzi::Node2D::getCachingMode ( ) const

inline

Gets the value of CachingModeProperty.

See also

setCachingMode()

Returns

Caching mode value.

Since

Kanzi 3.9.0

void kanzi::Node2D::setCachingMode ( CachingMode  value )

inline

Sets the value of CachingModeProperty.

See also

getCachingMode()

Parameters

value

New caching mode value.

Since

Kanzi 3.9.0

SRTValue3D kanzi::Node2D::getPerspectiveTransformation ( ) const

inline

Gets the value of PerspectiveTransformationProperty.

See also

setPerspectiveTransformation()

void kanzi::Node2D::setPerspectiveTransformation ( SRTValue3D  value )

inline

Sets the value of PerspectiveTransformationProperty.

See also

getPerspectiveTransformation()

PerspectiveTransformationMode kanzi::Node2D::getPerspectiveTransformationMode ( ) const

inline

Gets the value of PerspectiveTransformationModeProperty.

See also

setPerspectiveTransformationMode()

void kanzi::Node2D::setPerspectiveTransformationMode ( PerspectiveTransformationMode  value )

inline

Sets the value of PerspectiveTransformationModeProperty.

See also

getPerspectiveTransformationMode()

float kanzi::Node2D::getPerspectiveTransformationFov ( ) const

inline

Gets the value of PerspectiveTransformationFovProperty.

See also

setPerspectiveTransformationFov()

void kanzi::Node2D::setPerspectiveTransformationFov ( float  value )

inline

Sets the value of PerspectiveTransformationProperty.

See also

getPerspectiveTransformationFov()

Vector3 kanzi::Node2D::getPerspectiveTransformationPivot ( ) const

inline

Gets the value of PerspectiveTransformationPivotProperty.

See also

setPerspectiveTransformationPivot()

void kanzi::Node2D::setPerspectiveTransformationPivot ( Vector3  value )

inline

Sets the value of PerspectiveTransformationPivotProperty.

See also

getPerspectiveTransformationPivot()

Vector3 kanzi::Node2D::getPerspectiveTransformationOrigin ( ) const

inline

Gets the value of PerspectiveTransformationOriginProperty.

See also

setPerspectiveTransformationOrigin()

void kanzi::Node2D::setPerspectiveTransformationOrigin ( Vector3  value )

inline

Sets the value of PerspectiveTransformationOriginProperty.

See also

getPerspectiveTransformationOrigin()

Vector2 kanzi::Node2D::getRenderTransformationOrigin ( ) const

inline

Gets the value of RenderTransformationOriginProperty.

See also

setRenderTransformationOrigin()

void kanzi::Node2D::setRenderTransformationOrigin ( Vector2  value )

inline

Sets the value of RenderTransformationOriginProperty.

See also

getRenderTransformationOrigin()

bool kanzi::Node2D::isSnapToPixel ( ) const

inline

Gets the value of SnapToPixelProperty.

See also

setSnapToPixel()

void kanzi::Node2D::setSnapToPixel ( bool  value )

inline

Sets the value of SnapToPixelProperty.

See also

isSnapToPixel()

MultisampleCount kanzi::Node2D::getMultisampleLevel ( ) const

inline

Gets the value of MultisampleLevelProperty.

See also

setMultisampleLevel()

Since

Kanzi 3.9.7

void kanzi::Node2D::setMultisampleLevel ( MultisampleCount  value )

inline

Sets the value of MultisampleLevelProperty.

See also

getMultisampleLevel()

Since

Kanzi 3.9.7

static PropertyTypeEditorInfoSharedPtr kanzi::Node2D::makeEditorInfo ( )

static

ChildConstIterator kanzi::Node2D::beginChildren

(

)

const

ChildConstIterator kanzi::Node2D::endChildren

(

)

const

ChildConstReverseIterator kanzi::Node2D::rbeginChildren

(

)

const

ChildConstReverseIterator kanzi::Node2D::rendChildren

(

)

const

void kanzi::Node2D::addChild

(

Node2DSharedPtr

child

)

Adds a child node.

Adding a 3D node node as a child of a 2D node is only allowed when adding a scene to a viewport. Screens can have only one child which is a 2D node.

void kanzi::Node2D::insertChild	(	size_t	index,
		Node2DSharedPtr	child
	)

Adds a child node for object node to given index.

Adding a 3D node node as a child of a 2D node is only allowed when adding a scene to a viewport. Screens can have only one child which is a 2D node.

void kanzi::Node2D::removeChild

(

const Node &

child

)

Removes child node.

void kanzi::Node2D::removeChild

(

size_t

index

)

Removes child node at specified index.

void kanzi::Node2D::removeAllChildren

(

)

Removes all child nodes.

Node2DSharedPtr kanzi::Node2D::getChild

(

size_t

index

)

const

Returns a child from given index from object node.

size_t kanzi::Node2D::getChildIndex

(

const Node &

child

)

const

Returns the index of a child in an object node.

bool kanzi::Node2D::hasChild

(

const Node &

child

)

const

Returns whether the given node is a child of this node.

Parameters

child

The node to check.

size_t kanzi::Node2D::getChildCount

(

)

const

Gets the number of children of the node.

void kanzi::Node2D::moveToBack

(

)

Repositions the node to the beginning of its parent's children, so that it is drawn first.

void kanzi::Node2D::moveToFront

(

)

Repositions the node to the end of its parent's children, so that it is drawn last.

void kanzi::Node2D::moveChildToPosition	(	Node2DSharedPtr	child,
		size_t	index
	)

Moves a child node to a given position in the list of child nodes.

Parameters

child	Child node to reposition.
index	Position at which to place the child node in the list of child nodes.

Since

Kanzi 3.9.3

RenderType kanzi::Node2D::getRenderType ( ) const

inline

Get render type.

Returns

Render type enumeration.

NodeEffect2DSharedPtr kanzi::Node2D::getEffect ( ) const

inline

Gets the value of EffectProperty.

Since

Kanzi 3.9.0

NodeEffect2D* kanzi::Node2D::getRenderableEffect ( ) const

inline

Gets a pointer to the current effect if effect rendering is required.

Returns

If an effect is set and the effect is renderable, returns a pointer to the effect, otherwise nullptr.

NodeEffectRenderer2D* kanzi::Node2D::getEffectRenderer ( ) const

inline

Gets the effect renderer.

The effect renderer is set only if the effect is both set and is renderable.

Returns

Pointer to effect renderer.

bool kanzi::Node2D::hasEffect ( ) const

inline

Whether an active effect is applied to this node.

Returns

If an active effect is applied, true, otherwise false.

Since

Kanzi 3.9.0

NodeEffectPrefab2DSharedPtr kanzi::Node2D::getEffectPrefab ( ) const

inline

Gets the value of EffectPrefabProperty.

Since

Kanzi 3.9.0

void kanzi::Node2D::setEffectPrefab ( NodeEffectPrefab2DSharedPtr  value )

inline

Sets the value of EffectPrefabProperty.

Since

Kanzi 3.9.0

BrushSharedPtr kanzi::Node2D::getBackgroundBrush ( ) const

inline

Gets value of BackgroundBrushProperty.

void kanzi::Node2D::setBackgroundBrush ( BrushSharedPtr  value )

inline

Sets value of BackgroundBrushProperty.

BrushSharedPtr kanzi::Node2D::getCompositionBrush ( ) const

inline

Gets value of CompositionBrushProperty.

void kanzi::Node2D::setCompositionBrush ( BrushSharedPtr  value )

inline

Sets value of CompositionBrushProperty.

BrushSharedPtr kanzi::Node2D::getForegroundBrush ( ) const

inline

Gets value of ForegroundBrushProperty.

void kanzi::Node2D::setForegroundBrush ( BrushSharedPtr  value )

inline

Sets value of ForegroundBrushProperty.

BrushRenderer* kanzi::Node2D::getBackgroundBrushRenderer ( ) const

inline

Get background brush renderer.

Returns

Pointer to background brush renderer.

BrushRenderer* kanzi::Node2D::getForegroundBrushRenderer ( ) const

inline

Get foreground brush renderer.

Returns

Pointer to foreground brush renderer.

BrushRenderer* kanzi::Node2D::getCompositionBrushRenderer ( ) const

inline

Access cache result brush renderer.

Returns

Pointer to brush renderer.

SRTValue2D kanzi::Node2D::getRenderTransformation ( ) const

inline

Gets the value of RenderTransformationProperty.

See also

setRenderTransformation()

void kanzi::Node2D::setRenderTransformation ( SRTValue2D  value )

inline

Sets the value of RenderTransformationProperty.

See also

getRenderTransformation()

void kanzi::Node2D::render	(	Renderer3D &	renderer,
		CompositionStack &	compositionStack,
		const optional< Matrix3x3 > &	baseTransform
	)

Renders a node and its descendant nodes.

Parameters

renderer	Renderer to use.
compositionStack	Render context stack to use.
baseTransform	Optional transform in composition space.

void kanzi::Node2D::render ( Renderer3D &  renderer, CompositionStack &  compositionStack  )

inline

Render a node and its descendant nodes.

Omits the base transformation.

Parameters

renderer	Renderer to use.
compositionStack	Render context stack to use.

NodeVisual2D* kanzi::Node2D::getVisual ( ) const

inline

Access visual component.

Returns

Pointer to visual component or NULL if it doesn't exist.

TextureSharedPtr kanzi::Node2D::getRenderTarget ( ) const

inline

Gets value of RenderTargetProperty.

void kanzi::Node2D::setRenderTarget ( TextureSharedPtr  texture )

inline

Sets value of RenderTargetProperty.

TextureSharedPtr kanzi::Node2D::getCompositionTarget ( ) const

inline

Gets the composition target used for compositing the node.

The composition target can be set manually by you or created automatically by Kanzi.

Returns

Composition target for the node or nullptr.

bool kanzi::Node2D::hasCompositionTarget ( ) const

inline

Indicates whether the node has a composition target.

Returns

If the node has a composition target, true, otherwise false.

TextureSharedPtr kanzi::Node2D::getManagedCompositionTarget ( ) const

inline

Gets the managed composition target of a node.

Returns

The managed composition target or nullptr.

bool kanzi::Node2D::hasManagedCompositionTarget ( ) const

inline

Returns whether the node has a managed composition target.

Returns

If the node has a managed composition target, true, otherwise false.

bool kanzi::Node2D::isCacheValid ( ) const

inline

Returns whether the children cache is valid.

Returns

If the cache is valid, true, otherwise false.

void kanzi::Node2D::resetCache ( )

inline

Resets cached content for complete content of a node, including the node and its children.

Does not change the caching property. If caching is enabled, Kanzi recreates the cache on next render.

CompositionManager* kanzi::Node2D::getCompositionManager ( ) const

inline

Access composition manager.

NodeCompositor2D* kanzi::Node2D::getCompositor ( ) const

inline

Accesses the compositor component.

Returns

Pointer to compositor component or, if the component does not exist, nullptr.

void kanzi::Node2D::setAutoWidth

(

)

Sets a node to determine its width automatically.

void kanzi::Node2D::setAutoHeight

(

)

Sets a node to determine its height automatically.

void kanzi::Node2D::setAutoSize

(

)

Sets a node to determine its width and height automatically.

void kanzi::Node2D::setSize	(	float	width,
		float	height
	)

Sets the size of a node.

Parameters

width	The width to set.
height	The height to set.

void kanzi::Node2D::setSize ( Vector2  size )

inline

Sets the size of a node.

Parameters

size	A vector that contains the width and height to set.

KZ_DEPRECATED void kanzi::Node2D::setLayoutSize ( float  width, float  height  )

inline

Sets size properties of the node.

Deprecated:

Use setSize() instead.

See also

setSize

SRTValue2D kanzi::Node2D::getLayoutTransformation ( ) const

inline

Gets the value of the LayoutTransformationProperty.

See also

setLayoutTransformation()

void kanzi::Node2D::setLayoutTransformation ( SRTValue2D  value )

inline

Sets the value of the LayoutTransformationProperty.

See also

getLayoutTransformation()

Vector2 kanzi::Node2D::getDesiredSize ( ) const

inline

Gets the desired size of a node.

Returns

Size vector.

void kanzi::Node2D::setDesiredSize ( Vector2  desiredSize )

inline

Sets the desired size of a node.

Parameters

desiredSize

A vector that contains the size to set.

Vector2 kanzi::Node2D::getAllocatedSize ( ) const

inline

Gets the allocated size of a node.

Returns

Size vector.

void kanzi::Node2D::setAllocatedSize ( Vector2  allocatedSize )

inline

Sets the allocated size of a node.

If the allocated size differs from the existing allocated size, calling this function invalidates the arrange.

Parameters

allocatedSize

A vector that contains the size to set.

Vector2 kanzi::Node2D::getActualSize ( ) const

inline

Gets the actual size of a node.

Returns

Size vector.

void kanzi::Node2D::setActualSize ( Vector2  actualSize )

inline

Sets the actual size of a node.

Parameters

actualSize

A vector that contains the size to set.

void kanzi::Node2D::setActualSize ( float  sizeX, float  sizeY  )

inline

Sets the actual size of a node.

Parameters

sizeX	The x component of the size.
sizeY	The y component of the size.

Matrix3x3 kanzi::Node2D::getArrangeTransform ( ) const

inline

Gets the arrange transform.

Returns

Transformation matrix.

void kanzi::Node2D::setArrangeTransform ( Matrix3x3  transform )

inline

Sets the arrange transform.

If the layout transform differs from the existing transform, calling this function invalidates the arrange.

Parameters

transform

Transformation matrix.

void kanzi::Node2D::layout

(

optional< Matrix3x3 >

rootTransform

)

Does a layout pass starting from this node and iterating recursively all of its children.

Measure pass only descends up to nodes marked for requiring measure and then propagates upwards for all nodes that were changed. After measure, all nodes marked for requiring arrange and all their children are arranged.

The actual size of a node is not known before layout. You can call layout manually to determine the actual sizes of nodes. Before calling layout, the node must have allocated size set to limit node area to anything less than infinity. Normal layout process sets allocated size to current composition size.

Parameters

rootTransform

Transform applied to root node for arrange pass if set. Can be used to offset complete node tree, but should usually be empty.

void kanzi::Node2D::layout ( )

inline

Does layout pass with no root transformation (identity).

Otherwise same as layout() with optional Matrix3x3.

bool kanzi::Node2D::measure	(	const Vector2 *	availableSize,
		bool	handleStretch
	)

Measures one node.

Parameters

availableSize	Available size passed from parent, can be NULL.
handleStretch	Whether the node should handle stretching of node to fill available space.

Returns

If measure needs to be propagated, true, otherwise false.

virtual bool kanzi::Node2D::measureRecursive ( )

virtual

Performs measure recursively.

Reimplemented in kanzi::Viewport2D.

void kanzi::Node2D::arrange

(

)

Performs layout arrangement on a 2D node.

void kanzi::Node2D::transform ( )

inline

Transforms a 2D node.

Since

3.9.4

Matrix3x3 kanzi::Node2D::getWorldTransform ( ) const

inline

Gets the world transformation matrix.

Returns

Transformation matrix.

bool kanzi::Node2D::containsLocal

(

Vector2

point

)

const

Returns whether a node area contains a point defined in the local space of the node.

Returns

If the node area contains the point, true, otherwise false.

optional<Vector2> kanzi::Node2D::containsGlobal

(

Vector2

point

)

const

Checks whether a node area contains a point defined in screen space. If it does, writes the node-space coordinates into the outgoing point.

optional<Vector2> kanzi::Node2D::globalToLocal

(

Vector2

point

)

const

NodeSharedPtr kanzi::Node2D::hitTest

(

Vector2

point

)

Performs a hit test to a 2D node and all its child nodes.

Returns the topmost 2D node under given point.

Parameters

point

Point in world coordinates.

Returns

Node hit or an empty shared pointer.

NodeSharedPtr kanzi::Node2D::hitTest	(	Vector2	point,
		const Metaclass *	type
	)

Performs a hit test to a 2D node and all its child nodes.

This is a wrapper function that allows to filter only selected types of nodes for hit testing.

Parameters

point	Point in world coordinates.
type	Metaclass type to limit hit testing to.

Returns

Node hit or an empty shared pointer.

NodeSharedPtr kanzi::Node2D::hitTestIterate	(	Vector2	point,
		HitTestVisitor	visitor,
		void *	userData
	)

Hit tests nodes recursively from this node downwards and calls visitor function on the hit nodes.

Used for specific implementations of hit testing.

Parameters

point	Point in world coordinates.
visitor	Visitor function to call on nodes.
userData	User data passed to visitor function.

Returns

Node hit or an empty shared pointer.

virtual tuple<NodeSharedPtr, Ray, float> kanzi::Node2D::hitTestContent ( Vector2  point )

virtual

Default implementation of Node2D content hit test.

Returns the node itself.

Parameters

point

Point in node space.

Returns

Tuple of found node, ray hitting that node and distance along the ray.

Reimplemented in kanzi::Viewport2D.

template<typename T >

shared_ptr<T> kanzi::Node2D::hitTest ( Vector2  point )

inline

Wrapper for hitTest(Vector2), casts the return value.

Parameters

point

Point in world coordinates.

Returns

Typed node hit or an empty shared pointer.

template<typename T >

shared_ptr<T> kanzi::Node2D::hitTest ( Vector2  point, const Metaclass *  type  )

inline

Wrapper for hitTest(Vector2, const Metaclass), casts the return value.

Parameters

point	Point in world coordinates.
type	Metaclass type to limit hit testing to.

Returns

Typed node hit or an empty shared pointer.

NodeSharedPtr kanzi::Node2D::findAbstractChildOverride ( string_view  name )

overridevirtual

Node::findAbstractChildOverride() implementation.

Implements kanzi::Node.

Reimplemented in kanzi::Viewport2D.

VisitorResult kanzi::Node2D::visitAbstractChildOverride ( const Visitor &  visitor, VisitorOrder  order  )

overridevirtual

Node::visitAbstractChild implementation.

Implements kanzi::Node.

Reimplemented in kanzi::Viewport2D.

bool kanzi::Node2D::addAbstractChildOverride ( NodeSharedPtr  child )

overridevirtual

Node::addAbstractChildOverride() implementation.

Implements kanzi::Node.

size_t kanzi::Node2D::getAbstractChildCountOverride ( )

overridevirtual

Node::getAbstractChildCountOverride() implementation.

Implements kanzi::Node.

Reimplemented in kanzi::Viewport2D.

size_t kanzi::Node2D::getAbstractChildIndexOverride ( const Node &  node )

overridevirtual

Implements kanzi::Node.

Reimplemented in kanzi::Viewport2D.

NodeSharedPtr kanzi::Node2D::getAbstractChildOverride ( size_t  index )

overridevirtual

Node::getAbstractChildOverride() implementation.

Implements kanzi::Node.

Reimplemented in kanzi::Viewport2D.

bool kanzi::Node2D::removeAbstractChildOverride ( Node &  child )

overridevirtual

Node::removeAbstractChildOverride() implementation.

Implements kanzi::Node.

bool kanzi::Node2D::moveAbstractChildToPositionOverride ( NodeSharedPtr  child, size_t  index  )

overridevirtual

Node::moveAbstractChildToPosition() implementation.

Implements kanzi::Node.

bool kanzi::Node2D::compositionRequiresAlpha ( ) const

inline

Returns whether composition requires alpha.

Returns

If composition requires alpha, true, otherwise false.

void kanzi::Node2D::setCompositionRequiresAlpha ( bool  enabled )

inline

Turns the composition alpha requirement on or off.

Parameters

enabled

To enable the composition alpha requirement, pass true. To disable the composition alpha requirement, pass false.

bool kanzi::Node2D::compositionRequiresDepth ( ) const

inline

Returns whether composition requires depth.

Returns

If composition requires depth, true, otherwise false.

void kanzi::Node2D::setCompositionRequiresDepth ( bool  enabled )

inline

Turns the composition depth requirement on or off.

Parameters

enabled

To enable the composition depth requirement, pass true. To disable the composition depth requirement, pass false.

bool kanzi::Node2D::compositionRequiresStencil ( ) const

inline

Returns whether composition requires stencil.

Returns

If composition requires stencil, true, otherwise false.

void kanzi::Node2D::setCompositionRequiresStencil ( bool  enabled )

inline

Turns the composition stencil requirement on or off.

Parameters

enabled

To enable the composition stencil requirement, pass true. To disable the composition stencil requirement, pass false.

QuadDescription kanzi::Node2D::getBackgroundQuad ( ) const

inline

Gets the background quad description.

This function returns a copy of the background quad struct. Use this function only for tests.

ClippingArea kanzi::Node2D::getClippingArea ( ) const

inline

Gets the clipping area.

This function returns a copy of the clipping struct. Use this function only for tests.

float kanzi::Node2D::getLayoutOpacity ( ) const

inline

Gets the opacity after propagation from layouting hierarchy.

Returns

Current layouted opacity.

Matrix3x3 kanzi::Node2D::getParentSpaceTransform ( ) const

inline

Gets the parent space transform of the 2D node.

Returns

Parent space transform.

Matrix3x3 kanzi::Node2D::getChildCompositionSpaceTransform ( ) const

inline

Gets the transform used for composition children of the 2D node.

Kanzi uses the same transform for rendering the background and foreground of the node.

Returns

Child composition space transform.

Matrix3x3 kanzi::Node2D::getRenderQuadTransform ( ) const

inline

Gets transformation used to render the 2D node.

Returns

Transform used for rendering the quad.

bool kanzi::Node2D::hasCenterClipArea ( ) const

inline

Returns whether a 2D node has the center clip area (the area of foreground content).

Returns

If the node has the area, true, otherwise false.

bool kanzi::Node2D::hasOutsideClipArea ( ) const

inline

Returns whether a 2D node has outside clipping area.

This means any area outside the foreground content.

Returns

If the node has the area, true, otherwise false.

bool kanzi::Node2D::hasTranslucentForeground ( ) const

inline

Returns whether the foreground of a 2D node has translucency.

For the contributing flags, see setForegroundIsTranslucent() and setForegroundTranslucencyRequested().

Returns

If the foreground has translucency, true, otherwise false.

void kanzi::Node2D::setForegroundIsTranslucent ( bool  enabled )

inline

Sets the status of the foreground translucency.

To combine the factors that determine translucency, Kanzi calculates this flag from layout time.

Parameters

enabled

To enable foreground translucency, pass true. To disable foreground translucency, pass false.

void kanzi::Node2D::setForegroundTranslucencyRequested ( bool  enabled )

inline

Enables or disables the foreground translucency request.

Use this to request "extra" translucency in the updateRenderOverride() implementations of inherited classes. The extra request for translucency does not affect the default rendering of the foreground or background brush, but it can affect the format of the allocated composition target.

Parameters

enabled

To enable the foreground translucency request, pass true. To disable the foreground translucency request, pass false.

void kanzi::Node2D::setCompositionRequested ( bool  enabled )

inline

Turns the composition request on or off.

This is a composition request from code, not by setting a property.

Parameters

enabled

To enable the composition request, pass true. To disable the composition request, pass false.

void kanzi::Node2D::setPotentialCompositionBitViewport ( bool  enabled )

inline

Turns the potential composition flag for the viewport on or off.

Parameters

enabled

To enable the composition flag, pass true. To disable the composition flag, pass false.

bool kanzi::Node2D::isClearColorAllowed ( ) const

inline

Returns whether this Node2D is allowed and should clear the color buffer of its own composition target.

By default, clearing is allowed but can be explicitly denied by user using properties.

This function does not access the property, but a flag determined during layout.

void kanzi::Node2D::setClearColorAllowed ( bool  enabled )

inline

Sets clear color allowed.

Parameters

enabled

To set clear color allowed, pass true. To set clear color not allowed, pass false.

bool kanzi::Node2D::isRenderChildrenAllowed ( ) const

inline

Returns whether rendering children is allowed.

Returns

If rendering children is allowed, true, otherwise false.

bool kanzi::Node2D::isRenderSelfAllowed ( ) const

inline

Returns whether render self is allowed.

Returns

If render self is allowed, true, otherwise false.

bool kanzi::Node2D::isVisibleForHitTesting ( ) const

inline

Returns whether a 2D node is visible for hit testing.

For a node to be visible for hit testing, that node must be visible and not be rendered off-screen.

Returns

If the node is visible for hit testing, true, otherwise false.

bool kanzi::Node2D::requiresBackgroundBrushRendering ( ) const

inline

Returns whether background brush rendering is required.

Returns

If background brush rendering is required, true, otherwise false.

bool kanzi::Node2D::requiresForegroundBrushRendering ( ) const

inline

Returns whether foreground brush rendering is required.

Returns

If foreground brush rendering is required, true, otherwise false.

bool kanzi::Node2D::requiresLocalTransformationScope ( ) const

inline

Indicates whether local transformation scope is required.

Returns

If local transformation scope is required, true, otherwise false.

void kanzi::Node2D::setRequiresLocalTransformationScope ( bool  enabled )

inline

Sets the local transformation scope requirement.

Parameters

enabled

To enable, set to true. To disable, set to false.

bool kanzi::Node2D::requiresTilingUpdate ( ) const

inline

Returns whether node geometry requires an update for the tiling.

Returns

If an update is required for tiling, true, otherwise false.

Since

Kanzi 3.9.5

void kanzi::Node2D::setRequiresTilingUpdate ( bool  enabled )

inline

Sets the tiling update requirement.

Parameters

enabled

To enable the tiling update requirement, set to true. To disable the tiling update requirement, set to false.

Since

Kanzi 3.9.5

bool kanzi::Node2D::isSelfInCompositionTarget ( ) const

inline

Returns whether the node is going to get rendered into a composition target.

Returns

If node is going the get rendered to a composition target, true, otherwise false.

bool kanzi::Node2D::isCompositionPotentiallyRequired ( ) const

inline

Tell if node itself is going to get rendered into a composition target.

Returns

If node is going the get rendered to a composition target true, otherwise false.

Vector2 kanzi::Node2D::getContentDesiredSize ( ) const

inline

Gets the size desired by content.

Returns

Size vector.

Vector2 kanzi::Node2D::getSecondPassDesiredSize ( ) const

inline

Gets the second pass desired size.

Returns

Size vector.

Vector2 kanzi::Node2D::getUserDesiredSize ( ) const

inline

Gets the size desired by user.

Returns

Size vector.

Matrix3x3 kanzi::Node2D::getPartialArrangeTransform ( ) const

inline

Gets the partial arrange transform.

Returns

Propagate transform.

bool kanzi::Node2D::isCompletelyClipped ( ) const

inline

Returns whether a node is completely clipped and needs not be rendered.

Returns

If the node is completely clipped, true, otherwise false.

bool kanzi::Node2D::isCompletelyTransparent ( ) const

inline

Returns whether a node is completely transparent.

Returns

If the node is completely transparent, true, otherwise false.

bool kanzi::Node2D::isPerspectiveTransformActive ( ) const

inline

Returns whether a node is being perspective transformed.

Returns

If the node is being perspective transformed, true, otherwise false. Kanzi sets the internal active status during layout.

void kanzi::Node2D::initialize ( )

protected

Node2D -specific initialization.

NodeVisual2D& kanzi::Node2D::acquireVisual ( )

protected

Initializes and returns visual structure.

Allocates memory for rendering-related information. By default this information is unallocated.

virtual void kanzi::Node2D::renderOverride ( Renderer3D &  renderer, CompositionStack &  compositionStack, const optional< Matrix3x3 > &  baseTransform  )

protectedvirtual

Node-specific top-level render call.

Allows for overriding the complete Node2D rendering process. Should normally not be overridden. Even if overridden, inherited implementations should usually call base implementation.

Parameters

renderer	Renderer.
compositionStack	Render context stack.
baseTransform	Optional additional transform in the composition space.

void kanzi::Node2D::renderRecursive ( Renderer3D &  renderer, CompositionStack &  compositionStack, const optional< Matrix3x3 > &  baseTransform  )

protected

Renders a Node2D and then recursively all its children.

The base transform is optional. If it is set, Kanzi multiplies it with the transform of the node.

Parameters

renderer	Renderer.
compositionStack	Render context stack.
baseTransform	Optional transform for rendered content.

virtual void kanzi::Node2D::renderSelfOverride ( Renderer3D &  renderer, CompositionStack &  compositionStack, const optional< Matrix3x3 > &  baseTransform  )

protectedvirtual

Node-specific rendering.

Default implementation renders background normally and passes to foreground render. Inherit to render more complex forms. The base transform is optional. If it is set, Kanzi multiplies it with the transform of the node.

Parameters

renderer	Renderer.
compositionStack	Render context stack.
baseTransform	Transform applied to node itself in parent space.

Reimplemented in kanzi::Viewport2D, kanzi::ProgressiveRenderingViewport2D, and kanzi::Portal.

void kanzi::Node2D::renderChildren ( Renderer3D &  renderer, CompositionStack &  compositionStack, const optional< Matrix3x3 > &  baseTransform  )

protected

Renders all children of a Node2D.

The base transform is optional. If it is set, Kanzi multiplies it with the transform of the node.

Parameters

renderer	Renderer.
compositionStack	Render context stack.
baseTransform	Transform applied to node itself in parent space.

void kanzi::Node2D::renderBackground ( Renderer3D &  renderer, const CompositionStack &  compositionStack, const Matrix3x3 &  transform  )

protected

Renders the background quad of a Node2D.

Parameters

renderer	Renderer.
compositionStack	Render context stack.
transform	Transform used to render the foreground.

void kanzi::Node2D::renderForeground ( Renderer3D &  renderer, CompositionStack &  compositionStack, const Matrix3x3 &  transform  )

protected

Renders the foreground of a Node2D.

Calls renderForegroundOverride().

Parameters

renderer	Renderer.
compositionStack	Render context stack.
transform	Transform used to render the foreground.

virtual void kanzi::Node2D::renderForegroundOverride ( Renderer3D &  renderer, CompositionStack &  compositionStack, const Matrix3x3 &  transform  )

protectedvirtual

Node-specific foreground render.

Default implementation renders the center clip area from using the assigned foreground brush.

Parameters

renderer	Renderer.
compositionStack	Render context stack.
transform	Transform used to render the foreground.

Reimplemented in kanzi::TextBox2D, and kanzi::TextBlock2D.

bool kanzi::Node2D::pushLocalViewportArea ( CompositionStack &  compositionStack, const optional< Matrix3x3 > &  baseTransform  )

protected

Pushes local viewport and scissor area into composition stack if it is required.

Nodes with render type RenderTypeManual rely on viewport and scissoring settings to clip their output. This needs an additional composition area pushed to the composition stack.

Parameters

compositionStack	Composition stack.
baseTransform	Optional transform in composition space.

Returns

True if a new area was pushed into composition stack and needs to be popped after rendering.

NodeCompositor2D& kanzi::Node2D::acquireCompositor ( )

protected

Initializes and returns composition structure.

Allocates memory for all composition-related information. By default this information is unallocated.

Returns

Reference to the compositor.

Matrix3x3 kanzi::Node2D::applyCompositionForRenderSelf ( Renderer3D &  renderer, CompositionStack &  compositionStack, const optional< Matrix3x3 > &  baseTransform  )

protected

Applies composition for rendering the node.

Used in the standard render path. Either applies the perspective projection or uses the current composition stack as-is. Can be used in inheriting classes implementing renderSelfOverride() but not wanting to re-invent perspective transform.

Parameters

renderer	Renderer.
compositionStack	Render context stack.
baseTransform	Transform applied to node itself in parent space.

Returns

Matrix to be passed to rendering the node.

void kanzi::Node2D::clearCompositionTarget ( Renderer3D &  renderer, CompositionStack &  compositionStack  )

protected

Clears the composition target of a 2D node.

Kanzi executes this function before rendering the node into its composition target.

Parameters

renderer	Renderer to use.
compositionStack	Render context stack.

Since

Kanzi 3.9.6 removed clearColor parameter.

virtual Vector2 kanzi::Node2D::measureOverride ( Vector2  availableSize )

protectedvirtual

Default implementation of Node2D size calculation.

Reimplemented in kanzi::ListBoxConceptImpl< Node2D, GridListBox2D, GridListBox2DTraits >, kanzi::Viewport2D, kanzi::ToggleButtonGroupConceptImpl< Node2D, ToggleButtonGroup2D >, kanzi::TextBox2D, kanzi::GridLayout2D, kanzi::TrajectoryLayout2D, kanzi::Image2D, kanzi::FlowLayout2D, kanzi::ContentLayout2D, kanzi::TextBlock2D, kanzi::StackLayout2D, kanzi::PrefabView2D, kanzi::Portal, kanzi::DockLayout2D, kanzi::ToggleButton2D, and kanzi::Button2D.

virtual void kanzi::Node2D::arrangeRecursive ( const Matrix3x3 &  worldTransform, const Matrix3x3 &  parentTransform, bool  arrangeNeeded, bool  transformChanged  )

protectedvirtual

Perform arrange recursively.

Reimplemented in kanzi::Viewport2D.

virtual void kanzi::Node2D::arrangeOverride ( Vector2  actualSize )

protectedvirtual

Default implementation of Node2D arrange.

Reimplemented in kanzi::ListBoxConceptImpl< Node2D, GridListBox2D, GridListBox2DTraits >, kanzi::Page, kanzi::GridListBox2D, kanzi::TextBox2D, kanzi::ProgressiveRenderingViewport2D, kanzi::GridLayout2D, kanzi::TrajectoryLayout2D, kanzi::FlowLayout2D, kanzi::ContentLayout2D, kanzi::TextBlock2D, kanzi::StackLayout2D, and kanzi::DockLayout2D.

optional<float> kanzi::Node2D::getUserAspectRatio ( ) const

protected

Gets the value of the aspect ratio property assigned to a node.

Aspect ratio of 0 or smaller equals no aspect ratio set.

Returns

optional aspect ratio.

optional<float> kanzi::Node2D::getUserHeight ( ) const

protected

Gets the value of the layout height property assigned to a node.

Having an offscreen render target overrides the default size of a node.

Sizes smaller than 0 are clamped to 0.

Returns

Optional height.

optional<float> kanzi::Node2D::getUserWidth ( ) const

protected

Gets the value of the layout width property assigned to a node.

Having an offscreen render target overrides the default size of a node.

Sizes smaller than 0 are clamped to 0.

Returns

Optional width.

Vector2 kanzi::Node2D::getDesiredSizeAxisAlignedBoundingBoxMinimum ( ) const

inlineprotected

Gets the desired size axis aligned bounding box minimum.

Returns

Desired size minimum.

void kanzi::Node2D::setDesiredSizeAxisAlignedBoundingBoxMinimum ( Vector2  size )

inlineprotected

Sets the desired size axis aligned bounding box minimum.

Parameters

size	New size vector.

void kanzi::Node2D::setDesiredSizeAxisAlignedBoundingBoxMinimum ( float  sizeX, float  sizeY  )

inlineprotected

Sets the desired size axis aligned bounding box minimum.

Parameters

sizeX	New desired minimum size X component.
sizeY	New desired minimum size Y component.

Vector2 kanzi::Node2D::getDesiredSizeAxisAlignedBoundingBoxMaximum ( ) const

inlineprotected

Gets the desired size axis aligned bounding box maximum.

Returns

Desired size maximum.

void kanzi::Node2D::setDesiredSizeAxisAlignedBoundingBoxMaximum ( Vector2  size )

inlineprotected

Sets the desired size axis aligned bounding box maximum.

Parameters

size	New size vector.

void kanzi::Node2D::setDesiredSizeAxisAlignedBoundingBoxMaximum ( float  sizeX, float  sizeY  )

inlineprotected

Sets the desired size maximum.

Parameters

sizeX	New desired maximum size X component.
sizeY	New desired maximum size Y component.

void kanzi::Node2D::calculateTransformedBoundingArea ( const Matrix3x3 &  transform, Vector2  sizeIn  )

protected

Calculates new transformed bounding area.

Parameters

transform	Matrix to use for calculation.
sizeIn	Input size.

void kanzi::Node2D::updateFinalTransform ( const Matrix3x3 &  worldTransform, const Matrix3x3 &  parentTransform  )

protected

Updates the transformation status based on node properties and calculations in measure and arrange phases.

Called from within updateRender() if necessary (if transform has changed). Kanzi stores all calculated transforms into node fields.

Parameters

worldTransform	Transformation in world space.
parentTransform	Parent's transformation in its composition space.

bool kanzi::Node2D::updateRender ( const Matrix3x3 &  worldTransform, const Matrix3x3 &  parentTransform, bool  transformChanged  )

protected

Validates a node for rendering.

This is the final part of layouting. (Re)Calculate transformation components, decide whether to render to a framebuffer object, and so on.

Kanzi recalculates transformations only if the transform of the node or its parent changed.

Parameters

worldTransform	Transformation in world space.
parentTransform	Transformation in parent space.
transformChanged	Indicates whether the transform of the node or its parent changed and needs updating.

Returns

If there are additional reasons detected during transform to propagate the transformation process downward, true, otherwise false.

virtual void kanzi::Node2D::updateRenderOverride ( )

protectedvirtual

Node-specific updates done before render.

Reimplemented in kanzi::Viewport2D, kanzi::TextBox2D, kanzi::ProgressiveRenderingViewport2D, kanzi::Image2D, and kanzi::TextBlock2D.

optional<QuadDescription> kanzi::Node2D::calculateContentStretch ( Vector2  renderSize, Vector2  contentSize  )

protected

Calculates content stretch.

Parameters

renderSize	Rendering area size.
contentSize	Size of content rendered to rendering area.

Returns

Optional foreground quad, if it is relevant.

ClippingArea kanzi::Node2D::calculateClippingArea ( const Matrix3x3 &  parentSpaceTransform ) const

protected

Calculates clipping parameters.

Returns

New clipping parameters.

unsigned int kanzi::Node2D::performClipping ( QuadDescription &  backgroundQuad, optional< QuadDescription > &  foregroundQuad, optional< QuadDescription > &  effectQuad, unsigned int  clippingResult  )

protected

Performs rectangle clipping.

Parameters

backgroundQuad	Background quad, modified in-place.
foregroundQuad	Optional foreground quad, modified in-place.
effectQuad	Optional effect quad, modified in-place.
clippingResult	Current clipping result mask.

Returns

Clipping mask.

virtual void kanzi::Node2D::onTransform ( )

protectedvirtual

Node2D transform function.

Since

3.9.4

Reimplemented in kanzi::Viewport2D.

void kanzi::Node2D::onAttached ( )

overrideprotectedvirtual

Node::onDetached() implementation.

Reimplemented from kanzi::Node.

Reimplemented in kanzi::ListBoxConceptImpl< Node2D, GridListBox2D, GridListBox2DTraits >, kanzi::NinePatchImage2D, kanzi::ButtonConceptImpl< Node2D, Button2D >, kanzi::ButtonConceptImpl< Node2D, ToggleButton2D >, kanzi::Page, kanzi::Screen, kanzi::Viewport2D, kanzi::PageHost, kanzi::ProgressiveRenderingViewport2D, kanzi::TextBox2D, kanzi::ActivityConceptImpl< ContentLayout2D, Activity2D >, kanzi::ClickConceptImpl< Node2D, Button2D >, kanzi::ClickConceptImpl< ContentLayout2D, ListBoxItemContainer2D >, kanzi::ClickConceptImpl< Node2D, ToggleButton2D >, kanzi::ParallelActivityHostImpl< ContentLayout2D, ParallelActivityHost2D >, kanzi::TextBlock2D, kanzi::ActivityElementImpl< ContentLayout2D, DataDrivenExclusiveActivityHost2D >, kanzi::ActivityElementImpl< ContentLayout2D, ParallelActivityHost2D >, kanzi::ActivityElementImpl< ContentLayout2D, ExclusiveActivityHost2D >, and kanzi::ActivityElementImpl< ContentLayout2D, Activity2D >.

void kanzi::Node2D::onDetached ( )

overrideprotectedvirtual

Node::onDetached() implementation.

Reimplemented from kanzi::Node.

Reimplemented in kanzi::TextBoxConceptImpl< Node2D, TextBox2D, TextBox2DTraits >, kanzi::ListBoxConceptImpl< Node2D, GridListBox2D, GridListBox2DTraits >, kanzi::NinePatchImage2D, kanzi::ButtonConceptImpl< Node2D, Button2D >, kanzi::ButtonConceptImpl< Node2D, ToggleButton2D >, kanzi::Page, kanzi::Screen, kanzi::Viewport2D, kanzi::PageHost, kanzi::ProgressiveRenderingViewport2D, kanzi::ToggleButtonGroupConceptImpl< Node2D, ToggleButtonGroup2D >, kanzi::ActivityConceptImpl< ContentLayout2D, Activity2D >, kanzi::ClickConceptImpl< Node2D, Button2D >, kanzi::ClickConceptImpl< ContentLayout2D, ListBoxItemContainer2D >, kanzi::ClickConceptImpl< Node2D, ToggleButton2D >, kanzi::ParallelActivityHostImpl< ContentLayout2D, ParallelActivityHost2D >, kanzi::TextBlock2D, kanzi::DataDrivenExclusiveActivityHostImpl< ContentLayout2D, DataDrivenExclusiveActivityHost2D >, kanzi::ExclusiveActivityHostImpl< ContentLayout2D, ExclusiveActivityHost2D >, kanzi::ExclusiveActivityHostBaseImpl< ContentLayout2D, DataDrivenExclusiveActivityHost2D >, kanzi::ExclusiveActivityHostBaseImpl< ContentLayout2D, ExclusiveActivityHost2D >, kanzi::ActivityElementImpl< ContentLayout2D, DataDrivenExclusiveActivityHost2D >, kanzi::ActivityElementImpl< ContentLayout2D, ParallelActivityHost2D >, kanzi::ActivityElementImpl< ContentLayout2D, ExclusiveActivityHost2D >, and kanzi::ActivityElementImpl< ContentLayout2D, Activity2D >.

void kanzi::Node2D::onNodePropertyChanged ( AbstractPropertyType  propertyType, PropertyNotificationReason  reason  )

overrideprotectedvirtual

Node::onNodePropertyChanged implementation.

Reimplemented from kanzi::Node.

Reimplemented in kanzi::TextBoxConceptImpl< Node2D, TextBox2D, TextBox2DTraits >, kanzi::ScrollViewConceptImpl< Node2D, ScrollView2D >, kanzi::ListBoxConceptImpl< Node2D, GridListBox2D, GridListBox2DTraits >, kanzi::NinePatchImage2D, kanzi::GridLayoutConceptImpl< Node2D, GridLayout2D >, kanzi::ButtonConceptImpl< Node2D, Button2D >, kanzi::ButtonConceptImpl< Node2D, ToggleButton2D >, kanzi::TrajectoryLayoutConceptImpl< Node2D, TrajectoryLayout2D >, kanzi::Viewport2D, kanzi::Screen, kanzi::GridListBox2D, kanzi::PageHost, kanzi::ListBoxItemContainerImpl< ContentLayout2D, ListBoxItemContainer2D, ContentLayout2D >, kanzi::PrefabViewConceptImpl< Node2D, PrefabView2D >, kanzi::TextBox2D, kanzi::ToggleButtonGroupConceptImpl< Node2D, ToggleButtonGroup2D >, kanzi::ParallelActivityHostImpl< ContentLayout2D, ParallelActivityHost2D >, kanzi::TextBlockConceptImpl< Node2D, TextBlock2D >, kanzi::ClickConceptImpl< Node2D, Button2D >, kanzi::ClickConceptImpl< ContentLayout2D, ListBoxItemContainer2D >, kanzi::ClickConceptImpl< Node2D, ToggleButton2D >, kanzi::TextBlock2D, kanzi::ExclusiveActivityHostImpl< ContentLayout2D, ExclusiveActivityHost2D >, kanzi::ExclusiveActivityHostBaseImpl< ContentLayout2D, DataDrivenExclusiveActivityHost2D >, kanzi::ExclusiveActivityHostBaseImpl< ContentLayout2D, ExclusiveActivityHost2D >, kanzi::DataDrivenExclusiveActivityHostImpl< ContentLayout2D, DataDrivenExclusiveActivityHost2D >, kanzi::ActivityElementImpl< ContentLayout2D, DataDrivenExclusiveActivityHost2D >, kanzi::ActivityElementImpl< ContentLayout2D, ParallelActivityHost2D >, kanzi::ActivityElementImpl< ContentLayout2D, ExclusiveActivityHost2D >, and kanzi::ActivityElementImpl< ContentLayout2D, Activity2D >.

void kanzi::Node2D::restoreResources ( )

overrideprotectedvirtual

Node::restoreResources() implementation.

Reimplemented from kanzi::Node.

Reimplemented in kanzi::Viewport2D, and kanzi::ProgressiveRenderingViewport2D.

bool kanzi::Node2D::isEmptyActualSize ( ) const

inlineprotected

Returns whether the size of the node is empty or invalid.

Node must have positive size, greater than zero on both axes to be considered having a non-empty size.

Having empty size prevents rendering of node itself but not of its children.

bool kanzi::Node2D::isForegroundHintOpaque ( ) const

inlineprotected

Indicates whether foreground hint is opaque.

Returns

If foreground hint is opaque, true, otherwise false.

bool kanzi::Node2D::isForegroundHintTranslucent ( ) const

inlineprotected

Indicates whether foreground hint is translucent.

Returns

If foreground hint is translucent, true, otherwise false.

void kanzi::Node2D::setPartialArrangeTransform ( Matrix3x3  transform )

inlineprotected

Sets partial arrange transform.

If the transform has changed, invalidates final transformation.

Parameters

transform

The partial arrange transform to set.

void kanzi::Node2D::setRenderChildrenAllowed ( bool  enabled )

inlineprotected

Turn render children on or off.

Parameters

enabled

True to turn on, false to turn off.

void kanzi::Node2D::setRenderSelfAllowed ( bool  enabled )

inlineprotected

Turn render self on or off.

Parameters

enabled

True to turn on, false to turn off.

void kanzi::Node2D::setRenderType ( RenderType  renderType )

inlineprotected

Set render type.

Parameters

renderType

Render type.

void kanzi::Node2D::updateContentTexture ( TextureSharedPtr  texture )

inlineprotected

Update content texture for the foreground brush.

void kanzi::Node2D::setSecondPassDesiredSize ( Vector2  size )

inlineprotected

Set second pass desired size.

Parameters

size	New size vector.

bool kanzi::Node2D::calculatePerspectiveTransformMatrices ( int  viewportWidth, int  viewportHeight, Matrix4x4 &  cameraMatrix, Matrix4x4 &  projectionMatrix  ) const

inlineprotected

Calculate perspective transform matrices.

This is a testing support function and should not be used by user code.

Returns

true if a perspective transform exists. In this case the cameraMatrix and projectionMatrix arguments are set to the final matrices based on the specified viewport size.

void kanzi::Node2D::setEffect ( NodeEffect2DSharedPtr  value )

inlineprotected

Sets the value of EffectProperty.

Since

Kanzi 3.9.0

Friends And Related Function Documentation

friend class Screen

friend

friend class Viewport3D

friend

void doListBoxArrange ( Node2D &  node )

friend

Member Data Documentation

PropertyType<float> kanzi::Node2D::AspectRatioProperty

static

AspectRatio property.

The default value is 1.0f.

See also

setAspectRatio(), getAspectRatio()

PropertyType<bool> kanzi::Node2D::ForceCompositionProperty

static

ForceComposition property.

The default value is false.

See also

setForceComposition(), isForceComposition()

PropertyType<Node2D::ForegroundHint> kanzi::Node2D::ForegroundHintProperty

static

ForegroundHint property.

The default value is Node2D::ForegroundHintNone.

See also

setForegroundHint(), getForegroundHint()

PropertyType<bool> kanzi::Node2D::OffscreenRenderingProperty

static

OffscreenRendering property.

The default value is false.

See also

setOffscreenRendering(), isOffscreenRendering()

PropertyType<bool> kanzi::Node2D::DisableRenderTargetClearProperty

static

DisableRenderTargetClear property.

The default value is false.

See also

setDisableRenderTargetClear(), isDisableRenderTargetClear()

PropertyType<Node2D::PixelFormat> kanzi::Node2D::PixelFormatProperty

static

PixelFormat property.

The default value is Node2D::PixelFormatRgb.

See also

setPixelFormat(), getPixelFormat()

PropertyType<bool> kanzi::Node2D::RenderSelfProperty

static

RenderSelf property.

The default value is true.

See also

setRenderSelf(), isRenderSelf()

PropertyType<ResourceSharedPtr> kanzi::Node2D::RenderTargetProperty

static

RenderTarget property.

The default value is ResourceSharedPtr().

See also

setRenderTarget(), getRenderTarget()

PropertyType<float> kanzi::Node2D::RenderTargetMinimumHeightProperty

static

RenderTargetMinimumHeight property.

The default value is 1.0f.

See also

setRenderTargetMinimumHeight(), getRenderTargetMinimumHeight()

PropertyType<float> kanzi::Node2D::RenderTargetMinimumWidthProperty

static

RenderTargetMinimumWidth property.

The default value is 1.0f.

See also

setRenderTargetMinimumWidth(), getRenderTargetMinimumWidth()

PropertyType<float> kanzi::Node2D::RenderTargetReallocationLimitProperty

static

RenderTargetReallocationLimit property.

The default value is 0.25f.

See also

setRenderTargetReallocationLimit(), getRenderTargetReallocationLimit()

PropertyType<CachingMode> kanzi::Node2D::CachingModeProperty

static

Sets the caching mode:

• CachingModeDisabled disables caching and sets Kanzi to render the node and its descendants normally.
• CachingModeEnabled enables caching and sets Kanzi to use the cache until you invalidate it.
• CachingModeAutomatic sets Kanzi to automatically update the cache of the node whenever the content of the node or its descendants change.

Since

Kanzi 3.9.0

PropertyType<bool> kanzi::Node2D::CacheValidProperty

static

Kanzi sets the value of this property to indicate whether the node is cached.

To disable the cache for one frame, set this property to false. The default value is false.

See also

setCacheValid(), isCacheValid()

Since

Kanzi 3.9.0

PropertyType<SRTValue2D> kanzi::Node2D::LayoutTransformationProperty

static

Sets the layout transformation of the node.

The default value is SRT(Vector2(1.0f, 1.0f), 0.0f, Vector2(0.0f, 0.0f)).

See also

setLayoutTransformation(), getLayoutTransformation()

PropertyType<SRTValue2D> kanzi::Node2D::RenderTransformationProperty

static

Sets the render transformation of the node.

The default value is SRT(Vector2(1.0f, 1.0f), 0.0f, Vector2(0.0f, 0.0f)).

See also

setRenderTransformation(), getRenderTransformation()

PropertyType<SRTValue3D> kanzi::Node2D::PerspectiveTransformationProperty

static

Sets the perspective transformation of the node.

The default value is identity.

See also

setPerspectiveTransformation, getPerspectiveTransformation

PropertyType<PerspectiveTransformationMode> kanzi::Node2D::PerspectiveTransformationModeProperty

static

Sets the perspective transformation mode of the node.

The default value is Screen.

See also

setPerspectiveTransformationMode, getPerspectiveTransformationMode

PropertyType<float> kanzi::Node2D::PerspectiveTransformationFovProperty

static

PerspectiveTransformationFov property.

The default value is 45.

See also

setPerspectiveTransformationFov, getPerspectiveTransformationFov

PropertyType<Vector3> kanzi::Node2D::PerspectiveTransformationPivotProperty

static

PerspectiveTransformationOrigin property.

The default value is 0.0,0.0,0.0.

See also

setPerspectiveTransformationPivot, getPerspectiveTransformationPivot

PropertyType<Vector3> kanzi::Node2D::PerspectiveTransformationOriginProperty

static

PerspectiveTransformationOrigin property.

The default value is 0.0,0.0,0.0.

See also

setPerspectiveTransformationOrigin, getPerspectiveTransformationOrigin

PropertyType<Vector2> kanzi::Node2D::RenderTransformationOriginProperty

static

RenderTransformationOrigin property.

The default value is Vector2(0.0f, 0.0f).

See also

setRenderTransformationOrigin(), getRenderTransformationOrigin()

PropertyType<bool> kanzi::Node2D::SnapToPixelProperty

static

SnapToPixel property.

The default value is false.

See also

setSnapToPixel(), isSnapToPixel()

PropertyType<ResourceSharedPtr> kanzi::Node2D::BackgroundBrushProperty

static

BackgroundBrush property.

The default value is ResourceSharedPtr().

See also

setBackgroundBrush(), getBackgroundBrush()

PropertyType<ResourceSharedPtr> kanzi::Node2D::CompositionBrushProperty

static

CompositionBrush property.

The default value is ResourceSharedPtr().

See also

setCompositionBrush(), getCompositionBrush()

PropertyType<ResourceSharedPtr> kanzi::Node2D::ForegroundBrushProperty

static

ForegroundBrush property.

The default value is ResourceSharedPtr().

See also

setForegroundBrush(), getForegroundBrush()

PropertyType<ResourceSharedPtr> kanzi::Node2D::EffectProperty

static

Reports the runtime effect instance used by the node, instantiated from the NodeEffectPrefab2D.

Kanzi sets this property internally whenever the value of the EffectPrefabProperty changes. The default value is ResourceSharedPtr()

See also

setEffect(), getEffect()

Since

Kanzi 3.9.0

PropertyType<ResourceSharedPtr> kanzi::Node2D::EffectPrefabProperty

static

Sets the 2D Effect prefab to use for the node.

The default value is ResourceSharedPtr()

See also

setEffectPrefab(), getEffectPrefab()

Since

Kanzi 3.9.0

PropertyType<MultisampleCount> kanzi::Node2D::MultisampleLevelProperty

static

Sets the number of anti-aliasing samples to use for temporary composition targets.

The default value is NoMSAA.

See also

setMultisampleLevel(), getMultisampleLevel()

Since

Kanzi 3.9.7

unique_ptr<NodeVisual2D> kanzi::Node2D::m_visual

protected

Visual information.

unique_ptr<NodeCompositor2D> kanzi::Node2D::m_compositor

protected

Composition and caching information.

QuadDescription kanzi::Node2D::m_backgroundQuadDescription

protected

Background clipping quad / composition quad description.

optional<QuadDescription> kanzi::Node2D::m_effectQuadDescription

protected

Effect quad description.

NodeEffect2DSharedPtr kanzi::Node2D::m_cachedEffect

protected

Cached effect instance.

unsigned int kanzi::Node2D::m_validatedEffectPaddingChangeCounter

protected

Effect padding change counter value at which effect quad was last validated.

ClippingArea kanzi::Node2D::m_clipping

protected

Clipping parameters.

CompositionRequirements kanzi::Node2D::m_compositionRequirements

protected

Composition requirements for this 2D node.

NodeEffectPrefab2DSharedPtr kanzi::Node2D::m_currentEffectPrefab

protected

Currently instantiated effect prefab.

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

• kanzi/core.ui/node/node2d.hpp