AnchorPane allows the edges of child nodes to be anchored to an offset from the anchorpane's edges.
|AnchorPaneBuilder<B extends AnchorPaneBuilder<B>>||
Builder class for javafx.scene.layout.AnchorPane
BorderPane lays out children in top, left, right, bottom, and center positions.
|BorderPaneBuilder<B extends BorderPaneBuilder<B>>||
Builder class for javafx.scene.layout.BorderPane
Defines optional layout constraints for a column in a
|ColumnConstraintsBuilder<B extends ColumnConstraintsBuilder<B>>||
Builder class for javafx.scene.layout.ColumnConstraints
The base class for defining node-specific layout constraints.
FlowPane lays out its children in a flow that wraps at the flowpane's boundary.
|FlowPaneBuilder<B extends FlowPaneBuilder<B>>||
Builder class for javafx.scene.layout.FlowPane
GridPane lays out its children within a flexible grid of rows and columns.
|GridPaneBuilder<B extends GridPaneBuilder<B>>||
Builder class for javafx.scene.layout.GridPane
HBox lays out its children in a single horizontal row.
|HBoxBuilder<B extends HBoxBuilder<B>>||
Builder class for javafx.scene.layout.HBox
Base class for layout panes which need to expose the children list as public so that users of the subclass can freely add/remove children.
|PaneBuilder<B extends PaneBuilder<B>>||
Builder class for javafx.scene.layout.Pane
A Region is an area of the screen that can contain other nodes and be styled using CSS.
|RegionBuilder<B extends RegionBuilder<B>>||
Builder class for javafx.scene.layout.Region
Defines optional layout constraints for a row in a
|RowConstraintsBuilder<B extends RowConstraintsBuilder<B>>||
Builder class for javafx.scene.layout.RowConstraints
StackPane lays out its children in a back-to-front stack.
|StackPaneBuilder<B extends StackPaneBuilder<B>>||
Builder class for javafx.scene.layout.StackPane
TilePane lays out its children in a grid of uniformly sized "tiles".
|TilePaneBuilder<B extends TilePaneBuilder<B>>||
Builder class for javafx.scene.layout.TilePane
VBox lays out its children in a single vertical column.
|VBoxBuilder<B extends VBoxBuilder<B>>||
Builder class for javafx.scene.layout.VBox
Enumeration used to determine the grow (or shrink) priority of a given node's layout area when its region has more (or less) space available and multiple nodes are competing for that space.
Provides classes to support user interface layout. Each layout pane class supports a different layout strategy for its children and applications may nest these layout panes to achieve the needed layout structure in the user interface. Once a node is added to one of the layout panes, the pane will automatically manage the layout for the node, so the application should not position or resize the node directly; see "Node Resizability" for more details.
The scene graph layout mechanism is driven automatically by the system once
the application creates and displays a
The scene graph detects dynamic node changes which affect layout (such as a
change in size or content) and calls
requestLayout(), which marks that
branch as needing layout so that on the next pulse, a top-down layout pass is
executed on that branch by invoking
layout() on that branch's root.
During that layout pass, the
layoutChildren() callback method will
be called on each parent to layout its children. This mechanism is designed
to maximize layout efficiency by ensuring multiple layout requests are coalesced
and processed in a single pass rather than executing re-layout on on each minute
change. Therefore, applications should not invoke layout directly on nodes.
The scene graph supports both resizable and non-resizable node classes. The
isResizable() method on
Node returns whether a
given node is resizable or not. A resizable node class is one which supports a range
of acceptable sizes (minimum <= preferred <= maximum), allowing its parent to resize
it within that range during layout, given the parent's own layout policy and the
layout needs of sibling nodes. Node supports the following methods for layout code
to determine a node's resizable range:
public Orientation getContentBias()
public double minWidth(double height)
public double minHeight(double width)
public double prefWidth(double height)
public double prefHeight(double width)
public double maxWidth(double height)
public double maxHeight(double width)
Non-resizable node classes, on the other hand, do not have a consistent
resizing API and so are not resized by their parents during layout.
Applications must establish the size of non-resizable nodes by setting
appropriate properties on each instance. These classes return their current layout bounds for
min, pref, and max, and the
resize() method becomes a no-op.
For example, a Button control (resizable) computes its min, pref, and max sizes which its parent will use to resize it during layout, so the application only needs to configure its content and properties:
However, a Circle (non-resizable) cannot be resized by its parent, so the application needs to set appropriate geometric properties which determine its size:
Button button = new Button("Apply");
Circle circle = new Circle(); circle.setRadius(50);
For example, to override the preferred size of a ListView:
Or, to change the max width of a button so it will resize wider to fill a space:
For the inverse case, where the application needs to clamp the node's min or max size to its preferred:
And finally, if the application needs to restore the intrinsically computed values:
layoutBoundsproperty to define the 'logical' bounds of the node for layout and
boundsInParentto define the visual bounds once all effects, clipping, and transforms have been applied.
These two bounds properties will often differ for a given node and
layoutBounds is computed differently depending on the node class:
|Node Type||Layout Bounds|
||Includes geometric bounds (geometry plus stroke). Does NOT include effect, clip, or any transforms.|
||logical bounds based on the font height and content width, including white space.
can be configured to be tight bounds around chars glyphs by setting
||Union of all visible childrens' visual bounds (
So for example, if a
DropShadow is added to a shape,
that shadow will not be factored into layout by default. Or, if a
ScaleTransition is used to
pulse the size of a button, that pulse animation will not disturb layout around
that button. If an application wishes to have the effect, clip, or transform
factored into the layout of a node, it should wrap that node in a Group.
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