- Type Parameters:
T
- The type of the elements contained within the TreeView TreeItem instances.
- All Implemented Interfaces:
Styleable
,EventTarget
,Skinnable
TreeCell
implementation that draws a
CheckBox
node inside the cell, along with support for common
interactions (discussed in more depth shortly).
To make creating TreeViews with CheckBoxes easier, a convenience class
called CheckBoxTreeItem
is provided. It is highly recommended
that developers use this class, rather than the regular TreeItem
class, when constructing their TreeView tree structures. Refer to the
CheckBoxTreeItem API documentation for an example on how these two classes
can be combined.
When used in a TreeView, the CheckBoxCell is rendered with a CheckBox to
the right of the 'disclosure node' (i.e. the arrow). The item stored in
TreeItem.getValue()
will then have the StringConverter called
on it, and this text will take all remaining horizontal space. Additionally,
by using CheckBoxTreeItem
, the TreeView will automatically handle
situations such as:
- Clicking on the
CheckBox
beside an item that has children will result in all children also becoming selected/unselected. - Clicking on the
CheckBox
beside an item that has a parent will possibly toggle the state of the parent. For example, if you select a single child, the parent will become indeterminate (indicating partial selection of children). If you proceed to select all children, the parent will then show that it too is selected. This is recursive, with all parent nodes updating as expected.
CheckBoxTreeItem
is not desirable,
then it is necessary to call one of the constructors where a Callback
is provided that can return an ObservableValue<Boolean>
given a TreeItem
instance. This ObservableValue<Boolean>
should represent the boolean state of the given TreeItem
.
Note that the CheckBoxTreeCell renders the CheckBox 'live', meaning that
the CheckBox is always interactive and can be directly toggled by the user.
This means that it is not necessary that the cell enter its
editing state
(usually by the user double-clicking
on the cell). A side-effect of this is that the usual editing callbacks
(such as on edit commit
)
will not be called. If you want to be notified of changes,
it is recommended to directly observe the boolean properties that are
manipulated by the CheckBox.
- Since:
- JavaFX 2.2
-
Property Summary
TypePropertyDescriptionfinal ObjectProperty
<StringConverter<TreeItem<T>>> TheStringConverter
property.final ObjectProperty
<Callback<TreeItem<T>, ObservableValue<Boolean>>> Property representing theCallback
that is bound to by the CheckBox shown on screen.Properties declared in class javafx.scene.control.TreeCell
disclosureNode, treeItem, treeView
Properties declared in class javafx.scene.control.IndexedCell
index
Properties declared in class javafx.scene.control.Labeled
alignment, contentDisplay, ellipsisString, font, graphic, graphicTextGap, labelPadding, lineSpacing, mnemonicParsing, textAlignment, textFill, textOverrun, text, underline, wrapText
Properties declared in class javafx.scene.control.Control
contextMenu, skin, tooltip
Properties declared in class javafx.scene.layout.Region
background, border, cacheShape, centerShape, height, insets, maxHeight, maxWidth, minHeight, minWidth, opaqueInsets, padding, prefHeight, prefWidth, scaleShape, shape, snapToPixel, width
Properties declared in class javafx.scene.Parent
needsLayout
Properties declared in class javafx.scene.Node
accessibleHelp, accessibleRoleDescription, accessibleRole, accessibleText, blendMode, boundsInLocal, boundsInParent, cacheHint, cache, clip, cursor, depthTest, disabled, disable, effectiveNodeOrientation, effect, eventDispatcher, focused, focusTraversable, focusVisible, focusWithin, hover, id, inputMethodRequests, layoutBounds, layoutX, layoutY, localToParentTransform, localToSceneTransform, managed, mouseTransparent, nodeOrientation, onContextMenuRequested, onDragDetected, onDragDone, onDragDropped, onDragEntered, onDragExited, onDragOver, onInputMethodTextChanged, onKeyPressed, onKeyReleased, onKeyTyped, onMouseClicked, onMouseDragEntered, onMouseDragExited, onMouseDragged, onMouseDragOver, onMouseDragReleased, onMouseEntered, onMouseExited, onMouseMoved, onMousePressed, onMouseReleased, onRotate, onRotationFinished, onRotationStarted, onScrollFinished, onScroll, onScrollStarted, onSwipeDown, onSwipeLeft, onSwipeRight, onSwipeUp, onTouchMoved, onTouchPressed, onTouchReleased, onTouchStationary, onZoomFinished, onZoom, onZoomStarted, opacity, parent, pickOnBounds, pressed, rotate, rotationAxis, scaleX, scaleY, scaleZ, scene, style, translateX, translateY, translateZ, viewOrder, visible
-
Field Summary
Fields declared in class javafx.scene.layout.Region
USE_COMPUTED_SIZE, USE_PREF_SIZE
Fields declared in class javafx.scene.Node
BASELINE_OFFSET_SAME_AS_HEIGHT
-
Constructor Summary
ConstructorDescriptionCreates a defaultCheckBoxTreeCell
that assumes the TreeView is constructed withCheckBoxTreeItem
instances, rather than the defaultTreeItem
.CheckBoxTreeCell
(Callback<TreeItem<T>, ObservableValue<Boolean>> getSelectedProperty) Creates aCheckBoxTreeCell
for use in a TreeView control via a cell factory.CheckBoxTreeCell
(Callback<TreeItem<T>, ObservableValue<Boolean>> getSelectedProperty, StringConverter<TreeItem<T>> converter) Creates aCheckBoxTreeCell
for use in a TreeView control via a cell factory. -
Method Summary
Modifier and TypeMethodDescriptionfinal ObjectProperty
<StringConverter<TreeItem<T>>> TheStringConverter
property.Creates a cell factory for use in a TreeView control, although there is a major assumption when used in a TreeView: this cell factory assumes that the TreeView root, and all children are instances ofCheckBoxTreeItem
, rather than the defaultTreeItem
class that is used normally.forTreeView
(Callback<TreeItem<T>, ObservableValue<Boolean>> getSelectedProperty) Creates a cell factory for use in a TreeView control.forTreeView
(Callback<TreeItem<T>, ObservableValue<Boolean>> getSelectedProperty, StringConverter<TreeItem<T>> converter) Creates a cell factory for use in a TreeView control.final StringConverter
<TreeItem<T>> Returns theStringConverter
used in this cell.final Callback
<TreeItem<T>, ObservableValue<Boolean>> Returns theCallback
that is bound to by the CheckBox shown on screen.final ObjectProperty
<Callback<TreeItem<T>, ObservableValue<Boolean>>> Property representing theCallback
that is bound to by the CheckBox shown on screen.final void
setConverter
(StringConverter<TreeItem<T>> value) Sets theStringConverter
to be used in this cell.final void
Sets theCallback
that is bound to by the CheckBox shown on screen.void
updateItem
(T item, boolean empty) The updateItem method should not be called by developers, but it is the best method for developers to override to allow for them to customise the visuals of the cell.Methods declared in class javafx.scene.control.TreeCell
disclosureNodeProperty, getDisclosureNode, getTreeItem, getTreeView, setDisclosureNode, treeItemProperty, treeViewProperty, updateTreeItem, updateTreeView
Methods declared in class javafx.scene.control.IndexedCell
getIndex, indexProperty, updateIndex
Methods declared in class javafx.scene.control.Cell
cancelEdit, commitEdit, editableProperty, editingProperty, emptyProperty, getInitialFocusTraversable, getItem, isEditable, isEditing, isEmpty, isItemChanged, isSelected, itemProperty, selectedProperty, setEditable, setItem, startEdit, updateSelected
Methods declared in class javafx.scene.control.Labeled
alignmentProperty, contentDisplayProperty, ellipsisStringProperty, fontProperty, getAlignment, getClassCssMetaData, getContentBias, getContentDisplay, getControlCssMetaData, getEllipsisString, getFont, getGraphic, getGraphicTextGap, getInitialAlignment, getLabelPadding, getLineSpacing, getText, getTextAlignment, getTextFill, getTextOverrun, graphicProperty, graphicTextGapProperty, isMnemonicParsing, isUnderline, isWrapText, labelPaddingProperty, lineSpacingProperty, mnemonicParsingProperty, setAlignment, setContentDisplay, setEllipsisString, setFont, setGraphic, setGraphicTextGap, setLineSpacing, setMnemonicParsing, setText, setTextAlignment, setTextFill, setTextOverrun, setUnderline, setWrapText, textAlignmentProperty, textFillProperty, textOverrunProperty, textProperty, underlineProperty, wrapTextProperty
Methods declared in class javafx.scene.control.Control
computeMaxHeight, computeMaxWidth, computeMinHeight, computeMinWidth, contextMenuProperty, createDefaultSkin, getContextMenu, getCssMetaData, getSkin, getTooltip, isResizable, setContextMenu, setSkin, setTooltip, skinProperty, tooltipProperty
Methods declared in class javafx.scene.layout.Region
backgroundProperty, borderProperty, cacheShapeProperty, centerShapeProperty, computePrefHeight, computePrefWidth, getBackground, getBorder, getHeight, getInsets, getMaxHeight, getMaxWidth, getMinHeight, getMinWidth, getOpaqueInsets, getPadding, getPrefHeight, getPrefWidth, getShape, getUserAgentStylesheet, getWidth, heightProperty, insetsProperty, isCacheShape, isCenterShape, isScaleShape, isSnapToPixel, layoutInArea, layoutInArea, layoutInArea, layoutInArea, maxHeight, maxHeightProperty, maxWidth, maxWidthProperty, minHeight, minHeightProperty, minWidth, minWidthProperty, opaqueInsetsProperty, paddingProperty, positionInArea, positionInArea, prefHeight, prefHeightProperty, prefWidth, prefWidthProperty, resize, scaleShapeProperty, setBackground, setBorder, setCacheShape, setCenterShape, setHeight, setMaxHeight, setMaxSize, setMaxWidth, setMinHeight, setMinSize, setMinWidth, setOpaqueInsets, setPadding, setPrefHeight, setPrefSize, setPrefWidth, setScaleShape, setShape, setSnapToPixel, setWidth, shapeProperty, snappedBottomInset, snappedLeftInset, snappedRightInset, snappedTopInset, snapPosition, snapPositionX, snapPositionY, snapSize, snapSizeX, snapSizeY, snapSpace, snapSpaceX, snapSpaceY, snapToPixelProperty, widthProperty
Methods declared in class javafx.scene.Parent
getBaselineOffset, getChildren, getChildrenUnmodifiable, getManagedChildren, getStylesheets, isNeedsLayout, layout, layoutChildren, needsLayoutProperty, requestLayout, requestParentLayout, setNeedsLayout, updateBounds
Methods declared in class javafx.scene.Node
accessibleHelpProperty, accessibleRoleDescriptionProperty, accessibleRoleProperty, accessibleTextProperty, addEventFilter, addEventHandler, applyCss, autosize, blendModeProperty, boundsInLocalProperty, boundsInParentProperty, buildEventDispatchChain, cacheHintProperty, cacheProperty, clipProperty, computeAreaInScreen, contains, contains, cursorProperty, depthTestProperty, disabledProperty, disableProperty, effectiveNodeOrientationProperty, effectProperty, eventDispatcherProperty, executeAccessibleAction, fireEvent, focusedProperty, focusTraversableProperty, focusVisibleProperty, focusWithinProperty, getAccessibleHelp, getAccessibleRole, getAccessibleRoleDescription, getAccessibleText, getBlendMode, getBoundsInLocal, getBoundsInParent, getCacheHint, getClip, getCursor, getDepthTest, getEffect, getEffectiveNodeOrientation, getEventDispatcher, getId, getInitialCursor, getInputMethodRequests, getLayoutBounds, getLayoutX, getLayoutY, getLocalToParentTransform, getLocalToSceneTransform, getNodeOrientation, getOnContextMenuRequested, getOnDragDetected, getOnDragDone, getOnDragDropped, getOnDragEntered, getOnDragExited, getOnDragOver, getOnInputMethodTextChanged, getOnKeyPressed, getOnKeyReleased, getOnKeyTyped, getOnMouseClicked, getOnMouseDragEntered, getOnMouseDragExited, getOnMouseDragged, getOnMouseDragOver, getOnMouseDragReleased, getOnMouseEntered, getOnMouseExited, getOnMouseMoved, getOnMousePressed, getOnMouseReleased, getOnRotate, getOnRotationFinished, getOnRotationStarted, getOnScroll, getOnScrollFinished, getOnScrollStarted, getOnSwipeDown, getOnSwipeLeft, getOnSwipeRight, getOnSwipeUp, getOnTouchMoved, getOnTouchPressed, getOnTouchReleased, getOnTouchStationary, getOnZoom, getOnZoomFinished, getOnZoomStarted, getOpacity, getParent, getProperties, getPseudoClassStates, getRotate, getRotationAxis, getScaleX, getScaleY, getScaleZ, getScene, getStyle, getStyleableParent, getStyleClass, getTransforms, getTranslateX, getTranslateY, getTranslateZ, getTypeSelector, getUserData, getViewOrder, hasProperties, hoverProperty, idProperty, inputMethodRequestsProperty, intersects, intersects, isCache, isDisable, isDisabled, isFocused, isFocusTraversable, isFocusVisible, isFocusWithin, isHover, isManaged, isMouseTransparent, isPickOnBounds, isPressed, isVisible, layoutBoundsProperty, layoutXProperty, layoutYProperty, localToParent, localToParent, localToParent, localToParent, localToParent, localToParentTransformProperty, localToScene, localToScene, localToScene, localToScene, localToScene, localToScene, localToScene, localToScene, localToScene, localToScene, localToSceneTransformProperty, localToScreen, localToScreen, localToScreen, localToScreen, localToScreen, lookup, lookupAll, managedProperty, mouseTransparentProperty, nodeOrientationProperty, notifyAccessibleAttributeChanged, onContextMenuRequestedProperty, onDragDetectedProperty, onDragDoneProperty, onDragDroppedProperty, onDragEnteredProperty, onDragExitedProperty, onDragOverProperty, onInputMethodTextChangedProperty, onKeyPressedProperty, onKeyReleasedProperty, onKeyTypedProperty, onMouseClickedProperty, onMouseDragEnteredProperty, onMouseDragExitedProperty, onMouseDraggedProperty, onMouseDragOverProperty, onMouseDragReleasedProperty, onMouseEnteredProperty, onMouseExitedProperty, onMouseMovedProperty, onMousePressedProperty, onMouseReleasedProperty, onRotateProperty, onRotationFinishedProperty, onRotationStartedProperty, onScrollFinishedProperty, onScrollProperty, onScrollStartedProperty, onSwipeDownProperty, onSwipeLeftProperty, onSwipeRightProperty, onSwipeUpProperty, onTouchMovedProperty, onTouchPressedProperty, onTouchReleasedProperty, onTouchStationaryProperty, onZoomFinishedProperty, onZoomProperty, onZoomStartedProperty, opacityProperty, parentProperty, parentToLocal, parentToLocal, parentToLocal, parentToLocal, parentToLocal, pickOnBoundsProperty, pressedProperty, pseudoClassStateChanged, queryAccessibleAttribute, relocate, removeEventFilter, removeEventHandler, requestFocus, resizeRelocate, rotateProperty, rotationAxisProperty, scaleXProperty, scaleYProperty, scaleZProperty, sceneProperty, sceneToLocal, sceneToLocal, sceneToLocal, sceneToLocal, sceneToLocal, sceneToLocal, sceneToLocal, sceneToLocal, screenToLocal, screenToLocal, screenToLocal, setAccessibleHelp, setAccessibleRole, setAccessibleRoleDescription, setAccessibleText, setBlendMode, setCache, setCacheHint, setClip, setCursor, setDepthTest, setDisable, setDisabled, setEffect, setEventDispatcher, setEventHandler, setFocused, setFocusTraversable, setHover, setId, setInputMethodRequests, setLayoutX, setLayoutY, setManaged, setMouseTransparent, setNodeOrientation, setOnContextMenuRequested, setOnDragDetected, setOnDragDone, setOnDragDropped, setOnDragEntered, setOnDragExited, setOnDragOver, setOnInputMethodTextChanged, setOnKeyPressed, setOnKeyReleased, setOnKeyTyped, setOnMouseClicked, setOnMouseDragEntered, setOnMouseDragExited, setOnMouseDragged, setOnMouseDragOver, setOnMouseDragReleased, setOnMouseEntered, setOnMouseExited, setOnMouseMoved, setOnMousePressed, setOnMouseReleased, setOnRotate, setOnRotationFinished, setOnRotationStarted, setOnScroll, setOnScrollFinished, setOnScrollStarted, setOnSwipeDown, setOnSwipeLeft, setOnSwipeRight, setOnSwipeUp, setOnTouchMoved, setOnTouchPressed, setOnTouchReleased, setOnTouchStationary, setOnZoom, setOnZoomFinished, setOnZoomStarted, setOpacity, setPickOnBounds, setPressed, setRotate, setRotationAxis, setScaleX, setScaleY, setScaleZ, setStyle, setTranslateX, setTranslateY, setTranslateZ, setUserData, setViewOrder, setVisible, snapshot, snapshot, startDragAndDrop, startFullDrag, styleProperty, toBack, toFront, toString, translateXProperty, translateYProperty, translateZProperty, usesMirroring, viewOrderProperty, visibleProperty
Methods declared in class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait
Methods declared in interface javafx.css.Styleable
getStyleableNode
-
Property Details
-
converter
TheStringConverter
property.- See Also:
-
selectedStateCallback
public final ObjectProperty<Callback<TreeItem<T>,ObservableValue<Boolean>>> selectedStateCallbackPropertyProperty representing theCallback
that is bound to by the CheckBox shown on screen.- See Also:
-
-
Constructor Details
-
CheckBoxTreeCell
public CheckBoxTreeCell()Creates a defaultCheckBoxTreeCell
that assumes the TreeView is constructed withCheckBoxTreeItem
instances, rather than the defaultTreeItem
. By usingCheckBoxTreeItem
, it will internally manage the selected and indeterminate state of each item in the tree. -
CheckBoxTreeCell
Creates aCheckBoxTreeCell
for use in a TreeView control via a cell factory. UnlikeCheckBoxTreeCell()
, this method does not assume that all TreeItem instances in the TreeView areCheckBoxTreeItem
.To call this method, it is necessary to provide a
Callback
that, given an object of type TreeItem<T>, will return anObservableValue<Boolean>
that represents whether the given item is selected or not. ThisObservableValue<Boolean>
will be bound bidirectionally (meaning that the CheckBox in the cell will set/unset this property based on user interactions, and the CheckBox will reflect the state of theObservableValue<Boolean>
, if it changes externally).If the items are not
CheckBoxTreeItem
instances, it becomes the developers responsibility to handle updating the state of parent and children TreeItems. This means that, given a TreeItem, this class will simply toggles theObservableValue<Boolean>
that is provided, and no more. Of course, this functionality can then be implemented externally by adding observers to theObservableValue<Boolean>
, and toggling the state of other properties as necessary.- Parameters:
getSelectedProperty
- ACallback
that will return anObservableValue<Boolean>
that represents whether the given item is selected or not.
-
CheckBoxTreeCell
public CheckBoxTreeCell(Callback<TreeItem<T>, ObservableValue<Boolean>> getSelectedProperty, StringConverter<TreeItem<T>> converter) Creates aCheckBoxTreeCell
for use in a TreeView control via a cell factory. UnlikeCheckBoxTreeCell()
, this method does not assume that all TreeItem instances in the TreeView areCheckBoxTreeItem
.To call this method, it is necessary to provide a
Callback
that, given an object of type TreeItem<T>, will return anObservableValue<Boolean>
that represents whether the given item is selected or not. ThisObservableValue<Boolean>
will be bound bidirectionally (meaning that the CheckBox in the cell will set/unset this property based on user interactions, and the CheckBox will reflect the state of theObservableValue<Boolean>
, if it changes externally).If the items are not
CheckBoxTreeItem
instances, it becomes the developers responsibility to handle updating the state of parent and children TreeItems. This means that, given a TreeItem, this class will simply toggles theObservableValue<Boolean>
that is provided, and no more. Of course, this functionality can then be implemented externally by adding observers to theObservableValue<Boolean>
, and toggling the state of other properties as necessary.- Parameters:
getSelectedProperty
- ACallback
that will return anObservableValue<Boolean>
that represents whether the given item is selected or not.converter
- A StringConverter that, give an object of type TreeItem<T>, will return a String that can be used to represent the object visually.
-
-
Method Details
-
forTreeView
Creates a cell factory for use in a TreeView control, although there is a major assumption when used in a TreeView: this cell factory assumes that the TreeView root, and all children are instances ofCheckBoxTreeItem
, rather than the defaultTreeItem
class that is used normally.When used in a TreeView, the CheckBoxCell is rendered with a CheckBox to the right of the 'disclosure node' (i.e. the arrow). The item stored in
TreeItem.getValue()
will then have the StringConverter called on it, and this text will take all remaining horizontal space. Additionally, by usingCheckBoxTreeItem
, the TreeView will automatically handle situations such as:- Clicking on the
CheckBox
beside an item that has children will result in all children also becoming selected/unselected. - Clicking on the
CheckBox
beside an item that has a parent will possibly toggle the state of the parent. For example, if you select a single child, the parent will become indeterminate (indicating partial selection of children). If you proceed to select all children, the parent will then show that it too is selected. This is recursive, with all parent nodes updating as expected.
Unfortunately, due to limitations in Java, it is necessary to provide an explicit cast when using this method. For example:
final TreeView<String> treeView = new TreeView<String>(); treeView.setCellFactory(CheckBoxCell.<String>forTreeView());
- Type Parameters:
T
- The type of the elements contained within theCheckBoxTreeItem
instances.- Returns:
- A
Callback
that will return a TreeCell that is able to work on the type of element contained within the TreeView root, and all of its children (recursively).
- Clicking on the
-
forTreeView
public static <T> Callback<TreeView<T>,TreeCell<T>> forTreeView(Callback<TreeItem<T>, ObservableValue<Boolean>> getSelectedProperty) Creates a cell factory for use in a TreeView control. UnlikeforTreeView()
, this method does not assume that all TreeItem instances in the TreeView areCheckBoxTreeItem
instances.When used in a TreeView, the CheckBoxCell is rendered with a CheckBox to the right of the 'disclosure node' (i.e. the arrow). The item stored in
TreeItem.getValue()
will then have the StringConverter called on it, and this text will take all remaining horizontal space.Unlike
forTreeView()
, this cell factory does not handle updating the state of parent or children TreeItems - it simply toggles theObservableValue<Boolean>
that is provided, and no more. Of course, this functionality can then be implemented externally by adding observers to theObservableValue<Boolean>
, and toggling the state of other properties as necessary.- Type Parameters:
T
- The type of the elements contained within theTreeItem
instances.- Parameters:
getSelectedProperty
- ACallback
that, given an object of type TreeItem<T>, will return anObservableValue<Boolean>
that represents whether the given item is selected or not. ThisObservableValue<Boolean>
will be bound bidirectionally (meaning that the CheckBox in the cell will set/unset this property based on user interactions, and the CheckBox will reflect the state of theObservableValue<Boolean>
, if it changes externally).- Returns:
- A
Callback
that will return a TreeCell that is able to work on the type of element contained within the TreeView root, and all of its children (recursively).
-
forTreeView
public static <T> Callback<TreeView<T>,TreeCell<T>> forTreeView(Callback<TreeItem<T>, ObservableValue<Boolean>> getSelectedProperty, StringConverter<TreeItem<T>> converter) Creates a cell factory for use in a TreeView control. UnlikeforTreeView()
, this method does not assume that all TreeItem instances in the TreeView areCheckBoxTreeItem
.When used in a TreeView, the CheckBoxCell is rendered with a CheckBox to the right of the 'disclosure node' (i.e. the arrow). The item stored in
TreeItem.getValue()
will then have the the StringConverter called on it, and this text will take all remaining horizontal space.Unlike
forTreeView()
, this cell factory does not handle updating the state of parent or children TreeItems - it simply toggles theObservableValue<Boolean>
that is provided, and no more. Of course, this functionality can then be implemented externally by adding observers to theObservableValue<Boolean>
, and toggling the state of other properties as necessary.- Type Parameters:
T
- The type of the elements contained within theTreeItem
instances.- Parameters:
getSelectedProperty
- A Callback that, given an object of type TreeItem<T>, will return anObservableValue<Boolean>
that represents whether the given item is selected or not. ThisObservableValue<Boolean>
will be bound bidirectionally (meaning that the CheckBox in the cell will set/unset this property based on user interactions, and the CheckBox will reflect the state of theObservableValue<Boolean>
, if it changes externally).converter
- A StringConverter that, give an object of type TreeItem<T>, will return a String that can be used to represent the object visually. The default implementation inforTreeView(Callback)
is to simply call .toString() on all non-null items (and to just return an empty string in cases where the given item is null).- Returns:
- A
Callback
that will return a TreeCell that is able to work on the type of element contained within the TreeView root, and all of its children (recursively).
-
converterProperty
TheStringConverter
property.- Returns:
- the
StringConverter
property - See Also:
-
setConverter
Sets theStringConverter
to be used in this cell.- Parameters:
value
- theStringConverter
to be used in this cell
-
getConverter
Returns theStringConverter
used in this cell.- Returns:
- the
StringConverter
used in this cell
-
selectedStateCallbackProperty
public final ObjectProperty<Callback<TreeItem<T>,ObservableValue<Boolean>>> selectedStateCallbackProperty()Property representing theCallback
that is bound to by the CheckBox shown on screen.- Returns:
- the property representing the
Callback
that is bound to by the CheckBox shown on screen - See Also:
-
setSelectedStateCallback
Sets theCallback
that is bound to by the CheckBox shown on screen.- Parameters:
value
- theCallback
that is bound to by the CheckBox shown on screen
-
getSelectedStateCallback
Returns theCallback
that is bound to by the CheckBox shown on screen.- Returns:
- the
Callback
that is bound to by the CheckBox shown on screen
-
updateItem
The updateItem method should not be called by developers, but it is the best method for developers to override to allow for them to customise the visuals of the cell. To clarify, developers should never call this method in their code (they should leave it up to the UI control, such as theListView
control) to call this method. However, the purpose of having the updateItem method is so that developers, when specifying custom cell factories (again, like the ListViewcell factory
), the updateItem method can be overridden to allow for complete customisation of the cell.It is very important that subclasses of Cell override the updateItem method properly, as failure to do so will lead to issues such as blank cells or cells with unexpected content appearing within them. Here is an example of how to properly override the updateItem method:
protected void updateItem(T item, boolean empty) { super.updateItem(item, empty); if (empty || item == null) { setText(null); setGraphic(null); } else { setText(item.toString()); } }
Note in this code sample two important points:
- We call the super.updateItem(T, boolean) method. If this is not done, the item and empty properties are not correctly set, and you are likely to end up with graphical issues.
- We test for the
empty
condition, and if true, we set the text and graphic properties to null. If we do not do this, it is almost guaranteed that end users will see graphical artifacts in cells unexpectedly.
- Parameters:
item
- The new item for the cell.empty
- whether or not this cell represents data from the list. If it is empty, then it does not represent any domain data, but is a cell being used to render an "empty" row.
-