JavaTM 2 Platform
Std. Ed. v1.3.1

javax.swing.plaf.basic
Class BasicTextUI

java.lang.Object
  |
  +--javax.swing.plaf.ComponentUI
        |
        +--javax.swing.plaf.TextUI
              |
              +--javax.swing.plaf.basic.BasicTextUI
All Implemented Interfaces:
ViewFactory
Direct Known Subclasses:
BasicEditorPaneUI, BasicTextAreaUI, BasicTextFieldUI, DefaultTextUI

public abstract class BasicTextUI
extends TextUI
implements ViewFactory

Basis of a text components look-and-feel. This provides the basic editor view and controller services that may be useful when creating a look-and-feel for an extension of JTextComponent.

Most state is held in the associated JTextComponent as bound properties, and the UI installs default values for the various properties. This default will install something for all of the properties. Typically, a LAF implementation will do more however. At a minimum, a LAF would generally install key bindings.

This class also provides some concurrency support if the Document associated with the JTextComponent is a subclass of AbstractDocument. Access to the View (or View hierarchy) is serialized between any thread mutating the model and the Swing event thread (which is expected to render, do model/view coordinate translation, etc). Any access to the root view should first aquire a read-lock on the AbstractDocument and release that lock in a finally block.

An important method to define is the getPropertyPrefix() method which is used as the basis of the keys used to fetch defaults from the UIManager. The string should reflect the type of TextUI (eg. TextField, TextArea, etc) without the particular LAF part of the name (eg Metal, Motif, etc).

To build a view of the model, one of the following strategies can be employed.

  1. One strategy is to simply redefine the ViewFactory interface in the UI. By default, this UI itself acts as the factory for View implementations. This is useful for simple factories. To do this reimplement the create(javax.swing.text.Element) method.
  2. A common strategy for creating more complex types of documents is to have the EditorKit implementation return a factory. Since the EditorKit ties all of the pieces necessary to maintain a type of document, the factory is typically an important part of that and should be produced by the EditorKit implementation.
  3. A less common way to create more complex types is to have the UI implementation create a. seperate object for the factory. To do this, the #createViewFactory method should be reimplemented to return some factory.

Warning: Serialized objects of this class will not be compatible with future Swing releases. The current serialization support is appropriate for short term storage or RMI between applications running the same version of Swing. A future release of Swing will provide support for long term persistence.


Inner Class Summary
static class BasicTextUI.BasicCaret
           
static class BasicTextUI.BasicHighlighter
           
 
Constructor Summary
BasicTextUI()
          Creates a new UI.
 
Method Summary
 View create(Element elem)
          Creates a view for an element.
 View create(Element elem, int p0, int p1)
          Creates a view for an element.
protected  Caret createCaret()
          Creates the object to use for a caret.
protected  Highlighter createHighlighter()
          Creates the object to use for adding highlights.
protected  Keymap createKeymap()
          Creates the keymap to use for the text component, and installs any necessary bindings into it.
 void damageRange(JTextComponent tc, int p0, int p1)
          Causes the portion of the view responsible for the given part of the model to be repainted.
 void damageRange(JTextComponent t, int p0, int p1, Position.Bias p0Bias, Position.Bias p1Bias)
          Causes the portion of the view responsible for the given part of the model to be repainted.
protected  JTextComponent getComponent()
          Fetches the text component associated with this UI implementation.
 EditorKit getEditorKit(JTextComponent tc)
          Fetches the EditorKit for the UI.
protected  String getKeymapName()
          Fetches the name of the keymap that will be installed/used by default for this UI.
 Dimension getMaximumSize(JComponent c)
          Gets the maximum size for the editor component.
 Dimension getMinimumSize(JComponent c)
          Gets the minimum size for the editor component.
 int getNextVisualPositionFrom(JTextComponent t, int pos, Position.Bias b, int direction, Position.Bias[] biasRet)
          Provides a way to determine the next visually represented model location that one might place a caret.
 Dimension getPreferredSize(JComponent c)
          Gets the preferred size for the editor component.
protected abstract  String getPropertyPrefix()
          Gets the name used as a key to look up properties through the UIManager.
 View getRootView(JTextComponent tc)
          Fetches a View with the allocation of the associated text component (i.e.
protected  Rectangle getVisibleEditorRect()
          Gets the allocation to give the root View.
protected  void installDefaults()
          Initializes component properties, e.g.
protected  void installKeyboardActions()
           
protected  void installListeners()
          Installs listeners for the UI.
 void installUI(JComponent c)
          Installs the UI for a component.
protected  void modelChanged()
          Flags model changes.
 Rectangle modelToView(JTextComponent tc, int pos)
          Converts the given location in the model to a place in the view coordinate system.
 Rectangle modelToView(JTextComponent tc, int pos, Position.Bias bias)
          Converts the given location in the model to a place in the view coordinate system.
 void paint(Graphics g, JComponent c)
          Paints the interface.
protected  void paintBackground(Graphics g)
          Paints a background for the view.
protected  void paintSafely(Graphics g)
          Paints the interface safely with a guarantee that the model won't change from the view of this thread.
protected  void propertyChange(PropertyChangeEvent evt)
          This method gets called when a bound property is changed on the associated JTextComponent.
protected  void setView(View v)
          Sets the current root of the view hierarchy and calls invalidate().
protected  void uninstallDefaults()
          Sets the component properties that haven't been explicitly overriden to null.
protected  void uninstallKeyboardActions()
           
protected  void uninstallListeners()
          Uninstalls listeners for the UI.
 void uninstallUI(JComponent c)
          Deinstalls the UI for a component.
 void update(Graphics g, JComponent c)
          Superclass paints background in an uncontrollable way (i.e.
 int viewToModel(JTextComponent tc, Point pt)
          Converts the given place in the view coordinate system to the nearest representative location in the model.
 int viewToModel(JTextComponent tc, Point pt, Position.Bias[] biasReturn)
          Converts the given place in the view coordinate system to the nearest representative location in the model.
 
Methods inherited from class javax.swing.plaf.ComponentUI
contains, createUI, getAccessibleChild, getAccessibleChildrenCount
 
Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
 

Constructor Detail

BasicTextUI

public BasicTextUI()
Creates a new UI.
Method Detail

createCaret

protected Caret createCaret()
Creates the object to use for a caret. By default an instance of BasicCaret is created. This method can be redefined to provide something else that implements the InputPosition interface or a subclass of JCaret.
Returns:
the caret object

createHighlighter

protected Highlighter createHighlighter()
Creates the object to use for adding highlights. By default an instance of BasicHighlighter is created. This method can be redefined to provide something else that implements the Highlighter interface or a subclass of DefaultHighlighter.
Returns:
the highlighter

getKeymapName

protected String getKeymapName()
Fetches the name of the keymap that will be installed/used by default for this UI. This is implemented to create a name based upon the classname. The name is the the name of the class with the package prefix removed.
Returns:
the name

createKeymap

protected Keymap createKeymap()
Creates the keymap to use for the text component, and installs any necessary bindings into it. By default, the keymap is shared between all instances of this type of TextUI. The keymap has the name defined by the getKeymapName method. If the keymap is not found, then DEFAULT_KEYMAP from JTextComponent is used.

The set of bindings used to create the keymap is fetched from the UIManager using a key formed by combining the getPropertyPrefix() method and the string .keyBindings. The type is expected to be JTextComponent.KeyBinding[].

Returns:
the keymap
See Also:
getKeymapName(), JTextComponent

propertyChange

protected void propertyChange(PropertyChangeEvent evt)
This method gets called when a bound property is changed on the associated JTextComponent. This is a hook which UI implementations may change to reflect how the UI displays bound properties of JTextComponent subclasses. This is implemented to do nothing (i.e. the response to properties in JTextComponent itself are handled prior to calling this method).
Parameters:
evt - the property change event

getPropertyPrefix

protected abstract String getPropertyPrefix()
Gets the name used as a key to look up properties through the UIManager. This is used as a prefix to all the standard text properties.
Returns:
the name

installDefaults

protected void installDefaults()
Initializes component properties, e.g. font, foreground, background, caret color, selection color, selected text color, disabled text color, and border color. The font, foreground, and background properties are only set if their current value is either null or a UIResource, other properties are set if the current value is null.
See Also:
uninstallDefaults(), installUI(javax.swing.JComponent)

uninstallDefaults

protected void uninstallDefaults()
Sets the component properties that haven't been explicitly overriden to null. A property is considered overridden if its current value is not a UIResource.
See Also:
installDefaults(), uninstallUI(javax.swing.JComponent)

installListeners

protected void installListeners()
Installs listeners for the UI.

uninstallListeners

protected void uninstallListeners()
Uninstalls listeners for the UI.

installKeyboardActions

protected void installKeyboardActions()

uninstallKeyboardActions

protected void uninstallKeyboardActions()

paintBackground

protected void paintBackground(Graphics g)
Paints a background for the view. This will only be called if isOpaque() on the associated component is true. The default is to paint the background color of the component.
Parameters:
g - the graphics context

getComponent

protected final JTextComponent getComponent()
Fetches the text component associated with this UI implementation. This will be null until the ui has been installed.
Returns:
the editor component

modelChanged

protected void modelChanged()
Flags model changes. This is called whenever the model has changed. It is implemented to rebuild the view hierarchy to represent the default root element of the associated model.

setView

protected final void setView(View v)
Sets the current root of the view hierarchy and calls invalidate(). If there were any child components, they will be removed (i.e. there are assumed to have come from components embedded in views).
Parameters:
v - the root view

paintSafely

protected void paintSafely(Graphics g)
Paints the interface safely with a guarantee that the model won't change from the view of this thread. This does the following things, rendering from back to front.
  1. If the component is marked as opaque, the background is painted in the current background color of the component.
  2. The highlights (if any) are painted.
  3. The view hierarchy is painted.
  4. The caret is painted.
Parameters:
g - the graphics context

installUI

public void installUI(JComponent c)
Installs the UI for a component. This does the following things.
  1. Set the associated component to opaque (can be changed easily by a subclass or on JTextComponent directly), which is the most common case. This will cause the component's background color to be painted.
  2. Install the default caret and highlighter into the associated component.
  3. Attach to the editor and model. If there is no model, a default one is created.
  4. create the view factory and the view hierarchy used to represent the model.
Overrides:
installUI in class ComponentUI
Parameters:
c - the editor component
See Also:
ComponentUI.installUI(javax.swing.JComponent)

uninstallUI

public void uninstallUI(JComponent c)
Deinstalls the UI for a component. This removes the listeners, uninstalls the highlighter, removes views, and nulls out the keymap.
Overrides:
uninstallUI in class ComponentUI
Parameters:
c - the editor component
See Also:
ComponentUI.uninstallUI(javax.swing.JComponent)

update

public void update(Graphics g,
                   JComponent c)
Superclass paints background in an uncontrollable way (i.e. one might want an image tiled into the background). To prevent this from happening twice, this method is reimplemented to simply paint.

NOTE: Superclass is also not thread-safe in it's rendering of the background, although that's not an issue with the default rendering.

Overrides:
update in class ComponentUI

paint

public final void paint(Graphics g,
                        JComponent c)
Paints the interface. This is routed to the paintSafely method under the guarantee that the model won't change from the view of this thread while it's rendering (if the associated model is derived from AbstractDocument). This enables the model to potentially be updated asynchronously.
Overrides:
paint in class ComponentUI
Parameters:
g - the graphics context
c - the editor component

getPreferredSize

public Dimension getPreferredSize(JComponent c)
Gets the preferred size for the editor component. If the component has been given a size prior to receiving this request, it will set the size of the view hierarchy to reflect the size of the component before requesting the preferred size of the view hierarchy. This allows formatted views to format to the current component size before answering the request. Other views don't care about currently formatted size and give the same answer either way.
Overrides:
getPreferredSize in class ComponentUI
Parameters:
c - the editor component
Returns:
the size

getMinimumSize

public Dimension getMinimumSize(JComponent c)
Gets the minimum size for the editor component.
Overrides:
getMinimumSize in class ComponentUI
Parameters:
c - the editor component
Returns:
the size

getMaximumSize

public Dimension getMaximumSize(JComponent c)
Gets the maximum size for the editor component.
Overrides:
getMaximumSize in class ComponentUI
Parameters:
c - the editor component
Returns:
the size

getVisibleEditorRect

protected Rectangle getVisibleEditorRect()
Gets the allocation to give the root View. Due to an unfortunate set of historical events this method is inappropriately named. The Rectangle returned has nothing to do with visibility. The component must have a non-zero positive size for this translation to be computed.
Returns:
the bounding box for the root view

modelToView

public Rectangle modelToView(JTextComponent tc,
                             int pos)
                      throws BadLocationException
Converts the given location in the model to a place in the view coordinate system. The component must have a non-zero positive size for this translation to be computed.
Overrides:
modelToView in class TextUI
Parameters:
tc - the text component for which this UI is installed
pos - the local location in the model to translate >= 0
Returns:
the coordinates as a rectangle, null if the model is not painted
Throws:
BadLocationException - if the given position does not represent a valid location in the associated document
See Also:
TextUI.modelToView(javax.swing.text.JTextComponent, int)

modelToView

public Rectangle modelToView(JTextComponent tc,
                             int pos,
                             Position.Bias bias)
                      throws BadLocationException
Converts the given location in the model to a place in the view coordinate system. The component must have a non-zero positive size for this translation to be computed.
Overrides:
modelToView in class TextUI
Parameters:
tc - the text component for which this UI is installed
pos - the local location in the model to translate >= 0
Returns:
the coordinates as a rectangle, null if the model is not painted
Throws:
BadLocationException - if the given position does not represent a valid location in the associated document
See Also:
TextUI.modelToView(javax.swing.text.JTextComponent, int)

viewToModel

public int viewToModel(JTextComponent tc,
                       Point pt)
Converts the given place in the view coordinate system to the nearest representative location in the model. The component must have a non-zero positive size for this translation to be computed.
Overrides:
viewToModel in class TextUI
Parameters:
tc - the text component for which this UI is installed
pt - the location in the view to translate. This should be in the same coordinate system as the mouse events.
Returns:
the offset from the start of the document >= 0, -1 if not painted
See Also:
TextUI.viewToModel(javax.swing.text.JTextComponent, java.awt.Point)

viewToModel

public int viewToModel(JTextComponent tc,
                       Point pt,
                       Position.Bias[] biasReturn)
Converts the given place in the view coordinate system to the nearest representative location in the model. The component must have a non-zero positive size for this translation to be computed.
Overrides:
viewToModel in class TextUI
Parameters:
tc - the text component for which this UI is installed
pt - the location in the view to translate. This should be in the same coordinate system as the mouse events.
Returns:
the offset from the start of the document >= 0, -1 if the component doesn't yet have a positive size.
See Also:
TextUI.viewToModel(javax.swing.text.JTextComponent, java.awt.Point)

getNextVisualPositionFrom

public int getNextVisualPositionFrom(JTextComponent t,
                                     int pos,
                                     Position.Bias b,
                                     int direction,
                                     Position.Bias[] biasRet)
                              throws BadLocationException
Provides a way to determine the next visually represented model location that one might place a caret. Some views may not be visible, they might not be in the same order found in the model, or they just might not allow access to some of the locations in the model.
Overrides:
getNextVisualPositionFrom in class TextUI
Parameters:
pos - the position to convert >= 0
a - the allocated region to render into
direction - the direction from the current position that can be thought of as the arrow keys typically found on a keyboard. This may be SwingConstants.WEST, SwingConstants.EAST, SwingConstants.NORTH, or SwingConstants.SOUTH.
Returns:
the location within the model that best represents the next location visual position.
Throws:
BadLocationException -  
IllegalArgumentException - for an invalid direction

damageRange

public void damageRange(JTextComponent tc,
                        int p0,
                        int p1)
Causes the portion of the view responsible for the given part of the model to be repainted. Does nothing if the view is not currently painted.
Overrides:
damageRange in class TextUI
Parameters:
tc - the text component for which this UI is installed
p0 - the beginning of the range >= 0
p1 - the end of the range >= p0
See Also:
TextUI.damageRange(javax.swing.text.JTextComponent, int, int)

damageRange

public void damageRange(JTextComponent t,
                        int p0,
                        int p1,
                        Position.Bias p0Bias,
                        Position.Bias p1Bias)
Causes the portion of the view responsible for the given part of the model to be repainted.
Overrides:
damageRange in class TextUI
Parameters:
p0 - the beginning of the range >= 0
p1 - the end of the range >= p0

getEditorKit

public EditorKit getEditorKit(JTextComponent tc)
Fetches the EditorKit for the UI.
Overrides:
getEditorKit in class TextUI
Parameters:
tc - the text component for which this UI is installed
Returns:
the editor capabilities
See Also:
TextUI.getEditorKit(javax.swing.text.JTextComponent)

getRootView

public View getRootView(JTextComponent tc)
Fetches a View with the allocation of the associated text component (i.e. the root of the hierarchy) that can be traversed to determine how the model is being represented spatially.

NOTE:The View hierarchy can be traversed from the root view, and other things can be done as well. Things done in this way cannot be protected like simple method calls through the TextUI. Therefore, proper operation in the presence of concurrency must be arranged by any logic that calls this method!

Overrides:
getRootView in class TextUI
Parameters:
tc - the text component for which this UI is installed
Returns:
the view
See Also:
TextUI.getRootView(javax.swing.text.JTextComponent)

create

public View create(Element elem)
Creates a view for an element. If a subclass wishes to directly implement the factory producing the view(s), it should reimplement this method. By default it simply returns null indicating it is unable to represent the element.
Specified by:
create in interface ViewFactory
Parameters:
elem - the element
Returns:
the view

create

public View create(Element elem,
                   int p0,
                   int p1)
Creates a view for an element. If a subclass wishes to directly implement the factory producing the view(s), it should reimplement this method. By default it simply returns null indicating it is unable to represent the part of the element.
Parameters:
elem - the element
p0 - the starting offset >= 0
p1 - the ending offset >= p0
Returns:
the view

JavaTM 2 Platform
Std. Ed. v1.3.1

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