Package Summary  Overview Summary

class:RepaintManager [NONE]


public class RepaintManager
extends Object
This class manages repaint requests, allowing the number of repaints to be minimized, for example by collapsing multiple requests into a single repaint for members of a component tree.

As of 1.6 RepaintManager handles repaint requests for Swing's top level components (JApplet, JWindow, JFrame and JDialog). Any calls to repaint on one of these will call into the appropriate addDirtyRegion method.

Since:
1.2

constructor:RepaintManager() [NONE]

  • RepaintManager

    public RepaintManager()
    Create a new RepaintManager instance. You rarely call this constructor. directly. To get the default RepaintManager, use RepaintManager.currentManager(JComponent) (normally "this").

method:currentManager(java.awt.Component) [NONE]

  • currentManager

    public static  RepaintManager currentManager?(Component c)
    Return the RepaintManager for the calling thread given a Component.
    Parameters:
    c - a Component -- unused in the default implementation, but could be used by an overridden version to return a different RepaintManager depending on the Component
    Returns:
    the RepaintManager object
  • method:currentManager(javax.swing.JComponent) [NONE]

    currentManager

    public static  RepaintManager currentManager?(JComponent c)
    Return the RepaintManager for the calling thread given a JComponent.

    Note: This method exists for backward binary compatibility with earlier versions of the Swing library. It simply returns the result returned by currentManager(Component).

    Parameters:
    c - a JComponent -- unused
    Returns:
    the RepaintManager object

    method:setCurrentManager(javax.swing.RepaintManager) [NONE]

    setCurrentManager

    public static  void setCurrentManager?(RepaintManager aRepaintManager)
    Set the RepaintManager that should be used for the calling thread. aRepaintManager will become the current RepaintManager for the calling thread's thread group.
    Parameters:
    aRepaintManager - the RepaintManager object to use

    method:addInvalidComponent(javax.swing.JComponent) [NONE]

    addInvalidComponent

    public void addInvalidComponent?(JComponent invalidComponent)
    Mark the component as in need of layout and queue a runnable for the event dispatching thread that will validate the components first isValidateRoot() ancestor.
    Parameters:
    invalidComponent - a component
    See Also:
    JComponent.isValidateRoot(), removeInvalidComponent(javax.swing.JComponent)

    method:removeInvalidComponent(javax.swing.JComponent) [NONE]

    removeInvalidComponent

    public void removeInvalidComponent?(JComponent component)
    Remove a component from the list of invalid components.
    Parameters:
    component - a component
    See Also:
    addInvalidComponent(javax.swing.JComponent)

    method:addDirtyRegion(javax.swing.JComponent,int,int,int,int) [NONE]

    addDirtyRegion

    public void addDirtyRegion?(JComponent c, int x, int y, int w, int h)
    Add a component in the list of components that should be refreshed. If c already has a dirty region, the rectangle (x,y,w,h) will be unioned with the region that should be redrawn.
    Parameters:
    c - Component to repaint, null results in nothing happening.
    x - X coordinate of the region to repaint
    y - Y coordinate of the region to repaint
    w - Width of the region to repaint
    h - Height of the region to repaint
    See Also:
    JComponent.repaint(long, int, int, int, int)

    method:addDirtyRegion(java.awt.Window,int,int,int,int) [NONE]

    addDirtyRegion

    public void addDirtyRegion?(Window window, int x, int y, int w, int h)
    Adds window to the list of Components that need to be repainted.
    Parameters:
    window - Window to repaint, null results in nothing happening.
    x - X coordinate of the region to repaint
    y - Y coordinate of the region to repaint
    w - Width of the region to repaint
    h - Height of the region to repaint
    Since:
    1.6
    See Also:
    JFrame.repaint(long, int, int, int, int) , JWindow.repaint(long, int, int, int, int) , JDialog.repaint(long, int, int, int, int)

    method:addDirtyRegion(java.applet.Applet,int,int,int,int) [NONE]

    addDirtyRegion

    @Deprecated(since="9") public void addDirtyRegion?(Applet applet, int x, int y, int w, int h)
    Deprecated.
    The Applet API is deprecated. See the java.applet package documentation for further information.
    Adds applet to the list of Components that need to be repainted.
    Parameters:
    applet - Applet to repaint, null results in nothing happening.
    x - X coordinate of the region to repaint
    y - Y coordinate of the region to repaint
    w - Width of the region to repaint
    h - Height of the region to repaint
    Since:
    1.6
    See Also:
    JApplet.repaint(long, int, int, int, int)

    method:getDirtyRegion(javax.swing.JComponent) [NONE]

    getDirtyRegion

    public Rectangle getDirtyRegion?(JComponent aComponent)
    Return the current dirty region for a component. Return an empty rectangle if the component is not dirty.
    Parameters:
    aComponent - a component
    Returns:
    the region

    method:markCompletelyDirty(javax.swing.JComponent) [NONE]

    markCompletelyDirty

    public void markCompletelyDirty?(JComponent aComponent)
    Mark a component completely dirty. aComponent will be completely painted during the next paintDirtyRegions() call.
    Parameters:
    aComponent - a component

    method:markCompletelyClean(javax.swing.JComponent) [NONE]

    markCompletelyClean

    public void markCompletelyClean?(JComponent aComponent)
    Mark a component completely clean. aComponent will not get painted during the next paintDirtyRegions() call.
    Parameters:
    aComponent - a component

    method:isCompletelyDirty(javax.swing.JComponent) [NONE]

    isCompletelyDirty

    public boolean isCompletelyDirty?(JComponent aComponent)
    Convenience method that returns true if aComponent will be completely painted during the next paintDirtyRegions(). If computing dirty regions is expensive for your component, use this method and avoid computing dirty region if it return true.
    Parameters:
    aComponent - a component
    Returns:
    true if aComponent will be completely painted during the next paintDirtyRegions().

    method:validateInvalidComponents() [NONE]

    validateInvalidComponents

    public void validateInvalidComponents()
    Validate all of the components that have been marked invalid.
    See Also:
    addInvalidComponent(javax.swing.JComponent)

    method:paintDirtyRegions() [NONE]

    paintDirtyRegions

    public void paintDirtyRegions()
    Paint all of the components that have been marked dirty.
    See Also:
    addDirtyRegion(javax.swing.JComponent, int, int, int, int)

    method:toString() [NONE]

    toString

    public String toString()
    Returns a string that displays and identifies this object's properties.
    Overrides:
    toString in class Object
    Returns:
    a String representation of this object

    method:getOffscreenBuffer(java.awt.Component,int,int) [NONE]

    getOffscreenBuffer

    public Image getOffscreenBuffer?(Component c, int proposedWidth, int proposedHeight)
    Return the offscreen buffer that should be used as a double buffer with the component c. By default there is a double buffer per RepaintManager. The buffer might be smaller than (proposedWidth,proposedHeight) This happens when the maximum double buffer size as been set for the receiving repaint manager.
    Parameters:
    c - the component
    proposedWidth - the width of the buffer
    proposedHeight - the height of the buffer
    Returns:
    the image

    method:getVolatileOffscreenBuffer(java.awt.Component,int,int) [NONE]

    getVolatileOffscreenBuffer

    public Image getVolatileOffscreenBuffer?(Component c, int proposedWidth, int proposedHeight)
    Return a volatile offscreen buffer that should be used as a double buffer with the specified component c. The image returned will be an instance of VolatileImage, or null if a VolatileImage object could not be instantiated. This buffer might be smaller than (proposedWidth,proposedHeight). This happens when the maximum double buffer size has been set for this repaint manager.
    Parameters:
    c - the component
    proposedWidth - the width of the buffer
    proposedHeight - the height of the buffer
    Returns:
    the volatile image
    Since:
    1.4
    See Also:
    VolatileImage

    method:setDoubleBufferMaximumSize(java.awt.Dimension) [NONE]

    setDoubleBufferMaximumSize

    public void setDoubleBufferMaximumSize?(Dimension d)
    Set the maximum double buffer size.
    Parameters:
    d - the dimension

    method:getDoubleBufferMaximumSize() [NONE]

    getDoubleBufferMaximumSize

    public Dimension getDoubleBufferMaximumSize()
    Returns the maximum double buffer size.
    Returns:
    a Dimension object representing the maximum size

    method:setDoubleBufferingEnabled(boolean) [NONE]

    setDoubleBufferingEnabled

    public void setDoubleBufferingEnabled?(boolean aFlag)
    Enables or disables double buffering in this RepaintManager. CAUTION: The default value for this property is set for optimal paint performance on the given platform and it is not recommended that programs modify this property directly.
    Parameters:
    aFlag - true to activate double buffering
    See Also:
    isDoubleBufferingEnabled()

    method:isDoubleBufferingEnabled() [NONE]

    isDoubleBufferingEnabled

    public boolean isDoubleBufferingEnabled()
    Returns true if this RepaintManager is double buffered. The default value for this property may vary from platform to platform. On platforms where native double buffering is supported in the AWT, the default value will be false to avoid unnecessary buffering in Swing. On platforms where native double buffering is not supported, the default value will be true.
    Returns:
    true if this object is double buffered

    © 2020 Oracle Corporation and/or its affiliates