/* ContainerOrderFocusTraversalPolicy.java --
Copyright (C) 2002, 2005 Free Software Foundation, Inc.
This file is part of GNU Classpath.
GNU Classpath is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
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02110-1301 USA.
Linking this library statically or dynamically with other modules is
making a combined work based on this library. Thus, the terms and
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permission to link this library with independent modules to produce an
executable, regardless of the license terms of these independent
modules, and to copy and distribute the resulting executable under
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independent module, the terms and conditions of the license of that
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package java.awt;
import java.io.Serializable;
/**
* ContainerOrderFocusTraversalPolicy defines a focus traversal order
* based on the order in which Components were packed in a Container.
* This policy performs a pre-order traversal of the Component
* hierarchy starting from a given focus cycle root. Portions of the
* hierarchy that are not visible and displayable are skipped.
*
* By default, this policy transfers focus down-cycle implicitly.
* That is, if a forward traversal is requested on a focus cycle root
* and the focus cycle root has focusable children, the focus will
* automatically be transfered down to the lower focus cycle.
*
* The default implementation of accept accepts only Components that
* are visible, displayable, enabled and focusable. Derived classes
* can override these acceptance criteria by overriding accept.
*
* @author Michael Koch
* @author Thomas Fitzsimmons (fitzsim@redhat.com)
* @since 1.4
*/
public class ContainerOrderFocusTraversalPolicy extends FocusTraversalPolicy
implements Serializable
{
/**
* Compatible to JDK 1.4+
*/
static final long serialVersionUID = 486933713763926351L;
/**
* True if implicit down cycling is enabled.
*/
private boolean implicitDownCycleTraversal = true;
/**
* Creates the ContainerOrderFocusTraversalPolicy
object.
*/
public ContainerOrderFocusTraversalPolicy ()
{
// Nothing to do here
}
/**
* Returns the Component that should receive the focus after current.
* root must be a focus cycle root of current.
*
* @param root a focus cycle root of current
* @param current a (possibly indirect) child of root, or root itself
*
* @return the next Component in the focus traversal order for root,
* or null if no acceptable Component exists.
*
* @exception IllegalArgumentException If root is not a focus cycle
* root of current, or if either root or current is null.
*/
public Component getComponentAfter (Container root, Component current)
{
if (root == null)
throw new IllegalArgumentException ("focus cycle root is null");
if (current == null)
throw new IllegalArgumentException ("current component is null");
if (!root.isFocusCycleRoot ())
throw new IllegalArgumentException ("root is not a focus cycle root");
Container ancestor = current.getFocusCycleRootAncestor ();
Container prevAncestor = ancestor;
while (ancestor != root)
{
ancestor = current.getFocusCycleRootAncestor ();
if (ancestor == prevAncestor)
{
// We've reached the top focus cycle root ancestor. Check
// if it is root.
if (ancestor == null)
ancestor = root;
else if (ancestor != root)
throw new IllegalArgumentException ("the given container is not"
+ " a focus cycle root of the"
+ " current component");
else
break;
}
prevAncestor = ancestor;
}
// FIXME: is this the right thing to do here? It moves the context
// for traversal up one focus traversal cycle. We'll need a test
// for this.
if ((Component) root == current)
root = current.getFocusCycleRootAncestor ();
// Check if we've reached the top of the component hierarchy. If
// so then we want to loop around to the first component in the
// focus traversal cycle.
if (current instanceof Window)
return getFirstComponent ((Container) current);
Container parent = current.getParent ();
synchronized (parent.getTreeLock ())
{
Component[] components = parent.getComponents ();
int componentIndex = 0;
int numComponents = parent.getComponentCount ();
// Find component's index.
for (int i = 0; i < numComponents; i++)
{
if (components[i].equals(current))
componentIndex = i;
}
// Search forward for the next acceptable component.
// Search through all components at least one time
// i.e. start at componentIndex + 1 --> nComponents -1 --> 0 ---> componentIndex
int i = componentIndex + 1;
int end = numComponents - 1;
Component next = getNextAvailableComponent(components, i, end);
if (next != null)
return next;
// Now check remainder of components from 0 to componentIndex
i = 0;
end = componentIndex;
next = getNextAvailableComponent(components, i, end);
if (next != null)
return next;
// No focusable components after current in its Container. So go
// to the next Component after current's Container (parent).
Component result = getComponentAfter (root, parent);
return result;
}
}
/**
* Gets the next available component in the array between the given range.
*
* @param components - the array of components.
* @param start - where to start
* @param end - where to end
* @return next component if found
*/
private Component getNextAvailableComponent(Component[] components, int start, int end)
{
while (start <= end)
{
Component c = components[start];
if (c.visible && c.isDisplayable() && c.enabled && c.focusable)
return c;
if (c instanceof Container)
{
Component result = getFirstComponent((Container) c);
if (result != null && implicitDownCycleTraversal && result.visible
&& result.isDisplayable() && result.enabled && result.focusable)
return result;
}
start++;
}
return null;
}
/**
* Gets the previous available component in the array between the given range.
*
* @param components - the array of components.
* @param start - where to start
* @param end - where to end
* @return previous component if found
*/
Component getPrevAvailableComponent(Component[] components, int start, int end)
{
while (start >= end)
{
Component c = components[start];
if (c.visible && c.isDisplayable() && c.enabled && c.focusable)
return c;
if (c instanceof Container)
{
Component result = getLastComponent((Container) c);
if (result != null
&& (result.visible && result.isDisplayable() && result.enabled && result.focusable))
return result;
}
start--;
}
return null;
}
/**
* Returns the Component that should receive the focus before
* current
. root
must be a focus cycle root of
* current.
*
* @param root a focus cycle root of current
* @param current a (possibly indirect) child of root, or root itself
* @return the previous Component in the focus traversal order for root, or
* null if no acceptable Component exists.
* @exception IllegalArgumentException If root is not a focus cycle root of
* current, or if either root or current is null.
*/
public Component getComponentBefore (Container root, Component current)
{
if (root == null)
throw new IllegalArgumentException ("focus cycle root is null");
if (current == null)
throw new IllegalArgumentException ("current component is null");
if (!root.isFocusCycleRoot ())
throw new IllegalArgumentException ("root is not a focus cycle root");
Container ancestor = current.getFocusCycleRootAncestor ();
Container prevAncestor = ancestor;
while (ancestor != root)
{
ancestor = current.getFocusCycleRootAncestor ();
if (ancestor == prevAncestor)
{
// We've reached the top focus cycle root ancestor. Check
// if it is root.
if (ancestor == null)
ancestor = root;
else if (ancestor != root)
throw new IllegalArgumentException ("the given container is not"
+ " a focus cycle root of the"
+ " current component");
else
break;
}
prevAncestor = ancestor;
}
// FIXME: is this the right thing to do here? It moves the context
// for traversal up one focus traversal cycle. We'll need a test
// for this.
if ((Component) root == current)
root = current.getFocusCycleRootAncestor ();
// Check if we've reached the top of the component hierarchy. If
// so then we want to loop around to the last component in the
// focus traversal cycle.
if (current instanceof Window)
return getLastComponent ((Container) current);
Container parent = current.getParent ();
synchronized (parent.getTreeLock ())
{
Component[] components = parent.getComponents ();
int componentIndex = 0;
int numComponents = parent.getComponentCount ();
// Find component's index.
for (int i = 0; i < numComponents; i++)
{
if (components[i] == current)
componentIndex = i;
}
// Search through all components at least one time
// i.e. start at componentIndex - 1 --> 0 --> numComponents -1 ---> componentIndex
int i = componentIndex - 1;
int end = 0;
Component prev = getPrevAvailableComponent(components, i, end);
if (prev != null)
return prev;
// Now check remainder of components
i = numComponents -1;
end = componentIndex;
prev = getPrevAvailableComponent(components, i, end);
if (prev != null)
return prev;
// No focusable components before current in its Container. So go
// to the previous Component before current's Container (parent).
Component result = getComponentBefore (root, parent);
return result;
}
}
/**
* Returns the first Component of root that should receive the focus.
*
* @param root a focus cycle root
*
* @return the first Component in the focus traversal order for
* root, or null if no acceptable Component exists.
*
* @exception IllegalArgumentException If root is null.
*/
public Component getFirstComponent(Container root)
{
if (root == null)
throw new IllegalArgumentException ();
if (!root.isVisible ()
|| !root.isDisplayable ())
return null;
if (accept(root))
return root;
int ncomponents = root.getComponentCount();
for (int i = 0; i < ncomponents; i++)
{
Component component = root.getComponent(i);
if (component instanceof Container
&& !((Container) component).isFocusCycleRoot())
{
Component first = null;
Container cont = (Container) component;
if (cont.isFocusTraversalPolicyProvider())
{
FocusTraversalPolicy childPol = cont.getFocusTraversalPolicy();
first = childPol.getFirstComponent(cont);
}
else
first = getFirstComponent(cont);
if (first != null)
return first;
}
else if (accept(component))
return component;
}
return null;
}
/**
* Returns the last Component of root that should receive the focus.
*
* @param root a focus cycle root
*
* @return the last Component in the focus traversal order for
* root, or null if no acceptable Component exists.
*
* @exception IllegalArgumentException If root is null.
*/
public Component getLastComponent (Container root)
{
if (root == null)
throw new IllegalArgumentException ();
if (!root.isVisible ()
|| !root.isDisplayable ())
return null;
if (root.visible && root.isDisplayable() && root.enabled
&& root.focusable)
return root;
Component[] componentArray = root.getComponents ();
for (int i = componentArray.length - 1; i >= 0; i--)
{
Component component = componentArray [i];
if (component.visible && component.isDisplayable() && component.enabled
&& component.focusable)
return component;
if (component instanceof Container)
{
Component result = getLastComponent ((Container) component);
if (result != null &&
result.visible && result.isDisplayable() && result.enabled
&& result.focusable)
return result;
}
}
return null;
}
/**
* Returns the default Component of root that should receive the focus.
*
* @param root a focus cycle root
*
* @return the default Component in the focus traversal order for
* root, or null if no acceptable Component exists.
*
* @exception IllegalArgumentException If root is null.
*/
public Component getDefaultComponent (Container root)
{
return getFirstComponent (root);
}
/**
* Set whether or not implicit down cycling is enabled. If it is,
* then initiating a forward focus traversal operation onto a focus
* cycle root, the focus will be implicitly transferred into the
* root container's focus cycle.
*
* @param value the setting for implicit down cycling
*/
public void setImplicitDownCycleTraversal (boolean value)
{
implicitDownCycleTraversal = value;
}
/**
* Check whether or not implicit down cycling is enabled. If it is,
* then initiating a forward focus traversal operation onto a focus
* cycle root, the focus will be implicitly transferred into the
* root container's focus cycle.
*
* @return true if the focus will be transferred down-cycle
* implicitly
*/
public boolean getImplicitDownCycleTraversal ()
{
return implicitDownCycleTraversal;
}
/**
* Check whether the given Component is an acceptable target for the
* keyboard input focus.
*
* @param current the Component to check
*
* @return true if current is acceptable, false otherwise
*/
protected boolean accept (Component current)
{
return (current.visible
&& current.isDisplayable ()
&& current.enabled
&& current.focusable);
}
}