gcc/libjava/java/awt/CardLayout.java
Tom Tromey 5472d1951a MenuContainer.java: Fixed typo.
* java/awt/MenuContainer.java: Fixed typo.

	* Makefile.in: Rebuilt.
	* Makefile.am (awt_java_source_files): Added SystemColor.java.
	* java/awt/SystemColor.java: New file.

	* java/awt/Color.java (rgba): Now package-private.

	* java/awt/event/InputEvent.java (isAltGraphDown): New method.

	* java/awt/event/ContainerEvent.java (getContainer): Renamed from
	getComponent.

	* java/awt/MenuItem.java (addNotify): New method.
	(MenuItem(String,MenuShortcut)): New constructor.
	(setLabel): Notify peer of change.
	(setEnabled): Likewise.

	* java/awt/GridLayout.java (toString): New method.

	* java/awt/FlowLayout.java (LEADING, TRAILING): New constants.
	(FlowLayout): Check for LEADING and TRAILING.
	(setAlignment): Likewise.
	(layoutContainer): Handle component orientation.

	* java/awt/Component.java (orientatin): New field.
	(setComponentOrientation): Wrote.
	(getComponentOrientation): Wrote.

	* java/awt/Event.java (Event): Implements Serializable.
	(consumed): New field for serialization.
	* java/awt/Dimension.java (Dimension): Implements Serializable.
	* java/awt/Cursor.java (Cursor): Implements Serializable.
	* java/awt/Container.java (Container): No longer abstract.

	* java/awt/Choice.java: Wrote.
	* java/awt/Checkbox.java: Wrote.
	* java/awt/ItemSelectable.java: Documented.
	* java/awt/CheckboxGroup.java: Wrote.

	* java/awt/CardLayout.java (layoutContainer): Directly use fields
	in other classes.
	(getSize): Likewise.

From-SVN: r38486
2000-12-26 00:25:13 +00:00

353 lines
8.5 KiB
Java

// CardLayout.java - Card-based layout engine
/* Copyright (C) 2000 Free Software Foundation
This file is part of libgcj.
This software is copyrighted work licensed under the terms of the
Libgcj License. Please consult the file "LIBGCJ_LICENSE" for
details. */
package java.awt;
import java.util.Enumeration;
import java.util.Hashtable;
import java.io.Serializable;
/** This class implements a card-based layout scheme. Each included
* component is treated as a card. Only one card can be shown at a
* time. This class includes methods for changing which card is
* shown.
*
* @version 0.0
* @author Tom Tromey <tromey@redhat.com>
* @date December 2, 2000
*/
public class CardLayout implements LayoutManager2, Serializable
{
/** Create a new CardLayout object with both gaps zero. */
public CardLayout ()
{
this (0, 0);
}
/** Create a new CardLayout object with the specified horizontal and
* vertical gaps.
* @param hgap The horizontal gap
* @param vgap The vertical gap
*/
public CardLayout (int hgap, int vgap)
{
this.hgap = hgap;
this.vgap = vgap;
this.map = new Hashtable ();
}
/** Add a new component to the layout. The constraint must be a
* string which is used to name the component. This string can
* later be used to refer to the particular component.
* @param comp The component to add
* @param constraints The name by which the component can later be called
* @exception IllegalArgumentException If `constraints' is not a string
*/
public void addLayoutComponent (Component comp, Object constraints)
{
if (! (constraints instanceof String))
throw new IllegalArgumentException ("Object " + constraints
+ " is not a string");
map.put (constraints, comp);
}
/** Add a new component to the layout. The name can be used later
* to refer to the component.
* @param name The name by which the component can later be called
* @param comp The component to add
* @deprecated
*/
public void addLayoutComponent (String name, Component comp)
{
addLayoutComponent (comp, name);
}
/** Cause the first component in the container to be displayed.
* @param parent The parent container
*/
public void first (Container parent)
{
gotoComponent (parent, FIRST, null);
}
/** Return this layout manager's horizontal gap. */
public int getHgap ()
{
return hgap;
}
/** Return this layout manager's x alignment. This method always
* returns Component.CENTER_ALIGNMENT.
* @param parent Container using this layout manager instance
*/
public float getLayoutAlignmentX (Container parent)
{
return Component.CENTER_ALIGNMENT;
}
/** Returns this layout manager's y alignment. This method always
* returns Component.CENTER_ALIGNMENT.
* @param parent Container using this layout manager instance
*/
public float getLayoutAlignmentY (Container parent)
{
return Component.CENTER_ALIGNMENT;
}
/** Return this layout manager's vertical gap. */
public int getVgap ()
{
return vgap;
}
/** Invalidate this layout manager's state. */
public void invalidateLayout (Container target)
{
// Do nothing.
}
/** Cause the last component in the container to be displayed.
* @param parent The parent container
*/
public void last (Container parent)
{
gotoComponent (parent, LAST, null);
}
/** Lay out the container's components based on the current
* settings.
* @param parent The parent container
*/
public void layoutContainer (Container parent)
{
int width = parent.width;
int height = parent.height;
Insets ins = parent.getInsets ();
int num = parent.ncomponents;
Component[] comps = parent.component;
for (int i = 0; i < num; ++i)
{
if (comps[i].isVisible ())
{
// Only resize the one we care about.
comps[i].setBounds (hgap + ins.left, vgap + ins.top,
width - 2 * hgap - ins.left - ins.right,
height - 2 * vgap - ins.top - ins.bottom);
break;
}
}
}
/** Get the maximum layout size of the container.
* @param target The parent container
*/
public Dimension maximumLayoutSize (Container target)
{
// The JCL says that this returns Integer.MAX_VALUE for both
// dimensions. But that just seems wrong to me.
return getSize (target, MAX);
}
/** Get the minimum layout size of the container.
* @param target The parent container
*/
public Dimension minimumLayoutSize (Container target)
{
return getSize (target, MIN);
}
/** Cause the next component in the container to be displayed.
* @param parent The parent container
*/
public void next (Container parent)
{
gotoComponent (parent, NEXT, null);
}
/** Get the preferred layout size of the container.
* @param target The parent container
*/
public Dimension preferredLayoutSize (Container parent)
{
return getSize (parent, PREF);
}
/** Cause the previous component in the container to be displayed.
* @param parent The parent container
*/
public void previous (Container parent)
{
gotoComponent (parent, PREV, null);
}
/** Remove the indicated component from this layout manager.
* @param comp The component to remove
*/
public void removeLayoutComponent (Component comp)
{
Enumeration e = map.keys ();
while (e.hasMoreElements ())
{
Object key = e.nextElement ();
if (map.get (key) == comp)
{
map.remove (key);
break;
}
}
}
/** Set this layout manager's horizontal gap.
* @param hgap The new gap
*/
public void setHgap (int hgap)
{
this.hgap = hgap;
}
/** Set this layout manager's vertical gap.
* @param vgap The new gap
*/
public void setVgap (int vgap)
{
this.vgap = vgap;
}
/** Cause the named component to be shown. If the component name is
* unknown, this method does nothing.
* @param parent The parent container
* @param name The name of the component to show
*/
public void show (Container parent, String name)
{
Object target = map.get (name);
if (target != null)
gotoComponent (parent, NONE, (Component) target);
}
public String toString ()
{
return getClass ().getName () + "[" + hgap + "," + vgap + "]";
}
// This implements first(), last(), next(), and previous().
private void gotoComponent (Container parent, int what,
Component target)
{
int num = parent.getComponentCount ();
// This is more efficient than calling getComponents().
Component[] comps = parent.component;
int choice = -1;
if (what == FIRST)
choice = 0;
else if (what == LAST)
choice = num;
else if (what >= 0)
choice = what;
for (int i = 0; i < num; ++i)
{
// If TARGET is set then we are looking for a specific
// component.
if (target != null)
{
if (target == comps[i])
choice = i;
}
if (comps[i].isVisible ())
{
if (what == NEXT)
{
choice = i + 1;
if (choice == num)
choice = num - 1;
}
else if (what == PREV)
{
choice = i - 1;
if (choice < 0)
choice = 0;
}
else
{
// Do nothing if we're already looking at the right
// component.
if (choice == i)
return;
}
comps[i].setVisible (false);
if (choice >= 0)
break;
}
}
comps[choice].setVisible (true);
}
// Compute the size according to WHAT.
private Dimension getSize (Container parent, int what)
{
int w = 0, h = 0, num = parent.ncomponents;
Component[] comps = parent.component;
for (int i = 0; i < num; ++i)
{
Dimension d;
if (what == MIN)
d = comps[i].getMinimumSize ();
else if (what == MAX)
d = comps[i].getMaximumSize ();
else
d = comps[i].getPreferredSize ();
w = Math.max (d.width, w);
h = Math.max (d.height, h);
}
Insets i = parent.getInsets ();
w += 2 * hgap + i.right + i.left;
h += 2 * vgap + i.bottom + i.top;
// Handle overflow.
if (w < 0)
w = Integer.MAX_VALUE;
if (h < 0)
h = Integer.MAX_VALUE;
return new Dimension (w, h);
}
// The gaps.
private int hgap;
private int vgap;
// This hashtable maps a name to a component.
private Hashtable map;
// These constants are used by the private gotoComponent method.
private int FIRST = 0;
private int LAST = 1;
private int NEXT = 2;
private int PREV = 3;
private int NONE = 4;
// These constants are used by the private getSize method.
private int MIN = 0;
private int MAX = 1;
private int PREF = 2;
}