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Forest-of-actors runtime supporting real-time systems and real-time recoding - bringing aspects of Erlang, Smalltalk and Extempore to Java.

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package net.miginfocom.swing;
/*
 * License (BSD):
 * ==============
 *
 * Copyright (c) 2004, Mikael Grev, MiG InfoCom AB. (miglayout (at) miginfocom (dot) com)
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without modification,
 * are permitted provided that the following conditions are met:
 * Redistributions of source code must retain the above copyright notice, this list
 * of conditions and the following disclaimer.
 * Redistributions in binary form must reproduce the above copyright notice, this
 * list of conditions and the following disclaimer in the documentation and/or other
 * materials provided with the distribution.
 * Neither the name of the MiG InfoCom AB nor the names of its contributors may be
 * used to endorse or promote products derived from this software without specific
 * prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 * IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
 * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
 * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
 * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
 * OF SUCH DAMAGE.
 *
 * @version 1.0
 * @author Mikael Grev, MiG InfoCom AB
 *         Date: 2006-sep-08
 */

import net.miginfocom.layout.*;

import javax.swing.*;
import javax.swing.Timer;
import java.awt.*;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.io.*;
import java.util.*;

/** A very flexible layout manager.
 * 

* Read the documentation that came with this layout manager for information on usage. */ public final class MigLayout implements LayoutManager2, Externalizable { // ******** Instance part ******** /** The component to string constraints mappings. */ private final Map scrConstrMap = new IdentityHashMap(8); /** Hold the serializable text representation of the constraints. */ private Object layoutConstraints = "", colConstraints = "", rowConstraints = ""; // Should never be null! // ******** Transient part ******** private transient ContainerWrapper cacheParentW = null; private transient final Map ccMap = new HashMap(8); private transient javax.swing.Timer debugTimer = null; private transient LC lc = null; private transient AC colSpecs = null, rowSpecs = null; private transient Grid grid = null; private transient int lastModCount = PlatformDefaults.getModCount(); private transient int lastHash = -1; private transient Dimension lastInvalidSize = null; private transient boolean lastWasInvalid = false; // Added in 3.7.1. May have regressions private transient Dimension lastParentSize = null; private transient ArrayList callbackList = null; private transient boolean dirty = true; /** Constructor with no constraints. */ public MigLayout() { this("", "", ""); } /** Constructor. * @param layoutConstraints The constraints that concern the whole layout. null will be treated as "". */ public MigLayout(String layoutConstraints) { this(layoutConstraints, "", ""); } /** Constructor. * @param layoutConstraints The constraints that concern the whole layout. null will be treated as "". * @param colConstraints The constraints for the columns in the grid. null will be treated as "". */ public MigLayout(String layoutConstraints, String colConstraints) { this(layoutConstraints, colConstraints, ""); } /** Constructor. * @param layoutConstraints The constraints that concern the whole layout. null will be treated as "". * @param colConstraints The constraints for the columns in the grid. null will be treated as "". * @param rowConstraints The constraints for the rows in the grid. null will be treated as "". */ public MigLayout(String layoutConstraints, String colConstraints, String rowConstraints) { setLayoutConstraints(layoutConstraints); setColumnConstraints(colConstraints); setRowConstraints(rowConstraints); } /** Constructor. * @param layoutConstraints The constraints that concern the whole layout. null will be treated as an empty constraint. */ public MigLayout(LC layoutConstraints) { this(layoutConstraints, null, null); } /** Constructor. * @param layoutConstraints The constraints that concern the whole layout. null will be treated as an empty constraint. * @param colConstraints The constraints for the columns in the grid. null will be treated as an empty constraint. */ public MigLayout(LC layoutConstraints, AC colConstraints) { this(layoutConstraints, colConstraints, null); } /** Constructor. * @param layoutConstraints The constraints that concern the whole layout. null will be treated as an empty constraint. * @param colConstraints The constraints for the columns in the grid. null will be treated as an empty constraint. * @param rowConstraints The constraints for the rows in the grid. null will be treated as an empty constraint. */ public MigLayout(LC layoutConstraints, AC colConstraints, AC rowConstraints) { setLayoutConstraints(layoutConstraints); setColumnConstraints(colConstraints); setRowConstraints(rowConstraints); } /** Returns layout constraints either as a String or {@link net.miginfocom.layout.LC} depending what was sent in * to the constructor or set with {@link #setLayoutConstraints(Object)}. * @return The layout constraints either as a String or {@link net.miginfocom.layout.LC} depending what was sent in * to the constructor or set with {@link #setLayoutConstraints(Object)}. Never null. */ public Object getLayoutConstraints() { return layoutConstraints; } /** Sets the layout constraints for the layout manager instance as a String. *

* See the class JavaDocs for information on how this string is formatted. * @param constr The layout constraints as a String representation. null is converted to "" for storage. * @throws RuntimeException if the constraint was not valid. */ public void setLayoutConstraints(Object constr) { if (constr == null || constr instanceof String) { constr = ConstraintParser.prepare((String) constr); lc = ConstraintParser.parseLayoutConstraint((String) constr); } else if (constr instanceof LC) { lc = (LC) constr; } else { throw new IllegalArgumentException("Illegal constraint type: " + constr.getClass().toString()); } layoutConstraints = constr; dirty = true; } /** Returns the column layout constraints either as a String or {@link net.miginfocom.layout.AC}. * @return The column constraints either as a String or {@link net.miginfocom.layout.LC} depending what was sent in * to the constructor or set with {@link #setLayoutConstraints(Object)}. Never null. */ public Object getColumnConstraints() { return colConstraints; } /** Sets the column layout constraints for the layout manager instance as a String. *

* See the class JavaDocs for information on how this string is formatted. * @param constr The column layout constraints as a String representation. null is converted to "" for storage. * @throws RuntimeException if the constraint was not valid. */ public void setColumnConstraints(Object constr) { if (constr == null || constr instanceof String) { constr = ConstraintParser.prepare((String) constr); colSpecs = ConstraintParser.parseColumnConstraints((String) constr); } else if (constr instanceof AC) { colSpecs = (AC) constr; } else { throw new IllegalArgumentException("Illegal constraint type: " + constr.getClass().toString()); } colConstraints = constr; dirty = true; } /** Returns the row layout constraints as a String representation. This string is the exact string as set with {@link #setRowConstraints(Object)} * or sent into the constructor. *

* See the class JavaDocs for information on how this string is formatted. * @return The row layout constraints as a String representation. Never null. */ public Object getRowConstraints() { return rowConstraints; } /** Sets the row layout constraints for the layout manager instance as a String. *

* See the class JavaDocs for information on how this string is formatted. * @param constr The row layout constraints as a String representation. null is converted to "" for storage. * @throws RuntimeException if the constraint was not valid. */ public void setRowConstraints(Object constr) { if (constr == null || constr instanceof String) { constr = ConstraintParser.prepare((String) constr); rowSpecs = ConstraintParser.parseRowConstraints((String) constr); } else if (constr instanceof AC) { rowSpecs = (AC) constr; } else { throw new IllegalArgumentException("Illegal constraint type: " + constr.getClass().toString()); } rowConstraints = constr; dirty = true; } /** Returns a shallow copy of the constraints map. * @return A shallow copy of the constraints map. Never null. */ public Map getConstraintMap() { return new IdentityHashMap(scrConstrMap); } /** Sets the constraints map. * @param map The map. Will be copied. */ public void setConstraintMap(Map map) { scrConstrMap.clear(); ccMap.clear(); for (Map.Entry e : map.entrySet()) setComponentConstraintsImpl(e.getKey(), e.getValue(), true); } /** Returns the component constraints as a String representation. This string is the exact string as set with {@link #setComponentConstraints(java.awt.Component, Object)} * or set when adding the component to the parent component. *

* See the class JavaDocs for information on how this string is formatted. * @param comp The component to return the constraints for. * @return The component constraints as a String representation or null if the component is not registered * with this layout manager. The returned values is either a String or a {@link net.miginfocom.layout.CC} * depending on what constraint was sent in when the component was added. May be null. */ public Object getComponentConstraints(Component comp) { synchronized(comp.getParent().getTreeLock()) { return scrConstrMap.get(comp); } } /** Sets the component constraint for the component that already must be handled by this layout manager. *

* See the class JavaDocs for information on how this string is formatted. * @param constr The component constraints as a String or {@link net.miginfocom.layout.CC}. null is ok. * @param comp The component to set the constraints for. * @throws RuntimeException if the constraint was not valid. * @throws IllegalArgumentException If the component is not handling the component. */ public void setComponentConstraints(Component comp, Object constr) { setComponentConstraintsImpl(comp, constr, false); } /** Sets the component constraint for the component that already must be handled by this layout manager. *

* See the class JavaDocs for information on how this string is formatted. * @param constr The component constraints as a String or {@link net.miginfocom.layout.CC}. null is ok. * @param comp The component to set the constraints for. * @param noCheck Doe not check if the component is handled if true * @throws RuntimeException if the constraint was not valid. * @throws IllegalArgumentException If the component is not handling the component. */ private void setComponentConstraintsImpl(Component comp, Object constr, boolean noCheck) { Container parent = comp.getParent(); synchronized(parent != null ? parent.getTreeLock() : new Object()) { // 3.7.2. No sync if not added to a hierarchy. Defeats a NPE. if (noCheck == false && scrConstrMap.containsKey(comp) == false) throw new IllegalArgumentException("Component must already be added to parent!"); ComponentWrapper cw = new SwingComponentWrapper(comp); if (constr == null || constr instanceof String) { String cStr = ConstraintParser.prepare((String) constr); scrConstrMap.put(comp, constr); ccMap.put(cw, ConstraintParser.parseComponentConstraint(cStr)); } else if (constr instanceof CC) { scrConstrMap.put(comp, constr); ccMap.put(cw, (CC) constr); } else { throw new IllegalArgumentException("Constraint must be String or ComponentConstraint: " + constr.getClass().toString()); } dirty = true; } } /** Returns if this layout manager is currently managing this component. * @param c The component to check. If null then false will be returned. * @return If this layout manager is currently managing this component. */ public boolean isManagingComponent(Component c) { return scrConstrMap.containsKey(c); } /** Adds the callback function that will be called at different stages of the layout cylce. * @param callback The callback. Not null. */ public void addLayoutCallback(LayoutCallback callback) { if (callback == null) throw new NullPointerException(); if (callbackList == null) callbackList = new ArrayList(1); callbackList.add(callback); } /** Removes the callback if it exists. * @param callback The callback. May be null. */ public void removeLayoutCallback(LayoutCallback callback) { if (callbackList != null) callbackList.remove(callback); } /** Sets the debugging state for this layout manager instance. If debug is turned on a timer will repaint the last laid out parent * with debug information on top. *

* Red fill and dashed red outline is used to indicate occupied cells in the grid. Blue dashed outline indicate indicate * component bounds set. *

* Note that debug can also be set on the layout constraints. There it will be persisted. The value set here will not. See the class * JavaDocs for information. * @param parentW The parent to set debug for. * @param b true means debug is turned on. */ private synchronized void setDebug(final ComponentWrapper parentW, boolean b) { if (b && (debugTimer == null || debugTimer.getDelay() != getDebugMillis())) { if (debugTimer != null) debugTimer.stop(); ContainerWrapper pCW = parentW.getParent(); final Component parent = pCW != null ? (Component) pCW.getComponent() : null; debugTimer = new Timer(getDebugMillis(), new MyDebugRepaintListener()); if (parent != null) { SwingUtilities.invokeLater(new Runnable() { public void run() { Container p = parent.getParent(); if (p != null) { if (p instanceof JComponent) { ((JComponent) p).revalidate(); } else { parent.invalidate(); p.validate(); } } } }); } debugTimer.setInitialDelay(100); debugTimer.start(); } else if (!b && debugTimer != null) { debugTimer.stop(); debugTimer = null; } } /** Returns the current debugging state. * @return The current debugging state. */ private boolean getDebug() { return debugTimer != null; } /** Returns the debug millis. Combines the value from {@link net.miginfocom.layout.LC#getDebugMillis()} and {@link net.miginfocom.layout.LayoutUtil#getGlobalDebugMillis()} * @return The combined value. */ private int getDebugMillis() { int globalDebugMillis = LayoutUtil.getGlobalDebugMillis(); return globalDebugMillis > 0 ? globalDebugMillis : lc.getDebugMillis(); } /** Check if something has changed and if so recreate it to the cached objects. * @param parent The parent that is the target for this layout manager. */ private void checkCache(Container parent) { if (parent == null) return; if (dirty) grid = null; // Check if the grid is valid int mc = PlatformDefaults.getModCount(); if (lastModCount != mc) { grid = null; lastModCount = mc; } if (parent.isValid() == false) { if (lastWasInvalid == false) { lastWasInvalid = true; int hash = 0; boolean resetLastInvalidOnParent = false; // Added in 3.7.3 to resolve a timing regression introduced in 3.7.1 for (Iterator it = ccMap.keySet().iterator(); it.hasNext();) { ComponentWrapper wrapper = it.next(); Object component = wrapper.getComponent(); if (component instanceof JTextArea || component instanceof JEditorPane) resetLastInvalidOnParent = true; hash += wrapper.getLayoutHashCode(); } if (resetLastInvalidOnParent) resetLastInvalidOnParent(parent); if (hash != lastHash) { grid = null; lastHash = hash; } Dimension ps = parent.getSize(); if (lastInvalidSize == null || !lastInvalidSize.equals(ps)) { if (grid != null) grid.invalidateContainerSize(); lastInvalidSize = ps; } } } else { lastWasInvalid = false; } ContainerWrapper par = checkParent(parent); setDebug(par, getDebugMillis() > 0); if (grid == null) grid = new Grid(par, lc, rowSpecs, colSpecs, ccMap, callbackList); dirty = false; } /** * @since 3.7.3 */ private void resetLastInvalidOnParent(Container parent) { while (parent != null) { LayoutManager layoutManager = parent.getLayout(); if (layoutManager instanceof MigLayout) { ((MigLayout) layoutManager).lastWasInvalid = false; } parent = parent.getParent(); } } private ContainerWrapper checkParent(Container parent) { if (parent == null) return null; if (cacheParentW == null || cacheParentW.getComponent() != parent) cacheParentW = new SwingContainerWrapper(parent); return cacheParentW; } private long lastSize = 0; public void layoutContainer(final Container parent) { synchronized(parent.getTreeLock()) { checkCache(parent); Insets i = parent.getInsets(); int[] b = new int[] { i.left, i.top, parent.getWidth() - i.left - i.right, parent.getHeight() - i.top - i.bottom }; if (grid.layout(b, lc.getAlignX(), lc.getAlignY(), getDebug(), true)) { grid = null; checkCache(parent); grid.layout(b, lc.getAlignX(), lc.getAlignY(), getDebug(), false); } long newSize = grid.getHeight()[1] + (((long) grid.getWidth()[1]) << 32); if (lastSize != newSize) { lastSize = newSize; final ContainerWrapper containerWrapper = checkParent(parent); Window win = ((Window) SwingUtilities.getAncestorOfClass(Window.class, (Component)containerWrapper.getComponent())); if (win != null) { if (win.isVisible()) { SwingUtilities.invokeLater(new Runnable() { public void run() { adjustWindowSize(containerWrapper); } }); } else { adjustWindowSize(containerWrapper); } } } lastInvalidSize = null; } } /** Checks the parent window if its size is within parameters as set by the LC. * @param parent The parent who's window to possibly adjust the size for. */ private void adjustWindowSize(ContainerWrapper parent) { BoundSize wBounds = lc.getPackWidth(); BoundSize hBounds = lc.getPackHeight(); if (wBounds == null && hBounds == null) return; Window win = ((Window) SwingUtilities.getAncestorOfClass(Window.class, (Component) parent.getComponent())); if (win == null) return; Dimension prefSize = win.getPreferredSize(); int targW = constrain(checkParent(win), win.getWidth(), prefSize.width, wBounds); int targH = constrain(checkParent(win), win.getHeight(), prefSize.height, hBounds); int x = Math.round(win.getX() - ((targW - win.getWidth()) * (1 - lc.getPackWidthAlign()))); int y = Math.round(win.getY() - ((targH - win.getHeight()) * (1 - lc.getPackHeightAlign()))); win.setBounds(x, y, targW, targH); } private int constrain(ContainerWrapper parent, int winSize, int prefSize, BoundSize constrain) { if (constrain == null) return winSize; int retSize = winSize; UnitValue wUV = constrain.getPreferred(); if (wUV != null) retSize = wUV.getPixels(prefSize, parent, parent); retSize = constrain.constrain(retSize, prefSize, parent); return constrain.getGapPush() ? Math.max(winSize, retSize) : retSize; } public Dimension minimumLayoutSize(Container parent) { synchronized(parent.getTreeLock()) { return getSizeImpl(parent, LayoutUtil.MIN); } } public Dimension preferredLayoutSize(Container parent) { synchronized(parent.getTreeLock()) { if (lastParentSize == null || !parent.getSize().equals(lastParentSize)) { for (ComponentWrapper wrapper : ccMap.keySet()) { Component c = (Component) wrapper.getComponent(); if (c instanceof JTextArea || c instanceof JEditorPane || (c instanceof JComponent && Boolean.TRUE.equals(((JComponent)c).getClientProperty("migLayout.dynamicAspectRatio")))) { layoutContainer(parent); break; } } } lastParentSize = parent.getSize(); return getSizeImpl(parent, LayoutUtil.PREF); } } public Dimension maximumLayoutSize(Container parent) { return new Dimension(Short.MAX_VALUE, Short.MAX_VALUE); } // Implementation method that does the job. private Dimension getSizeImpl(Container parent, int sizeType) { checkCache(parent); Insets i = parent.getInsets(); int w = LayoutUtil.getSizeSafe(grid != null ? grid.getWidth() : null, sizeType) + i.left + i.right; int h = LayoutUtil.getSizeSafe(grid != null ? grid.getHeight() : null, sizeType) + i.top + i.bottom; return new Dimension(w, h); } public float getLayoutAlignmentX(Container parent) { return lc != null && lc.getAlignX() != null ? lc.getAlignX().getPixels(1, checkParent(parent), null) : 0; } public float getLayoutAlignmentY(Container parent) { return lc != null && lc.getAlignY() != null ? lc.getAlignY().getPixels(1, checkParent(parent), null) : 0; } public void addLayoutComponent(String s, Component comp) { addLayoutComponent(comp, s); } public void addLayoutComponent(Component comp, Object constraints) { synchronized(comp.getParent().getTreeLock()) { setComponentConstraintsImpl(comp, constraints, true); } } public void removeLayoutComponent(Component comp) { synchronized(comp.getParent().getTreeLock()) { scrConstrMap.remove(comp); ccMap.remove(new SwingComponentWrapper(comp)); } } public void invalidateLayout(Container target) { // if (lc.isNoCache()) // Commented for 3.5 since there was too often that the "nocache" was needed and the user did not know. dirty = true; // the validity of components is maintained automatically. } // ************************************************ // Persistence Delegate and Serializable combined. // ************************************************ private Object readResolve() throws ObjectStreamException { return LayoutUtil.getSerializedObject(this); } public void readExternal(ObjectInput in) throws IOException, ClassNotFoundException { LayoutUtil.setSerializedObject(this, LayoutUtil.readAsXML(in)); } public void writeExternal(ObjectOutput out) throws IOException { if (getClass() == MigLayout.class) LayoutUtil.writeAsXML(out, this); } private class MyDebugRepaintListener implements ActionListener { public void actionPerformed(ActionEvent e) { if (grid != null) { Component comp = (Component) grid.getContainer().getComponent(); if (comp.isShowing()) { grid.paintDebug(); return; } } debugTimer.stop(); debugTimer = null; } } }





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