* Added my MiG Layout Manager code to the prototypes diretory while I continue working on the port from Java.

1 files changed, 1543 insertions, 0 deletions

diff --git a/prototypes/miglayout/net/miginfocom/layout/CC.java b/prototypes/miglayout/net/miginfocom/layout/CC.java
new file mode 100644
index 00000000..1fe75e2c
--- /dev/null
+++ b/prototypes/miglayout/net/miginfocom/layout/CC.java
@@ -0,0 +1,1543 @@
+package net.miginfocom.layout;

+

+import java.io.*;

+/*

+ * 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

+ */

+

+/** A simple value holder for one component's constraint.

+ */

+public final class CC implements Externalizable

+{

+	private static final BoundSize DEF_GAP = new BoundSize(null, null);    // Only used to denote default wrap/newline gap.

+

+	static final String[] DOCK_SIDES = {"north", "west", "south", "east"};

+

+	// See the getters and setters for information about the properties below.

+

+	private int dock = -1;

+

+	private UnitValue[] pos = null; // [x1, y1, x2, y2]

+

+	private UnitValue[] padding = null;   // top, left, bottom, right

+

+	private Boolean flowX = null;

+

+	private int skip = 0;

+

+	private int split = 1;

+

+	private int spanX = 1, spanY = 1;

+

+	private int cellX = -1, cellY = 0; // If cellX is -1 then cellY is also considered -1. cellY is never negative.

+

+	private String tag = null;

+

+	private String id = null;

+

+	private int hideMode = -1;

+

+	private DimConstraint hor = new DimConstraint();

+

+	private DimConstraint ver = new DimConstraint();

+

+	private BoundSize newline = null;

+

+	private BoundSize wrap = null;

+

+	private boolean boundsInGrid = true;

+

+	private boolean external = false;

+

+	private Float pushX = null, pushY = null;

+

+

+	/** Empty constructor.

+	 */

+	public CC()

+	{

+	}

+

+	// **********************************************************

+	// Chaining constraint setters

+	// **********************************************************

+

+	/** Specifies that the component should be put in the end group <code>s</code> and will thus share the same ending

+	 * coordinate as them within the group.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param s A name to associate on the group that should be the same for other rows/columns in the same group.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC endGroupX(String s)

+	{

+		hor.setEndGroup(s);

+		return this;

+	}

+

+	/** Specifies that the component should be put in the size group <code>s</code> and will thus share the same size

+	 * as them within the group.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param s A name to associate on the group that should be the same for other rows/columns in the same group.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC sizeGroupX(String s)

+	{

+		hor.setSizeGroup(s);

+		return this;

+	}

+

+	/** The minimum size for the component. The value will override any value that is set on the component itself.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param size The size expressed as a <code>UnitValue</code>. E.g. "100px" or "200mm".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC minWidth(String size)

+	{

+		hor.setSize(LayoutUtil.derive(hor.getSize(), ConstraintParser.parseUnitValue(size, true), null, null));

+		return this;

+	}

+

+	/** The size for the component as a min and/or preferref and/or maximum size. The value will override any value that is set on

+	 * the component itself.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param size The size expressed as a <code>BoundSize</code>. E.g. "50:100px:200mm" or "100px".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC width(String size)

+	{

+		hor.setSize(ConstraintParser.parseBoundSize(size, false, true));

+		return this;

+	}

+

+	/** The maximum size for the component. The value will override any value that is set on the component itself.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param size The size expressed as a <code>UnitValue</code>. E.g. "100px" or "200mm".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC maxWidth(String size)

+	{

+		hor.setSize(LayoutUtil.derive(hor.getSize(), null, null, ConstraintParser.parseUnitValue(size, true)));

+		return this;

+	}

+

+

+	/** The horizontal gap before and/or after the component. The gap is towards cell bounds and/or other component bounds.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param before The size of the gap expressed as a <code>BoundSize</code>. E.g. "50:100px:200mm" or "100px!".

+	 * @param after The size of the gap expressed as a <code>BoundSize</code>. E.g. "50:100px:200mm" or "100px!".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC gapX(String before, String after)

+	{

+		if (before != null)

+			hor.setGapBefore(ConstraintParser.parseBoundSize(before, true, true));

+

+		if (after != null)

+			hor.setGapAfter(ConstraintParser.parseBoundSize(after, true, true));

+

+		return this;

+	}

+

+	/** Same functionality as <code>getHorizontal().setAlign(ConstraintParser.parseUnitValue(unitValue, true))</code> only this method

+	 * returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param align The align keyword or for instance "100px". E.g "left", "right", "leading" or "trailing".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC alignX(String align)

+	{

+		hor.setAlign(ConstraintParser.parseUnitValueOrAlign(align, true, null));

+		return this;

+	}

+

+	/** The grow priority compared to other components in the same cell.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param p The grow priority.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC growPrioX(int p)

+	{

+		hor.setGrowPriority(p);

+		return this;

+	}

+

+	/** Grow weight for the component horizontally. It default to weight <code>100</code>.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #growX(float)

+	 */

+	public final CC growX()

+	{

+		hor.setGrow(ResizeConstraint.WEIGHT_100);

+		return this;

+	}

+

+	/** Grow weight for the component horizontally.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param w The new grow weight.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC growX(float w)

+	{

+		hor.setGrow(new Float(w));

+		return this;

+	}

+

+	/** The shrink priority compared to other components in the same cell.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param p The shrink priority.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC shrinkPrioX(int p)

+	{

+		hor.setShrinkPriority(p);

+		return this;

+	}

+

+	/** Shrink weight for the component horizontally.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param w The new shrink weight.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC shrinkX(float w)

+	{

+		hor.setShrink(new Float(w));

+		return this;

+	}

+

+	/** The end group that this componet should be placed in.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param s The name of the group. If <code>null</code> that means no group (default)

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC endGroupY(String s)

+	{

+		ver.setEndGroup(s);

+		return this;

+	}

+

+	/** The size group that this componet should be placed in.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param s The name of the group. If <code>null</code> that means no group (default)

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC sizeGroupY(String s)

+	{

+		ver.setSizeGroup(s);

+		return this;

+	}

+

+	/** The minimum size for the component. The value will override any value that is set on the component itself.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param size The size expressed as a <code>UnitValue</code>. E.g. "100px" or "200mm".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC minHeight(String size)

+	{

+		ver.setSize(LayoutUtil.derive(ver.getSize(), ConstraintParser.parseUnitValue(size, false), null, null));

+		return this;

+	}

+

+	/** The size for the component as a min and/or preferref and/or maximum size. The value will override any value that is set on

+	 * the component itself.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param size The size expressed as a <code>BoundSize</code>. E.g. "50:100px:200mm" or "100px".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC height(String size)

+	{

+		ver.setSize(ConstraintParser.parseBoundSize(size, false, false));

+		return this;

+	}

+

+	/** The maximum size for the component. The value will override any value that is set on the component itself.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param size The size expressed as a <code>UnitValue</code>. E.g. "100px" or "200mm".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC maxHeight(String size)

+	{

+		ver.setSize(LayoutUtil.derive(ver.getSize(), null, null, ConstraintParser.parseUnitValue(size, false)));

+		return this;

+	}

+

+	/** The vertical gap before (normally above) and/or after (normally below) the component. The gap is towards cell bounds and/or other component bounds.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param before The size of the gap expressed as a <code>BoundSize</code>. E.g. "50:100px:200mm" or "100px!".

+	 * @param after The size of the gap expressed as a <code>BoundSize</code>. E.g. "50:100px:200mm" or "100px!".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC gapY(String before, String after)

+	{

+		if (before != null)

+			ver.setGapBefore(ConstraintParser.parseBoundSize(before, true, false));

+

+		if (after != null)

+			ver.setGapAfter(ConstraintParser.parseBoundSize(after, true, false));

+

+		return this;

+	}

+

+	/** Same functionality as <code>getVertical().setAlign(ConstraintParser.parseUnitValue(unitValue, true))</code> only this method

+	 * returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param align The align keyword or for instance "100px". E.g "top" or "bottom".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC alignY(String align)

+	{

+		ver.setAlign(ConstraintParser.parseUnitValueOrAlign(align, false, null));

+		return this;

+	}

+

+	/** The grow priority compared to other components in the same cell.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param p The grow priority.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC growPrioY(int p)

+	{

+		ver.setGrowPriority(p);

+		return this;

+	}

+

+	/** Grow weight for the component vertically. Defaults to <code>100</code>.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #growY(Float)

+	 */

+	public final CC growY()

+	{

+		ver.setGrow(ResizeConstraint.WEIGHT_100);

+		return this;

+	}

+

+	/** Grow weight for the component vertically.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param w The new grow weight.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC growY(Float w)

+	{

+		ver.setGrow(w);

+		return this;

+	}

+

+	/** The shrink priority compared to other components in the same cell.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param p The shrink priority.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC shrinkPrioY(int p)

+	{

+		ver.setShrinkPriority(p);

+		return this;

+	}

+

+	/** Shrink weight for the component horizontally.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param w The new shrink weight.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC shrinkY(float w)

+	{

+		ver.setShrink(new Float(w));

+		return this;

+	}

+

+	/** How this component, if hidden (not visible), should be treated.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param mode The mode. Default to the mode in the {@link net.miginfocom.layout.LC}.

+	 * 0 == Normal. Bounds will be calculated as if the component was visible.<br>

+	 * 1 == If hidden the size will be 0, 0 but the gaps remain.<br>

+	 * 2 == If hidden the size will be 0, 0 and gaps set to zero.<br>

+	 * 3 == If hidden the component will be disregarded completely and not take up a cell in the grid..

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC hideMode(int mode)

+	{

+		setHideMode(mode);

+		return this;

+	}

+

+	/** The id used to reference this component in some constraints.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param s The id or <code>null</code>. May consist of a groupID and an componentID which are separated by a dot: ".". E.g. "grp1.id1".

+	 * The dot should never be first or last if present.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 */

+	public final CC id(String s)

+	{

+		setId(s);

+		return this;

+	}

+

+	/** Same functionality as {@link #setTag(String tag)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param tag The new tag. May be <code>null</code>.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setTag(String)

+	 */

+	public final CC tag(String tag)

+	{

+		setTag(tag);

+		return this;

+	}

+

+	/** Same functionality as {@link #setCellX(int col)} and {@link #setCellY(int row)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param col The column in the grid to place this component.

+	 * @param row The rw in the grid to place this component.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setCellX(int)

+	 * @see #setCellY(int)

+	 */

+	public final CC cell(int col, int row)

+	{

+		setCellX(col);

+		setCellY(row);

+		return this;

+	}

+

+	/** Set the cell(s) that the component should occupy in the grid. Same functionality as {@link #setCellX(int col)} and

+	 * {@link #setCellY(int row)} together with {@link #setSpanX(int width)} and {@link #setSpanY(int height)}. This method

+	 * returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param col The column in the grid to place this component.

+	 * @param row The rw in the grid to place this component.

+	 * @param width How many cells the component should span (i.e. merge). <code>LayoutUtil.INF</code> spans to the end of the row.

+	 * @param height How many cells the component should span (i.e. merge). <code>LayoutUtil.INF</code> spans to the end of the column.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setCellX(int)

+	 * @see #setCellY(int)

+	 */

+	public final CC cell(int col, int row, int width, int height)

+	{

+		setCellX(col);

+		setCellY(row);

+		setSpanX(width);

+		setSpanY(height);

+		return this;

+	}

+

+	/** Same functionality as <code>spanX(cellsX).spanY(cellsY)</code> which means this cell will span cells in both x and y.

+	 * This method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setSpanY(int)

+	 * @see #setSpanX(int)

+	 * @see #spanY()

+	 * @see #spanX()

+	 */

+	public final CC span(int cellsX, int cellsY)

+	{

+		return spanX(cellsX).spanY(cellsY);

+	}

+

+	/** Same functionality as {@link #setSpanY(int LayoutUtil.INF)} which means this cell will span the rest of the column.

+	 * This method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setSpanY(int)

+	 * @see #spanY()

+	 */

+	public final CC spanY()

+	{

+		return spanY(LayoutUtil.INF);

+	}

+

+	/** Same functionality as {@link #setSpanY(int cells)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param cells The number of cells to span (i.e. merge).

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setSpanY(int)

+	 */

+	public final CC spanY(int cells)

+	{

+		setSpanY(cells);

+		return this;

+	}

+

+	/** Same functionality as {@link #setSpanX(int LayoutUtil.INF)} which means this cell will span the rest of the row.

+	 * This method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setSpanX(int)

+	 * @see #spanX()

+	 */

+	public final CC spanX()

+	{

+		return spanX(LayoutUtil.INF);

+	}

+

+	/** Same functionality as {@link #setSpanX(int cells)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param cells The number of cells to span (i.e. merge).

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setSpanY(int)

+	 */

+	public final CC spanX(int cells)

+	{

+		setSpanX(cells);

+		return this;

+	}

+

+	/** Same functionality as <code>pushX().pushY()</code> which means this cell will push in both x and y dimensions.

+	 * This method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPushX(Float)

+	 * @see #setPushX(Float)

+	 * @see #pushY()

+	 * @see #pushX()

+	 */

+	public final CC push()

+	{

+		return pushX().pushY();

+	}

+

+	/** Same functionality as <code>pushX(weightX).pushY(weightY)</code> which means this cell will push in both x and y dimensions.

+	 * This method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param weightX The weight used in the push.

+	 * @param weightY The weight used in the push.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPushY(Float)

+	 * @see #setPushX(Float)

+	 * @see #pushY()

+	 * @see #pushX()

+	 */

+	public final CC push(Float weightX, Float weightY)

+	{

+		return pushX(weightX).pushY(weightY);

+	}

+

+	/** Same functionality as {@link #setPushY(Float))} which means this cell will push the rest of the column.

+	 * This method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPushY(Float)

+	 * @see #pushY()

+	 */

+	public final CC pushY()

+	{

+		return pushY(ResizeConstraint.WEIGHT_100);

+	}

+

+	/** Same functionality as {@link #setPushY(Float weight)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param weight The weight used in the push.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPushY(Float)

+	 */

+	public final CC pushY(Float weight)

+	{

+		setPushY(weight);

+		return this;

+	}

+

+	/** Same functionality as {@link #setPushX(Float)} which means this cell will push the rest of the row.

+	 * This method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPushX(Float)

+	 * @see #pushX()

+	 */

+	public final CC pushX()

+	{

+		return pushX(ResizeConstraint.WEIGHT_100);

+	}

+

+	/** Same functionality as {@link #setPushX(Float weight)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param weight The weight used in the push.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new LayoutConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPushY(Float)

+	 */

+	public final CC pushX(Float weight)

+	{

+		setPushX(weight);

+		return this;

+	}

+

+	/** Same functionality as {@link #setSplit(int parts)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param parts The number of parts (i.e. component slots) the cell should be divided into.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setSplit(int)

+	 */

+	public final CC split(int parts)

+	{

+		setSplit(parts);

+		return this;

+	}

+

+	/** Same functionality as {@link #setSkip(int)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param cells How many cells in the grid that should be skipped <b>before</b> the component that this constraint belongs to

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setSkip(int)

+	 */

+	public final CC skip(int cells)

+	{

+		setSkip(cells);

+		return this;

+	}

+

+	/** Same functionality as {@link #setExternal(boolean true)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setExternal(boolean)

+	 */

+	public final CC external()

+	{

+		setExternal(true);

+		return this;

+	}

+

+	/** Same functionality as {@link #setFlowX(Boolean .TRUE)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setFlowX(Boolean)

+	 */

+	public final CC flowX()

+	{

+		setFlowX(Boolean.TRUE);

+		return this;

+	}

+

+	/** Same functionality as {@link #setFlowX(Boolean .FALSE)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setFlowX(Boolean)

+	 */

+	public final CC flowY()

+	{

+		setFlowX(Boolean.FALSE);

+		return this;

+	}

+

+

+	/** Same functionality as {@link #growX()} and {@link #growY()}.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #growX()

+	 * @see #growY()

+	 */

+	public final CC grow()

+	{

+		growX();

+		growY();

+		return this;

+	}

+

+	/** Same functionality as {@link #setNewline(boolean true)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setNewline(boolean)

+	 */

+	public final CC newline()

+	{

+		setNewline(true);

+		return this;

+	}

+

+	/** Same functionality as {@link #setNewlineGapSize(BoundString)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param gapSize The gap size that will override the gap size in the row/colum constraints if <code>!= null</code>. E.g. "5px" or "unrel".

+	 * If <code>null</code> or <code>""</code> the newline size will be set to the default size and turned on. This is different compared to

+	 * {@link #setNewlineGapSize(BoundString)}.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setNewlineGapSize(BoundSize)

+	 */

+	public final CC newline(String gapSize)

+	{

+		BoundSize bs = ConstraintParser.parseBoundSize(gapSize, true, (flowX != null && flowX == false));

+		if (bs != null) {

+			setNewlineGapSize(bs);

+		} else {

+			setNewline(true);

+		}

+		return this;

+	}

+

+	/** Same functionality as {@link #setWrap(boolean true)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setWrap(boolean)

+	 */

+	public final CC wrap()

+	{

+		setWrap(true);

+		return this;

+	}

+

+	/** Same functionality as {@link #setWrapGapSize(BoundString)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param gapSize The gap size that will override the gap size in the row/colum constraints if <code>!= null</code>. E.g. "5px" or "unrel".

+	 * If <code>null</code> or <code>""</code> the wrap size will be set to the default size and turned on. This is different compared to

+	 * {@link #setWrapGapSize(BoundString)}.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setWrapGapSize(BoundSize)

+	 */

+	public final CC wrap(String gapSize)

+	{

+		BoundSize bs = ConstraintParser.parseBoundSize(gapSize, true, (flowX != null && flowX == false));

+		if (bs != null) {

+			setWrapGapSize(bs);

+		} else {

+			setWrap(true);

+		}

+		return this;

+	}

+

+	/** Same functionality as {@link #setDockSide(int 0)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setDockSide(int)

+	 */

+	public final CC dockNorth()

+	{

+		setDockSide(0);

+		return this;

+	}

+

+	/** Same functionality as {@link #setDockSide(int 1)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setDockSide(int)

+	 */

+	public final CC dockWest()

+	{

+		setDockSide(1);

+		return this;

+	}

+

+	/** Same functionality as {@link #setDockSide(int 2)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setDockSide(int)

+	 */

+	public final CC dockSouth()

+	{

+		setDockSide(2);

+		return this;

+	}

+

+	/** Same functionality as {@link #setDockSide(int 3)} only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setDockSide(int)

+	 */

+	public final CC dockEast()

+	{

+		setDockSide(3);

+		return this;

+	}

+

+	/** Sets the x-coordinate for the component. This is used to set the x coordinate position to a specific value. The component

+	 * bounds is still precalculated to the grid cell and this method should be seen as a way to correct the x position.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param x The x position as a UnitValue. E.g. "10" or "40mm" or "container.x+10".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPos(UnitValue[])

+	 * @see #setBoundsInGrid(boolean)

+	 */

+	public final CC x(String x)

+	{

+		return corrPos(x, 0);

+	}

+

+	/** Sets the y-coordinate for the component. This is used to set the y coordinate position to a specific value. The component

+	 * bounds is still precalculated to the grid cell and this method should be seen as a way to correct the y position.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param y The y position as a UnitValue. E.g. "10" or "40mm" or "container.x+10".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPos(UnitValue[])

+	 * @see #setBoundsInGrid(boolean)

+	 */

+	public final CC y(String y)

+	{

+		return corrPos(y, 1);

+	}

+

+	/** Sets the x2-coordinate for the component (right side). This is used to set the x2 coordinate position to a specific value. The component

+	 * bounds is still precalculated to the grid cell and this method should be seen as a way to correct the x position.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param x2 The x2 side's position as a UnitValue. E.g. "10" or "40mm" or "container.x2 - 10".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPos(UnitValue[])

+	 * @see #setBoundsInGrid(boolean)

+	 */

+	public final CC x2(String x2)

+	{

+		return corrPos(x2, 2);

+	}

+

+	/** Sets the y2-coordinate for the component (bottom side). This is used to set the y2 coordinate position to a specific value. The component

+	 * bounds is still precalculated to the grid cell and this method should be seen as a way to correct the y position.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param y2 The y2 side's position as a UnitValue. E.g. "10" or "40mm" or "container.x2 - 10".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPos(UnitValue[])

+	 * @see #setBoundsInGrid(boolean)

+	 */

+	public final CC y2(String y2)

+	{

+		return corrPos(y2, 3);

+	}

+

+	private final CC corrPos(String uv, int ix)

+	{

+		UnitValue[] b = getPos();

+		if (b == null)

+			b = new UnitValue[4];

+

+		b[ix] = ConstraintParser.parseUnitValue(uv, (ix % 2 == 0));

+		setPos(b);

+

+		setBoundsInGrid(true);

+		return this;

+	}

+

+	/** Same functionality as {@link #x(String x)} and {@link #y(String y)} toghether.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param x The x position as a UnitValue. E.g. "10" or "40mm" or "container.x+10".

+	 * @param y The y position as a UnitValue. E.g. "10" or "40mm" or "container.x+10".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPos(UnitValue[])

+	 */

+	public final CC pos(String x, String y)

+	{

+		UnitValue[] b = getPos();

+		if (b == null)

+			b = new UnitValue[4];

+

+		b[0] = ConstraintParser.parseUnitValue(x, true);

+		b[1] = ConstraintParser.parseUnitValue(y, false);

+		setPos(b);

+

+		setBoundsInGrid(false);

+		return this;

+	}

+

+	/** Same functionality as {@link #x(String x)}, {@link #y(String y)}, {@link #y2(String y)} and {@link #y2(String y)} toghether.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param x The x position as a UnitValue. E.g. "10" or "40mm" or "container.x+10".

+	 * @param y The y position as a UnitValue. E.g. "10" or "40mm" or "container.x+10".

+	 * @param x2 The x2 side's position as a UnitValue. E.g. "10" or "40mm" or "container.x2 - 10".

+	 * @param y2 The y2 side's position as a UnitValue. E.g. "10" or "40mm" or "container.x2 - 10".

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setPos(UnitValue[])

+	 */

+	public final CC pos(String x, String y, String x2, String y2)

+	{

+		setPos(new UnitValue[] {

+				ConstraintParser.parseUnitValue(x, true),

+				ConstraintParser.parseUnitValue(y, false),

+				ConstraintParser.parseUnitValue(x2, true),

+				ConstraintParser.parseUnitValue(y2, false),

+		});

+		setBoundsInGrid(false);

+		return this;

+	}

+

+	/** Same functionality as {@link #setPadding(UnitValue[])} but the unit values as absolute pixels. This method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param top The top padding that will be added to the y coordinate at the last stage in the layout.

+	 * @param left The top padding that will be added to the x coordinate at the last stage in the layout.

+	 * @param bottom The top padding that will be added to the y2 coordinate at the last stage in the layout.

+	 * @param right The top padding that will be added to the x2 coordinate at the last stage in the layout.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setTag(String)

+	 */

+	public final CC pad(int top, int left, int bottom, int right)

+	{

+		setPadding(new UnitValue[] {

+				new UnitValue(top),	new UnitValue(left), new UnitValue(bottom), new UnitValue(right)

+		});

+		return this;

+	}

+

+	/** Same functionality as <code>setPadding(ConstraintParser.parseInsets(pad, false))}</code> only this method returns <code>this</code> for chaining multiple calls.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param pad The string to parse. E.g. "10 10 10 10" or "20". If less than 4 groups the last will be used for the missing.

+	 * @return <code>this</code> so it is possible to chain calls. E.g. <code>new ComponentConstraint().noGrid().gap().fill()</code>.

+	 * @see #setTag(String)

+	 */

+	public final CC pad(String pad)

+	{

+		setPadding(pad != null ? ConstraintParser.parseInsets(pad, false) : null);

+		return this;

+	}

+

+	// **********************************************************

+	// Bean properties

+	// **********************************************************

+

+	/** Returns the horizontal dimension constraint for this component constraint. It has constraints for the horizontal size

+	 * and grow/shink priorities and weights.

+	 * @return The current dimension constraint. Never <code>null</code>.

+	 */

+	public DimConstraint getHorizontal()

+	{

+		return hor;

+	}

+

+	/** Sets the horizontal dimension constraint for this component constraint. It has constraints for the horizontal size

+	 * and grow/shink priorities and weights.

+	 * @param h The new dimension constraint. If <code>null</code> it will be reset to <code>new DimConstraint();</code>

+	 */

+	public void setHorizontal(DimConstraint h)

+	{

+		hor = h != null ? h : new DimConstraint();

+	}

+

+	/** Returns the vertical dimension constraint for this component constraint. It has constraints for the vertical size

+	 * and grow/shink priorities and weights.

+	 * @return The current dimension constraint. Never <code>null</code>.

+	 */

+	public DimConstraint getVertical()

+	{

+		return ver;

+	}

+

+	/** Sets the vertical dimension constraint for this component constraint. It has constraints for the vertical size

+	 * and grow/shink priorities and weights.

+	 * @param v The new dimension constraint. If <code>null</code> it will be reset to <code>new DimConstraint();</code>

+	 */

+	public void setVertical(DimConstraint v)

+	{

+		ver = v != null ? v : new DimConstraint();

+	}

+

+	/** Returns the vertical or horizontal dim constraint.

+	 * @param isHor If the horizontal constraint should be returned.

+	 * @return The dim constraint. Never <code>null</code>.

+	 */

+	public DimConstraint getDimConstraint(boolean isHor)

+	{

+		return isHor ? hor : ver;

+	}

+

+	/** Returns the absolute positioning of one or more of the edges. This will be applied last in the layout cycle and will not

+	 * affect the flow or grid positions. The positioning is relative to the parent and can not (as padding) be used

+	 * to adjust the edges relative to the old value. May be <code>null</code> and elements may be <code>null</code>.

+	 * <code>null</code> value(s) for the x2 and y2 will be interpreted as to keep the preferred size and thus the x1

+	 * and x2 will just absolutely positions the component.

+	 * <p>

+	 * Note that {@link #setBoundsInGrid(boolean)} changes the interpretation of thisproperty slightly.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value as a new array, free to modify.

+	 */

+	public UnitValue[] getPos()

+	{

+		return pos != null ? new UnitValue[] {pos[0], pos[1], pos[2], pos[3]} : null;

+	}

+

+	/** Sets absolute positioning of one or more of the edges. This will be applied last in the layout cycle and will not

+	 * affect the flow or grid positions. The positioning is relative to the parent and can not (as padding) be used

+	 * to adjust the edges relative to the old value. May be <code>null</code> and elements may be <code>null</code>.

+	 * <code>null</code> value(s) for the x2 and y2 will be interpreted as to keep the preferred size and thus the x1

+	 * and x2 will just absolutely positions the component.

+	 * <p>

+	 * Note that {@link #setBoundsInGrid(boolean)} changes the interpretation of thisproperty slightly.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param pos <code>UnitValue[] {x, y, x2, y2}</code>. Must be <code>null</code> or of length 4. Elements can be <code>null</code>.

+	 */

+	public void setPos(UnitValue[] pos)

+	{

+		this.pos = pos != null ? new UnitValue[] {pos[0], pos[1], pos[2], pos[3]} : null;

+	}

+

+	/** Returns if the absolute <code>pos</code> value should be corrections to the component that is in a normal cell. If <code>false</code>

+	 * the value of <code>pos</code> is truly absolute in that it will not affect the grid or have a default bounds in the grid.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value.

+	 * @see #getPos()

+	 */

+	public boolean isBoundsInGrid()

+	{

+		return boundsInGrid;

+	}

+

+	/** Sets if the absolute <code>pos</code> value should be corrections to the component that is in a normal cell. If <code>false</code>

+	 * the value of <code>pos</code> is truly absolute in that it will not affect the grid or have a default bounds in the grid.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param b <code>true</code> for bounds taken from the grid position. <code>false</code> is default.

+	 * @see #setPos(UnitValue[])

+	 */

+	void setBoundsInGrid(boolean b)

+	{

+		this.boundsInGrid = b;

+	}

+

+	/** Returns the absolute cell position in the grid or <code>-1</code> if cell positioning is not used.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value.

+	 */

+	public int getCellX()

+	{

+		return cellX;

+	}

+

+	/** Set an absolute cell x-position in the grid. If &gt;= 0 this point points to the absolute cell that this constaint's component should occupy.

+	 * If there's already a component in that cell they will split the cell. The flow will then continue after this cell.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param x The x-position or <code>-1</code> to disable cell positioning.

+	 */

+	public void setCellX(int x)

+	{

+		cellX = x;

+	}

+

+	/** Returns the absolute cell position in the grid or <code>-1</code> if cell positioning is not used.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value.

+	 */

+	public int getCellY()

+	{

+		return cellX < 0 ? -1 : cellY;

+	}

+

+	/** Set an absolute cell x-position in the grid. If &gt;= 0 this point points to the absolute cell that this constaint's component should occupy.

+	 * If there's already a component in that cell they will split the cell. The flow will then continue after this cell.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param y The y-position or <code>-1</code> to disable cell positioning.

+	 */

+	public void setCellY(int y)

+	{

+		if (y < 0)

+			cellX = -1;

+		cellY = y < 0 ? 0 : y;

+	}

+

+	/** Sets the docking side. -1 means no docking.<br>

+	 * Valid sides are: <code> north = 0, west = 1, south = 2, east = 3</code>.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current side.

+	 */

+	public int getDockSide()

+	{

+		return dock;

+	}

+

+	/** Sets the docking side. -1 means no docking.<br>

+	 * Valid sides are: <code> north = 0, west = 1, south = 2, east = 3</code>.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param side -1 or 0-3.

+	 */

+	public void setDockSide(int side)

+	{

+		if (side < -1 || side > 3)

+			throw new IllegalArgumentException("Illegal dock side: " + side);

+		dock = side;

+	}

+

+	/** Returns if this component should have its bounds handled by an external source and not this layout manager.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value.

+	 */

+	public boolean isExternal()

+	{

+		return external;

+	}

+

+	/** If this boolean is true this component is not handled in any way by the layout manager and the component can have its bounds set by an external

+	 * handler which is normally by the use of some <code>component.setBounds(x, y, width, height)</code> directly (for Swing).

+	 * <p>

+	 * The bounds <b>will not</b> affect the minimum and preferred size of the container.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param b <code>true</code> means that the bounds are not changed.

+	 */

+	public void setExternal(boolean b)

+	{

+		this.external = b;

+	}

+

+	/** Returns if the flow in the <b>cell</b> is in the horizontal dimension. Vertical if <code>false</code>. Only the first

+	 * component is a cell can set the flow.

+	 * <p>

+	 * If <code>null</code> the flow direction is inherited by from the {@link net.miginfocom.layout.LC}.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value.

+	 */

+	public Boolean getFlowX()

+	{

+		return flowX;

+	}

+

+	/** Sets if the flow in the <b>cell</b> is in the horizontal dimension. Vertical if <code>false</code>. Only the first

+	 * component is a cell can set the flow.

+	 * <p>

+	 * If <code>null</code> the flow direction is inherited by from the {@link net.miginfocom.layout.LC}.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param b <code>Boolean.TRUE</code> means horizontal flow in the cell.

+	 */

+	public void setFlowX(Boolean b)

+	{

+		this.flowX = b;

+	}

+

+	/** Sets how a component that is hidden (not visible) should be treated by default.

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The mode:<br>

+	 * 0 == Normal. Bounds will be calculated as if the component was visible.<br>

+	 * 1 == If hidden the size will be 0, 0 but the gaps remain.<br>

+	 * 2 == If hidden the size will be 0, 0 and gaps set to zero.<br>

+	 * 3 == If hidden the component will be disregarded completely and not take up a cell in the grid..

+	 */

+	public int getHideMode()

+	{

+		return hideMode;

+	}

+

+	/** Sets how a component that is hidden (not visible) should be treated by default.

+	 * @param mode The mode:<br>

+	 * 0 == Normal. Bounds will be calculated as if the component was visible.<br>

+	 * 1 == If hidden the size will be 0, 0 but the gaps remain.<br>

+	 * 2 == If hidden the size will be 0, 0 and gaps set to zero.<br>

+	 * 3 == If hidden the component will be disregarded completely and not take up a cell in the grid..

+	 */

+	public void setHideMode(int mode)

+	{

+		if (mode < -1 || mode > 3)

+			throw new IllegalArgumentException("Wrong hideMode: " + mode);

+

+		hideMode = mode;

+	}

+

+	/** Returns the id used to reference this component in some constraints.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The id or <code>null</code>. May consist of a groupID and an componentID which are separated by a dot: ".". E.g. "grp1.id1".

+	 * The dot should never be first or last if present.

+	 */

+	public String getId()

+	{

+		return id;

+	}

+

+	/** Sets the id used to reference this component in some constraints.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param id The id or <code>null</code>. May consist of a groupID and an componentID which are separated by a dot: ".". E.g. "grp1.id1".

+	 * The dot should never be first or last if present.

+	 */

+	public void setId(String id)

+	{

+		this.id = id;

+	}

+

+	/** Returns the absolute resizing in the last stage of the layout cycle. May be <code>null</code> and elements may be <code>null</code>.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value. <code>null</code> or of length 4.

+	 */

+	public UnitValue[] getPadding()

+	{

+		return padding != null ? new UnitValue[] {padding[0], padding[1], padding[2], padding[3]} : null;

+	}

+

+	/** Sets the absolute resizing in the last stage of the layout cycle. These values are added to the edges and can thus for

+	 * instance be used to grow or reduce the size or move the component an absolute number of pixels. May be <code>null</code>

+	 * and elements may be <code>null</code>.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param sides top, left, bottom right. Must be <code>null</code> or of length 4.

+	 */

+	public void setPadding(UnitValue[] sides)

+	{

+		this.padding = sides != null ? new UnitValue[] {sides[0], sides[1], sides[2], sides[3]} : null;

+	}

+

+	/** Returns how many cells in the grid that should be skipped <b>before</b> the component that this constraint belongs to.

+	 * <p>

+	 * Note that only the first component will be checked for this property.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value. 0 if no skip.

+	 */

+	public int getSkip()

+	{

+		return skip;

+	}

+

+	/** Sets how many cells in the grid that should be skipped <b>before</b> the component that this constraint belongs to.

+	 * <p>

+	 * Note that only the first component will be checked for this property.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param cells How many cells in the grid that should be skipped <b>before</b> the component that this constraint belongs to

+	 */

+	public void setSkip(int cells)

+	{

+		this.skip = cells;

+	}

+

+	/** Returns the number of cells the cell that this constraint's component will span in the indicated dimension. <code>1</code> is default and

+	 * means that it only spans the current cell. <code>LayoutUtil.INF</code> is used to indicate a span to the end of the column/row.

+	 * <p>

+	 * Note that only the first component will be checked for this property.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value.

+	 */

+	public int getSpanX()

+	{

+		return spanX;

+	}

+

+	/** Sets the number of cells the cell that this constraint's component will span in the indicated dimension. <code>1</code> is default and

+	 * means that it only spans the current cell. <code>LayoutUtil.INF</code> is used to indicate a span to the end of the column/row.

+	 * <p>

+	 * Note that only the first component will be checked for this property.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param cells The number of cells to span (i.e. merge).

+	 */

+	public void setSpanX(int cells)

+	{

+		this.spanX = cells;

+	}

+

+	/** Returns the number of cells the cell that this constraint's component will span in the indicated dimension. <code>1</code> is default and

+	 * means that it only spans the current cell. <code>LayoutUtil.INF</code> is used to indicate a span to the end of the column/row.

+	 * <p>

+	 * Note that only the first component will be checked for this property.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value.

+	 */

+	public int getSpanY()

+	{

+		return spanY;

+	}

+

+	/** Sets the number of cells the cell that this constraint's component will span in the indicated dimension. <code>1</code> is default and

+	 * means that it only spans the current cell. <code>LayoutUtil.INF</code> is used to indicate a span to the end of the column/row.

+	 * <p>

+	 * Note that only the first component will be checked for this property.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param cells The number of cells to span (i.e. merge).

+	 */

+	public void setSpanY(int cells)

+	{

+		this.spanY = cells;

+	}

+

+	/** "pushx" indicates that the column that this component is in (this first if the component spans) should default to growing.

+	 * If any other column has been set to grow this push value on the component does nothing as the column's explicit grow weight

+	 * will take precedence. Push is normally used when the grid has not been defined in the layout.

+	 * <p>

+	 * If multiple components in a column has push weights set the largest one will be used for the column.

+	 * @return The current push value. Default is <code>null</code>.

+	 */

+	public Float getPushX()

+	{

+		return pushX;

+	}

+

+	/** "pushx" indicates that the column that this component is in (this first if the component spans) should default to growing.

+	 * If any other column has been set to grow this push value on the component does nothing as the column's explicit grow weight

+	 * will take precedence. Push is normally used when the grid has not been defined in the layout.

+	 * <p>

+	 * If multiple components in a column has push weights set the largest one will be used for the column.

+	 * @param weight The new push value. Default is <code>null</code>.

+	 */

+	public void setPushX(Float weight)

+	{

+		this.pushX = weight;

+	}

+

+	/** "pushx" indicates that the row that this component is in (this first if the component spans) should default to growing.

+	 * If any other row has been set to grow this push value on the component does nothing as the row's explicit grow weight

+	 * will take precedence. Push is normally used when the grid has not been defined in the layout.

+	 * <p>

+	 * If multiple components in a row has push weights set the largest one will be used for the row.

+	 * @return The current push value. Default is <code>null</code>.

+	 */

+	public Float getPushY()

+	{

+		return pushY;

+	}

+

+	/** "pushx" indicates that the row that this component is in (this first if the component spans) should default to growing.

+	 * If any other row has been set to grow this push value on the component does nothing as the row's explicit grow weight

+	 * will take precedence. Push is normally used when the grid has not been defined in the layout.

+	 * <p>

+	 * If multiple components in a row has push weights set the largest one will be used for the row.

+	 * @param weight The new push value. Default is <code>null</code>.

+	 */

+	public void setPushY(Float weight)

+	{

+		this.pushY = weight;

+	}

+

+	/** Returns in how many parts the current cell (that this constraint's component will be in) should be split in. If for instance

+	 * it is split in two, the next componet will also share the same cell. Note that the cell can also span a number of

+	 * cells, which means that you can for instance span three cells and split that big cell for two components. Split can be

+	 * set to a very high value to make all components in the same row/column share the same cell (e.g. <code>LayoutUtil.INF</code>).

+	 * <p>

+	 * Note that only the first component will be checked for this property.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value.

+	 */

+	public int getSplit()

+	{

+		return split;

+	}

+

+	/** Sets in how many parts the current cell (that this constraint's component will be in) should be split in. If for instance

+	 * it is split in two, the next componet will also share the same cell. Note that the cell can also span a number of

+	 * cells, which means that you can for instance span three cells and split that big cell for two components. Split can be

+	 * set to a very high value to make all components in the same row/column share the same cell (e.g. <code>LayoutUtil.INF</code>).

+	 * <p>

+	 * Note that only the first component will be checked for this property.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param parts The number of parts (i.e. component slots) the cell should be divided into.

+	 */

+	public void setSplit(int parts)

+	{

+		this.split = parts;

+	}

+

+	/** Tags the component with metadata. Currently only used to tag buttons with for instance "cancel" or "ok" to make them

+	 * show up in the correct order depending on platform. See {@link PlatformDefaults#setButtonOrder(String)} for information.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value. May be <code>null</code>.

+	 */

+	public String getTag()

+	{

+		return tag;

+	}

+

+	/** Optinal tag that gives more context to this constraint's component. It is for instance used to tag buttons in a

+	 * button bar with the button type such as "ok", "help" or "cancel".

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param tag The new tag. May be <code>null</code>.

+	 */

+	public void setTag(String tag)

+	{

+		this.tag = tag;

+	}

+

+	/** Returns if the flow should wrap to the next line/column <b>after</b> the component that this constraint belongs to.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value.

+	 */

+	public boolean isWrap()

+	{

+		return wrap != null;

+	}

+

+	/** Sets if the flow should wrap to the next line/column <b>after</b> the component that this constraint belongs to.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param b <code>true</code> means wrap after.

+	 */

+	public void setWrap(boolean b)

+	{

+		wrap = b ? (wrap == null ? DEF_GAP : wrap) : null;

+	}

+

+	/** Returns the wrap size if it is a custom size. If wrap was set to true with {@link #setWrap(boolean)} then this method will

+	 * return <code>null</code> since that means that the gap size should be the default one as defined in the rows spec.

+	 * @return The custom gap size. NOTE! Will return <code>null</code> for both no wrap <b>and</b> default wrap.

+	 * @see #isWrap()

+	 * @see #setWrap(boolean)

+	 * @since 2.4.2

+	 */

+	public BoundSize getWrapGapSize()

+	{

+		return wrap == DEF_GAP ? null : wrap;

+	}

+

+	/** Set the wrap size and turns wrap on if <code>!= null</code>.

+	 * @param s The custom gap size. NOTE! <code>null</code> will not turn on or off wrap, it will only set the wrap gap size to "default".

+	 * A non-null value will turn on wrap though.

+	 * @see #isWrap()

+	 * @see #setWrap(boolean)

+	 * @since 2.4.2

+	 */

+	public void setWrapGapSize(BoundSize s)

+	{

+		wrap = s == null ? (wrap != null ? DEF_GAP : null) : s;

+	}

+

+	/** Returns if the flow should wrap to the next line/column <b>before</b> the component that this constraint belongs to.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @return The current value.

+	 */

+	public boolean isNewline()

+	{

+		return newline != null;

+	}

+

+	/** Sets if the flow should wrap to the next line/column <b>before</b> the component that this constraint belongs to.

+	 * <p>

+	 * For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.

+	 * @param b <code>true</code> means wrap before.

+	 */

+	public void setNewline(boolean b)

+	{

+		newline = b ? (newline == null ? DEF_GAP : newline) : null;

+	}

+

+	/** Returns the newline size if it is a custom size. If newline was set to true with {@link #setNewline(boolean)} then this method will

+	 * return <code>null</code> since that means that the gap size should be the default one as defined in the rows spec.

+	 * @return The custom gap size. NOTE! Will return <code>null</code> for both no newline <b>and</b> default newline.

+	 * @see #isNewline()

+	 * @see #setNewline(boolean)

+	 * @since 2.4.2

+	 */

+	public BoundSize getNewlineGapSize()

+	{

+		return newline == DEF_GAP ? null : newline;

+	}

+

+	/** Set the newline size and turns newline on if <code>!= null</code>.

+	 * @param s The custom gap size. NOTE! <code>null</code> will not turn on or off newline, it will only set the newline gap size to "default".

+	 * A non-null value will turn on newline though.

+	 * @see #isNewline()

+	 * @see #setNewline(boolean)

+	 * @since 2.4.2

+	 */

+	public void setNewlineGapSize(BoundSize s)

+	{

+		newline = s == null ? (newline != null ? DEF_GAP : null) : s;

+	}

+

+	// ************************************************

+	// 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() == CC.class)

+			LayoutUtil.writeAsXML(out, this);

+	}

+}
\ No newline at end of file