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package javax.swing;

import java.awt.Component;
import java.awt.Container;
import java.awt.Dimension;
import java.awt.FontMetrics;
import java.awt.Insets;
import java.awt.LayoutManager2;
import java.awt.Rectangle;
import java.util.*;

A SpringLayout lays out the children of its associated container according to a set of constraints. See How to Use SpringLayout in The Java Tutorial for examples of using SpringLayout.

Each constraint, represented by a Spring object, controls the vertical or horizontal distance between two component edges. The edges can belong to any child of the container, or to the container itself. For example, the allowable width of a component can be expressed using a constraint that controls the distance between the west (left) and east (right) edges of the component. The allowable y coordinates for a component can be expressed by constraining the distance between the north (top) edge of the component and the north edge of its container.

Every child of a SpringLayout-controlled container, as well as the container itself, has exactly one set of constraints associated with it. These constraints are represented by a SpringLayout.Constraints object. By default, SpringLayout creates constraints that make their associated component have the minimum, preferred, and maximum sizes returned by the component's Component.getMinimumSize, Component.getPreferredSize, and Component.getMaximumSize methods. The x and y positions are initially not constrained, so that until you constrain them the Component will be positioned at 0,0 relative to the Insets of the parent Container.

You can change a component's constraints in several ways. You can use one of the putConstraint methods to establish a spring linking the edges of two components within the same container. Or you can get the appropriate SpringLayout.Constraints object using getConstraints and then modify one or more of its springs. Or you can get the spring for a particular edge of a component using getConstraint, and modify it. You can also associate your own SpringLayout.Constraints object with a component by specifying the constraints object when you add the component to its container (using Container.add(Component, Object)).

The Spring object representing each constraint has a minimum, preferred, maximum, and current value. The current value of the spring is somewhere between the minimum and maximum values, according to the formula given in the Spring.sum method description. When the minimum, preferred, and maximum values are the same, the current value is always equal to them; this inflexible spring is called a strut. You can create struts using the factory method Spring.constant(int). The Spring class also provides factory methods for creating other kinds of springs, including springs that depend on other springs.

In a SpringLayout, the position of each edge is dependent on the position of just one other edge. If a constraint is subsequently added to create a new binding for an edge, the previous binding is discarded and the edge remains dependent on a single edge. Springs should only be attached between edges of the container and its immediate children; the behavior of the SpringLayout when presented with constraints linking the edges of components from different containers (either internal or external) is undefined.

SpringLayout vs. Other Layout Managers


Note: Unlike many layout managers, SpringLayout doesn't automatically set the location of the components it manages. If you hand-code a GUI that uses SpringLayout, remember to initialize component locations by constraining the west/east and north/south locations.

Depending on the constraints you use, you may also need to set the size of the container explicitly.


Despite the simplicity of SpringLayout, it can emulate the behavior of most other layout managers. For some features, such as the line breaking provided by FlowLayout, you'll need to create a special-purpose subclass of the Spring class.

SpringLayout also provides a way to solve many of the difficult layout problems that cannot be solved by nesting combinations of Boxes. That said, SpringLayout honors the LayoutManager2 contract correctly and so can be nested with other layout managers -- a technique that can be preferable to creating the constraints implied by the other layout managers.

The asymptotic complexity of the layout operation of a SpringLayout is linear in the number of constraints (and/or components).

Warning: Serialized objects of this class will not be compatible with future Swing releases. The current serialization support is appropriate for short term storage or RMI between applications running the same version of Swing. As of 1.4, support for long term storage of all JavaBeans™ has been added to the java.beans package. Please see XMLEncoder.

Author: Philip Milne, Scott Violet, Joe Winchester
See Also:
Since: 1.4
/** * A <code>SpringLayout</code> lays out the children of its associated container * according to a set of constraints. * See <a href="https://docs.oracle.com/javase/tutorial/uiswing/layout/spring.html">How to Use SpringLayout</a> * in <em>The Java Tutorial</em> for examples of using * <code>SpringLayout</code>. * * <p> * Each constraint, * represented by a <code>Spring</code> object, * controls the vertical or horizontal distance * between two component edges. * The edges can belong to * any child of the container, * or to the container itself. * For example, * the allowable width of a component * can be expressed using a constraint * that controls the distance between the west (left) and east (right) * edges of the component. * The allowable <em>y</em> coordinates for a component * can be expressed by constraining the distance between * the north (top) edge of the component * and the north edge of its container. * * <P> * Every child of a <code>SpringLayout</code>-controlled container, * as well as the container itself, * has exactly one set of constraints * associated with it. * These constraints are represented by * a <code>SpringLayout.Constraints</code> object. * By default, * <code>SpringLayout</code> creates constraints * that make their associated component * have the minimum, preferred, and maximum sizes * returned by the component's * {@link java.awt.Component#getMinimumSize}, * {@link java.awt.Component#getPreferredSize}, and * {@link java.awt.Component#getMaximumSize} * methods. The <em>x</em> and <em>y</em> positions are initially not * constrained, so that until you constrain them the <code>Component</code> * will be positioned at 0,0 relative to the <code>Insets</code> of the * parent <code>Container</code>. * * <p> * You can change * a component's constraints in several ways. * You can * use one of the * {@link #putConstraint putConstraint} * methods * to establish a spring * linking the edges of two components within the same container. * Or you can get the appropriate <code>SpringLayout.Constraints</code> * object using * {@link #getConstraints getConstraints} * and then modify one or more of its springs. * Or you can get the spring for a particular edge of a component * using {@link #getConstraint getConstraint}, * and modify it. * You can also associate * your own <code>SpringLayout.Constraints</code> object * with a component by specifying the constraints object * when you add the component to its container * (using * {@link Container#add(Component, Object)}). * * <p> * The <code>Spring</code> object representing each constraint * has a minimum, preferred, maximum, and current value. * The current value of the spring * is somewhere between the minimum and maximum values, * according to the formula given in the * {@link Spring#sum} method description. * When the minimum, preferred, and maximum values are the same, * the current value is always equal to them; * this inflexible spring is called a <em>strut</em>. * You can create struts using the factory method * {@link Spring#constant(int)}. * The <code>Spring</code> class also provides factory methods * for creating other kinds of springs, * including springs that depend on other springs. * * <p> * In a <code>SpringLayout</code>, the position of each edge is dependent on * the position of just one other edge. If a constraint is subsequently added * to create a new binding for an edge, the previous binding is discarded * and the edge remains dependent on a single edge. * Springs should only be attached * between edges of the container and its immediate children; the behavior * of the <code>SpringLayout</code> when presented with constraints linking * the edges of components from different containers (either internal or * external) is undefined. * * <h2> * SpringLayout vs. Other Layout Managers * </h2> * * <blockquote> * <hr> * <strong>Note:</strong> * Unlike many layout managers, * <code>SpringLayout</code> doesn't automatically set the location of * the components it manages. * If you hand-code a GUI that uses <code>SpringLayout</code>, * remember to initialize component locations by constraining the west/east * and north/south locations. * <p> * Depending on the constraints you use, * you may also need to set the size of the container explicitly. * <hr> * </blockquote> * * <p> * Despite the simplicity of <code>SpringLayout</code>, * it can emulate the behavior of most other layout managers. * For some features, * such as the line breaking provided by <code>FlowLayout</code>, * you'll need to * create a special-purpose subclass of the <code>Spring</code> class. * * <p> * <code>SpringLayout</code> also provides a way to solve * many of the difficult layout * problems that cannot be solved by nesting combinations * of <code>Box</code>es. That said, <code>SpringLayout</code> honors the * <code>LayoutManager2</code> contract correctly and so can be nested with * other layout managers -- a technique that can be preferable to * creating the constraints implied by the other layout managers. * <p> * The asymptotic complexity of the layout operation of a <code>SpringLayout</code> * is linear in the number of constraints (and/or components). * <p> * <strong>Warning:</strong> * Serialized objects of this class will not be compatible with * future Swing releases. The current serialization support is * appropriate for short term storage or RMI between applications running * the same version of Swing. As of 1.4, support for long term storage * of all JavaBeans&trade; * has been added to the <code>java.beans</code> package. * Please see {@link java.beans.XMLEncoder}. * * @see Spring * @see SpringLayout.Constraints * * @author Philip Milne * @author Scott Violet * @author Joe Winchester * @since 1.4 */
@SuppressWarnings("serial") // Same-version serialization only public class SpringLayout implements LayoutManager2 { private Map<Component, Constraints> componentConstraints = new HashMap<Component, Constraints>(); private Spring cyclicReference = Spring.constant(Spring.UNSET); private Set<Spring> cyclicSprings; private Set<Spring> acyclicSprings;
Specifies the top edge of a component's bounding rectangle.
/** * Specifies the top edge of a component's bounding rectangle. */
public static final String NORTH = "North";
Specifies the bottom edge of a component's bounding rectangle.
/** * Specifies the bottom edge of a component's bounding rectangle. */
public static final String SOUTH = "South";
Specifies the right edge of a component's bounding rectangle.
/** * Specifies the right edge of a component's bounding rectangle. */
public static final String EAST = "East";
Specifies the left edge of a component's bounding rectangle.
/** * Specifies the left edge of a component's bounding rectangle. */
public static final String WEST = "West";
Specifies the horizontal center of a component's bounding rectangle.
Since:1.6
/** * Specifies the horizontal center of a component's bounding rectangle. * * @since 1.6 */
public static final String HORIZONTAL_CENTER = "HorizontalCenter";
Specifies the vertical center of a component's bounding rectangle.
Since:1.6
/** * Specifies the vertical center of a component's bounding rectangle. * * @since 1.6 */
public static final String VERTICAL_CENTER = "VerticalCenter";
Specifies the baseline of a component.
Since:1.6
/** * Specifies the baseline of a component. * * @since 1.6 */
public static final String BASELINE = "Baseline";
Specifies the width of a component's bounding rectangle.
Since:1.6
/** * Specifies the width of a component's bounding rectangle. * * @since 1.6 */
public static final String WIDTH = "Width";
Specifies the height of a component's bounding rectangle.
Since:1.6
/** * Specifies the height of a component's bounding rectangle. * * @since 1.6 */
public static final String HEIGHT = "Height"; private static String[] ALL_HORIZONTAL = {WEST, WIDTH, EAST, HORIZONTAL_CENTER}; private static String[] ALL_VERTICAL = {NORTH, HEIGHT, SOUTH, VERTICAL_CENTER, BASELINE};
A Constraints object holds the constraints that govern the way a component's size and position change in a container controlled by a SpringLayout. A Constraints object is like a Rectangle, in that it has x, y, width, and height properties. In the Constraints object, however, these properties have Spring values instead of integers. In addition, a Constraints object can be manipulated as four edges -- north, south, east, and west -- using the constraint property.

The following formulas are always true for a Constraints object (here WEST and x are synonyms, as are and NORTH and y):

              EAST = WEST + WIDTH
             SOUTH = NORTH + HEIGHT
 HORIZONTAL_CENTER = WEST + WIDTH/2
   VERTICAL_CENTER = NORTH + HEIGHT/2
 ABSOLUTE_BASELINE = NORTH + RELATIVE_BASELINE*

For example, if you have specified the WIDTH and WEST (X) location the EAST is calculated as WEST + WIDTH. If you instead specified the WIDTH and EAST locations the WEST (X) location is then calculated as EAST - WIDTH.

[RELATIVE_BASELINE is a private constraint that is set automatically when the SpringLayout.Constraints(Component) constructor is called or when a constraints object is registered with a SpringLayout object.]

Note: In this document, operators represent methods in the Spring class. For example, "a + b" is equal to Spring.sum(a, b), and "a - b" is equal to Spring.sum(a, Spring.minus(b)). See the Spring API documentation for further details of spring arithmetic.

Because a Constraints object's properties -- representing its edges, size, and location -- can all be set independently and yet are interrelated, a Constraints object can become over-constrained. For example, if the WEST, WIDTH and EAST edges are all set, steps must be taken to ensure that the first of the formulas above holds. To do this, the Constraints object throws away the least recently set constraint so as to make the formulas hold.

Since:1.4
/** * A <code>Constraints</code> object holds the * constraints that govern the way a component's size and position * change in a container controlled by a <code>SpringLayout</code>. * A <code>Constraints</code> object is * like a <code>Rectangle</code>, in that it * has <code>x</code>, <code>y</code>, * <code>width</code>, and <code>height</code> properties. * In the <code>Constraints</code> object, however, * these properties have * <code>Spring</code> values instead of integers. * In addition, * a <code>Constraints</code> object * can be manipulated as four edges * -- north, south, east, and west -- * using the <code>constraint</code> property. * * <p> * The following formulas are always true * for a <code>Constraints</code> object (here WEST and <code>x</code> are synonyms, as are and NORTH and <code>y</code>): * * <pre> * EAST = WEST + WIDTH * SOUTH = NORTH + HEIGHT * HORIZONTAL_CENTER = WEST + WIDTH/2 * VERTICAL_CENTER = NORTH + HEIGHT/2 * ABSOLUTE_BASELINE = NORTH + RELATIVE_BASELINE* * </pre> * <p> * For example, if you have specified the WIDTH and WEST (X) location * the EAST is calculated as WEST + WIDTH. If you instead specified * the WIDTH and EAST locations the WEST (X) location is then calculated * as EAST - WIDTH. * <p> * [RELATIVE_BASELINE is a private constraint that is set automatically when * the SpringLayout.Constraints(Component) constructor is called or when * a constraints object is registered with a SpringLayout object.] * <p> * <b>Note</b>: In this document, * operators represent methods * in the <code>Spring</code> class. * For example, "a + b" is equal to * <code>Spring.sum(a, b)</code>, * and "a - b" is equal to * <code>Spring.sum(a, Spring.minus(b))</code>. * See the * {@link Spring Spring API documentation} * for further details * of spring arithmetic. * * <p> * * Because a <code>Constraints</code> object's properties -- * representing its edges, size, and location -- can all be set * independently and yet are interrelated, * a <code>Constraints</code> object can become <em>over-constrained</em>. * For example, if the <code>WEST</code>, <code>WIDTH</code> and * <code>EAST</code> edges are all set, steps must be taken to ensure that * the first of the formulas above holds. To do this, the * <code>Constraints</code> * object throws away the <em>least recently set</em> * constraint so as to make the formulas hold. * @since 1.4 */
public static class Constraints { private Spring x; private Spring y; private Spring width; private Spring height; private Spring east; private Spring south; private Spring horizontalCenter; private Spring verticalCenter; private Spring baseline; private List<String> horizontalHistory = new ArrayList<String>(2); private List<String> verticalHistory = new ArrayList<String>(2); // Used for baseline calculations private Component c;
Creates an empty Constraints object.
/** * Creates an empty <code>Constraints</code> object. */
public Constraints() { }
Creates a Constraints object with the specified values for its x and y properties. The height and width springs have null values.
Params:
  • x – the spring controlling the component's x value
  • y – the spring controlling the component's y value
/** * Creates a <code>Constraints</code> object with the * specified values for its * <code>x</code> and <code>y</code> properties. * The <code>height</code> and <code>width</code> springs * have <code>null</code> values. * * @param x the spring controlling the component's <em>x</em> value * @param y the spring controlling the component's <em>y</em> value */
public Constraints(Spring x, Spring y) { setX(x); setY(y); }
Creates a Constraints object with the specified values for its x, y, width, and height properties. Note: If the SpringLayout class encounters null values in the Constraints object of a given component, it replaces them with suitable defaults.
Params:
  • x – the spring value for the x property
  • y – the spring value for the y property
  • width – the spring value for the width property
  • height – the spring value for the height property
/** * Creates a <code>Constraints</code> object with the * specified values for its * <code>x</code>, <code>y</code>, <code>width</code>, * and <code>height</code> properties. * Note: If the <code>SpringLayout</code> class * encounters <code>null</code> values in the * <code>Constraints</code> object of a given component, * it replaces them with suitable defaults. * * @param x the spring value for the <code>x</code> property * @param y the spring value for the <code>y</code> property * @param width the spring value for the <code>width</code> property * @param height the spring value for the <code>height</code> property */
public Constraints(Spring x, Spring y, Spring width, Spring height) { setX(x); setY(y); setWidth(width); setHeight(height); }
Creates a Constraints object with suitable x, y, width and height springs for component, c. The x and y springs are constant springs initialised with the component's location at the time this method is called. The width and height springs are special springs, created by the Spring.width() and Spring.height() methods, which track the size characteristics of the component when they change.
Params:
  • c – the component whose characteristics will be reflected by this Constraints object
Throws:
Since:1.5
/** * Creates a <code>Constraints</code> object with * suitable <code>x</code>, <code>y</code>, <code>width</code> and * <code>height</code> springs for component, <code>c</code>. * The <code>x</code> and <code>y</code> springs are constant * springs initialised with the component's location at * the time this method is called. The <code>width</code> and * <code>height</code> springs are special springs, created by * the <code>Spring.width()</code> and <code>Spring.height()</code> * methods, which track the size characteristics of the component * when they change. * * @param c the component whose characteristics will be reflected by this Constraints object * @throws NullPointerException if <code>c</code> is null. * @since 1.5 */
public Constraints(Component c) { this.c = c; setX(Spring.constant(c.getX())); setY(Spring.constant(c.getY())); setWidth(Spring.width(c)); setHeight(Spring.height(c)); } private void pushConstraint(String name, Spring value, boolean horizontal) { boolean valid = true; List<String> history = horizontal ? horizontalHistory : verticalHistory; if (history.contains(name)) { history.remove(name); valid = false; } else if (history.size() == 2 && value != null) { history.remove(0); valid = false; } if (value != null) { history.add(name); } if (!valid) { String[] all = horizontal ? ALL_HORIZONTAL : ALL_VERTICAL; for (String s : all) { if (!history.contains(s)) { setConstraint(s, null); } } } } private Spring sum(Spring s1, Spring s2) { return (s1 == null || s2 == null) ? null : Spring.sum(s1, s2); } private Spring difference(Spring s1, Spring s2) { return (s1 == null || s2 == null) ? null : Spring.difference(s1, s2); } private Spring scale(Spring s, float factor) { return (s == null) ? null : Spring.scale(s, factor); } private int getBaselineFromHeight(int height) { if (height < 0) { // Bad Scott, Bad Scott! return -c.getBaseline(c.getPreferredSize().width, -height); } return c.getBaseline(c.getPreferredSize().width, height); } private int getHeightFromBaseLine(int baseline) { Dimension prefSize = c.getPreferredSize(); int prefHeight = prefSize.height; int prefBaseline = c.getBaseline(prefSize.width, prefHeight); if (prefBaseline == baseline) { // If prefBaseline < 0, then no baseline, assume preferred // height. // If prefBaseline == baseline, then specified baseline // matches preferred baseline, return preferred height return prefHeight; } // Valid baseline switch(c.getBaselineResizeBehavior()) { case CONSTANT_DESCENT: return prefHeight + (baseline - prefBaseline); case CENTER_OFFSET: return prefHeight + 2 * (baseline - prefBaseline); case CONSTANT_ASCENT: // Component baseline and specified baseline will NEVER // match, fall through to default default: // OTHER // No way to map from baseline to height. } return Integer.MIN_VALUE; } private Spring heightToRelativeBaseline(Spring s) { return new Spring.SpringMap(s) { protected int map(int i) { return getBaselineFromHeight(i); } protected int inv(int i) { return getHeightFromBaseLine(i); } }; } private Spring relativeBaselineToHeight(Spring s) { return new Spring.SpringMap(s) { protected int map(int i) { return getHeightFromBaseLine(i); } protected int inv(int i) { return getBaselineFromHeight(i); } }; } private boolean defined(List<?> history, String s1, String s2) { return history.contains(s1) && history.contains(s2); }
Sets the x property, which controls the x value of a component's location.
Params:
  • x – the spring controlling the x value of a component's location
See Also:
/** * Sets the <code>x</code> property, * which controls the <code>x</code> value * of a component's location. * * @param x the spring controlling the <code>x</code> value * of a component's location * * @see #getX * @see SpringLayout.Constraints */
public void setX(Spring x) { this.x = x; pushConstraint(WEST, x, true); }
Returns the value of the x property.
See Also:
Returns:the spring controlling the x value of a component's location
/** * Returns the value of the <code>x</code> property. * * @return the spring controlling the <code>x</code> value * of a component's location * * @see #setX * @see SpringLayout.Constraints */
public Spring getX() { if (x == null) { if (defined(horizontalHistory, EAST, WIDTH)) { x = difference(east, width); } else if (defined(horizontalHistory, HORIZONTAL_CENTER, WIDTH)) { x = difference(horizontalCenter, scale(width, 0.5f)); } else if (defined(horizontalHistory, HORIZONTAL_CENTER, EAST)) { x = difference(scale(horizontalCenter, 2f), east); } } return x; }
Sets the y property, which controls the y value of a component's location.
Params:
  • y – the spring controlling the y value of a component's location
See Also:
/** * Sets the <code>y</code> property, * which controls the <code>y</code> value * of a component's location. * * @param y the spring controlling the <code>y</code> value * of a component's location * * @see #getY * @see SpringLayout.Constraints */
public void setY(Spring y) { this.y = y; pushConstraint(NORTH, y, false); }
Returns the value of the y property.
See Also:
Returns:the spring controlling the y value of a component's location
/** * Returns the value of the <code>y</code> property. * * @return the spring controlling the <code>y</code> value * of a component's location * * @see #setY * @see SpringLayout.Constraints */
public Spring getY() { if (y == null) { if (defined(verticalHistory, SOUTH, HEIGHT)) { y = difference(south, height); } else if (defined(verticalHistory, VERTICAL_CENTER, HEIGHT)) { y = difference(verticalCenter, scale(height, 0.5f)); } else if (defined(verticalHistory, VERTICAL_CENTER, SOUTH)) { y = difference(scale(verticalCenter, 2f), south); } else if (defined(verticalHistory, BASELINE, HEIGHT)) { y = difference(baseline, heightToRelativeBaseline(height)); } else if (defined(verticalHistory, BASELINE, SOUTH)) { y = scale(difference(baseline, heightToRelativeBaseline(south)), 2f); /* } else if (defined(verticalHistory, BASELINE, VERTICAL_CENTER)) { y = scale(difference(baseline, heightToRelativeBaseline(scale(verticalCenter, 2))), 1f/(1-2*0.5f)); */ } } return y; }
Sets the width property, which controls the width of a component.
Params:
  • width – the spring controlling the width of this Constraints object
See Also:
/** * Sets the <code>width</code> property, * which controls the width of a component. * * @param width the spring controlling the width of this * <code>Constraints</code> object * * @see #getWidth * @see SpringLayout.Constraints */
public void setWidth(Spring width) { this.width = width; pushConstraint(WIDTH, width, true); }
Returns the value of the width property.
See Also:
Returns:the spring controlling the width of a component
/** * Returns the value of the <code>width</code> property. * * @return the spring controlling the width of a component * * @see #setWidth * @see SpringLayout.Constraints */
public Spring getWidth() { if (width == null) { if (horizontalHistory.contains(EAST)) { width = difference(east, getX()); } else if (horizontalHistory.contains(HORIZONTAL_CENTER)) { width = scale(difference(horizontalCenter, getX()), 2f); } } return width; }
Sets the height property, which controls the height of a component.
Params:
  • height – the spring controlling the height of this Constraints object
See Also:
/** * Sets the <code>height</code> property, * which controls the height of a component. * * @param height the spring controlling the height of this <code>Constraints</code> * object * * @see #getHeight * @see SpringLayout.Constraints */
public void setHeight(Spring height) { this.height = height; pushConstraint(HEIGHT, height, false); }
Returns the value of the height property.
See Also:
Returns:the spring controlling the height of a component
/** * Returns the value of the <code>height</code> property. * * @return the spring controlling the height of a component * * @see #setHeight * @see SpringLayout.Constraints */
public Spring getHeight() { if (height == null) { if (verticalHistory.contains(SOUTH)) { height = difference(south, getY()); } else if (verticalHistory.contains(VERTICAL_CENTER)) { height = scale(difference(verticalCenter, getY()), 2f); } else if (verticalHistory.contains(BASELINE)) { height = relativeBaselineToHeight(difference(baseline, getY())); } } return height; } private void setEast(Spring east) { this.east = east; pushConstraint(EAST, east, true); } private Spring getEast() { if (east == null) { east = sum(getX(), getWidth()); } return east; } private void setSouth(Spring south) { this.south = south; pushConstraint(SOUTH, south, false); } private Spring getSouth() { if (south == null) { south = sum(getY(), getHeight()); } return south; } private Spring getHorizontalCenter() { if (horizontalCenter == null) { horizontalCenter = sum(getX(), scale(getWidth(), 0.5f)); } return horizontalCenter; } private void setHorizontalCenter(Spring horizontalCenter) { this.horizontalCenter = horizontalCenter; pushConstraint(HORIZONTAL_CENTER, horizontalCenter, true); } private Spring getVerticalCenter() { if (verticalCenter == null) { verticalCenter = sum(getY(), scale(getHeight(), 0.5f)); } return verticalCenter; } private void setVerticalCenter(Spring verticalCenter) { this.verticalCenter = verticalCenter; pushConstraint(VERTICAL_CENTER, verticalCenter, false); } private Spring getBaseline() { if (baseline == null) { baseline = sum(getY(), heightToRelativeBaseline(getHeight())); } return baseline; } private void setBaseline(Spring baseline) { this.baseline = baseline; pushConstraint(BASELINE, baseline, false); }
Sets the spring controlling the specified edge. The edge must have one of the following values: SpringLayout.NORTH, SpringLayout.SOUTH, SpringLayout.EAST, SpringLayout.WEST, SpringLayout.HORIZONTAL_CENTER, SpringLayout.VERTICAL_CENTER, SpringLayout.BASELINE, SpringLayout.WIDTH or SpringLayout.HEIGHT. For any other String value passed as the edge, no action is taken. For a null edge, a NullPointerException is thrown.

Note: This method can affect x and y values previously set for this Constraints.

Params:
  • edgeName – the edge to be set
  • s – the spring controlling the specified edge
Throws:
See Also:
/** * Sets the spring controlling the specified edge. * The edge must have one of the following values: * <code>SpringLayout.NORTH</code>, * <code>SpringLayout.SOUTH</code>, * <code>SpringLayout.EAST</code>, * <code>SpringLayout.WEST</code>, * <code>SpringLayout.HORIZONTAL_CENTER</code>, * <code>SpringLayout.VERTICAL_CENTER</code>, * <code>SpringLayout.BASELINE</code>, * <code>SpringLayout.WIDTH</code> or * <code>SpringLayout.HEIGHT</code>. * For any other <code>String</code> value passed as the edge, * no action is taken. For a <code>null</code> edge, a * <code>NullPointerException</code> is thrown. * <p> * <b>Note:</b> This method can affect {@code x} and {@code y} values * previously set for this {@code Constraints}. * * @param edgeName the edge to be set * @param s the spring controlling the specified edge * * @throws NullPointerException if <code>edgeName</code> is <code>null</code> * * @see #getConstraint * @see #NORTH * @see #SOUTH * @see #EAST * @see #WEST * @see #HORIZONTAL_CENTER * @see #VERTICAL_CENTER * @see #BASELINE * @see #WIDTH * @see #HEIGHT * @see SpringLayout.Constraints */
public void setConstraint(String edgeName, Spring s) { edgeName = edgeName.intern(); if (edgeName == WEST) { setX(s); } else if (edgeName == NORTH) { setY(s); } else if (edgeName == EAST) { setEast(s); } else if (edgeName == SOUTH) { setSouth(s); } else if (edgeName == HORIZONTAL_CENTER) { setHorizontalCenter(s); } else if (edgeName == WIDTH) { setWidth(s); } else if (edgeName == HEIGHT) { setHeight(s); } else if (edgeName == VERTICAL_CENTER) { setVerticalCenter(s); } else if (edgeName == BASELINE) { setBaseline(s); } }
Returns the value of the specified edge, which may be a derived value, or even null. The edge must have one of the following values: SpringLayout.NORTH, SpringLayout.SOUTH, SpringLayout.EAST, SpringLayout.WEST, SpringLayout.HORIZONTAL_CENTER, SpringLayout.VERTICAL_CENTER, SpringLayout.BASELINE, SpringLayout.WIDTH or SpringLayout.HEIGHT. For any other String value passed as the edge, null will be returned. Throws NullPointerException for a null edge.
Params:
  • edgeName – the edge whose value is to be returned
Throws:
See Also:
Returns:the spring controlling the specified edge, may be null
/** * Returns the value of the specified edge, which may be * a derived value, or even <code>null</code>. * The edge must have one of the following values: * <code>SpringLayout.NORTH</code>, * <code>SpringLayout.SOUTH</code>, * <code>SpringLayout.EAST</code>, * <code>SpringLayout.WEST</code>, * <code>SpringLayout.HORIZONTAL_CENTER</code>, * <code>SpringLayout.VERTICAL_CENTER</code>, * <code>SpringLayout.BASELINE</code>, * <code>SpringLayout.WIDTH</code> or * <code>SpringLayout.HEIGHT</code>. * For any other <code>String</code> value passed as the edge, * <code>null</code> will be returned. Throws * <code>NullPointerException</code> for a <code>null</code> edge. * * @param edgeName the edge whose value * is to be returned * * @return the spring controlling the specified edge, may be <code>null</code> * * @throws NullPointerException if <code>edgeName</code> is <code>null</code> * * @see #setConstraint * @see #NORTH * @see #SOUTH * @see #EAST * @see #WEST * @see #HORIZONTAL_CENTER * @see #VERTICAL_CENTER * @see #BASELINE * @see #WIDTH * @see #HEIGHT * @see SpringLayout.Constraints */
public Spring getConstraint(String edgeName) { edgeName = edgeName.intern(); return (edgeName == WEST) ? getX() : (edgeName == NORTH) ? getY() : (edgeName == EAST) ? getEast() : (edgeName == SOUTH) ? getSouth() : (edgeName == WIDTH) ? getWidth() : (edgeName == HEIGHT) ? getHeight() : (edgeName == HORIZONTAL_CENTER) ? getHorizontalCenter() : (edgeName == VERTICAL_CENTER) ? getVerticalCenter() : (edgeName == BASELINE) ? getBaseline() : null; } /*pp*/ void reset() { Spring[] allSprings = {x, y, width, height, east, south, horizontalCenter, verticalCenter, baseline}; for (Spring s : allSprings) { if (s != null) { s.setValue(Spring.UNSET); } } } } private static class SpringProxy extends Spring { private String edgeName; private Component c; private SpringLayout l; public SpringProxy(String edgeName, Component c, SpringLayout l) { this.edgeName = edgeName; this.c = c; this.l = l; } private Spring getConstraint() { return l.getConstraints(c).getConstraint(edgeName); } public int getMinimumValue() { return getConstraint().getMinimumValue(); } public int getPreferredValue() { return getConstraint().getPreferredValue(); } public int getMaximumValue() { return getConstraint().getMaximumValue(); } public int getValue() { return getConstraint().getValue(); } public void setValue(int size) { getConstraint().setValue(size); } /*pp*/ boolean isCyclic(SpringLayout l) { return l.isCyclic(getConstraint()); } public String toString() { return "SpringProxy for " + edgeName + " edge of " + c.getName() + "."; } }
Constructs a new SpringLayout.
/** * Constructs a new <code>SpringLayout</code>. */
public SpringLayout() {} private void resetCyclicStatuses() { cyclicSprings = new HashSet<Spring>(); acyclicSprings = new HashSet<Spring>(); } private void setParent(Container p) { resetCyclicStatuses(); Constraints pc = getConstraints(p); pc.setX(Spring.constant(0)); pc.setY(Spring.constant(0)); // The applyDefaults() method automatically adds width and // height springs that delegate their calculations to the // getMinimumSize(), getPreferredSize() and getMaximumSize() // methods of the relevant component. In the case of the // parent this will cause an infinite loop since these // methods, in turn, delegate their calculations to the // layout manager. Check for this case and replace the // the springs that would cause this problem with a // constant springs that supply default values. Spring width = pc.getWidth(); if (width instanceof Spring.WidthSpring && ((Spring.WidthSpring)width).c == p) { pc.setWidth(Spring.constant(0, 0, Integer.MAX_VALUE)); } Spring height = pc.getHeight(); if (height instanceof Spring.HeightSpring && ((Spring.HeightSpring)height).c == p) { pc.setHeight(Spring.constant(0, 0, Integer.MAX_VALUE)); } } /*pp*/ boolean isCyclic(Spring s) { if (s == null) { return false; } if (cyclicSprings.contains(s)) { return true; } if (acyclicSprings.contains(s)) { return false; } cyclicSprings.add(s); boolean result = s.isCyclic(this); if (!result) { acyclicSprings.add(s); cyclicSprings.remove(s); } else { System.err.println(s + " is cyclic. "); } return result; } private Spring abandonCycles(Spring s) { return isCyclic(s) ? cyclicReference : s; } // LayoutManager methods.
Has no effect, since this layout manager does not use a per-component string.
/** * Has no effect, * since this layout manager does not * use a per-component string. */
public void addLayoutComponent(String name, Component c) {}
Removes the constraints associated with the specified component.
Params:
  • c – the component being removed from the container
/** * Removes the constraints associated with the specified component. * * @param c the component being removed from the container */
public void removeLayoutComponent(Component c) { componentConstraints.remove(c); } private static Dimension addInsets(int width, int height, Container p) { Insets i = p.getInsets(); return new Dimension(width + i.left + i.right, height + i.top + i.bottom); } public Dimension minimumLayoutSize(Container parent) { setParent(parent); Constraints pc = getConstraints(parent); return addInsets(abandonCycles(pc.getWidth()).getMinimumValue(), abandonCycles(pc.getHeight()).getMinimumValue(), parent); } public Dimension preferredLayoutSize(Container parent) { setParent(parent); Constraints pc = getConstraints(parent); return addInsets(abandonCycles(pc.getWidth()).getPreferredValue(), abandonCycles(pc.getHeight()).getPreferredValue(), parent); } // LayoutManager2 methods. public Dimension maximumLayoutSize(Container parent) { setParent(parent); Constraints pc = getConstraints(parent); return addInsets(abandonCycles(pc.getWidth()).getMaximumValue(), abandonCycles(pc.getHeight()).getMaximumValue(), parent); }
If constraints is an instance of SpringLayout.Constraints, associates the constraints with the specified component.
Params:
  • component – the component being added
  • constraints – the component's constraints
See Also:
/** * If <code>constraints</code> is an instance of * <code>SpringLayout.Constraints</code>, * associates the constraints with the specified component. * * @param component the component being added * @param constraints the component's constraints * * @see SpringLayout.Constraints */
public void addLayoutComponent(Component component, Object constraints) { if (constraints instanceof Constraints) { putConstraints(component, (Constraints)constraints); } }
Returns 0.5f (centered).
/** * Returns 0.5f (centered). */
public float getLayoutAlignmentX(Container p) { return 0.5f; }
Returns 0.5f (centered).
/** * Returns 0.5f (centered). */
public float getLayoutAlignmentY(Container p) { return 0.5f; } public void invalidateLayout(Container p) {} // End of LayoutManger2 methods
Links edge e1 of component c1 to edge e2 of component c2, with a fixed distance between the edges. This constraint will cause the assignment
    value(e1, c1) = value(e2, c2) + pad
to take place during all subsequent layout operations.
Params:
  • e1 – the edge of the dependent
  • c1 – the component of the dependent
  • pad – the fixed distance between dependent and anchor
  • e2 – the edge of the anchor
  • c2 – the component of the anchor
See Also:
/** * Links edge <code>e1</code> of component <code>c1</code> to * edge <code>e2</code> of component <code>c2</code>, * with a fixed distance between the edges. This * constraint will cause the assignment * <pre> * value(e1, c1) = value(e2, c2) + pad</pre> * to take place during all subsequent layout operations. * * @param e1 the edge of the dependent * @param c1 the component of the dependent * @param pad the fixed distance between dependent and anchor * @param e2 the edge of the anchor * @param c2 the component of the anchor * * @see #putConstraint(String, Component, Spring, String, Component) */
public void putConstraint(String e1, Component c1, int pad, String e2, Component c2) { putConstraint(e1, c1, Spring.constant(pad), e2, c2); }
Links edge e1 of component c1 to edge e2 of component c2. As edge (e2, c2) changes value, edge (e1, c1) will be calculated by taking the (spring) sum of (e2, c2) and s. Each edge must have one of the following values: SpringLayout.NORTH, SpringLayout.SOUTH, SpringLayout.EAST, SpringLayout.WEST, SpringLayout.VERTICAL_CENTER, SpringLayout.HORIZONTAL_CENTER or SpringLayout.BASELINE.
Params:
  • e1 – the edge of the dependent
  • c1 – the component of the dependent
  • s – the spring linking dependent and anchor
  • e2 – the edge of the anchor
  • c2 – the component of the anchor
See Also:
/** * Links edge <code>e1</code> of component <code>c1</code> to * edge <code>e2</code> of component <code>c2</code>. As edge * <code>(e2, c2)</code> changes value, edge <code>(e1, c1)</code> will * be calculated by taking the (spring) sum of <code>(e2, c2)</code> * and <code>s</code>. * Each edge must have one of the following values: * <code>SpringLayout.NORTH</code>, * <code>SpringLayout.SOUTH</code>, * <code>SpringLayout.EAST</code>, * <code>SpringLayout.WEST</code>, * <code>SpringLayout.VERTICAL_CENTER</code>, * <code>SpringLayout.HORIZONTAL_CENTER</code> or * <code>SpringLayout.BASELINE</code>. * * @param e1 the edge of the dependent * @param c1 the component of the dependent * @param s the spring linking dependent and anchor * @param e2 the edge of the anchor * @param c2 the component of the anchor * * @see #putConstraint(String, Component, int, String, Component) * @see #NORTH * @see #SOUTH * @see #EAST * @see #WEST * @see #VERTICAL_CENTER * @see #HORIZONTAL_CENTER * @see #BASELINE */
public void putConstraint(String e1, Component c1, Spring s, String e2, Component c2) { putConstraint(e1, c1, Spring.sum(s, getConstraint(e2, c2))); } private void putConstraint(String e, Component c, Spring s) { if (s != null) { getConstraints(c).setConstraint(e, s); } } private Constraints applyDefaults(Component c, Constraints constraints) { if (constraints == null) { constraints = new Constraints(); } if (constraints.c == null) { constraints.c = c; } if (constraints.horizontalHistory.size() < 2) { applyDefaults(constraints, WEST, Spring.constant(0), WIDTH, Spring.width(c), constraints.horizontalHistory); } if (constraints.verticalHistory.size() < 2) { applyDefaults(constraints, NORTH, Spring.constant(0), HEIGHT, Spring.height(c), constraints.verticalHistory); } return constraints; } private void applyDefaults(Constraints constraints, String name1, Spring spring1, String name2, Spring spring2, List<String> history) { if (history.size() == 0) { constraints.setConstraint(name1, spring1); constraints.setConstraint(name2, spring2); } else { // At this point there must be exactly one constraint defined already. // Check width/height first. if (constraints.getConstraint(name2) == null) { constraints.setConstraint(name2, spring2); } else { // If width/height is already defined, install a default for x/y. constraints.setConstraint(name1, spring1); } // Either way, leave the user's constraint topmost on the stack. Collections.rotate(history, 1); } } private void putConstraints(Component component, Constraints constraints) { componentConstraints.put(component, applyDefaults(component, constraints)); }
Returns the constraints for the specified component. Note that, unlike the GridBagLayout getConstraints method, this method does not clone constraints. If no constraints have been associated with this component, this method returns a default constraints object positioned at 0,0 relative to the parent's Insets and its width/height constrained to the minimum, maximum, and preferred sizes of the component. The size characteristics are not frozen at the time this method is called; instead this method returns a constraints object whose characteristics track the characteristics of the component as they change.
Params:
  • c – the component whose constraints will be returned
Returns: the constraints for the specified component
/** * Returns the constraints for the specified component. * Note that, * unlike the <code>GridBagLayout</code> * <code>getConstraints</code> method, * this method does not clone constraints. * If no constraints * have been associated with this component, * this method * returns a default constraints object positioned at * 0,0 relative to the parent's Insets and its width/height * constrained to the minimum, maximum, and preferred sizes of the * component. The size characteristics * are not frozen at the time this method is called; * instead this method returns a constraints object * whose characteristics track the characteristics * of the component as they change. * * @param c the component whose constraints will be returned * * @return the constraints for the specified component */
public Constraints getConstraints(Component c) { Constraints result = componentConstraints.get(c); if (result == null) { if (c instanceof javax.swing.JComponent) { Object cp = ((javax.swing.JComponent)c).getClientProperty(SpringLayout.class); if (cp instanceof Constraints) { return applyDefaults(c, (Constraints)cp); } } result = new Constraints(); putConstraints(c, result); } return result; }
Returns the spring controlling the distance between the specified edge of the component and the top or left edge of its parent. This method, instead of returning the current binding for the edge, returns a proxy that tracks the characteristics of the edge even if the edge is subsequently rebound. Proxies are intended to be used in builder environments where it is useful to allow the user to define the constraints for a layout in any order. Proxies do, however, provide the means to create cyclic dependencies amongst the constraints of a layout. Such cycles are detected internally by SpringLayout so that the layout operation always terminates.
Params:
  • edgeName – must be one of SpringLayout.NORTH, SpringLayout.SOUTH, SpringLayout.EAST, SpringLayout.WEST, SpringLayout.VERTICAL_CENTER, SpringLayout.HORIZONTAL_CENTER or SpringLayout.BASELINE
  • c – the component whose edge spring is desired
See Also:
Returns:a proxy for the spring controlling the distance between the specified edge and the top or left edge of its parent
/** * Returns the spring controlling the distance between * the specified edge of * the component and the top or left edge of its parent. This * method, instead of returning the current binding for the * edge, returns a proxy that tracks the characteristics * of the edge even if the edge is subsequently rebound. * Proxies are intended to be used in builder environments * where it is useful to allow the user to define the * constraints for a layout in any order. Proxies do, however, * provide the means to create cyclic dependencies amongst * the constraints of a layout. Such cycles are detected * internally by <code>SpringLayout</code> so that * the layout operation always terminates. * * @param edgeName must be one of * <code>SpringLayout.NORTH</code>, * <code>SpringLayout.SOUTH</code>, * <code>SpringLayout.EAST</code>, * <code>SpringLayout.WEST</code>, * <code>SpringLayout.VERTICAL_CENTER</code>, * <code>SpringLayout.HORIZONTAL_CENTER</code> or * <code>SpringLayout.BASELINE</code> * @param c the component whose edge spring is desired * * @return a proxy for the spring controlling the distance between the * specified edge and the top or left edge of its parent * * @see #NORTH * @see #SOUTH * @see #EAST * @see #WEST * @see #VERTICAL_CENTER * @see #HORIZONTAL_CENTER * @see #BASELINE */
public Spring getConstraint(String edgeName, Component c) { // The interning here is unnecessary; it was added for efficiency. edgeName = edgeName.intern(); return new SpringProxy(edgeName, c, this); } public void layoutContainer(Container parent) { setParent(parent); int n = parent.getComponentCount(); getConstraints(parent).reset(); for (int i = 0 ; i < n ; i++) { getConstraints(parent.getComponent(i)).reset(); } Insets insets = parent.getInsets(); Constraints pc = getConstraints(parent); abandonCycles(pc.getX()).setValue(0); abandonCycles(pc.getY()).setValue(0); abandonCycles(pc.getWidth()).setValue(parent.getWidth() - insets.left - insets.right); abandonCycles(pc.getHeight()).setValue(parent.getHeight() - insets.top - insets.bottom); for (int i = 0 ; i < n ; i++) { Component c = parent.getComponent(i); Constraints cc = getConstraints(c); int x = abandonCycles(cc.getX()).getValue(); int y = abandonCycles(cc.getY()).getValue(); int width = abandonCycles(cc.getWidth()).getValue(); int height = abandonCycles(cc.getHeight()).getValue(); c.setBounds(insets.left + x, insets.top + y, width, height); } } }