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ValueAxis.java

/* ===========================================================
 * JFreeChart : a free chart library for the Java(tm) platform
 * ===========================================================
 *
 * (C) Copyright 2000-2008, by Object Refinery Limited and Contributors.
 *
 * Project Info:  http://www.jfree.org/jfreechart/index.html
 *
 * This library is free software; you can redistribute it and/or modify it
 * under the terms of the GNU Lesser General Public License as publihed by
 * the Free Software Foundation; either version 2.1 of the License, or
 * (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
 * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
 * License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301,
 * USA.
 *
 * [Java is a trademark or registered trademark of Sun Microsystems, Inc.
 * in the United States and other countries.]
 *
 * --------------
 * ValueAxis.java
 * --------------
 * (C) Copyright 2000-2008, by Object Refinery Limited and Contributors.
 *
 * Original Author:  David Gilbert (for Object Refinery Limited);
 * Contributor(s):   Jonathan Nash;
 *                   Nicolas Brodu (for Astrium and EADS Corporate Research
 *                   Center);
 *
 * Changes
 * -------
 * 18-Sep-2001 : Added standard header and fixed DOS encoding problem (DG);
 * 23-Nov-2001 : Overhauled standard tick unit code (DG);
 * 04-Dec-2001 : Changed constructors to protected, and tidied up default
 *               values (DG);
 * 12-Dec-2001 : Fixed vertical gridlines bug (DG);
 * 16-Jan-2002 : Added an optional crosshair, based on the implementation by
 *               Jonathan Nash (DG);
 * 23-Jan-2002 : Moved the minimum and maximum values to here from NumberAxis,
 *               and changed the type from Number to double (DG);
 * 25-Feb-2002 : Added default value for autoRange. Changed autoAdjustRange
 *               from public to protected. Updated import statements (DG);
 * 23-Apr-2002 : Added setRange() method (DG);
 * 29-Apr-2002 : Added range adjustment methods (DG);
 * 13-Jun-2002 : Modified setCrosshairValue() to notify listeners only when the
 *               crosshairs are visible, to avoid unnecessary repaints, as
 *               suggested by Kees Kuip (DG);
 * 25-Jul-2002 : Moved lower and upper margin attributes from the NumberAxis
 *               class (DG);
 * 05-Sep-2002 : Updated constructor for changes in Axis class (DG);
 * 01-Oct-2002 : Fixed errors reported by Checkstyle (DG);
 * 04-Oct-2002 : Moved standardTickUnits from NumberAxis --> ValueAxis (DG);
 * 08-Nov-2002 : Moved to new package com.jrefinery.chart.axis (DG);
 * 19-Nov-2002 : Removed grid settings (now controlled by the plot) (DG);
 * 27-Nov-2002 : Moved the 'inverted' attributed from NumberAxis to
 *               ValueAxis (DG);
 * 03-Jan-2003 : Small fix to ensure auto-range minimum is observed
 *               immediately (DG);
 * 14-Jan-2003 : Changed autoRangeMinimumSize from Number --> double (DG);
 * 20-Jan-2003 : Replaced monolithic constructor (DG);
 * 26-Mar-2003 : Implemented Serializable (DG);
 * 09-May-2003 : Added AxisLocation parameter to translation methods (DG);
 * 13-Aug-2003 : Implemented Cloneable (DG);
 * 01-Sep-2003 : Fixed bug 793167 (setMaximumAxisValue exception) (DG);
 * 02-Sep-2003 : Fixed bug 795366 (zooming on inverted axes) (DG);
 * 08-Sep-2003 : Completed Serialization support (NB);
 * 08-Sep-2003 : Renamed get/setMinimumValue --> get/setLowerBound,
 *               and get/setMaximumValue --> get/setUpperBound (DG);
 * 27-Oct-2003 : Changed DEFAULT_AUTO_RANGE_MINIMUM_SIZE value - see bug ID
 *               829606 (DG);
 * 07-Nov-2003 : Changes to tick mechanism (DG);
 * 06-Jan-2004 : Moved axis line attributes to Axis class (DG);
 * 21-Jan-2004 : Removed redundant axisLineVisible attribute.  Renamed
 *               translateJava2DToValue --> java2DToValue, and
 *               translateValueToJava2D --> valueToJava2D (DG);
 * 23-Jan-2004 : Fixed setAxisLinePaint() and setAxisLineStroke() which had no
 *               effect (andreas.gawecki@coremedia.com);
 * 07-Apr-2004 : Changed text bounds calculation (DG);
 * 26-Apr-2004 : Added getter/setter methods for arrow shapes (DG);
 * 18-May-2004 : Added methods to set axis range *including* current
 *               margins (DG);
 * 02-Jun-2004 : Fixed bug in setRangeWithMargins() method (DG);
 * 30-Sep-2004 : Moved drawRotatedString() from RefineryUtilities
 *               --> TextUtilities (DG);
 * 11-Jan-2005 : Removed deprecated methods in preparation for 1.0.0
 *               release (DG);
 * 21-Apr-2005 : Replaced Insets with RectangleInsets (DG);
 * ------------- JFREECHART 1.0.x ---------------------------------------------
 * 10-Oct-2006 : Source reformatting (DG);
 * 22-Mar-2007 : Added new defaultAutoRange attribute (DG);
 * 02-Aug-2007 : Check for major tick when drawing label (DG);
 *
 */

package org.jfree.chart.axis;

import java.awt.Font;
import java.awt.FontMetrics;
import java.awt.Graphics2D;
import java.awt.Polygon;
import java.awt.Shape;
import java.awt.font.LineMetrics;
import java.awt.geom.AffineTransform;
import java.awt.geom.Line2D;
import java.awt.geom.Rectangle2D;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.Iterator;
import java.util.List;

import org.jfree.chart.event.AxisChangeEvent;
import org.jfree.chart.plot.Plot;
import org.jfree.data.Range;
import org.jfree.io.SerialUtilities;
import org.jfree.text.TextUtilities;
import org.jfree.ui.RectangleEdge;
import org.jfree.ui.RectangleInsets;
import org.jfree.util.ObjectUtilities;
import org.jfree.util.PublicCloneable;

/**
 * The base class for axes that display value data, where values are measured
 * using the <code>double</code> primitive.  The two key subclasses are
 * {@link DateAxis} and {@link NumberAxis}.
 */
00135 public abstract class ValueAxis extends Axis
        implements Cloneable, PublicCloneable, Serializable {

    /** For serialization. */
00139     private static final long serialVersionUID = 3698345477322391456L;

    /** The default axis range. */
00142     public static final Range DEFAULT_RANGE = new Range(0.0, 1.0);

    /** The default auto-range value. */
00145     public static final boolean DEFAULT_AUTO_RANGE = true;

    /** The default inverted flag setting. */
00148     public static final boolean DEFAULT_INVERTED = false;

    /** The default minimum auto range. */
00151     public static final double DEFAULT_AUTO_RANGE_MINIMUM_SIZE = 0.00000001;

    /** The default value for the lower margin (0.05 = 5%). */
00154     public static final double DEFAULT_LOWER_MARGIN = 0.05;

    /** The default value for the upper margin (0.05 = 5%). */
00157     public static final double DEFAULT_UPPER_MARGIN = 0.05;

    /**
     * The default lower bound for the axis.
     *
     * @deprecated From 1.0.5 onwards, the axis defines a defaultRange
     *     attribute (see {@link #getDefaultAutoRange()}).
     */
00165     public static final double DEFAULT_LOWER_BOUND = 0.0;

    /**
     * The default upper bound for the axis.
     *
     * @deprecated From 1.0.5 onwards, the axis defines a defaultRange
     *     attribute (see {@link #getDefaultAutoRange()}).
     */
00173     public static final double DEFAULT_UPPER_BOUND = 1.0;

    /** The default auto-tick-unit-selection value. */
00176     public static final boolean DEFAULT_AUTO_TICK_UNIT_SELECTION = true;

    /** The maximum tick count. */
00179     public static final int MAXIMUM_TICK_COUNT = 500;

    /**
     * A flag that controls whether an arrow is drawn at the positive end of
     * the axis line.
     */
00185     private boolean positiveArrowVisible;

    /**
     * A flag that controls whether an arrow is drawn at the negative end of
     * the axis line.
     */
00191     private boolean negativeArrowVisible;

    /** The shape used for an up arrow. */
00194     private transient Shape upArrow;

    /** The shape used for a down arrow. */
00197     private transient Shape downArrow;

    /** The shape used for a left arrow. */
00200     private transient Shape leftArrow;

    /** The shape used for a right arrow. */
00203     private transient Shape rightArrow;

    /** A flag that affects the orientation of the values on the axis. */
00206     private boolean inverted;

    /** The axis range. */
00209     private Range range;

    /**
     * Flag that indicates whether the axis automatically scales to fit the
     * chart data.
     */
00215     private boolean autoRange;

    /** The minimum size for the 'auto' axis range (excluding margins). */
00218     private double autoRangeMinimumSize;

    /**
     * The default range is used when the dataset is empty and the axis needs
     * to determine the auto range.
     *
     * @since 1.0.5
     */
00226     private Range defaultAutoRange;

    /**
     * The upper margin percentage.  This indicates the amount by which the
     * maximum axis value exceeds the maximum data value (as a percentage of
     * the range on the axis) when the axis range is determined automatically.
     */
00233     private double upperMargin;

    /**
     * The lower margin.  This is a percentage that indicates the amount by
     * which the minimum axis value is "less than" the minimum data value when
     * the axis range is determined automatically.
     */
00240     private double lowerMargin;

    /**
     * If this value is positive, the amount is subtracted from the maximum
     * data value to determine the lower axis range.  This can be used to
     * provide a fixed "window" on dynamic data.
     */
00247     private double fixedAutoRange;

    /**
     * Flag that indicates whether or not the tick unit is selected
     * automatically.
     */
00253     private boolean autoTickUnitSelection;

    /** The standard tick units for the axis. */
00256     private TickUnitSource standardTickUnits;

    /** An index into an array of standard tick values. */
00259     private int autoTickIndex;

    /** A flag indicating whether or not tick labels are rotated to vertical. */
00262     private boolean verticalTickLabels;

    /**
     * Constructs a value axis.
     *
     * @param label  the axis label (<code>null</code> permitted).
     * @param standardTickUnits  the source for standard tick units
     *                           (<code>null</code> permitted).
     */
00271     protected ValueAxis(String label, TickUnitSource standardTickUnits) {

        super(label);

        this.positiveArrowVisible = false;
        this.negativeArrowVisible = false;

        this.range = DEFAULT_RANGE;
        this.autoRange = DEFAULT_AUTO_RANGE;
        this.defaultAutoRange = DEFAULT_RANGE;

        this.inverted = DEFAULT_INVERTED;
        this.autoRangeMinimumSize = DEFAULT_AUTO_RANGE_MINIMUM_SIZE;

        this.lowerMargin = DEFAULT_LOWER_MARGIN;
        this.upperMargin = DEFAULT_UPPER_MARGIN;

        this.fixedAutoRange = 0.0;

        this.autoTickUnitSelection = DEFAULT_AUTO_TICK_UNIT_SELECTION;
        this.standardTickUnits = standardTickUnits;

        Polygon p1 = new Polygon();
        p1.addPoint(0, 0);
        p1.addPoint(-2, 2);
        p1.addPoint(2, 2);

        this.upArrow = p1;

        Polygon p2 = new Polygon();
        p2.addPoint(0, 0);
        p2.addPoint(-2, -2);
        p2.addPoint(2, -2);

        this.downArrow = p2;

        Polygon p3 = new Polygon();
        p3.addPoint(0, 0);
        p3.addPoint(-2, -2);
        p3.addPoint(-2, 2);

        this.rightArrow = p3;

        Polygon p4 = new Polygon();
        p4.addPoint(0, 0);
        p4.addPoint(2, -2);
        p4.addPoint(2, 2);

        this.leftArrow = p4;

        this.verticalTickLabels = false;

    }

    /**
     * Returns <code>true</code> if the tick labels should be rotated (to
     * vertical), and <code>false</code> otherwise.
     *
     * @return <code>true</code> or <code>false</code>.
     *
     * @see #setVerticalTickLabels(boolean)
     */
00333     public boolean isVerticalTickLabels() {
        return this.verticalTickLabels;
    }

    /**
     * Sets the flag that controls whether the tick labels are displayed
     * vertically (that is, rotated 90 degrees from horizontal).  If the flag
     * is changed, an {@link AxisChangeEvent} is sent to all registered
     * listeners.
     *
     * @param flag  the flag.
     *
     * @see #isVerticalTickLabels()
     */
00347     public void setVerticalTickLabels(boolean flag) {
        if (this.verticalTickLabels != flag) {
            this.verticalTickLabels = flag;
            notifyListeners(new AxisChangeEvent(this));
        }
    }

    /**
     * Returns a flag that controls whether or not the axis line has an arrow
     * drawn that points in the positive direction for the axis.
     *
     * @return A boolean.
     *
     * @see #setPositiveArrowVisible(boolean)
     */
00362     public boolean isPositiveArrowVisible() {
        return this.positiveArrowVisible;
    }

    /**
     * Sets a flag that controls whether or not the axis lines has an arrow
     * drawn that points in the positive direction for the axis, and sends an
     * {@link AxisChangeEvent} to all registered listeners.
     *
     * @param visible  the flag.
     *
     * @see #isPositiveArrowVisible()
     */
00375     public void setPositiveArrowVisible(boolean visible) {
        this.positiveArrowVisible = visible;
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Returns a flag that controls whether or not the axis line has an arrow
     * drawn that points in the negative direction for the axis.
     *
     * @return A boolean.
     *
     * @see #setNegativeArrowVisible(boolean)
     */
00388     public boolean isNegativeArrowVisible() {
        return this.negativeArrowVisible;
    }

    /**
     * Sets a flag that controls whether or not the axis lines has an arrow
     * drawn that points in the negative direction for the axis, and sends an
     * {@link AxisChangeEvent} to all registered listeners.
     *
     * @param visible  the flag.
     *
     * @see #setNegativeArrowVisible(boolean)
     */
00401     public void setNegativeArrowVisible(boolean visible) {
        this.negativeArrowVisible = visible;
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Returns a shape that can be displayed as an arrow pointing upwards at
     * the end of an axis line.
     *
     * @return A shape (never <code>null</code>).
     *
     * @see #setUpArrow(Shape)
     */
00414     public Shape getUpArrow() {
        return this.upArrow;
    }

    /**
     * Sets the shape that can be displayed as an arrow pointing upwards at
     * the end of an axis line and sends an {@link AxisChangeEvent} to all
     * registered listeners.
     *
     * @param arrow  the arrow shape (<code>null</code> not permitted).
     *
     * @see #getUpArrow()
     */
00427     public void setUpArrow(Shape arrow) {
        if (arrow == null) {
            throw new IllegalArgumentException("Null 'arrow' argument.");
        }
        this.upArrow = arrow;
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Returns a shape that can be displayed as an arrow pointing downwards at
     * the end of an axis line.
     *
     * @return A shape (never <code>null</code>).
     *
     * @see #setDownArrow(Shape)
     */
00443     public Shape getDownArrow() {
        return this.downArrow;
    }

    /**
     * Sets the shape that can be displayed as an arrow pointing downwards at
     * the end of an axis line and sends an {@link AxisChangeEvent} to all
     * registered listeners.
     *
     * @param arrow  the arrow shape (<code>null</code> not permitted).
     *
     * @see #getDownArrow()
     */
00456     public void setDownArrow(Shape arrow) {
        if (arrow == null) {
            throw new IllegalArgumentException("Null 'arrow' argument.");
        }
        this.downArrow = arrow;
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Returns a shape that can be displayed as an arrow pointing left at the
     * end of an axis line.
     *
     * @return A shape (never <code>null</code>).
     *
     * @see #setLeftArrow(Shape)
     */
00472     public Shape getLeftArrow() {
        return this.leftArrow;
    }

    /**
     * Sets the shape that can be displayed as an arrow pointing left at the
     * end of an axis line and sends an {@link AxisChangeEvent} to all
     * registered listeners.
     *
     * @param arrow  the arrow shape (<code>null</code> not permitted).
     *
     * @see #getLeftArrow()
     */
00485     public void setLeftArrow(Shape arrow) {
        if (arrow == null) {
            throw new IllegalArgumentException("Null 'arrow' argument.");
        }
        this.leftArrow = arrow;
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Returns a shape that can be displayed as an arrow pointing right at the
     * end of an axis line.
     *
     * @return A shape (never <code>null</code>).
     *
     * @see #setRightArrow(Shape)
     */
00501     public Shape getRightArrow() {
        return this.rightArrow;
    }

    /**
     * Sets the shape that can be displayed as an arrow pointing rightwards at
     * the end of an axis line and sends an {@link AxisChangeEvent} to all
     * registered listeners.
     *
     * @param arrow  the arrow shape (<code>null</code> not permitted).
     *
     * @see #getRightArrow()
     */
00514     public void setRightArrow(Shape arrow) {
        if (arrow == null) {
            throw new IllegalArgumentException("Null 'arrow' argument.");
        }
        this.rightArrow = arrow;
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Draws an axis line at the current cursor position and edge.
     *
     * @param g2  the graphics device.
     * @param cursor  the cursor position.
     * @param dataArea  the data area.
     * @param edge  the edge.
     */
00530     protected void drawAxisLine(Graphics2D g2, double cursor,
                                Rectangle2D dataArea, RectangleEdge edge) {
        Line2D axisLine = null;
        if (edge == RectangleEdge.TOP) {
            axisLine = new Line2D.Double(dataArea.getX(), cursor,
                    dataArea.getMaxX(), cursor);
        }
        else if (edge == RectangleEdge.BOTTOM) {
            axisLine = new Line2D.Double(dataArea.getX(), cursor,
                    dataArea.getMaxX(), cursor);
        }
        else if (edge == RectangleEdge.LEFT) {
            axisLine = new Line2D.Double(cursor, dataArea.getY(), cursor,
                    dataArea.getMaxY());
        }
        else if (edge == RectangleEdge.RIGHT) {
            axisLine = new Line2D.Double(cursor, dataArea.getY(), cursor,
                    dataArea.getMaxY());
        }
        g2.setPaint(getAxisLinePaint());
        g2.setStroke(getAxisLineStroke());
        g2.draw(axisLine);

        boolean drawUpOrRight = false;
        boolean drawDownOrLeft = false;
        if (this.positiveArrowVisible) {
            if (this.inverted) {
                drawDownOrLeft = true;
            }
            else {
                drawUpOrRight = true;
            }
        }
        if (this.negativeArrowVisible) {
            if (this.inverted) {
                drawUpOrRight = true;
            }
            else {
                drawDownOrLeft = true;
            }
        }
        if (drawUpOrRight) {
            double x = 0.0;
            double y = 0.0;
            Shape arrow = null;
            if (edge == RectangleEdge.TOP || edge == RectangleEdge.BOTTOM) {
                x = dataArea.getMaxX();
                y = cursor;
                arrow = this.rightArrow;
            }
            else if (edge == RectangleEdge.LEFT
                    || edge == RectangleEdge.RIGHT) {
                x = cursor;
                y = dataArea.getMinY();
                arrow = this.upArrow;
            }

            // draw the arrow...
            AffineTransform transformer = new AffineTransform();
            transformer.setToTranslation(x, y);
            Shape shape = transformer.createTransformedShape(arrow);
            g2.fill(shape);
            g2.draw(shape);
        }

        if (drawDownOrLeft) {
            double x = 0.0;
            double y = 0.0;
            Shape arrow = null;
            if (edge == RectangleEdge.TOP || edge == RectangleEdge.BOTTOM) {
                x = dataArea.getMinX();
                y = cursor;
                arrow = this.leftArrow;
            }
            else if (edge == RectangleEdge.LEFT
                    || edge == RectangleEdge.RIGHT) {
                x = cursor;
                y = dataArea.getMaxY();
                arrow = this.downArrow;
            }

            // draw the arrow...
            AffineTransform transformer = new AffineTransform();
            transformer.setToTranslation(x, y);
            Shape shape = transformer.createTransformedShape(arrow);
            g2.fill(shape);
            g2.draw(shape);
        }

    }

    /**
     * Calculates the anchor point for a tick label.
     *
     * @param tick  the tick.
     * @param cursor  the cursor.
     * @param dataArea  the data area.
     * @param edge  the edge on which the axis is drawn.
     *
     * @return The x and y coordinates of the anchor point.
     */
00631     protected float[] calculateAnchorPoint(ValueTick tick,
                                           double cursor,
                                           Rectangle2D dataArea,
                                           RectangleEdge edge) {

        RectangleInsets insets = getTickLabelInsets();
        float[] result = new float[2];
        if (edge == RectangleEdge.TOP) {
            result[0] = (float) valueToJava2D(tick.getValue(), dataArea, edge);
            result[1] = (float) (cursor - insets.getBottom() - 2.0);
        }
        else if (edge == RectangleEdge.BOTTOM) {
            result[0] = (float) valueToJava2D(tick.getValue(), dataArea, edge);
            result[1] = (float) (cursor + insets.getTop() + 2.0);
        }
        else if (edge == RectangleEdge.LEFT) {
            result[0] = (float) (cursor - insets.getLeft() - 2.0);
            result[1] = (float) valueToJava2D(tick.getValue(), dataArea, edge);
        }
        else if (edge == RectangleEdge.RIGHT) {
            result[0] = (float) (cursor + insets.getRight() + 2.0);
            result[1] = (float) valueToJava2D(tick.getValue(), dataArea, edge);
        }
        return result;
    }

    /**
     * Draws the axis line, tick marks and tick mark labels.
     *
     * @param g2  the graphics device.
     * @param cursor  the cursor.
     * @param plotArea  the plot area.
     * @param dataArea  the data area.
     * @param edge  the edge that the axis is aligned with.
     *
     * @return The width or height used to draw the axis.
     */
00668     protected AxisState drawTickMarksAndLabels(Graphics2D g2,
                                               double cursor,
                                               Rectangle2D plotArea,
                                               Rectangle2D dataArea,
                                               RectangleEdge edge) {

        AxisState state = new AxisState(cursor);

        if (isAxisLineVisible()) {
            drawAxisLine(g2, cursor, dataArea, edge);
        }

        double ol = getTickMarkOutsideLength();
        double il = getTickMarkInsideLength();

        List ticks = refreshTicks(g2, state, dataArea, edge);
        state.setTicks(ticks);
        g2.setFont(getTickLabelFont());
        Iterator iterator = ticks.iterator();
        while (iterator.hasNext()) {
            ValueTick tick = (ValueTick) iterator.next();
            if (isTickLabelsVisible()) {
                g2.setPaint(getTickLabelPaint());
                float[] anchorPoint = calculateAnchorPoint(tick, cursor,
                        dataArea, edge);
                TextUtilities.drawRotatedString(tick.getText(), g2,
                        anchorPoint[0], anchorPoint[1], tick.getTextAnchor(),
                        tick.getAngle(), tick.getRotationAnchor());
            }

            if (isTickMarksVisible() && tick.getTickType().equals(
                    TickType.MAJOR)) {
                float xx = (float) valueToJava2D(tick.getValue(), dataArea,
                        edge);
                Line2D mark = null;
                g2.setStroke(getTickMarkStroke());
                g2.setPaint(getTickMarkPaint());
                if (edge == RectangleEdge.LEFT) {
                    mark = new Line2D.Double(cursor - ol, xx, cursor + il, xx);
                }
                else if (edge == RectangleEdge.RIGHT) {
                    mark = new Line2D.Double(cursor + ol, xx, cursor - il, xx);
                }
                else if (edge == RectangleEdge.TOP) {
                    mark = new Line2D.Double(xx, cursor - ol, xx, cursor + il);
                }
                else if (edge == RectangleEdge.BOTTOM) {
                    mark = new Line2D.Double(xx, cursor + ol, xx, cursor - il);
                }
                g2.draw(mark);
            }
        }

        // need to work out the space used by the tick labels...
        // so we can update the cursor...
        double used = 0.0;
        if (isTickLabelsVisible()) {
            if (edge == RectangleEdge.LEFT) {
                used += findMaximumTickLabelWidth(ticks, g2, plotArea,
                        isVerticalTickLabels());
                state.cursorLeft(used);
            }
            else if (edge == RectangleEdge.RIGHT) {
                used = findMaximumTickLabelWidth(ticks, g2, plotArea,
                        isVerticalTickLabels());
                state.cursorRight(used);
            }
            else if (edge == RectangleEdge.TOP) {
                used = findMaximumTickLabelHeight(ticks, g2, plotArea,
                        isVerticalTickLabels());
                state.cursorUp(used);
            }
            else if (edge == RectangleEdge.BOTTOM) {
                used = findMaximumTickLabelHeight(ticks, g2, plotArea,
                        isVerticalTickLabels());
                state.cursorDown(used);
            }
        }

        return state;
    }

    /**
     * Returns the space required to draw the axis.
     *
     * @param g2  the graphics device.
     * @param plot  the plot that the axis belongs to.
     * @param plotArea  the area within which the plot should be drawn.
     * @param edge  the axis location.
     * @param space  the space already reserved (for other axes).
     *
     * @return The space required to draw the axis (including pre-reserved
     *         space).
     */
00762     public AxisSpace reserveSpace(Graphics2D g2, Plot plot,
                                  Rectangle2D plotArea,
                                  RectangleEdge edge, AxisSpace space) {

        // create a new space object if one wasn't supplied...
        if (space == null) {
            space = new AxisSpace();
        }

        // if the axis is not visible, no additional space is required...
        if (!isVisible()) {
            return space;
        }

        // if the axis has a fixed dimension, return it...
        double dimension = getFixedDimension();
        if (dimension > 0.0) {
            space.ensureAtLeast(dimension, edge);
        }

        // calculate the max size of the tick labels (if visible)...
        double tickLabelHeight = 0.0;
        double tickLabelWidth = 0.0;
        if (isTickLabelsVisible()) {
            g2.setFont(getTickLabelFont());
            List ticks = refreshTicks(g2, new AxisState(), plotArea, edge);
            if (RectangleEdge.isTopOrBottom(edge)) {
                tickLabelHeight = findMaximumTickLabelHeight(ticks, g2,
                        plotArea, isVerticalTickLabels());
            }
            else if (RectangleEdge.isLeftOrRight(edge)) {
                tickLabelWidth = findMaximumTickLabelWidth(ticks, g2, plotArea,
                        isVerticalTickLabels());
            }
        }

        // get the axis label size and update the space object...
        Rectangle2D labelEnclosure = getLabelEnclosure(g2, edge);
        double labelHeight = 0.0;
        double labelWidth = 0.0;
        if (RectangleEdge.isTopOrBottom(edge)) {
            labelHeight = labelEnclosure.getHeight();
            space.add(labelHeight + tickLabelHeight, edge);
        }
        else if (RectangleEdge.isLeftOrRight(edge)) {
            labelWidth = labelEnclosure.getWidth();
            space.add(labelWidth + tickLabelWidth, edge);
        }

        return space;

    }

    /**
     * A utility method for determining the height of the tallest tick label.
     *
     * @param ticks  the ticks.
     * @param g2  the graphics device.
     * @param drawArea  the area within which the plot and axes should be drawn.
     * @param vertical  a flag that indicates whether or not the tick labels
     *                  are 'vertical'.
     *
     * @return The height of the tallest tick label.
     */
00826     protected double findMaximumTickLabelHeight(List ticks,
                                                Graphics2D g2,
                                                Rectangle2D drawArea,
                                                boolean vertical) {

        RectangleInsets insets = getTickLabelInsets();
        Font font = getTickLabelFont();
        double maxHeight = 0.0;
        if (vertical) {
            FontMetrics fm = g2.getFontMetrics(font);
            Iterator iterator = ticks.iterator();
            while (iterator.hasNext()) {
                Tick tick = (Tick) iterator.next();
                Rectangle2D labelBounds = TextUtilities.getTextBounds(
                        tick.getText(), g2, fm);
                if (labelBounds.getWidth() + insets.getTop()
                        + insets.getBottom() > maxHeight) {
                    maxHeight = labelBounds.getWidth()
                                + insets.getTop() + insets.getBottom();
                }
            }
        }
        else {
            LineMetrics metrics = font.getLineMetrics("ABCxyz",
                    g2.getFontRenderContext());
            maxHeight = metrics.getHeight()
                        + insets.getTop() + insets.getBottom();
        }
        return maxHeight;

    }

    /**
     * A utility method for determining the width of the widest tick label.
     *
     * @param ticks  the ticks.
     * @param g2  the graphics device.
     * @param drawArea  the area within which the plot and axes should be drawn.
     * @param vertical  a flag that indicates whether or not the tick labels
     *                  are 'vertical'.
     *
     * @return The width of the tallest tick label.
     */
00869     protected double findMaximumTickLabelWidth(List ticks,
                                               Graphics2D g2,
                                               Rectangle2D drawArea,
                                               boolean vertical) {

        RectangleInsets insets = getTickLabelInsets();
        Font font = getTickLabelFont();
        double maxWidth = 0.0;
        if (!vertical) {
            FontMetrics fm = g2.getFontMetrics(font);
            Iterator iterator = ticks.iterator();
            while (iterator.hasNext()) {
                Tick tick = (Tick) iterator.next();
                Rectangle2D labelBounds = TextUtilities.getTextBounds(
                        tick.getText(), g2, fm);
                if (labelBounds.getWidth() + insets.getLeft()
                        + insets.getRight() > maxWidth) {
                    maxWidth = labelBounds.getWidth()
                               + insets.getLeft() + insets.getRight();
                }
            }
        }
        else {
            LineMetrics metrics = font.getLineMetrics("ABCxyz",
                    g2.getFontRenderContext());
            maxWidth = metrics.getHeight()
                       + insets.getTop() + insets.getBottom();
        }
        return maxWidth;

    }

    /**
     * Returns a flag that controls the direction of values on the axis.
     * <P>
     * For a regular axis, values increase from left to right (for a horizontal
     * axis) and bottom to top (for a vertical axis).  When the axis is
     * 'inverted', the values increase in the opposite direction.
     *
     * @return The flag.
     *
     * @see #setInverted(boolean)
     */
00912     public boolean isInverted() {
        return this.inverted;
    }

    /**
     * Sets a flag that controls the direction of values on the axis, and
     * notifies registered listeners that the axis has changed.
     *
     * @param flag  the flag.
     *
     * @see #isInverted()
     */
00924     public void setInverted(boolean flag) {

        if (this.inverted != flag) {
            this.inverted = flag;
            notifyListeners(new AxisChangeEvent(this));
        }

    }

    /**
     * Returns the flag that controls whether or not the axis range is
     * automatically adjusted to fit the data values.
     *
     * @return The flag.
     *
     * @see #setAutoRange(boolean)
     */
00941     public boolean isAutoRange() {
        return this.autoRange;
    }

    /**
     * Sets a flag that determines whether or not the axis range is
     * automatically adjusted to fit the data, and notifies registered
     * listeners that the axis has been modified.
     *
     * @param auto  the new value of the flag.
     *
     * @see #isAutoRange()
     */
00954     public void setAutoRange(boolean auto) {
        setAutoRange(auto, true);
    }

    /**
     * Sets the auto range attribute.  If the <code>notify</code> flag is set,
     * an {@link AxisChangeEvent} is sent to registered listeners.
     *
     * @param auto  the flag.
     * @param notify  notify listeners?
     *
     * @see #isAutoRange()
     */
00967     protected void setAutoRange(boolean auto, boolean notify) {
        if (this.autoRange != auto) {
            this.autoRange = auto;
            if (this.autoRange) {
                autoAdjustRange();
            }
            if (notify) {
                notifyListeners(new AxisChangeEvent(this));
            }
        }
    }

    /**
     * Returns the minimum size allowed for the axis range when it is
     * automatically calculated.
     *
     * @return The minimum range.
     *
     * @see #setAutoRangeMinimumSize(double)
     */
00987     public double getAutoRangeMinimumSize() {
        return this.autoRangeMinimumSize;
    }

    /**
     * Sets the auto range minimum size and sends an {@link AxisChangeEvent}
     * to all registered listeners.
     *
     * @param size  the size.
     *
     * @see #getAutoRangeMinimumSize()
     */
00999     public void setAutoRangeMinimumSize(double size) {
        setAutoRangeMinimumSize(size, true);
    }

    /**
     * Sets the minimum size allowed for the axis range when it is
     * automatically calculated.
     * <p>
     * If requested, an {@link AxisChangeEvent} is forwarded to all registered
     * listeners.
     *
     * @param size  the new minimum.
     * @param notify  notify listeners?
     */
01013     public void setAutoRangeMinimumSize(double size, boolean notify) {
        if (size <= 0.0) {
            throw new IllegalArgumentException(
                "NumberAxis.setAutoRangeMinimumSize(double): must be > 0.0.");
        }
        if (this.autoRangeMinimumSize != size) {
            this.autoRangeMinimumSize = size;
            if (this.autoRange) {
                autoAdjustRange();
            }
            if (notify) {
                notifyListeners(new AxisChangeEvent(this));
            }
        }

    }

    /**
     * Returns the default auto range.
     *
     * @return The default auto range (never <code>null</code>).
     *
     * @see #setDefaultAutoRange(Range)
     *
     * @since 1.0.5
     */
01039     public Range getDefaultAutoRange() {
        return this.defaultAutoRange;
    }

    /**
     * Sets the default auto range and sends an {@link AxisChangeEvent} to all
     * registered listeners.
     *
     * @param range  the range (<code>null</code> not permitted).
     *
     * @see #getDefaultAutoRange()
     *
     * @since 1.0.5
     */
01053     public void setDefaultAutoRange(Range range) {
        if (range == null) {
            throw new IllegalArgumentException("Null 'range' argument.");
        }
        this.defaultAutoRange = range;
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Returns the lower margin for the axis, expressed as a percentage of the
     * axis range.  This controls the space added to the lower end of the axis
     * when the axis range is automatically calculated (it is ignored when the
     * axis range is set explicitly). The default value is 0.05 (five percent).
     *
     * @return The lower margin.
     *
     * @see #setLowerMargin(double)
     */
01071     public double getLowerMargin() {
        return this.lowerMargin;
    }

    /**
     * Sets the lower margin for the axis (as a percentage of the axis range)
     * and sends an {@link AxisChangeEvent} to all registered listeners.  This
     * margin is added only when the axis range is auto-calculated - if you set
     * the axis range manually, the margin is ignored.
     *
     * @param margin  the margin percentage (for example, 0.05 is five percent).
     *
     * @see #getLowerMargin()
     * @see #setUpperMargin(double)
     */
01086     public void setLowerMargin(double margin) {
        this.lowerMargin = margin;
        if (isAutoRange()) {
            autoAdjustRange();
        }
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Returns the upper margin for the axis, expressed as a percentage of the
     * axis range.  This controls the space added to the lower end of the axis
     * when the axis range is automatically calculated (it is ignored when the
     * axis range is set explicitly). The default value is 0.05 (five percent).
     *
     * @return The upper margin.
     *
     * @see #setUpperMargin(double)
     */
01104     public double getUpperMargin() {
        return this.upperMargin;
    }

    /**
     * Sets the upper margin for the axis (as a percentage of the axis range)
     * and sends an {@link AxisChangeEvent} to all registered listeners.  This
     * margin is added only when the axis range is auto-calculated - if you set
     * the axis range manually, the margin is ignored.
     *
     * @param margin  the margin percentage (for example, 0.05 is five percent).
     *
     * @see #getLowerMargin()
     * @see #setLowerMargin(double)
     */
01119     public void setUpperMargin(double margin) {
        this.upperMargin = margin;
        if (isAutoRange()) {
            autoAdjustRange();
        }
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Returns the fixed auto range.
     *
     * @return The length.
     *
     * @see #setFixedAutoRange(double)
     */
01134     public double getFixedAutoRange() {
        return this.fixedAutoRange;
    }

    /**
     * Sets the fixed auto range for the axis.
     *
     * @param length  the range length.
     *
     * @see #getFixedAutoRange()
     */
01145     public void setFixedAutoRange(double length) {
        this.fixedAutoRange = length;
        if (isAutoRange()) {
            autoAdjustRange();
        }
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Returns the lower bound of the axis range.
     *
     * @return The lower bound.
     *
     * @see #setLowerBound(double)
     */
01160     public double getLowerBound() {
        return this.range.getLowerBound();
    }

    /**
     * Sets the lower bound for the axis range.  An {@link AxisChangeEvent} is
     * sent to all registered listeners.
     *
     * @param min  the new minimum.
     *
     * @see #getLowerBound()
     */
01172     public void setLowerBound(double min) {
        if (this.range.getUpperBound() > min) {
            setRange(new Range(min, this.range.getUpperBound()));
        }
        else {
            setRange(new Range(min, min + 1.0));
        }
    }

    /**
     * Returns the upper bound for the axis range.
     *
     * @return The upper bound.
     *
     * @see #setUpperBound(double)
     */
01188     public double getUpperBound() {
        return this.range.getUpperBound();
    }

    /**
     * Sets the upper bound for the axis range, and sends an
     * {@link AxisChangeEvent} to all registered listeners.
     *
     * @param max  the new maximum.
     *
     * @see #getUpperBound()
     */
01200     public void setUpperBound(double max) {
        if (this.range.getLowerBound() < max) {
            setRange(new Range(this.range.getLowerBound(), max));
        }
        else {
            setRange(max - 1.0, max);
        }
    }

    /**
     * Returns the range for the axis.
     *
     * @return The axis range (never <code>null</code>).
     *
     * @see #setRange(Range)
     */
01216     public Range getRange() {
        return this.range;
    }

    /**
     * Sets the range attribute and sends an {@link AxisChangeEvent} to all
     * registered listeners.  As a side-effect, the auto-range flag is set to
     * <code>false</code>.
     *
     * @param range  the range (<code>null</code> not permitted).
     *
     * @see #getRange()
     */
01229     public void setRange(Range range) {
        // defer argument checking
        setRange(range, true, true);
    }

    /**
     * Sets the range for the axis, if requested, sends an
     * {@link AxisChangeEvent} to all registered listeners.  As a side-effect,
     * the auto-range flag is set to <code>false</code> (optional).
     *
     * @param range  the range (<code>null</code> not permitted).
     * @param turnOffAutoRange  a flag that controls whether or not the auto
     *                          range is turned off.
     * @param notify  a flag that controls whether or not listeners are
     *                notified.
     *
     * @see #getRange()
     */
01247     public void setRange(Range range, boolean turnOffAutoRange,
                         boolean notify) {
        if (range == null) {
            throw new IllegalArgumentException("Null 'range' argument.");
        }
        if (turnOffAutoRange) {
            this.autoRange = false;
        }
        this.range = range;
        if (notify) {
            notifyListeners(new AxisChangeEvent(this));
        }
    }

    /**
     * Sets the axis range and sends an {@link AxisChangeEvent} to all
     * registered listeners.  As a side-effect, the auto-range flag is set to
     * <code>false</code>.
     *
     * @param lower  the lower axis limit.
     * @param upper  the upper axis limit.
     *
     * @see #getRange()
     * @see #setRange(Range)
     */
01272     public void setRange(double lower, double upper) {
        setRange(new Range(lower, upper));
    }

    /**
     * Sets the range for the axis (after first adding the current margins to
     * the specified range) and sends an {@link AxisChangeEvent} to all
     * registered listeners.
     *
     * @param range  the range (<code>null</code> not permitted).
     */
01283     public void setRangeWithMargins(Range range) {
        setRangeWithMargins(range, true, true);
    }

    /**
     * Sets the range for the axis after first adding the current margins to
     * the range and, if requested, sends an {@link AxisChangeEvent} to all
     * registered listeners.  As a side-effect, the auto-range flag is set to
     * <code>false</code> (optional).
     *
     * @param range  the range (excluding margins, <code>null</code> not
     *               permitted).
     * @param turnOffAutoRange  a flag that controls whether or not the auto
     *                          range is turned off.
     * @param notify  a flag that controls whether or not listeners are
     *                notified.
     */
01300     public void setRangeWithMargins(Range range, boolean turnOffAutoRange,
                                    boolean notify) {
        if (range == null) {
            throw new IllegalArgumentException("Null 'range' argument.");
        }
        setRange(Range.expand(range, getLowerMargin(), getUpperMargin()),
                turnOffAutoRange, notify);
    }

    /**
     * Sets the axis range (after first adding the current margins to the
     * range) and sends an {@link AxisChangeEvent} to all registered listeners.
     * As a side-effect, the auto-range flag is set to <code>false</code>.
     *
     * @param lower  the lower axis limit.
     * @param upper  the upper axis limit.
     */
01317     public void setRangeWithMargins(double lower, double upper) {
        setRangeWithMargins(new Range(lower, upper));
    }

    /**
     * Sets the axis range, where the new range is 'size' in length, and
     * centered on 'value'.
     *
     * @param value  the central value.
     * @param length  the range length.
     */
01328     public void setRangeAboutValue(double value, double length) {
        setRange(new Range(value - length / 2, value + length / 2));
    }

    /**
     * Returns a flag indicating whether or not the tick unit is automatically
     * selected from a range of standard tick units.
     *
     * @return A flag indicating whether or not the tick unit is automatically
     *         selected.
     *
     * @see #setAutoTickUnitSelection(boolean)
     */
01341     public boolean isAutoTickUnitSelection() {
        return this.autoTickUnitSelection;
    }

    /**
     * Sets a flag indicating whether or not the tick unit is automatically
     * selected from a range of standard tick units.  If the flag is changed,
     * registered listeners are notified that the chart has changed.
     *
     * @param flag  the new value of the flag.
     *
     * @see #isAutoTickUnitSelection()
     */
01354     public void setAutoTickUnitSelection(boolean flag) {
        setAutoTickUnitSelection(flag, true);
    }

    /**
     * Sets a flag indicating whether or not the tick unit is automatically
     * selected from a range of standard tick units.
     *
     * @param flag  the new value of the flag.
     * @param notify  notify listeners?
     *
     * @see #isAutoTickUnitSelection()
     */
01367     public void setAutoTickUnitSelection(boolean flag, boolean notify) {

        if (this.autoTickUnitSelection != flag) {
            this.autoTickUnitSelection = flag;
            if (notify) {
                notifyListeners(new AxisChangeEvent(this));
            }
        }
    }

    /**
     * Returns the source for obtaining standard tick units for the axis.
     *
     * @return The source (possibly <code>null</code>).
     *
     * @see #setStandardTickUnits(TickUnitSource)
     */
01384     public TickUnitSource getStandardTickUnits() {
        return this.standardTickUnits;
    }

    /**
     * Sets the source for obtaining standard tick units for the axis and sends
     * an {@link AxisChangeEvent} to all registered listeners.  The axis will
     * try to select the smallest tick unit from the source that does not cause
     * the tick labels to overlap (see also the
     * {@link #setAutoTickUnitSelection(boolean)} method.
     *
     * @param source  the source for standard tick units (<code>null</code>
     *                permitted).
     *
     * @see #getStandardTickUnits()
     */
01400     public void setStandardTickUnits(TickUnitSource source) {
        this.standardTickUnits = source;
        notifyListeners(new AxisChangeEvent(this));
    }

    /**
     * Converts a data value to a coordinate in Java2D space, assuming that the
     * axis runs along one edge of the specified dataArea.
     * <p>
     * Note that it is possible for the coordinate to fall outside the area.
     *
     * @param value  the data value.
     * @param area  the area for plotting the data.
     * @param edge  the edge along which the axis lies.
     *
     * @return The Java2D coordinate.
     *
     * @see #java2DToValue(double, Rectangle2D, RectangleEdge)
     */
    public abstract double valueToJava2D(double value, Rectangle2D area,
                                         RectangleEdge edge);

    /**
     * Converts a length in data coordinates into the corresponding length in
     * Java2D coordinates.
     *
     * @param length  the length.
     * @param area  the plot area.
     * @param edge  the edge along which the axis lies.
     *
     * @return The length in Java2D coordinates.
     */
01432     public double lengthToJava2D(double length, Rectangle2D area,
                                 RectangleEdge edge) {
        double zero = valueToJava2D(0.0, area, edge);
        double l = valueToJava2D(length, area, edge);
        return Math.abs(l - zero);
    }

    /**
     * Converts a coordinate in Java2D space to the corresponding data value,
     * assuming that the axis runs along one edge of the specified dataArea.
     *
     * @param java2DValue  the coordinate in Java2D space.
     * @param area  the area in which the data is plotted.
     * @param edge  the edge along which the axis lies.
     *
     * @return The data value.
     *
     * @see #valueToJava2D(double, Rectangle2D, RectangleEdge)
     */
    public abstract double java2DToValue(double java2DValue,
                                         Rectangle2D area,
                                         RectangleEdge edge);

    /**
     * Automatically sets the axis range to fit the range of values in the
     * dataset.  Sometimes this can depend on the renderer used as well (for
     * example, the renderer may "stack" values, requiring an axis range
     * greater than otherwise necessary).
     */
    protected abstract void autoAdjustRange();

    /**
     * Centers the axis range about the specified value and sends an
     * {@link AxisChangeEvent} to all registered listeners.
     *
     * @param value  the center value.
     */
01469     public void centerRange(double value) {

        double central = this.range.getCentralValue();
        Range adjusted = new Range(this.range.getLowerBound() + value - central,
                this.range.getUpperBound() + value - central);
        setRange(adjusted);

    }

    /**
     * Increases or decreases the axis range by the specified percentage about
     * the central value and sends an {@link AxisChangeEvent} to all registered
     * listeners.
     * <P>
     * To double the length of the axis range, use 200% (2.0).
     * To halve the length of the axis range, use 50% (0.5).
     *
     * @param percent  the resize factor.
     *
     * @see #resizeRange(double, double)
     */
01490     public void resizeRange(double percent) {
        resizeRange(percent, this.range.getCentralValue());
    }

    /**
     * Increases or decreases the axis range by the specified percentage about
     * the specified anchor value and sends an {@link AxisChangeEvent} to all
     * registered listeners.
     * <P>
     * To double the length of the axis range, use 200% (2.0).
     * To halve the length of the axis range, use 50% (0.5).
     *
     * @param percent  the resize factor.
     * @param anchorValue  the new central value after the resize.
     *
     * @see #resizeRange(double)
     */
01507     public void resizeRange(double percent, double anchorValue) {
        if (percent > 0.0) {
            double halfLength = this.range.getLength() * percent / 2;
            Range adjusted = new Range(anchorValue - halfLength,
                    anchorValue + halfLength);
            setRange(adjusted);
        }
        else {
            setAutoRange(true);
        }
    }

    /**
     * Zooms in on the current range.
     *
     * @param lowerPercent  the new lower bound.
     * @param upperPercent  the new upper bound.
     */
01525     public void zoomRange(double lowerPercent, double upperPercent) {
        double start = this.range.getLowerBound();
        double length = this.range.getLength();
        Range adjusted = null;
        if (isInverted()) {
            adjusted = new Range(start + (length * (1 - upperPercent)),
                                 start + (length * (1 - lowerPercent)));
        }
        else {
            adjusted = new Range(start + length * lowerPercent,
                    start + length * upperPercent);
        }
        setRange(adjusted);
    }

    /**
     * Returns the auto tick index.
     *
     * @return The auto tick index.
     *
     * @see #setAutoTickIndex(int)
     */
01547     protected int getAutoTickIndex() {
        return this.autoTickIndex;
    }

    /**
     * Sets the auto tick index.
     *
     * @param index  the new value.
     *
     * @see #getAutoTickIndex()
     */
01558     protected void setAutoTickIndex(int index) {
        this.autoTickIndex = index;
    }

    /**
     * Tests the axis for equality with an arbitrary object.
     *
     * @param obj  the object (<code>null</code> permitted).
     *
     * @return <code>true</code> or <code>false</code>.
     */
01569     public boolean equals(Object obj) {

        if (obj == this) {
            return true;
        }
        if (!(obj instanceof ValueAxis)) {
            return false;
        }

        ValueAxis that = (ValueAxis) obj;

        if (this.positiveArrowVisible != that.positiveArrowVisible) {
            return false;
        }
        if (this.negativeArrowVisible != that.negativeArrowVisible) {
            return false;
        }
        if (this.inverted != that.inverted) {
            return false;
        }
        if (!ObjectUtilities.equal(this.range, that.range)) {
            return false;
        }
        if (this.autoRange != that.autoRange) {
            return false;
        }
        if (this.autoRangeMinimumSize != that.autoRangeMinimumSize) {
            return false;
        }
        if (!this.defaultAutoRange.equals(that.defaultAutoRange)) {
            return false;
        }
        if (this.upperMargin != that.upperMargin) {
            return false;
        }
        if (this.lowerMargin != that.lowerMargin) {
            return false;
        }
        if (this.fixedAutoRange != that.fixedAutoRange) {
            return false;
        }
        if (this.autoTickUnitSelection != that.autoTickUnitSelection) {
            return false;
        }
        if (!ObjectUtilities.equal(this.standardTickUnits,
                that.standardTickUnits)) {
            return false;
        }
        if (this.verticalTickLabels != that.verticalTickLabels) {
            return false;
        }

        return super.equals(obj);

    }

    /**
     * Returns a clone of the object.
     *
     * @return A clone.
     *
     * @throws CloneNotSupportedException if some component of the axis does
     *         not support cloning.
     */
01633     public Object clone() throws CloneNotSupportedException {
        ValueAxis clone = (ValueAxis) super.clone();
        return clone;
    }

    /**
     * Provides serialization support.
     *
     * @param stream  the output stream.
     *
     * @throws IOException  if there is an I/O error.
     */
01645     private void writeObject(ObjectOutputStream stream) throws IOException {
        stream.defaultWriteObject();
        SerialUtilities.writeShape(this.upArrow, stream);
        SerialUtilities.writeShape(this.downArrow, stream);
        SerialUtilities.writeShape(this.leftArrow, stream);
        SerialUtilities.writeShape(this.rightArrow, stream);
    }

    /**
     * Provides serialization support.
     *
     * @param stream  the input stream.
     *
     * @throws IOException  if there is an I/O error.
     * @throws ClassNotFoundException  if there is a classpath problem.
     */
01661     private void readObject(ObjectInputStream stream)
            throws IOException, ClassNotFoundException {

        stream.defaultReadObject();
        this.upArrow = SerialUtilities.readShape(stream);
        this.downArrow = SerialUtilities.readShape(stream);
        this.leftArrow = SerialUtilities.readShape(stream);
        this.rightArrow = SerialUtilities.readShape(stream);

    }

}

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