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JFreeChart is a class library, written in Java, for generating charts.
Utilising the Java2D APIs, it currently supports bar charts, pie charts,
line charts, XY-plots and time series plots.
/* ===========================================================
* JFreeChart : a free chart library for the Java(tm) platform
* ===========================================================
*
* (C) Copyright 2000-2014, 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 published 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.
*
* [Oracle and Java are registered trademarks of Oracle and/or its affiliates.
* Other names may be trademarks of their respective owners.]
*
* ---------------------
* CyclicNumberAxis.java
* ---------------------
* (C) Copyright 2003-2014, by Nicolas Brodu and Contributors.
*
* Original Author: Nicolas Brodu;
* Contributor(s): David Gilbert (for Object Refinery Limited);
*
* Changes
* -------
* 19-Nov-2003 : Initial import to JFreeChart from the JSynoptic project (NB);
* 16-Mar-2004 : Added plotState to draw() method (DG);
* 07-Apr-2004 : Modifed text bounds calculation (DG);
* 21-Apr-2005 : Replaced Insets with RectangleInsets, removed redundant
* argument in selectAutoTickUnit() (DG);
* 22-Apr-2005 : Renamed refreshHorizontalTicks() --> refreshTicksHorizontal
* (for consistency with other classes) and removed unused
* parameters (DG);
* 08-Jun-2005 : Fixed equals() method to handle GradientPaint (DG);
* 19-May-2009 : Fixed FindBugs warnings, patch by Michal Wozniak (DG);
* 02-Jul-2013 : Use ParamChecks (DG);
*
*/
package org.jfree.chart.axis;
import java.awt.BasicStroke;
import java.awt.Color;
import java.awt.Font;
import java.awt.FontMetrics;
import java.awt.Graphics2D;
import java.awt.Paint;
import java.awt.Stroke;
import java.awt.geom.Line2D;
import java.awt.geom.Rectangle2D;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.text.NumberFormat;
import java.util.List;
import org.jfree.chart.plot.Plot;
import org.jfree.chart.plot.PlotRenderingInfo;
import org.jfree.chart.util.ParamChecks;
import org.jfree.data.Range;
import org.jfree.io.SerialUtilities;
import org.jfree.text.TextUtilities;
import org.jfree.ui.RectangleEdge;
import org.jfree.ui.TextAnchor;
import org.jfree.util.ObjectUtilities;
import org.jfree.util.PaintUtilities;
/**
This class extends NumberAxis and handles cycling.
Traditional representation of data in the range x0..x1
|-------------------------|
x0 x1
Here, the range bounds are at the axis extremities.
With cyclic axis, however, the time is split in
"cycles", or "time frames", or the same duration : the period.
A cycle axis cannot by definition handle a larger interval
than the period : x1 - x0 >= period
. Thus, at most a full
period can be represented with such an axis.
The cycle bound is the number between x0 and x1 which marks
the beginning of new time frame:
|---------------------|----------------------------|
x0 cb x1
<---previous cycle---><-------current cycle-------->
It is actually a multiple of the period, plus optionally
a start offset: cb = n * period + offset
Thus, by definition, two consecutive cycle bounds
period apart, which is precisely why it is called a
period.
The visual representation of a cyclic axis is like that:
|----------------------------|---------------------|
cb x1|x0 cb
<-------current cycle--------><---previous cycle--->
The cycle bound is at the axis ends, then current
cycle is shown, then the last cycle. When using
dynamic data, the visual effect is the current cycle
erases the last cycle as x grows. Then, the next cycle
bound is reached, and the process starts over, erasing
the previous cycle.
A Cyclic item renderer is provided to do exactly this.
*/
public class CyclicNumberAxis extends NumberAxis {
/** For serialization. */
static final long serialVersionUID = -7514160997164582554L;
/** The default axis line stroke. */
public static Stroke DEFAULT_ADVANCE_LINE_STROKE = new BasicStroke(1.0f);
/** The default axis line paint. */
public static final Paint DEFAULT_ADVANCE_LINE_PAINT = Color.gray;
/** The offset. */
protected double offset;
/** The period.*/
protected double period;
/** ??. */
protected boolean boundMappedToLastCycle;
/** A flag that controls whether or not the advance line is visible. */
protected boolean advanceLineVisible;
/** The advance line stroke. */
protected transient Stroke advanceLineStroke = DEFAULT_ADVANCE_LINE_STROKE;
/** The advance line paint. */
protected transient Paint advanceLinePaint;
private transient boolean internalMarkerWhenTicksOverlap;
private transient Tick internalMarkerCycleBoundTick;
/**
* Creates a CycleNumberAxis with the given period.
*
* @param period the period.
*/
public CyclicNumberAxis(double period) {
this(period, 0.0);
}
/**
* Creates a CycleNumberAxis with the given period and offset.
*
* @param period the period.
* @param offset the offset.
*/
public CyclicNumberAxis(double period, double offset) {
this(period, offset, null);
}
/**
* Creates a named CycleNumberAxis with the given period.
*
* @param period the period.
* @param label the label.
*/
public CyclicNumberAxis(double period, String label) {
this(0, period, label);
}
/**
* Creates a named CycleNumberAxis with the given period and offset.
*
* @param period the period.
* @param offset the offset.
* @param label the label.
*/
public CyclicNumberAxis(double period, double offset, String label) {
super(label);
this.period = period;
this.offset = offset;
setFixedAutoRange(period);
this.advanceLineVisible = true;
this.advanceLinePaint = DEFAULT_ADVANCE_LINE_PAINT;
}
/**
* The advance line is the line drawn at the limit of the current cycle,
* when erasing the previous cycle.
*
* @return A boolean.
*/
public boolean isAdvanceLineVisible() {
return this.advanceLineVisible;
}
/**
* The advance line is the line drawn at the limit of the current cycle,
* when erasing the previous cycle.
*
* @param visible the flag.
*/
public void setAdvanceLineVisible(boolean visible) {
this.advanceLineVisible = visible;
}
/**
* The advance line is the line drawn at the limit of the current cycle,
* when erasing the previous cycle.
*
* @return The paint (never null
).
*/
public Paint getAdvanceLinePaint() {
return this.advanceLinePaint;
}
/**
* The advance line is the line drawn at the limit of the current cycle,
* when erasing the previous cycle.
*
* @param paint the paint (null
not permitted).
*/
public void setAdvanceLinePaint(Paint paint) {
ParamChecks.nullNotPermitted(paint, "paint");
this.advanceLinePaint = paint;
}
/**
* The advance line is the line drawn at the limit of the current cycle,
* when erasing the previous cycle.
*
* @return The stroke (never null
).
*/
public Stroke getAdvanceLineStroke() {
return this.advanceLineStroke;
}
/**
* The advance line is the line drawn at the limit of the current cycle,
* when erasing the previous cycle.
*
* @param stroke the stroke (null
not permitted).
*/
public void setAdvanceLineStroke(Stroke stroke) {
ParamChecks.nullNotPermitted(stroke, "stroke");
this.advanceLineStroke = stroke;
}
/**
* The cycle bound can be associated either with the current or with the
* last cycle. It's up to the user's choice to decide which, as this is
* just a convention. By default, the cycle bound is mapped to the current
* cycle.
*
* Note that this has no effect on visual appearance, as the cycle bound is
* mapped successively for both axis ends. Use this function for correct
* results in translateValueToJava2D.
*
* @return true
if the cycle bound is mapped to the last
* cycle, false
if it is bound to the current cycle
* (default)
*/
public boolean isBoundMappedToLastCycle() {
return this.boundMappedToLastCycle;
}
/**
* The cycle bound can be associated either with the current or with the
* last cycle. It's up to the user's choice to decide which, as this is
* just a convention. By default, the cycle bound is mapped to the current
* cycle.
*
* Note that this has no effect on visual appearance, as the cycle bound is
* mapped successively for both axis ends. Use this function for correct
* results in valueToJava2D.
*
* @param boundMappedToLastCycle Set it to true to map the cycle bound to
* the last cycle.
*/
public void setBoundMappedToLastCycle(boolean boundMappedToLastCycle) {
this.boundMappedToLastCycle = boundMappedToLastCycle;
}
/**
* Selects a tick unit when the axis is displayed horizontally.
*
* @param g2 the graphics device.
* @param drawArea the drawing area.
* @param dataArea the data area.
* @param edge the side of the rectangle on which the axis is displayed.
*/
protected void selectHorizontalAutoTickUnit(Graphics2D g2,
Rectangle2D drawArea, Rectangle2D dataArea, RectangleEdge edge) {
double tickLabelWidth
= estimateMaximumTickLabelWidth(g2, getTickUnit());
// Compute number of labels
double n = getRange().getLength()
* tickLabelWidth / dataArea.getWidth();
setTickUnit(
(NumberTickUnit) getStandardTickUnits().getCeilingTickUnit(n),
false, false);
}
/**
* Selects a tick unit when the axis is displayed vertically.
*
* @param g2 the graphics device.
* @param drawArea the drawing area.
* @param dataArea the data area.
* @param edge the side of the rectangle on which the axis is displayed.
*/
protected void selectVerticalAutoTickUnit(Graphics2D g2,
Rectangle2D drawArea, Rectangle2D dataArea, RectangleEdge edge) {
double tickLabelWidth
= estimateMaximumTickLabelWidth(g2, getTickUnit());
// Compute number of labels
double n = getRange().getLength()
* tickLabelWidth / dataArea.getHeight();
setTickUnit(
(NumberTickUnit) getStandardTickUnits().getCeilingTickUnit(n),
false, false);
}
/**
* A special Number tick that also hold information about the cycle bound
* mapping for this tick. This is especially useful for having a tick at
* each axis end with the cycle bound value. See also
* isBoundMappedToLastCycle()
*/
protected static class CycleBoundTick extends NumberTick {
/** Map to last cycle. */
public boolean mapToLastCycle;
/**
* Creates a new tick.
*
* @param mapToLastCycle map to last cycle?
* @param number the number.
* @param label the label.
* @param textAnchor the text anchor.
* @param rotationAnchor the rotation anchor.
* @param angle the rotation angle.
*/
public CycleBoundTick(boolean mapToLastCycle, Number number,
String label, TextAnchor textAnchor,
TextAnchor rotationAnchor, double angle) {
super(number, label, textAnchor, rotationAnchor, angle);
this.mapToLastCycle = mapToLastCycle;
}
}
/**
* Calculates the anchor point for a tick.
*
* @param tick the tick.
* @param cursor the cursor.
* @param dataArea the data area.
* @param edge the side on which the axis is displayed.
*
* @return The anchor point.
*/
@Override
protected float[] calculateAnchorPoint(ValueTick tick, double cursor,
Rectangle2D dataArea, RectangleEdge edge) {
if (tick instanceof CycleBoundTick) {
boolean mapsav = this.boundMappedToLastCycle;
this.boundMappedToLastCycle
= ((CycleBoundTick) tick).mapToLastCycle;
float[] ret = super.calculateAnchorPoint(
tick, cursor, dataArea, edge
);
this.boundMappedToLastCycle = mapsav;
return ret;
}
return super.calculateAnchorPoint(tick, cursor, dataArea, edge);
}
/**
* Builds a list of ticks for the axis. This method is called when the
* axis is at the top or bottom of the chart (so the axis is "horizontal").
*
* @param g2 the graphics device.
* @param dataArea the data area.
* @param edge the edge.
*
* @return A list of ticks.
*/
@Override
protected List refreshTicksHorizontal(Graphics2D g2, Rectangle2D dataArea,
RectangleEdge edge) {
List result = new java.util.ArrayList();
Font tickLabelFont = getTickLabelFont();
g2.setFont(tickLabelFont);
if (isAutoTickUnitSelection()) {
selectAutoTickUnit(g2, dataArea, edge);
}
double unit = getTickUnit().getSize();
double cycleBound = getCycleBound();
double currentTickValue = Math.ceil(cycleBound / unit) * unit;
double upperValue = getRange().getUpperBound();
boolean cycled = false;
boolean boundMapping = this.boundMappedToLastCycle;
this.boundMappedToLastCycle = false;
CycleBoundTick lastTick = null;
float lastX = 0.0f;
if (upperValue == cycleBound) {
currentTickValue = calculateLowestVisibleTickValue();
cycled = true;
this.boundMappedToLastCycle = true;
}
while (currentTickValue <= upperValue) {
// Cycle when necessary
boolean cyclenow = false;
if ((currentTickValue + unit > upperValue) && !cycled) {
cyclenow = true;
}
double xx = valueToJava2D(currentTickValue, dataArea, edge);
String tickLabel;
NumberFormat formatter = getNumberFormatOverride();
if (formatter != null) {
tickLabel = formatter.format(currentTickValue);
}
else {
tickLabel = getTickUnit().valueToString(currentTickValue);
}
float x = (float) xx;
TextAnchor anchor;
TextAnchor rotationAnchor;
double angle = 0.0;
if (isVerticalTickLabels()) {
if (edge == RectangleEdge.TOP) {
angle = Math.PI / 2.0;
}
else {
angle = -Math.PI / 2.0;
}
anchor = TextAnchor.CENTER_RIGHT;
// If tick overlap when cycling, update last tick too
if ((lastTick != null) && (lastX == x)
&& (currentTickValue != cycleBound)) {
anchor = isInverted()
? TextAnchor.TOP_RIGHT : TextAnchor.BOTTOM_RIGHT;
result.remove(result.size() - 1);
result.add(new CycleBoundTick(
this.boundMappedToLastCycle, lastTick.getNumber(),
lastTick.getText(), anchor, anchor,
lastTick.getAngle())
);
this.internalMarkerWhenTicksOverlap = true;
anchor = isInverted()
? TextAnchor.BOTTOM_RIGHT : TextAnchor.TOP_RIGHT;
}
rotationAnchor = anchor;
}
else {
if (edge == RectangleEdge.TOP) {
anchor = TextAnchor.BOTTOM_CENTER;
if ((lastTick != null) && (lastX == x)
&& (currentTickValue != cycleBound)) {
anchor = isInverted()
? TextAnchor.BOTTOM_LEFT : TextAnchor.BOTTOM_RIGHT;
result.remove(result.size() - 1);
result.add(new CycleBoundTick(
this.boundMappedToLastCycle, lastTick.getNumber(),
lastTick.getText(), anchor, anchor,
lastTick.getAngle())
);
this.internalMarkerWhenTicksOverlap = true;
anchor = isInverted()
? TextAnchor.BOTTOM_RIGHT : TextAnchor.BOTTOM_LEFT;
}
rotationAnchor = anchor;
}
else {
anchor = TextAnchor.TOP_CENTER;
if ((lastTick != null) && (lastX == x)
&& (currentTickValue != cycleBound)) {
anchor = isInverted()
? TextAnchor.TOP_LEFT : TextAnchor.TOP_RIGHT;
result.remove(result.size() - 1);
result.add(new CycleBoundTick(
this.boundMappedToLastCycle, lastTick.getNumber(),
lastTick.getText(), anchor, anchor,
lastTick.getAngle())
);
this.internalMarkerWhenTicksOverlap = true;
anchor = isInverted()
? TextAnchor.TOP_RIGHT : TextAnchor.TOP_LEFT;
}
rotationAnchor = anchor;
}
}
CycleBoundTick tick = new CycleBoundTick(
this.boundMappedToLastCycle,
new Double(currentTickValue), tickLabel, anchor,
rotationAnchor, angle
);
if (currentTickValue == cycleBound) {
this.internalMarkerCycleBoundTick = tick;
}
result.add(tick);
lastTick = tick;
lastX = x;
currentTickValue += unit;
if (cyclenow) {
currentTickValue = calculateLowestVisibleTickValue();
upperValue = cycleBound;
cycled = true;
this.boundMappedToLastCycle = true;
}
}
this.boundMappedToLastCycle = boundMapping;
return result;
}
/**
* Builds a list of ticks for the axis. This method is called when the
* axis is at the left or right of the chart (so the axis is "vertical").
*
* @param g2 the graphics device.
* @param dataArea the data area.
* @param edge the edge.
*
* @return A list of ticks.
*/
protected List refreshVerticalTicks(Graphics2D g2, Rectangle2D dataArea,
RectangleEdge edge) {
List result = new java.util.ArrayList();
result.clear();
Font tickLabelFont = getTickLabelFont();
g2.setFont(tickLabelFont);
if (isAutoTickUnitSelection()) {
selectAutoTickUnit(g2, dataArea, edge);
}
double unit = getTickUnit().getSize();
double cycleBound = getCycleBound();
double currentTickValue = Math.ceil(cycleBound / unit) * unit;
double upperValue = getRange().getUpperBound();
boolean cycled = false;
boolean boundMapping = this.boundMappedToLastCycle;
this.boundMappedToLastCycle = true;
NumberTick lastTick = null;
float lastY = 0.0f;
if (upperValue == cycleBound) {
currentTickValue = calculateLowestVisibleTickValue();
cycled = true;
this.boundMappedToLastCycle = true;
}
while (currentTickValue <= upperValue) {
// Cycle when necessary
boolean cyclenow = false;
if ((currentTickValue + unit > upperValue) && !cycled) {
cyclenow = true;
}
double yy = valueToJava2D(currentTickValue, dataArea, edge);
String tickLabel;
NumberFormat formatter = getNumberFormatOverride();
if (formatter != null) {
tickLabel = formatter.format(currentTickValue);
}
else {
tickLabel = getTickUnit().valueToString(currentTickValue);
}
float y = (float) yy;
TextAnchor anchor;
TextAnchor rotationAnchor;
double angle = 0.0;
if (isVerticalTickLabels()) {
if (edge == RectangleEdge.LEFT) {
anchor = TextAnchor.BOTTOM_CENTER;
if ((lastTick != null) && (lastY == y)
&& (currentTickValue != cycleBound)) {
anchor = isInverted()
? TextAnchor.BOTTOM_LEFT : TextAnchor.BOTTOM_RIGHT;
result.remove(result.size() - 1);
result.add(new CycleBoundTick(
this.boundMappedToLastCycle, lastTick.getNumber(),
lastTick.getText(), anchor, anchor,
lastTick.getAngle())
);
this.internalMarkerWhenTicksOverlap = true;
anchor = isInverted()
? TextAnchor.BOTTOM_RIGHT : TextAnchor.BOTTOM_LEFT;
}
rotationAnchor = anchor;
angle = -Math.PI / 2.0;
}
else {
anchor = TextAnchor.BOTTOM_CENTER;
if ((lastTick != null) && (lastY == y)
&& (currentTickValue != cycleBound)) {
anchor = isInverted()
? TextAnchor.BOTTOM_RIGHT : TextAnchor.BOTTOM_LEFT;
result.remove(result.size() - 1);
result.add(new CycleBoundTick(
this.boundMappedToLastCycle, lastTick.getNumber(),
lastTick.getText(), anchor, anchor,
lastTick.getAngle())
);
this.internalMarkerWhenTicksOverlap = true;
anchor = isInverted()
? TextAnchor.BOTTOM_LEFT : TextAnchor.BOTTOM_RIGHT;
}
rotationAnchor = anchor;
angle = Math.PI / 2.0;
}
}
else {
if (edge == RectangleEdge.LEFT) {
anchor = TextAnchor.CENTER_RIGHT;
if ((lastTick != null) && (lastY == y)
&& (currentTickValue != cycleBound)) {
anchor = isInverted()
? TextAnchor.BOTTOM_RIGHT : TextAnchor.TOP_RIGHT;
result.remove(result.size() - 1);
result.add(new CycleBoundTick(
this.boundMappedToLastCycle, lastTick.getNumber(),
lastTick.getText(), anchor, anchor,
lastTick.getAngle())
);
this.internalMarkerWhenTicksOverlap = true;
anchor = isInverted()
? TextAnchor.TOP_RIGHT : TextAnchor.BOTTOM_RIGHT;
}
rotationAnchor = anchor;
}
else {
anchor = TextAnchor.CENTER_LEFT;
if ((lastTick != null) && (lastY == y)
&& (currentTickValue != cycleBound)) {
anchor = isInverted()
? TextAnchor.BOTTOM_LEFT : TextAnchor.TOP_LEFT;
result.remove(result.size() - 1);
result.add(new CycleBoundTick(
this.boundMappedToLastCycle, lastTick.getNumber(),
lastTick.getText(), anchor, anchor,
lastTick.getAngle())
);
this.internalMarkerWhenTicksOverlap = true;
anchor = isInverted()
? TextAnchor.TOP_LEFT : TextAnchor.BOTTOM_LEFT;
}
rotationAnchor = anchor;
}
}
CycleBoundTick tick = new CycleBoundTick(
this.boundMappedToLastCycle, new Double(currentTickValue),
tickLabel, anchor, rotationAnchor, angle);
if (currentTickValue == cycleBound) {
this.internalMarkerCycleBoundTick = tick;
}
result.add(tick);
lastTick = tick;
lastY = y;
if (currentTickValue == cycleBound) {
this.internalMarkerCycleBoundTick = tick;
}
currentTickValue += unit;
if (cyclenow) {
currentTickValue = calculateLowestVisibleTickValue();
upperValue = cycleBound;
cycled = true;
this.boundMappedToLastCycle = false;
}
}
this.boundMappedToLastCycle = boundMapping;
return result;
}
/**
* Converts a coordinate from Java 2D space to data space.
*
* @param java2DValue the coordinate in Java2D space.
* @param dataArea the data area.
* @param edge the edge.
*
* @return The data value.
*/
@Override
public double java2DToValue(double java2DValue, Rectangle2D dataArea,
RectangleEdge edge) {
Range range = getRange();
double vmax = range.getUpperBound();
double vp = getCycleBound();
double jmin = 0.0;
double jmax = 0.0;
if (RectangleEdge.isTopOrBottom(edge)) {
jmin = dataArea.getMinX();
jmax = dataArea.getMaxX();
}
else if (RectangleEdge.isLeftOrRight(edge)) {
jmin = dataArea.getMaxY();
jmax = dataArea.getMinY();
}
if (isInverted()) {
double jbreak = jmax - (vmax - vp) * (jmax - jmin) / this.period;
if (java2DValue >= jbreak) {
return vp + (jmax - java2DValue) * this.period / (jmax - jmin);
}
else {
return vp - (java2DValue - jmin) * this.period / (jmax - jmin);
}
}
else {
double jbreak = (vmax - vp) * (jmax - jmin) / this.period + jmin;
if (java2DValue <= jbreak) {
return vp + (java2DValue - jmin) * this.period / (jmax - jmin);
}
else {
return vp - (jmax - java2DValue) * this.period / (jmax - jmin);
}
}
}
/**
* Translates a value from data space to Java 2D space.
*
* @param value the data value.
* @param dataArea the data area.
* @param edge the edge.
*
* @return The Java 2D value.
*/
@Override
public double valueToJava2D(double value, Rectangle2D dataArea,
RectangleEdge edge) {
Range range = getRange();
double vmin = range.getLowerBound();
double vmax = range.getUpperBound();
double vp = getCycleBound();
if ((value < vmin) || (value > vmax)) {
return Double.NaN;
}
double jmin = 0.0;
double jmax = 0.0;
if (RectangleEdge.isTopOrBottom(edge)) {
jmin = dataArea.getMinX();
jmax = dataArea.getMaxX();
}
else if (RectangleEdge.isLeftOrRight(edge)) {
jmax = dataArea.getMinY();
jmin = dataArea.getMaxY();
}
if (isInverted()) {
if (value == vp) {
return this.boundMappedToLastCycle ? jmin : jmax;
}
else if (value > vp) {
return jmax - (value - vp) * (jmax - jmin) / this.period;
}
else {
return jmin + (vp - value) * (jmax - jmin) / this.period;
}
}
else {
if (value == vp) {
return this.boundMappedToLastCycle ? jmax : jmin;
}
else if (value >= vp) {
return jmin + (value - vp) * (jmax - jmin) / this.period;
}
else {
return jmax - (vp - value) * (jmax - jmin) / this.period;
}
}
}
/**
* Centers the range about the given value.
*
* @param value the data value.
*/
@Override
public void centerRange(double value) {
setRange(value - this.period / 2.0, value + this.period / 2.0);
}
/**
* This function is nearly useless since the auto range is fixed for this
* class to the period. The period is extended if necessary to fit the
* minimum size.
*
* @param size the size.
* @param notify notify?
*
* @see org.jfree.chart.axis.ValueAxis#setAutoRangeMinimumSize(double,
* boolean)
*/
@Override
public void setAutoRangeMinimumSize(double size, boolean notify) {
if (size > this.period) {
this.period = size;
}
super.setAutoRangeMinimumSize(size, notify);
}
/**
* The auto range is fixed for this class to the period by default.
* This function will thus set a new period.
*
* @param length the length.
*
* @see org.jfree.chart.axis.ValueAxis#setFixedAutoRange(double)
*/
@Override
public void setFixedAutoRange(double length) {
this.period = length;
super.setFixedAutoRange(length);
}
/**
* Sets a new axis range. The period is extended to fit the range size, if
* necessary.
*
* @param range the range.
* @param turnOffAutoRange switch off the auto range.
* @param notify notify?
*
* @see org.jfree.chart.axis.ValueAxis#setRange(Range, boolean, boolean)
*/
@Override
public void setRange(Range range, boolean turnOffAutoRange,
boolean notify) {
double size = range.getUpperBound() - range.getLowerBound();
if (size > this.period) {
this.period = size;
}
super.setRange(range, turnOffAutoRange, notify);
}
/**
* The cycle bound is defined as the higest value x such that
* "offset + period * i = x", with i and integer and x <
* range.getUpperBound() This is the value which is at both ends of the
* axis : x...up|low...x
* The values from x to up are the valued in the current cycle.
* The values from low to x are the valued in the previous cycle.
*
* @return The cycle bound.
*/
public double getCycleBound() {
return Math.floor(
(getRange().getUpperBound() - this.offset) / this.period
) * this.period + this.offset;
}
/**
* The cycle bound is a multiple of the period, plus optionally a start
* offset.
* cb = n * period + offset
*
* @return The current offset.
*
* @see #getCycleBound()
*/
public double getOffset() {
return this.offset;
}
/**
* The cycle bound is a multiple of the period, plus optionally a start
* offset.
* cb = n * period + offset
*
* @param offset The offset to set.
*
* @see #getCycleBound()
*/
public void setOffset(double offset) {
this.offset = offset;
}
/**
* The cycle bound is a multiple of the period, plus optionally a start
* offset.
* cb = n * period + offset
*
* @return The current period.
*
* @see #getCycleBound()
*/
public double getPeriod() {
return this.period;
}
/**
* The cycle bound is a multiple of the period, plus optionally a start
* offset.
* cb = n * period + offset
*
* @param period The period to set.
*
* @see #getCycleBound()
*/
public void setPeriod(double period) {
this.period = period;
}
/**
* Draws the tick marks and labels.
*
* @param g2 the graphics device.
* @param cursor the cursor.
* @param plotArea the plot area.
* @param dataArea the area inside the axes.
* @param edge the side on which the axis is displayed.
*
* @return The axis state.
*/
@Override
protected AxisState drawTickMarksAndLabels(Graphics2D g2, double cursor,
Rectangle2D plotArea, Rectangle2D dataArea, RectangleEdge edge) {
this.internalMarkerWhenTicksOverlap = false;
AxisState ret = super.drawTickMarksAndLabels(g2, cursor, plotArea,
dataArea, edge);
// continue and separate the labels only if necessary
if (!this.internalMarkerWhenTicksOverlap) {
return ret;
}
double ol;
FontMetrics fm = g2.getFontMetrics(getTickLabelFont());
if (isVerticalTickLabels()) {
ol = fm.getMaxAdvance();
}
else {
ol = fm.getHeight();
}
double il = 0;
if (isTickMarksVisible()) {
float xx = (float) valueToJava2D(getRange().getUpperBound(),
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);
}
return ret;
}
/**
* Draws the axis.
*
* @param g2 the graphics device (null
not permitted).
* @param cursor the cursor position.
* @param plotArea the plot area (null
not permitted).
* @param dataArea the data area (null
not permitted).
* @param edge the edge (null
not permitted).
* @param plotState collects information about the plot
* (null
permitted).
*
* @return The axis state (never null
).
*/
@Override
public AxisState draw(Graphics2D g2, double cursor, Rectangle2D plotArea,
Rectangle2D dataArea, RectangleEdge edge, PlotRenderingInfo plotState) {
AxisState ret = super.draw(g2, cursor, plotArea, dataArea, edge,
plotState);
if (isAdvanceLineVisible()) {
double xx = valueToJava2D(getRange().getUpperBound(), dataArea,
edge);
Line2D mark = null;
g2.setStroke(getAdvanceLineStroke());
g2.setPaint(getAdvanceLinePaint());
if (edge == RectangleEdge.LEFT) {
mark = new Line2D.Double(cursor, xx, cursor
+ dataArea.getWidth(), xx);
}
else if (edge == RectangleEdge.RIGHT) {
mark = new Line2D.Double(cursor - dataArea.getWidth(), xx,
cursor, xx);
}
else if (edge == RectangleEdge.TOP) {
mark = new Line2D.Double(xx, cursor + dataArea.getHeight(), xx,
cursor);
}
else if (edge == RectangleEdge.BOTTOM) {
mark = new Line2D.Double(xx, cursor, xx,
cursor - dataArea.getHeight());
}
g2.draw(mark);
}
return ret;
}
/**
* Reserve some space on each axis side because we draw a centered label at
* each extremity.
*
* @param g2 the graphics device.
* @param plot the plot.
* @param plotArea the plot area.
* @param edge the edge.
* @param space the space already reserved.
*
* @return The reserved space.
*/
@Override
public AxisSpace reserveSpace(Graphics2D g2, Plot plot,
Rectangle2D plotArea, RectangleEdge edge, AxisSpace space) {
this.internalMarkerCycleBoundTick = null;
AxisSpace ret = super.reserveSpace(g2, plot, plotArea, edge, space);
if (this.internalMarkerCycleBoundTick == null) {
return ret;
}
FontMetrics fm = g2.getFontMetrics(getTickLabelFont());
Rectangle2D r = TextUtilities.getTextBounds(
this.internalMarkerCycleBoundTick.getText(), g2, fm
);
if (RectangleEdge.isTopOrBottom(edge)) {
if (isVerticalTickLabels()) {
space.add(r.getHeight() / 2, RectangleEdge.RIGHT);
}
else {
space.add(r.getWidth() / 2, RectangleEdge.RIGHT);
}
}
else if (RectangleEdge.isLeftOrRight(edge)) {
if (isVerticalTickLabels()) {
space.add(r.getWidth() / 2, RectangleEdge.TOP);
}
else {
space.add(r.getHeight() / 2, RectangleEdge.TOP);
}
}
return ret;
}
/**
* Provides serialization support.
*
* @param stream the output stream.
*
* @throws IOException if there is an I/O error.
*/
private void writeObject(ObjectOutputStream stream) throws IOException {
stream.defaultWriteObject();
SerialUtilities.writePaint(this.advanceLinePaint, stream);
SerialUtilities.writeStroke(this.advanceLineStroke, 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.
*/
private void readObject(ObjectInputStream stream)
throws IOException, ClassNotFoundException {
stream.defaultReadObject();
this.advanceLinePaint = SerialUtilities.readPaint(stream);
this.advanceLineStroke = SerialUtilities.readStroke(stream);
}
/**
* Tests the axis for equality with another object.
*
* @param obj the object to test against.
*
* @return A boolean.
*/
@Override
public boolean equals(Object obj) {
if (obj == this) {
return true;
}
if (!(obj instanceof CyclicNumberAxis)) {
return false;
}
if (!super.equals(obj)) {
return false;
}
CyclicNumberAxis that = (CyclicNumberAxis) obj;
if (this.period != that.period) {
return false;
}
if (this.offset != that.offset) {
return false;
}
if (!PaintUtilities.equal(this.advanceLinePaint,
that.advanceLinePaint)) {
return false;
}
if (!ObjectUtilities.equal(this.advanceLineStroke,
that.advanceLineStroke)) {
return false;
}
if (this.advanceLineVisible != that.advanceLineVisible) {
return false;
}
if (this.boundMappedToLastCycle != that.boundMappedToLastCycle) {
return false;
}
return true;
}
}