/* ===========================================================
* 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 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.
*
* [Java is a trademark or registered trademark of Sun Microsystems, Inc.
* in the United States and other countries.]
*
* ------------------
* DateAxisTests.java
* ------------------
* (C) Copyright 2003-2008, by Object Refinery Limited and Contributors.
*
* Original Author: David Gilbert (for Object Refinery Limited);
* Contributor(s): -;
*
* Changes
* -------
* 22-Apr-2003 : Version 1 (DG);
* 07-Jan-2005 : Added test for hashCode() method (DG);
* 25-Sep-2005 : New tests for bug 1564977 (DG);
* 19-Apr-2007 : Added further checks for setMinimumDate() and
* setMaximumDate() (DG);
* 03-May-2007 : Replaced the tests for the previousStandardDate() method with
* new tests that check that the previousStandardDate and the
* next standard date do in fact span the reference date (DG);
* 25-Nov-2008 : Added testBug2201869 (DG);
*
*/
package org.jfree.chart.axis.junit;
import java.awt.Graphics2D;
import java.awt.geom.Rectangle2D;
import java.awt.image.BufferedImage;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.ObjectInput;
import java.io.ObjectInputStream;
import java.io.ObjectOutput;
import java.io.ObjectOutputStream;
import java.text.SimpleDateFormat;
import java.util.Calendar;
import java.util.Date;
import java.util.GregorianCalendar;
import java.util.List;
import java.util.Locale;
import java.util.TimeZone;
import junit.framework.Test;
import junit.framework.TestCase;
import junit.framework.TestSuite;
import org.jfree.chart.axis.AxisState;
import org.jfree.chart.axis.DateAxis;
import org.jfree.chart.axis.DateTick;
import org.jfree.chart.axis.DateTickMarkPosition;
import org.jfree.chart.axis.DateTickUnit;
import org.jfree.chart.axis.SegmentedTimeline;
import org.jfree.data.time.DateRange;
import org.jfree.data.time.Day;
import org.jfree.data.time.Hour;
import org.jfree.data.time.Millisecond;
import org.jfree.data.time.Month;
import org.jfree.data.time.Second;
import org.jfree.data.time.Year;
import org.jfree.ui.RectangleEdge;
/**
* Tests for the {@link DateAxis} class.
*/
public class DateAxisTests extends TestCase {
static class MyDateAxis extends DateAxis {
/**
* Creates a new instance.
*
* @param label the label.
*/
public MyDateAxis(String label) {
super(label);
}
public Date previousStandardDate(Date d, DateTickUnit unit) {
return super.previousStandardDate(d, unit);
}
}
/**
* Returns the tests as a test suite.
*
* @return The test suite.
*/
public static Test suite() {
return new TestSuite(DateAxisTests.class);
}
/**
* Constructs a new set of tests.
*
* @param name the name of the tests.
*/
public DateAxisTests(String name) {
super(name);
}
/**
* Confirm that the equals method can distinguish all the required fields.
*/
public void testEquals() {
DateAxis a1 = new DateAxis("Test");
DateAxis a2 = new DateAxis("Test");
assertTrue(a1.equals(a2));
assertFalse(a1.equals(null));
assertFalse(a1.equals("Some non-DateAxis object"));
// tickUnit
a1.setTickUnit(new DateTickUnit(DateTickUnit.DAY, 7));
assertFalse(a1.equals(a2));
a2.setTickUnit(new DateTickUnit(DateTickUnit.DAY, 7));
assertTrue(a1.equals(a2));
// dateFormatOverride
a1.setDateFormatOverride(new SimpleDateFormat("yyyy"));
assertFalse(a1.equals(a2));
a2.setDateFormatOverride(new SimpleDateFormat("yyyy"));
assertTrue(a1.equals(a2));
// tickMarkPosition
a1.setTickMarkPosition(DateTickMarkPosition.END);
assertFalse(a1.equals(a2));
a2.setTickMarkPosition(DateTickMarkPosition.END);
assertTrue(a1.equals(a2));
// timeline
a1.setTimeline(SegmentedTimeline.newMondayThroughFridayTimeline());
assertFalse(a1.equals(a2));
a2.setTimeline(SegmentedTimeline.newMondayThroughFridayTimeline());
assertTrue(a1.equals(a2));
}
/**
* A test for bug report 1472942. The DateFormat.equals() method is not
* checking the range attribute.
*/
public void test1472942() {
DateAxis a1 = new DateAxis("Test");
DateAxis a2 = new DateAxis("Test");
assertTrue(a1.equals(a2));
// range
a1.setRange(new Date(1L), new Date(2L));
assertFalse(a1.equals(a2));
a2.setRange(new Date(1L), new Date(2L));
assertTrue(a1.equals(a2));
}
/**
* Two objects that are equal are required to return the same hashCode.
*/
public void testHashCode() {
DateAxis a1 = new DateAxis("Test");
DateAxis a2 = new DateAxis("Test");
assertTrue(a1.equals(a2));
int h1 = a1.hashCode();
int h2 = a2.hashCode();
assertEquals(h1, h2);
}
/**
* Confirm that cloning works.
*/
public void testCloning() {
DateAxis a1 = new DateAxis("Test");
DateAxis a2 = null;
try {
a2 = (DateAxis) a1.clone();
}
catch (CloneNotSupportedException e) {
e.printStackTrace();
}
assertTrue(a1 != a2);
assertTrue(a1.getClass() == a2.getClass());
assertTrue(a1.equals(a2));
}
/**
* Test that the setRange() method works.
*/
public void testSetRange() {
DateAxis axis = new DateAxis("Test Axis");
Calendar calendar = Calendar.getInstance();
calendar.set(1999, Calendar.JANUARY, 3);
Date d1 = calendar.getTime();
calendar.set(1999, Calendar.JANUARY, 31);
Date d2 = calendar.getTime();
axis.setRange(d1, d2);
DateRange range = (DateRange) axis.getRange();
assertEquals(d1, range.getLowerDate());
assertEquals(d2, range.getUpperDate());
}
/**
* Test that the setMaximumDate() method works.
*/
public void testSetMaximumDate() {
DateAxis axis = new DateAxis("Test Axis");
Date date = new Date();
axis.setMaximumDate(date);
assertEquals(date, axis.getMaximumDate());
// check that setting the max date to something on or before the
// current min date works...
Date d1 = new Date();
Date d2 = new Date(d1.getTime() + 1);
Date d0 = new Date(d1.getTime() - 1);
axis.setMaximumDate(d2);
axis.setMinimumDate(d1);
axis.setMaximumDate(d1);
assertEquals(d0, axis.getMinimumDate());
}
/**
* Test that the setMinimumDate() method works.
*/
public void testSetMinimumDate() {
DateAxis axis = new DateAxis("Test Axis");
Date d1 = new Date();
Date d2 = new Date(d1.getTime() + 1);
axis.setMaximumDate(d2);
axis.setMinimumDate(d1);
assertEquals(d1, axis.getMinimumDate());
// check that setting the min date to something on or after the
// current min date works...
Date d3 = new Date(d2.getTime() + 1);
axis.setMinimumDate(d2);
assertEquals(d3, axis.getMaximumDate());
}
/**
* Tests two doubles for 'near enough' equality.
*
* @param d1 number 1.
* @param d2 number 2.
* @param tolerance maximum tolerance.
*
* @return A boolean.
*/
private boolean same(double d1, double d2, double tolerance) {
return (Math.abs(d1 - d2) < tolerance);
}
/**
* Test the translation of Java2D values to data values.
*/
public void testJava2DToValue() {
DateAxis axis = new DateAxis();
axis.setRange(50.0, 100.0);
Rectangle2D dataArea = new Rectangle2D.Double(10.0, 50.0, 400.0, 300.0);
double y1 = axis.java2DToValue(75.0, dataArea, RectangleEdge.LEFT);
assertTrue(same(y1, 95.8333333, 1.0));
double y2 = axis.java2DToValue(75.0, dataArea, RectangleEdge.RIGHT);
assertTrue(same(y2, 95.8333333, 1.0));
double x1 = axis.java2DToValue(75.0, dataArea, RectangleEdge.TOP);
assertTrue(same(x1, 58.125, 1.0));
double x2 = axis.java2DToValue(75.0, dataArea, RectangleEdge.BOTTOM);
assertTrue(same(x2, 58.125, 1.0));
axis.setInverted(true);
double y3 = axis.java2DToValue(75.0, dataArea, RectangleEdge.LEFT);
assertTrue(same(y3, 54.1666667, 1.0));
double y4 = axis.java2DToValue(75.0, dataArea, RectangleEdge.RIGHT);
assertTrue(same(y4, 54.1666667, 1.0));
double x3 = axis.java2DToValue(75.0, dataArea, RectangleEdge.TOP);
assertTrue(same(x3, 91.875, 1.0));
double x4 = axis.java2DToValue(75.0, dataArea, RectangleEdge.BOTTOM);
assertTrue(same(x4, 91.875, 1.0));
}
/**
* Serialize an instance, restore it, and check for equality.
*/
public void testSerialization() {
DateAxis a1 = new DateAxis("Test Axis");
DateAxis a2 = null;
try {
ByteArrayOutputStream buffer = new ByteArrayOutputStream();
ObjectOutput out = new ObjectOutputStream(buffer);
out.writeObject(a1);
out.close();
ObjectInput in = new ObjectInputStream(
new ByteArrayInputStream(buffer.toByteArray()));
a2 = (DateAxis) in.readObject();
in.close();
}
catch (Exception e) {
e.printStackTrace();
}
boolean b = a1.equals(a2);
assertTrue(b);
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 1 year.
*/
public void testPreviousStandardDateYearA() {
MyDateAxis axis = new MyDateAxis("Year");
Year y2006 = new Year(2006);
Year y2007 = new Year(2007);
// five dates to check...
Date d0 = new Date(y2006.getFirstMillisecond());
Date d1 = new Date(y2006.getFirstMillisecond() + 500L);
Date d2 = new Date(y2006.getMiddleMillisecond());
Date d3 = new Date(y2006.getMiddleMillisecond() + 500L);
Date d4 = new Date(y2006.getLastMillisecond());
Date end = new Date(y2007.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.YEAR, 1);
axis.setTickUnit(unit);
// START: check d0 and d1
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
// MIDDLE: check d1, d2 and d3
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
axis.setRange(d2, end);
psd = axis.previousStandardDate(d2, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d2.getTime());
assertTrue(nsd.getTime() >= d2.getTime());
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
// END: check d3 and d4
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
axis.setRange(d4, end);
psd = axis.previousStandardDate(d4, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d4.getTime());
assertTrue(nsd.getTime() >= d4.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 10 years (just for the sake of having a multiple).
*/
public void testPreviousStandardDateYearB() {
MyDateAxis axis = new MyDateAxis("Year");
Year y2006 = new Year(2006);
Year y2007 = new Year(2007);
// five dates to check...
Date d0 = new Date(y2006.getFirstMillisecond());
Date d1 = new Date(y2006.getFirstMillisecond() + 500L);
Date d2 = new Date(y2006.getMiddleMillisecond());
Date d3 = new Date(y2006.getMiddleMillisecond() + 500L);
Date d4 = new Date(y2006.getLastMillisecond());
Date end = new Date(y2007.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.YEAR, 10);
axis.setTickUnit(unit);
// START: check d0 and d1
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
// MIDDLE: check d1, d2 and d3
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
axis.setRange(d2, end);
psd = axis.previousStandardDate(d2, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d2.getTime());
assertTrue(nsd.getTime() >= d2.getTime());
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
// END: check d3 and d4
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
axis.setRange(d4, end);
psd = axis.previousStandardDate(d4, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d4.getTime());
assertTrue(nsd.getTime() >= d4.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 1 month.
*/
public void testPreviousStandardDateMonthA() {
MyDateAxis axis = new MyDateAxis("Month");
Month nov2006 = new Month(11, 2006);
Month dec2006 = new Month(12, 2006);
// five dates to check...
Date d0 = new Date(nov2006.getFirstMillisecond());
Date d1 = new Date(nov2006.getFirstMillisecond() + 500L);
Date d2 = new Date(nov2006.getMiddleMillisecond());
Date d3 = new Date(nov2006.getMiddleMillisecond() + 500L);
Date d4 = new Date(nov2006.getLastMillisecond());
Date end = new Date(dec2006.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.MONTH, 1);
axis.setTickUnit(unit);
// START: check d0 and d1
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
// MIDDLE: check d1, d2 and d3
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
axis.setRange(d2, end);
psd = axis.previousStandardDate(d2, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d2.getTime());
assertTrue(nsd.getTime() >= d2.getTime());
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
// END: check d3 and d4
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
axis.setRange(d4, end);
psd = axis.previousStandardDate(d4, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d4.getTime());
assertTrue(nsd.getTime() >= d4.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 3 months (just for the sake of having a multiple).
*/
public void testPreviousStandardDateMonthB() {
MyDateAxis axis = new MyDateAxis("Month");
Month nov2006 = new Month(11, 2006);
Month dec2006 = new Month(12, 2006);
// five dates to check...
Date d0 = new Date(nov2006.getFirstMillisecond());
Date d1 = new Date(nov2006.getFirstMillisecond() + 500L);
Date d2 = new Date(nov2006.getMiddleMillisecond());
Date d3 = new Date(nov2006.getMiddleMillisecond() + 500L);
Date d4 = new Date(nov2006.getLastMillisecond());
Date end = new Date(dec2006.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.MONTH, 3);
axis.setTickUnit(unit);
// START: check d0 and d1
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
// MIDDLE: check d1, d2 and d3
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
axis.setRange(d2, end);
psd = axis.previousStandardDate(d2, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d2.getTime());
assertTrue(nsd.getTime() >= d2.getTime());
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
// END: check d3 and d4
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
axis.setRange(d4, end);
psd = axis.previousStandardDate(d4, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d4.getTime());
assertTrue(nsd.getTime() >= d4.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 1 day.
*/
public void testPreviousStandardDateDayA() {
MyDateAxis axis = new MyDateAxis("Day");
Day apr12007 = new Day(1, 4, 2007);
Day apr22007 = new Day(2, 4, 2007);
// five dates to check...
Date d0 = new Date(apr12007.getFirstMillisecond());
Date d1 = new Date(apr12007.getFirstMillisecond() + 500L);
Date d2 = new Date(apr12007.getMiddleMillisecond());
Date d3 = new Date(apr12007.getMiddleMillisecond() + 500L);
Date d4 = new Date(apr12007.getLastMillisecond());
Date end = new Date(apr22007.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.DAY, 1);
axis.setTickUnit(unit);
// START: check d0 and d1
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
// MIDDLE: check d1, d2 and d3
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
axis.setRange(d2, end);
psd = axis.previousStandardDate(d2, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d2.getTime());
assertTrue(nsd.getTime() >= d2.getTime());
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
// END: check d3 and d4
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
axis.setRange(d4, end);
psd = axis.previousStandardDate(d4, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d4.getTime());
assertTrue(nsd.getTime() >= d4.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 7 days (just for the sake of having a multiple).
*/
public void testPreviousStandardDateDayB() {
MyDateAxis axis = new MyDateAxis("Day");
Day apr12007 = new Day(1, 4, 2007);
Day apr22007 = new Day(2, 4, 2007);
// five dates to check...
Date d0 = new Date(apr12007.getFirstMillisecond());
Date d1 = new Date(apr12007.getFirstMillisecond() + 500L);
Date d2 = new Date(apr12007.getMiddleMillisecond());
Date d3 = new Date(apr12007.getMiddleMillisecond() + 500L);
Date d4 = new Date(apr12007.getLastMillisecond());
Date end = new Date(apr22007.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.DAY, 7);
axis.setTickUnit(unit);
// START: check d0 and d1
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
// MIDDLE: check d1, d2 and d3
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
axis.setRange(d2, end);
psd = axis.previousStandardDate(d2, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d2.getTime());
assertTrue(nsd.getTime() >= d2.getTime());
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
// END: check d3 and d4
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
axis.setRange(d4, end);
psd = axis.previousStandardDate(d4, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d4.getTime());
assertTrue(nsd.getTime() >= d4.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 1 hour.
*/
public void testPreviousStandardDateHourA() {
MyDateAxis axis = new MyDateAxis("Hour");
Hour h0 = new Hour(12, 1, 4, 2007);
Hour h1 = new Hour(13, 1, 4, 2007);
// five dates to check...
Date d0 = new Date(h0.getFirstMillisecond());
Date d1 = new Date(h0.getFirstMillisecond() + 500L);
Date d2 = new Date(h0.getMiddleMillisecond());
Date d3 = new Date(h0.getMiddleMillisecond() + 500L);
Date d4 = new Date(h0.getLastMillisecond());
Date end = new Date(h1.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.HOUR, 1);
axis.setTickUnit(unit);
// START: check d0 and d1
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
// MIDDLE: check d1, d2 and d3
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
axis.setRange(d2, end);
psd = axis.previousStandardDate(d2, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d2.getTime());
assertTrue(nsd.getTime() >= d2.getTime());
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
// END: check d3 and d4
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
axis.setRange(d4, end);
psd = axis.previousStandardDate(d4, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d4.getTime());
assertTrue(nsd.getTime() >= d4.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 6 hours (just for the sake of having a multiple).
*/
public void testPreviousStandardDateHourB() {
MyDateAxis axis = new MyDateAxis("Hour");
Hour h0 = new Hour(12, 1, 4, 2007);
Hour h1 = new Hour(13, 1, 4, 2007);
// five dates to check...
Date d0 = new Date(h0.getFirstMillisecond());
Date d1 = new Date(h0.getFirstMillisecond() + 500L);
Date d2 = new Date(h0.getMiddleMillisecond());
Date d3 = new Date(h0.getMiddleMillisecond() + 500L);
Date d4 = new Date(h0.getLastMillisecond());
Date end = new Date(h1.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.HOUR, 6);
axis.setTickUnit(unit);
// START: check d0 and d1
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
// MIDDLE: check d1, d2 and d3
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
axis.setRange(d2, end);
psd = axis.previousStandardDate(d2, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d2.getTime());
assertTrue(nsd.getTime() >= d2.getTime());
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
// END: check d3 and d4
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
axis.setRange(d4, end);
psd = axis.previousStandardDate(d4, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d4.getTime());
assertTrue(nsd.getTime() >= d4.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 1 second.
*/
public void testPreviousStandardDateSecondA() {
MyDateAxis axis = new MyDateAxis("Second");
Second s0 = new Second(58, 31, 12, 1, 4, 2007);
Second s1 = new Second(59, 31, 12, 1, 4, 2007);
// five dates to check...
Date d0 = new Date(s0.getFirstMillisecond());
Date d1 = new Date(s0.getFirstMillisecond() + 50L);
Date d2 = new Date(s0.getMiddleMillisecond());
Date d3 = new Date(s0.getMiddleMillisecond() + 50L);
Date d4 = new Date(s0.getLastMillisecond());
Date end = new Date(s1.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.SECOND, 1);
axis.setTickUnit(unit);
// START: check d0 and d1
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
// MIDDLE: check d1, d2 and d3
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
axis.setRange(d2, end);
psd = axis.previousStandardDate(d2, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d2.getTime());
assertTrue(nsd.getTime() >= d2.getTime());
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
// END: check d3 and d4
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
axis.setRange(d4, end);
psd = axis.previousStandardDate(d4, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d4.getTime());
assertTrue(nsd.getTime() >= d4.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 5 seconds (just for the sake of having a multiple).
*/
public void testPreviousStandardDateSecondB() {
MyDateAxis axis = new MyDateAxis("Second");
Second s0 = new Second(58, 31, 12, 1, 4, 2007);
Second s1 = new Second(59, 31, 12, 1, 4, 2007);
// five dates to check...
Date d0 = new Date(s0.getFirstMillisecond());
Date d1 = new Date(s0.getFirstMillisecond() + 50L);
Date d2 = new Date(s0.getMiddleMillisecond());
Date d3 = new Date(s0.getMiddleMillisecond() + 50L);
Date d4 = new Date(s0.getLastMillisecond());
Date end = new Date(s1.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.SECOND, 5);
axis.setTickUnit(unit);
// START: check d0 and d1
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
// MIDDLE: check d1, d2 and d3
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d1, end);
psd = axis.previousStandardDate(d1, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d1.getTime());
assertTrue(nsd.getTime() >= d1.getTime());
axis.setRange(d2, end);
psd = axis.previousStandardDate(d2, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d2.getTime());
assertTrue(nsd.getTime() >= d2.getTime());
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
// END: check d3 and d4
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d3, end);
psd = axis.previousStandardDate(d3, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d3.getTime());
assertTrue(nsd.getTime() >= d3.getTime());
axis.setRange(d4, end);
psd = axis.previousStandardDate(d4, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d4.getTime());
assertTrue(nsd.getTime() >= d4.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 1 millisecond.
*/
public void testPreviousStandardDateMillisecondA() {
MyDateAxis axis = new MyDateAxis("Millisecond");
Millisecond m0 = new Millisecond(458, 58, 31, 12, 1, 4, 2007);
Millisecond m1 = new Millisecond(459, 58, 31, 12, 1, 4, 2007);
Date d0 = new Date(m0.getFirstMillisecond());
Date end = new Date(m1.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.MILLISECOND, 1);
axis.setTickUnit(unit);
// START: check d0
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
// MIDDLE: check d0
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d0, end);
psd = axis.previousStandardDate(d0, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
// END: check d0
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d0, end);
psd = axis.previousStandardDate(d0, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
}
/**
* A basic check for the testPreviousStandardDate() method when the
* tick unit is 10 milliseconds (just for the sake of having a multiple).
*/
public void testPreviousStandardDateMillisecondB() {
MyDateAxis axis = new MyDateAxis("Millisecond");
Millisecond m0 = new Millisecond(458, 58, 31, 12, 1, 4, 2007);
Millisecond m1 = new Millisecond(459, 58, 31, 12, 1, 4, 2007);
Date d0 = new Date(m0.getFirstMillisecond());
Date end = new Date(m1.getLastMillisecond());
DateTickUnit unit = new DateTickUnit(DateTickUnit.MILLISECOND, 10);
axis.setTickUnit(unit);
// START: check d0
axis.setTickMarkPosition(DateTickMarkPosition.START);
axis.setRange(d0, end);
Date psd = axis.previousStandardDate(d0, unit);
Date nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
// MIDDLE: check d0
axis.setTickMarkPosition(DateTickMarkPosition.MIDDLE);
axis.setRange(d0, end);
psd = axis.previousStandardDate(d0, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
// END: check d0
axis.setTickMarkPosition(DateTickMarkPosition.END);
axis.setRange(d0, end);
psd = axis.previousStandardDate(d0, unit);
nsd = unit.addToDate(psd);
assertTrue(psd.getTime() < d0.getTime());
assertTrue(nsd.getTime() >= d0.getTime());
}
/**
* A test to reproduce bug 2201869.
*/
public void testBug2201869() {
TimeZone tz = TimeZone.getTimeZone("GMT");
GregorianCalendar c = new GregorianCalendar(tz, Locale.UK);
DateAxis axis = new DateAxis("Date", tz, Locale.UK);
SimpleDateFormat sdf = new SimpleDateFormat("d-MMM-yyyy", Locale.UK);
sdf.setCalendar(c);
axis.setTickUnit(new DateTickUnit(DateTickUnit.MONTH, 1, sdf));
Day d1 = new Day(1, 3, 2008);
d1.peg(c);
Day d2 = new Day(30, 6, 2008);
d2.peg(c);
axis.setRange(d1.getStart(), d2.getEnd());
BufferedImage image = new BufferedImage(200, 100,
BufferedImage.TYPE_INT_ARGB);
Graphics2D g2 = image.createGraphics();
Rectangle2D area = new Rectangle2D.Double(0.0, 0.0, 200, 100);
axis.setTickMarkPosition(DateTickMarkPosition.END);
List ticks = axis.refreshTicks(g2, new AxisState(), area,
RectangleEdge.BOTTOM);
assertEquals(3, ticks.size());
DateTick t1 = (DateTick) ticks.get(0);
assertEquals("31-Mar-2008", t1.getText());
DateTick t2 = (DateTick) ticks.get(1);
assertEquals("30-Apr-2008", t2.getText());
DateTick t3 = (DateTick) ticks.get(2);
assertEquals("31-May-2008", t3.getText());
// now repeat for a vertical axis
ticks = axis.refreshTicks(g2, new AxisState(), area,
RectangleEdge.LEFT);
assertEquals(3, ticks.size());
t1 = (DateTick) ticks.get(0);
assertEquals("31-Mar-2008", t1.getText());
t2 = (DateTick) ticks.get(1);
assertEquals("30-Apr-2008", t2.getText());
t3 = (DateTick) ticks.get(2);
assertEquals("31-May-2008", t3.getText());
}
}