/* ===========================================================
* JFreeChart : a free chart library for the Java(tm) platform
* ===========================================================
*
* (C) Copyright 2000-2013, 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.]
*
* -------------------------
* DatasetUtilitiesTest.java
* -------------------------
* (C) Copyright 2003-2013, by Object Refinery Limited and Contributors.
*
* Original Author: David Gilbert (for Object Refinery Limited);
* Contributor(s): -;
*
* Changes
* -------
* 18-Sep-2003 : Version 1 (DG);
* 23-Mar-2004 : Added test for maximumStackedRangeValue() method (DG);
* 04-Oct-2004 : Eliminated NumberUtils usage (DG);
* 07-Jan-2005 : Updated for method name changes (DG);
* 03-Feb-2005 : Added testFindStackedRangeBounds2() method (DG);
* 26-Sep-2007 : Added testIsEmptyOrNullXYDataset() method (DG);
* 28-Mar-2008 : Added and renamed various tests (DG);
* 08-Oct-2008 : New tests to support patch 2131001 and related
* changes (DG);
* 25-Mar-2009 : Added tests for new iterateToFindRangeBounds() method (DG);
* 16-May-2009 : Added
* testIterateToFindRangeBounds_MultiValueCategoryDataset() (DG);
* 10-Sep-2009 : Added tests for bug 2849731 (DG);
*
*/
package org.jfree.data.general;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Date;
import java.util.List;
import org.jfree.data.KeyToGroupMap;
import org.jfree.data.Range;
import org.jfree.data.category.CategoryDataset;
import org.jfree.data.category.DefaultCategoryDataset;
import org.jfree.data.category.DefaultIntervalCategoryDataset;
import org.jfree.data.function.Function2D;
import org.jfree.data.function.LineFunction2D;
import org.jfree.data.statistics.BoxAndWhiskerItem;
import org.jfree.data.statistics.DefaultBoxAndWhiskerXYDataset;
import org.jfree.data.statistics.DefaultMultiValueCategoryDataset;
import org.jfree.data.statistics.DefaultStatisticalCategoryDataset;
import org.jfree.data.statistics.MultiValueCategoryDataset;
import org.jfree.data.xy.DefaultIntervalXYDataset;
import org.jfree.data.xy.DefaultTableXYDataset;
import org.jfree.data.xy.DefaultXYDataset;
import org.jfree.data.xy.IntervalXYDataset;
import org.jfree.data.xy.TableXYDataset;
import org.jfree.data.xy.XYDataset;
import org.jfree.data.xy.XYIntervalSeries;
import org.jfree.data.xy.XYIntervalSeriesCollection;
import org.jfree.data.xy.XYSeries;
import org.jfree.data.xy.XYSeriesCollection;
import org.jfree.data.xy.YIntervalSeries;
import org.jfree.data.xy.YIntervalSeriesCollection;
import org.junit.Test;
import static org.junit.Assert.assertTrue;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertNull;
/**
* Tests for the {@link DatasetUtilities} class.
*/
public class DatasetUtilitiesTest {
private static final double EPSILON = 0.0000000001;
/**
* Some tests to verify that Java does what I think it does!
*/
@Test
public void testJava() {
assertTrue(Double.isNaN(Math.min(1.0, Double.NaN)));
assertTrue(Double.isNaN(Math.max(1.0, Double.NaN)));
}
/**
* Some tests for the calculatePieDatasetTotal() method.
*/
@Test
public void testCalculatePieDatasetTotal() {
DefaultPieDataset d = new DefaultPieDataset();
assertEquals(0.0, DatasetUtilities.calculatePieDatasetTotal(d),
EPSILON);
d.setValue("A", 1.0);
assertEquals(1.0, DatasetUtilities.calculatePieDatasetTotal(d),
EPSILON);
d.setValue("B", 3.0);
assertEquals(4.0, DatasetUtilities.calculatePieDatasetTotal(d),
EPSILON);
}
/**
* Some tests for the findDomainBounds() method.
*/
@Test
public void testFindDomainBounds() {
XYDataset dataset = createXYDataset1();
Range r = DatasetUtilities.findDomainBounds(dataset);
assertEquals(1.0, r.getLowerBound(), EPSILON);
assertEquals(3.0, r.getUpperBound(), EPSILON);
}
/**
* This test checks that the standard method has 'includeInterval'
* defaulting to true.
*/
@Test
public void testFindDomainBounds2() {
DefaultIntervalXYDataset dataset = new DefaultIntervalXYDataset();
double[] x1 = new double[] {1.0, 2.0, 3.0};
double[] x1Start = new double[] {0.9, 1.9, 2.9};
double[] x1End = new double[] {1.1, 2.1, 3.1};
double[] y1 = new double[] {4.0, 5.0, 6.0};
double[] y1Start = new double[] {1.09, 2.09, 3.09};
double[] y1End = new double[] {1.11, 2.11, 3.11};
double[][] data1 = new double[][] {x1, x1Start, x1End, y1, y1Start,
y1End};
dataset.addSeries("S1", data1);
Range r = DatasetUtilities.findDomainBounds(dataset);
assertEquals(0.9, r.getLowerBound(), EPSILON);
assertEquals(3.1, r.getUpperBound(), EPSILON);
}
/**
* This test checks that when the 'includeInterval' flag is false, the
* bounds come from the regular x-values.
*/
@Test
public void testFindDomainBounds3() {
DefaultIntervalXYDataset dataset = new DefaultIntervalXYDataset();
double[] x1 = new double[] {1.0, 2.0, 3.0};
double[] x1Start = new double[] {0.9, 1.9, 2.9};
double[] x1End = new double[] {1.1, 2.1, 3.1};
double[] y1 = new double[] {4.0, 5.0, 6.0};
double[] y1Start = new double[] {1.09, 2.09, 3.09};
double[] y1End = new double[] {1.11, 2.11, 3.11};
double[][] data1 = new double[][] {x1, x1Start, x1End, y1, y1Start,
y1End};
dataset.addSeries("S1", data1);
Range r = DatasetUtilities.findDomainBounds(dataset, false);
assertEquals(1.0, r.getLowerBound(), EPSILON);
assertEquals(3.0, r.getUpperBound(), EPSILON);
}
/**
* This test checks that NaN values are ignored.
*/
@Test
public void testFindDomainBounds_NaN() {
DefaultIntervalXYDataset dataset = new DefaultIntervalXYDataset();
double[] x1 = new double[] {1.0, 2.0, Double.NaN};
double[] x1Start = new double[] {0.9, 1.9, Double.NaN};
double[] x1End = new double[] {1.1, 2.1, Double.NaN};
double[] y1 = new double[] {4.0, 5.0, 6.0};
double[] y1Start = new double[] {1.09, 2.09, 3.09};
double[] y1End = new double[] {1.11, 2.11, 3.11};
double[][] data1 = new double[][] {x1, x1Start, x1End, y1, y1Start,
y1End};
dataset.addSeries("S1", data1);
Range r = DatasetUtilities.findDomainBounds(dataset);
assertEquals(0.9, r.getLowerBound(), EPSILON);
assertEquals(2.1, r.getUpperBound(), EPSILON);
r = DatasetUtilities.findDomainBounds(dataset, false);
assertEquals(1.0, r.getLowerBound(), EPSILON);
assertEquals(2.0, r.getUpperBound(), EPSILON);
}
/**
* Some tests for the iterateDomainBounds() method.
*/
@Test
public void testIterateDomainBounds() {
XYDataset dataset = createXYDataset1();
Range r = DatasetUtilities.iterateDomainBounds(dataset);
assertEquals(1.0, r.getLowerBound(), EPSILON);
assertEquals(3.0, r.getUpperBound(), EPSILON);
}
/**
* Check that NaN values in the dataset are ignored.
*/
@Test
public void testIterateDomainBounds_NaN() {
DefaultXYDataset dataset = new DefaultXYDataset();
double[] x = new double[] {1.0, 2.0, Double.NaN, 3.0};
double[] y = new double[] {9.0, 8.0, 7.0, 6.0};
dataset.addSeries("S1", new double[][] {x, y});
Range r = DatasetUtilities.iterateDomainBounds(dataset);
assertEquals(1.0, r.getLowerBound(), EPSILON);
assertEquals(3.0, r.getUpperBound(), EPSILON);
}
/**
* Check that NaN values in the IntervalXYDataset are ignored.
*/
@Test
public void testIterateDomainBounds_NaN2() {
DefaultIntervalXYDataset dataset = new DefaultIntervalXYDataset();
double[] x1 = new double[] {Double.NaN, 2.0, 3.0};
double[] x1Start = new double[] {0.9, Double.NaN, 2.9};
double[] x1End = new double[] {1.1, Double.NaN, 3.1};
double[] y1 = new double[] {4.0, 5.0, 6.0};
double[] y1Start = new double[] {1.09, 2.09, 3.09};
double[] y1End = new double[] {1.11, 2.11, 3.11};
double[][] data1 = new double[][] {x1, x1Start, x1End, y1, y1Start,
y1End};
dataset.addSeries("S1", data1);
Range r = DatasetUtilities.iterateDomainBounds(dataset, false);
assertEquals(2.0, r.getLowerBound(), EPSILON);
assertEquals(3.0, r.getUpperBound(), EPSILON);
r = DatasetUtilities.iterateDomainBounds(dataset, true);
assertEquals(0.9, r.getLowerBound(), EPSILON);
assertEquals(3.1, r.getUpperBound(), EPSILON);
}
/**
* Some tests for the findRangeBounds() for a CategoryDataset method.
*/
@Test
public void testFindRangeBounds_CategoryDataset() {
CategoryDataset dataset = createCategoryDataset1();
Range r = DatasetUtilities.findRangeBounds(dataset);
assertEquals(1.0, r.getLowerBound(), EPSILON);
assertEquals(6.0, r.getUpperBound(), EPSILON);
}
/**
* Some tests for the findRangeBounds() method on an XYDataset.
*/
@Test
public void testFindRangeBounds() {
XYDataset dataset = createXYDataset1();
Range r = DatasetUtilities.findRangeBounds(dataset);
assertEquals(100.0, r.getLowerBound(), EPSILON);
assertEquals(105.0, r.getUpperBound(), EPSILON);
}
/**
* A test for the findRangeBounds(XYDataset) method using
* an IntervalXYDataset.
*/
@Test
public void testFindRangeBounds2() {
YIntervalSeriesCollection dataset = new YIntervalSeriesCollection();
Range r = DatasetUtilities.findRangeBounds(dataset);
assertNull(r);
YIntervalSeries s1 = new YIntervalSeries("S1");
dataset.addSeries(s1);
r = DatasetUtilities.findRangeBounds(dataset);
assertNull(r);
// try a single item
s1.add(1.0, 2.0, 1.5, 2.5);
r = DatasetUtilities.findRangeBounds(dataset);
assertEquals(1.5, r.getLowerBound(), EPSILON);
assertEquals(2.5, r.getUpperBound(), EPSILON);
r = DatasetUtilities.findRangeBounds(dataset, false);
assertEquals(2.0, r.getLowerBound(), EPSILON);
assertEquals(2.0, r.getUpperBound(), EPSILON);
// another item
s1.add(2.0, 2.0, 1.4, 2.1);
r = DatasetUtilities.findRangeBounds(dataset);
assertEquals(1.4, r.getLowerBound(), EPSILON);
assertEquals(2.5, r.getUpperBound(), EPSILON);
// another empty series
YIntervalSeries s2 = new YIntervalSeries("S2");
dataset.addSeries(s2);
r = DatasetUtilities.findRangeBounds(dataset);
assertEquals(1.4, r.getLowerBound(), EPSILON);
assertEquals(2.5, r.getUpperBound(), EPSILON);
// an item in series 2
s2.add(1.0, 2.0, 1.9, 2.6);
r = DatasetUtilities.findRangeBounds(dataset);
assertEquals(1.4, r.getLowerBound(), EPSILON);
assertEquals(2.6, r.getUpperBound(), EPSILON);
// what if we don't want the interval?
r = DatasetUtilities.findRangeBounds(dataset, false);
assertEquals(2.0, r.getLowerBound(), EPSILON);
assertEquals(2.0, r.getUpperBound(), EPSILON);
}
/**
* Some tests for the iterateRangeBounds() method.
*/
@Test
public void testIterateRangeBounds_CategoryDataset() {
CategoryDataset dataset = createCategoryDataset1();
Range r = DatasetUtilities.iterateRangeBounds(dataset, false);
assertEquals(1.0, r.getLowerBound(), EPSILON);
assertEquals(6.0, r.getUpperBound(), EPSILON);
}
/**
* Some checks for the iterateRangeBounds() method.
*/
@Test
public void testIterateRangeBounds2_CategoryDataset() {
// an empty dataset should return a null range
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
Range r = DatasetUtilities.iterateRangeBounds(dataset, false);
assertNull(r);
// a dataset with a single value
dataset.addValue(1.23, "R1", "C1");
r = DatasetUtilities.iterateRangeBounds(dataset, false);
assertEquals(1.23, r.getLowerBound(), EPSILON);
assertEquals(1.23, r.getUpperBound(), EPSILON);
// null is ignored
dataset.addValue(null, "R2", "C1");
r = DatasetUtilities.iterateRangeBounds(dataset, false);
assertEquals(1.23, r.getLowerBound(), EPSILON);
assertEquals(1.23, r.getUpperBound(), EPSILON);
// a Double.NaN should be ignored
dataset.addValue(Double.NaN, "R2", "C1");
r = DatasetUtilities.iterateRangeBounds(dataset, false);
assertEquals(1.23, r.getLowerBound(), EPSILON);
assertEquals(1.23, r.getUpperBound(), EPSILON);
}
/**
* Some checks for the iterateRangeBounds() method using an
* IntervalCategoryDataset.
*/
@Test
public void testIterateRangeBounds3_CategoryDataset() {
Number[][] starts = new Double[2][3];
Number[][] ends = new Double[2][3];
starts[0][0] = new Double(1.0);
starts[0][1] = new Double(2.0);
starts[0][2] = new Double(3.0);
starts[1][0] = new Double(11.0);
starts[1][1] = new Double(12.0);
starts[1][2] = new Double(13.0);
ends[0][0] = new Double(4.0);
ends[0][1] = new Double(5.0);
ends[0][2] = new Double(6.0);
ends[1][0] = new Double(16.0);
ends[1][1] = new Double(15.0);
ends[1][2] = new Double(14.0);
DefaultIntervalCategoryDataset d = new DefaultIntervalCategoryDataset(
starts, ends);
Range r = DatasetUtilities.iterateRangeBounds(d, false);
assertEquals(4.0, r.getLowerBound(), EPSILON);
assertEquals(16.0, r.getUpperBound(), EPSILON);
r = DatasetUtilities.iterateRangeBounds(d, true);
assertEquals(1.0, r.getLowerBound(), EPSILON);
assertEquals(16.0, r.getUpperBound(), EPSILON);
}
/**
* Some tests for the iterateRangeBounds() method.
*/
@Test
public void testIterateRangeBounds() {
XYDataset dataset = createXYDataset1();
Range r = DatasetUtilities.iterateRangeBounds(dataset);
assertEquals(100.0, r.getLowerBound(), EPSILON);
assertEquals(105.0, r.getUpperBound(), EPSILON);
}
/**
* Check the range returned when a series contains a null value.
*/
@Test
public void testIterateRangeBounds2() {
XYSeries s1 = new XYSeries("S1");
s1.add(1.0, 1.1);
s1.add(2.0, null);
s1.add(3.0, 3.3);
XYSeriesCollection dataset = new XYSeriesCollection(s1);
Range r = DatasetUtilities.iterateRangeBounds(dataset);
assertEquals(1.1, r.getLowerBound(), EPSILON);
assertEquals(3.3, r.getUpperBound(), EPSILON);
}
/**
* Some checks for the iterateRangeBounds() method.
*/
@Test
public void testIterateRangeBounds3() {
// an empty dataset should return a null range
XYSeriesCollection dataset = new XYSeriesCollection();
Range r = DatasetUtilities.iterateRangeBounds(dataset);
assertNull(r);
XYSeries s1 = new XYSeries("S1");
dataset.addSeries(s1);
r = DatasetUtilities.iterateRangeBounds(dataset);
assertNull(r);
// a dataset with a single value
s1.add(1.0, 1.23);
r = DatasetUtilities.iterateRangeBounds(dataset);
assertEquals(1.23, r.getLowerBound(), EPSILON);
assertEquals(1.23, r.getUpperBound(), EPSILON);
// null is ignored
s1.add(2.0, null);
r = DatasetUtilities.iterateRangeBounds(dataset);
assertEquals(1.23, r.getLowerBound(), EPSILON);
assertEquals(1.23, r.getUpperBound(), EPSILON);
// Double.NaN DOESN'T mess things up
s1.add(3.0, Double.NaN);
r = DatasetUtilities.iterateRangeBounds(dataset);
assertEquals(1.23, r.getLowerBound(), EPSILON);
assertEquals(1.23, r.getUpperBound(), EPSILON);
}
/**
* Some checks for the range bounds of a dataset that implements the
* {@link IntervalXYDataset} interface.
*/
@Test
public void testIterateRangeBounds4() {
YIntervalSeriesCollection dataset = new YIntervalSeriesCollection();
Range r = DatasetUtilities.iterateRangeBounds(dataset);
assertNull(r);
YIntervalSeries s1 = new YIntervalSeries("S1");
dataset.addSeries(s1);
r = DatasetUtilities.iterateRangeBounds(dataset);
assertNull(r);
// try a single item
s1.add(1.0, 2.0, 1.5, 2.5);
r = DatasetUtilities.iterateRangeBounds(dataset);
assertEquals(1.5, r.getLowerBound(), EPSILON);
assertEquals(2.5, r.getUpperBound(), EPSILON);
// another item
s1.add(2.0, 2.0, 1.4, 2.1);
r = DatasetUtilities.iterateRangeBounds(dataset);
assertEquals(1.4, r.getLowerBound(), EPSILON);
assertEquals(2.5, r.getUpperBound(), EPSILON);
// another empty series
YIntervalSeries s2 = new YIntervalSeries("S2");
dataset.addSeries(s2);
r = DatasetUtilities.iterateRangeBounds(dataset);
assertEquals(1.4, r.getLowerBound(), EPSILON);
assertEquals(2.5, r.getUpperBound(), EPSILON);
// an item in series 2
s2.add(1.0, 2.0, 1.9, 2.6);
r = DatasetUtilities.iterateRangeBounds(dataset);
assertEquals(1.4, r.getLowerBound(), EPSILON);
assertEquals(2.6, r.getUpperBound(), EPSILON);
}
/**
* Some tests for the findMinimumDomainValue() method.
*/
@Test
public void testFindMinimumDomainValue() {
XYDataset dataset = createXYDataset1();
Number minimum = DatasetUtilities.findMinimumDomainValue(dataset);
assertEquals(new Double(1.0), minimum);
}
/**
* Some tests for the findMaximumDomainValue() method.
*/
@Test
public void testFindMaximumDomainValue() {
XYDataset dataset = createXYDataset1();
Number maximum = DatasetUtilities.findMaximumDomainValue(dataset);
assertEquals(new Double(3.0), maximum);
}
/**
* Some tests for the findMinimumRangeValue() method.
*/
@Test
public void testFindMinimumRangeValue() {
CategoryDataset d1 = createCategoryDataset1();
Number min1 = DatasetUtilities.findMinimumRangeValue(d1);
assertEquals(new Double(1.0), min1);
XYDataset d2 = createXYDataset1();
Number min2 = DatasetUtilities.findMinimumRangeValue(d2);
assertEquals(new Double(100.0), min2);
}
/**
* Some tests for the findMaximumRangeValue() method.
*/
@Test
public void testFindMaximumRangeValue() {
CategoryDataset d1 = createCategoryDataset1();
Number max1 = DatasetUtilities.findMaximumRangeValue(d1);
assertEquals(new Double(6.0), max1);
XYDataset dataset = createXYDataset1();
Number maximum = DatasetUtilities.findMaximumRangeValue(dataset);
assertEquals(new Double(105.0), maximum);
}
/**
* A quick test of the min and max range value methods.
*/
@Test
public void testMinMaxRange() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
dataset.addValue(100.0, "Series 1", "Type 1");
dataset.addValue(101.1, "Series 1", "Type 2");
Number min = DatasetUtilities.findMinimumRangeValue(dataset);
assertTrue(min.doubleValue() < 100.1);
Number max = DatasetUtilities.findMaximumRangeValue(dataset);
assertTrue(max.doubleValue() > 101.0);
}
/**
* A test to reproduce bug report 803660.
*/
@Test
public void test803660() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
dataset.addValue(100.0, "Series 1", "Type 1");
dataset.addValue(101.1, "Series 1", "Type 2");
Number n = DatasetUtilities.findMaximumRangeValue(dataset);
assertTrue(n.doubleValue() > 101.0);
}
/**
* A simple test for the cumulative range calculation. The sequence of
* "cumulative" values are considered to be { 0.0, 10.0, 25.0, 18.0 } so
* the range should be 0.0 -> 25.0.
*/
@Test
public void testCumulativeRange1() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
dataset.addValue(10.0, "Series 1", "Start");
dataset.addValue(15.0, "Series 1", "Delta 1");
dataset.addValue(-7.0, "Series 1", "Delta 2");
Range range = DatasetUtilities.findCumulativeRangeBounds(dataset);
assertEquals(0.0, range.getLowerBound(), 0.00000001);
assertEquals(25.0, range.getUpperBound(), 0.00000001);
}
/**
* A further test for the cumulative range calculation.
*/
@Test
public void testCumulativeRange2() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
dataset.addValue(-21.4, "Series 1", "Start Value");
dataset.addValue(11.57, "Series 1", "Delta 1");
dataset.addValue(3.51, "Series 1", "Delta 2");
dataset.addValue(-12.36, "Series 1", "Delta 3");
dataset.addValue(3.39, "Series 1", "Delta 4");
dataset.addValue(38.68, "Series 1", "Delta 5");
dataset.addValue(-43.31, "Series 1", "Delta 6");
dataset.addValue(-29.59, "Series 1", "Delta 7");
dataset.addValue(35.30, "Series 1", "Delta 8");
dataset.addValue(5.0, "Series 1", "Delta 9");
Range range = DatasetUtilities.findCumulativeRangeBounds(dataset);
assertEquals(-49.51, range.getLowerBound(), 0.00000001);
assertEquals(23.39, range.getUpperBound(), 0.00000001);
}
/**
* A further test for the cumulative range calculation.
*/
@Test
public void testCumulativeRange3() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
dataset.addValue(15.76, "Product 1", "Labour");
dataset.addValue(8.66, "Product 1", "Administration");
dataset.addValue(4.71, "Product 1", "Marketing");
dataset.addValue(3.51, "Product 1", "Distribution");
dataset.addValue(32.64, "Product 1", "Total Expense");
Range range = DatasetUtilities.findCumulativeRangeBounds(dataset);
assertEquals(0.0, range.getLowerBound(), EPSILON);
assertEquals(65.28, range.getUpperBound(), EPSILON);
}
/**
* Check that the findCumulativeRangeBounds() method ignores Double.NaN
* values.
*/
@Test
public void testCumulativeRange_NaN() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
dataset.addValue(10.0, "Series 1", "Start");
dataset.addValue(15.0, "Series 1", "Delta 1");
dataset.addValue(Double.NaN, "Series 1", "Delta 2");
Range range = DatasetUtilities.findCumulativeRangeBounds(dataset);
assertEquals(0.0, range.getLowerBound(), EPSILON);
assertEquals(25.0, range.getUpperBound(), EPSILON);
}
/**
* Test the creation of a dataset from an array.
*/
@Test
public void testCreateCategoryDataset1() {
String[] rowKeys = {"R1", "R2", "R3"};
String[] columnKeys = {"C1", "C2"};
double[][] data = new double[3][];
data[0] = new double[] {1.1, 1.2};
data[1] = new double[] {2.1, 2.2};
data[2] = new double[] {3.1, 3.2};
CategoryDataset dataset = DatasetUtilities.createCategoryDataset(
rowKeys, columnKeys, data);
assertTrue(dataset.getRowCount() == 3);
assertTrue(dataset.getColumnCount() == 2);
}
/**
* Test the creation of a dataset from an array. This time is should fail
* because the array dimensions are around the wrong way.
*/
@Test
public void testCreateCategoryDataset2() {
boolean pass = false;
String[] rowKeys = {"R1", "R2", "R3"};
String[] columnKeys = {"C1", "C2"};
double[][] data = new double[2][];
data[0] = new double[] {1.1, 1.2, 1.3};
data[1] = new double[] {2.1, 2.2, 2.3};
CategoryDataset dataset = null;
try {
dataset = DatasetUtilities.createCategoryDataset(rowKeys,
columnKeys, data);
}
catch (IllegalArgumentException e) {
pass = true; // got it!
}
assertTrue(pass);
assertTrue(dataset == null);
}
/**
* Test for a bug reported in the forum:
*
* http://www.jfree.org/phpBB2/viewtopic.php?t=7903
*/
@Test
public void testMaximumStackedRangeValue() {
double v1 = 24.3;
double v2 = 14.2;
double v3 = 33.2;
double v4 = 32.4;
double v5 = 26.3;
double v6 = 22.6;
Number answer = new Double(Math.max(v1 + v2 + v3, v4 + v5 + v6));
DefaultCategoryDataset d = new DefaultCategoryDataset();
d.addValue(v1, "Row 0", "Column 0");
d.addValue(v2, "Row 1", "Column 0");
d.addValue(v3, "Row 2", "Column 0");
d.addValue(v4, "Row 0", "Column 1");
d.addValue(v5, "Row 1", "Column 1");
d.addValue(v6, "Row 2", "Column 1");
Number max = DatasetUtilities.findMaximumStackedRangeValue(d);
assertTrue(max.equals(answer));
}
/**
* Some checks for the findStackedRangeBounds() method.
*/
@Test
public void testFindStackedRangeBounds_CategoryDataset1() {
CategoryDataset d1 = createCategoryDataset1();
Range r = DatasetUtilities.findStackedRangeBounds(d1);
assertEquals(0.0, r.getLowerBound(), EPSILON);
assertEquals(15.0, r.getUpperBound(), EPSILON);
d1 = createCategoryDataset2();
r = DatasetUtilities.findStackedRangeBounds(d1);
assertEquals(-2.0, r.getLowerBound(), EPSILON);
assertEquals(2.0, r.getUpperBound(), EPSILON);
}
/**
* Some checks for the findStackedRangeBounds() method.
*/
@Test
public void testFindStackedRangeBounds_CategoryDataset2() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
Range r = DatasetUtilities.findStackedRangeBounds(dataset);
assertTrue(r == null);
dataset.addValue(5.0, "R1", "C1");
r = DatasetUtilities.findStackedRangeBounds(dataset, 3.0);
assertEquals(3.0, r.getLowerBound(), EPSILON);
assertEquals(8.0, r.getUpperBound(), EPSILON);
dataset.addValue(-1.0, "R2", "C1");
r = DatasetUtilities.findStackedRangeBounds(dataset, 3.0);
assertEquals(2.0, r.getLowerBound(), EPSILON);
assertEquals(8.0, r.getUpperBound(), EPSILON);
dataset.addValue(null, "R3", "C1");
r = DatasetUtilities.findStackedRangeBounds(dataset, 3.0);
assertEquals(2.0, r.getLowerBound(), EPSILON);
assertEquals(8.0, r.getUpperBound(), EPSILON);
dataset.addValue(Double.NaN, "R4", "C1");
r = DatasetUtilities.findStackedRangeBounds(dataset, 3.0);
assertEquals(2.0, r.getLowerBound(), EPSILON);
assertEquals(8.0, r.getUpperBound(), EPSILON);
}
/**
* Some checks for the findStackedRangeBounds(CategoryDataset,
* KeyToGroupMap) method.
*/
@Test
public void testFindStackedRangeBounds_CategoryDataset3() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
KeyToGroupMap map = new KeyToGroupMap("Group A");
Range r = DatasetUtilities.findStackedRangeBounds(dataset, map);
assertTrue(r == null);
dataset.addValue(1.0, "R1", "C1");
dataset.addValue(2.0, "R2", "C1");
dataset.addValue(3.0, "R3", "C1");
dataset.addValue(4.0, "R4", "C1");
map.mapKeyToGroup("R1", "Group A");
map.mapKeyToGroup("R2", "Group A");
map.mapKeyToGroup("R3", "Group B");
map.mapKeyToGroup("R4", "Group B");
r = DatasetUtilities.findStackedRangeBounds(dataset, map);
assertEquals(0.0, r.getLowerBound(), EPSILON);
assertEquals(7.0, r.getUpperBound(), EPSILON);
dataset.addValue(null, "R5", "C1");
r = DatasetUtilities.findStackedRangeBounds(dataset, map);
assertEquals(0.0, r.getLowerBound(), EPSILON);
assertEquals(7.0, r.getUpperBound(), EPSILON);
dataset.addValue(Double.NaN, "R6", "C1");
r = DatasetUtilities.findStackedRangeBounds(dataset, map);
assertEquals(0.0, r.getLowerBound(), EPSILON);
assertEquals(7.0, r.getUpperBound(), EPSILON);
}
/**
* Some checks for the findStackedRangeBounds() method.
*/
@Test
public void testFindStackedRangeBoundsForTableXYDataset1() {
TableXYDataset d2 = createTableXYDataset1();
Range r = DatasetUtilities.findStackedRangeBounds(d2);
assertEquals(-2.0, r.getLowerBound(), EPSILON);
assertEquals(2.0, r.getUpperBound(), EPSILON);
}
/**
* Some checks for the findStackedRangeBounds() method.
*/
@Test
public void testFindStackedRangeBoundsForTableXYDataset2() {
DefaultTableXYDataset d = new DefaultTableXYDataset();
Range r = DatasetUtilities.findStackedRangeBounds(d);
assertEquals(r, new Range(0.0, 0.0));
}
/**
* Tests the stacked range extent calculation.
*/
@Test
public void testStackedRangeWithMap() {
CategoryDataset d = createCategoryDataset1();
KeyToGroupMap map = new KeyToGroupMap("G0");
map.mapKeyToGroup("R2", "G1");
Range r = DatasetUtilities.findStackedRangeBounds(d, map);
assertEquals(0.0, r.getLowerBound(), EPSILON);
assertEquals(9.0, r.getUpperBound(), EPSILON);
}
/**
* Some checks for the isEmptyOrNull(XYDataset) method.
*/
@Test
public void testIsEmptyOrNullXYDataset() {
XYSeriesCollection dataset = null;
assertTrue(DatasetUtilities.isEmptyOrNull(dataset));
dataset = new XYSeriesCollection();
assertTrue(DatasetUtilities.isEmptyOrNull(dataset));
XYSeries s1 = new XYSeries("S1");
dataset.addSeries(s1);
assertTrue(DatasetUtilities.isEmptyOrNull(dataset));
s1.add(1.0, 2.0);
assertFalse(DatasetUtilities.isEmptyOrNull(dataset));
s1.clear();
assertTrue(DatasetUtilities.isEmptyOrNull(dataset));
}
/**
* Some checks for the limitPieDataset() methods.
*/
@Test
public void testLimitPieDataset() {
// check that empty dataset is handled OK
DefaultPieDataset d1 = new DefaultPieDataset();
PieDataset d2 = DatasetUtilities.createConsolidatedPieDataset(d1,
"Other", 0.05);
assertEquals(0, d2.getItemCount());
// check that minItem limit is observed
d1.setValue("Item 1", 1.0);
d1.setValue("Item 2", 49.50);
d1.setValue("Item 3", 49.50);
d2 = DatasetUtilities.createConsolidatedPieDataset(d1, "Other", 0.05);
assertEquals(3, d2.getItemCount());
assertEquals("Item 1", d2.getKey(0));
assertEquals("Item 2", d2.getKey(1));
assertEquals("Item 3", d2.getKey(2));
// check that minItem limit is observed
d1.setValue("Item 4", 1.0);
d2 = DatasetUtilities.createConsolidatedPieDataset(d1, "Other", 0.05,
2);
// and that simple aggregation works
assertEquals(3, d2.getItemCount());
assertEquals("Item 2", d2.getKey(0));
assertEquals("Item 3", d2.getKey(1));
assertEquals("Other", d2.getKey(2));
assertEquals(new Double(2.0), d2.getValue("Other"));
}
/**
* Some checks for the sampleFunction2D() method.
*/
@Test
public void testSampleFunction2D() {
Function2D f = new LineFunction2D(0, 1);
XYDataset dataset = DatasetUtilities.sampleFunction2D(f, 0.0, 1.0, 2,
"S1");
assertEquals(1, dataset.getSeriesCount());
assertEquals("S1", dataset.getSeriesKey(0));
assertEquals(2, dataset.getItemCount(0));
assertEquals(0.0, dataset.getXValue(0, 0), EPSILON);
assertEquals(0.0, dataset.getYValue(0, 0), EPSILON);
assertEquals(1.0, dataset.getXValue(0, 1), EPSILON);
assertEquals(1.0, dataset.getYValue(0, 1), EPSILON);
}
/**
* A simple check for the findMinimumStackedRangeValue() method.
*/
@Test
public void testFindMinimumStackedRangeValue() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
// an empty dataset should return a null max
Number min = DatasetUtilities.findMinimumStackedRangeValue(dataset);
assertNull(min);
dataset.addValue(1.0, "R1", "C1");
min = DatasetUtilities.findMinimumStackedRangeValue(dataset);
assertEquals(0.0, min.doubleValue(), EPSILON);
dataset.addValue(2.0, "R2", "C1");
min = DatasetUtilities.findMinimumStackedRangeValue(dataset);
assertEquals(0.0, min.doubleValue(), EPSILON);
dataset.addValue(-3.0, "R3", "C1");
min = DatasetUtilities.findMinimumStackedRangeValue(dataset);
assertEquals(-3.0, min.doubleValue(), EPSILON);
dataset.addValue(Double.NaN, "R4", "C1");
min = DatasetUtilities.findMinimumStackedRangeValue(dataset);
assertEquals(-3.0, min.doubleValue(), EPSILON);
}
/**
* A simple check for the findMaximumStackedRangeValue() method.
*/
@Test
public void testFindMinimumStackedRangeValue2() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
dataset.addValue(-1.0, "R1", "C1");
Number min = DatasetUtilities.findMinimumStackedRangeValue(dataset);
assertEquals(-1.0, min.doubleValue(), EPSILON);
dataset.addValue(-2.0, "R2", "C1");
min = DatasetUtilities.findMinimumStackedRangeValue(dataset);
assertEquals(-3.0, min.doubleValue(), EPSILON);
}
/**
* A simple check for the findMaximumStackedRangeValue() method.
*/
@Test
public void testFindMaximumStackedRangeValue() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
// an empty dataset should return a null max
Number max = DatasetUtilities.findMaximumStackedRangeValue(dataset);
assertNull(max);
dataset.addValue(1.0, "R1", "C1");
max = DatasetUtilities.findMaximumStackedRangeValue(dataset);
assertEquals(1.0, max.doubleValue(), EPSILON);
dataset.addValue(2.0, "R2", "C1");
max = DatasetUtilities.findMaximumStackedRangeValue(dataset);
assertEquals(3.0, max.doubleValue(), EPSILON);
dataset.addValue(-3.0, "R3", "C1");
max = DatasetUtilities.findMaximumStackedRangeValue(dataset);
assertEquals(3.0, max.doubleValue(), EPSILON);
dataset.addValue(Double.NaN, "R4", "C1");
max = DatasetUtilities.findMaximumStackedRangeValue(dataset);
assertEquals(3.0, max.doubleValue(), EPSILON);
}
/**
* A simple check for the findMaximumStackedRangeValue() method.
*/
@Test
public void testFindMaximumStackedRangeValue2() {
DefaultCategoryDataset dataset = new DefaultCategoryDataset();
dataset.addValue(-1.0, "R1", "C1");
Number max = DatasetUtilities.findMaximumStackedRangeValue(dataset);
assertEquals(0.0, max.doubleValue(), EPSILON);
dataset.addValue(-2.0, "R2", "C1");
max = DatasetUtilities.findMaximumStackedRangeValue(dataset);
assertEquals(0.0, max.doubleValue(), EPSILON);
}
/**
* Creates a dataset for testing.
*
* @return A dataset.
*/
private CategoryDataset createCategoryDataset1() {
DefaultCategoryDataset result = new DefaultCategoryDataset();
result.addValue(1.0, "R0", "C0");
result.addValue(1.0, "R1", "C0");
result.addValue(1.0, "R2", "C0");
result.addValue(4.0, "R0", "C1");
result.addValue(5.0, "R1", "C1");
result.addValue(6.0, "R2", "C1");
return result;
}
/**
* Creates a dataset for testing.
*
* @return A dataset.
*/
private CategoryDataset createCategoryDataset2() {
DefaultCategoryDataset result = new DefaultCategoryDataset();
result.addValue(1.0, "R0", "C0");
result.addValue(-2.0, "R1", "C0");
result.addValue(2.0, "R0", "C1");
result.addValue(-1.0, "R1", "C1");
return result;
}
/**
* Creates a dataset for testing.
*
* @return A dataset.
*/
private XYDataset createXYDataset1() {
XYSeries series1 = new XYSeries("S1");
series1.add(1.0, 100.0);
series1.add(2.0, 101.0);
series1.add(3.0, 102.0);
XYSeries series2 = new XYSeries("S2");
series2.add(1.0, 103.0);
series2.add(2.0, null);
series2.add(3.0, 105.0);
XYSeriesCollection result = new XYSeriesCollection();
result.addSeries(series1);
result.addSeries(series2);
result.setIntervalWidth(0.0);
return result;
}
/**
* Creates a sample dataset for testing purposes.
*
* @return A sample dataset.
*/
private TableXYDataset createTableXYDataset1() {
DefaultTableXYDataset dataset = new DefaultTableXYDataset();
XYSeries s1 = new XYSeries("Series 1", true, false);
s1.add(1.0, 1.0);
s1.add(2.0, 2.0);
dataset.addSeries(s1);
XYSeries s2 = new XYSeries("Series 2", true, false);
s2.add(1.0, -2.0);
s2.add(2.0, -1.0);
dataset.addSeries(s2);
return dataset;
}
/**
* Some checks for the iteratorToFindRangeBounds(XYDataset...) method.
*/
@Test
public void testIterateToFindRangeBounds1_XYDataset() {
// null dataset throws IllegalArgumentException
boolean pass = false;
try {
DatasetUtilities.iterateToFindRangeBounds(null, new ArrayList(),
new Range(0.0, 1.0), true);
}
catch (IllegalArgumentException e) {
pass = true;
}
assertTrue(pass);
// null list throws IllegalArgumentException
pass = false;
try {
DatasetUtilities.iterateToFindRangeBounds(new XYSeriesCollection(),
null, new Range(0.0, 1.0), true);
}
catch (IllegalArgumentException e) {
pass = true;
}
assertTrue(pass);
// null range throws IllegalArgumentException
pass = false;
try {
DatasetUtilities.iterateToFindRangeBounds(new XYSeriesCollection(),
new ArrayList(), null, true);
}
catch (IllegalArgumentException e) {
pass = true;
}
assertTrue(pass);
}
/**
* Some tests for the iterateToFindRangeBounds() method.
*/
@Test
public void testIterateToFindRangeBounds2_XYDataset() {
List visibleSeriesKeys = new ArrayList();
Range xRange = new Range(0.0, 10.0);
// empty dataset returns null
XYSeriesCollection dataset = new XYSeriesCollection();
Range r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false);
assertNull(r);
// add an empty series
XYSeries s1 = new XYSeries("A");
dataset.addSeries(s1);
visibleSeriesKeys.add("A");
r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false);
assertNull(r);
// check a null value
s1.add(1.0, null);
r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false);
assertNull(r);
// check a NaN
s1.add(2.0, Double.NaN);
r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false);
assertNull(r);
// check a regular value
s1.add(3.0, 5.0);
r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false);
assertEquals(new Range(5.0, 5.0), r);
// check another regular value
s1.add(4.0, 6.0);
r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false);
assertEquals(new Range(5.0, 6.0), r);
// add a second series
XYSeries s2 = new XYSeries("B");
dataset.addSeries(s2);
r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false);
assertEquals(new Range(5.0, 6.0), r);
visibleSeriesKeys.add("B");
r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false);
assertEquals(new Range(5.0, 6.0), r);
// add a value to the second series
s2.add(5.0, 15.0);
r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false);
assertEquals(new Range(5.0, 15.0), r);
// add a value that isn't in the xRange
s2.add(15.0, 150.0);
r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false);
assertEquals(new Range(5.0, 15.0), r);
r = DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, new Range(0.0, 20.0), false);
assertEquals(new Range(5.0, 150.0), r);
}
/**
* Some checks for the iterateToFindRangeBounds() method when applied to
* a BoxAndWhiskerXYDataset.
*/
@Test
public void testIterateToFindRangeBounds_BoxAndWhiskerXYDataset() {
DefaultBoxAndWhiskerXYDataset dataset
= new DefaultBoxAndWhiskerXYDataset("Series 1");
List visibleSeriesKeys = new ArrayList();
visibleSeriesKeys.add("Series 1");
Range xRange = new Range(Double.NEGATIVE_INFINITY,
Double.POSITIVE_INFINITY);
assertNull(DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false));
dataset.add(new Date(50L), new BoxAndWhiskerItem(5.0, 4.9, 2.0, 8.0,
1.0, 9.0, 0.0, 10.0, new ArrayList()));
assertEquals(new Range(5.0, 5.0),
DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, false));
assertEquals(new Range(1.0, 9.0),
DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, xRange, true));
}
/**
* Some checks for the iterateToFindRangeBounds(CategoryDataset...)
* method.
*/
@Test
public void testIterateToFindRangeBounds_StatisticalCategoryDataset() {
DefaultStatisticalCategoryDataset dataset
= new DefaultStatisticalCategoryDataset();
List visibleSeriesKeys = new ArrayList();
assertNull(DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, false));
dataset.add(1.0, 0.5, "R1", "C1");
visibleSeriesKeys.add("R1");
assertEquals(new Range(1.0, 1.0),
DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, false));
assertEquals(new Range(0.5, 1.5),
DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, true));
}
/**
* Some checks for the iterateToFindRangeBounds(CategoryDataset...) method
* with a {@link MultiValueCategoryDataset}.
*/
@Test
public void testIterateToFindRangeBounds_MultiValueCategoryDataset() {
DefaultMultiValueCategoryDataset dataset
= new DefaultMultiValueCategoryDataset();
List visibleSeriesKeys = new ArrayList();
assertNull(DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, true));
List values = Arrays.asList(new Double[] {new Double(1.0)});
dataset.add(values, "R1", "C1");
visibleSeriesKeys.add("R1");
assertEquals(new Range(1.0, 1.0),
DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, true));
values = Arrays.asList(new Double[] {new Double(2.0), new Double(3.0)});
dataset.add(values, "R1", "C2");
assertEquals(new Range(1.0, 3.0),
DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, true));
values = Arrays.asList(new Double[] {new Double(-1.0),
new Double(-2.0)});
dataset.add(values, "R2", "C1");
assertEquals(new Range(1.0, 3.0),
DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, true));
visibleSeriesKeys.add("R2");
assertEquals(new Range(-2.0, 3.0),
DatasetUtilities.iterateToFindRangeBounds(dataset,
visibleSeriesKeys, true));
}
/**
* Some checks for the iterateRangeBounds() method when passed an
* IntervalCategoryDataset.
*/
@Test
public void testIterateRangeBounds_IntervalCategoryDataset() {
TestIntervalCategoryDataset d = new TestIntervalCategoryDataset();
d.addItem(1.0, 2.0, 3.0, "R1", "C1");
assertEquals(new Range(1.0, 3.0),
DatasetUtilities.iterateRangeBounds(d));
d = new TestIntervalCategoryDataset();
d.addItem(2.5, 2.0, 3.0, "R1", "C1");
assertEquals(new Range(2.0, 3.0),
DatasetUtilities.iterateRangeBounds(d));
d = new TestIntervalCategoryDataset();
d.addItem(4.0, 2.0, 3.0, "R1", "C1");
assertEquals(new Range(2.0, 4.0),
DatasetUtilities.iterateRangeBounds(d));
d = new TestIntervalCategoryDataset();
d.addItem(null, new Double(2.0), new Double(3.0), "R1", "C1");
assertEquals(new Range(2.0, 3.0),
DatasetUtilities.iterateRangeBounds(d));
// try some nulls
d = new TestIntervalCategoryDataset();
d.addItem(null, null, null, "R1", "C1");
assertNull(DatasetUtilities.iterateRangeBounds(d));
d = new TestIntervalCategoryDataset();
d.addItem(new Double(1.0), null, null, "R1", "C1");
assertEquals(new Range(1.0, 1.0),
DatasetUtilities.iterateRangeBounds(d));
d = new TestIntervalCategoryDataset();
d.addItem(null, new Double(1.0), null, "R1", "C1");
assertEquals(new Range(1.0, 1.0),
DatasetUtilities.iterateRangeBounds(d));
d = new TestIntervalCategoryDataset();
d.addItem(null, null, new Double(1.0), "R1", "C1");
assertEquals(new Range(1.0, 1.0),
DatasetUtilities.iterateRangeBounds(d));
}
/**
* A test for bug 2849731.
*/
@Test
public void testBug2849731() {
TestIntervalCategoryDataset d = new TestIntervalCategoryDataset();
d.addItem(2.5, 2.0, 3.0, "R1", "C1");
d.addItem(new Double(4.0), null, null, "R2", "C1");
assertEquals(new Range(2.0, 4.0),
DatasetUtilities.iterateRangeBounds(d));
}
/**
* Another test for bug 2849731.
*/
@Test
public void testBug2849731_2() {
XYIntervalSeriesCollection d = new XYIntervalSeriesCollection();
XYIntervalSeries s = new XYIntervalSeries("S1");
s.add(1.0, Double.NaN, Double.NaN, Double.NaN, 1.5, Double.NaN);
d.addSeries(s);
Range r = DatasetUtilities.iterateDomainBounds(d);
assertEquals(1.0, r.getLowerBound(), EPSILON);
assertEquals(1.0, r.getUpperBound(), EPSILON);
s.add(1.0, 1.5, Double.NaN, Double.NaN, 1.5, Double.NaN);
r = DatasetUtilities.iterateDomainBounds(d);
assertEquals(1.0, r.getLowerBound(), EPSILON);
assertEquals(1.5, r.getUpperBound(), EPSILON);
s.add(1.0, Double.NaN, 0.5, Double.NaN, 1.5, Double.NaN);
r = DatasetUtilities.iterateDomainBounds(d);
assertEquals(0.5, r.getLowerBound(), EPSILON);
assertEquals(1.5, r.getUpperBound(), EPSILON);
}
/**
* Yet another test for bug 2849731.
*/
@Test
public void testBug2849731_3() {
XYIntervalSeriesCollection d = new XYIntervalSeriesCollection();
XYIntervalSeries s = new XYIntervalSeries("S1");
s.add(1.0, Double.NaN, Double.NaN, 1.5, Double.NaN, Double.NaN);
d.addSeries(s);
Range r = DatasetUtilities.iterateRangeBounds(d);
assertEquals(1.5, r.getLowerBound(), EPSILON);
assertEquals(1.5, r.getUpperBound(), EPSILON);
s.add(1.0, 1.5, Double.NaN, Double.NaN, Double.NaN, 2.5);
r = DatasetUtilities.iterateRangeBounds(d);
assertEquals(1.5, r.getLowerBound(), EPSILON);
assertEquals(2.5, r.getUpperBound(), EPSILON);
s.add(1.0, Double.NaN, 0.5, Double.NaN, 3.5, Double.NaN);
r = DatasetUtilities.iterateRangeBounds(d);
assertEquals(1.5, r.getLowerBound(), EPSILON);
assertEquals(3.5, r.getUpperBound(), EPSILON);
}
/**
* Check the findYValue() method with a dataset that is in ascending order
* of x-values.
*/
@Test
public void testFindYValue() {
XYSeries series = new XYSeries("S1");
XYSeriesCollection dataset = new XYSeriesCollection(series);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 100.0)));
series.add(1.0, 5.0);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 0.0)));
assertEquals(5.0, DatasetUtilities.findYValue(dataset, 0, 1.0), EPSILON);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 2.0)));
series.add(2.0, 10.0);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 0.0)));
assertEquals(5.0, DatasetUtilities.findYValue(dataset, 0, 1.0), EPSILON);
assertEquals(6.25, DatasetUtilities.findYValue(dataset, 0, 1.25), EPSILON);
assertEquals(7.5, DatasetUtilities.findYValue(dataset, 0, 1.5), EPSILON);
assertEquals(10.0, DatasetUtilities.findYValue(dataset, 0, 2.0), EPSILON);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 3.0)));
}
/**
* Check the findYValue() method with a dataset that is not sorted.
*/
@Test
public void testFindYValueNonSorted() {
XYSeries series = new XYSeries("S1", false);
XYSeriesCollection dataset = new XYSeriesCollection(series);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 100.0)));
series.add(1.0, 5.0);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 0.0)));
assertEquals(5.0, DatasetUtilities.findYValue(dataset, 0, 1.0), EPSILON);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 2.0)));
series.add(0.0, 10.0);
series.add(4.0, 20.0);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, -0.5)));
assertEquals(10.0, DatasetUtilities.findYValue(dataset, 0, 0.0), EPSILON);
assertEquals(5.0, DatasetUtilities.findYValue(dataset, 0, 1.0), EPSILON);
assertEquals(15.0, DatasetUtilities.findYValue(dataset, 0, 2.0), EPSILON);
assertEquals(20.0, DatasetUtilities.findYValue(dataset, 0, 4.0), EPSILON);
assertEquals(17.5, DatasetUtilities.findYValue(dataset, 0, 3.0), EPSILON);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 5.0)));
}
/**
* Check the findYValue() method with a dataset that allows duplicate
* values.
*/
@Test
public void testFindYValueWithDuplicates() {
XYSeries series = new XYSeries("S1", true, true);
XYSeriesCollection dataset = new XYSeriesCollection(series);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 100.0)));
series.add(1.0, 5.0);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 0.0)));
assertEquals(5.0, DatasetUtilities.findYValue(dataset, 0, 1.0), EPSILON);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 2.0)));
series.add(1.0, 10.0);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 0.0)));
assertEquals(5.0, DatasetUtilities.findYValue(dataset, 0, 1.0), EPSILON);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 2.0)));
series.add(2.0, 10.0);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 0.0)));
assertEquals(5.0, DatasetUtilities.findYValue(dataset, 0, 1.0), EPSILON);
assertEquals(10.0, DatasetUtilities.findYValue(dataset, 0, 1.25), EPSILON);
assertEquals(10.0, DatasetUtilities.findYValue(dataset, 0, 1.5), EPSILON);
assertEquals(10.0, DatasetUtilities.findYValue(dataset, 0, 2.0), EPSILON);
assertTrue(Double.isNaN(DatasetUtilities.findYValue(dataset, 0, 3.0)));
}
}
