Java Code Examples for org.apache.commons.math.stat.StatUtils#mean()
The following examples show how to use
org.apache.commons.math.stat.StatUtils#mean() .
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Example 1
| Source File: SemiVarianceTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
public void testSample() {
final double[] values = { -2.0d, 2.0d, 4.0d, -2.0d, 22.0d, 11.0d, 3.0d, 14.0d, 5.0d };
final int length = values.length;
final double mean = StatUtils.mean(values); // 6.333...
final SemiVariance sv = new SemiVariance(); // Default bias correction is true
final double downsideSemiVariance = sv.evaluate(values); // Downside is the default
assertEquals(TestUtils.sumSquareDev(new double[] {-2d, 2d, 4d, -2d, 3d, 5d}, mean) / (length - 1),
downsideSemiVariance, 1E-14);
sv.setVarianceDirection(SemiVariance.UPSIDE_VARIANCE);
final double upsideSemiVariance = sv.evaluate(values);
assertEquals(TestUtils.sumSquareDev(new double[] {22d, 11d, 14d}, mean) / (length - 1),
upsideSemiVariance, 1E-14);
// Verify that upper + lower semivariance against the mean sum to variance
assertEquals(StatUtils.variance(values), downsideSemiVariance + upsideSemiVariance, 10e-12);
}
Example 2
| Source File: SemiVarianceTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
public void testSample() {
final double[] values = { -2.0d, 2.0d, 4.0d, -2.0d, 22.0d, 11.0d, 3.0d, 14.0d, 5.0d };
final int length = values.length;
final double mean = StatUtils.mean(values); // 6.333...
final SemiVariance sv = new SemiVariance(); // Default bias correction is true
final double downsideSemiVariance = sv.evaluate(values); // Downside is the default
assertEquals(TestUtils.sumSquareDev(new double[] {-2d, 2d, 4d, -2d, 3d, 5d}, mean) / (length - 1),
downsideSemiVariance, 1E-14);
sv.setVarianceDirection(SemiVariance.UPSIDE_VARIANCE);
final double upsideSemiVariance = sv.evaluate(values);
assertEquals(TestUtils.sumSquareDev(new double[] {22d, 11d, 14d}, mean) / (length - 1),
upsideSemiVariance, 1E-14);
// Verify that upper + lower semivariance against the mean sum to variance
assertEquals(StatUtils.variance(values), downsideSemiVariance + upsideSemiVariance, 10e-12);
}
Example 3
| Source File: SemiVarianceTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
@Test
public void testSample() {
final double[] values = { -2.0d, 2.0d, 4.0d, -2.0d, 22.0d, 11.0d, 3.0d, 14.0d, 5.0d };
final int length = values.length;
final double mean = StatUtils.mean(values); // 6.333...
final SemiVariance sv = new SemiVariance(); // Default bias correction is true
final double downsideSemiVariance = sv.evaluate(values); // Downside is the default
Assert.assertEquals(TestUtils.sumSquareDev(new double[] {-2d, 2d, 4d, -2d, 3d, 5d}, mean) / (length - 1),
downsideSemiVariance, 1E-14);
sv.setVarianceDirection(SemiVariance.UPSIDE_VARIANCE);
final double upsideSemiVariance = sv.evaluate(values);
Assert.assertEquals(TestUtils.sumSquareDev(new double[] {22d, 11d, 14d}, mean) / (length - 1),
upsideSemiVariance, 1E-14);
// Verify that upper + lower semivariance against the mean sum to variance
Assert.assertEquals(StatUtils.variance(values), downsideSemiVariance + upsideSemiVariance, 10e-12);
}
Example 4
| Source File: SemiVarianceTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
public void testSample() {
final double[] values = { -2.0d, 2.0d, 4.0d, -2.0d, 22.0d, 11.0d, 3.0d, 14.0d, 5.0d };
final int length = values.length;
final double mean = StatUtils.mean(values); // 6.333...
final SemiVariance sv = new SemiVariance(); // Default bias correction is true
final double downsideSemiVariance = sv.evaluate(values); // Downside is the default
assertEquals(TestUtils.sumSquareDev(new double[] {-2d, 2d, 4d, -2d, 3d, 5d}, mean) / (length - 1),
downsideSemiVariance, 1E-14);
sv.setVarianceDirection(SemiVariance.UPSIDE_VARIANCE);
final double upsideSemiVariance = sv.evaluate(values);
assertEquals(TestUtils.sumSquareDev(new double[] {22d, 11d, 14d}, mean) / (length - 1),
upsideSemiVariance, 1E-14);
// Verify that upper + lower semivariance against the mean sum to variance
assertEquals(StatUtils.variance(values), downsideSemiVariance + upsideSemiVariance, 10e-12);
}
Example 5
| Source File: SemiVarianceTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
public void testSample() {
final double[] values = { -2.0d, 2.0d, 4.0d, -2.0d, 22.0d, 11.0d, 3.0d, 14.0d, 5.0d };
final int length = values.length;
final double mean = StatUtils.mean(values); // 6.333...
final SemiVariance sv = new SemiVariance(); // Default bias correction is true
final double downsideSemiVariance = sv.evaluate(values); // Downside is the default
assertEquals(TestUtils.sumSquareDev(new double[] {-2d, 2d, 4d, -2d, 3d, 5d}, mean) / (length - 1),
downsideSemiVariance, 1E-14);
sv.setVarianceDirection(SemiVariance.UPSIDE_VARIANCE);
final double upsideSemiVariance = sv.evaluate(values);
assertEquals(TestUtils.sumSquareDev(new double[] {22d, 11d, 14d}, mean) / (length - 1),
upsideSemiVariance, 1E-14);
// Verify that upper + lower semivariance against the mean sum to variance
assertEquals(StatUtils.variance(values), downsideSemiVariance + upsideSemiVariance, 10e-12);
}
Example 6
| Source File: SemiVarianceTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
public void testSample() {
final double[] values = { -2.0d, 2.0d, 4.0d, -2.0d, 22.0d, 11.0d, 3.0d, 14.0d, 5.0d };
final int length = values.length;
final double mean = StatUtils.mean(values); // 6.333...
final SemiVariance sv = new SemiVariance(); // Default bias correction is true
final double downsideSemiVariance = sv.evaluate(values); // Downside is the default
assertEquals(TestUtils.sumSquareDev(new double[] {-2d, 2d, 4d, -2d, 3d, 5d}, mean) / (length - 1),
downsideSemiVariance, 1E-14);
sv.setVarianceDirection(SemiVariance.UPSIDE_VARIANCE);
final double upsideSemiVariance = sv.evaluate(values);
assertEquals(TestUtils.sumSquareDev(new double[] {22d, 11d, 14d}, mean) / (length - 1),
upsideSemiVariance, 1E-14);
// Verify that upper + lower semivariance against the mean sum to variance
assertEquals(StatUtils.variance(values), downsideSemiVariance + upsideSemiVariance, 10e-12);
}
Example 7
| Source File: SemiVarianceTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
public void testSample() {
final double[] values = { -2.0d, 2.0d, 4.0d, -2.0d, 22.0d, 11.0d, 3.0d, 14.0d, 5.0d };
final int length = values.length;
final double mean = StatUtils.mean(values); // 6.333...
final SemiVariance sv = new SemiVariance(); // Default bias correction is true
final double downsideSemiVariance = sv.evaluate(values); // Downside is the default
assertEquals(TestUtils.sumSquareDev(new double[] {-2d, 2d, 4d, -2d, 3d, 5d}, mean) / (length - 1),
downsideSemiVariance, 1E-14);
sv.setVarianceDirection(SemiVariance.UPSIDE_VARIANCE);
final double upsideSemiVariance = sv.evaluate(values);
assertEquals(TestUtils.sumSquareDev(new double[] {22d, 11d, 14d}, mean) / (length - 1),
upsideSemiVariance, 1E-14);
// Verify that upper + lower semivariance against the mean sum to variance
assertEquals(StatUtils.variance(values), downsideSemiVariance + upsideSemiVariance, 10e-12);
}
Example 8
| Source File: SemiVarianceTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
@Test
public void testSample() {
final double[] values = { -2.0d, 2.0d, 4.0d, -2.0d, 22.0d, 11.0d, 3.0d, 14.0d, 5.0d };
final int length = values.length;
final double mean = StatUtils.mean(values); // 6.333...
final SemiVariance sv = new SemiVariance(); // Default bias correction is true
final double downsideSemiVariance = sv.evaluate(values); // Downside is the default
Assert.assertEquals(TestUtils.sumSquareDev(new double[] {-2d, 2d, 4d, -2d, 3d, 5d}, mean) / (length - 1),
downsideSemiVariance, 1E-14);
sv.setVarianceDirection(SemiVariance.UPSIDE_VARIANCE);
final double upsideSemiVariance = sv.evaluate(values);
Assert.assertEquals(TestUtils.sumSquareDev(new double[] {22d, 11d, 14d}, mean) / (length - 1),
upsideSemiVariance, 1E-14);
// Verify that upper + lower semivariance against the mean sum to variance
Assert.assertEquals(StatUtils.variance(values), downsideSemiVariance + upsideSemiVariance, 10e-12);
}
Example 9
| Source File: SemiVarianceTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
public void testSample() {
final double[] values = { -2.0d, 2.0d, 4.0d, -2.0d, 22.0d, 11.0d, 3.0d, 14.0d, 5.0d };
final int length = values.length;
final double mean = StatUtils.mean(values); // 6.333...
final SemiVariance sv = new SemiVariance(); // Default bias correction is true
final double downsideSemiVariance = sv.evaluate(values); // Downside is the default
assertEquals(TestUtils.sumSquareDev(new double[] {-2d, 2d, 4d, -2d, 3d, 5d}, mean) / (length - 1),
downsideSemiVariance, 1E-14);
sv.setVarianceDirection(SemiVariance.UPSIDE_VARIANCE);
final double upsideSemiVariance = sv.evaluate(values);
assertEquals(TestUtils.sumSquareDev(new double[] {22d, 11d, 14d}, mean) / (length - 1),
upsideSemiVariance, 1E-14);
// Verify that upper + lower semivariance against the mean sum to variance
assertEquals(StatUtils.variance(values), downsideSemiVariance + upsideSemiVariance, 10e-12);
}
Example 10
| Source File: RevisedLesk.java From lesk-wsd-dsm with GNU General Public License v3.0 | 5 votes |
|
/**
*
* @param list
* @return
*/
public double getMean(List<SynsetOut> list) {
double[] scores = new double[list.size()];
int l = 0;
for (SynsetOut out : list) {
scores[l] = out.getScore();
l++;
}
return StatUtils.mean(scores);
}
