@Test
public void testMeanScaledLocatorsHaveCorrectParameters() {
BinaryLocatorSupplier supplier =
new BinaryLocatorSupplier(data, DEFAULT_MASS_TYPE, DEFAULT_MASS_ARGS);
Locator first_locator = supplier.popLocator();
for (int i = 1; i < (int) (DEFAULT_MASS_ARGS[2] - DEFAULT_MASS_ARGS[1]); i++) {
supplier.popLocator();
}
Locator second_locator = supplier.popLocator();
first_locator.initialize();
second_locator.initialize();
BrightBodyList[] first_bodies = first_locator.locate();
BrightBodyList[] second_bodies = second_locator.locate();
Assert.assertTrue(first_bodies[0].size() > second_bodies[0].size());
Assert.assertTrue(first_bodies[data.length / 2].size() > second_bodies[data.length / 2].size());
Assert.assertTrue(first_bodies[data.length - 2].size() > second_bodies[data.length - 2].size());
first_bodies[0].sortByArea();
second_bodies[0].sortByArea();
Assert.assertTrue(
second_bodies[0].get(0).area / second_bodies[0].get(0).body.length
> first_bodies[0].get(0).area / first_bodies[0].get(0).body.length);
}
@Test
public void testSupplierGivesNullWhenEmpty() {
BinaryLocatorSupplier supplier =
new BinaryLocatorSupplier(data, DEFAULT_MASS_TYPE, DEFAULT_MASS_ARGS);
for (int i = 0; i < (int) (DEFAULT_MASS_ARGS[2] - DEFAULT_MASS_ARGS[1] + 1); i++) {
supplier.popLocator();
}
Locator bad_locator = supplier.popLocator();
Assert.assertNull(bad_locator);
}
@Test
public void testEmptyPollingMethod() {
BinaryLocatorSupplier supplier =
new BinaryLocatorSupplier(data, DEFAULT_MASS_TYPE, DEFAULT_MASS_ARGS);
for (int i = 0; i < (int) (DEFAULT_MASS_ARGS[2] - DEFAULT_MASS_ARGS[1] + 1); i++) {
Assert.assertFalse(supplier.empty());
supplier.popLocator();
}
Assert.assertTrue(supplier.empty());
}
@Test
public void testMeanScaledSuppliesCorrectCount() {
BinaryLocatorSupplier supplier =
new BinaryLocatorSupplier(data, DEFAULT_MASS_TYPE, DEFAULT_MASS_ARGS);
int count = 0;
while (!supplier.empty()) {
count++;
supplier.popLocator();
}
Assert.assertEquals((int) (DEFAULT_MASS_ARGS[2] - DEFAULT_MASS_ARGS[1] + 1), count);
}
@Test
public void testSingleRun() throws NullPointerException {
BinaryLocatorSupplier supplier =
new BinaryLocatorSupplier(data, DEFAULT_MASS_TYPE, DEFAULT_MASS_ARGS);
Locator first = supplier.popLocator();
first.initialize();
BrightBodyList[] bodies_first = first.locate();
Assert.assertNotNull(bodies_first);
for (int i = 1; i < 6; i++) {
supplier.popLocator();
}
Locator second = supplier.popLocator();
second.initialize();
BrightBodyList[] bodies_second = second.locate();
Assert.assertNotNull(bodies_second);
}
@Test
public void testMeanScaledSuppliesValidLocators() {
BinaryLocatorSupplier supplier =
new BinaryLocatorSupplier(data, DEFAULT_MASS_TYPE, DEFAULT_MASS_ARGS);
while (!supplier.empty()) {
Locator locator = supplier.popLocator();
locator.initialize();
BrightBodyList[] bodies = locator.locate();
Assert.assertEquals(bodies.length, data.length); // checks length of the locators
Assert.assertNotEquals(bodies[0].size(), 0); // tests that there is at least one body found
Assert.assertNotEquals(
bodies[data.length / 2].size(), 0); // tests that there is at least one body found
Assert.assertNotEquals(
bodies[data.length - 1].size(), 0); // tests that there is at least one body found
Assert.assertTrue(
bodies[data.length / 2].get(0).body.length
> 5); // test that the first bright body is larger than 5
Assert.assertTrue(
bodies[data.length / 2].get(0).body.length
< 1000); // test that the first bright body is smaller than 1000
Assert.assertTrue(bodies[data.length / 2].get(0).area > 10);
Assert.assertTrue(bodies[data.length / 2].get(0).area < Integer.MAX_VALUE);
}
}
