/**
* It is an error if the number of seed candidates is greater than the population size. In this
* case an exception should be thrown. Not throwing an exception is wrong because it would permit
* undetected bugs in programs that use the factory.
*/
@Test(expectedExceptions = IllegalArgumentException.class)
public void testTooManySeedCandidates() {
CandidateFactory<String> factory = new StringFactory(alphabet, candidateLength);
// The following call should cause an exception since the 3 seed candidates
// won't fit into a population of size 2.
factory.generateInitialPopulation(
2, Arrays.asList("abcdefgh", "ijklmnop", "qrstuvwx"), FrameworkTestUtils.getRNG());
}
/**
* The {@link ListOrderCrossover} operator is only defined to work on populations containing lists
* of equal lengths. Any attempt to apply the operation to populations that contain different
* length lists should throw an exception. Not throwing an exception should be considered a bug
* since it could lead to hard to trace bugs elsewhere.
*/
@Test(expectedExceptions = IllegalArgumentException.class)
public void testDifferentLengthParents() {
EvolutionaryOperator<List<Integer>> crossover =
new ListOrderCrossover<Integer>(new ConstantGenerator<Probability>(Probability.ONE));
List<List<Integer>> population = new ArrayList<List<Integer>>(2);
population.add(Arrays.asList(1, 2, 3, 4, 5, 6, 7, 8));
population.add(Arrays.asList(9, 10, 11));
// This should cause an exception since the parents are different lengths.
crossover.apply(population, FrameworkTestUtils.getRNG());
}
/**
* Generate a completely random population. Checks to make sure that the correct number of
* candidate solutions is generated and that each is valid.
*/
@Test
public void testUnseededPopulation() {
CandidateFactory<String> factory = new StringFactory(alphabet, candidateLength);
List<String> population =
factory.generateInitialPopulation(populationSize, FrameworkTestUtils.getRNG());
assert population.size() == populationSize
: "Wrong size population generated: " + population.size();
validatePopulation(population);
}
/**
* Generate a random population with some seed candidates. Checks to make sure that the correct
* number of candidate solutions is generated and that each is valid.
*/
@Test
public void testSeededPopulation() {
CandidateFactory<String> factory = new StringFactory(alphabet, candidateLength);
String seed1 = "cdefghij";
String seed2 = "bbbbbbbb";
List<String> population =
factory.generateInitialPopulation(
populationSize, Arrays.asList(seed1, seed2), FrameworkTestUtils.getRNG());
// Check that the seed candidates appear in the generated population.
assert population.contains(seed1) : "Population does not contain seed candidate 1.";
assert population.contains(seed2) : "Population does not contain seed candidate 2.";
validatePopulation(population);
}
@Test
public void testCrossover() {
EvolutionaryOperator<List<Integer>> operator = new ListOrderCrossover<Integer>();
List<Integer> parent1 = Arrays.asList(1, 2, 3, 4, 5, 6, 7, 8);
List<Integer> parent2 = Arrays.asList(3, 7, 5, 1, 6, 8, 2, 4);
List<List<Integer>> population = new ArrayList<List<Integer>>(2);
population.add(parent1);
population.add(parent2);
for (int i = 0; i < 50; i++) // Do several cross-overs to check different cross-over points.
{
population = operator.apply(population, FrameworkTestUtils.getRNG());
for (List<Integer> offspring : population) {
for (int j = 1; j <= 8; j++) {
assert offspring.contains(j) : "Evolved candidate missing required element " + j;
}
}
}
}
