@Override public void execute(Builder builder, Optional<Integer> value) { builder.repeat(value.get()); } },
@Override public void execute(Builder builder, Optional<Integer> value) { builder.repeat(value.get()); } },
/** * Checks determinism of two subsequent identical JPPF experiments. */ @Test public void determinismJppfVsJppf() { final List<Integer> ints = asList(1, 2, 5, 10); final List<ExperimentResults> allResults = newArrayList(); final Experiment.Builder experimentBuilder = Experiment.builder() .computeDistributed() .addScenario(scenario) .withRandomSeed(123) .repeat(10) .addConfiguration(ExperimentTestUtil.testConfig("A")); for (final int i : ints) { allResults.add( experimentBuilder.numBatches(i) .perform()); } assertEquals(4, allResults.size()); for (int i = 0; i < allResults.size() - 1; i++) { assertEquals(allResults.get(i), allResults.get(i + 1)); } }
.addConfiguration(Central.solverConfiguration(dsc)) .addScenario(scenario) .repeat(10) .perform();
.addScenario(scenario) .showGui(viewBuilder) .repeat(1) .perform();
.addConfiguration(c0) .addConfiguration(c1) .repeat(2) .withThreads(1) .repeatSeed(2)
.addScenario(scenario) .showGui(viewBuilder) .repeat(1) .perform();
.addScenario(s1) .addConfiguration(c0) .repeat(2) .withThreads(1) .repeatSeed(3)
.addScenario(generatedScenario) .withRandomSeed(123) .repeat(1) .usePostProcessor(ExperimentTestUtil.testPostProcessor()) .addConfiguration(ExperimentTestUtil.testConfig("A"));
/** * Checks determinism of a local experiment and a JPPF experiment, both with * identical settings. Using a Gendreau scenario. */ @SuppressWarnings("unchecked") @Test public void determinismLocalVsJppf() { final Experiment.Builder experimentBuilder = Experiment.builder() .computeDistributed() .addScenario(scenario) .withRandomSeed(123) .repeat(1) .usePostProcessor(ExperimentTestUtil.testPostProcessor()) .addConfiguration(ExperimentTestUtil.testConfig("A")); final ExperimentResults results3 = experimentBuilder.perform(); experimentBuilder.computeLocal(); final ExperimentResults results4 = experimentBuilder.perform(); assertEquals(results3, results4); assertThat(results3.getResults().asList().get(0).getResultObject()) .isInstanceOf(ImmutableList.class); assertThat( (List<Point>) results3.getResults().asList().get(0).getResultObject()) .hasSize(10); }
/** * Test correct handling of failure during simulation. */ @Test public void testDefaultPostProcessorFailure() { final Scenario scenario = ScenarioTestUtil.createRandomScenario(123L, StatsTracker.builder(), FailureModel.builder()); final Experiment.Builder builder = Experiment.builder() .addScenario(scenario) .addConfiguration(ExperimentTestUtil.testConfig("test")) .withThreads(1) .repeat(3) .withRandomSeed(123); boolean fail = false; try { builder.perform(); } catch (final AbortExperimentException e) { assertThat(e.getCause().getMessage()).contains("FailureModel"); fail = true; } assertThat(fail).isTrue(); }
/** * Test of {@link RandomSolver} on a scenario using the {@link Solver} * interface. */ @Test public void testRandomSolver() { Experiment.builder() .addScenario(scenario) .addConfiguration( Central.solverConfiguration(SolverValidator.wrap(RandomSolver .supplier()))) .repeat(3) .perform(); } }
/** * Tests a post processor that returns objects that does not implement * {@link Serializable}. */ @Test(expected = IllegalArgumentException.class) public void testFaultyPostProcessor() { Experiment.builder() .computeDistributed() .addScenario(scenario) .withRandomSeed(123) .repeat(1) .usePostProcessor(new TestFaultyPostProcessor()) .addConfiguration(ExperimentTestUtil.testConfig("A")) .perform(); }
@Test public void testRetryPostProcessor() { final Experiment.Builder builder = Experiment.builder() .addScenario(scenario) .computeDistributed() .addConfiguration(ExperimentTestUtil.testConfig("test")) .usePostProcessor(ExperimentTestUtil.retryOncePostProcessor()) .repeat(3) .withRandomSeed(123); final ExperimentResults er = builder.perform(); for (int i = 0; i < er.getResults().size(); i++) { assertThat(er.getResults().asList().get(0).getResultObject()) .isEqualTo("SUCCESS"); } }
/** * Test of {@link RandomMVArraysSolver} using the * {@link com.github.rinde.rinsim.central.arrays.MultiVehicleArraysSolver} * interface. */ @Test public void test() { Experiment.builder() .addScenario(scenario) .addConfiguration( Central.solverConfiguration(RandomMVArraysSolver.solverSupplier())) .repeat(!offline && allowDiversion ? 2 : 1) .perform(); }
@Test public void testRetryPostProcessor() { final Scenario scenario = ScenarioTestUtil.createRandomScenario(123L, StatsTracker.builder()); final Experiment.Builder builder = Experiment.builder() .addScenario(scenario) .addConfiguration(ExperimentTestUtil.testConfig("test")) .withThreads(1) .usePostProcessor(ExperimentTestUtil.retryOncePostProcessor()) .repeat(3) .withRandomSeed(123); builder.perform(); }
@Test public void composite() { final Experiment.Builder builder = Experiment.builder() .addScenario(scenario) .computeDistributed() .setCompositeTaskSize(2) .addConfiguration(ExperimentTestUtil.testConfig("test")) .usePostProcessor(ExperimentTestUtil.testPostProcessor()) .repeat(3) .withRandomSeed(123); final ExperimentResults er = builder.perform(); assertThat(er.getResults()).hasSize(3); }