Examples with CounterfactualPrediction org.kie.kogito.explainability.model.CounterfactualPrediction used on opensource projects

Example 1 with CounterfactualPrediction

use of org.kie.kogito.explainability.model.CounterfactualPrediction in project kogito-apps by kiegroup.

the class CounterfactualExplainerTest method testFinalUniqueIds.

@ParameterizedTest
@ValueSource(ints = { 0, 1, 2 })
void testFinalUniqueIds(int seed) throws ExecutionException, InterruptedException, TimeoutException {
    Random random = new Random();
    random.setSeed(seed);
    final List<Output> goal = new ArrayList<>();
    List<Feature> features = List.of(FeatureFactory.newNumericalFeature("f-num1", 10.0, NumericalFeatureDomain.create(0, 20)));
    PredictionProvider model = TestUtils.getFeaturePassModel(0);
    final TerminationConfig terminationConfig = new TerminationConfig().withScoreCalculationCountLimit(100_000L);
    final SolverConfig solverConfig = SolverConfigBuilder.builder().withTerminationConfig(terminationConfig).build();
    solverConfig.setRandomSeed((long) seed);
    solverConfig.setEnvironmentMode(EnvironmentMode.REPRODUCIBLE);
    final List<UUID> intermediateIds = new ArrayList<>();
    final List<UUID> executionIds = new ArrayList<>();
    final Consumer<CounterfactualResult> captureIntermediateIds = counterfactual -> {
        intermediateIds.add(counterfactual.getSolutionId());
    };
    final Consumer<CounterfactualResult> captureExecutionIds = counterfactual -> {
        executionIds.add(counterfactual.getExecutionId());
    };
    final CounterfactualConfig counterfactualConfig = new CounterfactualConfig().withSolverConfig(solverConfig);
    solverConfig.withEasyScoreCalculatorClass(MockCounterFactualScoreCalculator.class);
    final CounterfactualExplainer counterfactualExplainer = new CounterfactualExplainer(counterfactualConfig);
    PredictionInput input = new PredictionInput(features);
    PredictionOutput output = new PredictionOutput(goal);
    final UUID executionId = UUID.randomUUID();
    Prediction prediction = new CounterfactualPrediction(input, output, null, executionId, null);
    final CounterfactualResult counterfactualResult = counterfactualExplainer.explainAsync(prediction, model, captureIntermediateIds.andThen(captureExecutionIds)).get(Config.INSTANCE.getAsyncTimeout(), Config.INSTANCE.getAsyncTimeUnit());
    for (CounterfactualEntity entity : counterfactualResult.getEntities()) {
        logger.debug("Entity: {}", entity);
    }
    // All intermediate ids should be unique
    assertEquals((int) intermediateIds.stream().distinct().count(), intermediateIds.size());
    // There should be at least one intermediate id
    assertTrue(intermediateIds.size() > 0);
    // There should be at least one execution id
    assertTrue(executionIds.size() > 0);
    // We should have the same number of execution ids as intermediate ids (captured from intermediate results)
    assertEquals(executionIds.size(), intermediateIds.size());
    // All execution ids should be the same
    assertEquals(1, (int) executionIds.stream().distinct().count());
    // The last intermediate id must be different from the final result id
    assertNotEquals(intermediateIds.get(intermediateIds.size() - 1), counterfactualResult.getSolutionId());
    // Captured execution ids should be the same as the one provided
    assertEquals(executionIds.get(0), executionId);
}

Example 2 with CounterfactualPrediction

use of org.kie.kogito.explainability.model.CounterfactualPrediction in project kogito-apps by kiegroup.

the class CounterfactualExplainerTest method mockExplainerInvocation.

@SuppressWarnings("unchecked")
CounterfactualResult mockExplainerInvocation(Consumer<CounterfactualResult> intermediateResultsConsumer, Long maxRunningTimeSeconds) throws ExecutionException, InterruptedException, TimeoutException {
    // Mock SolverManager and SolverJob to guarantee deterministic test behaviour
    SolverJob<CounterfactualSolution, UUID> solverJob = mock(SolverJob.class);
    CounterfactualSolution solution = mock(CounterfactualSolution.class);
    BendableBigDecimalScore score = BendableBigDecimalScore.zero(0, 0);
    when(solverManager.solveAndListen(any(), any(), any(), any())).thenReturn(solverJob);
    when(solverJob.getFinalBestSolution()).thenReturn(solution);
    when(solution.getScore()).thenReturn(score);
    when(solverManagerFactory.apply(any())).thenReturn(solverManager);
    // Setup Explainer
    final CounterfactualConfig counterfactualConfig = new CounterfactualConfig().withSolverManagerFactory(solverManagerFactory);
    final CounterfactualExplainer counterfactualExplainer = new CounterfactualExplainer(counterfactualConfig);
    // Setup mock model, what it does is not important
    Prediction prediction = new CounterfactualPrediction(new PredictionInput(Collections.emptyList()), new PredictionOutput(Collections.emptyList()), null, UUID.randomUUID(), maxRunningTimeSeconds);
    return counterfactualExplainer.explainAsync(prediction, (List<PredictionInput> inputs) -> CompletableFuture.completedFuture(Collections.emptyList()), intermediateResultsConsumer).get(Config.INSTANCE.getAsyncTimeout(), Config.INSTANCE.getAsyncTimeUnit());
}

Example 3 with CounterfactualPrediction

use of org.kie.kogito.explainability.model.CounterfactualPrediction in project kogito-apps by kiegroup.

the class CounterfactualExplainerTest method testIntermediateUniqueIds.

@ParameterizedTest
@ValueSource(ints = { 0, 1, 2 })
void testIntermediateUniqueIds(int seed) throws ExecutionException, InterruptedException, TimeoutException {
    Random random = new Random();
    random.setSeed(seed);
    final List<Output> goal = new ArrayList<>();
    List<Feature> features = List.of(FeatureFactory.newNumericalFeature("f-num1", 10.0, NumericalFeatureDomain.create(0, 20)));
    PredictionProvider model = TestUtils.getFeaturePassModel(0);
    final TerminationConfig terminationConfig = new TerminationConfig().withScoreCalculationCountLimit(100_000L);
    final SolverConfig solverConfig = SolverConfigBuilder.builder().withTerminationConfig(terminationConfig).build();
    solverConfig.setRandomSeed((long) seed);
    solverConfig.setEnvironmentMode(EnvironmentMode.REPRODUCIBLE);
    final List<UUID> intermediateIds = new ArrayList<>();
    final List<UUID> executionIds = new ArrayList<>();
    final Consumer<CounterfactualResult> captureIntermediateIds = counterfactual -> {
        intermediateIds.add(counterfactual.getSolutionId());
    };
    final Consumer<CounterfactualResult> captureExecutionIds = counterfactual -> {
        executionIds.add(counterfactual.getExecutionId());
    };
    final CounterfactualConfig counterfactualConfig = new CounterfactualConfig().withSolverConfig(solverConfig);
    solverConfig.withEasyScoreCalculatorClass(MockCounterFactualScoreCalculator.class);
    final CounterfactualExplainer counterfactualExplainer = new CounterfactualExplainer(counterfactualConfig);
    PredictionInput input = new PredictionInput(features);
    PredictionOutput output = new PredictionOutput(goal);
    final UUID executionId = UUID.randomUUID();
    Prediction prediction = new CounterfactualPrediction(input, output, null, executionId, null);
    final CounterfactualResult counterfactualResult = counterfactualExplainer.explainAsync(prediction, model, captureIntermediateIds.andThen(captureExecutionIds)).get(Config.INSTANCE.getAsyncTimeout(), Config.INSTANCE.getAsyncTimeUnit());
    for (CounterfactualEntity entity : counterfactualResult.getEntities()) {
        logger.debug("Entity: {}", entity);
    }
    // all intermediate Ids must be distinct
    assertEquals((int) intermediateIds.stream().distinct().count(), intermediateIds.size());
    assertEquals(1, (int) executionIds.stream().distinct().count());
    assertEquals(executionIds.get(0), executionId);
}

Example 4 with CounterfactualPrediction

use of org.kie.kogito.explainability.model.CounterfactualPrediction in project kogito-apps by kiegroup.

the class CounterfactualExplainerTest method runCounterfactualSearch.

private CounterfactualResult runCounterfactualSearch(Long randomSeed, List<Output> goal, List<Feature> features, PredictionProvider model, double goalThresold) throws InterruptedException, ExecutionException, TimeoutException {
    final TerminationConfig terminationConfig = new TerminationConfig().withScoreCalculationCountLimit(steps);
    final SolverConfig solverConfig = SolverConfigBuilder.builder().withTerminationConfig(terminationConfig).build();
    solverConfig.setRandomSeed(randomSeed);
    solverConfig.setEnvironmentMode(EnvironmentMode.REPRODUCIBLE);
    final CounterfactualConfig counterfactualConfig = new CounterfactualConfig();
    counterfactualConfig.withSolverConfig(solverConfig).withGoalThreshold(goalThresold);
    final CounterfactualExplainer explainer = new CounterfactualExplainer(counterfactualConfig);
    final PredictionInput input = new PredictionInput(features);
    PredictionOutput output = new PredictionOutput(goal);
    Prediction prediction = new CounterfactualPrediction(input, output, null, UUID.randomUUID(), null);
    return explainer.explainAsync(prediction, model).get(predictionTimeOut, predictionTimeUnit);
}

Example 5 with CounterfactualPrediction

use of org.kie.kogito.explainability.model.CounterfactualPrediction in project kogito-apps by kiegroup.

the class CounterfactualExplainer method explainAsync.

@Override
public CompletableFuture<CounterfactualResult> explainAsync(Prediction prediction, PredictionProvider model, Consumer<CounterfactualResult> intermediateResultsConsumer) {
    final AtomicLong sequenceId = new AtomicLong(0);
    final CounterfactualPrediction cfPrediction = (CounterfactualPrediction) prediction;
    final UUID executionId = cfPrediction.getExecutionId();
    final Long maxRunningTimeSeconds = cfPrediction.getMaxRunningTimeSeconds();
    final List<CounterfactualEntity> entities = CounterfactualEntityFactory.createEntities(prediction.getInput());
    final List<Output> goal = prediction.getOutput().getOutputs();
    // Original features kept as structural reference to re-assemble composite features
    final List<Feature> originalFeatures = prediction.getInput().getFeatures();
    Function<UUID, CounterfactualSolution> initial = uuid -> new CounterfactualSolution(entities, originalFeatures, model, goal, UUID.randomUUID(), executionId, this.counterfactualConfig.getGoalThreshold());
    final CompletableFuture<CounterfactualSolution> cfSolution = CompletableFuture.supplyAsync(() -> {
        SolverConfig solverConfig = this.counterfactualConfig.getSolverConfig();
        if (Objects.nonNull(maxRunningTimeSeconds)) {
            solverConfig.withTerminationSpentLimit(Duration.ofSeconds(maxRunningTimeSeconds));
        }
        try (SolverManager<CounterfactualSolution, UUID> solverManager = this.counterfactualConfig.getSolverManagerFactory().apply(solverConfig)) {
            SolverJob<CounterfactualSolution, UUID> solverJob = solverManager.solveAndListen(executionId, initial, assignSolutionId.andThen(createSolutionConsumer(intermediateResultsConsumer, sequenceId)), null);
            try {
                // Wait until the solving ends
                return solverJob.getFinalBestSolution();
            } catch (ExecutionException e) {
                logger.error("Solving failed: {}", e.getMessage());
                throw new IllegalStateException("Prediction returned an error", e);
            } catch (InterruptedException e) {
                Thread.currentThread().interrupt();
                throw new IllegalStateException("Solving failed (Thread interrupted)", e);
            }
        }
    }, this.counterfactualConfig.getExecutor());
    final CompletableFuture<List<PredictionOutput>> cfOutputs = cfSolution.thenCompose(s -> model.predictAsync(buildInput(s.getEntities())));
    return CompletableFuture.allOf(cfOutputs, cfSolution).thenApply(v -> {
        CounterfactualSolution solution = cfSolution.join();
        return new CounterfactualResult(solution.getEntities(), solution.getOriginalFeatures(), cfOutputs.join(), solution.getScore().isFeasible(), UUID.randomUUID(), solution.getExecutionId(), sequenceId.incrementAndGet());
    });
}