Search in sources :

Example 1 with ConstantPopulationModel

use of dr.evomodel.coalescent.ConstantPopulationModel in project beast-mcmc by beast-dev.

the class StrictClockTest method testStrictClock.

public void testStrictClock() throws Exception {
    Parameter popSize = new Parameter.Default(ConstantPopulationModelParser.POPULATION_SIZE, 380.0, 0, 38000.0);
    ConstantPopulationModel constantModel = createRandomInitialTree(popSize);
    CoalescentLikelihood coalescent = new CoalescentLikelihood(treeModel, null, new ArrayList<TaxonList>(), constantModel);
    coalescent.setId("coalescent");
    // clock model
    Parameter rateParameter = new Parameter.Default(StrictClockBranchRates.RATE, 2.3E-5, 0, 100.0);
    StrictClockBranchRates branchRateModel = new StrictClockBranchRates(rateParameter);
    // Sub model
    Parameter freqs = new Parameter.Default(alignment.getStateFrequencies());
    Parameter kappa = new Parameter.Default(HKYParser.KAPPA, 1.0, 0, 100.0);
    FrequencyModel f = new FrequencyModel(Nucleotides.INSTANCE, freqs);
    HKY hky = new HKY(kappa, f);
    //siteModel
    GammaSiteModel siteModel = new GammaSiteModel(hky);
    Parameter mu = new Parameter.Default(GammaSiteModelParser.MUTATION_RATE, 1.0, 0, Double.POSITIVE_INFINITY);
    siteModel.setMutationRateParameter(mu);
    //treeLikelihood
    SitePatterns patterns = new SitePatterns(alignment, null, 0, -1, 1, true);
    TreeLikelihood treeLikelihood = new TreeLikelihood(patterns, treeModel, siteModel, branchRateModel, null, false, false, true, false, false);
    treeLikelihood.setId(TreeLikelihoodParser.TREE_LIKELIHOOD);
    // Operators
    OperatorSchedule schedule = new SimpleOperatorSchedule();
    MCMCOperator operator = new ScaleOperator(kappa, 0.75);
    operator.setWeight(1.0);
    schedule.addOperator(operator);
    operator = new ScaleOperator(rateParameter, 0.75);
    operator.setWeight(3.0);
    schedule.addOperator(operator);
    Parameter allInternalHeights = treeModel.createNodeHeightsParameter(true, true, false);
    operator = new UpDownOperator(new Scalable[] { new Scalable.Default(rateParameter) }, new Scalable[] { new Scalable.Default(allInternalHeights) }, 0.75, 3.0, CoercionMode.COERCION_ON);
    schedule.addOperator(operator);
    operator = new ScaleOperator(popSize, 0.75);
    operator.setWeight(3.0);
    schedule.addOperator(operator);
    Parameter rootHeight = treeModel.getRootHeightParameter();
    rootHeight.setId(TREE_HEIGHT);
    operator = new ScaleOperator(rootHeight, 0.75);
    operator.setWeight(3.0);
    schedule.addOperator(operator);
    Parameter internalHeights = treeModel.createNodeHeightsParameter(false, true, false);
    operator = new UniformOperator(internalHeights, 30.0);
    schedule.addOperator(operator);
    operator = new SubtreeSlideOperator(treeModel, 15.0, 1.0, true, false, false, false, CoercionMode.COERCION_ON);
    schedule.addOperator(operator);
    operator = new ExchangeOperator(ExchangeOperator.NARROW, treeModel, 15.0);
    //        operator.doOperation();
    schedule.addOperator(operator);
    operator = new ExchangeOperator(ExchangeOperator.WIDE, treeModel, 3.0);
    //        operator.doOperation();
    schedule.addOperator(operator);
    operator = new WilsonBalding(treeModel, 3.0);
    //        operator.doOperation();
    schedule.addOperator(operator);
    //CompoundLikelihood
    List<Likelihood> likelihoods = new ArrayList<Likelihood>();
    likelihoods.add(coalescent);
    Likelihood prior = new CompoundLikelihood(0, likelihoods);
    prior.setId(CompoundLikelihoodParser.PRIOR);
    likelihoods.clear();
    likelihoods.add(treeLikelihood);
    Likelihood likelihood = new CompoundLikelihood(-1, likelihoods);
    likelihoods.clear();
    likelihoods.add(prior);
    likelihoods.add(likelihood);
    Likelihood posterior = new CompoundLikelihood(0, likelihoods);
    posterior.setId(CompoundLikelihoodParser.POSTERIOR);
    // Log
    ArrayLogFormatter formatter = new ArrayLogFormatter(false);
    MCLogger[] loggers = new MCLogger[2];
    loggers[0] = new MCLogger(formatter, 500, false);
    loggers[0].add(posterior);
    loggers[0].add(treeLikelihood);
    loggers[0].add(rootHeight);
    loggers[0].add(rateParameter);
    loggers[0].add(popSize);
    loggers[0].add(kappa);
    loggers[0].add(coalescent);
    loggers[1] = new MCLogger(new TabDelimitedFormatter(System.out), 10000, false);
    loggers[1].add(posterior);
    loggers[1].add(treeLikelihood);
    loggers[1].add(rootHeight);
    loggers[1].add(rateParameter);
    loggers[1].add(coalescent);
    // MCMC
    MCMC mcmc = new MCMC("mcmc1");
    MCMCOptions options = new MCMCOptions(1000000);
    mcmc.setShowOperatorAnalysis(true);
    mcmc.init(options, posterior, schedule, loggers);
    mcmc.run();
    // time
    System.out.println(mcmc.getTimer().toString());
    // Tracer
    List<Trace> traces = formatter.getTraces();
    ArrayTraceList traceList = new ArrayTraceList("RandomLocalClockTest", traces, 0);
    for (int i = 1; i < traces.size(); i++) {
        traceList.analyseTrace(i);
    }
    //        <expectation name="posterior" value="-3928.71"/>
    //        <expectation name="clock.rate" value="8.04835E-4"/>
    //        <expectation name="constant.popSize" value="37.3762"/>
    //        <expectation name="hky.kappa" value="18.2782"/>
    //        <expectation name="treeModel.rootHeight" value="69.0580"/>
    //        <expectation name="treeLikelihood" value="-3856.59"/>
    //        <expectation name="coalescent" value="-72.1285"/>
    TraceCorrelation likelihoodStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(CompoundLikelihoodParser.POSTERIOR));
    assertExpectation(CompoundLikelihoodParser.POSTERIOR, likelihoodStats, -3928.71);
    likelihoodStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(TreeLikelihoodParser.TREE_LIKELIHOOD));
    assertExpectation(TreeLikelihoodParser.TREE_LIKELIHOOD, likelihoodStats, -3856.59);
    TraceCorrelation treeHeightStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(TREE_HEIGHT));
    assertExpectation(TREE_HEIGHT, treeHeightStats, 69.0580);
    TraceCorrelation kappaStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(HKYParser.KAPPA));
    assertExpectation(HKYParser.KAPPA, kappaStats, 18.2782);
    TraceCorrelation rateStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(StrictClockBranchRates.RATE));
    assertExpectation(StrictClockBranchRates.RATE, rateStats, 8.04835E-4);
    TraceCorrelation popStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(ConstantPopulationModelParser.POPULATION_SIZE));
    assertExpectation(ConstantPopulationModelParser.POPULATION_SIZE, popStats, 37.3762);
    TraceCorrelation coalescentStats = traceList.getCorrelationStatistics(traceList.getTraceIndex("coalescent"));
    assertExpectation("coalescent", coalescentStats, -72.1285);
}
Also used : FrequencyModel(dr.oldevomodel.substmodel.FrequencyModel) CompoundLikelihood(dr.inference.model.CompoundLikelihood) Likelihood(dr.inference.model.Likelihood) TreeLikelihood(dr.oldevomodel.treelikelihood.TreeLikelihood) CoalescentLikelihood(dr.evomodel.coalescent.CoalescentLikelihood) TreeLikelihood(dr.oldevomodel.treelikelihood.TreeLikelihood) ExchangeOperator(dr.evomodel.operators.ExchangeOperator) ArrayList(java.util.ArrayList) MCMC(dr.inference.mcmc.MCMC) SubtreeSlideOperator(dr.evomodel.operators.SubtreeSlideOperator) StrictClockBranchRates(dr.evomodel.branchratemodel.StrictClockBranchRates) CoalescentLikelihood(dr.evomodel.coalescent.CoalescentLikelihood) MCMCOptions(dr.inference.mcmc.MCMCOptions) ArrayLogFormatter(dr.inference.loggers.ArrayLogFormatter) WilsonBalding(dr.evomodel.operators.WilsonBalding) TraceCorrelation(dr.inference.trace.TraceCorrelation) SitePatterns(dr.evolution.alignment.SitePatterns) ConstantPopulationModel(dr.evomodel.coalescent.ConstantPopulationModel) TaxonList(dr.evolution.util.TaxonList) CompoundLikelihood(dr.inference.model.CompoundLikelihood) TabDelimitedFormatter(dr.inference.loggers.TabDelimitedFormatter) Trace(dr.inference.trace.Trace) GammaSiteModel(dr.oldevomodel.sitemodel.GammaSiteModel) ArrayTraceList(dr.inference.trace.ArrayTraceList) HKY(dr.oldevomodel.substmodel.HKY) Parameter(dr.inference.model.Parameter) MCLogger(dr.inference.loggers.MCLogger)

Example 2 with ConstantPopulationModel

use of dr.evomodel.coalescent.ConstantPopulationModel in project beast-mcmc by beast-dev.

the class TestCalibratedYuleModel method createTreeModel.

protected TreeModel createTreeModel(int treeSize) throws Exception {
    taxa = new Taxa();
    for (int i = 0; i < treeSize; i++) {
        taxa.addTaxon(new Taxon("T" + Integer.toString(i)));
    }
    //System.out.println("taxaSubSet_size = " + taxaSubSet.getTaxonCount());
    Parameter popSize = new Parameter.Default(treeSize);
    popSize.setId(ConstantPopulationModelParser.POPULATION_SIZE);
    ConstantPopulationModel startingTree = new ConstantPopulationModel(popSize, Units.Type.YEARS);
    Tree tree = calibration(taxa, startingTree);
    //treeModel
    return new TreeModel(tree);
}
Also used : Taxa(dr.evolution.util.Taxa) ConstantPopulationModel(dr.evomodel.coalescent.ConstantPopulationModel) Taxon(dr.evolution.util.Taxon) Parameter(dr.inference.model.Parameter) SimpleTree(dr.evolution.tree.SimpleTree) Tree(dr.evolution.tree.Tree)

Example 3 with ConstantPopulationModel

use of dr.evomodel.coalescent.ConstantPopulationModel in project beast-mcmc by beast-dev.

the class LognormalPriorTest method testLognormalPrior.

public void testLognormalPrior() {
    //        ConstantPopulation constant = new ConstantPopulation(Units.Type.YEARS);
    //        constant.setN0(popSize); // popSize
    Parameter popSize = new Parameter.Default(6.0);
    popSize.setId(ConstantPopulationModelParser.POPULATION_SIZE);
    ConstantPopulationModel demo = new ConstantPopulationModel(popSize, Units.Type.YEARS);
    //Likelihood
    Likelihood dummyLikelihood = new DummyLikelihood(demo);
    // Operators
    OperatorSchedule schedule = new SimpleOperatorSchedule();
    MCMCOperator operator = new ScaleOperator(popSize, 0.75);
    operator.setWeight(1.0);
    schedule.addOperator(operator);
    // Log
    ArrayLogFormatter formatter = new ArrayLogFormatter(false);
    MCLogger[] loggers = new MCLogger[2];
    loggers[0] = new MCLogger(formatter, 1000, false);
    //        loggers[0].add(treeLikelihood);
    loggers[0].add(popSize);
    loggers[1] = new MCLogger(new TabDelimitedFormatter(System.out), 100000, false);
    //        loggers[1].add(treeLikelihood);
    loggers[1].add(popSize);
    // MCMC
    MCMC mcmc = new MCMC("mcmc1");
    MCMCOptions options = new MCMCOptions(1000000);
    // meanInRealSpace="false"
    DistributionLikelihood logNormalLikelihood = new DistributionLikelihood(new LogNormalDistribution(1.0, 1.0), 0);
    logNormalLikelihood.addData(popSize);
    List<Likelihood> likelihoods = new ArrayList<Likelihood>();
    likelihoods.add(logNormalLikelihood);
    Likelihood prior = new CompoundLikelihood(0, likelihoods);
    likelihoods.clear();
    likelihoods.add(dummyLikelihood);
    Likelihood likelihood = new CompoundLikelihood(-1, likelihoods);
    likelihoods.clear();
    likelihoods.add(prior);
    likelihoods.add(likelihood);
    Likelihood posterior = new CompoundLikelihood(0, likelihoods);
    mcmc.setShowOperatorAnalysis(true);
    mcmc.init(options, posterior, schedule, loggers);
    mcmc.run();
    // time
    System.out.println(mcmc.getTimer().toString());
    // Tracer
    List<Trace> traces = formatter.getTraces();
    ArrayTraceList traceList = new ArrayTraceList("LognormalPriorTest", traces, 0);
    for (int i = 1; i < traces.size(); i++) {
        traceList.analyseTrace(i);
    }
    //      <expectation name="param" value="4.48168907"/>
    TraceCorrelation popSizeStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(ConstantPopulationModelParser.POPULATION_SIZE));
    System.out.println("Expectation of Log-Normal(1,1) is e^(M+S^2/2) = e^(1.5) = " + Math.exp(1.5));
    assertExpectation(ConstantPopulationModelParser.POPULATION_SIZE, popSizeStats, Math.exp(1.5));
}
Also used : CompoundLikelihood(dr.inference.model.CompoundLikelihood) Likelihood(dr.inference.model.Likelihood) DistributionLikelihood(dr.inference.distribution.DistributionLikelihood) DummyLikelihood(dr.inference.model.DummyLikelihood) MCMC(dr.inference.mcmc.MCMC) ArrayList(java.util.ArrayList) LogNormalDistribution(dr.math.distributions.LogNormalDistribution) MCMCOptions(dr.inference.mcmc.MCMCOptions) DummyLikelihood(dr.inference.model.DummyLikelihood) ArrayLogFormatter(dr.inference.loggers.ArrayLogFormatter) TraceCorrelation(dr.inference.trace.TraceCorrelation) ConstantPopulationModel(dr.evomodel.coalescent.ConstantPopulationModel) OperatorSchedule(dr.inference.operators.OperatorSchedule) SimpleOperatorSchedule(dr.inference.operators.SimpleOperatorSchedule) CompoundLikelihood(dr.inference.model.CompoundLikelihood) TabDelimitedFormatter(dr.inference.loggers.TabDelimitedFormatter) Trace(dr.inference.trace.Trace) SimpleOperatorSchedule(dr.inference.operators.SimpleOperatorSchedule) ArrayTraceList(dr.inference.trace.ArrayTraceList) Parameter(dr.inference.model.Parameter) ScaleOperator(dr.inference.operators.ScaleOperator) DistributionLikelihood(dr.inference.distribution.DistributionLikelihood) MCMCOperator(dr.inference.operators.MCMCOperator) MCLogger(dr.inference.loggers.MCLogger)

Example 4 with ConstantPopulationModel

use of dr.evomodel.coalescent.ConstantPopulationModel in project beast-mcmc by beast-dev.

the class RandomLocalClockTestProblem method testRandomLocalClock.

public void testRandomLocalClock() throws Exception {
    Parameter popSize = new Parameter.Default(ConstantPopulationModelParser.POPULATION_SIZE, 0.077, 0, Double.POSITIVE_INFINITY);
    ConstantPopulationModel constantModel = createRandomInitialTree(popSize);
    CoalescentLikelihood coalescent = new CoalescentLikelihood(treeModel, null, new ArrayList<TaxonList>(), constantModel);
    coalescent.setId("coalescent");
    // clock model
    Parameter ratesParameter = new Parameter.Default(RandomLocalClockModelParser.RATES, 10, 1);
    Parameter rateIndicatorParameter = new Parameter.Default(RandomLocalClockModelParser.RATE_INDICATORS, 10, 1);
    Parameter meanRateParameter = new Parameter.Default(RandomLocalClockModelParser.CLOCK_RATE, 1, 1.0);
    RandomLocalClockModel branchRateModel = new RandomLocalClockModel(treeModel, meanRateParameter, rateIndicatorParameter, ratesParameter, false, 0.5);
    SumStatistic rateChanges = new SumStatistic("rateChangeCount", true);
    rateChanges.addStatistic(rateIndicatorParameter);
    RateStatistic meanRate = new RateStatistic("meanRate", treeModel, branchRateModel, true, true, RateStatisticParser.MEAN);
    RateStatistic coefficientOfVariation = new RateStatistic(RateStatisticParser.COEFFICIENT_OF_VARIATION, treeModel, branchRateModel, true, true, RateStatisticParser.COEFFICIENT_OF_VARIATION);
    RateCovarianceStatistic covariance = new RateCovarianceStatistic("covariance", treeModel, branchRateModel);
    // Sub model
    Parameter freqs = new Parameter.Default(alignment.getStateFrequencies());
    Parameter kappa = new Parameter.Default(HKYParser.KAPPA, 1.0, 0, Double.POSITIVE_INFINITY);
    FrequencyModel f = new FrequencyModel(Nucleotides.INSTANCE, freqs);
    HKY hky = new HKY(kappa, f);
    //siteModel
    GammaSiteModel siteModel = new GammaSiteModel(hky);
    Parameter mu = new Parameter.Default(GammaSiteModelParser.MUTATION_RATE, 1.0, 0, Double.POSITIVE_INFINITY);
    siteModel.setMutationRateParameter(mu);
    //treeLikelihood
    SitePatterns patterns = new SitePatterns(alignment, null, 0, -1, 1, true);
    TreeLikelihood treeLikelihood = new TreeLikelihood(patterns, treeModel, siteModel, branchRateModel, null, false, false, true, false, false);
    treeLikelihood.setId(TreeLikelihoodParser.TREE_LIKELIHOOD);
    // Operators
    OperatorSchedule schedule = new SimpleOperatorSchedule();
    MCMCOperator operator = new ScaleOperator(kappa, 0.75);
    operator.setWeight(1.0);
    schedule.addOperator(operator);
    operator = new ScaleOperator(ratesParameter, 0.75);
    operator.setWeight(10.0);
    schedule.addOperator(operator);
    operator = new BitFlipOperator(rateIndicatorParameter, 15.0, true);
    schedule.addOperator(operator);
    operator = new ScaleOperator(popSize, 0.75);
    operator.setWeight(3.0);
    schedule.addOperator(operator);
    Parameter rootHeight = treeModel.getRootHeightParameter();
    rootHeight.setId(TREE_HEIGHT);
    operator = new ScaleOperator(rootHeight, 0.75);
    operator.setWeight(3.0);
    schedule.addOperator(operator);
    Parameter internalHeights = treeModel.createNodeHeightsParameter(false, true, false);
    operator = new UniformOperator(internalHeights, 30.0);
    schedule.addOperator(operator);
    operator = new SubtreeSlideOperator(treeModel, 15.0, 0.0077, true, false, false, false, CoercionMode.COERCION_ON);
    schedule.addOperator(operator);
    operator = new ExchangeOperator(ExchangeOperator.NARROW, treeModel, 15.0);
    //        operator.doOperation();
    schedule.addOperator(operator);
    operator = new ExchangeOperator(ExchangeOperator.WIDE, treeModel, 3.0);
    //        operator.doOperation();
    schedule.addOperator(operator);
    operator = new WilsonBalding(treeModel, 3.0);
    //        operator.doOperation();
    schedule.addOperator(operator);
    //CompoundLikelihood
    OneOnXPrior likelihood1 = new OneOnXPrior();
    likelihood1.addData(popSize);
    OneOnXPrior likelihood2 = new OneOnXPrior();
    likelihood2.addData(kappa);
    DistributionLikelihood likelihood3 = new DistributionLikelihood(new GammaDistribution(0.5, 2.0), 0.0);
    likelihood3.addData(ratesParameter);
    DistributionLikelihood likelihood4 = new DistributionLikelihood(new PoissonDistribution(1.0), 0.0);
    likelihood4.addData(rateChanges);
    List<Likelihood> likelihoods = new ArrayList<Likelihood>();
    likelihoods.add(likelihood1);
    likelihoods.add(likelihood2);
    likelihoods.add(likelihood3);
    likelihoods.add(likelihood4);
    likelihoods.add(coalescent);
    Likelihood prior = new CompoundLikelihood(0, likelihoods);
    prior.setId(CompoundLikelihoodParser.PRIOR);
    likelihoods.clear();
    likelihoods.add(treeLikelihood);
    Likelihood likelihood = new CompoundLikelihood(-1, likelihoods);
    likelihoods.clear();
    likelihoods.add(prior);
    likelihoods.add(likelihood);
    Likelihood posterior = new CompoundLikelihood(0, likelihoods);
    posterior.setId(CompoundLikelihoodParser.POSTERIOR);
    // Log
    ArrayLogFormatter formatter = new ArrayLogFormatter(false);
    MCLogger[] loggers = new MCLogger[2];
    loggers[0] = new MCLogger(formatter, 1000, false);
    loggers[0].add(posterior);
    loggers[0].add(prior);
    loggers[0].add(treeLikelihood);
    loggers[0].add(rootHeight);
    loggers[0].add(kappa);
    //        loggers[0].add(meanRate);
    loggers[0].add(rateChanges);
    loggers[0].add(coefficientOfVariation);
    loggers[0].add(covariance);
    loggers[0].add(popSize);
    loggers[0].add(coalescent);
    loggers[1] = new MCLogger(new TabDelimitedFormatter(System.out), 10000, false);
    loggers[1].add(posterior);
    loggers[1].add(treeLikelihood);
    loggers[1].add(rootHeight);
    loggers[1].add(meanRate);
    loggers[1].add(rateChanges);
    // MCMC
    MCMC mcmc = new MCMC("mcmc1");
    MCMCOptions options = new MCMCOptions(1000000);
    mcmc.setShowOperatorAnalysis(true);
    mcmc.init(options, posterior, schedule, loggers);
    mcmc.run();
    // time
    System.out.println(mcmc.getTimer().toString());
    // Tracer
    List<Trace> traces = formatter.getTraces();
    ArrayTraceList traceList = new ArrayTraceList("RandomLocalClockTest", traces, 0);
    for (int i = 1; i < traces.size(); i++) {
        traceList.analyseTrace(i);
    }
    //        <expectation name="posterior" value="-1818.26"/>
    //        <expectation name="prior" value="-2.70143"/>
    //        <expectation name="likelihood" value="-1815.56"/>
    //        <expectation name="treeModel.rootHeight" value="6.363E-2"/>
    //        <expectation name="constant.popSize" value="9.67405E-2"/>
    //        <expectation name="hky.kappa" value="30.0394"/>
    //        <expectation name="coefficientOfVariation" value="7.02408E-2"/>
    //        covariance 0.47952
    //        <expectation name="rateChangeCount" value="0.40786"/>
    //        <expectation name="coalescent" value="7.29521"/>
    TraceCorrelation likelihoodStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(CompoundLikelihoodParser.POSTERIOR));
    assertExpectation(CompoundLikelihoodParser.POSTERIOR, likelihoodStats, -1818.26);
    likelihoodStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(CompoundLikelihoodParser.PRIOR));
    assertExpectation(CompoundLikelihoodParser.PRIOR, likelihoodStats, -2.70143);
    likelihoodStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(TreeLikelihoodParser.TREE_LIKELIHOOD));
    assertExpectation(TreeLikelihoodParser.TREE_LIKELIHOOD, likelihoodStats, -1815.56);
    TraceCorrelation treeHeightStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(TREE_HEIGHT));
    assertExpectation(TREE_HEIGHT, treeHeightStats, 6.363E-2);
    TraceCorrelation kappaStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(HKYParser.KAPPA));
    assertExpectation(HKYParser.KAPPA, kappaStats, 30.0394);
    TraceCorrelation rateChangeStats = traceList.getCorrelationStatistics(traceList.getTraceIndex("rateChangeCount"));
    assertExpectation("rateChangeCount", rateChangeStats, 0.40786);
    TraceCorrelation coefficientOfVariationStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(RateStatisticParser.COEFFICIENT_OF_VARIATION));
    assertExpectation(RateStatisticParser.COEFFICIENT_OF_VARIATION, coefficientOfVariationStats, 7.02408E-2);
    TraceCorrelation covarianceStats = traceList.getCorrelationStatistics(traceList.getTraceIndex("covariance"));
    assertExpectation("covariance", covarianceStats, 0.47952);
    TraceCorrelation popStats = traceList.getCorrelationStatistics(traceList.getTraceIndex(ConstantPopulationModelParser.POPULATION_SIZE));
    assertExpectation(ConstantPopulationModelParser.POPULATION_SIZE, popStats, 9.67405E-2);
    TraceCorrelation coalescentStats = traceList.getCorrelationStatistics(traceList.getTraceIndex("coalescent"));
    assertExpectation("coalescent", coalescentStats, 7.29521);
}
Also used : FrequencyModel(dr.oldevomodel.substmodel.FrequencyModel) PoissonDistribution(dr.math.distributions.PoissonDistribution) TreeLikelihood(dr.oldevomodel.treelikelihood.TreeLikelihood) DistributionLikelihood(dr.inference.distribution.DistributionLikelihood) CoalescentLikelihood(dr.evomodel.coalescent.CoalescentLikelihood) TreeLikelihood(dr.oldevomodel.treelikelihood.TreeLikelihood) ExchangeOperator(dr.evomodel.operators.ExchangeOperator) ArrayList(java.util.ArrayList) MCMC(dr.inference.mcmc.MCMC) SubtreeSlideOperator(dr.evomodel.operators.SubtreeSlideOperator) RateCovarianceStatistic(dr.evomodel.tree.RateCovarianceStatistic) CoalescentLikelihood(dr.evomodel.coalescent.CoalescentLikelihood) MCMCOptions(dr.inference.mcmc.MCMCOptions) ArrayLogFormatter(dr.inference.loggers.ArrayLogFormatter) GammaDistribution(dr.math.distributions.GammaDistribution) WilsonBalding(dr.evomodel.operators.WilsonBalding) TraceCorrelation(dr.inference.trace.TraceCorrelation) SitePatterns(dr.evolution.alignment.SitePatterns) ConstantPopulationModel(dr.evomodel.coalescent.ConstantPopulationModel) TaxonList(dr.evolution.util.TaxonList) TabDelimitedFormatter(dr.inference.loggers.TabDelimitedFormatter) Trace(dr.inference.trace.Trace) GammaSiteModel(dr.oldevomodel.sitemodel.GammaSiteModel) RateStatistic(dr.evomodel.tree.RateStatistic) ArrayTraceList(dr.inference.trace.ArrayTraceList) RandomLocalClockModel(dr.evomodel.branchratemodel.RandomLocalClockModel) HKY(dr.oldevomodel.substmodel.HKY) DistributionLikelihood(dr.inference.distribution.DistributionLikelihood) MCLogger(dr.inference.loggers.MCLogger)

Example 5 with ConstantPopulationModel

use of dr.evomodel.coalescent.ConstantPopulationModel in project beast-mcmc by beast-dev.

the class ConstantPopulationModelParser method parseXMLObject.

public Object parseXMLObject(XMLObject xo) throws XMLParseException {
    Units.Type units = XMLUnits.Utils.getUnitsAttr(xo);
    XMLObject cxo = xo.getChild(POPULATION_SIZE);
    Parameter N0Param = (Parameter) cxo.getChild(Parameter.class);
    return new ConstantPopulationModel(N0Param, units);
}
Also used : ConstantPopulationModel(dr.evomodel.coalescent.ConstantPopulationModel) Parameter(dr.inference.model.Parameter) Units(dr.evolution.util.Units) XMLUnits(dr.evoxml.util.XMLUnits)

Aggregations

ConstantPopulationModel (dr.evomodel.coalescent.ConstantPopulationModel)7 Parameter (dr.inference.model.Parameter)5 ArrayLogFormatter (dr.inference.loggers.ArrayLogFormatter)4 MCLogger (dr.inference.loggers.MCLogger)4 TabDelimitedFormatter (dr.inference.loggers.TabDelimitedFormatter)4 MCMC (dr.inference.mcmc.MCMC)4 MCMCOptions (dr.inference.mcmc.MCMCOptions)4 ArrayTraceList (dr.inference.trace.ArrayTraceList)4 Trace (dr.inference.trace.Trace)4 TraceCorrelation (dr.inference.trace.TraceCorrelation)4 ArrayList (java.util.ArrayList)4 SitePatterns (dr.evolution.alignment.SitePatterns)3 TaxonList (dr.evolution.util.TaxonList)3 CoalescentLikelihood (dr.evomodel.coalescent.CoalescentLikelihood)3 ExchangeOperator (dr.evomodel.operators.ExchangeOperator)3 SubtreeSlideOperator (dr.evomodel.operators.SubtreeSlideOperator)3 WilsonBalding (dr.evomodel.operators.WilsonBalding)3 CompoundLikelihood (dr.inference.model.CompoundLikelihood)3 Likelihood (dr.inference.model.Likelihood)3 GammaSiteModel (dr.oldevomodel.sitemodel.GammaSiteModel)3