Search in sources :

Example 31 with BranchRateModel

use of dr.evomodel.branchratemodel.BranchRateModel in project beast-mcmc by beast-dev.

the class TreeLikelihoodParser method parseXMLObject.

public Object parseXMLObject(XMLObject xo) throws XMLParseException {
    boolean useAmbiguities = xo.getAttribute(USE_AMBIGUITIES, false);
    boolean allowMissingTaxa = xo.getAttribute(ALLOW_MISSING_TAXA, false);
    boolean storePartials = xo.getAttribute(STORE_PARTIALS, true);
    boolean forceJavaCore = xo.getAttribute(FORCE_JAVA_CORE, false);
    if (Boolean.valueOf(System.getProperty("java.only"))) {
        forceJavaCore = true;
    }
    PatternList patternList = (PatternList) xo.getChild(PatternList.class);
    TreeModel treeModel = (TreeModel) xo.getChild(TreeModel.class);
    SiteModel siteModel = (SiteModel) xo.getChild(SiteModel.class);
    BranchRateModel branchRateModel = (BranchRateModel) xo.getChild(BranchRateModel.class);
    TipStatesModel tipStatesModel = (TipStatesModel) xo.getChild(TipStatesModel.class);
    if (tipStatesModel != null && tipStatesModel.getPatternList() != null) {
        throw new XMLParseException("The same sequence error model cannot be used for multiple partitions");
    }
    if (tipStatesModel != null && tipStatesModel.getModelType() == TipStatesModel.Type.STATES) {
        throw new XMLParseException("The state emitting TipStateModel requires BEAGLE");
    }
    boolean forceRescaling = xo.getAttribute(FORCE_RESCALING, false);
    return new TreeLikelihood(patternList, treeModel, siteModel, branchRateModel, tipStatesModel, useAmbiguities, allowMissingTaxa, storePartials, forceJavaCore, forceRescaling);
}
Also used : TreeModel(dr.evomodel.tree.TreeModel) BranchRateModel(dr.evomodel.branchratemodel.BranchRateModel) PatternList(dr.evolution.alignment.PatternList) TreeLikelihood(dr.oldevomodel.treelikelihood.TreeLikelihood) SiteModel(dr.oldevomodel.sitemodel.SiteModel) TipStatesModel(dr.evomodel.tipstatesmodel.TipStatesModel)

Example 32 with BranchRateModel

use of dr.evomodel.branchratemodel.BranchRateModel in project beast-mcmc by beast-dev.

the class BeagleBranchLikelihood method main.

// END: LikelihoodColumn class
// ////////////
// ---TEST---//
// ////////////
public static void main(String[] args) {
    try {
        MathUtils.setSeed(666);
        int sequenceLength = 1000;
        ArrayList<Partition> partitionsList = new ArrayList<Partition>();
        // create tree
        NewickImporter importer = new NewickImporter("((SimSeq1:22.0,SimSeq2:22.0):12.0,(SimSeq3:23.1,SimSeq4:23.1):10.899999999999999);");
        Tree tree = importer.importTree(null);
        TreeModel treeModel = new TreeModel(tree);
        // create Frequency Model
        Parameter freqs = new Parameter.Default(new double[] { 0.25, 0.25, 0.25, 0.25 });
        FrequencyModel freqModel = new FrequencyModel(Nucleotides.INSTANCE, freqs);
        // create branch model
        Parameter kappa1 = new Parameter.Default(1, 1);
        HKY hky1 = new HKY(kappa1, freqModel);
        BranchModel homogeneousBranchModel = new HomogeneousBranchModel(hky1);
        List<SubstitutionModel> substitutionModels = new ArrayList<SubstitutionModel>();
        substitutionModels.add(hky1);
        List<FrequencyModel> freqModels = new ArrayList<FrequencyModel>();
        freqModels.add(freqModel);
        // create branch rate model
        Parameter rate = new Parameter.Default(1, 1.000);
        BranchRateModel branchRateModel = new StrictClockBranchRates(rate);
        // create site model
        GammaSiteRateModel siteRateModel = new GammaSiteRateModel("siteModel");
        // create partition
        Partition partition1 = new //
        Partition(//
        treeModel, //
        homogeneousBranchModel, //
        siteRateModel, //
        branchRateModel, //
        freqModel, // from
        0, // to
        sequenceLength - 1, // every
        1);
        partitionsList.add(partition1);
        // feed to sequence simulator and generate data
        BeagleSequenceSimulator simulator = new BeagleSequenceSimulator(partitionsList);
        Alignment alignment = simulator.simulate(false, false);
        System.out.println(alignment);
        BeagleTreeLikelihood btl = new BeagleTreeLikelihood(alignment, treeModel, homogeneousBranchModel, siteRateModel, branchRateModel, null, false, PartialsRescalingScheme.DEFAULT, true);
        System.out.println("BTL(homogeneous) = " + btl.getLogLikelihood());
        BeagleBranchLikelihood bbl = new BeagleBranchLikelihood(alignment, treeModel, homogeneousBranchModel, siteRateModel, freqModel, branchRateModel);
        int branchIndex = 4;
        System.out.println(bbl.getBranchLogLikelihood(branchIndex));
        bbl.finalizeBeagle();
    } catch (Exception e) {
        e.printStackTrace();
        System.exit(-1);
    } catch (Throwable e) {
        e.printStackTrace();
        System.exit(-1);
    }
// END: try-catch block
}
Also used : FrequencyModel(dr.evomodel.substmodel.FrequencyModel) HomogeneousBranchModel(dr.evomodel.branchmodel.HomogeneousBranchModel) BranchModel(dr.evomodel.branchmodel.BranchModel) StrictClockBranchRates(dr.evomodel.branchratemodel.StrictClockBranchRates) BeagleSequenceSimulator(dr.app.beagle.tools.BeagleSequenceSimulator) TreeModel(dr.evomodel.tree.TreeModel) Alignment(dr.evolution.alignment.Alignment) NewickImporter(dr.evolution.io.NewickImporter) Tree(dr.evolution.tree.Tree) Partition(dr.app.beagle.tools.Partition) BeagleTreeLikelihood(dr.evomodel.treelikelihood.BeagleTreeLikelihood) HomogeneousBranchModel(dr.evomodel.branchmodel.HomogeneousBranchModel) GammaSiteRateModel(dr.evomodel.siteratemodel.GammaSiteRateModel) SubstitutionModel(dr.evomodel.substmodel.SubstitutionModel) BranchRateModel(dr.evomodel.branchratemodel.BranchRateModel) HKY(dr.evomodel.substmodel.nucleotide.HKY) Parameter(dr.inference.model.Parameter)

Example 33 with BranchRateModel

use of dr.evomodel.branchratemodel.BranchRateModel in project beast-mcmc by beast-dev.

the class LineageSpecificBranchModel method main.

// END: acceptState
public static void main(String[] args) {
    try {
        // the seed of the BEAST
        MathUtils.setSeed(666);
        // create tree
        NewickImporter importer = new NewickImporter("(SimSeq1:73.7468,(SimSeq2:25.256989999999995,SimSeq3:45.256989999999995):18.48981);");
        TreeModel tree = new TreeModel(importer.importTree(null));
        // create site model
        GammaSiteRateModel siteRateModel = new GammaSiteRateModel("siteModel");
        // create branch rate model
        BranchRateModel branchRateModel = new DefaultBranchRateModel();
        int sequenceLength = 10;
        ArrayList<Partition> partitionsList = new ArrayList<Partition>();
        // create Frequency Model
        Parameter freqs = new Parameter.Default(new double[] { //
        0.0163936, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344, //
        0.01639344 });
        FrequencyModel freqModel = new FrequencyModel(Codons.UNIVERSAL, freqs);
        // create substitution model
        Parameter alpha = new Parameter.Default(1, 10);
        Parameter beta = new Parameter.Default(1, 5);
        MG94CodonModel mg94 = new MG94CodonModel(Codons.UNIVERSAL, alpha, beta, freqModel);
        HomogeneousBranchModel substitutionModel = new HomogeneousBranchModel(mg94);
        // create partition
        Partition partition1 = new //
        Partition(//
        tree, //
        substitutionModel, //
        siteRateModel, //
        branchRateModel, //
        freqModel, // from
        0, // to
        sequenceLength - 1, // every
        1);
        partitionsList.add(partition1);
        // feed to sequence simulator and generate data
        BeagleSequenceSimulator simulator = new BeagleSequenceSimulator(partitionsList);
        Alignment alignment = simulator.simulate(false, false);
        ConvertAlignment convert = new ConvertAlignment(Nucleotides.INSTANCE, GeneticCode.UNIVERSAL, alignment);
        List<SubstitutionModel> substModels = new ArrayList<SubstitutionModel>();
        for (int i = 0; i < 2; i++) {
            //				alpha = new Parameter.Default(1, 10 );
            //				beta = new Parameter.Default(1, 5 );
            //				mg94 = new MG94CodonModel(Codons.UNIVERSAL, alpha, beta,
            //						freqModel);
            substModels.add(mg94);
        }
        Parameter uCategories = new Parameter.Default(2, 0);
        //            CountableBranchCategoryProvider provider = new CountableBranchCategoryProvider.IndependentBranchCategoryModel(tree, uCategories);
        LineageSpecificBranchModel branchSpecific = new //provider, 
        LineageSpecificBranchModel(//provider, 
        tree, //provider, 
        freqModel, //provider, 
        substModels, uCategories);
        BeagleTreeLikelihood like = new //
        BeagleTreeLikelihood(//
        convert, //
        tree, //
        branchSpecific, //
        siteRateModel, //
        branchRateModel, //
        null, //
        false, PartialsRescalingScheme.DEFAULT, true);
        BeagleTreeLikelihood gold = new //
        BeagleTreeLikelihood(//
        convert, //
        tree, //
        substitutionModel, //
        siteRateModel, //
        branchRateModel, //
        null, //
        false, PartialsRescalingScheme.DEFAULT, true);
        System.out.println("likelihood (gold) = " + gold.getLogLikelihood());
        System.out.println("likelihood = " + like.getLogLikelihood());
    } catch (Exception e) {
        e.printStackTrace();
    }
}
Also used : FrequencyModel(dr.evomodel.substmodel.FrequencyModel) Partition(dr.app.beagle.tools.Partition) BeagleTreeLikelihood(dr.evomodel.treelikelihood.BeagleTreeLikelihood) MG94CodonModel(dr.evomodel.substmodel.codon.MG94CodonModel) HomogeneousBranchModel(dr.evomodel.branchmodel.HomogeneousBranchModel) GammaSiteRateModel(dr.evomodel.siteratemodel.GammaSiteRateModel) BeagleSequenceSimulator(dr.app.beagle.tools.BeagleSequenceSimulator) SubstitutionModel(dr.evomodel.substmodel.SubstitutionModel) DefaultBranchRateModel(dr.evomodel.branchratemodel.DefaultBranchRateModel) TreeModel(dr.evomodel.tree.TreeModel) ConvertAlignment(dr.evolution.alignment.ConvertAlignment) Alignment(dr.evolution.alignment.Alignment) DefaultBranchRateModel(dr.evomodel.branchratemodel.DefaultBranchRateModel) BranchRateModel(dr.evomodel.branchratemodel.BranchRateModel) NewickImporter(dr.evolution.io.NewickImporter) ConvertAlignment(dr.evolution.alignment.ConvertAlignment) Parameter(dr.inference.model.Parameter)

Example 34 with BranchRateModel

use of dr.evomodel.branchratemodel.BranchRateModel in project beast-mcmc by beast-dev.

the class DataLikelihoodTester method main.

public static void main(String[] args) {
    // turn off logging to avoid screen noise...
    Logger logger = Logger.getLogger("dr");
    logger.setUseParentHandlers(false);
    SimpleAlignment alignment = createAlignment(sequences, Nucleotides.INSTANCE);
    TreeModel treeModel;
    try {
        treeModel = createSpecifiedTree("((human:0.1,chimp:0.1):0.1,gorilla:0.2)");
    } catch (Exception e) {
        throw new RuntimeException("Unable to parse Newick tree");
    }
    System.out.print("\nTest BeagleTreeLikelihood (kappa = 1): ");
    //substitutionModel
    Parameter freqs = new Parameter.Default(new double[] { 0.25, 0.25, 0.25, 0.25 });
    Parameter kappa = new Parameter.Default(HKYParser.KAPPA, 1.0, 0, 100);
    FrequencyModel f = new FrequencyModel(Nucleotides.INSTANCE, freqs);
    HKY hky = new HKY(kappa, f);
    //siteModel
    double alpha = 0.5;
    GammaSiteRateModel siteRateModel = new GammaSiteRateModel("gammaModel", alpha, 4);
    //        GammaSiteRateModel siteRateModel = new GammaSiteRateModel("siteRateModel");
    siteRateModel.setSubstitutionModel(hky);
    Parameter mu = new Parameter.Default(GammaSiteModelParser.SUBSTITUTION_RATE, 1.0, 0, Double.POSITIVE_INFINITY);
    siteRateModel.setRelativeRateParameter(mu);
    FrequencyModel f2 = new FrequencyModel(Nucleotides.INSTANCE, freqs);
    Parameter kappa2 = new Parameter.Default(HKYParser.KAPPA, 10.0, 0, 100);
    HKY hky2 = new HKY(kappa2, f2);
    GammaSiteRateModel siteRateModel2 = new GammaSiteRateModel("gammaModel", alpha, 4);
    siteRateModel2.setSubstitutionModel(hky2);
    siteRateModel2.setRelativeRateParameter(mu);
    //treeLikelihood
    SitePatterns patterns = new SitePatterns(alignment, null, 0, -1, 1, true);
    BranchModel branchModel = new HomogeneousBranchModel(siteRateModel.getSubstitutionModel(), siteRateModel.getSubstitutionModel().getFrequencyModel());
    BranchModel branchModel2 = new HomogeneousBranchModel(siteRateModel2.getSubstitutionModel(), siteRateModel2.getSubstitutionModel().getFrequencyModel());
    BranchRateModel branchRateModel = new DefaultBranchRateModel();
    BeagleTreeLikelihood treeLikelihood = new BeagleTreeLikelihood(patterns, treeModel, branchModel, siteRateModel, branchRateModel, null, false, PartialsRescalingScheme.AUTO, true);
    double logLikelihood = treeLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    System.out.print("\nTest BeagleDataLikelihoodDelegate (kappa = 1): ");
    BeagleDataLikelihoodDelegate dataLikelihoodDelegate = new BeagleDataLikelihoodDelegate(treeModel, patterns, branchModel, siteRateModel, false, PartialsRescalingScheme.NONE, false);
    TreeDataLikelihood treeDataLikelihood = new TreeDataLikelihood(dataLikelihoodDelegate, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    hky.setKappa(5.0);
    System.out.print("\nTest BeagleDataLikelihoodDelegate (kappa = 5): ");
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    System.out.print("\nTest BeagleDataLikelihoodDelegate (kappa = 10): ");
    dataLikelihoodDelegate = new BeagleDataLikelihoodDelegate(treeModel, patterns, branchModel2, siteRateModel2, false, PartialsRescalingScheme.NONE, false);
    treeDataLikelihood = new TreeDataLikelihood(dataLikelihoodDelegate, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    hky2.setKappa(11.0);
    System.out.print("\nTest BeagleDataLikelihoodDelegate (kappa = 11): ");
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    hky.setKappa(1.0);
    hky2.setKappa(10.0);
    MultiPartitionDataLikelihoodDelegate multiPartitionDataLikelihoodDelegate;
    System.out.print("\nTest MultiPartitionDataLikelihoodDelegate 1 partition (kappa = 1):");
    multiPartitionDataLikelihoodDelegate = new MultiPartitionDataLikelihoodDelegate(treeModel, Collections.singletonList((PatternList) patterns), Collections.singletonList((BranchModel) branchModel), Collections.singletonList((SiteRateModel) siteRateModel), true, PartialsRescalingScheme.NONE, false);
    treeDataLikelihood = new TreeDataLikelihood(multiPartitionDataLikelihoodDelegate, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    hky.setKappa(5.0);
    System.out.print("\nTest MultiPartitionDataLikelihoodDelegate 1 partition (kappa = 5):");
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    hky.setKappa(1.0);
    System.out.print("\nTest MultiPartitionDataLikelihoodDelegate 1 partition (kappa = 10):");
    multiPartitionDataLikelihoodDelegate = new MultiPartitionDataLikelihoodDelegate(treeModel, Collections.singletonList((PatternList) patterns), Collections.singletonList((BranchModel) branchModel2), Collections.singletonList((SiteRateModel) siteRateModel2), true, PartialsRescalingScheme.NONE, false);
    treeDataLikelihood = new TreeDataLikelihood(multiPartitionDataLikelihoodDelegate, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    System.out.print("\nTest MultiPartitionDataLikelihoodDelegate 2 partitions (kappa = 1, 10): ");
    List<PatternList> patternLists = new ArrayList<PatternList>();
    patternLists.add(patterns);
    patternLists.add(patterns);
    List<SiteRateModel> siteRateModels = new ArrayList<SiteRateModel>();
    siteRateModels.add(siteRateModel);
    siteRateModels.add(siteRateModel2);
    List<BranchModel> branchModels = new ArrayList<BranchModel>();
    branchModels.add(branchModel);
    branchModels.add(branchModel2);
    multiPartitionDataLikelihoodDelegate = new MultiPartitionDataLikelihoodDelegate(treeModel, patternLists, branchModels, siteRateModels, true, PartialsRescalingScheme.NONE, false);
    treeDataLikelihood = new TreeDataLikelihood(multiPartitionDataLikelihoodDelegate, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + " (NOT OK: this is 2x the logLikelihood of the 2nd partition)\n\n");
    System.exit(0);
    //START ADDITIONAL TEST #1 - Guy Baele
    System.out.println("-- Test #1 SiteRateModels -- ");
    //alpha in partition 1 reject followed by alpha in partition 2 reject
    System.out.print("Adjust alpha in partition 1: ");
    siteRateModel.setAlpha(0.4);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    System.out.print("Return alpha in partition 1 to original value: ");
    siteRateModel.setAlpha(0.5);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + " (i.e. reject: OK)\n");
    System.out.print("Adjust alpha in partition 2: ");
    siteRateModel2.setAlpha(0.35);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    System.out.print("Return alpha in partition 2 to original value: ");
    siteRateModel2.setAlpha(0.5);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + " (i.e. reject: OK)\n");
    //alpha in partition 1 accept followed by alpha in partition 2 accept
    System.out.print("Adjust alpha in partition 1: ");
    siteRateModel.setAlpha(0.4);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    System.out.print("Adjust alpha in partition 2: ");
    siteRateModel2.setAlpha(0.35);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + " (NOT OK: same logLikelihood as only setting alpha in partition 2)");
    System.out.print("Return alpha in partition 1 to original value: ");
    siteRateModel.setAlpha(0.5);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + " (NOT OK: alpha in partition 2 has not been returned to original value yet)");
    System.out.print("Return alpha in partition 2 to original value: ");
    siteRateModel2.setAlpha(0.5);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + "\n");
    //adjusting alphas in both partitions without explicitly calling getLogLikelihood() in between
    System.out.print("Adjust both alphas in partitions 1 and 2: ");
    siteRateModel.setAlpha(0.4);
    siteRateModel2.setAlpha(0.35);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    System.out.print("Return alpha in partition 2 to original value: ");
    siteRateModel2.setAlpha(0.5);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + " (NOT OK: alpha in partition 1 has not been returned to original value yet)");
    System.out.print("Return alpha in partition 1 to original value: ");
    siteRateModel.setAlpha(0.5);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + "\n\n");
    //END ADDITIONAL TEST - Guy Baele
    //START ADDITIONAL TEST #2 - Guy Baele
    System.out.println("-- Test #2 SiteRateModels -- ");
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    //1 siteRateModel shared across 2 partitions
    siteRateModels = new ArrayList<SiteRateModel>();
    siteRateModels.add(siteRateModel);
    multiPartitionDataLikelihoodDelegate = new MultiPartitionDataLikelihoodDelegate(treeModel, patternLists, branchModels, siteRateModels, true, PartialsRescalingScheme.NONE, false);
    treeDataLikelihood = new TreeDataLikelihood(multiPartitionDataLikelihoodDelegate, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + "\n");
    System.out.print("Adjust alpha in shared siteRateModel: ");
    siteRateModel.setAlpha(0.4);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + " (NOT OK: same logLikelihood as only adjusted alpha for partition 1)");
    siteRateModel.setAlpha(0.5);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + "\n\n");
    //END ADDITIONAL TEST - Guy Baele
    //START ADDITIONAL TEST #3 - Guy Baele
    System.out.println("-- Test #3 SiteRateModels -- ");
    siteRateModel = new GammaSiteRateModel("gammaModel");
    siteRateModel.setSubstitutionModel(hky);
    siteRateModel.setRelativeRateParameter(mu);
    siteRateModel2 = new GammaSiteRateModel("gammaModel2");
    siteRateModel2.setSubstitutionModel(hky2);
    siteRateModel2.setRelativeRateParameter(mu);
    siteRateModels = new ArrayList<SiteRateModel>();
    siteRateModels.add(siteRateModel);
    siteRateModels.add(siteRateModel2);
    multiPartitionDataLikelihoodDelegate = new MultiPartitionDataLikelihoodDelegate(treeModel, patternLists, branchModels, siteRateModels, true, PartialsRescalingScheme.NONE, false);
    treeDataLikelihood = new TreeDataLikelihood(multiPartitionDataLikelihoodDelegate, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + "\n");
    System.out.print("Adjust kappa in partition 1: ");
    hky.setKappa(5.0);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + " (NOT OK: logLikelihood has not changed?)");
    System.out.print("Return kappa in partition 1 to original value: ");
    hky.setKappa(1.0);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + "\n");
    System.out.print("Adjust kappa in partition 2: ");
    hky2.setKappa(11.0);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood);
    System.out.print("Return kappa in partition 2 to original value: ");
    hky2.setKappa(10.0);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.println("logLikelihood = " + logLikelihood + " (i.e. reject: OK)\n\n");
    //END ADDITIONAL TEST - Guy Baele
    //START ADDITIONAL TEST #4 - Guy Baele
    System.out.println("-- Test #4 SiteRateModels -- ");
    SimpleAlignment secondAlignment = createAlignment(moreSequences, Nucleotides.INSTANCE);
    SitePatterns morePatterns = new SitePatterns(secondAlignment, null, 0, -1, 1, true);
    BeagleDataLikelihoodDelegate dataLikelihoodDelegateOne = new BeagleDataLikelihoodDelegate(treeModel, patterns, branchModel, siteRateModel, false, PartialsRescalingScheme.NONE, false);
    TreeDataLikelihood treeDataLikelihoodOne = new TreeDataLikelihood(dataLikelihoodDelegateOne, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihoodOne.getLogLikelihood();
    System.out.println("\nBeagleDataLikelihoodDelegate logLikelihood partition 1 (kappa = 1) = " + logLikelihood);
    hky.setKappa(10.0);
    logLikelihood = treeDataLikelihoodOne.getLogLikelihood();
    System.out.println("BeagleDataLikelihoodDelegate logLikelihood partition 1 (kappa = 10) = " + logLikelihood);
    hky.setKappa(1.0);
    BeagleDataLikelihoodDelegate dataLikelihoodDelegateTwo = new BeagleDataLikelihoodDelegate(treeModel, morePatterns, branchModel2, siteRateModel2, false, PartialsRescalingScheme.NONE, false);
    TreeDataLikelihood treeDataLikelihoodTwo = new TreeDataLikelihood(dataLikelihoodDelegateTwo, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihoodTwo.getLogLikelihood();
    System.out.println("BeagleDataLikelihoodDelegate logLikelihood partition 2 (kappa = 10) = " + logLikelihood + "\n");
    multiPartitionDataLikelihoodDelegate = new MultiPartitionDataLikelihoodDelegate(treeModel, Collections.singletonList((PatternList) patterns), Collections.singletonList((BranchModel) branchModel), Collections.singletonList((SiteRateModel) siteRateModel), true, PartialsRescalingScheme.NONE, false);
    treeDataLikelihood = new TreeDataLikelihood(multiPartitionDataLikelihoodDelegate, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.print("Test MultiPartitionDataLikelihoodDelegate 1st partition (kappa = 1):");
    System.out.println("logLikelihood = " + logLikelihood);
    hky.setKappa(10.0);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.print("Test MultiPartitionDataLikelihoodDelegate 1st partition (kappa = 10):");
    System.out.println("logLikelihood = " + logLikelihood);
    hky.setKappa(1.0);
    multiPartitionDataLikelihoodDelegate = new MultiPartitionDataLikelihoodDelegate(treeModel, Collections.singletonList((PatternList) morePatterns), Collections.singletonList((BranchModel) branchModel2), Collections.singletonList((SiteRateModel) siteRateModel2), true, PartialsRescalingScheme.NONE, false);
    treeDataLikelihood = new TreeDataLikelihood(multiPartitionDataLikelihoodDelegate, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.print("Test MultiPartitionDataLikelihoodDelegate 2nd partition (kappa = 10):");
    System.out.println("logLikelihood = " + logLikelihood + "\n");
    patternLists = new ArrayList<PatternList>();
    patternLists.add(patterns);
    patternLists.add(morePatterns);
    multiPartitionDataLikelihoodDelegate = new MultiPartitionDataLikelihoodDelegate(treeModel, patternLists, branchModels, siteRateModels, true, PartialsRescalingScheme.NONE, false);
    treeDataLikelihood = new TreeDataLikelihood(multiPartitionDataLikelihoodDelegate, treeModel, branchRateModel);
    logLikelihood = treeDataLikelihood.getLogLikelihood();
    System.out.print("Test MultiPartitionDataLikelihoodDelegate 2 partitions (kappa = 1, 10): ");
    System.out.println("logLikelihood = " + logLikelihood + " (NOT OK: should be the sum of both separate logLikelihoods)\nKappa value of partition 2 is used to compute logLikelihood for both partitions?");
//END ADDITIONAL TEST - Guy Baele
}
Also used : FrequencyModel(dr.evomodel.substmodel.FrequencyModel) ArrayList(java.util.ArrayList) PatternList(dr.evolution.alignment.PatternList) HomogeneousBranchModel(dr.evomodel.branchmodel.HomogeneousBranchModel) BranchModel(dr.evomodel.branchmodel.BranchModel) DefaultBranchRateModel(dr.evomodel.branchratemodel.DefaultBranchRateModel) SiteRateModel(dr.evomodel.siteratemodel.SiteRateModel) GammaSiteRateModel(dr.evomodel.siteratemodel.GammaSiteRateModel) TreeModel(dr.evomodel.tree.TreeModel) SimpleAlignment(dr.evolution.alignment.SimpleAlignment) SitePatterns(dr.evolution.alignment.SitePatterns) BeagleTreeLikelihood(dr.evomodel.treelikelihood.BeagleTreeLikelihood) HomogeneousBranchModel(dr.evomodel.branchmodel.HomogeneousBranchModel) GammaSiteRateModel(dr.evomodel.siteratemodel.GammaSiteRateModel) DefaultBranchRateModel(dr.evomodel.branchratemodel.DefaultBranchRateModel) BranchRateModel(dr.evomodel.branchratemodel.BranchRateModel) HKY(dr.evomodel.substmodel.nucleotide.HKY) Parameter(dr.inference.model.Parameter)

Example 35 with BranchRateModel

use of dr.evomodel.branchratemodel.BranchRateModel in project beast-mcmc by beast-dev.

the class MicrosatelliteSingleAncestralStateGibbsOperatorParser method parseXMLObject.

public Object parseXMLObject(XMLObject xo) throws XMLParseException {
    final double weight = xo.getDoubleAttribute(MCMCOperator.WEIGHT);
    final Parameter parameter = (Parameter) xo.getChild(Parameter.class);
    final MicrosatelliteSamplerTreeModel msatSamplerTreeModel = (MicrosatelliteSamplerTreeModel) xo.getChild(MicrosatelliteSamplerTreeModel.class);
    final MicrosatelliteModel msatModel = (MicrosatelliteModel) xo.getChild(MicrosatelliteModel.class);
    final BranchRateModel branchRateModel = (BranchRateModel) xo.getChild(BranchRateModel.class);
    return new MicrosatelliteSingleAncestralStateGibbsOperator(parameter, msatSamplerTreeModel, msatModel, branchRateModel, weight);
}
Also used : MicrosatelliteModel(dr.oldevomodel.substmodel.MicrosatelliteModel) MicrosatelliteSamplerTreeModel(dr.evomodel.tree.MicrosatelliteSamplerTreeModel) MicrosatelliteSingleAncestralStateGibbsOperator(dr.evomodel.operators.MicrosatelliteSingleAncestralStateGibbsOperator) BranchRateModel(dr.evomodel.branchratemodel.BranchRateModel) Parameter(dr.inference.model.Parameter)

Aggregations

BranchRateModel (dr.evomodel.branchratemodel.BranchRateModel)44 Parameter (dr.inference.model.Parameter)31 TreeModel (dr.evomodel.tree.TreeModel)28 GammaSiteRateModel (dr.evomodel.siteratemodel.GammaSiteRateModel)26 FrequencyModel (dr.evomodel.substmodel.FrequencyModel)22 DefaultBranchRateModel (dr.evomodel.branchratemodel.DefaultBranchRateModel)21 HomogeneousBranchModel (dr.evomodel.branchmodel.HomogeneousBranchModel)18 Tree (dr.evolution.tree.Tree)15 ArrayList (java.util.ArrayList)14 PatternList (dr.evolution.alignment.PatternList)12 BranchModel (dr.evomodel.branchmodel.BranchModel)12 HKY (dr.evomodel.substmodel.nucleotide.HKY)12 Partition (dr.app.beagle.tools.Partition)11 NewickImporter (dr.evolution.io.NewickImporter)11 BeagleSequenceSimulator (dr.app.beagle.tools.BeagleSequenceSimulator)10 SubstitutionModel (dr.evomodel.substmodel.SubstitutionModel)8 BeagleTreeLikelihood (dr.evomodel.treelikelihood.BeagleTreeLikelihood)8 SimpleAlignment (dr.evolution.alignment.SimpleAlignment)7 ImportException (dr.evolution.io.Importer.ImportException)7 Taxon (dr.evolution.util.Taxon)7