Example 1 with MultiTypeTree
use of beast.evolution.tree.MultiTypeTree in project MultiTypeTree by tgvaughan.
the class NSR_Test method test.
@Test
public void test() throws Exception {
System.out.println("NSR test");
// Fix seed.
Randomizer.setSeed(42);
// Assemble migration model:
RealParameter rateMatrix = new RealParameter("0.1 0.1");
RealParameter popSizes = new RealParameter("7.0 7.0");
SCMigrationModel migModel = new SCMigrationModel();
migModel.initByName("rateMatrix", rateMatrix, "popSizes", popSizes, "typeSet", new TypeSet("A", "B"));
// Assemble initial MultiTypeTree
MultiTypeTree mtTree = new StructuredCoalescentMultiTypeTree();
mtTree.initByName("typeLabel", "deme", "migrationModel", migModel, "leafTypes", "1 0");
// Set up state:
State state = new State();
state.initByName("stateNode", mtTree);
// Assemble distribution:
StructuredCoalescentTreeDensity distribution = new StructuredCoalescentTreeDensity();
distribution.initByName("migrationModel", migModel, "multiTypeTree", mtTree);
// Set up operators:
Operator operatorNSR = new NodeShiftRetype();
operatorNSR.initByName("weight", 1.0, "multiTypeTree", mtTree, "migrationModel", migModel);
// Set up stat analysis logger:
MultiTypeTreeStatLogger logger = new MultiTypeTreeStatLogger();
logger.initByName("multiTypeTree", mtTree, "burninFrac", 0.1, "logEvery", 100);
// Set up MCMC:
MCMC mcmc = new MCMC();
mcmc.initByName("chainLength", "1000000", "state", state, "distribution", distribution, "operator", operatorNSR, "logger", logger);
// Run MCMC:
mcmc.run();
System.out.format("height mean = %s\n", logger.getHeightMean());
System.out.format("height var = %s\n", logger.getHeightVar());
System.out.format("height ESS = %s\n", logger.getHeightESS());
// Compare analysis results with truth:
boolean withinTol = (logger.getHeightESS() > 2000) && (Math.abs(logger.getHeightMean() - 19.0) < 0.5) && (Math.abs(logger.getHeightVar() - 291) < 30);
Assert.assertTrue(withinTol);
}
Also used :
Operator(beast.core.Operator)
MultiTypeTreeStatLogger(multitypetree.util.MultiTypeTreeStatLogger)
State(beast.core.State)
TypeSet(beast.evolution.tree.TypeSet)
StructuredCoalescentTreeDensity(multitypetree.distributions.StructuredCoalescentTreeDensity)
MCMC(beast.core.MCMC)
RealParameter(beast.core.parameter.RealParameter)
StructuredCoalescentMultiTypeTree(beast.evolution.tree.StructuredCoalescentMultiTypeTree)
MultiTypeTree(beast.evolution.tree.MultiTypeTree)
SCMigrationModel(beast.evolution.tree.SCMigrationModel)
StructuredCoalescentMultiTypeTree(beast.evolution.tree.StructuredCoalescentMultiTypeTree)
Test(org.junit.Test)
Example 2 with MultiTypeTree
use of beast.evolution.tree.MultiTypeTree in project MultiTypeTree by tgvaughan.
the class STXR_NRR_MTU_TS_Test method test.
@Test
public void test() throws Exception {
System.out.println("STXR_NRR_MTU_TS test");
// Fix seed.
Randomizer.setSeed(42);
// Assemble migration model:
RealParameter rateMatrix = new RealParameter("0.1 0.1");
RealParameter popSizes = new RealParameter("7.0 7.0");
SCMigrationModel migModel = new SCMigrationModel();
migModel.initByName("rateMatrix", rateMatrix, "popSizes", popSizes, "typeSet", new TypeSet("A", "B"));
// Assemble initial MultiTypeTree
MultiTypeTree mtTree = new StructuredCoalescentMultiTypeTree();
mtTree.initByName("typeLabel", "deme", "migrationModel", migModel, "leafTypes", "1 1 0 0");
// Set up state:
State state = new State();
state.initByName("stateNode", mtTree);
// Assemble distribution:
StructuredCoalescentTreeDensity distribution = new StructuredCoalescentTreeDensity();
distribution.initByName("migrationModel", migModel, "multiTypeTree", mtTree);
// Set up operators:
Operator operatorSTXR = new TypedSubtreeExchangeRandom();
operatorSTXR.initByName("weight", 1.0, "multiTypeTree", mtTree, "migrationModel", migModel, "mu", 0.2);
Operator operatorNRR = new NodeRetypeRandom();
operatorNRR.initByName("weight", 1.0, "multiTypeTree", mtTree, "migrationModel", migModel, "mu", 0.2);
Operator operatorMTU = new MultiTypeUniform();
operatorMTU.initByName("weight", 1.0, "multiTypeTree", mtTree, "migrationModel", migModel);
Operator operatorMTTS = new MultiTypeTreeScale();
operatorMTTS.initByName("weight", 1.0, "multiTypeTree", mtTree, "migrationModel", migModel, "scaleFactor", 1.5, "useOldTreeScaler", false);
// Set up stat analysis logger:
MultiTypeTreeStatLogger logger = new MultiTypeTreeStatLogger();
logger.initByName("multiTypeTree", mtTree, "burninFrac", 0.1, "logEvery", 1000);
// Set up MCMC:
MCMC mcmc = new MCMC();
mcmc.initByName("chainLength", "10000000", "state", state, "distribution", distribution, "operator", operatorSTXR, "operator", operatorNRR, "operator", operatorMTU, "operator", operatorMTTS, "logger", logger);
// Run MCMC:
mcmc.run();
System.out.format("height mean = %s\n", logger.getHeightMean());
System.out.format("height var = %s\n", logger.getHeightVar());
System.out.format("height ESS = %s\n", logger.getHeightESS());
// Compare analysis results with truth:
boolean withinTol = (logger.getHeightESS() > 2000) && (Math.abs(logger.getHeightMean() - 25.8) < 0.5) && (Math.abs(logger.getHeightVar() - 320) < 30);
Assert.assertTrue(withinTol);
}
Also used :
Operator(beast.core.Operator)
MultiTypeTreeStatLogger(multitypetree.util.MultiTypeTreeStatLogger)
MCMC(beast.core.MCMC)
RealParameter(beast.core.parameter.RealParameter)
StructuredCoalescentMultiTypeTree(beast.evolution.tree.StructuredCoalescentMultiTypeTree)
MultiTypeTree(beast.evolution.tree.MultiTypeTree)
SCMigrationModel(beast.evolution.tree.SCMigrationModel)
State(beast.core.State)
TypeSet(beast.evolution.tree.TypeSet)
StructuredCoalescentTreeDensity(multitypetree.distributions.StructuredCoalescentTreeDensity)
StructuredCoalescentMultiTypeTree(beast.evolution.tree.StructuredCoalescentMultiTypeTree)
Test(org.junit.Test)
Example 3 with MultiTypeTree
use of beast.evolution.tree.MultiTypeTree in project MultiTypeTree by tgvaughan.
the class STX_NR_MTU_TS_Test method test.
@Test
public void test() throws Exception {
System.out.println("STX_NR_MTU_TS test");
// Test passing locally, not on Travis. WHY!?
// Fix seed.
Randomizer.setSeed(53);
// Assemble migration model:
RealParameter rateMatrix = new RealParameter("0.1 0.1");
RealParameter popSizes = new RealParameter("7.0 7.0");
SCMigrationModel migModel = new SCMigrationModel();
migModel.initByName("rateMatrix", rateMatrix, "popSizes", popSizes, "typeSet", new TypeSet("A", "B"));
// Assemble initial MultiTypeTree
MultiTypeTree mtTree = new StructuredCoalescentMultiTypeTree();
mtTree.initByName("typeLabel", "deme", "migrationModel", migModel, "leafTypes", "1 1 0 0");
// Set up state:
State state = new State();
state.initByName("stateNode", mtTree);
// Assemble distribution:
StructuredCoalescentTreeDensity distribution = new StructuredCoalescentTreeDensity();
distribution.initByName("migrationModel", migModel, "multiTypeTree", mtTree);
// Set up operators:
Operator operatorSTX = new TypedSubtreeExchange();
operatorSTX.initByName("weight", 1.0, "multiTypeTree", mtTree, "migrationModel", migModel);
Operator operatorNR = new NodeRetype();
operatorNR.initByName("weight", 1.0, "multiTypeTree", mtTree, "migrationModel", migModel);
Operator operatorMTU = new MultiTypeUniform();
operatorMTU.initByName("weight", 1.0, "migrationModel", migModel, "multiTypeTree", mtTree);
Operator operatorMTTS = new MultiTypeTreeScale();
operatorMTTS.initByName("weight", 1.0, "multiTypeTree", mtTree, "migrationModel", migModel, "scaleFactor", 1.5, "useOldTreeScaler", false);
// Set up stat analysis logger:
MultiTypeTreeStatLogger logger = new MultiTypeTreeStatLogger();
logger.initByName("multiTypeTree", mtTree, "burninFrac", 0.1, "logEvery", 1000);
// Set up MCMC:
MCMC mcmc = new MCMC();
mcmc.initByName("chainLength", "1000000", "state", state, "distribution", distribution, "operator", operatorSTX, "operator", operatorNR, "operator", operatorMTU, "operator", operatorMTTS, "logger", logger);
// Run MCMC:
mcmc.run();
System.out.format("height mean = %s\n", logger.getHeightMean());
System.out.format("height var = %s\n", logger.getHeightVar());
System.out.format("height ESS = %s\n", logger.getHeightESS());
// Direct simulation:
double[] heights = UtilMethods.getSimulatedHeights(migModel, new IntegerParameter("1 1 0 0"));
double simHeightMean = DiscreteStatistics.mean(heights);
double simHeightVar = DiscreteStatistics.variance(heights);
// Compare analysis results with truth:
boolean withinTol = (logger.getHeightESS() > 500) && (Math.abs(logger.getHeightMean() - simHeightMean) < 2.0) && (Math.abs(logger.getHeightVar() - simHeightVar) < 50);
Assert.assertTrue(withinTol);
}
Also used :
Operator(beast.core.Operator)
MultiTypeTreeStatLogger(multitypetree.util.MultiTypeTreeStatLogger)
IntegerParameter(beast.core.parameter.IntegerParameter)
MCMC(beast.core.MCMC)
RealParameter(beast.core.parameter.RealParameter)
StructuredCoalescentMultiTypeTree(beast.evolution.tree.StructuredCoalescentMultiTypeTree)
MultiTypeTree(beast.evolution.tree.MultiTypeTree)
SCMigrationModel(beast.evolution.tree.SCMigrationModel)
State(beast.core.State)
TypeSet(beast.evolution.tree.TypeSet)
StructuredCoalescentTreeDensity(multitypetree.distributions.StructuredCoalescentTreeDensity)
StructuredCoalescentMultiTypeTree(beast.evolution.tree.StructuredCoalescentMultiTypeTree)
Test(org.junit.Test)
Aggregations
MCMC (beast.core.MCMC)3
Operator (beast.core.Operator)3
State (beast.core.State)3
RealParameter (beast.core.parameter.RealParameter)3
MultiTypeTree (beast.evolution.tree.MultiTypeTree)3
SCMigrationModel (beast.evolution.tree.SCMigrationModel)3
StructuredCoalescentMultiTypeTree (beast.evolution.tree.StructuredCoalescentMultiTypeTree)3
TypeSet (beast.evolution.tree.TypeSet)3
StructuredCoalescentTreeDensity (multitypetree.distributions.StructuredCoalescentTreeDensity)3
MultiTypeTreeStatLogger (multitypetree.util.MultiTypeTreeStatLogger)3
Test (org.junit.Test)3
IntegerParameter (beast.core.parameter.IntegerParameter)1
