import java.util.Date;
import java.util.List;
import java.util.Set;
-import java.util.SortedSet;
import org.forester.evoinference.distance.NeighborJoining;
import org.forester.evoinference.distance.NeighborJoiningF;
import org.forester.evoinference.distance.NeighborJoiningR;
import org.forester.evoinference.distance.PairwiseDistanceCalculator;
-import org.forester.evoinference.distance.S;
+import org.forester.evoinference.distance.Sarray;
+import org.forester.evoinference.distance.Sset;
import org.forester.evoinference.matrix.character.BasicCharacterStateMatrix;
import org.forester.evoinference.matrix.character.CharacterStateMatrix;
import org.forester.evoinference.matrix.character.CharacterStateMatrix.BinaryStates;
public class TestPhylogenyReconstruction {
- private final static double ZERO_DIFF = 1.0E-9;
+ private final static double ZERO_DIFF = 1.0E-9;
+ private final static boolean VERBOSE = false;
public static boolean isEqual( final double a, final double b ) {
return ( ( Math.abs( a - b ) ) < ZERO_DIFF );
public static void main( final String[] args ) {
System.out.println( "NJ" );
- if ( testNeighborJoining() ) {
+ if ( testNeighborJoining( VERBOSE ) ) {
System.out.println( " OK." );
}
else {
else {
System.out.println( " failed." );
}
+ System.out.println( "Sarray" );
+ if ( testSarray() ) {
+ System.out.println( " OK." );
+ }
+ else {
+ System.out.println( " failed." );
+ }
System.out.println( "NJR" );
if ( testNeighborJoiningR() ) {
System.out.println( " OK." );
}
System.out.println( "OK." );
System.out.print( " Neighbor Joining: " );
- if ( !testNeighborJoining() ) {
+ if ( !testNeighborJoining( VERBOSE ) ) {
System.out.println( "failed." );
return false;
}
private static boolean testDistanceCalculationMethods( final File test_dir ) {
try {
- final Msa msa0 = GeneralMsaParser.parse( new FileInputStream( test_dir + ForesterUtil.FILE_SEPARATOR
+ final Msa msa0 = GeneralMsaParser.parseMsa( new FileInputStream( test_dir + ForesterUtil.FILE_SEPARATOR
+ "bcl.aln" ) );
- final BasicSymmetricalDistanceMatrix pwd0 = PairwiseDistanceCalculator.calcKimuraDistances( msa0 );
+ final DistanceMatrix pwd0 = PairwiseDistanceCalculator.calcKimuraDistances( msa0 );
if ( pwd0.getSize() != 120 ) {
return false;
}
return true;
}
- private static boolean testNeighborJoining() {
+ private static boolean testNeighborJoining( final boolean verbose ) {
try {
NeighborJoining nj = NeighborJoining.createInstance();
final BasicSymmetricalDistanceMatrix m0 = new BasicSymmetricalDistanceMatrix( 4 );
m.setRow( "1.60430 1.43890 0.61790 0.50610 0.34840 0.00000 0.26920", 5 );
m.setRow( "1.59050 1.46290 0.55830 0.47100 0.30830 0.26920 0.00000", 6 );
//NeighborJoiningR njr = NeighborJoiningR.createInstance( true, 6 );
- nj = NeighborJoining.createInstance( true, 6 );
+ nj = NeighborJoining.createInstance( verbose, 6 );
final Phylogeny p2 = nj.execute( m );
- // Archaeopteryx.createApplication( p2 );
+ //Archaeopteryx.createApplication( p2 );
p2.reRoot( p2.getNode( "Bovine" ) );
if ( isUnequal( p2.getNode( "Chimp" ).getDistanceToParent(), 0.151675 ) ) {
return false;
m.setRow( "1.52430 1.44650 0.59580 0.46310 0.00000 0.34840 0.30830", 4 );
m.setRow( "1.60430 1.43890 0.61790 0.50610 0.34840 0.00000 0.26920", 5 );
m.setRow( "1.59050 1.46290 0.55830 0.47100 0.30830 0.26920 0.00000", 6 );
- njf = NeighborJoiningF.createInstance( true, 5 );
+ njf = NeighborJoiningF.createInstance( verbose, 5 );
final Phylogeny p2f = njf.execute( m );
p2f.reRoot( p2f.getNode( "Bovine" ) );
if ( isUnequal( p2f.getNode( "Chimp" ).getDistanceToParent(), 0.15168 ) ) {
private static boolean testS() {
try {
- final S s0 = new S();
+ final Sset s0 = new Sset();
s0.initialize( 1 );
s0.addPairing( 0, 1, 0 );
s0.addPairing( 7, 8, 0 );
return true;
}
+ private static boolean testSarray() {
+ try {
+ final Sarray s0 = new Sarray();
+ s0.initialize( 1 );
+ s0.addPairing( 0, 1, 0 );
+ s0.addPairing( 7, 8, 0 );
+ s0.addPairing( 4, 55, 0 );
+ s0.addPairing( 2, 3, 0 );
+ s0.addPairing( 4, 5, 0 );
+ s0.addPairing( 5, 6666, 0 );
+ s0.addPairing( 5, 666, 0 );
+ s0.addPairing( 5, 66, 0 );
+ s0.addPairing( 5, 6, 0 );
+ s0.addPairing( 6, 7, 0 );
+ s0.addPairing( 3, 4, 0 );
+ s0.addPairing( 1, 2, 0 );
+ if ( s0.size() != 1 ) {
+ return false;
+ }
+ if ( s0.getS( 0 ).size() != 8 ) {
+ return false;
+ }
+ if ( s0.getValues( 0, 0 ).length != 1 ) {
+ return false;
+ }
+ if ( s0.getValues( 1, 0 ).length != 1 ) {
+ return false;
+ }
+ if ( s0.getValues( 2, 0 ).length != 1 ) {
+ return false;
+ }
+ if ( s0.getValues( 3, 0 ).length != 1 ) {
+ return false;
+ }
+ if ( s0.getValues( 4, 0 ).length != 2 ) {
+ return false;
+ }
+ if ( s0.getValues( 5, 0 ).length != 4 ) {
+ return false;
+ }
+ if ( s0.getValues( 6, 0 ).length != 1 ) {
+ return false;
+ }
+ if ( s0.getValues( 7, 0 ).length != 1 ) {
+ return false;
+ }
+ if ( s0.getValues( 0, 0 )[ 0 ] != 1 ) {
+ return false;
+ }
+ if ( s0.getValues( 5, 0 )[ 3 ] != 6 ) {
+ return false;
+ }
+ if ( s0.getValues( 5, 0 )[ 2 ] != 66 ) {
+ return false;
+ }
+ if ( s0.getValues( 5, 0 )[ 1 ] != 666 ) {
+ return false;
+ }
+ if ( s0.getValues( 5, 0 )[ 0 ] != 6666 ) {
+ return false;
+ }
+ s0.removePairing( 5, 6666, 0 );
+ if ( s0.getValues( 5, 0 ).length != 3 ) {
+ System.out.println( s0.getValues( 5, 0 ).length );
+ return false;
+ }
+ // if ( s0.getValues( 5, 0 ).contains( 6666 ) ) {
+ // return false;
+ // }
+ // s0.removePairing( 5, 666, 0 );
+ // if ( s0.getValues( 5, 0 ).contains( 666 ) ) {
+ // return false;
+ // }
+ // s0.removePairing( 5, 66, 0 );
+ // if ( s0.getValues( 5, 0 ).contains( 66 ) ) {
+ // return false;
+ // }
+ // if ( s0.getValues( 5, 0 ).size() != 1 ) {
+ // return false;
+ // }
+ // if ( s0.getS( 0 ).size() != 8 ) {
+ // return false;
+ // }
+ // s0.removePairing( 5, 6, 0 );
+ // if ( s0.getS( 0 ).size() != 7 ) {
+ // return false;
+ // }
+ // s0.addPairing( 5, 6, 0 );
+ // if ( s0.getS( 0 ).size() != 8 ) {
+ // return false;
+ // }
+ // if ( s0.getValues( 5, 0 ).size() != 1 ) {
+ // return false;
+ // }
+ // if ( !s0.getValues( 5, 0 ).contains( 6 ) ) {
+ // return false;
+ // }
+ // s0.addPairing( 5, 403, 0 );
+ // if ( s0.getValues( 5, 0 ).size() != 2 ) {
+ // return false;
+ // }
+ // if ( !s0.getValues( 5, 0 ).contains( 403 ) ) {
+ // return false;
+ // }
+ // s0.addPairing( 693, 100, 0 );
+ // s0.addPairing( 693, 101, 0 );
+ // if ( s0.getValues( 693, 0 ).size() != 2 ) {
+ // return false;
+ // }
+ // s0.addPairing( 2, 33, 0 );
+ // s0.addPairing( 2, 333, 0 );
+ // final Set<Integer>[] a = s0.toArray( 0 );
+ // if ( !a[ 0 ].contains( 1 ) ) {
+ // return false;
+ // }
+ // if ( a[ 0 ].size() != 1 ) {
+ // return false;
+ // }
+ // if ( !a[ 1 ].contains( 2 ) ) {
+ // return false;
+ // }
+ // if ( a[ 1 ].size() != 1 ) {
+ // return false;
+ // }
+ // if ( !a[ 2 ].contains( 3 ) ) {
+ // return false;
+ // }
+ // if ( !a[ 2 ].contains( 33 ) ) {
+ // return false;
+ // }
+ // if ( !a[ 2 ].contains( 333 ) ) {
+ // return false;
+ // }
+ }
+ catch ( final Exception e ) {
+ e.printStackTrace( System.out );
+ return false;
+ }
+ return true;
+ }
+
private static boolean testNeighborJoiningR() {
try {
final NeighborJoiningR nj0 = NeighborJoiningR.createInstance();
m2.setRow( "1.59050 1.46290 0.55830 0.47100 0.30830 0.26920 0.00000", 6 );
final NeighborJoiningR nj2 = NeighborJoiningR.createInstance( true, 6 );
final Phylogeny p2 = nj2.execute( m2 );
+ // Archaeopteryx.createApplication( p2 );
p2.reRoot( p2.getNode( "Bovine" ) );
if ( isUnequal( p2.getNode( "Chimp" ).getDistanceToParent(), 0.151675 ) ) {
+ System.out.println( p2.getNode( "Chimp" ).getDistanceToParent() );
return false;
}
if ( isUnequal( p2.getNode( "Human" ).getDistanceToParent(), 0.117525 ) ) {
return false;
}
//
- System.exit(1);
+ // System.exit( 1 );
final BasicSymmetricalDistanceMatrix m3 = new BasicSymmetricalDistanceMatrix( 20 );
m3.setIdentifier( 0, "F_MOUSE" );
m3.setIdentifier( 1, "11_RAT" );
final Phylogeny p3 = nj3.execute( m3 );
//Archaeopteryx.createApplication( p3 );
////
- final int size = 100;
+ final int size = 10;
for( int n = 0; n <= 100; ++n ) {
final NeighborJoiningR njn = NeighborJoiningR.createInstance( false, 6 );
final BasicSymmetricalDistanceMatrix mt = new BasicSymmetricalDistanceMatrix( size );
private static void timeNeighborJoining() {
final NeighborJoiningR njr = NeighborJoiningR.createInstance();
- for( int n = 3; n <= 9; ++n ) {
+ for( int n = 3; n <= 10; ++n ) {
final int x = ( int ) Math.pow( 2, n );
final BasicSymmetricalDistanceMatrix mt = new BasicSymmetricalDistanceMatrix( x );
mt.randomize( new Date().getTime() );
System.out.println( "Size: " + x + " -> " + ( new Date().getTime() - start_time ) + "ms" );
}
final NeighborJoiningF njf = NeighborJoiningF.createInstance();
- for( int n = 3; n <= 9; ++n ) {
+ for( int n = 3; n <= 10; ++n ) {
final int x = ( int ) Math.pow( 2, n );
final BasicSymmetricalDistanceMatrix mt = new BasicSymmetricalDistanceMatrix( x );
mt.randomize( new Date().getTime() );
System.out.println( "Size: " + x + " -> " + ( new Date().getTime() - start_time ) + "ms" );
}
final NeighborJoining nj = NeighborJoining.createInstance();
- for( int n = 3; n <= 9; ++n ) {
+ for( int n = 3; n <= 10; ++n ) {
final int x = ( int ) Math.pow( 2, n );
final BasicSymmetricalDistanceMatrix mt = new BasicSymmetricalDistanceMatrix( x );
mt.randomize( new Date().getTime() );