import org.forester.io.parsers.phyloxml.PhyloXmlMapping;
import org.forester.io.parsers.phyloxml.PhyloXmlUtil;
import org.forester.io.writers.PhylogenyWriter;
+import org.forester.sequence.MolecularSequence;
+import org.forester.sequence.MolecularSequence.TYPE;
import org.forester.util.ForesterUtil;
-public class Sequence implements PhylogenyData, MultipleUris {
+public class Sequence implements PhylogenyData, MultipleUris, Comparable<Sequence> {
+ private Accession _accession;
+ private SortedSet<Annotation> _annotations;
+ private DomainArchitecture _da;
+ private String _gene_name;
+ private String _location;
private String _mol_sequence;
private boolean _mol_sequence_is_aligned;
private String _name;
- private String _gene_name;
+ private List<SequenceRelation> _seq_relations;
private String _source_id;
- private Accession _accession;
private String _symbol;
- private String _location;
private String _type;
- private SortedSet<Annotation> _annotations;
- private DomainArchitecture _da;
private List<Uri> _uris;
- private List<SequenceRelation> _seq_relations;
private SortedSet<Accession> _xrefs;
public Sequence() {
init();
}
- public boolean isEmpty() {
- return ( getAccession() == null ) && ForesterUtil.isEmpty( getName() ) && ForesterUtil.isEmpty( getSymbol() )
- && ForesterUtil.isEmpty( getType() ) && ForesterUtil.isEmpty( getLocation() )
- && ForesterUtil.isEmpty( getSourceId() ) && ForesterUtil.isEmpty( getMolecularSequence() )
- && ( getDomainArchitecture() == null ) && ForesterUtil.isEmpty( _annotations )
- && ForesterUtil.isEmpty( _uris ) && ForesterUtil.isEmpty( _seq_relations )
- && ( ( getCrossReferences() == null ) || getCrossReferences().isEmpty() );
+ public Sequence( final MolecularSequence mol_seq ) {
+ init();
+ setMolecularSequence( mol_seq.getMolecularSequenceAsString() );
+ setName( mol_seq.getIdentifier() );
+ String type;
+ if ( mol_seq.getType() == TYPE.AA ) {
+ type = "protein";
+ }
+ else if ( mol_seq.getType() == TYPE.DNA ) {
+ type = "dna";
+ }
+ else if ( mol_seq.getType() == TYPE.RNA ) {
+ type = "rna";
+ }
+ else {
+ throw new IllegalArgumentException( "unknown sequence type " + mol_seq.getType() );
+ }
+ try {
+ setType( type );
+ }
+ catch ( final PhyloXmlDataFormatException e ) {
+ throw new IllegalArgumentException( "don't know how to handle type " + mol_seq.getType() );
+ }
}
public void addAnnotation( final Annotation annotation ) {
getCrossReferences().add( cross_reference );
}
- public SortedSet<Accession> getCrossReferences() {
- return _xrefs;
- }
-
- private void setCrossReferences( final TreeSet<Accession> cross_references ) {
- _xrefs = cross_references;
+ public void addSequenceRelation( final SequenceRelation sr ) {
+ getSequenceRelations().add( sr );
}
@Override
getUris().add( uri );
}
- public void addSequenceRelation( final SequenceRelation sr ) {
- _seq_relations.add( sr );
- }
-
@Override
public StringBuffer asSimpleText() {
final StringBuffer sb = new StringBuffer();
return asSimpleText();
}
+ @Override
+ public int compareTo( final Sequence o ) {
+ if ( ( !ForesterUtil.isEmpty( getName() ) ) && ( !ForesterUtil.isEmpty( o.getName() ) ) ) {
+ return getName().compareTo( o.getName() );
+ }
+ if ( ( !ForesterUtil.isEmpty( getSymbol() ) ) && ( !ForesterUtil.isEmpty( o.getSymbol() ) ) ) {
+ return getSymbol().compareTo( o.getSymbol() );
+ }
+ if ( ( !ForesterUtil.isEmpty( getGeneName() ) ) && ( !ForesterUtil.isEmpty( o.getGeneName() ) ) ) {
+ return getGeneName().compareTo( o.getGeneName() );
+ }
+ if ( ( getAccession() != null ) && ( o.getAccession() != null )
+ && !ForesterUtil.isEmpty( getAccession().getValue() )
+ && !ForesterUtil.isEmpty( o.getAccession().getValue() ) ) {
+ return getAccession().getValue().compareTo( o.getAccession().getValue() );
+ }
+ if ( ( !ForesterUtil.isEmpty( getMolecularSequence() ) )
+ && ( !ForesterUtil.isEmpty( o.getMolecularSequence() ) ) ) {
+ return getMolecularSequence().compareTo( o.getMolecularSequence() );
+ }
+ return 0;
+ }
+
/**
* Not a deep copy.
- *
+ *
*/
@Override
public PhylogenyData copy() {
return _annotations;
}
+ public SortedSet<Accession> getCrossReferences() {
+ return _xrefs;
+ }
+
public DomainArchitecture getDomainArchitecture() {
return _da;
}
+ public String getGeneName() {
+ return _gene_name;
+ }
+
public String getLocation() {
return _location;
}
return _mol_sequence;
}
- public boolean isMolecularSequenceAligned() {
- return _mol_sequence_is_aligned;
- }
-
public String getName() {
return _name;
}
- public String getGeneName() {
- return _gene_name;
- }
-
public List<SequenceRelation> getSequenceRelations() {
if ( _seq_relations == null ) {
_seq_relations = new ArrayList<SequenceRelation>();
return _seq_relations;
}
- private void setSequenceRelations( final List<SequenceRelation> seq_relations ) {
- _seq_relations = seq_relations;
- }
-
public String getSourceId() {
return _source_id;
}
}
@Override
- public List<Uri> getUris() {
- return _uris;
+ public Uri getUri( final int index ) {
+ return getUris().get( index );
}
@Override
- public Uri getUri( final int index ) {
- return getUris().get( index );
+ public List<Uri> getUris() {
+ return _uris;
}
@Override
if ( getAccession() != null ) {
return getAccession().hashCode();
}
- int result = getSymbol().hashCode();
- if ( getName().length() > 0 ) {
+ int result = getName().hashCode();
+ if ( getSymbol().length() > 0 ) {
result ^= getName().hashCode();
}
+ if ( getGeneName().length() > 0 ) {
+ result ^= getGeneName().hashCode();
+ }
if ( getMolecularSequence().length() > 0 ) {
result ^= getMolecularSequence().hashCode();
}
return result;
}
- public boolean hasSequenceRelations() {
- return _seq_relations.size() > 0;
+ public boolean isHasSequenceRelations() {
+ return _seq_relations != null && _seq_relations.size() > 0;
}
public void init() {
setAnnotations( null );
}
+ public boolean isEmpty() {
+ return ( getAccession() == null ) && ForesterUtil.isEmpty( getName() ) && ForesterUtil.isEmpty( getSymbol() )
+ && ForesterUtil.isEmpty( getGeneName() ) && ForesterUtil.isEmpty( getType() )
+ && ForesterUtil.isEmpty( getLocation() ) && ForesterUtil.isEmpty( getSourceId() )
+ && ForesterUtil.isEmpty( getMolecularSequence() ) && ( getDomainArchitecture() == null )
+ && ForesterUtil.isEmpty( _annotations ) && ForesterUtil.isEmpty( _uris )
+ && ForesterUtil.isEmpty( _seq_relations )
+ && ( ( getCrossReferences() == null ) || getCrossReferences().isEmpty() );
+ }
+
@Override
public boolean isEqual( final PhylogenyData data ) {
if ( this == data ) {
&& s.getSymbol().equals( getSymbol() ) && s.getGeneName().equals( getGeneName() );
}
- public void setAccession( final Accession accession ) {
- _accession = accession;
+ public boolean isMolecularSequenceAligned() {
+ return _mol_sequence_is_aligned;
}
- private void setAnnotations( final SortedSet<Annotation> annotations ) {
- _annotations = annotations;
+ public void setAccession( final Accession accession ) {
+ _accession = accession;
}
public void setDomainArchitecture( final DomainArchitecture ds ) {
_da = ds;
}
+ public void setGeneName( final String gene_name ) {
+ _gene_name = gene_name;
+ }
+
public void setLocation( final String description ) {
_location = description;
}
_name = name;
}
- public void setGeneName( final String gene_name ) {
- _gene_name = gene_name;
- }
-
public void setSourceId( final String source_id ) {
_source_id = source_id;
}
annotation.toPhyloXML( writer, level, my_ind );
}
}
- if ( getDomainArchitecture() != null ) {
- getDomainArchitecture().toPhyloXML( writer, level, my_ind );
- }
if ( ( getCrossReferences() != null ) && !getCrossReferences().isEmpty() ) {
writer.write( ForesterUtil.LINE_SEPARATOR );
writer.write( my_ind );
writer.write( my_ind );
PhylogenyDataUtil.appendClose( writer, PhyloXmlMapping.SEQUENCE_X_REFS );
}
+ if ( getDomainArchitecture() != null ) {
+ getDomainArchitecture().toPhyloXML( writer, level, my_ind );
+ }
writer.write( ForesterUtil.LINE_SEPARATOR );
writer.write( indentation );
PhylogenyDataUtil.appendClose( writer, PhyloXmlMapping.SEQUENCE );
public String toString() {
return asText().toString();
}
+
+ private void setAnnotations( final SortedSet<Annotation> annotations ) {
+ _annotations = annotations;
+ }
+
+ private void setCrossReferences( final TreeSet<Accession> cross_references ) {
+ _xrefs = cross_references;
+ }
+
+ private void setSequenceRelations( final List<SequenceRelation> seq_relations ) {
+ _seq_relations = seq_relations;
+ }
}