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*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
*/
package uk.ac.sanger.artemis.util;
import uk.ac.sanger.artemis.io.ChadoCanonicalGene;
import uk.ac.sanger.artemis.io.DocumentEntry;
import uk.ac.sanger.artemis.io.PartialSequence;
import uk.ac.sanger.artemis.io.ReadFormatException;
import uk.ac.sanger.artemis.chado.IBatisDAO;
import uk.ac.sanger.artemis.chado.JdbcDAO;
import uk.ac.sanger.artemis.chado.GmodDAO;
import uk.ac.sanger.artemis.chado.ChadoTransaction;
import uk.ac.sanger.artemis.components.database.DatabaseEntrySource;
import org.gmod.schema.sequence.Feature;
import org.gmod.schema.sequence.FeatureProp;
import org.gmod.schema.sequence.FeatureLoc;
import org.gmod.schema.sequence.FeatureRelationship;
import org.gmod.schema.sequence.FeatureSynonym;
import org.gmod.schema.sequence.FeatureCvTerm;
import org.gmod.schema.sequence.FeatureCvTermProp;
import org.gmod.schema.cv.Cv;
import org.gmod.schema.general.DbXRef;
import org.gmod.schema.pub.PubDbXRef;
import org.gmod.schema.pub.Pub;
import java.util.Collections;
import java.util.Comparator;
* Objects of this class are Documents created from a relational database.
*
*/
/** source feature_id */
private String srcFeatureId = "1";
/** database schema */
private String schema = "public";
private static Hashtable cvterms;
private InputStreamProgressListener progress_listener;
/** JDBC DAO */
private JdbcDAO jdbcDAO = null;
/** iBatis DAO */
private IBatisDAO connIB = null;
private String[] types = { "exon", "gene", "CDS", "transcript" };
private List schema_list;
private boolean gene_builder;
// include children in reading from the database
private boolean readChildren = true;
private Hashtable idFeatureStore;
private boolean lazyFeatureLoad = true;
public static String EXONMODEL = "exon-model";
public static String TRANSCRIPT = "mRNA";
/** list of controlled_curation CV names */
private static Vector cvControledCuratioNames;
// controlled vocabulary
/** controlled_curation controlled vocabulary */
public static String RILEY_TAG_CVNAME = "RILEY";
private static org.apache.log4j.Logger logger4j =
org.apache.log4j.Logger.getLogger(DatabaseDocument.class);
*
* Create a new Document from a database.
*
* @param location
* This should be a URL string giving:
* jdbc:postgresql://host:port/datbase_name?user=username
*
*/
public DatabaseDocument(String location, JPasswordField pfield)
if(location.indexOf('=') > -1)
this.schema = location.substring( location.indexOf('=')+ 1);
*
* Create a new Document from a database.
*
* @param location
* This should be a URL string giving:
* @param feature_id
* ID of a feature to be extracted.
*
*/
public DatabaseDocument(String location, JPasswordField pfield,
String srcFeatureId, String schema)
this.srcFeatureId = srcFeatureId;
*
* Create a new Document from a database.
*
* @param location
* This should be a URL string giving:
* jdbc:postgresql://host:port/datbase_name?user=username
* @param srcFeatureId
* ID of a feature to be extracted.
* @param splitGFFEntry
* split into separate entries based on feature types.
* @param progress_listener
* input stream progress listener
*
*/
public DatabaseDocument(String location, JPasswordField pfield,
String srcFeatureId, String schema, boolean splitGFFEntry,
InputStreamProgressListener progress_listener)
{
super(location);
this.srcFeatureId = srcFeatureId;
this.progress_listener = progress_listener;
/**
* Used by the gene builder to read a database entry
* for a single gene.
* @param location
* @param pfield
* @param srcFeatureId
* @param schema
* @param gene_builder
*/
public DatabaseDocument(String location, JPasswordField pfield,
String srcFeatureId, String schema, boolean gene_builder)
{
super(location);
this.pfield = pfield;
this.srcFeatureId = srcFeatureId;
this.schema = schema;
this.gene_builder = gene_builder;
if(System.getProperty("ibatis") != null)
{
iBatis = true;
System.setProperty("chado", location);
}
public DatabaseDocument(String location, JPasswordField pfield,
String srcFeatureId, String schema,
this.srcFeatureId = srcFeatureId;
/**
* Use another DatabaseDocument to make a new document.
* @param originalDocument
* @param srcFeatureId
* @param schema
* @param gene_builder
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public DatabaseDocument (final DatabaseDocument originalDocument,
final String schema, final Feature geneFeature,
final Range range,
final InputStreamProgressListener progress_listener)
{
this((String)originalDocument.getLocation(),
originalDocument.getPfield(),
"-1", schema, false);
this.progress_listener = progress_listener;
this.range = range;
this.geneFeature = geneFeature;
}
/**
* Use another DatabaseDocument to make a new document.
* @param originalDocument
* @param srcFeatureId
* @param schema
* @param gene_builder
* @param region_grab
* @param progress_listener
*/
public DatabaseDocument (final DatabaseDocument originalDocument,
final String srcFeatureId,
final String schema,
final boolean gene_builder,
final InputStreamProgressListener progress_listener)
{
this((String)originalDocument.getLocation(),
originalDocument.getPfield(),
srcFeatureId, schema, gene_builder);
{
// add username & host to MDC data for logging
try
catch(NullPointerException npe)
{
org.apache.log4j.MDC.put("username",System.getProperty("user.name"));
}
try
{
org.apache.log4j.MDC.put("host",
}
catch(Exception e) {}
}
public void setReadChildren(final boolean readChildren)
{
this.readChildren = readChildren;
/**
* Reset the schema.
* @param location
* @param schema
*/
private void reset(String location, String schema)
{
this.schema = schema;
if(!location.endsWith("="+schema))
{
int index = location.lastIndexOf('=');
setLocation(location.substring(0,index+1) + schema);
if(iBatis && connIB != null)
{
try
{
connIB.close();
}
catch(SQLException e)
{
logger4j.warn(e.getMessage());
}
connIB = null;
}
jdbcDAO = null;
System.setProperty("chado", (String)getLocation());
return new DatabaseDocument( ((String)getLocation()) + name, pfield);
* Return the name of this Document (the last element of the Document
* location).
*/
public String getName()
int ind = ((String) getLocation()).indexOf("?");
String name = ((String) getLocation()).substring(0, ind);
/**
* Set the name of this document.
*/
public void setName(String name)
{
this.name = name;
}
public DatabaseDocument createDatabaseDocument()
return new DatabaseDocument( (String)getLocation(), pfield,
srcFeatureId, schema );
* Return true if and only if the Document refered to by this object exists
* and is readable. Always returns true.
*/
public boolean readable()
* Return true if and only if the Document refered to by this object exists
* and can be written to. Always returns false.
*/
public boolean writable()
* Create a new InputStream object from this Document. The contents of the
* Document can be read from the InputStream.
*
* @exception IOException
* Thrown if the Document can't be read from (for example if it
* doesn't exist).
*/
public InputStream getInputStream() throws IOException
ByteArrayInputStream instream;
if(gff_buff != null)
{
instream = new ByteArrayInputStream(gff_buff.getBytes());
List schemaList = new Vector();
schemaList.add(schema);
ByteBuffer bb = getGeneFeature(srcFeatureId,
schemaList, dao, readChildren);
else if(range != null)
{
//
// Retrieve all features within a range
final Feature srcFeature;
if(geneFeature != null)
{
Collection featureLocs = geneFeature.getFeatureLocsForFeatureId();
Iterator it = featureLocs.iterator();
final FeatureLoc featureLoc = (FeatureLoc)it.next();
int srcfeatureid = featureLoc.getFeatureBySrcFeatureId().getFeatureId();
srcFeature = dao.getFeatureById(srcfeatureid);
this.srcFeatureId = Integer.toString(srcfeatureid);
}
else
{
srcFeature = dao.getFeatureById(Integer.parseInt(srcFeatureId));
}
final ByteBuffer entryBuffer = getFeaturesInRange(srcFeature, range, dao);
getChadoSequence(srcFeature, entryBuffer);
return new ByteArrayInputStream(entryBuffer.getBytes());
}
ByteBuffer entryBuffer = new ByteBuffer();
if(dao instanceof IBatisDAO)
((IBatisDAO) dao).startTransaction();
logger4j.debug("RETRIEVE SOURCE FEATURE FROM: "+getLocation());
Feature srcFeature = getChadoSequence(dao, sequenceBuffer);
gff_buffer = getGff(dao, srcFeature);
}
else
{
for(int i = 0; i < gff_buffer.length; i++)
{
if(gff_buffer[i].size() > 0)
if(dao instanceof IBatisDAO)
((IBatisDAO) dao).commitTransaction();
}
finally
{
if(dao instanceof IBatisDAO)
((IBatisDAO) dao).endTransaction();
catch(RuntimeException re)
{
JOptionPane.showMessageDialog(null, "Problems Reading...\n" +
re.getMessage(),
"Problems Reading From the Database ",
JOptionPane.ERROR_MESSAGE);
re.printStackTrace();
}
JOptionPane.showMessageDialog(null, "Problems Reading...\n" +
sqlExp.getMessage(),
"Problems Reading From the Database ",
sqlExp.printStackTrace();
}
return null;
}
*
* Called (by DatabaseEntrySource) to retrieve all the documents for each
* entry created.
*
*/
public DatabaseDocument[] getGffDocuments(String location, String id,
String schema)
{
if(gff_buffer[i].size() > 0)
nentries++;
}
DatabaseDocument[] new_docs = new DatabaseDocument[nentries];
nentries = 0;
String name;
if(i >= types.length)
name = "other";
else
name = types[i];
new_docs[nentries] = new DatabaseDocument(location, pfield, id, schema,
gff_buffer[i], name);
* Create an array of GFF lines.
* @param dao the data access object
* @param parentFeatureID the parent identifier for the features to
* extract
* @return the <code>ByteBuffer</code> array of GFF lines
private ByteBuffer[] getGff(final GmodDAO dao,
final Feature srcFeature)
featureloc.setFeatureBySrcFeatureId(srcFeature);
final List featList = dao.getFeaturesByLocatedOnFeature(child);
final ByteBuffer[] buffers = new ByteBuffer[types.length + 1];
final Hashtable id_store = new Hashtable(feature_size);
for(int i = 0; i < feature_size; i++)
{
id_store.put(Integer.toString(feat.getFeatureId()), feat);
if(lazyFeatureLoad)
idFeatureStore = id_store;
final Hashtable dbxrefs;
final Hashtable synonym;
final Hashtable featureCvTerms;
final Hashtable featureCvTermDbXRefs;
final Hashtable featureCvTermPubs;
final Hashtable featurePubs;
final List pubDbXRefs;
if(lazyFeatureLoad)
{
dbxrefs = null;
synonym = null;
featureCvTerms = null;
featureCvTermDbXRefs = null;
featureCvTermPubs = null;
featurePubs = null;
pubDbXRefs = null;
}
else
{
dbxrefs= IBatisDAO.mergeDbXRef(
featureCvTerms = getFeatureCvTermsByFeature(dao,
featureCvTermDbXRefs = getFeatureCvTermDbXRef(dao,
featurePubs = getFeaturePubs(dao,
dao.getFeaturePubsBySrcFeature(srcFeature));
String typeName = getCvtermName(type_id, dao, gene_builder);
{
if(types[j].equals(typeName))
this_buff = buffers[j];
}
dbxrefs, synonym, featureCvTerms,
feat.getFeatureLoc(), this_buff, gene_builder);
if( i%10 == 0 || i == feature_size-1)
progress_listener.progressMade("Read from database: " +
* Get a <code>Hashtable</code> of feature_id keys and their corresponding
* feature_synonym
private Hashtable getAllFeatureSynonyms(final List list)
{
Integer featureId;
featureId = new Integer(alias.getFeature().getFeatureId());
if(synonym.containsKey(featureId))
value = (Vector)synonym.get(featureId);
else
value = new Vector();
value.add(alias);
synonym.put(featureId, value);
/**
* Get FeaturePub's (i.e. /literature qualifiers).
* @param dao
private Hashtable getFeaturePubs(final GmodDAO dao,
final List list)
Integer featureId;
List value;
FeaturePub featurePub;
for(int i=0; i<list.size(); i++)
{
featurePub = (FeaturePub)list.get(i);
featureId = new Integer(featurePub.getFeature().getFeatureId());
if(featurePubs.containsKey(featureId))
value = (Vector)featurePubs.get(featureId);
else
value = new Vector();
value.add(featurePub);
featurePubs.put(featureId, value);
}
return featurePubs;
}
/**
*
* @param dao
* @param chadoFeature null if we want them all
* @return
*/
private Hashtable getFeatureCvTermsByFeature(final GmodDAO dao,
{
Hashtable featureCvTerms = new Hashtable();
Integer featureId;
List value;
FeatureCvTerm feature_cvterm;
for(int i=0; i<list.size(); i++)
{
feature_cvterm = (FeatureCvTerm)list.get(i);
featureId = new Integer(feature_cvterm.getFeature().getFeatureId());
if(featureCvTerms.containsKey(featureId))
value = (Vector)featureCvTerms.get(featureId);
else
value = new Vector();
value.add(feature_cvterm);
featureCvTerms.put(featureId, value);
}
return featureCvTerms;
}
/**
*
* @param dao
* @param chadoFeature null if we want all
* @return
*/
private Hashtable getFeatureCvTermDbXRef(final GmodDAO dao, final List list)
Hashtable featureCvTermDbXRefs = new Hashtable(list.size());
for(int i=0; i<list.size(); i++)
{
FeatureCvTermDbXRef featureCvTermDbXRef =
(FeatureCvTermDbXRef)list.get(i);
featureCvTermDbXRefId = new Integer(
featureCvTermDbXRef.getFeatureCvTerm().getFeatureCvTermId());
if(featureCvTermDbXRefs.containsKey(featureCvTermDbXRefId))
value = (Vector)featureCvTermDbXRefs.get(featureCvTermDbXRefId);
else
value = new Vector();
value.add(featureCvTermDbXRef);
featureCvTermDbXRefs.put(featureCvTermDbXRefId, value);
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{
if(list == null || list.size() == 0)
return null;
Integer featureCvTermId;
List value;
Hashtable featureCvTermPubs = new Hashtable(list.size());
for(int i=0; i<list.size(); i++)
{
FeatureCvTermPub featureCvTermPub =
(FeatureCvTermPub)list.get(i);
featureCvTermId = new Integer(
featureCvTermPub.getFeatureCvTerm().getFeatureCvTermId());
if(featureCvTermPubs.containsKey(featureCvTermId))
value = (Vector)featureCvTermPubs.get(featureCvTermId);
else
value = new Vector();
value.add(featureCvTermPub);
featureCvTermPubs.put(featureCvTermId, value);
}
return featureCvTermPubs;
}
/**
* Retrieve the features in a given range
* @param srcFeature
* @param range
* @param dao
* @return
*/
private ByteBuffer getFeaturesInRange(final Feature srcFeature,
final Range range,
final GmodDAO dao)
{
ByteBuffer buff = new ByteBuffer();
List featuresInRange = dao.getFeaturesByRange(range.getStart()-1,
range.getEnd(), 0, srcFeature, null);
List featureIds = new Vector(featuresInRange.size());
for(int i=0; i<featuresInRange.size(); i++)
{
Feature thisFeature = (Feature)featuresInRange.get(i);
featureIds.add(new Integer(thisFeature.getFeatureId()));
}
FeatureLoc featureLoc = new FeatureLoc();
featureLoc.setFmin(new Integer(range.getStart()));
featureLoc.setFmax(new Integer(range.getEnd()));
srcFeature.setFeatureLoc(featureLoc);
Hashtable dbxrefs = IBatisDAO.mergeDbXRef(
dao.getFeatureDbXRefsBySrcFeature(srcFeature));
Hashtable synonym = getAllFeatureSynonyms(
dao.getFeatureSynonymsBySrcFeature(srcFeature));
Hashtable featureCvTerms = getFeatureCvTermsByFeature(dao,
dao.getFeatureCvTermsBySrcFeature(srcFeature));
Hashtable featureCvTermDbXRefs = getFeatureCvTermDbXRef(dao,
dao.getFeatureCvTermDbXRefBySrcFeature(srcFeature));
Hashtable featureCvTermPubs = getFeatureCvTermPub(dao,
dao.getFeatureCvTermPubBySrcFeature(srcFeature));
Hashtable featurePubs = getFeaturePubs(dao,
dao.getFeaturePubsBySrcFeature(srcFeature));
List pubDbXRefs = dao.getPubDbXRef();
Hashtable id_store = new Hashtable(featuresInRange.size());
// build feature name store
for(int i = 0; i < featuresInRange.size(); i++)
{
Feature chadoFeature = (Feature)featuresInRange.get(i);
String featureId = Integer.toString(chadoFeature.getFeatureId());
}
for(int i=0; i<featuresInRange.size(); i++)
{
Feature chadoFeature = (Feature)featuresInRange.get(i);
id_store.put(Integer.toString(chadoFeature.getFeatureId()), chadoFeature);
chadoToGFF(chadoFeature, srcFeature.getUniqueName(), dbxrefs, synonym, featureCvTerms,
pubDbXRefs, featureCvTermDbXRefs, featureCvTermPubs, featurePubs,
id_store, dao, chadoFeature.getFeatureLoc(), buff, gene_builder);
if( i%10 == 0 || i == featuresInRange.size()-1)
progress_listener.progressMade("Read from database: " +
chadoFeature.getUniqueName());
}
return buff;
}
/**
* Use by the gene editor to retrieve the gene and related
* features
* @param search_gene gene uniquename
* @param schema_search schema list to search
* @param dao data access method
* @return GFF byte buffer
* @throws SQLException
* @throws ReadFormatException
private ByteBuffer getGeneFeature(final String search_gene,
final List schema_search,
GmodDAO dao,
final boolean readChildren)
throws SQLException, ReadFormatException, ConnectException
CvTermThread cvThread = null;
{
cvThread = new CvTermThread(dao);
cvThread.start();
}
boolean singleSchema = true;
final List pg_schemas = dao.getSchema();
Iterator schemasIt = pg_schemas.iterator();
while(schemasIt.hasNext())
{
String thisSchema = (String)schemasIt.next();
if( thisSchema.equalsIgnoreCase(schema) )
{
singleSchema = false;
break;
}
}
if(singleSchema)
logger4j.debug("SINGLE SCHEMA");
else
reset((String)getLocation(), (String)schema_search.get(0));
(Feature)(dao.getFeaturesByUniqueName(search_gene).get(0));
ChadoCanonicalGene chado_gene = new ChadoCanonicalGene();
id_store.put(Integer.toString(chadoFeature.getFeatureId()),
List featurelocs = new Vector(chadoFeature.getFeatureLocsForFeatureId());
FeatureLoc featureloc = (FeatureLoc) featurelocs.get(0);
int src_id = featureloc.getSrcFeatureId();
srcFeatureId = Integer.toString(src_id);
parent = dao.getLazyFeatureNoResiduesById(new Integer(src_id));
buildGffLineFromId(dao, chadoFeature.getFeatureId(),
id_store, parent.getUniqueName(), src_id, buff, chadoFeature);
if(!readChildren)
{
logger4j.debug( new String(buff.getBytes()) );
return buff;
}
// get children of gene
List relations = new Vector(chadoFeature.getFeatureRelationshipsForObjectId());
Set idsSeen = new HashSet();
for(int i = 0; i < relations.size(); i++)
{
int id = ((FeatureRelationship) relations.get(i)).getFeatureBySubjectId().getFeatureId();
Integer idInt = new Integer(id);
if(idsSeen.contains(idInt))
continue;
idsSeen.add(idInt);
Feature transcript = buildGffLineFromId(dao, id, id_store, parent.getUniqueName(),
src_id, buff, null);
if( transcript == null || transcript.getCvTerm() == null ||
transcript.getCvTerm().getName() == null ||
(transcript.getCvTerm().getName().indexOf("RNA") < 0 &&
transcript.getCvTerm().getName().indexOf("transcript") < 0 ) )
continue;
// get children of transcript - exons and pp
logger4j.debug("GET CHILDREN OF "+transcript.getName());
List transcipt_relations = new Vector(
transcript.getFeatureRelationshipsForObjectId());
for(int j = 0; j < transcipt_relations.size(); j++)
{
id = ((FeatureRelationship) transcipt_relations.get(j)).getFeatureBySubjectId().getFeatureId();
buildGffLineFromId(dao, id, id_store, parent.getUniqueName(),
src_id, buff, null);
logger4j.debug( "GFF:\n"+new String(buff.getBytes()) );
// now wait for cvterm to be loaded
if(cvThread != null)
{
while(cvThread.isAlive())
try
{
Thread.sleep(10);
}
catch(InterruptedException e)
{
// TODO Auto-generated catch block
e.printStackTrace();
}
}
return buff;
}
/**
*
* @param dao
* @param featureId
* @param id_store
* @param parentName
* @param srcFeatureId
* @param this_buff
* @param chadoFeature
* @return
*/
private Feature buildGffLineFromId(final GmodDAO dao,
final int featureId,
final Hashtable id_store,
final String parentName,
final int srcFeatureId,
final ByteBuffer this_buff,
Feature chadoFeature)
{
if(chadoFeature == null)
chadoFeature = (Feature)dao.getFeatureById(featureId);
id_store.put(Integer.toString(chadoFeature.getFeatureId()),
chadoFeature.getFeatureLocsForFeatureId()), srcFeatureId);
if(loc == null)
{
logger4j.debug("FEATURELOC NOT FOUND :: "+chadoFeature.getUniqueName());
return null;
}
final Hashtable dbxrefs = IBatisDAO.mergeDbXRef(
dao.getFeatureDbXRefsByFeatureUniquename(chadoFeature.getUniqueName()));
final Hashtable synonym = getAllFeatureSynonyms(
dao.getFeatureSynonymsByFeatureUniquename(chadoFeature.getUniqueName()));
final Hashtable featureCvTerms = getFeatureCvTermsByFeature(dao,
final Hashtable featureCvTermDbXRefs = getFeatureCvTermDbXRef(dao,
dao.getFeatureCvTermDbXRefByFeature(chadoFeature));
try
{
featureCvTermPubs = getFeatureCvTermPub(dao,
dao.getFeatureCvTermPubByFeature(chadoFeature));
}
catch(RuntimeException re){re.printStackTrace();}
final Hashtable featurePubs = getFeaturePubs(dao,
dao.getFeaturePubsByFeature(chadoFeature));
List pubDbXRefs= new Vector(); //dao.getPubDbXRef();
chadoToGFF(chadoFeature, parentName, dbxrefs, synonym, featureCvTerms,
pubDbXRefs, featureCvTermDbXRefs, featureCvTermPubs, featurePubs,
id_store, dao, loc, this_buff, gene_builder);
/**
* Convert the chado feature into a GFF line
* @param feat Chado feature
* @param parentFeature parent of this feature
* @param dbxrefs hashtable containing dbxrefs
* @param synonym hashtable containing synonynms
* @param featureCvTerms
* @param pubDbXRefs
* @param featureCvTermDbXRefs
* @param id_store id store for looking up parent names
* @param dao chado data access
* @param featureloc feature location for this chado feature
private static void chadoToGFF(final Feature feat,
final String parentFeature,
final Hashtable dbxrefs,
final Hashtable synonym,
final Hashtable featureCvTerms,
final Hashtable id_store,
final ByteBuffer this_buff,
final boolean gene_builder)
final int fmin = featureloc.getFmin().intValue() + 1;
final int fmax = featureloc.getFmax().intValue();
final int type_id = feat.getCvTerm().getCvTermId();
final Short strand = featureloc.getStrand();
final Integer phase = featureloc.getPhase();
final String name = feat.getUniqueName();
final String typeName = getCvtermName(type_id, dao, gene_builder);
final Integer featureId = new Integer(feat.getFeatureId());
final String timelastmodified = Long.toString(feat.getTimeLastModified().getTime());
String parent_id = null;
String parent_relationship = null;
/* if(feat.getFeatureRelationship() != null)
FeatureRelationship feat_relationship = feat.getFeatureRelationship();
parent_id = Integer.toString(feat_relationship.getFeatureByObjectId().getFeatureId());
long parent_type_id = feat_relationship.getCvTerm().getCvTermId();
parent_relationship = feat_relationship.getCvTerm().getName();
if(parent_relationship == null)
parent_relationship = getCvtermName(parent_type_id, dao);
}
if(feat.getFeatureRelationshipsForSubjectId() != null)
Collection relations = feat.getFeatureRelationshipsForSubjectId();
Iterator it = relations.iterator();
Set featureRelationshipIds = new HashSet();
//Set duplicates = new HashSet();
while(it.hasNext())
final FeatureRelationship fr =
(FeatureRelationship)it.next();
final Integer featureRelationShipId = new Integer( fr.getFeatureRelationshipId() );
if(featureRelationshipIds.contains( featureRelationShipId ))
continue;
featureRelationshipIds.add(featureRelationShipId);
final String cvTermName;
if( fr.getCvTerm().getName() == null )
{
int parent_type_id = fr.getCvTerm().getCvTermId();
cvTermName = getCvtermName(parent_type_id, dao, gene_builder);
}
else
cvTermName = fr.getCvTerm().getName();
if(cvTermName.equals("derives_from") || cvTermName.equals("part_of") ||
cvTermName.equals("proper_part_of") ||
cvTermName.equals("partof") || cvTermName.equals("producedby")) // flybase
parent_relationship = cvTermName;
parent_id = Integer.toString(fr.getFeatureByObjectId().getFeatureId());
rank = fr.getRank();
}
else
{
if(clusterOrthoParalog == null)
clusterOrthoParalog = new ByteBuffer();
// ortholog/paralog/cluster data
int orthologueFeature = fr.getFeatureByObjectId().getFeatureId();
clusterOrthoParalog.append(cvTermName+"="+
GFFStreamFeature.encode("object_id="+orthologueFeature+"; rank="+fr.getRank())+";");
}
if(parent_id != null && id_store != null && id_store.containsKey(parent_id))
parent_id = ((Feature)id_store.get(parent_id)).getUniqueName();
// make gff format
Vector dbxref = null;
// append dbxrefs
if(dbxrefs != null &&
dbxrefs.containsKey(featureId))
dbxref = (Vector)dbxrefs.get(featureId);
if(((String)dbxref.get(j)).startsWith("GFF_source:"))
gff_source = ((String)dbxref.get(j)).substring(11);
dbxref.removeElementAt(j);
this_buff.append(parentFeature + "\t"); // seqid
if(gff_source != null)
this_buff.append(gff_source+"\t"); // source
else
this_buff.append("chado\t");
if(typeName.equals("exon"))
this_buff.append(EXONMODEL + "\t"); // type
else
this_buff.append(typeName + "\t"); // type
this_buff.append(fmin + "\t"); // start
this_buff.append(fmax + "\t"); // end
this_buff.append(".\t"); // score
if(strand.equals( new Short((short)-1)) ) // strand
else if(strand.equals( new Short((short)1)) )
this_buff.append("+\t");
else
this_buff.append(".\t");
this_buff.append(".\t"); // phase
else
this_buff.append(phase+"\t");
this_buff.append("ID=" + name + ";");
this_buff.append("feature_id=" + featureId.toString() + ";");
if(feat.getName() != null)
this_buff.append("Name=" + feat.getName() + ";");
if(parent_id != null && !parent_id.equals("0"))
{
if(parent_relationship.equals("derives_from"))
this_buff.append("Derives_from=" + parent_id + ";");
this_buff.append("Parent=" + parent_id + ";");
}
this_buff.append("timelastmodified=" + timelastmodified + ";");
this_buff.append("isObsolete=" + Boolean.toString(feat.isObsolete()) + ";");
// this is the chado feature_relationship.rank used
this_buff.append("feature_relationship_rank="+rank+";");
//this_buff.append("feature_id="+feature_id+";");
if(feat.getFeatureProps() != null &&
feat.getFeatureProps().size() > 0)
Collection featureprops = feat.getFeatureProps();
Iterator it = featureprops.iterator();
while(it.hasNext())
String qualifier_name = getCvtermName(featprop.getCvTerm().getCvTermId(), dao, gene_builder);
this_buff.append(GFFStreamFeature.encode(qualifier_name)+ "=" +
GFFStreamFeature.encode(featprop.getValue())+";");
if(clusterOrthoParalog != null)
this_buff.append(clusterOrthoParalog);
boolean foundPrimaryDbXRef = false;
if(feat.getDbXRef() != null)
this_buff.append(GFFStreamFeature.encode(
feat.getDbXRef().getDb().getName()+":"+feat.getDbXRef().getAccession()));
foundPrimaryDbXRef = true;
if(dbxref == null || dbxref.size() == 0)
this_buff.append(";");
}
if(dbxref != null && dbxref.size() > 0)
{
if(foundPrimaryDbXRef)
this_buff.append(",");
else
this_buff.append("Dbxref=");
this_buff.append(";");
}
// append synonyms
if(synonym != null &&
synonym.containsKey(featureId))
Vector v_synonyms = (Vector)synonym.get(featureId);
this_buff.append( getCvtermName(alias.getSynonym().getCvTerm().getCvTermId(), dao, gene_builder) + "=" );
//this_buff.append(alias.getSynonym().getCvterm().getName()+"=");
this_buff.append(alias.getSynonym().getName());
if(!alias.isCurrent())
this_buff.append(GFFStreamFeature.encode(";current=false"));
// /literature
if(featurePubs != null &&
featurePubs.containsKey(featureId))
{
FeaturePub featurePub;
Vector v_featurePubs = (Vector)featurePubs.get(featureId);
for(int j=0; j<v_featurePubs.size(); j++)
{
featurePub = (FeaturePub)v_featurePubs.get(j);
this_buff.append( "literature=" );
this_buff.append(featurePub.getPub().getUniqueName());
this_buff.append(";");
}
}
if(featureCvTerms != null &&
featureCvTerms.containsKey(featureId))
{
FeatureCvTerm feature_cvterm;
Vector v_feature_cvterms = (Vector)featureCvTerms.get(featureId);
for(int j=0; j<v_feature_cvterms.size(); j++)
{
feature_cvterm = (FeatureCvTerm)v_feature_cvterms.get(j);
Integer featureCvTermId = new Integer( feature_cvterm.getFeatureCvTermId() );
if(featureCvTermDbXRefs != null)
featureCvTermDbXRefList = (List)featureCvTermDbXRefs.get(featureCvTermId);
List featureCvTermPubList = null;
if(featureCvTermPubs != null)
featureCvTermPubList = (List)featureCvTermPubs.get(featureCvTermId);
featureCvTermDbXRefList,featureCvTermPubList, pubDbXRefs, gene_builder);
}
//System.out.println(new String(this_buff.getBytes()));
}
this_buff.append("\n");
}
/**
* Appends controlled vocabulary terms to the buffer
* @param attr_buff
* @param dao
* @param feature_cvterm
* @param featureCvTermDbXRef
*/
public static void appendControlledVocabulary(final ByteBuffer attr_buff,
final GmodDAO dao,
final FeatureCvTerm feature_cvterm,
final List featureCvTermDbXRefs,
final List pubDbXRefs,
final boolean gene_builder)
CvTerm cvterm = getCvTerm( feature_cvterm.getCvTerm().getCvTermId(), dao, gene_builder);
DbXRef dbXRef = feature_cvterm.getCvTerm().getDbXRef();
if(cvterm.getCv().getName().startsWith(DatabaseDocument.CONTROLLED_CURATION_TAG_CVNAME))
{
attr_buff.append("controlled_curation=");
attr_buff.append("term="+
GFFStreamFeature.encode(feature_cvterm.getCvTerm().getName())+"%3B");
attr_buff.append("cv="+
GFFStreamFeature.encode(feature_cvterm.getCvTerm().getCv().getName())+"%3B");
// N.B. the db_xref may be a FeatureCvTermDbXRef or a Pub for /controlled_curation
int nfound_dbxref = 0;
if(feature_cvterm.getPub().getUniqueName() != null &&
!feature_cvterm.getPub().getUniqueName().equalsIgnoreCase("NULL"))
{
// PMID
Pub pub = feature_cvterm.getPub();
// internal check
checkPubDbXRef(pubDbXRefs, pub.getPubId(), pub, feature_cvterm);
attr_buff.append("db_xref="+ pub.getUniqueName());
nfound_dbxref++;
}
if(featureCvTermDbXRefs != null &&
featureCvTermDbXRefs.size() > 0)
{
for(int i=0; i<featureCvTermDbXRefs.size(); i++)
FeatureCvTermDbXRef featureCvTermDbXRef =
(FeatureCvTermDbXRef)featureCvTermDbXRefs.get(i);
if(feature_cvterm.getFeatureCvTermId() !=
featureCvTermDbXRef.getFeatureCvTerm().getFeatureCvTermId())
continue;
if(nfound_dbxref == 0)
attr_buff.append("db_xref=");
DbXRef fc_dbXRef = featureCvTermDbXRef.getDbXRef();
attr_buff.append(fc_dbXRef.getDb().getName()+":");
attr_buff.append(fc_dbXRef.getAccession());
nfound_dbxref++;
}
if(nfound_dbxref > 0)
attr_buff.append("%3B");
List feature_cvtermprops = (List) feature_cvterm.getFeatureCvTermProps();
for(int i = 0; i < feature_cvtermprops.size(); i++)
{
FeatureCvTermProp feature_cvtermprop =
(FeatureCvTermProp)feature_cvtermprops.get(i);
attr_buff.append(getCvtermName(feature_cvtermprop.getCvTerm()
.getCvTermId(), dao, gene_builder));
attr_buff.append(GFFStreamFeature.encode(feature_cvtermprop.getValue()));
if(i < feature_cvtermprops.size()-1)
attr_buff.append("%3B");
}
attr_buff.append(";");
}
else if(cvterm.getCv().getName().equals(DatabaseDocument.PRODUCTS_TAG_CVNAME))
{
attr_buff.append("product=");
attr_buff.append(GFFStreamFeature.encode(feature_cvterm.getCvTerm().getName())+";");
else if(cvterm.getCv().getName().equals(DatabaseDocument.RILEY_TAG_CVNAME))
{
attr_buff.append(dbXRef.getAccession()+"::"+
feature_cvterm.getCvTerm().getCvTermId()+";");
if(cvterm.getCv().getName().equals("molecular_function"))
attr_buff.append("aspect=F%3B");
else if(cvterm.getCv().getName().equals("cellular_component"))
attr_buff.append("aspect=C%3B");
else if(cvterm.getCv().getName().equals("biological_process"))
attr_buff.append("aspect=P%3B");
attr_buff.append("GOid="+dbXRef.getDb().getName() + ":"
+ dbXRef.getAccession() + "%3B");
attr_buff.append("term="+
GFFStreamFeature.encode(feature_cvterm.getCvTerm().getName())+"%3B");
if(feature_cvterm.getPub() != null &&
feature_cvterm.getPub().getUniqueName() != null &&
!feature_cvterm.getPub().getUniqueName().equalsIgnoreCase("NULL"))
{
Pub pub = feature_cvterm.getPub();
attr_buff.append("db_xref="+
pub.getUniqueName());
nfound_pub++;
}
if(featureCvTermPubs != null &&
featureCvTermPubs.size() > 0)
{
for(int i=0; i<featureCvTermPubs.size(); i++)
{
FeatureCvTermPub featureCvTermPub =
(FeatureCvTermPub)featureCvTermPubs.get(i);
if(feature_cvterm.getFeatureCvTermId() !=
featureCvTermPub.getFeatureCvTerm().getFeatureCvTermId())
continue;
if(nfound_pub == 0)
attr_buff.append("db_xref=");
attr_buff.append("|");
attr_buff.append(featureCvTermPub.getPub().getUniqueName());
nfound_pub++;
}
if(featureCvTermDbXRefs != null &&
featureCvTermDbXRefs.size() > 0 )
{
int nfound = 0;
for(int i=0; i<featureCvTermDbXRefs.size(); i++)
{
FeatureCvTermDbXRef featureCvTermDbXRef =
(FeatureCvTermDbXRef)featureCvTermDbXRefs.get(i);
if(feature_cvterm.getFeatureCvTermId() !=
featureCvTermDbXRef.getFeatureCvTerm().getFeatureCvTermId())
if(nfound == 0)
attr_buff.append("with=");
else if(nfound > 1)
attr_buff.append("|");
DbXRef fc_dbXRef = featureCvTermDbXRef.getDbXRef();
attr_buff.append(fc_dbXRef.getDb().getName()+":");
attr_buff.append(fc_dbXRef.getAccession());
nfound++;
List feature_cvtermprops = (List)feature_cvterm
.getFeatureCvTermProps();
for(int i = 0; i < feature_cvtermprops.size(); i++)
{
FeatureCvTermProp feature_cvtermprop =
(FeatureCvTermProp)feature_cvtermprops.get(i);
if(feature_cvtermprop.getValue() == null)
continue;
.getCvTermId(), dao, gene_builder));
attr_buff.append(GFFStreamFeature.encode(feature_cvtermprop.getValue()));
if(i < feature_cvtermprops.size()-1)
attr_buff.append("%3B");
}
attr_buff.append(";");
}
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/**
* Check the PubDbXref contains the Pub in FeatureCvTerm
* @param pubDbXRefs
* @param pubId
* @param pub
* @param feature_cvterm
*/
private static void checkPubDbXRef(final List pubDbXRefs, final int pubId,
final Pub pub, final FeatureCvTerm feature_cvterm)
{
PubDbXRef pubDbXRef = null;
for(int i = 0; i < pubDbXRefs.size(); i++)
{
pubDbXRef = (PubDbXRef) pubDbXRefs.get(i);
if(pubDbXRef.getPub().getPubId() == pubId)
{
DbXRef dbxref = pubDbXRef.getDbXRef();
Splash.logger4j.debug("Checking PubDbXRef and found Pub "+dbxref.getDb().getName()+
":"+dbxref.getAccession());
break;
}
}
if(pubDbXRef == null ||
!pub.getUniqueName().endsWith(pubDbXRef.getDbXRef().getAccession()))
{
Splash.logger4j.debug("Checking PubDbXRef and not found Pub "+
feature_cvterm.getPub().getUniqueName());
JOptionPane.showMessageDialog(null, "Cannot find pub_dbxref for:\n"+
feature_cvterm.getPub().getUniqueName(),
"Database Error",
JOptionPane.ERROR_MESSAGE);
}
}
/**
* Look up the cvterm_id for a controlled vocabulary name.
* @param name
* @return
*/
public static Integer getCvtermID(final String name)
Enumeration enum_cvterm = cvterms.keys();
if(name.equalsIgnoreCase( ((CvTerm)cvterms.get(key)).getName() ))
* Look up a cvterm name from the collection of cvterms.
* @param id a cvterm_id
* @return the cvterm name
private static String getCvtermName(final int id,
final GmodDAO dao,
final boolean gene_builder)
if(gene_builder)
return dao.getCvTermById(id).getName();
return getCvTerm(id, dao, gene_builder).getName();
private static CvTerm getCvTerm(final int id,
final GmodDAO dao,
final boolean gene_builder)
if(gene_builder)
return dao.getCvTermById(id);
/**
* Use the CvTerm name to return a CvTerm.
* @param cvTermId
* @return
*/
public static CvTerm getCvTermByCvTermName(final String cvterm_name)
{
Enumeration enum_cvterm = cvterms.elements();
while(enum_cvterm.hasMoreElements())
{
CvTerm cvterm = (CvTerm)enum_cvterm.nextElement();
if(cvterm_name.equalsIgnoreCase( cvterm.getName() ))
/**
* Use the CvTermId to return a CvTerm.
* @param cvTermId
* @return
*/
public static CvTerm getCvTermByCvTermId(final int cvTermId,
final uk.ac.sanger.artemis.io.Feature feature)
if(cvterms == null)
{
try
{
DatabaseDocument doc =
(DatabaseDocument) ((DocumentEntry)feature.getEntry()).getDocument();
return doc.getDAO().getCvTermById(cvTermId);
}
catch(ConnectException e)
{
logger4j.warn(e.getMessage());
}
catch(SQLException e)
{
logger4j.warn(e.getMessage());
}
}
Enumeration enum_cvterm = cvterms.elements();
while(enum_cvterm.hasMoreElements())
{
CvTerm cvterm = (CvTerm)enum_cvterm.nextElement();
if(cvterm.getCvTermId() == cvTermId)
return cvterm;
}
return null;
}
* @param cvterm_name
* @param cvName
* @return
*/
public static CvTerm getCvTermByCvAndCvTerm(final String cvterm_name,
final String cvName)
{
if(cvName.equals( cvterm.getCv().getName() ) &&
cvterm_name.equals( cvterm.getName() ))
return cvterm;
}
return null;
}
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/**
* This is different from getCvTermByCvAndCvTerm as it makes sure
* the Cv name part matches the name supplied to the function, i.e.
* by matching just the start.
* @param cvterm_name
* @param cvName
* @return
*/
public static CvTerm getCvTermByCvPartAndCvTerm(final String cvterm_name,
final String cvName)
{
Enumeration enum_cvterm = cvterms.elements();
while(enum_cvterm.hasMoreElements())
{
CvTerm cvterm = (CvTerm)enum_cvterm.nextElement();
if(cvterm.getCv().getName().startsWith( cvName ) &&
cvterm_name.equals( cvterm.getName() ))
return cvterm;
}
return null;
}
* @param dao the data access object
* @return the cvterm <code>Hashtable</code>
private static Hashtable getCvterms(final GmodDAO dao)
final List cvterm_list = dao.getCvTerms();
final Iterator it = cvterm_list.iterator();
cvterms = new Hashtable(cvterm_list.size());
catch(RuntimeException sqle)
System.err.println("SQLException retrieving CvTerms");
/**
* Get CvTerm's in a given CV
* @param cvName
* @return
*/
public Vector getCvTermsByCvName(final String cvName)
{
if(cvterms == null)
{
logger4j.debug("getCvTermsByCvName LOADING CVTERMS");
GmodDAO dao = getDAOOnly();
List dbs = dao.getDbs();
List names = new Vector();
Iterator it = dbs.iterator();
while(it.hasNext())
if(organismNames != null && organismNames.size() > 0)
return organismNames;
Organism organism = (Organism)it.next();
organismNames.add(organism.getCommonName());
public static Vector getCvterms(final String search_str, final String cv_name)
{
final Vector cvterm_match = new Vector();
Enumeration enum_cvterm = cvterms.keys();
while(enum_cvterm.hasMoreElements())
{
Integer key = (Integer)enum_cvterm.nextElement();
CvTerm cvterm = (CvTerm)cvterms.get(key);
if(cvterm.getCv().getName().startsWith(cv_name))
{
if(cvterm.getName().indexOf(search_str) > -1)
cvterm_match.add(cvterm);
}
}
return cvterm_match;
}
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/**
* Get a list of the CV names
* @return
*/
public static List getCvControledCurationNames()
{
if(cvControledCuratioNames != null)
return cvControledCuratioNames;
cvControledCuratioNames = new Vector();
final Enumeration enum_cvterm = cvterms.elements();
while(enum_cvterm.hasMoreElements())
{
final CvTerm cvTerm = (CvTerm)enum_cvterm.nextElement();
final String cvNameStr = cvTerm.getCv().getName();
if(cvNameStr.startsWith(DatabaseDocument.CONTROLLED_CURATION_TAG_CVNAME) &&
!cvControledCuratioNames.contains(cvNameStr))
cvControledCuratioNames.add(cvNameStr);
}
return cvControledCuratioNames;
}
/**
* Look up synonym type names e.g. synonym, systematic_id.
* @return the synonym tag names
*/
public static String[] getSynonymTypeNames(final String cv_name,
final GFFStreamFeature feature)
if(cvterms == null)
{
DatabaseDocument doc = (DatabaseDocument)feature.getDocumentEntry().getDocument();
try
{
Cv cv = new Cv();
cv.setName(cv_name);
List synonymCvTerms = doc.getDAO().getCvTermByNameInCv(null, cv);
String synonymNames[] = new String[synonymCvTerms.size()];
for(int i=0; i<synonymCvTerms.size(); i++)
synonymNames[i] = ((CvTerm) synonymCvTerms.get(i)).getName();
return synonymNames;
}
catch(ConnectException e){}
catch(SQLException e){}
}
Vector synonym_names = new Vector();
Enumeration cvterm_enum = cvterms.elements();
while(cvterm_enum.hasMoreElements())
{
CvTerm cvterm = (CvTerm)cvterm_enum.nextElement();
if(cvterm.getCv().getName().equals(cv_name))
synonym_names.add(cvterm.getName());
}
return (String[])synonym_names.toArray(
new String[synonym_names.size()]);
}
public void insertCvTerm(CvTerm cvTerm)
{
final GmodDAO dao = getDAOOnly();
dao.persist(cvTerm);
cvTerm = dao.getCvTermByNameAndCvName(cvTerm.getName(), cvTerm.getCv().getName());
cvterms.put(new Integer(cvTerm.getCvTermId()), cvTerm);
}
/**
* Get the sequence for a feature.
* @param dao the data access object
* @param buff the buffer to add the sequence to
* @return the resulting buffer
* @throws java.sql.SQLException
*/
Feature feature = dao.getFeatureById(Integer.parseInt(srcFeatureId));
getChadoSequence(feature, buff);
return feature;
}
/**
* Get the sequence for a feature.
* @param dao the data access object
* @param buff the buffer to add the sequence to
* @return the resulting buffer
* @throws java.sql.SQLException
*/
private void getChadoSequence(final Feature feature, ByteBuffer buff)
{
/**
* Get the CDS FeatureLoc's associated with a give protein
* @param peptideName
* @return
*/
public List getCdsFeatureLocsByPeptideName(final String peptideName)
Collection frs = peptideFeature.getFeatureRelationshipsForSubjectId();
Iterator it = frs.iterator();
Feature transcriptFeature = null;
while(it.hasNext())
{
FeatureRelationship fr = (FeatureRelationship)it.next();
if(fr.getCvTerm().getName().equalsIgnoreCase("derives_from"))
{
transcriptFeature = fr.getFeatureByObjectId();
logger4j.debug("TRANSCRIPT :: "+transcriptFeature.getUniqueName());
break;
}
}
if(transcriptFeature == null)
return null;
return getCdsFeatureLocsByTranscriptName(transcriptFeature.getUniqueName());
* Get the CDS FeatureLoc's associated with a given transcript
* @param transcriptName
* @return
*/
public List getCdsFeatureLocsByTranscriptName(final String transcriptName)
{
Feature transcriptFeature = getFeatureByUniquename(transcriptName);
if(transcriptFeature == null)
Collection frs = transcriptFeature.getFeatureRelationshipsForObjectId();
Iterator it = frs.iterator();
while(it.hasNext())
{
FeatureRelationship fr = (FeatureRelationship)it.next();
org.gmod.schema.sequence.Feature child = fr.getFeatureBySubjectId();
if(child.getCvTerm().getName().equals("exon") ||
child.getCvTerm().getName().equals("pseudogenic_exon"))
Collection featureLocs = child.getFeatureLocsForFeatureId();
Iterator it2 = featureLocs.iterator();
while(it2.hasNext())
{
FeatureLoc featureLoc = (FeatureLoc) it2.next();
cdsFeatureLocs.add(featureLoc);
}
Collections.sort(cdsFeatureLocs, new LocationComarator());
/**
* Get the sequence for a feature.
* @return the resulting buffer
*/
public PartialSequence getChadoSequence(final String uniqueName)
{
Feature feature = getDAOOnly().getResiduesByUniqueName(uniqueName);
char[] c = getChars(feature.getResidues());
PartialSequence ps = new PartialSequence(c, feature.getSeqLen(),
feature.getFeatureLoc().getFmin().intValue()+1,
feature.getFeatureLoc().getStrand(),
feature.getFeatureLoc().getPhase());
return ps;
}
/**
* Convert byte array to char array
* @param b byte array
* @return char array
*/
private char[] getChars(final byte b[])
{
char[] c = new char[b.length];
for(int i = 0; i < b.length; i++)
c[i] = (char)b[i];
/**
* Get the <code>List</code> of available schemas.
* @return the <code>List</code> of available schemas
*/
public List getSchema()
{
return schema_list;
}
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public Feature getFeatureByUniquename(final String uniqueName)
{
GmodDAO dao = getDAOOnly();
List features = dao.getFeaturesByUniqueName(uniqueName);
if(features == null || features.size() < 1)
return null;
return (Feature)(dao.getFeaturesByUniqueName(uniqueName).get(0));
}
/**
* Given a gene unique name return the poplypeptide chado features that belong
* to that gene
* @param geneName
* @return
*/
public Vector getPolypeptideFeatures(final String geneName)
{
Feature geneFeature = getFeatureByUniquename(geneName);
if(geneFeature == null)
return null;
Collection frs = geneFeature.getFeatureRelationshipsForObjectId();
Iterator it = frs.iterator();
List transcripts = new Vector(frs.size());
while(it.hasNext())
{
FeatureRelationship fr = (FeatureRelationship)it.next();
transcripts.add(fr.getFeatureBySubjectId());
}
Vector polypep = new Vector();
for(int i=0; i<transcripts.size(); i++)
{
org.gmod.schema.sequence.Feature transcript =
(org.gmod.schema.sequence.Feature) transcripts.get(i);
frs = transcript.getFeatureRelationshipsForObjectId();
it = frs.iterator();
while(it.hasNext())
{
FeatureRelationship fr = (FeatureRelationship)it.next();
if(fr.getCvTerm().getName().equalsIgnoreCase("derives_from"))
if(fr.getFeatureBySubjectId().getCvTerm().getName().equalsIgnoreCase("polypeptide"))
polypep.add(fr.getFeatureBySubjectId());
}
}
return polypep;
}
/**
* Given a gene unique name return the poplypeptides that belong
* to that gene
* @param geneName
* @return
*/
/*public Vector getPolypeptideNames(final String geneName)
{
Vector polypeptides = getPolypeptideFeatures(geneName);
Vector polypeptideNames = new Vector(polypeptides.size());
for(int i=0; i<polypeptides.size(); i++)
{
Feature feature = (Feature)polypeptides.get(i);
polypeptideNames.add(feature.getUniqueName());
}
return polypeptideNames;
public List getClustersByFeatureIds(final List featureIds)
{
GmodDAO dao = getDAOOnly();
return dao.getClustersByFeatureIds(featureIds);
}
public List getParentFeaturesByChildFeatureIds(final List subjectIds)
{
GmodDAO dao = getDAOOnly();
return dao.getParentFeaturesByChildFeatureIds(subjectIds);
}
public List getFeatureDbXRefsByFeatureId(final List featureIds)
{
GmodDAO dao = getDAOOnly();
return dao.getFeatureDbXRefsByFeatureId(featureIds);
}
* Used by SimilarityLazyQualifierValue.bulkRetrieve() to get the match features
* @param featureIds the <code>List</code> of feature_id's
* @return the corresponding features
*/
public List getFeaturesByListOfIds(final List featureIds)
{
GmodDAO dao = getDAOOnly();
return dao.getFeaturesByListOfIds(featureIds);
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