import jalview.datamodel.Mapping;
import jalview.datamodel.SequenceI;
import jalview.gui.CutAndPasteTransfer;
-import jalview.gui.DasSourceBrowser;
import jalview.gui.Desktop;
import jalview.gui.FeatureSettings;
import jalview.gui.IProgressIndicator;
import jalview.gui.OOMWarning;
import jalview.util.DBRefUtils;
import jalview.util.MessageManager;
-import jalview.ws.dbsources.das.api.jalviewSourceI;
-import jalview.ws.dbsources.das.datamodel.DasSequenceSource;
import jalview.ws.seqfetcher.DbSourceProxy;
import java.util.ArrayList;
{
private static final String NEWLINE = System.lineSeparator();
+ public static final String TRIM_RETRIEVED_SEQUENCES = "TRIM_FETCHED_DATASET_SEQS";
+
public interface FetchFinishedListenerI
{
void finished();
DbSourceProxy[] sources, FeatureSettings featureSettings,
boolean isNucleotide)
{
- listeners = new ArrayList<FetchFinishedListenerI>();
+ listeners = new ArrayList<>();
this.progressWindow = progressIndicatorFrame;
alseqs = new SequenceI[seqs.length];
SequenceI[] ds = new SequenceI[seqs.length];
}
this.dataset = ds;
// TODO Jalview 2.5 lots of this code should be in the gui package!
- sfetcher = jalview.gui.SequenceFetcher
- .getSequenceFetcherSingleton(progressIndicatorFrame);
+ sfetcher = jalview.gui.SequenceFetcher.getSequenceFetcherSingleton();
// set default behaviour for transferring excess sequence data to the
// dataset
- trimDsSeqs = Cache.getDefault("TRIM_FETCHED_DATASET_SEQS", true);
+ trimDsSeqs = Cache.getDefault(TRIM_RETRIEVED_SEQUENCES, true);
if (sources == null)
{
setDatabaseSources(featureSettings, isNucleotide);
{
// af.featureSettings_actionPerformed(null);
String[] defdb = null;
- List<DbSourceProxy> selsources = new ArrayList<DbSourceProxy>();
- Vector<jalviewSourceI> dasselsrc = (featureSettings != null)
- ? featureSettings.getSelectedSources()
- : new DasSourceBrowser().getSelectedSources();
-
- for (jalviewSourceI src : dasselsrc)
- {
- List<DbSourceProxy> sp = src.getSequenceSourceProxies();
- if (sp != null)
- {
- selsources.addAll(sp);
- if (sp.size() > 1)
- {
- Cache.log.debug("Added many Db Sources for :" + src.getTitle());
- }
- }
- }
+ List<DbSourceProxy> selsources = new ArrayList<>();
// select appropriate databases based on alignFrame context.
if (forNucleotide)
{
{
defdb = DBRefSource.PROTEINDBS;
}
- List<DbSourceProxy> srces = new ArrayList<DbSourceProxy>();
+ List<DbSourceProxy> srces = new ArrayList<>();
for (String ddb : defdb)
{
List<DbSourceProxy> srcesfordb = sfetcher.getSourceProxy(ddb);
}
/**
- * retrieve all the das sequence sources and add them to the list of db
- * sources to retrieve from
- */
- public void appendAllDasSources()
- {
- if (dbSources == null)
- {
- dbSources = new DbSourceProxy[0];
- }
- // append additional sources
- DbSourceProxy[] otherdb = sfetcher
- .getDbSourceProxyInstances(DasSequenceSource.class);
- if (otherdb != null && otherdb.length > 0)
- {
- DbSourceProxy[] newsrc = new DbSourceProxy[dbSources.length
- + otherdb.length];
- System.arraycopy(dbSources, 0, newsrc, 0, dbSources.length);
- System.arraycopy(otherdb, 0, newsrc, dbSources.length,
- otherdb.length);
- dbSources = newsrc;
- }
- }
-
- /**
* start the fetcher thread
*
* @param waitTillFinished
}
else if (seqs == null)
{
- seqs = new Vector<SequenceI>();
+ seqs = new Vector<>();
seqs.addElement(seq);
}
}
else
{
- seqs = new Vector<SequenceI>();
+ seqs = new Vector<>();
seqs.addElement(seq);
}
e.printStackTrace();
}
- Vector<SequenceI> sdataset = new Vector<SequenceI>(
+ Vector<SequenceI> sdataset = new Vector<>(
Arrays.asList(dataset));
- List<String> warningMessages = new ArrayList<String>();
+ List<String> warningMessages = new ArrayList<>();
int db = 0;
while (sdataset.size() > 0 && db < dbSources.length)
SequenceI[] currSeqs = new SequenceI[sdataset.size()];
sdataset.copyInto(currSeqs);// seqs that are to be validated against
// dbSources[db]
- Vector<String> queries = new Vector<String>(); // generated queries curSeq
- seqRefs = new Hashtable<String, Vector<SequenceI>>();
+ Vector<String> queries = new Vector<>(); // generated queries curSeq
+ seqRefs = new Hashtable<>();
int seqIndex = 0;
&& (i < 50); seqIndex++, i++)
{
SequenceI sequence = dataset[seqIndex];
- DBRefEntry[] uprefs = DBRefUtils
+ List<DBRefEntry> uprefs = DBRefUtils
.selectRefs(sequence.getDBRefs(), new String[]
{ dbsource.getDbSource() }); // jalview.datamodel.DBRefSource.UNIPROT
// });
// check for existing dbrefs to use
- if (uprefs != null && uprefs.length > 0)
+ if (uprefs != null && uprefs.size() > 0)
{
- for (int j = 0; j < uprefs.length; j++)
+ for (int j = 0, n = uprefs.size(); j < n; j++)
{
- addSeqId(sequence, uprefs[j].getAccessionId());
+ DBRefEntry upref = uprefs.get(j);
+ addSeqId(sequence, upref.getAccessionId());
queries.addElement(
- uprefs[j].getAccessionId().toUpperCase());
+ upref.getAccessionId().toUpperCase());
}
}
else
{
// Work out which sequences this sequence matches,
// taking into account all accessionIds and names in the file
- Vector<SequenceI> sequenceMatches = new Vector<SequenceI>();
+ Vector<SequenceI> sequenceMatches = new Vector<>();
// look for corresponding accession ids
- DBRefEntry[] entryRefs = DBRefUtils
+ List<DBRefEntry> entryRefs = DBRefUtils
.selectRefs(retrievedSeq.getDBRefs(), new String[]
{ dbSource });
if (entryRefs == null)
+ dbSource + " on " + retrievedSeq.getName());
continue;
}
- for (int j = 0; j < entryRefs.length; j++)
+ for (int j = 0, n = entryRefs.size(); j < n; j++)
{
- String accessionId = entryRefs[j].getAccessionId();
+ DBRefEntry ref = entryRefs.get(j);
+ String accessionId = ref.getAccessionId();
// match up on accessionId
if (seqRefs.containsKey(accessionId.toUpperCase()))
{
// could be useful to extend this so we try to find any 'significant'
// information in common between two sequence objects.
/*
- * DBRefEntry[] entryRefs =
+ * List<DBRefEntry> entryRefs =
* jalview.util.DBRefUtils.selectRefs(entry.getDBRef(), new String[] {
* dbSource }); for (int j = 0; j < entry.getName().size(); j++) { String
* name = entry.getName().elementAt(j).toString(); if
// TODO: test for legacy where uniprot or EMBL refs exist but no
// mappings are made (but content matches retrieved set)
boolean updateRefFrame = sequence.getDBRefs() == null
- || sequence.getDBRefs().length == 0;
+ || sequence.getDBRefs().size() == 0;
// TODO:
// verify sequence against the entry sequence
// and remove it from the rest
// TODO: decide if we should remove annotated sequence from set
sdataset.remove(sequence);
- // TODO: should we make a note of sequences that have received new DB
- // ids, so we can query all enabled DAS servers for them ?
}
}
return modified;
*/
private SequenceI[] recoverDbSequences(SequenceI[] sequencesArray)
{
- Vector<SequenceI> nseq = new Vector<SequenceI>();
- for (int i = 0; sequencesArray != null
- && i < sequencesArray.length; i++)
+ int n;
+ if (sequencesArray == null || (n = sequencesArray.length) == 0)
+ return sequencesArray;
+ ArrayList<SequenceI> nseq = new ArrayList<>();
+ for (int i = 0;i < n; i++)
{
- nseq.addElement(sequencesArray[i]);
- DBRefEntry[] dbr = sequencesArray[i].getDBRefs();
+ nseq.add(sequencesArray[i]);
+ List<DBRefEntry> dbr = sequencesArray[i].getDBRefs();
Mapping map = null;
- for (int r = 0; (dbr != null) && r < dbr.length; r++)
+ if (dbr != null)
{
- if ((map = dbr[r].getMap()) != null)
+ for (int r = 0, rn = dbr.size(); r < rn; r++)
{
- if (map.getTo() != null && !nseq.contains(map.getTo()))
+ if ((map = dbr.get(r).getMap()) != null)
{
- nseq.addElement(map.getTo());
- }
+ if (map.getTo() != null && !nseq.contains(map.getTo()))
+ {
+ nseq.add(map.getTo());
+ }
+ }
}
}
}
+ // BH 2019.01.25 question here if this is the right logic. Return the original if nothing found?
if (nseq.size() > 0)
{
- sequencesArray = new SequenceI[nseq.size()];
- nseq.toArray(sequencesArray);
+ return nseq.toArray(new SequenceI[nseq.size()]);
}
return sequencesArray;
}