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];
.getSequenceFetcherSingleton(progressIndicatorFrame);
// 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);
}
{
if (dbSources == null)
{
- throw new Error(
- MessageManager
- .getString("error.implementation_error_must_init_dbsources"));
+ throw new Error(MessageManager
+ .getString("error.implementation_error_must_init_dbsources"));
}
running = true;
long startTime = System.currentTimeMillis();
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;
String query = queries.elementAt(0);
if (dbsource.isValidReference(query))
{
- queryString.append((numq == 0) ? "" : dbsource
- .getAccessionSeparator());
+ queryString.append(
+ (numq == 0) ? "" : dbsource.getAccessionSeparator());
queryString.append(query);
numq++;
}
else
{
// make some more strings for use as queries
- for (int i = 0; (seqIndex < dataset.length) && (i < 50); seqIndex++, i++)
+ for (int i = 0; (seqIndex < dataset.length)
+ && (i < 50); seqIndex++, i++)
{
SequenceI sequence = dataset[seqIndex];
- DBRefEntry[] uprefs = DBRefUtils.selectRefs(
- sequence.getDBRefs(),
- new String[] { dbsource.getDbSource() }); // jalview.datamodel.DBRefSource.UNIPROT
+ 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)
for (int j = 0; j < uprefs.length; j++)
{
addSeqId(sequence, uprefs[j].getAccessionId());
- queries.addElement(uprefs[j].getAccessionId().toUpperCase());
+ queries.addElement(
+ uprefs[j].getAccessionId().toUpperCase());
}
}
else
// resolve the string against PICR to recover valid IDs
try
{
- presp = picrClient
- .getUPIForAccession(token, null,
- picrClient.getMappedDatabaseNames(),
- null, true);
+ presp = picrClient.getUPIForAccession(token, null,
+ picrClient.getMappedDatabaseNames(), null,
+ true);
} catch (Exception e)
{
- System.err.println("Exception with Picr for '" + token
- + "'\n");
+ System.err.println(
+ "Exception with Picr for '" + token + "'\n");
e.printStackTrace();
}
}
// present, and do a transferReferences
// otherwise transfer non sequence x-references directly.
}
- System.out
- .println("Validated ID against PICR... (for what its worth):"
+ System.out.println(
+ "Validated ID against PICR... (for what its worth):"
+ token);
addSeqId(sequence, token);
queries.addElement(token.toUpperCase());
else
{
// if ()
- // System.out.println("Not querying source with token="+token+"\n");
+ // System.out.println("Not querying source with
+ // token="+token+"\n");
addSeqId(sequence, token);
queries.addElement(token.toUpperCase());
}
output.setText(sb.toString());
Desktop.addInternalFrame(output,
- MessageManager.getString("label.sequences_updated"), 600, 300);
+ MessageManager.getString("label.sequences_updated"), 600,
+ 300);
// The above is the dataset, we must now find out the index
// of the viewed sequence
}
boolean modified = false;
- SequenceI[] retrieved = recoverDbSequences(retrievedAl
- .getSequencesArray());
+ SequenceI[] retrieved = recoverDbSequences(
+ retrievedAl.getSequencesArray());
SequenceI sequence = null;
for (SequenceI retrievedSeq : retrieved)
{
// 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.selectRefs(
- retrievedSeq.getDBRefs(), new String[] { dbSource });
+ DBRefEntry[] entryRefs = DBRefUtils
+ .selectRefs(retrievedSeq.getDBRefs(), new String[]
+ { dbSource });
if (entryRefs == null)
{
System.err
final int sequenceStart = sequence.getStart();
boolean remoteEnclosesLocal = false;
- String nonGapped = AlignSeq.extractGaps("-. ",
- sequence.getSequenceAsString()).toUpperCase();
+ String nonGapped = AlignSeq
+ .extractGaps("-. ", sequence.getSequenceAsString())
+ .toUpperCase();
int absStart = entrySeq.indexOf(nonGapped);
if (absStart == -1)
{
* So create a mapping to the external entry from the matching region of
* the local sequence, and leave local start/end untouched.
*/
- mp = new Mapping(null, new int[] { sequenceStart + absStart,
- sequenceStart + absStart + entrySeq.length() - 1 }, new int[]
- { retrievedSeq.getStart(),
- retrievedSeq.getStart() + entrySeq.length() - 1 }, 1, 1);
+ mp = new Mapping(null,
+ new int[]
+ { sequenceStart + absStart,
+ sequenceStart + absStart + entrySeq.length() - 1 },
+ new int[]
+ { retrievedSeq.getStart(),
+ retrievedSeq.getStart() + entrySeq.length() - 1 },
+ 1, 1);
updateRefFrame = false;
}
else
int startShift = absStart - sequenceStart + 1;
if (startShift != 0)
{
- modified |= sequence.getFeatures().shiftFeatures(startShift);
+ modified |= sequence.getFeatures().shiftFeatures(1,
+ startShift);
}
}
}
sequence.setSequence(retrievedSeqString);
modified = true;
addWarningMessage(warningMessages,
- "Sequence for " + sequence.getName()
- + " expanded from " + retrievedSeq.getName());
+ "Sequence for " + sequence.getName() + " expanded from "
+ + retrievedSeq.getName());
}
if (sequence.getStart() != retrievedSeq.getStart())
{
modified = true;
if (absStart != sequenceStart)
{
- addWarningMessage(warningMessages, "Start/end position for "
- + sequence.getName() + " updated from "
- + retrievedSeq.getName());
+ addWarningMessage(warningMessages,
+ "Start/end position for " + sequence.getName()
+ + " updated from " + retrievedSeq.getName());
}
}
}
sequence.setStart(absStart);
sequence.setEnd(absEnd);
modified = true;
- addWarningMessage(warningMessages, "Start/end for "
- + sequence.getName() + " updated from "
- + retrievedSeq.getName());
+ addWarningMessage(warningMessages,
+ "Start/end for " + sequence.getName()
+ + " updated from " + retrievedSeq.getName());
}
}
// search for alignment sequences to update coordinate frame for
{
if (alseqs[alsq].getDatasetSequence() == sequence)
{
- String ngAlsq = AlignSeq.extractGaps("-. ",
- alseqs[alsq].getSequenceAsString()).toUpperCase();
+ String ngAlsq = AlignSeq
+ .extractGaps("-. ",
+ alseqs[alsq].getSequenceAsString())
+ .toUpperCase();
int oldstrt = alseqs[alsq].getStart();
alseqs[alsq].setStart(sequence.getSequenceAsString()
- .toUpperCase().indexOf(ngAlsq)
- + sequence.getStart());
+ .toUpperCase().indexOf(ngAlsq) + sequence.getStart());
if (oldstrt != alseqs[alsq].getStart())
{
- alseqs[alsq].setEnd(ngAlsq.length()
- + alseqs[alsq].getStart() - 1);
+ alseqs[alsq].setEnd(
+ ngAlsq.length() + alseqs[alsq].getStart() - 1);
modified = true;
}
}
// 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++)
+ Vector<SequenceI> nseq = new Vector<>();
+ for (int i = 0; sequencesArray != null
+ && i < sequencesArray.length; i++)
{
nseq.addElement(sequencesArray[i]);
DBRefEntry[] dbr = sequencesArray[i].getDBRefs();