*/
public List<String> findXrefSourcesForSequences(boolean dna)
{
- List<String> sources = new ArrayList<String>();
+ List<String> sources = new ArrayList<>();
for (SequenceI seq : fromSeqs)
{
if (seq != null)
* find sequence's direct (dna-to-dna, peptide-to-peptide) xrefs
*/
DBRefEntry[] lrfs = DBRefUtils.selectDbRefs(fromDna, seq.getDBRefs());
- List<SequenceI> foundSeqs = new ArrayList<SequenceI>();
+ List<SequenceI> foundSeqs = new ArrayList<>();
/*
* find sequences in the alignment which xref one of these DBRefs
*/
for (SequenceI rs : foundSeqs)
{
- DBRefEntry[] xrs = DBRefUtils
- .selectDbRefs(!fromDna, rs.getDBRefs());
+ DBRefEntry[] xrs = DBRefUtils.selectDbRefs(!fromDna,
+ rs.getDBRefs());
addXrefsToSources(xrs, sources);
}
}
public Alignment findXrefSequences(String source, boolean fromDna)
{
- rseqs = new ArrayList<SequenceI>();
+ rseqs = new ArrayList<>();
AlignedCodonFrame cf = new AlignedCodonFrame();
matcher = new SequenceIdMatcher(dataset.getSequences());
dss = dss.getDatasetSequence();
}
boolean found = false;
- DBRefEntry[] xrfs = DBRefUtils
- .selectDbRefs(!fromDna, dss.getDBRefs());
+ DBRefEntry[] xrfs = DBRefUtils.selectDbRefs(!fromDna,
+ dss.getDBRefs());
// ENST & ENSP comes in to both Protein and nucleotide, so we need to
// filter them
// out later.
if (matchInDataset != null && xref.getMap().getTo() != null
&& matchInDataset != xref.getMap().getTo())
{
- System.err
- .println("Implementation problem (reopen JAL-2154): CrossRef.findInDataset seems to have recovered a different sequence than the one explicitly mapped for xref."
- + "Found:"
- + matchInDataset
- + "\nExpected:"
- + xref.getMap().getTo()
- + "\nFor xref:"
+ System.err.println(
+ "Implementation problem (reopen JAL-2154): CrossRef.findInDataset seems to have recovered a different sequence than the one explicitly mapped for xref."
+ + "Found:" + matchInDataset + "\nExpected:"
+ + xref.getMap().getTo() + "\nFor xref:"
+ xref);
}
/*matcher.findIdMatch(mappedTo);*/
}
else
{
- cf.addMap(matchInDataset, dss, xref.getMap().getMap()
- .getInverse(), xref.getMap().getMappedFromId());
+ cf.addMap(matchInDataset, dss,
+ xref.getMap().getMap().getInverse(),
+ xref.getMap().getMappedFromId());
}
}
if (fromDna)
{
// map is from dna seq to a protein product
- cf.addMap(dss, rsq, xref.getMap().getMap(), xref.getMap()
- .getMappedFromId());
+ cf.addMap(dss, rsq, xref.getMap().getMap(),
+ xref.getMap().getMappedFromId());
}
else
{
if (!found)
{
- SequenceI matchedSeq = matcher.findIdMatch(xref.getSource() + "|"
- + xref.getAccessionId());
+ SequenceI matchedSeq = matcher.findIdMatch(
+ xref.getSource() + "|" + xref.getAccessionId());
// if there was a match, check it's at least the right type of
// molecule!
if (matchedSeq != null && matchedSeq.isProtein() == fromDna)
{
ASequenceFetcher sftch = SequenceFetcherFactory.getSequenceFetcher();
SequenceI[] retrieved = null;
- SequenceI dss = seq.getDatasetSequence() == null ? seq : seq
- .getDatasetSequence();
+ SequenceI dss = seq.getDatasetSequence() == null ? seq
+ : seq.getDatasetSequence();
// first filter in case we are retrieving crossrefs that have already been
// retrieved. this happens for cases where a database record doesn't yield
// protein products for CDS
retrieved = sftch.getSequences(sourceRefs, !fromDna);
} catch (Exception e)
{
- System.err
- .println("Problem whilst retrieving cross references for Sequence : "
+ System.err.println(
+ "Problem whilst retrieving cross references for Sequence : "
+ seq.getName());
e.printStackTrace();
}
if (retrieved != null)
{
boolean addedXref = false;
- List<SequenceI> newDsSeqs = new ArrayList<SequenceI>(), doNotAdd = new ArrayList<SequenceI>();
+ List<SequenceI> newDsSeqs = new ArrayList<>(),
+ doNotAdd = new ArrayList<>();
for (SequenceI retrievedSequence : retrieved)
{
// dataset gets contaminated ccwith non-ds sequences. why ??!
// try: Ensembl -> Nuc->Ensembl, Nuc->Uniprot-->Protein->EMBL->
- SequenceI retrievedDss = retrievedSequence.getDatasetSequence() == null ? retrievedSequence
- : retrievedSequence.getDatasetSequence();
+ SequenceI retrievedDss = retrievedSequence
+ .getDatasetSequence() == null ? retrievedSequence
+ : retrievedSequence.getDatasetSequence();
addedXref |= importCrossRefSeq(cf, newDsSeqs, doNotAdd, dss,
retrievedDss);
}
{
// dataset gets contaminated ccwith non-ds sequences. why ??!
// try: Ensembl -> Nuc->Ensembl, Nuc->Uniprot-->Protein->EMBL->
- SequenceI retrievedDss = retrievedSequence.getDatasetSequence() == null ? retrievedSequence
- : retrievedSequence.getDatasetSequence();
+ SequenceI retrievedDss = retrievedSequence
+ .getDatasetSequence() == null ? retrievedSequence
+ : retrievedSequence.getDatasetSequence();
addedXref |= importCrossRefSeq(cf, newDsSeqs, doNotAdd, dss,
retrievedDss);
}
int sf = map.getMap().getToLowest();
int st = map.getMap().getToHighest();
SequenceI mappedrg = ms.getSubSequence(sf, st);
- if (mappedrg.getLength() > 0
- && ms.getSequenceAsString().equals(
- matched.getSequenceAsString()))
+ if (mappedrg.getLength() > 0 && ms.getSequenceAsString()
+ .equals(matched.getSequenceAsString()))
{
/*
* sequences were a match,
*/
for (DBRefEntry ref : toRefs)
{
- if (dbref.getSrcAccString().equals(
- ref.getSrcAccString()))
+ if (dbref.getSrcAccString()
+ .equals(ref.getSrcAccString()))
{
continue; // avoid overwriting the ref on source sequence
}
* duplication (e.g. same variation from two
* transcripts)
*/
- SequenceFeature[] sfs = ms.getSequenceFeatures();
- if (sfs != null)
+ List<SequenceFeature> sfs = ms.getFeatures()
+ .getAllFeatures();
+ for (SequenceFeature feat : sfs)
{
- for (SequenceFeature feat : sfs)
+ /*
+ * make a flyweight feature object which ignores Parent
+ * attribute in equality test; this avoids creating many
+ * otherwise duplicate exon features on genomic sequence
+ */
+ SequenceFeature newFeature = new SequenceFeature(feat)
{
- /*
- * make a flyweight feature object which ignores Parent
- * attribute in equality test; this avoids creating many
- * otherwise duplicate exon features on genomic sequence
- */
- SequenceFeature newFeature = new SequenceFeature(feat)
+ @Override
+ public boolean equals(Object o)
{
- @Override
- public boolean equals(Object o)
- {
- return super.equals(o, true);
- }
- };
- matched.addSequenceFeature(newFeature);
- }
+ return super.equals(o, true);
+ }
+ };
+ matched.addSequenceFeature(newFeature);
}
-
}
cf.addMap(retrievedSequence, map.getTo(), map.getMap());
} catch (Exception e)
{
- System.err
- .println("Exception when consolidating Mapped sequence set...");
+ System.err.println(
+ "Exception when consolidating Mapped sequence set...");
e.printStackTrace(System.err);
}
}
SequenceI mapsTo = xref.getMap().getTo();
String name = xref.getAccessionId();
String name2 = xref.getSource() + "|" + name;
- SequenceI dss = mapsTo.getDatasetSequence() == null ? mapsTo : mapsTo
- .getDatasetSequence();
+ SequenceI dss = mapsTo.getDatasetSequence() == null ? mapsTo
+ : mapsTo.getDatasetSequence();
// first check ds if ds is directly referenced
if (dataset.findIndex(dss) > -1)
{
for (SequenceI seq : dataset.getSequences())
{
// first check primary refs.
- List<DBRefEntry> match = DBRefUtils.searchRefs(seq.getPrimaryDBRefs()
- .toArray(new DBRefEntry[0]), template);
+ List<DBRefEntry> match = DBRefUtils.searchRefs(
+ seq.getPrimaryDBRefs().toArray(new DBRefEntry[0]), template);
if (match != null && match.size() == 1 && sameSequence(seq, dss))
{
return seq;
* returns sequences with a dbref to the matched accession id
* which we don't want
*/
- if (firstIdMatch == null
- && (name.equals(seq.getName()) || seq.getName().startsWith(
- name2)))
+ if (firstIdMatch == null && (name.equals(seq.getName())
+ || seq.getName().startsWith(name2)))
{
if (sameSequence(seq, dss))
{
{
return false;
}
- char[] c1 = seq1.getSequence();
- char[] c2 = seq2.getSequence();
- if (c1.length != c2.length)
+
+ if (seq1.getLength() != seq2.getLength())
{
return false;
}
- for (int i = 0; i < c1.length; i++)
+ int length = seq1.getLength();
+ for (int i = 0; i < length; i++)
{
- int diff = c1[i] - c2[i];
+ int diff = seq1.getCharAt(i) - seq2.getCharAt(i);
/*
* same char or differ in case only ('a'-'A' == 32)
*/
MapList mapping = null;
SequenceI dsmapFrom = mapFrom.getDatasetSequence() == null ? mapFrom
: mapFrom.getDatasetSequence();
- SequenceI dsmapTo = mapTo.getDatasetSequence() == null ? mapTo : mapTo
- .getDatasetSequence();
+ SequenceI dsmapTo = mapTo.getDatasetSequence() == null ? mapTo
+ : mapTo.getDatasetSequence();
/*
* look for a reverse mapping, if found make its inverse.
* Note - we do this on dataset sequences only.
if (fromDna)
{
- AlignmentUtils.computeProteinFeatures(mapFrom, mapTo, mapping);
+ // AlignmentUtils.computeProteinFeatures(mapFrom, mapTo, mapping);
mappings.addMap(mapFrom, mapTo, mapping);
}
else
* @return true if matches were found.
*/
private boolean searchDatasetXrefs(boolean fromDna, SequenceI sequenceI,
- DBRefEntry[] lrfs, List<SequenceI> foundSeqs, AlignedCodonFrame cf)
+ DBRefEntry[] lrfs, List<SequenceI> foundSeqs,
+ AlignedCodonFrame cf)
{
boolean found = false;
if (lrfs == null)
// add in wildcards
xref.setVersion(null);
xref.setMap(null);
- found |= searchDataset(fromDna, sequenceI, xref, foundSeqs, cf, false);
+ found |= searchDataset(fromDna, sequenceI, xref, foundSeqs, cf,
+ false);
}
return found;
}
{
if (nxt.getDatasetSequence() != null)
{
- System.err
- .println("Implementation warning: CrossRef initialised with a dataset alignment with non-dataset sequences in it! ("
- + nxt.getDisplayId(true)
- + " has ds reference "
+ System.err.println(
+ "Implementation warning: CrossRef initialised with a dataset alignment with non-dataset sequences in it! ("
+ + nxt.getDisplayId(true) + " has ds reference "
+ nxt.getDatasetSequence().getDisplayId(true)
+ ")");
}