*/
package jalview.analysis;
-import static jalview.io.gff.GffConstants.CLINICAL_SIGNIFICANCE;
+import java.util.ArrayList;
+import java.util.Arrays;
+import java.util.Collection;
+import java.util.Collections;
+import java.util.HashMap;
+import java.util.HashSet;
+import java.util.Iterator;
+import java.util.LinkedHashMap;
+import java.util.List;
+import java.util.Locale;
+import java.util.Map;
+import java.util.Map.Entry;
+import java.util.NoSuchElementException;
+import java.util.Set;
+import java.util.SortedMap;
+import java.util.TreeMap;
+import jalview.bin.Console;
+import jalview.commands.RemoveGapColCommand;
import jalview.datamodel.AlignedCodon;
import jalview.datamodel.AlignedCodonFrame;
import jalview.datamodel.AlignedCodonFrame.SequenceToSequenceMapping;
import jalview.datamodel.Alignment;
import jalview.datamodel.AlignmentAnnotation;
import jalview.datamodel.AlignmentI;
+import jalview.datamodel.ContactMatrixI;
import jalview.datamodel.DBRefEntry;
import jalview.datamodel.GeneLociI;
import jalview.datamodel.IncompleteCodonException;
import jalview.datamodel.SequenceGroup;
import jalview.datamodel.SequenceI;
import jalview.datamodel.features.SequenceFeatures;
-import jalview.io.gff.Gff3Helper;
import jalview.io.gff.SequenceOntologyI;
import jalview.schemes.ResidueProperties;
import jalview.util.Comparison;
import jalview.util.IntRangeComparator;
import jalview.util.MapList;
import jalview.util.MappingUtils;
-import jalview.util.StringUtils;
-
-import java.io.UnsupportedEncodingException;
-import java.net.URLEncoder;
-import java.util.ArrayList;
-import java.util.Arrays;
-import java.util.Collection;
-import java.util.Collections;
-import java.util.HashMap;
-import java.util.HashSet;
-import java.util.Iterator;
-import java.util.LinkedHashMap;
-import java.util.List;
-import java.util.Map;
-import java.util.Map.Entry;
-import java.util.NoSuchElementException;
-import java.util.Set;
-import java.util.SortedMap;
-import java.util.TreeMap;
/**
* grab bag of useful alignment manipulation operations Expect these to be
*/
public class AlignmentUtils
{
-
private static final int CODON_LENGTH = 3;
private static final String SEQUENCE_VARIANT = "sequence_variant:";
- private static final String ID = "ID";
+ /*
+ * the 'id' attribute is provided for variant features fetched from
+ * Ensembl using its REST service with JSON format
+ */
+ public static final String VARIANT_ID = "id";
/**
* A data model to hold the 'normal' base value at a position, and an optional
// TODO use Character.toLowerCase to avoid creating String objects?
char[] upstream = new String(ds
.getSequence(s.getStart() - 1 - ustream_ds, s.getStart() - 1))
- .toLowerCase().toCharArray();
+ .toLowerCase(Locale.ROOT).toCharArray();
char[] downstream = new String(
- ds.getSequence(s_end - 1, s_end + dstream_ds)).toLowerCase()
- .toCharArray();
+ ds.getSequence(s_end - 1, s_end + dstream_ds))
+ .toLowerCase(Locale.ROOT).toCharArray();
char[] coreseq = s.getSequence();
char[] nseq = new char[offset + upstream.length + downstream.length
+ coreseq.length];
if (cdnaLength != mappedLength && cdnaLength > 2)
{
String lastCodon = String.valueOf(cdnaSeqChars,
- cdnaLength - CODON_LENGTH, CODON_LENGTH).toUpperCase();
+ cdnaLength - CODON_LENGTH, CODON_LENGTH)
+ .toUpperCase(Locale.ROOT);
for (String stop : ResidueProperties.STOP_CODONS)
{
if (lastCodon.equals(stop))
*/
int startOffset = 0;
if (cdnaLength != mappedLength && cdnaLength > 2
- && String.valueOf(cdnaSeqChars, 0, CODON_LENGTH).toUpperCase()
+ && String.valueOf(cdnaSeqChars, 0, CODON_LENGTH)
+ .toUpperCase(Locale.ROOT)
.equals(ResidueProperties.START))
{
startOffset += CODON_LENGTH;
mapList = mapList.getInverse();
}
final int cdsLength = cdsDss.getLength();
- int mappedFromLength = MappingUtils.getLength(mapList
- .getFromRanges());
+ int mappedFromLength = MappingUtils
+ .getLength(mapList.getFromRanges());
int mappedToLength = MappingUtils
.getLength(mapList.getToRanges());
boolean addStopCodon = (cdsLength == mappedFromLength
*/
final Iterable<AlignmentAnnotation> matchedAlignmentAnnotations = al
.findAnnotations(seq, dsann.getCalcId(), dsann.label);
- if (!matchedAlignmentAnnotations.iterator().hasNext())
+ if (matchedAlignmentAnnotations == null
+ || !matchedAlignmentAnnotations.iterator().hasNext())
{
result.add(dsann);
if (labelForCalcId != null)
startRes = selectionGroup.getStartRes();
endRes = selectionGroup.getEndRes();
}
- copyAnn.restrict(startRes, endRes);
+ copyAnn.restrict(startRes, endRes + 0);
/*
* Add to the sequence (sets copyAnn.datasetSequence), unless the
*/
if (!seq.hasAnnotation(ann))
{
+ ContactMatrixI cm = seq.getDatasetSequence()
+ .getContactMatrixFor(ann);
+ if (cm != null)
+ {
+ seq.addContactListFor(copyAnn, cm);
+ }
seq.addAlignmentAnnotation(copyAnn);
}
// adjust for gaps
copyAnn.visible = true;
}
}
+
}
/**
return false;
}
String name = seq2.getName();
- final DBRefEntry[] xrefs = seq1.getDBRefs();
+ final List<DBRefEntry> xrefs = seq1.getDBRefs();
if (xrefs != null)
{
- for (DBRefEntry xref : xrefs)
+ for (int ix = 0, nx = xrefs.size(); ix < nx; ix++)
{
+ DBRefEntry xref = xrefs.get(ix);
String xrefName = xref.getSource() + "|" + xref.getAccessionId();
// case-insensitive test, consistent with DBRefEntry.equalRef()
if (xrefName.equalsIgnoreCase(name))
productSeqs = new HashSet<>();
for (SequenceI seq : products)
{
- productSeqs.add(seq.getDatasetSequence() == null ? seq : seq
- .getDatasetSequence());
+ productSeqs.add(seq.getDatasetSequence() == null ? seq
+ : seq.getDatasetSequence());
}
}
cdsSeqs.add(cdsSeq);
- if (!dataset.getSequences().contains(cdsSeqDss))
- {
- // check if this sequence is a newly created one
- // so needs adding to the dataset
- dataset.addSequence(cdsSeqDss);
- }
-
/*
- * add a mapping from CDS to the (unchanged) mapped to range
+ * build the mapping from CDS to protein
*/
- List<int[]> cdsRange = Collections.singletonList(new int[] { 1,
- cdsSeq.getLength() });
+ List<int[]> cdsRange = Collections
+ .singletonList(new int[]
+ { cdsSeq.getStart(),
+ cdsSeq.getLength() + cdsSeq.getStart() - 1 });
MapList cdsToProteinMap = new MapList(cdsRange,
mapList.getToRanges(), mapList.getFromRatio(),
mapList.getToRatio());
- AlignedCodonFrame cdsToProteinMapping = new AlignedCodonFrame();
- cdsToProteinMapping.addMap(cdsSeqDss, proteinProduct,
- cdsToProteinMap);
- /*
- * guard against duplicating the mapping if repeating this action
- */
- if (!mappings.contains(cdsToProteinMapping))
+ if (!dataset.getSequences().contains(cdsSeqDss))
{
- mappings.add(cdsToProteinMapping);
+ /*
+ * if this sequence is a newly created one, add it to the dataset
+ * and made a CDS to protein mapping (if sequence already exists,
+ * CDS-to-protein mapping _is_ the transcript-to-protein mapping)
+ */
+ dataset.addSequence(cdsSeqDss);
+ AlignedCodonFrame cdsToProteinMapping = new AlignedCodonFrame();
+ cdsToProteinMapping.addMap(cdsSeqDss, proteinProduct,
+ cdsToProteinMap);
+
+ /*
+ * guard against duplicating the mapping if repeating this action
+ */
+ if (!mappings.contains(cdsToProteinMapping))
+ {
+ mappings.add(cdsToProteinMapping);
+ }
}
propagateDBRefsToCDS(cdsSeqDss, dnaSeq.getDatasetSequence(),
// need to
// synthesize an xref.
- for (DBRefEntry primRef : dnaDss.getPrimaryDBRefs())
+ List<DBRefEntry> primrefs = dnaDss.getPrimaryDBRefs();
+ for (int ip = 0, np = primrefs.size(); ip < np; ip++)
{
+ DBRefEntry primRef = primrefs.get(ip);
/*
* create a cross-reference from CDS to the source sequence's
* primary reference and vice versa
*/
String source = primRef.getSource();
String version = primRef.getVersion();
- DBRefEntry cdsCrossRef = new DBRefEntry(source, source + ":"
- + version, primRef.getAccessionId());
- cdsCrossRef.setMap(new Mapping(dnaDss, new MapList(cdsToDnaMap)));
+ DBRefEntry cdsCrossRef = new DBRefEntry(source,
+ source + ":" + version, primRef.getAccessionId());
+ cdsCrossRef
+ .setMap(new Mapping(dnaDss, new MapList(cdsToDnaMap)));
cdsSeqDss.addDBRef(cdsCrossRef);
- dnaSeq.addDBRef(new DBRefEntry(source, version, cdsSeq
- .getName(), new Mapping(cdsSeqDss, dnaToCdsMap)));
-
+ dnaSeq.addDBRef(new DBRefEntry(source, version,
+ cdsSeq.getName(), new Mapping(cdsSeqDss, dnaToCdsMap)));
// problem here is that the cross-reference is synthesized -
// cdsSeq.getName() may be like 'CDS|dnaaccession' or
// 'CDS|emblcdsacc'
DBRefEntry proteinToCdsRef = new DBRefEntry(source, version,
cdsSeq.getName());
//
- proteinToCdsRef.setMap(new Mapping(cdsSeqDss, cdsToProteinMap
- .getInverse()));
+ proteinToCdsRef.setMap(
+ new Mapping(cdsSeqDss, cdsToProteinMap.getInverse()));
proteinProduct.addDBRef(proteinToCdsRef);
}
-
/*
* transfer any features on dna that overlap the CDS
*/
}
}
- AlignmentI cds = new Alignment(cdsSeqs.toArray(new SequenceI[cdsSeqs
- .size()]));
+ AlignmentI cds = new Alignment(
+ cdsSeqs.toArray(new SequenceI[cdsSeqs.size()]));
cds.setDataset(dataset);
return cds;
return;
}
- MapList newMap = targetToFrom.traverse(fromLoci.getMap());
+ MapList newMap = targetToFrom.traverse(fromLoci.getMapping());
if (newMap != null)
{
* @param seqMappings
* the set of mappings involving dnaSeq
* @param aMapping
- * an initial candidate from seqMappings
+ * a transcript-to-peptide mapping
* @return
*/
static SequenceI findCdsForProtein(List<AlignedCodonFrame> mappings,
if (mappedFromLength == dnaLength
|| mappedFromLength == dnaLength - CODON_LENGTH)
{
- return seqDss;
+ /*
+ * if sequence has CDS features, this is a transcript with no UTR
+ * - do not take this as the CDS sequence! (JAL-2789)
+ */
+ if (seqDss.getFeatures().getFeaturesByOntology(SequenceOntologyI.CDS)
+ .isEmpty())
+ {
+ return seqDss;
+ }
}
/*
{
/*
* found a 3:1 mapping to the protein product which covers
- * the whole dna sequence i.e. is from CDS; finally check it
- * is from the dna start sequence
+ * the whole dna sequence i.e. is from CDS; finally check the CDS
+ * is mapped from the given dna start sequence
*/
SequenceI cdsSeq = map.getFromSeq();
+ // todo this test is weak if seqMappings contains multiple mappings;
+ // we get away with it if transcript:cds relationship is 1:1
List<AlignedCodonFrame> dnaToCdsMaps = MappingUtils
.findMappingsForSequence(cdsSeq, seqMappings);
if (!dnaToCdsMaps.isEmpty())
static SequenceI makeCdsSequence(SequenceI seq, Mapping mapping,
AlignmentI dataset)
{
+ /*
+ * construct CDS sequence name as "CDS|" with 'from id' held in the mapping
+ * if set (e.g. EMBL protein_id), else sequence name appended
+ */
+ String mapFromId = mapping.getMappedFromId();
+ final String seqId = "CDS|"
+ + (mapFromId != null ? mapFromId : seq.getName());
+
+ SequenceI newSeq = null;
+
+ /*
+ * construct CDS sequence by splicing mapped from ranges
+ */
char[] seqChars = seq.getSequence();
List<int[]> fromRanges = mapping.getMap().getFromRanges();
int cdsWidth = MappingUtils.getLength(fromRanges);
newSeqChars[newPos++] = Dna.getComplement(seqChars[i - 1]);
}
}
+
+ newSeq = new Sequence(seqId, newSeqChars, 1, newPos);
}
- /*
- * assign 'from id' held in the mapping if set (e.g. EMBL protein_id),
- * else generate a sequence name
- */
- String mapFromId = mapping.getMappedFromId();
- String seqId = "CDS|" + (mapFromId != null ? mapFromId : seq.getName());
- SequenceI newSeq = new Sequence(seqId, newSeqChars, 1, newPos);
if (dataset != null)
{
SequenceI[] matches = dataset.findSequenceMatch(newSeq.getName());
}
else
{
- System.err.println(
- "JAL-2154 regression: warning - found (and ignnored a duplicate CDS sequence):"
+ Console.error(
+ "JAL-2154 regression: warning - found (and ignored) a duplicate CDS sequence:"
+ mtch.toString());
}
}
protected static List<DBRefEntry> propagateDBRefsToCDS(SequenceI cdsSeq,
SequenceI contig, SequenceI proteinProduct, Mapping mapping)
{
+
// gather direct refs from contig congruent with mapping
List<DBRefEntry> direct = new ArrayList<>();
HashSet<String> directSources = new HashSet<>();
- if (contig.getDBRefs() != null)
+
+ List<DBRefEntry> refs = contig.getDBRefs();
+ if (refs != null)
{
- for (DBRefEntry dbr : contig.getDBRefs())
+ for (int ib = 0, nb = refs.size(); ib < nb; ib++)
{
- if (dbr.hasMap() && dbr.getMap().getMap().isTripletMap())
+ DBRefEntry dbr = refs.get(ib);
+ MapList map;
+ if (dbr.hasMap() && (map = dbr.getMap().getMap()).isTripletMap())
{
- MapList map = dbr.getMap().getMap();
// check if map is the CDS mapping
if (mapping.getMap().equals(map))
{
}
}
}
- DBRefEntry[] onSource = DBRefUtils.selectRefs(
+ List<DBRefEntry> onSource = DBRefUtils.selectRefs(
proteinProduct.getDBRefs(),
directSources.toArray(new String[0]));
List<DBRefEntry> propagated = new ArrayList<>();
// and generate appropriate mappings
- for (DBRefEntry cdsref : direct)
+ for (int ic = 0, nc = direct.size(); ic < nc; ic++)
{
+ DBRefEntry cdsref = direct.get(ic);
+ Mapping m = cdsref.getMap();
// clone maplist and mapping
MapList cdsposmap = new MapList(
Arrays.asList(new int[][]
{ new int[] { cdsSeq.getStart(), cdsSeq.getEnd() } }),
- cdsref.getMap().getMap().getToRanges(), 3, 1);
- Mapping cdsmap = new Mapping(cdsref.getMap().getTo(),
- cdsref.getMap().getMap());
+ m.getMap().getToRanges(), 3, 1);
+ Mapping cdsmap = new Mapping(m.getTo(), m.getMap());
// create dbref
DBRefEntry newref = new DBRefEntry(cdsref.getSource(),
{
copyTo = copyTo.getDatasetSequence();
}
+ if (fromSeq == copyTo || fromSeq.getDatasetSequence() == copyTo)
+ {
+ return 0; // shared dataset sequence
+ }
/*
* get features, optionally restricted by an ontology term
*/
- List<SequenceFeature> sfs = select == null ? fromSeq.getFeatures()
- .getPositionalFeatures() : fromSeq.getFeatures()
- .getFeaturesByOntology(select);
+ List<SequenceFeature> sfs = select == null
+ ? fromSeq.getFeatures().getPositionalFeatures()
+ : fromSeq.getFeatures().getFeaturesByOntology(select);
int count = 0;
for (SequenceFeature sf : sfs)
int mappedDnaLength = MappingUtils.getLength(ranges);
/*
- * if not a whole number of codons, something is wrong,
- * abort mapping
+ * if not a whole number of codons, truncate mapping
*/
- if (mappedDnaLength % CODON_LENGTH > 0)
+ int codonRemainder = mappedDnaLength % CODON_LENGTH;
+ if (codonRemainder > 0)
{
- return null;
+ mappedDnaLength -= codonRemainder;
+ MappingUtils.removeEndPositions(codonRemainder, ranges);
}
int proteinLength = proteinSeq.getLength();
{
List<int[]> result = new ArrayList<>();
- List<SequenceFeature> sfs = dnaSeq.getFeatures().getFeaturesByOntology(
- SequenceOntologyI.CDS);
+ List<SequenceFeature> sfs = dnaSeq.getFeatures()
+ .getFeaturesByOntology(SequenceOntologyI.CDS);
if (sfs.isEmpty())
{
return result;
int phase = 0;
try
{
- phase = Integer.parseInt(sf.getPhase());
+ String s = sf.getPhase();
+ if (s != null)
+ {
+ phase = Integer.parseInt(s);
+ }
} catch (NumberFormatException e)
{
- // ignore
+ // leave as zero
}
/*
* phase > 0 on first codon means 5' incomplete - skip to the start
}
/**
- * Maps exon features from dna to protein, and computes variants in peptide
- * product generated by variants in dna, and adds them as sequence_variant
- * features on the protein sequence. Returns the number of variant features
- * added.
- *
- * @param dnaSeq
- * @param peptide
- * @param dnaToProtein
- */
- public static int computeProteinFeatures(SequenceI dnaSeq,
- SequenceI peptide, MapList dnaToProtein)
- {
- while (dnaSeq.getDatasetSequence() != null)
- {
- dnaSeq = dnaSeq.getDatasetSequence();
- }
- while (peptide.getDatasetSequence() != null)
- {
- peptide = peptide.getDatasetSequence();
- }
-
- transferFeatures(dnaSeq, peptide, dnaToProtein, SequenceOntologyI.EXON);
-
- /*
- * compute protein variants from dna variants and codon mappings;
- * NB - alternatively we could retrieve this using the REST service e.g.
- * http://rest.ensembl.org/overlap/translation
- * /ENSP00000288602?feature=transcript_variation;content-type=text/xml
- * which would be a bit slower but possibly more reliable
- */
-
- /*
- * build a map with codon variations for each potentially varying peptide
- */
- LinkedHashMap<Integer, List<DnaVariant>[]> variants = buildDnaVariantsMap(
- dnaSeq, dnaToProtein);
-
- /*
- * scan codon variations, compute peptide variants and add to peptide sequence
- */
- int count = 0;
- for (Entry<Integer, List<DnaVariant>[]> variant : variants.entrySet())
- {
- int peptidePos = variant.getKey();
- List<DnaVariant>[] codonVariants = variant.getValue();
- count += computePeptideVariants(peptide, peptidePos, codonVariants);
- }
-
- return count;
- }
-
- /**
- * Computes non-synonymous peptide variants from codon variants and adds them
- * as sequence_variant features on the protein sequence (one feature per
- * allele variant). Selected attributes (variant id, clinical significance)
- * are copied over to the new features.
- *
- * @param peptide
- * the protein sequence
- * @param peptidePos
- * the position to compute peptide variants for
- * @param codonVariants
- * a list of dna variants per codon position
- * @return the number of features added
- */
- static int computePeptideVariants(SequenceI peptide, int peptidePos,
- List<DnaVariant>[] codonVariants)
- {
- String residue = String.valueOf(peptide.getCharAt(peptidePos - 1));
- int count = 0;
- String base1 = codonVariants[0].get(0).base;
- String base2 = codonVariants[1].get(0).base;
- String base3 = codonVariants[2].get(0).base;
-
- /*
- * variants in first codon base
- */
- for (DnaVariant var : codonVariants[0])
- {
- if (var.variant != null)
- {
- String alleles = (String) var.variant.getValue(Gff3Helper.ALLELES);
- if (alleles != null)
- {
- for (String base : alleles.split(","))
- {
- if (!base1.equals(base))
- {
- String codon = base + base2 + base3;
- if (addPeptideVariant(peptide, peptidePos, residue, var,
- codon))
- {
- count++;
- }
- }
- }
- }
- }
- }
-
- /*
- * variants in second codon base
- */
- for (DnaVariant var : codonVariants[1])
- {
- if (var.variant != null)
- {
- String alleles = (String) var.variant.getValue(Gff3Helper.ALLELES);
- if (alleles != null)
- {
- for (String base : alleles.split(","))
- {
- if (!base2.equals(base))
- {
- String codon = base1 + base + base3;
- if (addPeptideVariant(peptide, peptidePos, residue, var,
- codon))
- {
- count++;
- }
- }
- }
- }
- }
- }
-
- /*
- * variants in third codon base
- */
- for (DnaVariant var : codonVariants[2])
- {
- if (var.variant != null)
- {
- String alleles = (String) var.variant.getValue(Gff3Helper.ALLELES);
- if (alleles != null)
- {
- for (String base : alleles.split(","))
- {
- if (!base3.equals(base))
- {
- String codon = base1 + base2 + base;
- if (addPeptideVariant(peptide, peptidePos, residue, var,
- codon))
- {
- count++;
- }
- }
- }
- }
- }
- }
-
- return count;
- }
-
- /**
- * Helper method that adds a peptide variant feature. ID and
- * clinical_significance attributes of the dna variant (if present) are copied
- * to the new feature.
- *
- * @param peptide
- * @param peptidePos
- * @param residue
- * @param var
- * @param codon
- * @return true if a feature was added, else false
- */
- static boolean addPeptideVariant(SequenceI peptide, int peptidePos,
- String residue, DnaVariant var, String codon)
- {
- /*
- * get peptide translation of codon e.g. GAT -> D
- * note that variants which are not single alleles,
- * e.g. multibase variants or HGMD_MUTATION etc
- * are currently ignored here
- */
- String trans = codon.contains("-") ? null
- : (codon.length() > CODON_LENGTH ? null
- : ResidueProperties.codonTranslate(codon));
- if (trans == null)
- {
- return false;
- }
- String desc = codon;
- String featureType = "";
- if (trans.equals(residue))
- {
- featureType = SequenceOntologyI.SYNONYMOUS_VARIANT;
- }
- else if (ResidueProperties.STOP.equals(trans))
- {
- featureType = SequenceOntologyI.STOP_GAINED;
- }
- else
- {
- String residue3Char = StringUtils
- .toSentenceCase(ResidueProperties.aa2Triplet.get(residue));
- String trans3Char = StringUtils
- .toSentenceCase(ResidueProperties.aa2Triplet.get(trans));
- desc = "p." + residue3Char + peptidePos + trans3Char;
- featureType = SequenceOntologyI.NONSYNONYMOUS_VARIANT;
- }
- SequenceFeature sf = new SequenceFeature(featureType, desc, peptidePos,
- peptidePos, var.getSource());
-
- StringBuilder attributes = new StringBuilder(32);
- String id = (String) var.variant.getValue(ID);
- if (id != null)
- {
- if (id.startsWith(SEQUENCE_VARIANT))
- {
- id = id.substring(SEQUENCE_VARIANT.length());
- }
- sf.setValue(ID, id);
- attributes.append(ID).append("=").append(id);
- // TODO handle other species variants JAL-2064
- StringBuilder link = new StringBuilder(32);
- try
- {
- link.append(desc).append(" ").append(id).append(
- "|http://www.ensembl.org/Homo_sapiens/Variation/Summary?v=")
- .append(URLEncoder.encode(id, "UTF-8"));
- sf.addLink(link.toString());
- } catch (UnsupportedEncodingException e)
- {
- // as if
- }
- }
- String clinSig = (String) var.variant.getValue(CLINICAL_SIGNIFICANCE);
- if (clinSig != null)
- {
- sf.setValue(CLINICAL_SIGNIFICANCE, clinSig);
- attributes.append(";").append(CLINICAL_SIGNIFICANCE).append("=")
- .append(clinSig);
- }
- peptide.addSequenceFeature(sf);
- if (attributes.length() > 0)
- {
- sf.setAttributes(attributes.toString());
- }
- return true;
- }
-
- /**
- * Builds a map whose key is position in the protein sequence, and value is a
- * list of the base and all variants for each corresponding codon position.
- * <p>
- * This depends on dna variants being held as a comma-separated list as
- * property "alleles" on variant features.
- *
- * @param dnaSeq
- * @param dnaToProtein
- * @return
- */
- @SuppressWarnings("unchecked")
- static LinkedHashMap<Integer, List<DnaVariant>[]> buildDnaVariantsMap(
- SequenceI dnaSeq, MapList dnaToProtein)
- {
- /*
- * map from peptide position to all variants of the codon which codes for it
- * LinkedHashMap ensures we keep the peptide features in sequence order
- */
- LinkedHashMap<Integer, List<DnaVariant>[]> variants = new LinkedHashMap<>();
-
- List<SequenceFeature> dnaFeatures = dnaSeq.getFeatures()
- .getFeaturesByOntology(SequenceOntologyI.SEQUENCE_VARIANT);
- if (dnaFeatures.isEmpty())
- {
- return variants;
- }
-
- int dnaStart = dnaSeq.getStart();
- int[] lastCodon = null;
- int lastPeptidePostion = 0;
-
- /*
- * build a map of codon variations for peptides
- */
- for (SequenceFeature sf : dnaFeatures)
- {
- int dnaCol = sf.getBegin();
- if (dnaCol != sf.getEnd())
- {
- // not handling multi-locus variant features
- continue;
- }
-
- /*
- * ignore variant if not a SNP
- */
- String alls = (String) sf.getValue(Gff3Helper.ALLELES);
- if (alls == null)
- {
- continue; // non-SNP VCF variant perhaps - can't process this
- }
-
- String[] alleles = alls.toUpperCase().split(",");
- boolean isSnp = true;
- for (String allele : alleles)
- {
- if (allele.trim().length() > 1)
- {
- isSnp = false;
- }
- }
- if (!isSnp)
- {
- continue;
- }
-
- int[] mapsTo = dnaToProtein.locateInTo(dnaCol, dnaCol);
- if (mapsTo == null)
- {
- // feature doesn't lie within coding region
- continue;
- }
- int peptidePosition = mapsTo[0];
- List<DnaVariant>[] codonVariants = variants.get(peptidePosition);
- if (codonVariants == null)
- {
- codonVariants = new ArrayList[CODON_LENGTH];
- codonVariants[0] = new ArrayList<>();
- codonVariants[1] = new ArrayList<>();
- codonVariants[2] = new ArrayList<>();
- variants.put(peptidePosition, codonVariants);
- }
-
- /*
- * get this peptide's codon positions e.g. [3, 4, 5] or [4, 7, 10]
- */
- int[] codon = peptidePosition == lastPeptidePostion ? lastCodon
- : MappingUtils.flattenRanges(dnaToProtein.locateInFrom(
- peptidePosition, peptidePosition));
- lastPeptidePostion = peptidePosition;
- lastCodon = codon;
-
- /*
- * save nucleotide (and any variant) for each codon position
- */
- for (int codonPos = 0; codonPos < CODON_LENGTH; codonPos++)
- {
- String nucleotide = String.valueOf(
- dnaSeq.getCharAt(codon[codonPos] - dnaStart)).toUpperCase();
- List<DnaVariant> codonVariant = codonVariants[codonPos];
- if (codon[codonPos] == dnaCol)
- {
- if (!codonVariant.isEmpty()
- && codonVariant.get(0).variant == null)
- {
- /*
- * already recorded base value, add this variant
- */
- codonVariant.get(0).variant = sf;
- }
- else
- {
- /*
- * add variant with base value
- */
- codonVariant.add(new DnaVariant(nucleotide, sf));
- }
- }
- else if (codonVariant.isEmpty())
- {
- /*
- * record (possibly non-varying) base value
- */
- codonVariant.add(new DnaVariant(nucleotide));
- }
- }
- }
- return variants;
- }
-
- /**
* Makes an alignment with a copy of the given sequences, adding in any
* non-redundant sequences which are mapped to by the cross-referenced
* sequences.
SequenceIdMatcher matcher = new SequenceIdMatcher(seqs);
if (xrefs != null)
{
- for (SequenceI xref : xrefs)
+ // BH 2019.01.25 recoded to remove iterators
+
+ for (int ix = 0, nx = xrefs.length; ix < nx; ix++)
{
- DBRefEntry[] dbrefs = xref.getDBRefs();
+ SequenceI xref = xrefs[ix];
+ List<DBRefEntry> dbrefs = xref.getDBRefs();
if (dbrefs != null)
{
- for (DBRefEntry dbref : dbrefs)
+ for (int ir = 0, nir = dbrefs.size(); ir < nir; ir++)
{
- if (dbref.getMap() == null || dbref.getMap().getTo() == null
- || dbref.getMap().getTo().isProtein() != isProtein)
+ DBRefEntry dbref = dbrefs.get(ir);
+ Mapping map = dbref.getMap();
+ SequenceI mto;
+ if (map == null || (mto = map.getTo()) == null
+ || mto.isProtein() != isProtein)
{
continue;
}
- SequenceI mappedTo = dbref.getMap().getTo();
+ SequenceI mappedTo = mto;
SequenceI match = matcher.findIdMatch(mappedTo);
if (match == null)
{
}
/*
- * first pass - check whether all sequences to be aligned share a dataset
- * sequence with an aligned sequence
+ * first pass - check whether all sequences to be aligned share a
+ * dataset sequence with an aligned sequence; also note the leftmost
+ * ungapped column from which to copy
*/
+ int leftmost = Integer.MAX_VALUE;
for (SequenceI seq : unaligned.getSequences())
{
- if (!alignedDatasets.containsKey(seq.getDatasetSequence()))
+ final SequenceI ds = seq.getDatasetSequence();
+ if (!alignedDatasets.containsKey(ds))
{
return false;
}
+ SequenceI alignedSeq = alignedDatasets.get(ds).get(0);
+ int startCol = alignedSeq.findIndex(seq.getStart()); // 1..
+ leftmost = Math.min(leftmost, startCol);
}
/*
* heuristic rule: pair off sequences in order for the case where
* more than one shares the same dataset sequence
*/
+ final char gapCharacter = aligned.getGapCharacter();
for (SequenceI seq : unaligned.getSequences())
{
List<SequenceI> alignedSequences = alignedDatasets
.get(seq.getDatasetSequence());
- // TODO: getSequenceAsString() will be deprecated in the future
- // TODO: need to leave to SequenceI implementor to update gaps
- seq.setSequence(alignedSequences.get(0).getSequenceAsString());
+ if (alignedSequences.isEmpty())
+ {
+ /*
+ * defensive check - shouldn't happen! (JAL-3536)
+ */
+ continue;
+ }
+ SequenceI alignedSeq = alignedSequences.get(0);
+
+ /*
+ * gap fill for leading (5') UTR if any
+ */
+ // TODO this copies intron columns - wrong!
+ int startCol = alignedSeq.findIndex(seq.getStart()); // 1..
+ int endCol = alignedSeq.findIndex(seq.getEnd());
+ char[] seqchars = new char[endCol - leftmost + 1];
+ Arrays.fill(seqchars, gapCharacter);
+ char[] toCopy = alignedSeq.getSequence(startCol - 1, endCol);
+ System.arraycopy(toCopy, 0, seqchars, startCol - leftmost,
+ toCopy.length);
+ seq.setSequence(String.valueOf(seqchars));
if (alignedSequences.size() > 0)
{
// pop off aligned sequences (except the last one)
}
}
+ /*
+ * finally remove gapped columns (e.g. introns)
+ */
+ new RemoveGapColCommand("", unaligned.getSequencesArray(), 0,
+ unaligned.getWidth() - 1, unaligned);
+
return true;
}