private int getLeftBound(int i, Region w) { int left = i == 0 ? w.getStart() : Math.max( Math.max(1, data.getPos(i) - maxJump), (data.getPos(i) + data.getPos(i - 1)) / 2); return left; }
public Collection<NamedRegion> parseProbes() throws IOException { double ethreshold = 1.0e-3; Parser<BlastTabEntry> parser = new Parser<BlastTabEntry>(blasttab, new BlastTabEntry.ParsingMapper()); Iterator<BlastTabEntry> itr = new FilterIterator<BlastTabEntry, BlastTabEntry>( new BlastTabEntry.ExpectedScoreFilter(ethreshold), parser); Map<String, Set<Region>> primerHits = new TreeMap<String, Set<Region>>(); Set<String> primerNames = new TreeSet<String>(); while (itr.hasNext()) { BlastTabEntry entry = itr.next(); NamedRegion r = createNamedRegion(entry); if (!primerHits.containsKey(entry.getQuery())) { primerHits.put(entry.getQuery(), new HashSet<Region>()); } primerHits.get(entry.getQuery()).add(r); primerNames.add(removePrimerLR(entry.getQuery())); } LinkedList<NamedRegion> probes = new LinkedList<NamedRegion>(); for (String primerName : primerNames) { Pair<Region, Region> hits = findProbePair(primerName, primerHits); if (hits != null) { Region left = hits.getFirst(), right = hits.getLast(); int start = Math.min(left.getStart(), right.getStart()); int end = Math.max(left.getEnd(), right.getEnd()); NamedRegion probe = new NamedRegion(genome, left.getChrom(), start, end, primerName); probes.addLast(probe); } } return probes; }
public Iterator<SimpleDomain> execute(Region a) { try { LinkedList<SimpleDomain> doms = new LinkedList<SimpleDomain>(); data.window(a.getChrom(), a.getStart(), a.getEnd()); int np = data.getCount(); for (int pi = 0; pi < np - 1; pi++) { int f = findNextDomainIndex(pi, a); if (f != -1) { SimpleDomain dom = buildDomain(pi, f, a); doms.addLast(dom); pi = f; } } return doms.iterator(); } catch (NotFoundException e) { e.printStackTrace(); return new EmptyIterator<SimpleDomain>(); } }
public void paintItem(Graphics2D g, int x1, int y1, int x2, int y2) { if (!model.isReady()) { return; } Set<Genome> genomes = model.getGenomes(); if (genomes == null) { g.drawString("No Genomes Yet", x1 + 40, y1 + 40); return; } Genome currentGenome = model.getCurrentGenome(); if (currentGenome == null) { g.drawString("Haven't moved", x1 + 40, y1 + 40); return; } genomes.remove(currentGenome); if (genomes.size() == 0) { g.drawString("Single genome isn't very interesting", x1 + 40, y1 + 40); return; } cs.reset(); int h = y2 - y1; int midY = y1 + h / 2; int rstart = getRegion().getStart(); int rend = getRegion().getEnd(); Stroke old = g.getStroke(); Stroke thin = new BasicStroke(1); Stroke medium = new BasicStroke(3); Stroke thick = new BasicStroke(6); for (Genome genome : genomes) { Region best = model.getBestRegion(genome); if (best == null) { continue; } String bestc = best.getChrom(); int ostart = best.getStart(); int oend = best.getEnd(); java.util.List<MultiZAlignRegion> alignedRegions = model.getAlignedRegions(genome); for (MultiZAlignRegion align : alignedRegions) { if (align.getOtherChrom().equals(bestc)) { g.setColor( cs.colorAt( hashPosPair( align.getStart(), align.getEnd(), align.getOtherStart(), align.getOtherEnd(), cs.colorCount()))); int rsx = getXPos(align.getStart(), rstart, rend, x1, x2); int osx = getXPos(align.getOtherStart(), ostart, oend, x1, x2); int rex = getXPos(align.getEnd(), rstart, rend, x1, x2); int oex = getXPos(align.getOtherEnd(), ostart, oend, x1, x2); g.setStroke(medium); if (myGenome == currentGenome) { g.drawLine(rsx, midY, rex, midY); g.drawLine(rsx, y1, rsx, y2); g.drawLine(rex, y1, rex, y2); addLabel(rsx, y1, rex - rsx, y2, align.toString()); } else { g.drawLine(osx, midY, oex, midY); g.drawLine(osx, y1, osx, y2); g.drawLine(oex, y1, oex, y2); addLabel(osx, y1, oex - osx, y2, align.toString()); } } } } g.setStroke(old); g.setColor(Color.BLACK); g.drawString(model.getAlignment(), x1 + 5, y2); }