@DataProvider(name = "exonLookUpData") public Object[][] exonLookUpData() { final List<Object[]> result = new ArrayList<>(); for (int i = 0; i < nonOverlappingExomeIntervals.size(); i++) { result.add( new Object[] { nonOverlappingExomeIntervals.get(i), nonOverlappingExomeIntervals.get(i), i }); } for (int i = 0; i < nonOverlappingExomeIntervals.size(); i++) { final SimpleInterval interval = nonOverlappingExomeIntervals.get(i); result.add( new Object[] { new SimpleInterval(interval.getContig(), interval.getStart(), interval.getStart()), interval, i }); } for (int i = 0; i < nonOverlappingExomeIntervals.size(); i++) { final SimpleInterval interval = nonOverlappingExomeIntervals.get(i); result.add( new Object[] { new SimpleInterval(interval.getContig(), interval.getEnd(), interval.getEnd()), interval, i }); } for (int i = 1; i < nonOverlappingExomeIntervals.size(); i++) { final SimpleInterval previous = nonOverlappingExomeIntervals.get(i - 1); final SimpleInterval next = nonOverlappingExomeIntervals.get(i); final SimpleInterval query = previous.getContig().equals(next.getContig()) ? ExomeToolsTestUtils.createInterval( previous.getContig(), previous.getEnd() + 1, next.getStart() - 1) : ExomeToolsTestUtils.createInterval(next.getContig(), 1, next.getStart() - 1); result.add(new Object[] {query, null, -i - 1}); } return result.toArray(new Object[result.size()][]); }
/** * Target information string composer for the genomic coordinate part of the target. * * @param index the index of a target within the collection. * @param collection the containing target collection. * @return never {@code null}. */ private static String coordinateComposer( final int index, final TargetCollection<Target> collection) { final SimpleInterval location = collection.location(index); if (location == null) { return String.join(COLUMN_SEPARATOR, NO_VALUE_STRING, NO_VALUE_STRING, NO_VALUE_STRING); } else { return String.format( String.join(COLUMN_SEPARATOR, "%s", "%d", "%d"), location.getContig(), location.getStart(), location.getEnd()); } }
// returns all the intervals that overlap with the query. // (use the optimized version instead, unless you're testing it and need something to compare // against) protected ArrayList<T> getOverlappingIgnoringIndex(SimpleInterval query) { if (!contig.equals(query.getContig())) { // different contig, so we know no one'll overlap. return new ArrayList<T>(); } ArrayList<T> ret = new ArrayList<T>(); for (T v : vs) { // they are sorted by start location, so if this one starts too late // then all of the others will, too. if (v.getStart() > query.getEnd()) { break; } if (query.overlaps(v)) { ret.add(v); } } return ret; }
/** * Returns all the intervals that overlap with the query. The query doesn't *have* to be in the * same contig as the intervals we hold, but of course if it isn't you'll get an empty result. You * may modify the returned list. */ public ArrayList<T> getOverlapping(SimpleInterval query) { if (!contig.equals(query.getContig())) { // different contig, so we know no one'll overlap. return new ArrayList<T>(); } ArrayList<T> ret = new ArrayList<T>(); // use index to skip early non-overlapping entries. int idx = firstPotentiallyReaching(query.getStart()); if (idx < 0) { idx = 0; } for (; idx < vs.size(); idx++) { T v = vs.get(idx); // they are sorted by start location, so if this one starts too late // then all of the others will, too. if (v.getStart() > query.getEnd()) { break; } if (query.overlaps(v)) { ret.add(v); } } return ret; }
/** * Determines the stop of the expanded reference window, bounded if necessary by the contig. * * @param locus The locus to expand. * @param windowTrailingBases number of bases to attempt to expand relative to the locus end (>= * 0) * @return The end of the expanded window. */ private int calculateWindowStop(final SimpleInterval locus, final int windowTrailingBases) { final int sequenceLength = dataSource.getSequenceDictionary().getSequence(locus.getContig()).getSequenceLength(); return Math.min(locus.getEnd() + windowTrailingBases, sequenceLength); }
/** * Get the number of extra bases of context after the end of our interval, as configured by a call * to {@link #setWindow} or at construction time. * * <p>Actual number of bases may be less than originally requested if the interval is near a * contig boundary. * * @return number of extra bases of context after the end of our interval */ public int numWindowTrailingBases() { return window == null ? 0 : window.getEnd() - interval.getEnd(); }