/** * Returns all supported sample rates. * * @return an array of sample rates, in Hertz, never <code>null</code>. */ public Integer[] getSampleRates() { final String rawValue = this.properties.get(DEVICE_SAMPLERATES); final String[] values = rawValue.split(",\\s*"); final SortedSet<Integer> result = new TreeSet<Integer>( NumberUtils.<Integer>createNumberComparator(false /* aSortAscending */)); for (String value : values) { result.add(Integer.valueOf(value.trim())); } return result.toArray(new Integer[result.size()]); }
/** * Collects the differentially expressed segments (segment pairs with the same start and end, but * one member of the pair has the LINE type while the other does not) from a given segmentation. * * @param seg * @param c1 * @param c2 * @return */ private Collection<DifferentialKey> differentialRegions(InputSegmentation seg, int c1, int c2) { ArrayList<DifferentialKey> keys = new ArrayList<DifferentialKey>(); // Get the ground-truth data, so we can assemble the region identifiers when // we've found the differentially expressed segments. InputData data = seg.input; Integer[] locations = data.locations(); String strand = data.strand(); String chrom = data.chrom(); // Most of the setup of this method is filtering and sorting the Segment objects, // so that we *only* consider the segments from the two given channels (c1, and c2) // and so that we consider them in order, so that we're not comparing segments // different parts of the input chunk. SortedSet<Segment> c1Segs = new TreeSet<Segment>(); SortedSet<Segment> c2Segs = new TreeSet<Segment>(); for (Segment s : seg.segments) { if (s.channel == c1) { c1Segs.add(s); } else if (s.channel == c2) { c2Segs.add(s); } } // These should now be in sorted order, given that we built them using the // SortedSet objects. Segment[] c1array = c1Segs.toArray(new Segment[0]); Segment[] c2array = c2Segs.toArray(new Segment[0]); // sanity check. if (c1array.length != c2array.length) { throw new IllegalArgumentException(); } for (int i = 0; i < c1array.length; i++) { Segment s1 = c1array[i], s2 = c2array[i]; // sanity check. if (!s1.start.equals(s2.start) || !s1.end.equals(s2.end)) { throw new IllegalArgumentException( String.format("%d,%d doesn't match %d,%d", s1.start, s1.end, s2.start, s2.end)); } // There are three conditions here: // (1) Neither of the segments is 'shared' // (2) The segments don't have the same type // (3) At least one of them is a line. if (!s1.shared && !s2.shared) { if (s1.segmentType.equals(Segment.LINE) || s2.segmentType.equals(Segment.LINE)) { boolean differential = false; // Remember: for any segment 's', s.start and s.end are *indices* // into the 'locations' array of the corresponding data chunk. DifferentialKey key = new DifferentialKey( new RegionKey(chrom, locations[s1.start], locations[s1.end], strand), s1, s2); if (s1.segmentType.equals(Segment.FLAT)) { differential = key.s2Expr() > key.s1Expr(); } else if (s2.segmentType.equals(Segment.FLAT)) { differential = key.s1Expr() > key.s2Expr(); } else { differential = Math.abs(key.diffExpr()) >= 0.5; } if (differential) { // If all conditions have been satisfied, then we build // the region identifier and save it in the list to be returned. keys.add(key); } } } } return keys; }