public static Range computeScale(List<Range> ranges) { float min = 0; float max = 0; if (ranges.size() > 0) { max = ranges.get(0).max; min = ranges.get(0).min; for (int i = 1; i < ranges.size(); i++) { Range r = ranges.get(i); max = Math.max(r.max, max); min = Math.min(r.min, min); } } return new Range(min, max); }
private void autoscaleGroup(List<Track> trackList) { List<ReferenceFrame> frames = FrameManager.isGeneListMode() ? FrameManager.getFrames() : Arrays.asList(FrameManager.getDefaultFrame()); List<Range> inViewRanges = new ArrayList<Range>(); synchronized (trackList) { for (Track track : trackList) { if (track instanceof ScalableTrack) { for (ReferenceFrame frame : frames) { Range range = ((ScalableTrack) track).getInViewRange(frame); if (range != null) { inViewRanges.add(range); } } } } if (inViewRanges.size() > 0) { Range inter = computeScale(inViewRanges); for (Track track : trackList) { DataRange dr = track.getDataRange(); float min = Math.min(0, inter.min); float base = Math.max(min, dr.getBaseline()); float max = inter.max; // Pathological case where min ~= max (no data in view) if (max - min <= (2 * Float.MIN_VALUE)) { max = min + 1; } DataRange newDR = new DataRange(min, base, max, dr.isDrawBaseline()); newDR.setType(dr.getType()); track.setDataRange(newDR); } } } }