+ this();
+ this.fromRatio = fromRatio;
+ this.toRatio = toRatio;
+ fromLowest = Integer.MAX_VALUE;
+ fromHighest = Integer.MIN_VALUE;
+ int added = 0;
+
+ for (int i = 0; i < from.length; i += 2)
+ {
+ /*
+ * note lowest and highest values - bearing in mind the
+ * direction may be reversed
+ */
+ fromLowest = Math.min(fromLowest, Math.min(from[i], from[i + 1]));
+ fromHighest = Math.max(fromHighest, Math.max(from[i], from[i + 1]));
+ if (added > 0 && from[i] == fromShifts.get(added - 1)[1])
+ {
+ /*
+ * this range starts where the last ended - just extend it
+ */
+ fromShifts.get(added - 1)[1] = from[i + 1];
+ }
+ else
+ {
+ fromShifts.add(new int[] { from[i], from[i + 1] });
+ added++;
+ }
+ }
+
+ toLowest = Integer.MAX_VALUE;
+ toHighest = Integer.MIN_VALUE;
+ added = 0;
+ for (int i = 0; i < to.length; i += 2)
+ {
+ toLowest = Math.min(toLowest, Math.min(to[i], to[i + 1]));
+ toHighest = Math.max(toHighest, Math.max(to[i], to[i + 1]));
+ if (added > 0 && to[i] == toShifts.get(added - 1)[1])
+ {
+ toShifts.get(added - 1)[1] = to[i + 1];
+ }
+ else
+ {
+ toShifts.add(new int[] { to[i], to[i + 1] });
+ added++;
+ }
+ }
+ }
+
+ /**
+ * Copy constructor. Creates an identical mapping.
+ *
+ * @param map
+ */
+ public MapList(MapList map)
+ {
+ this();
+ // TODO not used - remove?
+ this.fromLowest = map.fromLowest;
+ this.fromHighest = map.fromHighest;
+ this.toLowest = map.toLowest;
+ this.toHighest = map.toHighest;
+
+ this.fromRatio = map.fromRatio;
+ this.toRatio = map.toRatio;
+ if (map.fromShifts != null)
+ {
+ for (int[] r : map.fromShifts)
+ {
+ fromShifts.add(new int[] { r[0], r[1] });
+ }
+ }
+ if (map.toShifts != null)
+ {
+ for (int[] r : map.toShifts)
+ {
+ toShifts.add(new int[] { r[0], r[1] });
+ }
+ }
+ }
+
+ /**
+ * Constructor given ranges as lists of [start, end] positions. There is no
+ * validation check that the ranges do not overlap each other.
+ *
+ * @param fromRange
+ * @param toRange
+ * @param fromRatio
+ * @param toRatio
+ */
+ public MapList(List<int[]> fromRange, List<int[]> toRange, int fromRatio,
+ int toRatio)
+ {
+ this();
+ fromRange = coalesceRanges(fromRange);
+ toRange = coalesceRanges(toRange);
+ this.fromShifts = fromRange;
+ this.toShifts = toRange;
+ this.fromRatio = fromRatio;
+ this.toRatio = toRatio;
+
+ fromLowest = Integer.MAX_VALUE;
+ fromHighest = Integer.MIN_VALUE;
+ for (int[] range : fromRange)
+ {
+ fromLowest = Math.min(fromLowest, Math.min(range[0], range[1]));
+ fromHighest = Math.max(fromHighest, Math.max(range[0], range[1]));
+ }
+
+ toLowest = Integer.MAX_VALUE;
+ toHighest = Integer.MIN_VALUE;
+ for (int[] range : toRange)
+ {
+ toLowest = Math.min(toLowest, Math.min(range[0], range[1]));
+ toHighest = Math.max(toHighest, Math.max(range[0], range[1]));
+ }
+ }
+
+ /**
+ * Consolidates a list of ranges so that any contiguous ranges are merged.
+ * This assumes the ranges are already in start order (does not sort them).
+ *
+ * @param ranges
+ * @return the same list (if unchanged), else a new merged list, leaving the
+ * input list unchanged
+ */
+ public static List<int[]> coalesceRanges(final List<int[]> ranges)
+ {
+ if (ranges == null || ranges.size() < 2)
+ {
+ return ranges;
+ }
+
+ boolean changed = false;
+ List<int[]> merged = new ArrayList<int[]>();
+ int[] lastRange = ranges.get(0);
+ int lastDirection = lastRange[1] >= lastRange[0] ? 1 : -1;
+ lastRange = new int[] { lastRange[0], lastRange[1] };
+ merged.add(lastRange);
+ boolean first = true;
+
+ for (final int[] range : ranges)
+ {
+ if (first)
+ {
+ first = false;
+ continue;
+ }
+ if (range[0] == lastRange[0] && range[1] == lastRange[1])
+ {
+ // drop duplicate range
+ changed = true;
+ continue;
+ }
+
+ /*
+ * drop this range if it lies within the last range
+ */
+ if ((lastDirection == 1 && range[0] >= lastRange[0]
+ && range[0] <= lastRange[1] && range[1] >= lastRange[0]
+ && range[1] <= lastRange[1])
+ || (lastDirection == -1 && range[0] <= lastRange[0]
+ && range[0] >= lastRange[1]
+ && range[1] <= lastRange[0]
+ && range[1] >= lastRange[1]))
+ {
+ changed = true;
+ continue;
+ }
+
+ int direction = range[1] >= range[0] ? 1 : -1;
+
+ /*
+ * if next range is in the same direction as last and contiguous,
+ * just update the end position of the last range
+ */
+ boolean sameDirection = range[1] == range[0]
+ || direction == lastDirection;
+ boolean extending = range[0] == lastRange[1] + lastDirection;
+ boolean overlapping = (lastDirection == 1 && range[0] >= lastRange[0]
+ && range[0] <= lastRange[1])
+ || (lastDirection == -1 && range[0] <= lastRange[0]
+ && range[0] >= lastRange[1]);
+ if (sameDirection && (overlapping || extending))
+ {
+ lastRange[1] = range[1];
+ changed = true;
+ }
+ else
+ {
+ lastRange = new int[] { range[0], range[1] };
+ merged.add(lastRange);
+ // careful: merging [5, 5] after [7, 6] should keep negative direction
+ lastDirection = (range[1] == range[0]) ? lastDirection : direction;
+ }
+ }
+
+ return changed ? merged : ranges;