+ return null;
+ }
+ }
+
+ return new MapList(getFromRanges(), toRanges, outFromRatio, outToRatio);
+ }
+
+ /**
+ * Answers true if the mapping is from one contiguous range to another, else
+ * false
+ *
+ * @return
+ */
+ public boolean isContiguous()
+ {
+ return fromShifts.size() == 1 && toShifts.size() == 1;
+ }
+
+ /**
+ * <<<<<<< HEAD Returns the [start1, end1, start2, end2, ...] positions in the
+ * 'from' range that map to positions between {@code start} and {@code end} in
+ * the 'to' range. Note that for a reverse strand mapping this will return
+ * ranges with end < start. Returns null if no mapped positions are found in
+ * start-end.
+ *
+ * @param start
+ * @param end
+ * @return
+ */
+ public int[] locateInFrom(int start, int end)
+ {
+ return mapPositions(start, end, toShifts, fromShifts, toRatio,
+ fromRatio);
+ }
+
+ /**
+ * Returns the [start1, end1, start2, end2, ...] positions in the 'to' range
+ * that map to positions between {@code start} and {@code end} in the 'from'
+ * range. Note that for a reverse strand mapping this will return ranges with
+ * end < start. Returns null if no mapped positions are found in start-end.
+ *
+ * @param start
+ * @param end
+ * @return
+ */
+ public int[] locateInTo(int start, int end)
+ {
+ return mapPositions(start, end, fromShifts, toShifts, fromRatio,
+ toRatio);
+ }
+
+ /**
+ * Helper method that returns the [start1, end1, start2, end2, ...] positions
+ * in {@code targetRange} that map to positions between {@code start} and
+ * {@code end} in {@code sourceRange}. Note that for a reverse strand mapping
+ * this will return ranges with end < start. Returns null if no mapped
+ * positions are found in start-end.
+ *
+ * @param start
+ * @param end
+ * @param sourceRange
+ * @param targetRange
+ * @param sourceWordLength
+ * @param targetWordLength
+ * @return
+ */
+ final static int[] mapPositions(int start, int end,
+ List<int[]> sourceRange, List<int[]> targetRange,
+ int sourceWordLength, int targetWordLength)
+ {
+ if (end < start)
+ {
+ int tmp = end;
+ end = start;
+ start = tmp;
+ }
+
+ /*
+ * traverse sourceRange and mark offsets in targetRange
+ * of any positions that lie in [start, end]
+ */
+ BitSet offsets = getMappedOffsetsForPositions(start, end, sourceRange,
+ sourceWordLength, targetWordLength);
+
+ /*
+ * traverse targetRange and collect positions at the marked offsets
+ */
+ List<int[]> mapped = getPositionsForOffsets(targetRange, offsets);
+
+ // TODO: or just return the List and adjust calling code to match
+ return mapped.isEmpty() ? null : MappingUtils.rangeListToArray(mapped);
+ }
+
+ /**
+ * Scans the list of {@code ranges} for any values (positions) that lie
+ * between start and end (inclusive), and records the <em>offsets</em> from
+ * the start of the list as a BitSet. The offset positions are converted to
+ * corresponding words in blocks of {@code wordLength2}.
+ *
+ * <pre>
+ * For example:
+ * 1:1 (e.g. gene to CDS):
+ * ranges { [10-20], [31-40] }, wordLengthFrom = wordLength 2 = 1
+ * for start = 1, end = 9, returns a BitSet with no bits set
+ * for start = 1, end = 11, returns a BitSet with bits 0-1 set
+ * for start = 15, end = 35, returns a BitSet with bits 5-15 set
+ * 1:3 (peptide to codon):
+ * ranges { [1-200] }, wordLengthFrom = 1, wordLength 2 = 3
+ * for start = 9, end = 9, returns a BitSet with bits 24-26 set
+ * 3:1 (codon to peptide):
+ * ranges { [101-150], [171-180] }, wordLengthFrom = 3, wordLength 2 = 1
+ * for start = 101, end = 102 (partial first codon), returns a BitSet with bit 0 set
+ * for start = 150, end = 171 (partial 17th codon), returns a BitSet with bit 16 set
+ * 3:1 (circular DNA to peptide):
+ * ranges { [101-150], [21-30] }, wordLengthFrom = 3, wordLength 2 = 1
+ * for start = 24, end = 40 (spans codons 18-20), returns a BitSet with bits 17-19 set
+ * </pre>
+ *
+ * @param start
+ * @param end
+ * @param sourceRange
+ * @param sourceWordLength
+ * @param targetWordLength
+ * @return
+ */
+ protected final static BitSet getMappedOffsetsForPositions(int start,
+ int end, List<int[]> sourceRange, int sourceWordLength,
+ int targetWordLength)
+ {
+ BitSet overlaps = new BitSet();
+ int offset = 0;
+ final int s1 = sourceRange.size();
+ for (int i = 0; i < s1; i++)
+ {
+ int[] range = sourceRange.get(i);
+ final int offset1 = offset;
+ int overlapStartOffset = -1;
+ int overlapEndOffset = -1;
+
+ if (range[1] >= range[0])
+ {
+ /*
+ * forward direction range
+ */
+ if (start <= range[1] && end >= range[0])
+ {
+ /*
+ * overlap
+ */
+ int overlapStart = Math.max(start, range[0]);
+ overlapStartOffset = offset1 + overlapStart - range[0];
+ int overlapEnd = Math.min(end, range[1]);
+ overlapEndOffset = offset1 + overlapEnd - range[0];
+ }