public class SequenceTest
{
-
@BeforeClass(alwaysRun = true)
public void setUpJvOptionPane()
{
assertEquals(0, sq.findIndex(2));
}
+ @Test(groups = { "Functional" })
+ public void testFindPositions()
+ {
+ SequenceI sq = new Sequence("test/8-13", "-ABC---DE-F--");
+
+ /*
+ * invalid inputs
+ */
+ assertNull(sq.findPositions(6, 5));
+ assertNull(sq.findPositions(0, 5));
+ assertNull(sq.findPositions(-1, 5));
+
+ /*
+ * all gapped ranges
+ */
+ assertNull(sq.findPositions(1, 1)); // 1-based columns
+ assertNull(sq.findPositions(5, 5));
+ assertNull(sq.findPositions(5, 6));
+ assertNull(sq.findPositions(5, 7));
+
+ /*
+ * all ungapped ranges
+ */
+ assertEquals(new Range(8, 8), sq.findPositions(2, 2)); // A
+ assertEquals(new Range(8, 9), sq.findPositions(2, 3)); // AB
+ assertEquals(new Range(8, 10), sq.findPositions(2, 4)); // ABC
+ assertEquals(new Range(9, 10), sq.findPositions(3, 4)); // BC
+
+ /*
+ * gap to ungapped range
+ */
+ assertEquals(new Range(8, 10), sq.findPositions(1, 4)); // ABC
+ assertEquals(new Range(11, 12), sq.findPositions(6, 9)); // DE
+
+ /*
+ * ungapped to gapped range
+ */
+ assertEquals(new Range(10, 10), sq.findPositions(4, 5)); // C
+ assertEquals(new Range(9, 13), sq.findPositions(3, 11)); // BCDEF
+
+ /*
+ * ungapped to ungapped enclosing gaps
+ */
+ assertEquals(new Range(10, 11), sq.findPositions(4, 8)); // CD
+ assertEquals(new Range(8, 13), sq.findPositions(2, 11)); // ABCDEF
+
+ /*
+ * gapped to gapped enclosing ungapped
+ */
+ assertEquals(new Range(8, 10), sq.findPositions(1, 5)); // ABC
+ assertEquals(new Range(11, 12), sq.findPositions(5, 10)); // DE
+ assertEquals(new Range(8, 13), sq.findPositions(1, 13)); // the lot
+ assertEquals(new Range(8, 13), sq.findPositions(1, 99));
+ }
+
/**
* Tests for the method that returns a dataset sequence position (start..) for
* an aligned column position (base 0).
assertEquals("test:Pos13:Col10:startCol3:endCol10:tok0",
PA.getValue(sq, "cursor").toString());
sq.sequenceChanged();
- assertEquals(12, sq.findPosition(8));
- cursor = (SequenceCursor) PA.getValue(sq, "cursor");
+ assertEquals(12, sq.findPosition(8)); // E12
// sequenceChanged() invalidates cursor.lastResidueColumn
cursor = (SequenceCursor) PA.getValue(sq, "cursor");
assertEquals("test:Pos12:Col9:startCol3:endCol0:tok1",
assertEquals(6, sq.getEnd());
assertNull(PA.getValue(sq, "datasetSequence"));
+ sq = new Sequence("test", "ABCDE");
+ sq.deleteChars(0, 3);
+ assertEquals("DE", sq.getSequenceAsString());
+ assertEquals(4, sq.getStart());
+ assertEquals(5, sq.getEnd());
+ assertNull(PA.getValue(sq, "datasetSequence"));
+
/*
* delete at end
*/
assertEquals(1, sq.getStart());
assertEquals(4, sq.getEnd());
assertNull(PA.getValue(sq, "datasetSequence"));
+
+ /*
+ * delete more positions than there are
+ */
+ sq = new Sequence("test/8-11", "ABCD");
+ sq.deleteChars(0, 99);
+ assertEquals("", sq.getSequenceAsString());
+ assertEquals(12, sq.getStart()); // = findPosition(99) ?!?
+ assertEquals(11, sq.getEnd());
+
+ sq = new Sequence("test/8-11", "----");
+ sq.deleteChars(0, 99); // ArrayIndexOutOfBoundsException <= 2.10.2
+ assertEquals("", sq.getSequenceAsString());
+ assertEquals(8, sq.getStart());
+ assertEquals(11, sq.getEnd());
}
@Test(groups = { "Functional" })
// cursor should now be at [D 6]
cursor = (SequenceCursor) PA.getValue(sq, "cursor");
assertEquals(new SequenceCursor(sq, 11, 6, ++token), cursor);
+ assertEquals(0, cursor.lastColumnPosition); // not yet found
+ assertEquals(13, sq.findPosition(8)); // E13
+ cursor = (SequenceCursor) PA.getValue(sq, "cursor");
+ assertEquals(9, cursor.lastColumnPosition); // found
/*
* deleteChars should invalidate the cached cursor
}
@Test(groups = { "Functional" })
- public void testFindPositions()
- {
- SequenceI sq = new Sequence("test/8-13", "-ABC---DE-F--");
-
- /*
- * invalid inputs
- */
- assertNull(sq.findPositions(6, 5));
- assertNull(sq.findPositions(0, 5));
- assertNull(sq.findPositions(-1, 5));
-
- /*
- * all gapped ranges
- */
- assertNull(sq.findPositions(1, 1)); // 1-based columns
- assertNull(sq.findPositions(5, 5));
- assertNull(sq.findPositions(5, 6));
- assertNull(sq.findPositions(5, 7));
-
- /*
- * all ungapped ranges
- */
- assertEquals(new Range(8, 8), sq.findPositions(2, 2)); // A
- assertEquals(new Range(8, 9), sq.findPositions(2, 3)); // AB
- assertEquals(new Range(8, 10), sq.findPositions(2, 4)); // ABC
- assertEquals(new Range(9, 10), sq.findPositions(3, 4)); // BC
-
- /*
- * gap to ungapped range
- */
- assertEquals(new Range(8, 10), sq.findPositions(1, 4)); // ABC
- assertEquals(new Range(11, 12), sq.findPositions(6, 9)); // DE
-
- /*
- * ungapped to gapped range
- */
- assertEquals(new Range(10, 10), sq.findPositions(4, 5)); // C
- assertEquals(new Range(9, 13), sq.findPositions(3, 11)); // BCDEF
-
- /*
- * ungapped to ungapped enclosing gaps
- */
- assertEquals(new Range(10, 11), sq.findPositions(4, 8)); // CD
- assertEquals(new Range(8, 13), sq.findPositions(2, 11)); // ABCDEF
-
- /*
- * gapped to gapped enclosing ungapped
- */
- assertEquals(new Range(8, 10), sq.findPositions(1, 5)); // ABC
- assertEquals(new Range(11, 12), sq.findPositions(5, 10)); // DE
- assertEquals(new Range(8, 13), sq.findPositions(1, 13)); // the lot
- assertEquals(new Range(8, 13), sq.findPositions(1, 99));
- }
-
- @Test(groups = { "Functional" })
public void testGapBitset()
{
SequenceI sq = new Sequence("test/8-13", "-ABC---DE-F--");