import java.util.BitSet;
import org.junit.Assert;
+import org.testng.annotations.BeforeClass;
import org.testng.annotations.Test;
+import jalview.gui.JvOptionPane;
+
public class SearchResultsTest
{
- @Test(groups = { "Functional" })
- public void testToString()
+ @BeforeClass(alwaysRun = true)
+ public void setUpJvOptionPane()
{
- SequenceI seq = new Sequence("", "abcdefghijklm");
- SearchResultsI sr = new SearchResults();
- sr.addResult(seq, 1, 1);
- assertEquals("0a", sr.toString());
- sr.addResult(seq, 3, 5);
- assertEquals("0a2cde", sr.toString());
-
- seq = new Sequence("", "pqrstuvwxy");
- sr.addResult(seq, 6, 7);
- assertEquals("0a2cde5uv", sr.toString());
+ JvOptionPane.setInteractiveMode(false);
+ JvOptionPane.setMockResponse(JvOptionPane.CANCEL_OPTION);
}
@Test(groups = { "Functional" })
- public void testGetCharacters()
+ public void testToString()
{
- SequenceI seq = new Sequence("", "abcdefghijklm");
- SearchResults sr = new SearchResults();
+ SequenceI seq = new Sequence("Seq1", "abcdefghijklm");
+ SearchResultsI sr = new SearchResults();
sr.addResult(seq, 1, 1);
- assertEquals("a", sr.getCharacters());
+ assertEquals("[Seq1/1-1]", sr.toString());
sr.addResult(seq, 3, 5);
- assertEquals("acde", sr.getCharacters());
+ assertEquals("[Seq1/1-1, Seq1/3-5]", sr.toString());
- seq = new Sequence("", "pqrstuvwxy");
+ seq = new Sequence("Seq2", "pqrstuvwxy");
sr.addResult(seq, 6, 7);
- assertEquals("acdeuv", sr.getCharacters());
+ assertEquals("[Seq1/1-1, Seq1/3-5, Seq2/6-7]", sr.toString());
}
@Test(groups = { "Functional" })
assertTrue(sr2.equals(sr1)); // reflexive
/*
- * only one result is not empty
+ * if only one result is not empty
*/
sr1.addResult(seq1, 1, 1);
assertTrue(sr1.equals(sr1));
assertEquals(5, m.getEnd());
}
+ @Test(groups = { "Functional" })
+ public void testMatchContains()
+ {
+ SequenceI seq1 = new Sequence("", "abcdefghijklm");
+ SequenceI seq2 = new Sequence("", "abcdefghijklm");
+ SearchResultMatchI m = new SearchResults().new Match(seq1, 2, 5);
+
+ assertTrue(m.contains(seq1, 2, 5));
+ assertTrue(m.contains(seq1, 3, 5));
+ assertTrue(m.contains(seq1, 2, 4));
+ assertTrue(m.contains(seq1, 3, 3));
+
+ assertFalse(m.contains(seq1, 2, 6));
+ assertFalse(m.contains(seq1, 1, 5));
+ assertFalse(m.contains(seq1, 1, 8));
+ assertFalse(m.contains(seq2, 3, 3));
+ assertFalse(m.contains(null, 3, 3));
+ }
+
/**
* test markColumns for creating column selections
*/
assertEquals("Didn't mark expected number", 2, bs.cardinality());
assertEquals("Didn't return count of number of bits marked", 2, marked);
assertTrue("Didn't mark expected position (1)", bs.get(0));
- assertTrue("Didn't mark expected position (2)", bs.get(0));
+ assertTrue("Didn't mark expected position (2)", bs.get(1));
/*
* both seq1 and seq2
"Didn't set expected number of columns in total for two successive marks",
2, tbs.cardinality());
}
+
+ /**
+ * Test to verify adding doesn't create duplicate results
+ */
+ @Test(groups = { "Functional" })
+ public void testAddResult()
+ {
+ SequenceI seq1 = new Sequence("", "abcdefghijklm");
+ SearchResultsI sr = new SearchResults();
+ sr.addResult(seq1, 3, 5);
+ assertEquals(1, sr.getCount());
+ sr.addResult(seq1, 3, 5);
+ assertEquals(1, sr.getCount());
+ sr.addResult(seq1, 3, 6);
+ assertEquals(2, sr.getCount());
+ }
+
+ /**
+ * Test for method that checks if search results matches a sequence region
+ */
+ @Test(groups = { "Functional" })
+ public void testInvolvesSequence()
+ {
+ SequenceI dataset = new Sequence("genome", "ATGGCCCTTTAAGCAACATTT");
+ // first 'exon':
+ SequenceI cds1 = new Sequence("cds1/1-12", "ATGGCCCTTTAA");
+ cds1.setDatasetSequence(dataset);
+ // overlapping second 'exon':
+ SequenceI cds2 = new Sequence("cds2/7-18", "CTTTAAGCAACA");
+ cds2.setDatasetSequence(dataset);
+ // unrelated sequence
+ SequenceI cds3 = new Sequence("cds3", "ATGGCCCTTTAAGCAACA");
+
+ SearchResults sr = new SearchResults();
+ assertFalse(sr.involvesSequence(cds1));
+
+ /*
+ * cds1 and cds2 share the same dataset sequence, but
+ * only cds1 overlaps match 4:6 (fixes bug JAL-3613)
+ */
+ sr.addResult(dataset, 4, 6);
+ assertTrue(sr.involvesSequence(cds1));
+ assertFalse(sr.involvesSequence(cds2));
+ assertFalse(sr.involvesSequence(cds3));
+
+ /*
+ * search results overlap cds2 only
+ */
+ sr = new SearchResults();
+ sr.addResult(dataset, 18, 18);
+ assertFalse(sr.involvesSequence(cds1));
+ assertTrue(sr.involvesSequence(cds2));
+
+ /*
+ * add a search result overlapping cds1
+ */
+ sr.addResult(dataset, 1, 1);
+ assertTrue(sr.involvesSequence(cds1));
+ assertTrue(sr.involvesSequence(cds2));
+
+ /*
+ * single search result overlapping both
+ */
+ sr = new SearchResults();
+ sr.addResult(dataset, 10, 12);
+ assertTrue(sr.involvesSequence(cds1));
+ assertTrue(sr.involvesSequence(cds2));
+
+ /*
+ * search results matching aligned sequence
+ */
+ sr = new SearchResults();
+ sr.addResult(cds1, 10, 12);
+ assertTrue(sr.involvesSequence(cds1));
+ assertFalse(sr.involvesSequence(cds2));
+ sr.addResult(cds2, 1, 3); // no start-end overlap
+ assertFalse(sr.involvesSequence(cds2));
+ sr.addResult(cds2, 7, 9); // start-end overlap
+ assertTrue(sr.involvesSequence(cds2));
+ }
}