X-Git-Url: http://source.jalview.org/gitweb/?a=blobdiff_plain;f=test%2Fjalview%2Fdatamodel%2FSearchResultsTest.java;h=838b259ea0c93e1df519cfc9768b9d35e75428a2;hb=dcc68fa0a9fb37742db5a4352ff2be287cc7cae7;hp=19e89d2d199b3129392cdbff97e4d014cef5d200;hpb=1145ab823ba8ffd317754588efeb259d70c1f4a1;p=jalview.git diff --git a/test/jalview/datamodel/SearchResultsTest.java b/test/jalview/datamodel/SearchResultsTest.java index 19e89d2..838b259 100644 --- a/test/jalview/datamodel/SearchResultsTest.java +++ b/test/jalview/datamodel/SearchResultsTest.java @@ -28,11 +28,21 @@ import static org.testng.AssertJUnit.assertTrue; 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 { + @BeforeClass(alwaysRun = true) + public void setUpJvOptionPane() + { + JvOptionPane.setInteractiveMode(false); + JvOptionPane.setMockResponse(JvOptionPane.CANCEL_OPTION); + } + @Test(groups = { "Functional" }) public void testToString() { @@ -176,6 +186,25 @@ public class SearchResultsTest 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 */ @@ -258,4 +287,84 @@ public class SearchResultsTest "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)); + } }