X-Git-Url: http://source.jalview.org/gitweb/?a=blobdiff_plain;f=test%2Fjalview%2Fext%2Fensembl%2FEnsemblSeqProxyTest.java;h=2d3948f80c9ede67d10e93b2c3a64eda5574886f;hb=3ea56b3730e5115138af264f5b5408104ebd9c20;hp=978316bf2cc8f118c3aa21cb975531f87477d52b;hpb=58c6b8248851792fa37db90c54d55f419a439cad;p=jalview.git diff --git a/test/jalview/ext/ensembl/EnsemblSeqProxyTest.java b/test/jalview/ext/ensembl/EnsemblSeqProxyTest.java index 978316b..2d3948f 100644 --- a/test/jalview/ext/ensembl/EnsemblSeqProxyTest.java +++ b/test/jalview/ext/ensembl/EnsemblSeqProxyTest.java @@ -1,53 +1,34 @@ package jalview.ext.ensembl; +import static org.testng.AssertJUnit.assertEquals; +import static org.testng.AssertJUnit.assertFalse; +import static org.testng.AssertJUnit.assertTrue; +import static org.testng.internal.junit.ArrayAsserts.assertArrayEquals; + import jalview.datamodel.Alignment; +import jalview.datamodel.SequenceFeature; import jalview.datamodel.SequenceI; -import jalview.ext.ensembl.SeqFetcher.EnsemblSeqType; import jalview.io.AppletFormatAdapter; import jalview.io.FastaFile; import jalview.io.FileParse; -import jalview.util.DBRefUtils; +import jalview.io.gff.SequenceOntologyFactory; +import jalview.io.gff.SequenceOntologyLite; import java.lang.reflect.Method; import java.util.Arrays; import org.testng.Assert; +import org.testng.annotations.AfterClass; +import org.testng.annotations.BeforeClass; import org.testng.annotations.DataProvider; import org.testng.annotations.Test; + public class EnsemblSeqProxyTest { - @Test - public void testCheckEnsembl() - { - SeqFetcher sf = new SeqFetcher(); - sf.setTestEnsemblStatus(true); - sf.setTesting(true); - Assert.assertTrue(sf.isEnsemblAvailable()); - sf.setTestEnsemblStatus(false); - Assert.assertFalse(sf.isEnsemblAvailable()); - } - - @Test(suiteName = "live") - public void testLiveCheckEnsembl() - { - SeqFetcher sf = new SeqFetcher(); - boolean isAvailable = sf.isEnsemblAvailable(); - System.out.println("Ensembl is " - + (isAvailable ? "UP!" : "DOWN ******************* BAD!")); - } - - @DataProvider(name = "ens_seqs") - public Object[][] createData(Method m) - { - System.out.println(m.getName()); - return allSeqs; - } - - public static Object[][] allSeqs = new Object[][] - { + private static final Object[][] allSeqs = new Object[][] { { - EnsemblSeqType.PROTEIN, + new EnsemblProtein(), "CCDS5863.1", ">CCDS5863.1\n" + "MAALSGGGGGGAEPGQALFNGDMEPEAGAGAGAAASSAADPAIPEEVWNIKQMIKLTQEH\n" @@ -64,7 +45,7 @@ public class EnsemblSeqProxyTest + "NRDQIIFMVGRGYLSPDLSKVRSNCPKAMKRLMAECLKKKRDERPLFPQILASIELLARS\n" + "LPKIHRSASEPSLNRAGFQTEDFSLYACASPKTPIQAGGYGAFPVH\n" }, { - EnsemblSeqType.TRANSCRIPT, + new EnsemblCdna(), "CCDS5863.1", ">CCDS5863.1\n" + "ATGGCGGCGCTGAGCGGTGGCGGTGGTGGCGGCGCGGAGCCGGGCCAGGCTCTGTTCAAC\n" @@ -107,7 +88,7 @@ public class EnsemblSeqProxyTest + "GAGGATTTTAGTCTATATGCTTGTGCTTCTCCAAAAACACCCATCCAGGCAGGGGGATAT\n" + "GGTGCGTTTCCTGTCCACTGA\n" }, { - EnsemblSeqType.PROTEIN, + new EnsemblProtein(), "ENSP00000288602", ">ENSP00000288602\n" + "MAALSGGGGGGAEPGQALFNGDMEPEAGAGAGAAASSAADPAIPEEVWNIKQMIKLTQEH\n" @@ -124,12 +105,31 @@ public class EnsemblSeqProxyTest + "NRDQIIFMVGRGYLSPDLSKVRSNCPKAMKRLMAECLKKKRDERPLFPQILASIELLARS\n" + "LPKIHRSASEPSLNRAGFQTEDFSLYACASPKTPIQAGGYGAFPVH" } }; + @BeforeClass(alwaysRun = true) + public void setUp() + { + SequenceOntologyFactory.setInstance(new SequenceOntologyLite()); + } + + @AfterClass(alwaysRun = true) + public void tearDown() + { + SequenceOntologyFactory.setInstance(null); + } + + @DataProvider(name = "ens_seqs") + public Object[][] createData(Method m) + { + System.out.println(m.getName()); + return allSeqs; + } + @Test(dataProvider = "ens_seqs", suiteName = "live") - public void testGetOneSeqs(EnsemblSeqType type, String sq, String fastasq) + public void testGetOneSeqs(EnsemblRestClient proxy, String sq, String fastasq) throws Exception { - SeqFetcher sf = new SeqFetcher(); - FileParse fp = sf.getSequenceReader(type, Arrays.asList(new String[] + FileParse fp = proxy.getSequenceReader(Arrays + .asList(new String[] { sq })); SequenceI[] sqs = new FastaFile(fp).getSeqsAsArray(); FastaFile trueRes = new FastaFile(fastasq, AppletFormatAdapter.PASTE); @@ -152,48 +152,105 @@ public class EnsemblSeqProxyTest "Sequences differ for " + tr.getName() + "\n" + "Exp:" + tr.getSequenceAsString() + "\n" + "Got:" + rseq[0].getSequenceAsString()); - + } } - @Test(dataProvider = "ens_seqs") - public void testRegexForProxy(EnsemblSeqType type, String sq, - String fastasq) throws Exception + @Test(groups = "Functional") + public void getGenomicRangesFromFeatures() { - EnsemblSeqProxy esq = new EnsemblProtein(); - Assert.assertTrue(esq.isValidReference(sq), - "Expected reference string " + sq + " to be valid for regex " - + esq.getAccessionValidator().toString()); - - Assert.assertEquals(sq, DBRefUtils.processQueryToAccessionFor(esq, sq), - "Regex for " + esq.getClass().toString() + " not correct."); + + } + + @Test(groups = "Functional") + public void testIsTranscriptIdentifier() + { + EnsemblSeqProxy testee = new EnsemblGene(); + assertFalse(testee.isTranscriptIdentifier(null)); + assertFalse(testee.isTranscriptIdentifier("")); + assertFalse(testee.isTranscriptIdentifier("ENSG00000012345")); + assertTrue(testee.isTranscriptIdentifier("ENST00000012345")); + assertTrue(testee.isTranscriptIdentifier("ENSMUST00000012345")); + assertFalse(testee.isTranscriptIdentifier("enst00000012345")); + assertFalse(testee.isTranscriptIdentifier("ENST000000123456")); + assertFalse(testee.isTranscriptIdentifier("ENST0000001234")); + } + + @Test(groups = "Functional") + public void testIsGeneIdentifier() + { + EnsemblSeqProxy testee = new EnsemblGene(); + assertFalse(testee.isGeneIdentifier(null)); + assertFalse(testee.isGeneIdentifier("")); + assertFalse(testee.isGeneIdentifier("ENST00000012345")); + assertTrue(testee.isGeneIdentifier("ENSG00000012345")); + assertTrue(testee.isGeneIdentifier("ENSMUSG00000012345")); + assertFalse(testee.isGeneIdentifier("ensg00000012345")); + assertFalse(testee.isGeneIdentifier("ENSG000000123456")); + assertFalse(testee.isGeneIdentifier("ENSG0000001234")); + } + + /** + * Test the method that appends a single allele's reverse complement to a + * string buffer + */ + @Test(groups = "Functional") + public void testReverseComplementAllele() + { + StringBuilder sb = new StringBuilder(); + EnsemblSeqProxy.reverseComplementAllele(sb, "G"); // comp=C + EnsemblSeqProxy.reverseComplementAllele(sb, "g"); // comp=c + EnsemblSeqProxy.reverseComplementAllele(sb, "C"); // comp=G + EnsemblSeqProxy.reverseComplementAllele(sb, "T"); // comp=A + EnsemblSeqProxy.reverseComplementAllele(sb, "A"); // comp=T + assertEquals("C,c,G,A,T", sb.toString()); + + sb = new StringBuilder(); + EnsemblSeqProxy.reverseComplementAllele(sb, "-GATt"); // revcomp=aATC- + EnsemblSeqProxy.reverseComplementAllele(sb, "hgmd_mutation"); + EnsemblSeqProxy.reverseComplementAllele(sb, "PhenCode_variation"); + assertEquals("aATC-,hgmd_mutation,PhenCode_variation", sb.toString()); + } + + /** + * Test the method that computes the reverse complement of the alleles in a + * sequence_variant feature + */ + @Test(groups = "Functional") + public void testReverseComplementAlleles() + { + String alleles = "C,G,-TAC,HGMD_MUTATION,gac"; + SequenceFeature sf = new SequenceFeature("sequence_variant", alleles, + 1, 2, 0f, null); + sf.setValue("alleles", alleles); + sf.setAttributes("x=y,z;alleles=" + alleles + ";a=b,c"); + + EnsemblSeqProxy.reverseComplementAlleles(sf); + String revcomp = "G,C,GTA-,HGMD_MUTATION,gtc"; + // verify description is updated with reverse complement + assertEquals(revcomp, sf.getDescription()); + // verify alleles attribute is updated with reverse complement + assertEquals(revcomp, sf.getValue("alleles")); + // verify attributes string is updated with reverse complement + assertEquals("x=y,z;alleles=" + revcomp + ";a=b,c", sf.getAttributes()); + } + + @Test(groups = "Functional") + public void testSortFeatures() + { + SequenceFeature sf1 = new SequenceFeature("", "", 10, 15, 0f, null); + SequenceFeature sf2 = new SequenceFeature("", "", 8, 12, 0f, null); + SequenceFeature sf3 = new SequenceFeature("", "", 8, 13, 0f, null); + SequenceFeature sf4 = new SequenceFeature("", "", 11, 11, 0f, null); + SequenceFeature[] sfs = new SequenceFeature[] { sf1, sf2, sf3, sf4 }; + + // sort by start position ascending (forward strand) + // sf2 and sf3 tie and should not be reordered by sorting + EnsemblSeqProxy.sortFeatures(sfs, true); + assertArrayEquals(new SequenceFeature[] { sf2, sf3, sf1, sf4 }, sfs); + + // sort by end position descending (reverse strand) + EnsemblSeqProxy.sortFeatures(sfs, false); + assertArrayEquals(new SequenceFeature[] { sf1, sf3, sf2, sf4 }, sfs); } - // TODO: - // sequence query with ENSG and anything other than a genomic type will yield - // sequences with different IDs which will - // break the post-processing stage where DBRefs are assigned to sequences. - // -> multiple_sequences = true is needed additional parameter - // http://rest.ensembl.org/sequence/id/ENSG00000157764?content-type=text/x-json;type=protein;multiple_sequences=true - // result with four transcripts, cds, cdna, and protein products. - // * - // features for ENG - - // http://rest.ensembl.org/overlap/id/ENSG00000157764?feature=cds&feature=exon&feature=transcript&content-type=text/x-gff3 - // transcript: gives locus, all transcript products with ENSG parents - // gene: give all ENSG on locus - // exon: all exon boundaries. CDS same info. - - // @Test(dataProvider = "ens_seqs", suiteName = "live") - // public void testGetOneSeqs(EnsemblSeqType type, String sq, String fastasq) - // throws Exception - // { - // - // { - // Assert.assertTrue(rseq[0].getDBRef() != null - // && rseq[0].getDBRef().length > 0, - // "No database references added to sequence by fetcher."); - // Assert.assertNotNull(DBRefUtils.searchRefs(rseq[0].getDBRef(), - // new DBRefEntry("ENSEMBL", null, sq)), - // "Could't find database references added to sequence by fetcher."); - // - // } } \ No newline at end of file