@Test public void testProcessNextStart_OneResult() throws IOException { System.out.println("Tabix Test.. TWO RESULTS!"); // Example direct tabix query and the results... (note only the JSON will be returned by the // overlapPipe) // r0240560:tabix m102417$ tabix genes.tsv.bgz 17:41196312-41300000 // 17 41196312 41277500 // {"_type":"gene","_landmark":"17","_strand":"-","_minBP":41196312,"_maxBP":41277500,"gene":"BRCA1","gene_synonym":"BRCAI; BRCC1; BROVCA1; IRIS; PNCA4; PPP1R53; PSCP; RNF53","note":"breast cancer 1, early onset; Derived by automated computational analysis using gene prediction method: BestRefseq.","GeneID":"672","HGNC":"1100","HPRD":"00218","MIM":"113705"} // {"_type":"gene","_landmark":"17","_strand":"+","_minBP":41231278,"_maxBP":41231833,"gene":"RPL21P4","gene_synonym":"RPL21_58_1548","note":"ribosomal protein L21 pseudogene 4; Derived by automated computational analysis using gene prediction method: Curated Genomic.","pseudo":"","GeneID":"140660","HGNC":"17959"} // TODO find a query that returns exactly 1 row String query = "my\tfirst\tquery\t{\"_landmark\":\"17\",\"_minBP\":41196312,\"_maxBP\":41277500}"; // 2 // results List<History> result = new ArrayList<History>(); OverlapPipe op = new OverlapPipe(geneFile); Pipe<String, History> p2 = new Pipeline<String, History>(new HistoryInPipe(), op); p2.setStarts(Arrays.asList(query)); while (p2.hasNext()) { result.add(p2.next()); } // System.out.println("size="+result.size()); assertEquals(2, result.size()); // two result }
/** Test of processNextStart method, of class Overlap. */ @Test public void testProcessNextStart() throws IOException { System.out.println("Tabix Test!"); // Example direct tabix query and the results... (note only the JSON will be returned by the // overlapPipe) // r0240560:tabix m102417$ tabix genes.tsv.bgz 17:41196312-41300000 // 17 41196312 41277500 // {"_type":"gene","_landmark":"17","_strand":"-","_minBP":41196312,"_maxBP":41277500,"gene":"BRCA1","gene_synonym":"BRCAI; BRCC1; BROVCA1; IRIS; PNCA4; PPP1R53; PSCP; RNF53","note":"breast cancer 1, early onset; Derived by automated computational analysis using gene prediction method: BestRefseq.","GeneID":"672","HGNC":"1100","HPRD":"00218","MIM":"113705"} // 17 41231278 41231833 // {"_type":"gene","_landmark":"17","_strand":"+","_minBP":41231278,"_maxBP":41231833,"gene":"RPL21P4","gene_synonym":"RPL21_58_1548","note":"ribosomal protein L21 pseudogene 4; Derived by automated computational analysis using gene prediction method: Curated Genomic.","pseudo":"","GeneID":"140660","HGNC":"17959"} // 17 41277600 41297130 // {"_type":"gene","_landmark":"17","_strand":"+","_minBP":41277600,"_maxBP":41297130,"gene":"NBR2","gene_synonym":"NCRNA00192","note":"neighbor of BRCA1 gene 2 (non-protein coding); Derived by automated computational analysis using gene prediction method: BestRefseq.","GeneID":"10230","HGNC":"20691"} // 17 41286808 41287385 // {"_type":"gene","_landmark":"17","_strand":"+","_minBP":41286808,"_maxBP":41287385,"gene":"LOC100505873","note":"Derived by automated computational analysis using gene prediction method: GNOMON. Supporting evidence includes similarity to: 1 EST, 1 Protein","pseudo":"","GeneID":"100505873"} // 17 41296973 41297272 // {"_type":"gene","_landmark":"17","_strand":"+","_minBP":41296973,"_maxBP":41297272,"gene":"HMGN1P29","note":"high mobility group nucleosome binding domain 1 pseudogene 29; Derived by automated computational analysis using gene prediction method: Curated Genomic.","pseudo":"","GeneID":"100885865","HGNC":"39373"} // String query = // "my\tfirst\tquery\t{\"_landmark\":\"17\",\"_minBP\":41196312,\"_maxBP\":41277500}"; //1 // result String query2 = "my\tfirst\tquery\t{\"_landmark\":\"17\",\"_minBP\":41196312,\"_maxBP\":41300000}"; // 5 // results List<History> result = new ArrayList<History>(); OverlapPipe op = new OverlapPipe(geneFile); Pipe<String, History> p2 = new Pipeline<String, History>(new HistoryInPipe(), op); p2.setStarts(Arrays.asList(query2)); while (p2.hasNext()) { result.add(p2.next()); } assertEquals(5, result.size()); // 5 rows returned // System.out.println(result.get(4)); //5 rows returned }
@Test public void testBRCA1DOWN() throws IOException { System.out.println("Get the genes down-chromosome and including BRCA1"); String[] paths = {"gene"}; String query = "x\ty\tz\t" + BRCA1; OverlapPipe op = new OverlapPipe(geneFile, 0, 19772); Pipe p = new Pipeline(new HistoryInPipe(), op, new DrillPipe(false, paths), new PrintPipe()); p.setStarts(Arrays.asList(query)); for (int i = 1; p.hasNext(); i++) { History h = (History) p.next(); if (i == 1) { assertEquals("BRCA1", h.get(4)); } if (i == 2) { assertEquals("RPL21P4", h.get(4)); // gene overlaps BRCA1 so it is included } if (i == 3) { assertEquals("NBR2", h.get(4)); } if (i == 4) { assertEquals("LOC100505873", h.get(4)); } if (i == 5) { assertEquals("HMGN1P29", h.get(4)); } } }
@Test public void testGetCluster() throws IOException { System.out.println("Get all the genes around BRCA1"); String[] paths = {"gene"}; String query = "x\ty\tz\t{\"_landmark\":\"17\",\"_minBP\":41166622,\"_maxBP\":41297272}"; OverlapPipe op = new OverlapPipe(geneFile, 0, 0); Pipe p = new Pipeline(new HistoryInPipe(), op, new DrillPipe(false, paths), new PrintPipe()); p.setStarts(Arrays.asList(query)); for (int i = 1; p.hasNext(); i++) { History h = (History) p.next(); if (i == 1) { assertEquals("VAT1", h.get(4)); } if (i == 2) { assertEquals("RND2", h.get(4)); } if (i == 3) { assertEquals("BRCA1", h.get(4)); } if (i == 4) { assertEquals("RPL21P4", h.get(4)); } if (i == 5) { assertEquals("NBR2", h.get(4)); } if (i == 6) { assertEquals("LOC100505873", h.get(4)); } if (i == 7) { assertEquals("HMGN1P29", h.get(4)); } } }
// make sure to test zero results!!! @Test public void testProcessNextStart_ZeroResults() throws Exception { System.out.println("Tabix Test.. Zero Results!"); String query = "my\tfirst\tquery\t{\"_landmark\":\"17\",\"_minBP\":4,\"_maxBP\":41}"; // 1 result try { List<History> result = new ArrayList<History>(); OverlapPipe op = new OverlapPipe(geneFile); Pipe<String, History> p2 = new Pipeline<String, History>(new HistoryInPipe(), op); p2.setStarts(Arrays.asList(query)); // assertTrue(p.hasNext()==false); for (int i = 0; p2.hasNext(); i++) { p2.next(); } } catch (Exception e) { Assert.fail("INVALID QUERY... EXPECTED EXCEPTION!!!"); } }
/** * 1 49482 rs202079915 G A . . * RSPOS=49482;dbSNPBuildID=137;SSR=0;SAO=0;VP=050000000005000002000100;WGT=1;VC=SNV;ASP;OTHERK{"CHROM":"1","POS":"49482","ID":"rs202079915","REF":"G","ALT":"A","QUAL":".","FILTER":".","INFO":{"RSPOS":49482,"dbSNPBuildID":137,"SSR":0,"SAO":0,"VP":"050000000005000002000100","WGT":1,"VC":"SNV","ASP":true,"OTHERKG":true},"_id":"rs202079915","_type":"variant","_landmark":"1","_refAllele":"G","_altAlleles":["A"],"_minBP":49482,"_maxBP":49482} * {} */ @Test public void testProcessNextStart_ZeroResultsEmptyJson() throws Exception { System.out.println("Tabix Test.. Zero Results.. with Empty JSON!"); String query = "my\tfirst\tquery\t{\"_landmark\":\"1\",\"_minBP\":49482,\"_maxBP\":49482}"; // 1 result try { List<History> result = new ArrayList<History>(); OverlapPipe op = new OverlapPipe(geneFile); Pipe<String, History> p2 = new Pipeline<String, History>(new HistoryInPipe(), op); p2.setStarts(Arrays.asList(query)); // assertTrue(p.hasNext()==false); for (int i = 0; p2.hasNext(); i++) { result.add(p2.next()); } // System.out.println(result.size()); assertEquals("{}", result.get(4)); // EMPTY JSON as last element in the list } catch (Exception e) { // Assert.fail("INVALID QUERY... EXPECTED EXCEPTION!!!"); } }
public void testIdEdgePipeGraph() { Graph graph = TinkerGraphFactory.createTinkerGraph(); List<String> ids = Arrays.asList("9", "11", "12"); Pipe<String, Edge> pipe = new IdEdgePipe<String>(graph); pipe.setStarts(ids); int counter = 0; while (pipe.hasNext()) { Edge edge = pipe.next(); if (counter == 0) { assertEquals(edge.getId(), "9"); assertEquals(edge.getProperty("weight"), 0.4f); } else if (counter == 1) { assertEquals(edge.getId(), "11"); assertEquals(edge.getInVertex(), graph.getVertex("3")); } else if (counter == 2) { assertEquals(edge.getId(), "12"); assertEquals(edge.getLabel(), "created"); } else { throw new RuntimeException("Illegal state."); } counter++; } assertEquals(counter, 3); }
@Test public void extractSequencePipeline() throws IOException { System.out.println("Extract Sequence Pipeline Test."); Pipe p = new Pipeline(new HistoryInPipe(), new Bed2SequencePipe(tabixGenome)); p.setStarts(Arrays.asList(p1, p2, p3, p4, p5)); for (int i = 0; p.hasNext(); i++) { ArrayList al = (ArrayList) p.next(); if (i == 0) { assertEquals("G", al.get(3)); } if (i == 1) { assertEquals("G", al.get(3)); } if (i == 2) { assertEquals("T", al.get(3)); } if (i == 3) { assertEquals("C", al.get(3)); } if (i == 4) { assertEquals("G", al.get(3)); } } }