Java Code Examples for htsjdk.variant.variantcontext.Genotype#getPL()
The following examples show how to use
htsjdk.variant.variantcontext.Genotype#getPL() .
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Example 1
Source File: XHMMSegmentGenotyperIntegrationTest.java From gatk-protected with BSD 3-Clause "New" or "Revised" License | 6 votes |
private void assertVariantsPlGtAndGQAreConsistent(final List<VariantContext> variants) { for (final VariantContext vc :variants) { for (final Genotype gt : vc.getGenotypes()) { final int[] PL = gt.getPL(); Assert.assertNotNull(PL); final int[] twoLowestPLIndices = IntStream.range(0, PL.length) .boxed() .sorted((a, b) -> Integer.compare(PL[a], PL[b])) .limit(2) .mapToInt(n -> n) .toArray(); final int minPLIndex = twoLowestPLIndices[0]; final int secondPLIndex = twoLowestPLIndices[1]; Assert.assertEquals(vc.getAlleles().indexOf(gt.getAlleles().get(0)), minPLIndex); final int expectedGQ = Math.min(XHMMSegmentGenotyper.MAX_GQ, PL[secondPLIndex] - PL[minPLIndex]); Assert.assertEquals(gt.getGQ(), expectedGQ); } } }
Example 2
Source File: EvaluateCopyNumberTriStateCalls.java From gatk-protected with BSD 3-Clause "New" or "Revised" License | 5 votes |
private Genotype composeNonTruthOverlappingGenotype(final VariantContext enclosingContext, final Genotype genotype) { final GenotypeBuilder builder = new GenotypeBuilder(genotype.getSampleName()); if (genotype.isCalled()) { GATKProtectedVariantContextUtils.setGenotypeQualityFromPLs(builder, genotype); final int[] PL = genotype.getPL(); final int callAlleleIndex = GATKProtectedMathUtils.minIndex(PL); final double quality = callQuality(genotype); builder.alleles(Collections.singletonList(enclosingContext.getAlleles().get(callAlleleIndex))); builder.attribute(VariantEvaluationContext.CALL_QUALITY_KEY, quality); final boolean discovered = XHMMSegmentGenotyper.DISCOVERY_TRUE.equals( GATKProtectedVariantContextUtils.getAttributeAsString(genotype, XHMMSegmentGenotyper.DISCOVERY_KEY, XHMMSegmentGenotyper.DISCOVERY_FALSE)); if (callAlleleIndex != 0 && discovered) { builder.attribute(VariantEvaluationContext.EVALUATION_CLASS_KEY, EvaluationClass.UNKNOWN_POSITIVE.acronym); } if (quality < filterArguments.minimumCalledSegmentQuality) { builder.filter(EvaluationFilter.LowQuality.acronym); } else { builder.filter(EvaluationFilter.PASS); } } else { /* assume it is REF */ /* TODO this is a hack to make Andrey's CODEX vcf work; and in general, VCFs that only include discovered * variants and NO_CALL (".") on other samples. The idea is to force the evaluation tool to take it call * as REF on all other samples. Otherwise, the effective allele frequency of the variant will be erroneously * high and will be filtered. */ builder.alleles(Collections.singletonList(CopyNumberTriStateAllele.REF)); builder.attribute(VariantEvaluationContext.CALL_QUALITY_KEY, 100000); builder.filter(EvaluationFilter.PASS); } return builder.make(); }
Example 3
Source File: XHMMSegmentGenotyperIntegrationTest.java From gatk-protected with BSD 3-Clause "New" or "Revised" License | 5 votes |
private void assertVariantSegmentsAreCovered(final List<VariantContext> variants, final List<HiddenStateSegmentRecord<CopyNumberTriState, Target>> variantSegments) { for (final HiddenStateSegmentRecord<CopyNumberTriState, Target> variantSegment : variantSegments) { final Optional<VariantContext> match = variants.stream() .filter(vc -> new SimpleInterval(vc).equals(variantSegment.getSegment().getInterval())) .findFirst(); Assert.assertTrue(match.isPresent()); final VariantContext matchedVariant = match.get(); final Genotype genotype = matchedVariant.getGenotype(variantSegment.getSampleName()); final String discovery = genotype.getAnyAttribute(XHMMSegmentGenotyper.DISCOVERY_KEY).toString(); Assert.assertTrue(discovery.equals(XHMMSegmentGenotyper.DISCOVERY_TRUE)); final CopyNumberTriState call = variantSegment.getSegment().getCall(); final List<Allele> gt = genotype.getAlleles(); Assert.assertEquals(gt.size(), 1); // The call may not be the same for case where the event-quality is relatively low. if (variantSegment.getSegment().getEventQuality() > 10) { Assert.assertEquals(CopyNumberTriStateAllele.valueOf(gt.get(0)).state, call, genotype.toString()); } final String[] SQ = genotype.getAnyAttribute(XHMMSegmentGenotyper.SOME_QUALITY_KEY).toString().split(VCFConstants.INFO_FIELD_ARRAY_SEPARATOR); final double someQual = variantSegment.getSegment().getSomeQuality(); Assert.assertEquals(Double.parseDouble(SQ[call == CopyNumberTriState.DELETION ? 0 : 1]), someQual, XHMMSegmentGenotyper.PHRED_SCORE_PRECISION, variantSegment.getSampleName() + " => " + genotype.toString()); final String[] LQ = genotype.getAnyAttribute(XHMMSegmentGenotyper.START_QUALITY_KEY).toString().split(VCFConstants.INFO_FIELD_ARRAY_SEPARATOR); final double startQuality = variantSegment.getSegment().getStartQuality(); Assert.assertEquals(Double.parseDouble(LQ[call == CopyNumberTriState.DELETION ? 0 : 1]), startQuality, XHMMSegmentGenotyper.PHRED_SCORE_PRECISION, variantSegment.getSampleName() + " => " + genotype.toString()); final String[] RQ = genotype.getAnyAttribute(XHMMSegmentGenotyper.END_QUALITY_KEY).toString().split(VCFConstants.INFO_FIELD_ARRAY_SEPARATOR); final double endQuality = variantSegment.getSegment().getEndQuality(); Assert.assertEquals(Double.parseDouble(RQ[call == CopyNumberTriState.DELETION ? 0 : 1]), endQuality, XHMMSegmentGenotyper.PHRED_SCORE_PRECISION, variantSegment.getSampleName() + " => " + genotype.toString()); // Check the PL. final int[] PL = genotype.getPL(); final int observedGQFromPL = Math.min(XHMMSegmentGenotyper.MAX_GQ, PL[CopyNumberTriStateAllele.REF.index()] - PL[CopyNumberTriStateAllele.valueOf(call).index()]); final double expectedCallPL = GATKProtectedMathUtils.roundPhred(QualityUtils.phredScaleErrorRate(QualityUtils.qualToProb(variantSegment.getSegment().getExactQuality())), HMMPostProcessor.PHRED_SCORE_PRECISION); final double expectedRefPL = GATKProtectedMathUtils.roundPhred(QualityUtils.phredScaleCorrectRate(QualityUtils.qualToProb(variantSegment.getSegment().getEventQuality())), HMMPostProcessor.PHRED_SCORE_PRECISION); final int expectedGQFromPL = Math.min(XHMMSegmentGenotyper.MAX_GQ, (int) Math.round(expectedRefPL - expectedCallPL)); Assert.assertTrue(Math.abs(observedGQFromPL - expectedGQFromPL) <= 1, genotype.toString() + " " + variantSegment.getSegment().getEventQuality()); } }
Example 4
Source File: GVCFBlockCombiner.java From gatk with BSD 3-Clause "New" or "Revised" License | 5 votes |
boolean genotypeCanBeMergedInCurrentBlock(final Genotype g) { final HomRefBlock currentHomRefBlock = (HomRefBlock)currentBlock; return currentHomRefBlock != null && currentHomRefBlock.withinBounds(Math.min(g.getGQ(), MAX_GENOTYPE_QUAL)) && currentHomRefBlock.getPloidy() == g.getPloidy() && (currentHomRefBlock.getMinPLs() == null || !g.hasPL() || (currentHomRefBlock.getMinPLs().length == g.getPL().length)); }
Example 5
Source File: VariantContextTestUtils.java From gatk with BSD 3-Clause "New" or "Revised" License | 5 votes |
public static Genotype makeGwithPLs(final String sample, final Allele a1, final Allele a2, final double[] pls) { final Genotype gt = new GenotypeBuilder(sample, Arrays.asList(a1, a2)).PL(pls).make(); if ( pls != null && pls.length > 0 ) { Assert.assertNotNull(gt.getPL()); Assert.assertTrue(gt.getPL().length > 0); for ( final int i : gt.getPL() ) { Assert.assertTrue(i >= 0); } Assert.assertNotEquals(Arrays.toString(gt.getPL()),"[0]"); } return gt; }
Example 6
Source File: EvaluateCopyNumberTriStateCallsIntegrationTest.java From gatk-protected with BSD 3-Clause "New" or "Revised" License | 4 votes |
private double callGQ(final Genotype callGenotype) { final int[] pls = callGenotype.getPL(); final int[] twoBestPLs = Arrays.stream(pls).sorted().limit(2).toArray(); return twoBestPLs[1] - twoBestPLs[0]; }
Example 7
Source File: LiftoverUtils.java From picard with MIT License | 4 votes |
/** * method to swap the reference and alt alleles of a bi-allelic, SNP * * @param vc the {@link VariantContext} (bi-allelic SNP) that needs to have it's REF and ALT alleles swapped. * @param annotationsToReverse INFO field annotations (of double value) that will be reversed (x->1-x) * @param annotationsToDrop INFO field annotations that will be dropped from the result since they are invalid when REF and ALT are swapped * @return a new {@link VariantContext} with alleles swapped, INFO fields modified and in the genotypes, GT, AD and PL corrected appropriately */ public static VariantContext swapRefAlt(final VariantContext vc, final Collection<String> annotationsToReverse, final Collection<String> annotationsToDrop) { if (!vc.isBiallelic() || !vc.isSNP()) { throw new IllegalArgumentException("swapRefAlt can only process biallelic, SNPS, found " + vc.toString()); } final VariantContextBuilder swappedBuilder = new VariantContextBuilder(vc); swappedBuilder.attribute(SWAPPED_ALLELES, true); // Use getBaseString() (rather than the Allele itself) in order to create new Alleles with swapped // reference and non-variant attributes swappedBuilder.alleles(Arrays.asList(vc.getAlleles().get(1).getBaseString(), vc.getAlleles().get(0).getBaseString())); final Map<Allele, Allele> alleleMap = new HashMap<>(); // A mapping from the old allele to the new allele, to be used when fixing the genotypes alleleMap.put(vc.getAlleles().get(0), swappedBuilder.getAlleles().get(1)); alleleMap.put(vc.getAlleles().get(1), swappedBuilder.getAlleles().get(0)); final GenotypesContext swappedGenotypes = GenotypesContext.create(vc.getGenotypes().size()); for (final Genotype genotype : vc.getGenotypes()) { final List<Allele> swappedAlleles = new ArrayList<>(); for (final Allele allele : genotype.getAlleles()) { if (allele.isNoCall()) { swappedAlleles.add(allele); } else { swappedAlleles.add(alleleMap.get(allele)); } } // Flip AD final GenotypeBuilder builder = new GenotypeBuilder(genotype).alleles(swappedAlleles); if (genotype.hasAD() && genotype.getAD().length == 2) { final int[] ad = ArrayUtils.clone(genotype.getAD()); ArrayUtils.reverse(ad); builder.AD(ad); } else { builder.noAD(); } //Flip PL if (genotype.hasPL() && genotype.getPL().length == 3) { final int[] pl = ArrayUtils.clone(genotype.getPL()); ArrayUtils.reverse(pl); builder.PL(pl); } else { builder.noPL(); } swappedGenotypes.add(builder.make()); } swappedBuilder.genotypes(swappedGenotypes); for (final String key : vc.getAttributes().keySet()) { if (annotationsToDrop.contains(key)) { swappedBuilder.rmAttribute(key); } else if (annotationsToReverse.contains(key) && !vc.getAttributeAsString(key, "").equals(VCFConstants.MISSING_VALUE_v4)) { final double attributeToReverse = vc.getAttributeAsDouble(key, -1); if (attributeToReverse < 0 || attributeToReverse > 1) { log.warn("Trying to reverse attribute " + key + " but found value that isn't between 0 and 1: (" + attributeToReverse + ") in variant " + vc + ". Results might be wrong."); } swappedBuilder.attribute(key, 1 - attributeToReverse); } } return swappedBuilder.make(); }
Example 8
Source File: HomRefBlock.java From gatk with BSD 3-Clause "New" or "Revised" License | 4 votes |
/** * Add a homRef block to the current block * * @param pos current genomic position * @param newEnd new calculated block end position * @param genotype A non-null Genotype with GQ and DP attributes */ @Override public void add(final int pos, final int newEnd, final Genotype genotype) { Utils.nonNull(genotype, "genotype cannot be null"); if ( ! genotype.hasPL() ) { throw new IllegalArgumentException("genotype must have PL field");} if ( pos != end + 1 ) { throw new IllegalArgumentException("adding genotype at pos " + pos + " isn't contiguous with previous end " + end); } if ( genotype.getPloidy() != ploidy) { throw new IllegalArgumentException("cannot add a genotype with a different ploidy: " + genotype.getPloidy() + " != " + ploidy); } // Make sure the GQ is within the bounds of this band. Treat GQs > 99 as 99. if ( !withinBounds(Math.min(genotype.getGQ(), VCFConstants.MAX_GENOTYPE_QUAL))) { throw new IllegalArgumentException("cannot add a genotype with GQ=" + genotype.getGQ() + " because it's not within bounds [" + this.getGQLowerBound() + ',' + this.getGQUpperBound() + ')'); } if( minPLs == null ) { minPLs = genotype.getPL(); } else { // otherwise take the min with the provided genotype's PLs final int[] pls = genotype.getPL(); if (pls.length != minPLs.length) { throw new GATKException("trying to merge different PL array sizes: " + pls.length + " != " + minPLs.length); } for (int i = 0; i < pls.length; i++) { minPLs[i] = Math.min(minPLs[i], pls[i]); } } if( genotype.hasExtendedAttribute(GATKVCFConstants.PHRED_SCALED_POSTERIORS_KEY)) { if (minPPs == null ) { minPPs = PosteriorProbabilitiesUtils.parsePosteriorsIntoPhredSpace(genotype); } else { // otherwise take the min with the provided genotype's PLs final int[] pps = PosteriorProbabilitiesUtils.parsePosteriorsIntoPhredSpace(genotype); if (pps.length != minPPs.length) { throw new GATKException("trying to merge different PP array sizes: " + pps.length + " != " + minPPs.length); } for (int i = 0; i < pps.length; i++) { minPPs[i] = Math.min(minPPs[i], pps[i]); } } } end = newEnd; DPs.add(Math.max(genotype.getDP(), 0)); // DP must be >= 0 }
Example 9
Source File: RMSMappingQuality.java From gatk with BSD 3-Clause "New" or "Revised" License | 4 votes |
private static boolean hasReferenceDepth(Genotype gt) { return gt.isHomRef() || (gt.isNoCall() && gt.hasPL() && gt.getPL()[0] == 0 && gt.getPL()[1] != 0); }