@Override public void initialize( AnnotatorCompatible walker, GenomeAnalysisEngine toolkit, Set<VCFHeaderLine> headerLines) { // Make sure that we actually have a valid SnpEff rod binding (just in case the user specified // -A SnpEff // without providing a SnpEff rod via --snpEffFile): if (!isValidRodBinding(walker.getSnpEffRodBinding())) { canAnnotate = false; return; } RodBinding<VariantContext> snpEffRodBinding = walker.getSnpEffRodBinding(); // Make sure that the SnpEff version number and command-line header lines are present in the VCF // header of // the SnpEff rod, and that the file was generated by a supported version of SnpEff: VCFHeader snpEffVCFHeader = GATKVCFUtils.getVCFHeadersFromRods(toolkit, Arrays.asList(snpEffRodBinding.getName())) .get(snpEffRodBinding.getName()); VCFHeaderLine snpEffVersionLine = snpEffVCFHeader.getOtherHeaderLine(SNPEFF_VCF_HEADER_VERSION_LINE_KEY); VCFHeaderLine snpEffCommandLine = snpEffVCFHeader.getOtherHeaderLine(SNPEFF_VCF_HEADER_COMMAND_LINE_KEY); if (!isValidSnpEffVersionAndCommandLine(snpEffVersionLine, snpEffCommandLine)) { canAnnotate = false; return; } // If everything looks ok, add the SnpEff version number and command-line header lines to the // header of the VCF output file, changing the key names so that our output file won't be // mistaken in the future for a SnpEff output file: headerLines.add( new VCFHeaderLine(OUTPUT_VCF_HEADER_VERSION_LINE_KEY, snpEffVersionLine.getValue())); headerLines.add( new VCFHeaderLine(OUTPUT_VCF_HEADER_COMMAND_LINE_KEY, snpEffCommandLine.getValue())); // Can only be called from VariantAnnotator if (!(walker instanceof VariantAnnotator)) { if (walker != null) logger.warn( "Annotation will not be calculated, must be called from VariantAnnotator, not " + walker.getClass().getName()); else logger.warn("Annotation will not be calculated, must be called from VariantAnnotator"); canAnnotate = false; return; } }
@Override public Map<String, Object> annotate( final RefMetaDataTracker tracker, final AnnotatorCompatible walker, final ReferenceContext ref, final Map<String, AlignmentContext> stratifiedContexts, final VariantContext vc, final Map<String, PerReadAlleleLikelihoodMap> stratifiedPerReadAlleleLikelihoodMap) { // Can only call from UnifiedGenotyper if (!(walker instanceof UnifiedGenotyper)) { if (!walkerIdentityCheckWarningLogged) { if (walker != null) logger.warn( "Annotation will not be calculated, must be called from UnifiedGenotyper, not " + walker.getClass().getName()); else logger.warn("Annotation will not be calculated, must be called from UnifiedGenotyper"); walkerIdentityCheckWarningLogged = true; } return null; } if (stratifiedContexts.isEmpty()) return null; // not meaningful when we're at an indel location: deletions that start at location N are by // definition called at the position N-1, and at position N-1 // there are no informative deletions in the pileup if (!vc.isSNP()) return null; int deletions = 0; int depth = 0; for (Map.Entry<String, AlignmentContext> sample : stratifiedContexts.entrySet()) { for (final PileupElement p : sample.getValue().getBasePileup()) { depth++; if (p.isDeletion()) deletions++; } } Map<String, Object> map = new HashMap<>(); map.put( getKeyNames().get(0), String.format("%.2f", depth == 0 ? 0.0 : (double) deletions / (double) depth)); return map; }
/** * Checks if the input data is appropriate * * @param annotation the input genotype annotation key name(s) * @param walker input walker * @param map input map for each read, holds underlying alleles represented by an aligned read, * and corresponding relative likelihood. * @param g input genotype * @param warningsLogged array that enforces the warning is logged once for each caller * @param logger logger specific for each caller * @return true if the walker is a HaplotypeCaller, the likelihood map is non-null and the * genotype is non-null and called, false otherwise * @throws IllegalArgumentException if annotation, walker, g, warningsLogged, or logger are null. * @throws ReviewedGATKException if the size of warningsLogged is less than 3. */ public static boolean isAppropriateInput( final String annotation, final AnnotatorCompatible walker, final PerReadAlleleLikelihoodMap map, final Genotype g, final boolean[] warningsLogged, final Logger logger) { if (annotation == null) { throw new IllegalArgumentException("The input annotation cannot be null"); } if (walker == null) { throw new IllegalArgumentException("The input walker cannot be null"); } if (g == null) { throw new IllegalArgumentException("The input genotype cannot be null"); } if (warningsLogged == null) { throw new IllegalArgumentException("The input warnings logged cannot be null"); } if (logger == null) { throw new IllegalArgumentException("The input logger cannot be null"); } if (warningsLogged.length < WARNINGS_LOGGED_SIZE) { throw new ReviewedGATKException( "Warnings logged array must have at least " + WARNINGS_LOGGED_SIZE + " elements, but has " + warningsLogged.length); } if (!(walker instanceof HaplotypeCaller) && !(walker instanceof MuTect2)) { if (!warningsLogged[0]) { logger.warn( annotation + ANNOTATION_HC_WARN_MSG + ", not " + walker.getClass().getSimpleName()); warningsLogged[0] = true; } return false; } if (map == null) { if (!warningsLogged[1]) { logger.warn( "Annotation will not be calculated, can only be used with likelihood based annotations in the HaplotypeCaller"); warningsLogged[1] = true; } return false; } if (!g.isCalled()) { if (!warningsLogged[2]) { logger.warn("Annotation will not be calculated, genotype is not called"); warningsLogged[2] = true; } return false; } return true; }