currentAnnotation = new VariantAnnotation(); currentAnnotation.setChromosome(variantMap.get("chromosome")); currentAnnotation.setStart(Integer.valueOf(variantMap.get("start"))); currentAnnotation.setEnd(Integer.valueOf(variantMap.get("end"))); currentAnnotation.setReference(variantMap.get("reference"));
variantAnnotation.setStart(normalizedVariantList.get(i).getStart()); variantAnnotation.setReference(normalizedVariantList.get(i).getReference()); variantAnnotation.setAlternate(normalizedVariantList.get(i).getAlternate());
variantAnnotation.setStart(normalizedVariantList.get(i).getStart()); variantAnnotation.setReference(normalizedVariantList.get(i).getReference()); variantAnnotation.setAlternate(normalizedVariantList.get(i).getAlternate());
private void mergeAnnotation(VariantAnnotation destination, VariantAnnotation origin) { destination.setChromosome(origin.getChromosome()); destination.setStart(origin.getStart()); destination.setReference(origin.getReference()); destination.setAlternate(origin.getAlternate()); if (annotatorSet.contains("variation")) { destination.setId(origin.getId()); } if (annotatorSet.contains("consequenceType")) { destination.setDisplayConsequenceType(origin.getDisplayConsequenceType()); destination.setConsequenceTypes(origin.getConsequenceTypes()); } if (annotatorSet.contains("conservation")) { destination.setConservation(origin.getConservation()); } // destination.setGeneExpression(origin.getGeneExpression()); // destination.setGeneTraitAssociation(origin.getGeneTraitAssociation()); if (annotatorSet.contains("populationFrequencies")) { destination.setPopulationFrequencies(origin.getPopulationFrequencies()); } // destination.setGeneDrugInteraction(origin.getGeneDrugInteraction()); if (annotatorSet.contains("clinical")) { destination.setVariantTraitAssociation(origin.getVariantTraitAssociation()); } if (annotatorSet.contains("functionalScore")) { destination.setFunctionalScore(origin.getFunctionalScore()); } }
private void mergeAnnotation(VariantAnnotation destination, VariantAnnotation origin) { destination.setChromosome(origin.getChromosome()); destination.setStart(origin.getStart()); destination.setReference(origin.getReference()); destination.setAlternate(origin.getAlternate()); if (annotatorSet.contains("variation")) { destination.setId(origin.getId()); } if (annotatorSet.contains("consequenceType")) { destination.setDisplayConsequenceType(origin.getDisplayConsequenceType()); destination.setConsequenceTypes(origin.getConsequenceTypes()); } if (annotatorSet.contains("conservation")) { destination.setConservation(origin.getConservation()); } // destination.setGeneExpression(origin.getGeneExpression()); // destination.setGeneTraitAssociation(origin.getGeneTraitAssociation()); if (annotatorSet.contains("populationFrequencies")) { destination.setPopulationFrequencies(origin.getPopulationFrequencies()); } // destination.setGeneDrugInteraction(origin.getGeneDrugInteraction()); if (annotatorSet.contains("clinical")) { destination.setVariantTraitAssociation(origin.getVariantTraitAssociation()); } if (annotatorSet.contains("functionalScore")) { destination.setFunctionalScore(origin.getFunctionalScore()); } }
protected static VariantAnnotation newVariantAnnotation(Variant variant) { VariantAnnotation va; va = new VariantAnnotation(); va.setChromosome(variant.getChromosome()); va.setReference(variant.getReference()); va.setAlternate(variant.getAlternate()); va.setStart(variant.getStart()); va.setEnd(variant.getEnd()); return va; }
variantAnnotation.setStart(variant.getStart()); variantAnnotation.setEnd(variant.getEnd()); variantAnnotation.setAlternate(variant.getAlternate());
@Override public List<VariantAnnotation> annotate(List<Variant> variants) throws VariantAnnotatorException { if (fail) { throw new VariantAnnotatorException("Fail because reasons"); } return variants.stream().map(v -> { VariantAnnotation a = new VariantAnnotation(); a.setChromosome(v.getChromosome()); a.setStart(v.getStart()); a.setEnd(v.getEnd()); a.setReference(v.getReference()); a.setAlternate(v.getAlternate()); a.setId("an id -- " + key); ConsequenceType ct = new ConsequenceType(); ct.setGeneName("a gene"); ct.setSequenceOntologyTerms(Collections.emptyList()); ct.setExonOverlap(Collections.emptyList()); ct.setTranscriptAnnotationFlags(Collections.emptyList()); a.setConsequenceTypes(Collections.singletonList(ct)); a.setAdditionalAttributes( Collections.singletonMap(GROUP_NAME.key(), new AdditionalAttribute(Collections.singletonMap(VARIANT_ID.key(), v.toString())))); return a; }).collect(Collectors.toList()); }
private void mergeAnnotation(VariantAnnotation destination, VariantAnnotation origin) { if (origin != null) { destination.setId(origin.getId()); destination.setChromosome(origin.getChromosome()); destination.setStart(origin.getStart()); destination.setReference(origin.getReference()); destination.setAlternate(origin.getAlternate()); destination.setDisplayConsequenceType(origin.getDisplayConsequenceType()); destination.setConsequenceTypes(origin.getConsequenceTypes()); destination.setConservation(origin.getConservation()); destination.setGeneExpression(origin.getGeneExpression()); destination.setGeneTraitAssociation(origin.getGeneTraitAssociation()); destination.setGeneDrugInteraction(origin.getGeneDrugInteraction()); destination.setVariantTraitAssociation(origin.getVariantTraitAssociation()); destination.setFunctionalScore(origin.getFunctionalScore()); } }