// ReSharper disable once UnusedMember.Global public bool HasVariants(string chromosomeName, int begin, int end) { var refSeq = _index.GetTabixReferenceSequence(chromosomeName); if (refSeq == null) { return(false); } int adjBegin = SearchUtilities.AdjustBegin(begin); IEnumerable <int> bins = BinUtilities.OverlappingBinsWithVariants(adjBegin, end, refSeq.IdToChunks); var block = new BgzfBlock(); foreach (int bin in bins) { refSeq.IdToChunks.TryGetValue(bin, out Interval[] chunks); if (HasVariantsInBin(refSeq.Chromosome, begin, end, block, chunks)) { return(true); } } return(false); }
public bool HasVariants(string chromosomeName, int begin, int end) { var refSeq = _index.GetTabixReferenceSequence(chromosomeName); if (refSeq == null) { return(false); } int adjBegin = SearchUtilities.AdjustBegin(begin); int beginBin = BinUtilities.ConvertPositionToBin(adjBegin); int endBin = BinUtilities.ConvertPositionToBin(end); int binDiff = endBin - beginBin; // we can use the tabix index to investigate if any of the internal bins have variants if (binDiff >= 2) { bool hasInternalVariants = HasVariantsInAnyBins(refSeq.IdToChunks, beginBin + 1, endBin - 1); if (hasInternalVariants) { return(true); } } // finally we have to check the remaining (edge) bins var block = new BgzfBlock(); refSeq.IdToChunks.TryGetValue(beginBin, out var beginChunks); refSeq.IdToChunks.TryGetValue(endBin, out var endChunks); return(HasVariantsInBin(refSeq.Chromosome, begin, end, block, beginChunks) || HasVariantsInBin(refSeq.Chromosome, begin, end, block, endChunks)); }
private bool HasVariantsInBin(IChromosome chromosome, int begin, int end, BgzfBlock block, Interval[] intervals) { (long minVirtualOffset, long maxVirtualOffset) = SearchUtilities.GetMinMaxVirtualFileOffset(intervals); long minOffset = VirtualPosition.From(minVirtualOffset).FileOffset; long maxOffset = VirtualPosition.From(maxVirtualOffset).FileOffset; return(BgzfBlockVcfReader.FindVariantsInBlocks(_vcfStream, minOffset, maxOffset, block, chromosome, begin, end)); }