use of org.broadinstitute.hellbender.utils.Nucleotide in project gatk by broadinstitute.
the class AllelicCountCollector method collect.
/**
* Returns an {@link AllelicCountCollection} based on the pileup at sites (specified by an interval list)
* in a sorted BAM file. Reads and bases below the specified mapping quality and base quality, respectively,
* are filtered out of the pileup. The alt count is defined as the total count minus the ref count, and the
* alt nucleotide is defined as the non-ref base with the highest count, with ties broken by the order of the
* bases in {@link AllelicCountCollector#BASES}.
* @param bamFile sorted BAM file
* @param siteIntervals interval list of sites
* @param minMappingQuality minimum mapping quality required for reads to be included in pileup
* @param minBaseQuality minimum base quality required for bases to be included in pileup
* @return AllelicCountCollection of ref/alt counts at sites in BAM file
*/
public AllelicCountCollection collect(final File bamFile, final IntervalList siteIntervals, final int minMappingQuality, final int minBaseQuality) {
try (final SamReader reader = readerFactory.open(bamFile)) {
ParamUtils.isPositiveOrZero(minMappingQuality, "Minimum mapping quality must be nonnegative.");
ParamUtils.isPositiveOrZero(minBaseQuality, "Minimum base quality must be nonnegative.");
if (reader.getFileHeader().getSortOrder() != SAMFileHeader.SortOrder.coordinate) {
throw new UserException.BadInput("BAM file " + bamFile.toString() + " must be coordinate sorted.");
}
final int numberOfSites = siteIntervals.size();
final boolean useIndex = numberOfSites < MAX_INTERVALS_FOR_INDEX;
final SamLocusIterator locusIterator = new SamLocusIterator(reader, siteIntervals, useIndex);
//set read and locus filters [note: read counts match IGV, but off by a few from pysam.mpileup]
final List<SamRecordFilter> samFilters = Arrays.asList(new NotPrimaryAlignmentFilter(), new DuplicateReadFilter());
locusIterator.setSamFilters(samFilters);
locusIterator.setEmitUncoveredLoci(true);
locusIterator.setIncludeNonPfReads(false);
locusIterator.setMappingQualityScoreCutoff(minMappingQuality);
locusIterator.setQualityScoreCutoff(minBaseQuality);
logger.info("Examining " + numberOfSites + " sites in total...");
int locusCount = 0;
final AllelicCountCollection counts = new AllelicCountCollection();
for (final SamLocusIterator.LocusInfo locus : locusIterator) {
if (locusCount % NUMBER_OF_SITES_PER_LOGGED_STATUS_UPDATE == 0) {
logger.info("Examined " + locusCount + " sites.");
}
locusCount++;
final Nucleotide refBase = Nucleotide.valueOf(referenceWalker.get(locus.getSequenceIndex()).getBases()[locus.getPosition() - 1]);
if (!BASES.contains(refBase)) {
logger.warn(String.format("The reference position at %d has an unknown base call (value: %s). Skipping...", locus.getPosition(), refBase.toString()));
continue;
}
final Nucleotide.Counter baseCounts = getPileupBaseCounts(locus);
//only include total ACGT counts in binomial test (exclude N, etc.)
final int totalBaseCount = BASES.stream().mapToInt(b -> (int) baseCounts.get(b)).sum();
final int refReadCount = (int) baseCounts.get(refBase);
//we take alt = total - ref instead of the actual alt count
final int altReadCount = totalBaseCount - refReadCount;
final Nucleotide altBase = inferAltFromPileupBaseCounts(baseCounts, refBase);
counts.add(new AllelicCount(new SimpleInterval(locus.getSequenceName(), locus.getPosition(), locus.getPosition()), refReadCount, altReadCount, refBase, altBase));
}
logger.info(locusCount + " sites out of " + numberOfSites + " total sites were examined.");
return counts;
} catch (final IOException | SAMFormatException e) {
throw new UserException("Unable to collect allelic counts from " + bamFile);
}
}
use of org.broadinstitute.hellbender.utils.Nucleotide in project gatk by broadinstitute.
the class AllelicCountReader method createRecord.
@Override
protected AllelicCount createRecord(final DataLine dataLine) {
try {
final String contig = dataLine.get(AllelicCountTableColumn.CONTIG);
final int position = dataLine.getInt(AllelicCountTableColumn.POSITION);
final int refReadCount = dataLine.getInt(AllelicCountTableColumn.REF_COUNT);
final int altReadCount = dataLine.getInt(AllelicCountTableColumn.ALT_COUNT);
final Nucleotide refNucleotide = Nucleotide.valueOf(dataLine.get(AllelicCountTableColumn.REF_NUCLEOTIDE.name()).getBytes()[0]);
final Nucleotide altNucleotide = Nucleotide.valueOf(dataLine.get(AllelicCountTableColumn.ALT_NUCLEOTIDE.name()).getBytes()[0]);
final SimpleInterval interval = new SimpleInterval(contig, position, position);
return new AllelicCount(interval, refReadCount, altReadCount, refNucleotide, altNucleotide);
} catch (final IllegalArgumentException e) {
throw new UserException.BadInput("AllelicCountCollection file must have all columns specified.");
}
}
use of org.broadinstitute.hellbender.utils.Nucleotide in project gatk-protected by broadinstitute.
the class BayesianHetPulldownCalculatorUnitTest method inputTestGetHomLogLikelihood.
@DataProvider(name = "inputTestGetHomLogLikelihood")
public Object[][] inputTestGetHomLogLikelihood() {
Nucleotide alleleRef = Nucleotide.A;
Nucleotide alleleAlt = Nucleotide.T;
double homRefPrior = 0.5;
Object[][] out = new Object[numPileupEntries][];
for (int i = 0; i < numPileupEntries; i++) {
out[i] = new Object[] { fakePileupBaseQualities.get(i), alleleRef, alleleAlt, homRefPrior, fakePileupHomLogLikelihoodArray.get(i) };
}
return out;
}
use of org.broadinstitute.hellbender.utils.Nucleotide in project gatk-protected by broadinstitute.
the class HetPulldownCalculator method getHetPulldown.
/**
* For a normal or tumor sample, returns a data structure giving (intervals, reference counts, alternate counts),
* where intervals give positions of likely heterozygous SNP sites.
*
* <p>
* For a normal sample:
* <ul>
* The IntervalList snpIntervals gives common SNP sites in 1-based format.
* </ul>
* <ul>
* The p-value threshold must be specified for a two-sided binomial test,
* which is used to determine SNP sites from snpIntervals that are
* compatible with a heterozygous SNP, given the sample. Only these sites are output.
* </ul>
* </p>
* <p>
* For a tumor sample:
* <ul>
* The IntervalList snpIntervals gives heterozygous SNP sites likely to be present in the normal sample.
* This should be from {@link HetPulldownCalculator#getNormal} in 1-based format.
* Only these sites are output.
* </ul>
* </p>
* @param bamFile sorted BAM file for sample
* @param snpIntervals IntervalList of SNP sites
* @param sampleType flag indicating type of sample (SampleType.NORMAL or SampleType.TUMOR)
* (determines whether to perform binomial test)
* @param pvalThreshold p-value threshold for two-sided binomial test, used for normal sample
* @param minimumRawReads minimum number of total reads that must be present at a het site
* @return Pulldown of heterozygous SNP sites in 1-based format
*/
private Pulldown getHetPulldown(final File bamFile, final IntervalList snpIntervals, final SampleType sampleType, final double pvalThreshold, final int minimumRawReads) {
try (final SamReader bamReader = SamReaderFactory.makeDefault().validationStringency(validationStringency).referenceSequence(refFile).open(bamFile);
final ReferenceSequenceFileWalker refWalker = new ReferenceSequenceFileWalker(refFile)) {
if (bamReader.getFileHeader().getSortOrder() != SAMFileHeader.SortOrder.coordinate) {
throw new UserException.BadInput("BAM file " + bamFile.toString() + " must be coordinate sorted.");
}
final Pulldown hetPulldown = new Pulldown(bamReader.getFileHeader());
final int totalNumberOfSNPs = snpIntervals.size();
final SamLocusIterator locusIterator = new SamLocusIterator(bamReader, snpIntervals, totalNumberOfSNPs < MAX_INTERVALS_FOR_INDEX);
//set read and locus filters [note: read counts match IGV, but off by a few from pysam.mpileup]
final List<SamRecordFilter> samFilters = Arrays.asList(new NotPrimaryAlignmentFilter(), new DuplicateReadFilter());
locusIterator.setSamFilters(samFilters);
locusIterator.setEmitUncoveredLoci(false);
locusIterator.setIncludeNonPfReads(false);
locusIterator.setMappingQualityScoreCutoff(minMappingQuality);
locusIterator.setQualityScoreCutoff(minBaseQuality);
logger.info("Examining " + totalNumberOfSNPs + " sites in total...");
int locusCount = 0;
for (final SamLocusIterator.LocusInfo locus : locusIterator) {
if (locusCount % NUMBER_OF_SITES_PER_LOGGED_STATUS_UPDATE == 0) {
logger.info("Examined " + locusCount + " covered sites.");
}
locusCount++;
//include N, etc. reads here
final int totalReadCount = locus.getRecordAndOffsets().size();
if (totalReadCount < minimumRawReads) {
continue;
}
final Nucleotide.Counter baseCounts = getPileupBaseCounts(locus);
//only include total ACGT counts in binomial test (exclude N, etc.)
final int totalBaseCount = Arrays.stream(BASES).mapToInt(b -> (int) baseCounts.get(b)).sum();
if (sampleType == SampleType.NORMAL && !isPileupHetCompatible(baseCounts, totalBaseCount, pvalThreshold)) {
continue;
}
final Nucleotide refBase = Nucleotide.valueOf(refWalker.get(locus.getSequenceIndex()).getBases()[locus.getPosition() - 1]);
final int refReadCount = (int) baseCounts.get(refBase);
final int altReadCount = totalBaseCount - refReadCount;
hetPulldown.add(new AllelicCount(new SimpleInterval(locus.getSequenceName(), locus.getPosition(), locus.getPosition()), refReadCount, altReadCount));
}
logger.info(locusCount + " covered sites out of " + totalNumberOfSNPs + " total sites were examined.");
return hetPulldown;
} catch (final IOException | SAMFormatException e) {
throw new UserException(e.getMessage());
}
}
use of org.broadinstitute.hellbender.utils.Nucleotide in project gatk by broadinstitute.
the class BayesianHetPulldownCalculatorUnitTest method inputTestGetHetLogLikelihood.
@DataProvider(name = "inputTestGetHetLogLikelihood")
public Object[][] inputTestGetHetLogLikelihood() {
Nucleotide alleleRef = Nucleotide.A;
Nucleotide alleleAlt = Nucleotide.T;
Object[][] out = new Object[numPileupEntries][];
for (int i = 0; i < numPileupEntries; i++) {
out[i] = new Object[] { fakePileupBaseQualities.get(i), alleleRef, alleleAlt, fakePileupHetLogLikelihoodArray.get(i) };
}
return out;
}
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