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gatk-3.8/archive/java/src/org/broadinstitute/sting/mendelian/BeagleTrioToVCFWalker.java

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/*
* Copyright (c) 2010 The Broad Institute
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use,
* copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following
* conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR
* THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
package org.broadinstitute.sting.oneoffprojects.walkers.vcftools;
import org.broad.tribble.vcf.VCFRecord;
import org.broadinstitute.sting.gatk.contexts.AlignmentContext;
import org.broadinstitute.sting.gatk.contexts.ReferenceContext;
import org.broadinstitute.sting.gatk.contexts.variantcontext.Allele;
import org.broadinstitute.sting.gatk.contexts.variantcontext.Genotype;
import org.broadinstitute.sting.gatk.contexts.variantcontext.VariantContext;
import org.broadinstitute.sting.gatk.refdata.*;
import org.broadinstitute.sting.gatk.walkers.DataSource;
import org.broadinstitute.sting.gatk.walkers.RMD;
import org.broadinstitute.sting.gatk.walkers.Requires;
import org.broadinstitute.sting.gatk.walkers.RodWalker;
import org.broadinstitute.sting.gatk.walkers.varianteval.MendelianViolationEvaluator;
import org.broadinstitute.sting.commandline.Argument;
import org.broadinstitute.sting.utils.genotype.vcf.VCFWriter;
import java.util.Arrays;
import java.util.List;
import java.util.Map;
/**
* Test routine for new VariantContext object
*/
@Requires(value={DataSource.REFERENCE},referenceMetaData={@RMD(name="variants",type=ReferenceOrderedDatum.class), @RMD(name="beagle",type=BeagleROD.class)})
public class BeagleTrioToVCFWalker extends RodWalker<VariantContext, Long> {
@Argument(shortName="trio", doc="If provide, treats the input VCF as a single record containing genotypes for a single trio; String formatted as dad+mom=child", required=false)
protected String TRIO_STRUCTURE;
@Argument(shortName="eth", fullName="excludeTripleHets", doc="If provide, sites that are triple hets calls will not be phased, regardless of Beagle's value", required=false)
protected boolean dontPhaseTripleHets = false;
int nTripletHets = 0;
private MendelianViolationEvaluator.TrioStructure trio = null;
private VCFWriter writer;
private boolean headerWritten = false;
private final static String TRACK_NAME = "variants";
private final static String BEAGLE_NAME = "beagle";
public void initialize() {
trio = MendelianViolationEvaluator.parseTrioDescription(TRIO_STRUCTURE);
writer = new VCFWriter(out);
}
public VariantContext map(RefMetaDataTracker tracker, ReferenceContext ref, AlignmentContext context) {
VariantContext vc = null;
if ( ref != null ) {
vc = tracker.getVariantContext(ref, TRACK_NAME, null, context.getLocation(), false);
BeagleROD beagle = tracker.lookup(BEAGLE_NAME,BeagleROD.class);
if ( vc != null ) {
if ( ! headerWritten ) {
VCFRecord vcfrod = tracker.lookup(TRACK_NAME,VCFRecord.class);
writer.writeHeader(vcfrod.getHeader());
headerWritten = true;
}
//System.out.printf("VCF: %s%n", tracker.lookup(TRACK_NAME, null));
vc = maybePhaseVC(vc, beagle);
}
}
if ( vc != null )
writer.addRecord(VariantContextAdaptors.toVCF(vc, ref.getBase()));
return vc;
}
private VariantContext maybePhaseVC(VariantContext unphased, BeagleROD beagle) {
if ( beagle == null ) {
return unphased;
} else {
Map<String, List<String>> bglData = beagle.getGenotypes();
List<String> momBgl = bglData.get(trio.mom);
List<String> dadBgl = bglData.get(trio.dad);
Genotype unphasedMom = unphased.getGenotype(trio.mom);
Genotype unphasedDad = unphased.getGenotype(trio.dad);
Genotype unphasedKid = unphased.getGenotype(trio.child);
if ( dontPhaseTripleHets && unphasedMom.isHet() && unphasedDad.isHet() && unphasedKid.isHet() ) {
nTripletHets++;
return unphased;
}
else {
Allele momTrans = unphased.getAllele(momBgl.get(0));
Allele momUntrans = unphased.getAllele(momBgl.get(1));
Allele dadTrans = unphased.getAllele(dadBgl.get(0));
Allele dadUntrans = unphased.getAllele(dadBgl.get(1));
Genotype momG = phaseGenotype(unphasedMom, Arrays.asList(momTrans, momUntrans));
Genotype dadG = phaseGenotype(unphasedDad, Arrays.asList(dadTrans, dadUntrans));
Genotype kidG = phaseGenotype(unphasedKid, Arrays.asList(momTrans, dadTrans));
return new VariantContext(unphased.getName(), unphased.getLocation(), unphased.getAlleles(),
Arrays.asList(momG, dadG, kidG), unphased.getNegLog10PError(), unphased.getFilters(), unphased.getAttributes());
}
}
}
private Genotype phaseGenotype(Genotype base, List<Allele> alleles) {
return new Genotype(base.getSampleName(), alleles, base.getNegLog10PError(), base.getFilters(), base.getAttributes(), true);
}
public Long reduceInit() {
return 0L;
}
public Integer reduce(VariantContext point, Integer sum) {
return sum;
}
public void onTraversalDone(Long result) {
logger.info(String.format("Ignored phasing of %d het/het/het genotypes", nTripletHets));
//logger.info(String.format("Converted %d (%.2f%%) of these sites", result.nConverted, (100.0 * result.nConverted) / result.nVariants));
}
public Long reduce(VariantContext vc, Long prevReduce) {
return ( vc == null ? prevReduce : prevReduce+1);
}
}
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