Walker that calculates the percentage of bases that are covered to at least 20x. Very useful! In oneoffs until someone else thinks it's as useful as I think it is ;)

git-svn-id: file:///humgen/gsa-scr1/gsa-engineering/svn_contents/trunk@5714 348d0f76-0448-11de-a6fe-93d51630548a
2011-04-29 19:19:39 +00:00 · 2011-04-29 19:19:39 +00:00 · f97e7d2fb4
parent 3868a7e778
commit f97e7d2fb4
1 changed files with 59 additions and 0 deletions
--- a/java/src/org/broadinstitute/sting/oneoffprojects/walkers/Percent20xCoverage.java
+++ b/java/src/org/broadinstitute/sting/oneoffprojects/walkers/Percent20xCoverage.java
@ -0,0 +1,59 @@
 package org.broadinstitute.sting.oneoffprojects.walkers;
 import org.broadinstitute.sting.commandline.Argument;
 import org.broadinstitute.sting.commandline.Output;
 import org.broadinstitute.sting.gatk.contexts.AlignmentContext;
 import org.broadinstitute.sting.gatk.contexts.ReferenceContext;
 import org.broadinstitute.sting.gatk.refdata.RefMetaDataTracker;
 import org.broadinstitute.sting.gatk.walkers.LocusWalker;
 import org.broadinstitute.sting.gatk.walkers.TreeReducible;
 import java.io.PrintStream;
 /**
 * Walks over the input data set, calculating the total number of covered loci for diagnostic purposes.
 * Simplest example of a locus walker.
 */
 public class Percent20xCoverage extends LocusWalker<Integer, Long> implements TreeReducible<Long> {
    @Output(doc="Write count to this file instead of STDOUT")
    PrintStream out;
    @Argument(fullName="target_coverage", shortName="coverage", doc="Set the target coverage", required=false)
    private int targetCoverage = 20;
    private long totalLoci;
    private long totalCoverage;
    public void initialize () {
        totalLoci = 0;
        totalCoverage = 0;
    }
    public Integer map(RefMetaDataTracker tracker, ReferenceContext ref, AlignmentContext context) {
        totalLoci++;
        int coverage = context.getBasePileup().size();
        totalCoverage += coverage;
        if (coverage >= targetCoverage)
            return 1;
        return 0;
    }
    public Long reduceInit() { return 0l; }
    public Long reduce(Integer value, Long sum) {
        return value + sum;
    }
    /**
     * Reduces two subtrees together.  In this case, the implementation of the tree reduce
     * is exactly the same as the implementation of the single reduce.
     */
    public Long treeReduce(Long lhs, Long rhs) {
        return lhs + rhs;
    }
    public void onTraversalDone( Long c ) {
        out.println(Math.floor(totalCoverage/totalLoci) + "\t" + (double) c/totalLoci);
    }
 }