VcfStatsTest.scala 5.89 KB
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/**
 * Biopet is built on top of GATK Queue for building bioinformatic
 * pipelines. It is mainly intended to support LUMC SHARK cluster which is running
 * SGE. But other types of HPC that are supported by GATK Queue (such as PBS)
 * should also be able to execute Biopet tools and pipelines.
 *
 * Copyright 2014 Sequencing Analysis Support Core - Leiden University Medical Center
 *
 * Contact us at: sasc@lumc.nl
 *
 * A dual licensing mode is applied. The source code within this project that are
 * not part of GATK Queue is freely available for non-commercial use under an AGPL
 * license; For commercial users or users who do not want to follow the AGPL
 * license, please contact us to obtain a separate license.
 */
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package nl.lumc.sasc.biopet.tools

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import htsjdk.variant.variantcontext.Allele
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import nl.lumc.sasc.biopet.tools.VcfStats._
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import org.scalatest.Matchers
import org.scalatest.testng.TestNGSuite
import org.testng.annotations.Test
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import scala.collection.mutable

/**
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 * Test class for [[VcfStats]]
 *
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 * Created by pjvan_thof on 2/5/15.
 */
class VcfStatsTest extends TestNGSuite with Matchers {

  @Test
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  def testSampleToSampleStats(): Unit = {
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    val s1 = SampleToSampleStats()
    val s2 = SampleToSampleStats()
    s1.alleleOverlap shouldBe 0
    s1.genotypeOverlap shouldBe 0
    s2.alleleOverlap shouldBe 0
    s2.genotypeOverlap shouldBe 0

    s1 += s2
    s1.alleleOverlap shouldBe 0
    s1.genotypeOverlap shouldBe 0
    s2.alleleOverlap shouldBe 0
    s2.genotypeOverlap shouldBe 0

    s2.alleleOverlap = 2
    s2.genotypeOverlap = 3

    s1 += s2
    s1.alleleOverlap shouldBe 2
    s1.genotypeOverlap shouldBe 3
    s2.alleleOverlap shouldBe 2
    s2.genotypeOverlap shouldBe 3

    s1 += s2
    s1.alleleOverlap shouldBe 4
    s1.genotypeOverlap shouldBe 6
    s2.alleleOverlap shouldBe 2
    s2.genotypeOverlap shouldBe 3
  }

  @Test
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  def testSampleStats(): Unit = {
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    val s1 = SampleStats()
    val s2 = SampleStats()

    s1.sampleToSample += "s1" -> SampleToSampleStats()
    s1.sampleToSample += "s2" -> SampleToSampleStats()
    s2.sampleToSample += "s1" -> SampleToSampleStats()
    s2.sampleToSample += "s2" -> SampleToSampleStats()

    s1.sampleToSample("s1").alleleOverlap = 1
    s2.sampleToSample("s2").alleleOverlap = 2

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    val bla1 = s1.genotypeStats.getOrElse("chr", mutable.Map[String, mutable.Map[Any, Int]]()) += "1" -> mutable.Map(1 -> 1)
    s1.genotypeStats += "chr" -> bla1
    val bla2 = s2.genotypeStats.getOrElse("chr", mutable.Map[String, mutable.Map[Any, Int]]()) += "2" -> mutable.Map(2 -> 2)
    s2.genotypeStats += "chr" -> bla2
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    val ss1 = SampleToSampleStats()
    val ss2 = SampleToSampleStats()

    s1 += s2
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    s1.genotypeStats.getOrElse("chr", mutable.Map[String, mutable.Map[Any, Int]]()) shouldBe mutable.Map("1" -> mutable.Map(1 -> 1), "2" -> mutable.Map(2 -> 2))
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    ss1.alleleOverlap = 1
    ss2.alleleOverlap = 2
    s1.sampleToSample shouldBe mutable.Map("s1" -> ss1, "s2" -> ss2)

    s1 += s2
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    s1.genotypeStats.getOrElse("chr", mutable.Map[String, mutable.Map[Any, Int]]()) shouldBe mutable.Map("1" -> mutable.Map(1 -> 1), "2" -> mutable.Map(2 -> 4))
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    s1 += s1
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    s1.genotypeStats.getOrElse("chr", mutable.Map[String, mutable.Map[Any, Int]]()) shouldBe mutable.Map("1" -> mutable.Map(1 -> 2), "2" -> mutable.Map(2 -> 8))
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  }
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  @Test
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  def testAlleleOverlap(): Unit = {
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    val a1 = Allele.create("G")
    val a2 = Allele.create("A")

    alleleOverlap(List(a1, a1), List(a1, a1)) shouldBe 2
    alleleOverlap(List(a2, a2), List(a2, a2)) shouldBe 2
    alleleOverlap(List(a1, a2), List(a1, a2)) shouldBe 2
    alleleOverlap(List(a1, a2), List(a2, a1)) shouldBe 2
    alleleOverlap(List(a2, a1), List(a1, a2)) shouldBe 2
    alleleOverlap(List(a2, a1), List(a2, a1)) shouldBe 2

    alleleOverlap(List(a1, a2), List(a1, a1)) shouldBe 1
    alleleOverlap(List(a2, a1), List(a1, a1)) shouldBe 1
    alleleOverlap(List(a1, a1), List(a1, a2)) shouldBe 1
    alleleOverlap(List(a1, a1), List(a2, a1)) shouldBe 1

    alleleOverlap(List(a1, a1), List(a2, a2)) shouldBe 0
    alleleOverlap(List(a2, a2), List(a1, a1)) shouldBe 0
  }
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  @Test
  def testMergeStatsMap = {
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    val m1 : mutable.Map[Any, Int] = mutable.Map("a" -> 1)
    val m2 : mutable.Map[Any, Int] = mutable.Map("b" -> 2)

    mergeStatsMap(m1, m2)

    m1 should equal (mutable.Map("a" -> 1, "b" -> 2))

    val m3 : mutable.Map[Any, Int] = mutable.Map(1 -> 500)
    val m4 : mutable.Map[Any, Int] = mutable.Map(6 -> 125)

    mergeStatsMap(m3, m4)

    m3 should equal (mutable.Map(1 -> 500, 6 -> 125))

    mergeStatsMap(m1, m3)

    m1 should equal (mutable.Map("a" -> 1, "b" -> 2, 1 -> 500, 6 -> 125))
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  }

  @Test
  def testMergeNestedStatsMap = {
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    val m1 : mutable.Map[String, mutable.Map[String, mutable.Map[Any, Int]]] = mutable.Map("test" ->
      mutable.Map("nested" -> mutable.Map("a" -> 1)))
    val m2: Map[String, Map[String, Map[Any, Int]]] = Map("test" ->
      Map("nested" -> Map("b" -> 2)))

    mergeNestedStatsMap(m1, m2)

    m1 should equal (mutable.Map("test" -> mutable.Map("nested" -> mutable.Map("a" -> 1, "b" -> 2))))

    val m3 : mutable.Map[String, mutable.Map[String, mutable.Map[Any, Int]]] = mutable.Map("test" ->
      mutable.Map("nestedd" -> mutable.Map(1 -> 500)))
    val m4: Map[String, Map[String, Map[Any, Int]]] = Map("test" ->
      Map("nestedd" -> Map(6 -> 125)))

    mergeNestedStatsMap(m3, m4)

    m3 should equal (mutable.Map("test" -> mutable.Map("nestedd" -> mutable.Map(1 -> 500, 6 -> 125))))

    val m5 = m3.toMap.map(x => x._1 -> x._2.toMap.map(y => y._1 -> y._2.toMap))

    mergeNestedStatsMap(m1, m5)

    m1 should equal (mutable.Map("test" -> mutable.Map("nested" -> mutable.Map("a" -> 1, "b" -> 2),
    "nestedd" -> mutable.Map(1 -> 500, 6 -> 125))))
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  }

  @Test
  def testValueOfTsv = {
    //stub
  }

  @Test
  def testMain = {
    //stub
  }

  @Test
  def testSortAnyAny = {
    //stub
  }

  @Test
  def testCheckGeneral = {
    //stub
  }

  @Test
  def testCheckGenotype = {
    //stub
  }
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}