Ejemplo n.º 1
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  @Test
  public void shouldGetMaximumValuesWithAFrontWithThreePointReturnTheCorrectValue() {
    int numberOfPoints = 3;
    int numberOfDimensions = 3;
    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 10.0);
    point1.setDimensionValue(1, 12.0);
    point1.setDimensionValue(2, -1.0);
    Point point2 = new ArrayPoint(numberOfDimensions);
    point2.setDimensionValue(0, 8.0);
    point2.setDimensionValue(1, 80.0);
    point2.setDimensionValue(2, 0.32);
    Point point3 = new ArrayPoint(numberOfDimensions);
    point3.setDimensionValue(0, 5.0);
    point3.setDimensionValue(1, 50.0);
    point3.setDimensionValue(2, 3.0);

    front.setPoint(0, point1);
    front.setPoint(1, point2);
    front.setPoint(2, point3);

    double[] expectedResult = {10.0, 80.0, 3.0};

    assertArrayEquals(expectedResult, FrontUtils.getMaximumValues(front), EPSILON);
  }
Ejemplo n.º 2
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  /**
   * Given a frontA with point [2,3] and a frontB with point [1,2], the value of the
   * setCoverage(frontA, frontB) == 0 and setCoverage(frontB, frontA) == 1
   */
  @Test
  public void shouldExecuteReturnTheRightValueIfTheFrontsContainOnePointWhichIsNotTheSame() {
    int numberOfPoints = 1;
    int numberOfDimensions = 2;
    Front frontA = new ArrayFront(numberOfPoints, numberOfDimensions);
    Front frontB = new ArrayFront(numberOfPoints, numberOfDimensions);

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 2.0);
    point1.setDimensionValue(1, 3.0);
    Point point2 = new ArrayPoint(numberOfDimensions);
    point2.setDimensionValue(0, 1.0);
    point2.setDimensionValue(1, 2.0);

    frontA.setPoint(0, point1);
    frontB.setPoint(0, point2);

    Pair<Double, Double> result =
        setCoverage.evaluate(
            new ImmutablePair(
                FrontUtils.convertFrontToSolutionList(frontA),
                FrontUtils.convertFrontToSolutionList(frontB)));

    assertEquals(0.0, result.getLeft(), EPSILON);
    assertEquals(1.0, result.getRight(), EPSILON);
  }
Ejemplo n.º 3
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  /**
   * The front has the points [0.1, 0.9], [0.2, 0.8], [0.3, 0.7], [0.4, 0.6]. The inverted front is
   * [0.9, 0.1], [0.8, 0.2], [0.7, 0.3], [0.6, 0.4]
   */
  @Test
  public void shouldGetInvertedFrontReturnTheCorrectFrontIfItComposedOfFourPoints() {
    int numberOfDimensions = 2;
    int numberOfPoints = 4;

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 0.1);
    point1.setDimensionValue(1, 0.9);
    Point point2 = new ArrayPoint(numberOfDimensions);
    point2.setDimensionValue(0, 0.2);
    point2.setDimensionValue(1, 0.8);
    Point point3 = new ArrayPoint(numberOfDimensions);
    point3.setDimensionValue(0, 0.3);
    point3.setDimensionValue(1, 0.7);
    Point point4 = new ArrayPoint(numberOfDimensions);
    point4.setDimensionValue(0, 0.4);
    point4.setDimensionValue(1, 0.6);

    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);
    front.setPoint(0, point1);
    front.setPoint(1, point2);
    front.setPoint(2, point3);
    front.setPoint(3, point4);

    Front newFront = FrontUtils.getInvertedFront(front);

    assertEquals(0.9, newFront.getPoint(0).getDimensionValue(0), EPSILON);
    assertEquals(0.1, newFront.getPoint(0).getDimensionValue(1), EPSILON);
    assertEquals(0.8, newFront.getPoint(1).getDimensionValue(0), EPSILON);
    assertEquals(0.2, newFront.getPoint(1).getDimensionValue(1), EPSILON);
    assertEquals(0.7, newFront.getPoint(2).getDimensionValue(0), EPSILON);
    assertEquals(0.3, newFront.getPoint(2).getDimensionValue(1), EPSILON);
    assertEquals(0.6, newFront.getPoint(3).getDimensionValue(0), EPSILON);
    assertEquals(0.4, newFront.getPoint(3).getDimensionValue(1), EPSILON);
  }
Ejemplo n.º 4
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  @Test
  public void shouldDistanceToClosestPointReturnMaxZeroIfThePointIsTheOnlyPointInTheFront() {
    int numberOfDimensions = 2;
    int numberOfPoints = 1;

    Point point = new ArrayPoint(numberOfDimensions);
    point.setDimensionValue(0, 2);
    point.setDimensionValue(1, 4);

    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);
    front.setPoint(0, point);

    assertEquals(0.0, FrontUtils.distanceToClosestPoint(point, front), EPSILON);
  }
Ejemplo n.º 5
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  @Test
  public void shouldGetMaximumValuesWithAFrontWithOnePointReturnTheCorrectValue() {
    int numberOfPoints = 1;
    int numberOfDimensions = 2;
    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);

    Point point = new ArrayPoint(numberOfDimensions);
    point.setDimensionValue(0, 10.0);
    point.setDimensionValue(1, 12.0);

    front.setPoint(0, point);

    double[] expectedResult = {10.0, 12.0};

    assertArrayEquals(expectedResult, FrontUtils.getMaximumValues(front), EPSILON);
  }
Ejemplo n.º 6
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  /** Case C: the front has the point [3.0, -2.0]. The inverted front is [0.0, 1.0] */
  @Test
  public void shouldGetInvertedFrontReturnTheCorrectFrontIfItComposedOfOnePointCaseC() {
    int numberOfDimensions = 2;
    int numberOfPoints = 1;

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 3.0);
    point1.setDimensionValue(1, -2.0);

    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);
    front.setPoint(0, point1);

    Front newFront = FrontUtils.getInvertedFront(front);

    assertEquals(0.0, newFront.getPoint(0).getDimensionValue(0), EPSILON);
    assertEquals(1.0, newFront.getPoint(0).getDimensionValue(1), EPSILON);
  }
Ejemplo n.º 7
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  @Test
  public void shouldDistanceToClosestPointReturnTheCorrectValueIfTheFrontHasHasOnePoint() {
    int numberOfDimensions = 2;
    int numberOfPoints = 1;

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 2);
    point1.setDimensionValue(1, 4);

    Point point2 = new ArrayPoint(numberOfDimensions);
    point2.setDimensionValue(0, 6);
    point2.setDimensionValue(1, 7);

    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);
    front.setPoint(0, point1);

    assertEquals(5.0, FrontUtils.distanceToClosestPoint(point2, front), EPSILON);
  }
Ejemplo n.º 8
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  /** Case A: the front has two points and one of them is the point passed as a parameter */
  @Test
  public void shouldDistanceToNearestPointClosestTheCorrectValueIfTheFrontHasTwoPointsCaseA() {
    int numberOfDimensions = 2;
    int numberOfPoints = 2;

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 2);
    point1.setDimensionValue(1, 4);

    Point point2 = new ArrayPoint(numberOfDimensions);
    point2.setDimensionValue(0, 6);
    point2.setDimensionValue(1, 7);

    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);
    front.setPoint(0, point1);
    front.setPoint(1, point2);

    assertEquals(0.0, FrontUtils.distanceToClosestPoint(point1, front), EPSILON);
  }
Ejemplo n.º 9
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  @Test
  public void shouldExecuteReturnOneIfTheSecondFrontIsEmpty() {
    int numberOfDimensions = 2;
    Front frontA = new ArrayFront(1, numberOfDimensions);
    Front frontB = new ArrayFront(0, numberOfDimensions);

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 10.0);
    point1.setDimensionValue(1, 12.0);

    frontA.setPoint(0, point1);

    Pair<Double, Double> result =
        setCoverage.evaluate(
            new ImmutablePair(
                FrontUtils.convertFrontToSolutionList(frontA),
                FrontUtils.convertFrontToSolutionList(frontB)));

    assertEquals(1.0, result.getLeft(), EPSILON);
  }
Ejemplo n.º 10
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  /** Case A: The front has one point */
  @Test
  public void shouldConvertFrontToSolutionListReturnTheCorrectListCaseA() {
    int numberOfDimensions = 2;
    int numberOfPoints = 1;

    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 0.1);
    point1.setDimensionValue(1, 0.9);

    front.setPoint(0, point1);

    List<PointSolution> list;
    list = FrontUtils.convertFrontToSolutionList(front);

    assertEquals(1, list.size());
    assertEquals(0.1, list.get(0).getObjective(0), EPSILON);
    assertEquals(0.9, list.get(0).getObjective(1), EPSILON);
  }
Ejemplo n.º 11
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  /** Case A: The front has one point */
  @Test
  public void shouldConvertFrontToArrayReturnTheCorrectArrayCaseA() {
    int numberOfDimensions = 2;
    int numberOfPoints = 1;

    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 0.1);
    point1.setDimensionValue(1, 0.9);

    front.setPoint(0, point1);

    double[][] doubleFront;
    doubleFront = FrontUtils.convertFrontToArray(front);

    assertEquals(1, doubleFront.length);
    assertEquals(0.1, doubleFront[0][0], EPSILON);
    assertEquals(0.9, doubleFront[0][1], EPSILON);
  }
Ejemplo n.º 12
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  /**
   * Given a frontA with points [0.0,6.0], [2.0,3.0],[4.0,2.0] and a frontB with points [1.0,7.0],
   * [2.5,3.0], [5.0, 2.5], the value of setCoverage(frontA, frontB) == 1 and setCoverage(frontB,
   * frontA) == 0
   */
  @Test
  public void shouldExecuteReturnTheCorrectValueCaseB() {
    int numberOfPoints = 3;
    int numberOfDimensions = 2;
    Front frontA = new ArrayFront(numberOfPoints, numberOfDimensions);
    Front frontB = new ArrayFront(numberOfPoints, numberOfDimensions);

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 0.0);
    point1.setDimensionValue(1, 6.0);
    Point point2 = new ArrayPoint(numberOfDimensions);
    point2.setDimensionValue(0, 2.0);
    point2.setDimensionValue(1, 3.0);
    Point point3 = new ArrayPoint(numberOfDimensions);
    point3.setDimensionValue(0, 4.0);
    point3.setDimensionValue(1, 2.0);

    frontA.setPoint(0, point1);
    frontA.setPoint(1, point2);
    frontA.setPoint(2, point3);

    Point point4 = new ArrayPoint(numberOfDimensions);
    point4.setDimensionValue(0, 1.0);
    point4.setDimensionValue(1, 7.0);
    Point point5 = new ArrayPoint(numberOfDimensions);
    point5.setDimensionValue(0, 2.5);
    point5.setDimensionValue(1, 3.0);
    Point point6 = new ArrayPoint(numberOfDimensions);
    point6.setDimensionValue(0, 5.0);
    point6.setDimensionValue(1, 2.5);

    frontB.setPoint(0, point4);
    frontB.setPoint(1, point5);
    frontB.setPoint(2, point6);

    Pair<Double, Double> result =
        setCoverage.evaluate(
            new ImmutablePair(
                FrontUtils.convertFrontToSolutionList(frontA),
                FrontUtils.convertFrontToSolutionList(frontB)));

    assertEquals(1.0, result.getLeft(), EPSILON);
    assertEquals(0.0, result.getRight(), EPSILON);
  }
Ejemplo n.º 13
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  /** Case A: The front has one three points */
  @Test
  public void shouldConvertFrontToSolutionListReturnTheCorrectListCaseB() {
    int numberOfDimensions = 4;
    int numberOfPoints = 3;

    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 0.1);
    point1.setDimensionValue(1, 0.9);
    point1.setDimensionValue(2, -2.23);
    point1.setDimensionValue(3, 0.0);
    Point point2 = new ArrayPoint(numberOfDimensions);
    point2.setDimensionValue(0, 0.2);
    point2.setDimensionValue(1, 0.8);
    point2.setDimensionValue(2, 25.08);
    point2.setDimensionValue(3, -232420.8);
    Point point3 = new ArrayPoint(numberOfDimensions);
    point3.setDimensionValue(0, 0.3);
    point3.setDimensionValue(1, 0.7);
    point3.setDimensionValue(2, 32342);
    point3.setDimensionValue(3, 0.4E+23);

    front.setPoint(0, point1);
    front.setPoint(1, point2);
    front.setPoint(2, point3);

    List<PointSolution> list;
    list = FrontUtils.convertFrontToSolutionList(front);

    assertEquals(3, list.size());
    assertEquals(0.1, list.get(0).getObjective(0), EPSILON);
    assertEquals(0.8, list.get(1).getObjective(1), EPSILON);
    assertEquals(32342, list.get(2).getObjective(2), EPSILON);
    assertEquals(.4E+23, list.get(2).getObjective(3), EPSILON);
  }
Ejemplo n.º 14
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  /** Case A: The front has one three points */
  @Test
  public void shouldConvertFrontToArrayReturnTheCorrectArrayCaseB() {
    int numberOfDimensions = 4;
    int numberOfPoints = 3;

    Front front = new ArrayFront(numberOfPoints, numberOfDimensions);

    Point point1 = new ArrayPoint(numberOfDimensions);
    point1.setDimensionValue(0, 0.1);
    point1.setDimensionValue(1, 0.9);
    point1.setDimensionValue(2, -2.23);
    point1.setDimensionValue(3, 0.0);
    Point point2 = new ArrayPoint(numberOfDimensions);
    point2.setDimensionValue(0, 0.2);
    point2.setDimensionValue(1, 0.8);
    point2.setDimensionValue(2, 25.08);
    point2.setDimensionValue(3, -232420.8);
    Point point3 = new ArrayPoint(numberOfDimensions);
    point3.setDimensionValue(0, 0.3);
    point3.setDimensionValue(1, 0.7);
    point3.setDimensionValue(2, 32342);
    point3.setDimensionValue(3, 0.4E+23);

    front.setPoint(0, point1);
    front.setPoint(1, point2);
    front.setPoint(2, point3);

    double[][] doubleFront;
    doubleFront = FrontUtils.convertFrontToArray(front);

    assertEquals(3, doubleFront.length);
    assertEquals(0.1, doubleFront[0][0], EPSILON);
    assertEquals(0.8, doubleFront[1][1], EPSILON);
    assertEquals(32342, doubleFront[2][2], EPSILON);
    assertEquals(.4E+23, doubleFront[2][3], EPSILON);
  }