public void Power_LengthRaisedWith3_ReturnsVolume() { var expected = new Volume(amount: 1.0, unit: Volume.CubicDeciMeter); var len = new Measure <Length>(amount: 1.0, unit: Length.DeciMeter); Volume actual; ArithmeticOperations.Power(len, iExponent: 3, oResult: out actual); MeasureAssert.AmountsAreEqual(expected, actual); }
public void Divide_DivideAreaAndAreaToLength_Throws() { var numerator = new Area(amount: 8.0); var denominator = new Area(amount: 200.0, unit: Area.SquareDeciMeter); Length throws; Assert.That(() => ArithmeticOperations.Divide(numerator, denominator, out throws), Throws.TypeOf <InvalidOperationException>()); }
public void Times_MultiplyAreaAndAreaToVolume_Throws() { var lhs = new Area(amount: 2.0); var rhs = new Area(amount: 3.0); Volume throws; Assert.That(() => ArithmeticOperations.Times(lhs, rhs, out throws), Throws.TypeOf <InvalidOperationException>()); }
public void Divide_DivideVolumeAndLength_ReturnsArea() { var expected = new Area(amount: 4.0); var numerator = new Volume(amount: 8.0); var denominator = new Length(amount: 200.0, unit: Length.CentiMeter); Area actual; ArithmeticOperations.Divide(numerator, denominator, out actual); MeasureAssert.MeasuresAreEqual(expected, actual); }
public void Times_MultiplyAreaAndLength_ReturnsVolume() { var expected = new Volume(amount: 6.0); var lhs = new Area(amount: 2.0); var rhs = new Length(amount: 3.0); Volume actual; ArithmeticOperations.Times(lhs, rhs, out actual); MeasureAssert.MeasuresAreEqual(expected, actual); }