public void Constructor1ShouldStoreAndPrintValueAndSymbol() { GasVolume gv = new GasVolume(10, VolumeUnits.CubicCentimeters); String correctAnswer = "V_g = 10 cc"; Assert.AreEqual("V_g", gv.Symbol); Assert.AreEqual(gv.NumericValue, 10); Assert.AreEqual(gv.UnitOfMeasure, VolumeUnits.CubicCentimeters); Assert.AreEqual(correctAnswer, gv.ToString()); }
public GasVolume removeDirect(GasVolume second, out float amount) { float newMetersCubed = metersCubed; float oldTotal = mixture.totalPressure; var expanded = second.ExpandInto(newMetersCubed).mixture; var newMixture = mixture - expanded; amount = (oldTotal - newMixture.totalPressure) / expanded.totalPressure; return(new GasVolume(newMixture, newMetersCubed)); }
public void Constructor2ShouldStoreAndPrintValueAndSymbolWithPounds() { VolumeOfVoids vv = new VolumeOfVoids(20, VolumeUnits.CubicCentimeters); WaterVolume wv = new WaterVolume(10, VolumeUnits.CubicCentimeters); GasVolume gv = new GasVolume(vv, wv, VolumeUnits.CubicFeet); String correctAnswer = "V_g = 0 ft^3"; Assert.AreEqual("V_g", gv.Symbol); Assert.AreEqual(Math.Round(gv.NumericValue, 6), 0.000353); Assert.AreEqual(gv.UnitOfMeasure, VolumeUnits.CubicFeet); Assert.AreEqual(correctAnswer, gv.ToString()); }
public void Constructor2ShouldStoreAndPrintValueAndSymbolWithM3() { WaterVolume wv = new WaterVolume(10, VolumeUnits.CubicCentimeters); GasVolume gv = new GasVolume(10, VolumeUnits.CubicCentimeters); VolumeOfVoids vv = new VolumeOfVoids(wv, gv, VolumeUnits.CubicMeters); String correctAnswer = "V_v = 0 m^3"; Assert.AreEqual("V_v", vv.Symbol); Assert.AreEqual(Math.Round(vv.NumericValue, 6), 2e-5); Assert.AreEqual(vv.UnitOfMeasure, VolumeUnits.CubicMeters); Assert.AreEqual(correctAnswer, vv.ToString()); }
public void Constructor2ShouldStoreAndPrintValueAndSymbolWithM3() { VolumeOfVoids vv = new VolumeOfVoids(20, VolumeUnits.CubicCentimeters); GasVolume gv = new GasVolume(10, VolumeUnits.CubicCentimeters); WaterVolume wv = new WaterVolume(vv, gv, VolumeUnits.CubicMeters); String correctAnswer = "V_w = 0 m^3"; Assert.AreEqual("V_w", wv.Symbol); Assert.AreEqual(wv.NumericValue, 1e-5); Assert.AreEqual(wv.UnitOfMeasure, VolumeUnits.CubicMeters); Assert.AreEqual(correctAnswer, wv.ToString()); }
/// <summary> /// Initializes a new instance of the <see cref="WaterVolume"/> class. /// </summary> /// <param name="voidVolume">V_v in V_v=V_w+V_g.</param> /// <param name="gasVolume">V_g in V_v=V_w+V_g.</param> /// <param name="units">Measurement units to hold value after initial calculation (ie cc).</param> public WaterVolume(VolumeOfVoids voidVolume, GasVolume gasVolume, VolumeUnits units) : this(ConvertToUnits(voidVolume, units).NumericValue - ConvertToUnits(gasVolume, units).NumericValue, units) { }
/// <summary> /// Initializes a new instance of the <see cref="VolumeOfVoids"/> class. /// </summary> /// <param name="waterVolume">V_w in V_v=V_w+V_g.</param> /// <param name="gasVolume">V_g in V_v=V_w+V_g.</param> /// <param name="units">Measurement units to hold value after initial calculation (ie cc).</param> public VolumeOfVoids(WaterVolume waterVolume, GasVolume gasVolume, VolumeUnits units) : this(ConvertToUnits(waterVolume, units).NumericValue + ConvertToUnits(gasVolume, units).NumericValue, units) { }
public GasVolume addDirect(GasVolume second) { float newMetersCubed = metersCubed; return(new GasVolume(mixture + second.ExpandInto(newMetersCubed).mixture, newMetersCubed)); }