public void CompareToThrowsOnTypeMismatch()
{
ElectricPotentialAc voltac = ElectricPotentialAc.FromVoltsAc(1);
// ReSharper disable once ReturnValueOfPureMethodIsNotUsed
voltac.CompareTo(new object());
}
public void EqualsIsImplemented()
{
ElectricPotentialAc v = ElectricPotentialAc.FromVoltsAc(1);
Assert.IsTrue(v.Equals(ElectricPotentialAc.FromVoltsAc(1)));
Assert.IsFalse(v.Equals(ElectricPotentialAc.Zero));
}
public void CompareToThrowsOnNull()
{
ElectricPotentialAc voltac = ElectricPotentialAc.FromVoltsAc(1);
// ReSharper disable once ReturnValueOfPureMethodIsNotUsed
voltac.CompareTo(null);
}
public void ToUnit()
{
var voltac = ElectricPotentialAc.FromVoltsAc(1);
var kilovoltacQuantity = voltac.ToUnit(ElectricPotentialAcUnit.KilovoltAc);
AssertEx.EqualTolerance(KilovoltsAcInOneVoltAc, (double)kilovoltacQuantity.Value, KilovoltsAcTolerance);
Assert.Equal(ElectricPotentialAcUnit.KilovoltAc, kilovoltacQuantity.Unit);
var megavoltacQuantity = voltac.ToUnit(ElectricPotentialAcUnit.MegavoltAc);
AssertEx.EqualTolerance(MegavoltsAcInOneVoltAc, (double)megavoltacQuantity.Value, MegavoltsAcTolerance);
Assert.Equal(ElectricPotentialAcUnit.MegavoltAc, megavoltacQuantity.Unit);
var microvoltacQuantity = voltac.ToUnit(ElectricPotentialAcUnit.MicrovoltAc);
AssertEx.EqualTolerance(MicrovoltsAcInOneVoltAc, (double)microvoltacQuantity.Value, MicrovoltsAcTolerance);
Assert.Equal(ElectricPotentialAcUnit.MicrovoltAc, microvoltacQuantity.Unit);
var millivoltacQuantity = voltac.ToUnit(ElectricPotentialAcUnit.MillivoltAc);
AssertEx.EqualTolerance(MillivoltsAcInOneVoltAc, (double)millivoltacQuantity.Value, MillivoltsAcTolerance);
Assert.Equal(ElectricPotentialAcUnit.MillivoltAc, millivoltacQuantity.Unit);
var voltacQuantity = voltac.ToUnit(ElectricPotentialAcUnit.VoltAc);
AssertEx.EqualTolerance(VoltsAcInOneVoltAc, (double)voltacQuantity.Value, VoltsAcTolerance);
Assert.Equal(ElectricPotentialAcUnit.VoltAc, voltacQuantity.Unit);
}
public void Equals_RelativeTolerance_IsImplemented()
{
var v = ElectricPotentialAc.FromVoltsAc(1);
Assert.True(v.Equals(ElectricPotentialAc.FromVoltsAc(1), VoltsAcTolerance, ComparisonType.Relative));
Assert.False(v.Equals(ElectricPotentialAc.Zero, VoltsAcTolerance, ComparisonType.Relative));
}
public void EqualsIsImplemented()
{
ElectricPotentialAc v = ElectricPotentialAc.FromVoltsAc(1);
Assert.True(v.Equals(ElectricPotentialAc.FromVoltsAc(1), ElectricPotentialAc.FromVoltsAc(VoltsAcTolerance)));
Assert.False(v.Equals(ElectricPotentialAc.Zero, ElectricPotentialAc.FromVoltsAc(VoltsAcTolerance)));
}
public void CompareToIsImplemented()
{
ElectricPotentialAc voltac = ElectricPotentialAc.FromVoltsAc(1);
Assert.AreEqual(0, voltac.CompareTo(voltac));
Assert.Greater(voltac.CompareTo(ElectricPotentialAc.Zero), 0);
Assert.Less(ElectricPotentialAc.Zero.CompareTo(voltac), 0);
}
public void Equals_SameType_IsImplemented()
{
var a = ElectricPotentialAc.FromVoltsAc(1);
var b = ElectricPotentialAc.FromVoltsAc(2);
Assert.True(a.Equals(a));
Assert.False(a.Equals(b));
}
public void CompareToIsImplemented()
{
ElectricPotentialAc voltac = ElectricPotentialAc.FromVoltsAc(1);
Assert.Equal(0, voltac.CompareTo(voltac));
Assert.True(voltac.CompareTo(ElectricPotentialAc.Zero) > 0);
Assert.True(ElectricPotentialAc.Zero.CompareTo(voltac) < 0);
}
public void FromVoltsAc_WithInfinityValue_CreateQuantityAndAffectInfinityValue()
{
var positiveInfinityQuantity = ElectricPotentialAc.FromVoltsAc(double.PositiveInfinity);
var negativeInfinityQuantity = ElectricPotentialAc.FromVoltsAc(double.NegativeInfinity);
Assert.True(double.IsPositiveInfinity(positiveInfinityQuantity.Value));
Assert.True(double.IsNegativeInfinity(negativeInfinityQuantity.Value));
}
public void Equals_QuantityAsObject_IsImplemented()
{
object a = ElectricPotentialAc.FromVoltsAc(1);
object b = ElectricPotentialAc.FromVoltsAc(2);
Assert.True(a.Equals(a));
Assert.False(a.Equals(b));
Assert.False(a.Equals((object)null));
}
public void ConversionRoundTrip()
{
ElectricPotentialAc voltac = ElectricPotentialAc.FromVoltsAc(1);
Assert.AreEqual(1, ElectricPotentialAc.FromKilovoltsAc(voltac.KilovoltsAc).VoltsAc, KilovoltsAcTolerance);
Assert.AreEqual(1, ElectricPotentialAc.FromMegavoltsAc(voltac.MegavoltsAc).VoltsAc, MegavoltsAcTolerance);
Assert.AreEqual(1, ElectricPotentialAc.FromMicrovoltsAc(voltac.MicrovoltsAc).VoltsAc, MicrovoltsAcTolerance);
Assert.AreEqual(1, ElectricPotentialAc.FromMillivoltsAc(voltac.MillivoltsAc).VoltsAc, MillivoltsAcTolerance);
Assert.AreEqual(1, ElectricPotentialAc.FromVoltsAc(voltac.VoltsAc).VoltsAc, VoltsAcTolerance);
}
public void As()
{
var voltac = ElectricPotentialAc.FromVoltsAc(1);
Assert.AreEqual(KilovoltsAcInOneVoltAc, voltac.As(ElectricPotentialAcUnit.KilovoltAc), KilovoltsAcTolerance);
Assert.AreEqual(MegavoltsAcInOneVoltAc, voltac.As(ElectricPotentialAcUnit.MegavoltAc), MegavoltsAcTolerance);
Assert.AreEqual(MicrovoltsAcInOneVoltAc, voltac.As(ElectricPotentialAcUnit.MicrovoltAc), MicrovoltsAcTolerance);
Assert.AreEqual(MillivoltsAcInOneVoltAc, voltac.As(ElectricPotentialAcUnit.MillivoltAc), MillivoltsAcTolerance);
Assert.AreEqual(VoltsAcInOneVoltAc, voltac.As(ElectricPotentialAcUnit.VoltAc), VoltsAcTolerance);
}
public void VoltAcToElectricPotentialAcUnits()
{
ElectricPotentialAc voltac = ElectricPotentialAc.FromVoltsAc(1);
Assert.AreEqual(KilovoltsAcInOneVoltAc, voltac.KilovoltsAc, KilovoltsAcTolerance);
Assert.AreEqual(MegavoltsAcInOneVoltAc, voltac.MegavoltsAc, MegavoltsAcTolerance);
Assert.AreEqual(MicrovoltsAcInOneVoltAc, voltac.MicrovoltsAc, MicrovoltsAcTolerance);
Assert.AreEqual(MillivoltsAcInOneVoltAc, voltac.MillivoltsAc, MillivoltsAcTolerance);
Assert.AreEqual(VoltsAcInOneVoltAc, voltac.VoltsAc, VoltsAcTolerance);
}
public void ArithmeticOperators()
{
ElectricPotentialAc v = ElectricPotentialAc.FromVoltsAc(1);
Assert.AreEqual(-1, -v.VoltsAc, VoltsAcTolerance);
Assert.AreEqual(2, (ElectricPotentialAc.FromVoltsAc(3) - v).VoltsAc, VoltsAcTolerance);
Assert.AreEqual(2, (v + v).VoltsAc, VoltsAcTolerance);
Assert.AreEqual(10, (v * 10).VoltsAc, VoltsAcTolerance);
Assert.AreEqual(10, (10 * v).VoltsAc, VoltsAcTolerance);
Assert.AreEqual(2, (ElectricPotentialAc.FromVoltsAc(10) / 5).VoltsAc, VoltsAcTolerance);
Assert.AreEqual(2, ElectricPotentialAc.FromVoltsAc(10) / ElectricPotentialAc.FromVoltsAc(5), VoltsAcTolerance);
}
public void To_UnitSystem_ThrowsArgumentExceptionIfNotSupported()
{
var voltac = ElectricPotentialAc.FromVoltsAc(1);
Assert.Throws <ArgumentException>(() => voltac.ToUnit(UnitSystem.SI));
Assert.Throws <ArgumentException>(() => voltac.ToUnit(UnitSystem.CGS));
Assert.Throws <ArgumentException>(() => voltac.ToUnit(UnitSystem.BI));
Assert.Throws <ArgumentException>(() => voltac.ToUnit(UnitSystem.EE));
Assert.Throws <ArgumentException>(() => voltac.ToUnit(UnitSystem.USC));
Assert.Throws <ArgumentException>(() => voltac.ToUnit(UnitSystem.FPS));
Assert.Throws <ArgumentException>(() => voltac.ToUnit(UnitSystem.Astronomical));
}
public void EqualityOperators()
{
ElectricPotentialAc a = ElectricPotentialAc.FromVoltsAc(1);
ElectricPotentialAc b = ElectricPotentialAc.FromVoltsAc(2);
// ReSharper disable EqualExpressionComparison
Assert.True(a == a);
Assert.True(a != b);
Assert.False(a == b);
Assert.False(a != a);
// ReSharper restore EqualExpressionComparison
}
public void ComparisonOperators()
{
ElectricPotentialAc oneVoltAc = ElectricPotentialAc.FromVoltsAc(1);
ElectricPotentialAc twoVoltsAc = ElectricPotentialAc.FromVoltsAc(2);
Assert.True(oneVoltAc < twoVoltsAc);
Assert.True(oneVoltAc <= twoVoltsAc);
Assert.True(twoVoltsAc > oneVoltAc);
Assert.True(twoVoltsAc >= oneVoltAc);
Assert.False(oneVoltAc > twoVoltsAc);
Assert.False(oneVoltAc >= twoVoltsAc);
Assert.False(twoVoltsAc < oneVoltAc);
Assert.False(twoVoltsAc <= oneVoltAc);
}
public void EqualityOperators()
{
var a = ElectricPotentialAc.FromVoltsAc(1);
var b = ElectricPotentialAc.FromVoltsAc(2);
#pragma warning disable CS8073
// ReSharper disable EqualExpressionComparison
Assert.True(a == a);
Assert.False(a != a);
Assert.True(a != b);
Assert.False(a == b);
Assert.False(a == null);
Assert.False(null == a);
// ReSharper restore EqualExpressionComparison
#pragma warning restore CS8073
}
public void NumberToVoltsAcTest() => Assert.Equal(ElectricPotentialAc.FromVoltsAc(2), 2.VoltsAc());
/// <inheritdoc cref="ElectricPotentialAc.FromVoltsAc(double?)"/> public static ElectricPotentialAc?VoltsAc(this decimal?value) => ElectricPotentialAc.FromVoltsAc(value == null ? (double?)null : Convert.ToDouble(value.Value));
/// <inheritdoc cref="ElectricPotentialAc.FromVoltsAc(double)"/> public static ElectricPotentialAc VoltsAc(this decimal value) => ElectricPotentialAc.FromVoltsAc(Convert.ToDouble(value));
/// <inheritdoc cref="ElectricPotentialAc.FromVoltsAc(double?)"/> public static ElectricPotentialAc?VoltsAc(this float?value) => ElectricPotentialAc.FromVoltsAc(value);
/// <inheritdoc cref="ElectricPotentialAc.FromVoltsAc(double)"/> public static ElectricPotentialAc VoltsAc(this double value) => ElectricPotentialAc.FromVoltsAc(value);
public void EqualsReturnsFalseOnNull()
{
ElectricPotentialAc voltac = ElectricPotentialAc.FromVoltsAc(1);
Assert.IsFalse(voltac.Equals(null));
}
public void EqualsReturnsFalseOnTypeMismatch()
{
ElectricPotentialAc voltac = ElectricPotentialAc.FromVoltsAc(1);
Assert.IsFalse(voltac.Equals(new object()));
}
public void Convert_ChangeType_BaseDimensions_EqualsBaseDimensions()
{
var quantity = ElectricPotentialAc.FromVoltsAc(1.0);
Assert.Equal(ElectricPotentialAc.BaseDimensions, Convert.ChangeType(quantity, typeof(BaseDimensions)));
}
public void Convert_ChangeType_InvalidType_ThrowsInvalidCastException()
{
var quantity = ElectricPotentialAc.FromVoltsAc(1.0);
Assert.Throws <InvalidCastException>(() => Convert.ChangeType(quantity, typeof(QuantityFormatter)));
}
public void GetHashCode_Equals()
{
var quantity = ElectricPotentialAc.FromVoltsAc(1.0);
Assert.Equal(new { ElectricPotentialAc.Info.Name, quantity.Value, quantity.Unit }.GetHashCode(), quantity.GetHashCode());
}
public void NegationOperator_ReturnsQuantity_WithNegatedValue(double value)
{
var quantity = ElectricPotentialAc.FromVoltsAc(value);
Assert.Equal(ElectricPotentialAc.FromVoltsAc(-value), -quantity);
}
