public static ApparentPower?Voltamperes <T>(this T?value) where T : struct => ApparentPower.FromVoltamperes(value == null ? (double?)null : Convert.ToDouble(value.Value));
public void EqualsReturnsFalseOnTypeMismatch() { ApparentPower voltampere = ApparentPower.FromVoltamperes(1); Assert.False(voltampere.Equals(new object())); }
public void NumberToVoltamperesTest() => Assert.Equal(ApparentPower.FromVoltamperes(2), 2.Voltamperes());
public void Ctor_WithNaNValue_CreateQuantityAndAffectNaNValue() { var nanQuantity = new ApparentPower(double.NaN, ApparentPowerUnit.Voltampere); Assert.True(double.IsNaN(nanQuantity.Value)); }
public void CompareToThrowsOnTypeMismatch() { ApparentPower voltampere = ApparentPower.FromVoltamperes(1); Assert.Throws <ArgumentException>(() => voltampere.CompareTo(new object())); }
public void Convert_ChangeType_BaseDimensions_EqualsBaseDimensions() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal(ApparentPower.BaseDimensions, Convert.ChangeType(quantity, typeof(BaseDimensions))); }
public void GetHashCode_Equals() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal(new { ApparentPower.QuantityType, quantity.Value, quantity.Unit }.GetHashCode(), quantity.GetHashCode()); }
public void ToString_NullArgs_ThrowsArgumentNullException() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Throws <ArgumentNullException>(() => quantity.ToString(null, "g", null)); }
public void ToString_NullProvider_EqualsCurrentUICulture() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal(quantity.ToString(CultureInfo.CurrentUICulture, "g"), quantity.ToString(null, "g")); }
public void FromVoltamperes_WithNanValue_CreateQuantityAndAffectNaNValue() { var nanQuantity = ApparentPower.FromVoltamperes(double.NaN); Assert.True(double.IsNaN(nanQuantity.Value)); }
public void Equals_NegativeRelativeTolerance_ThrowsArgumentOutOfRangeException() { var v = ApparentPower.FromVoltamperes(1); Assert.Throws <ArgumentOutOfRangeException>(() => v.Equals(ApparentPower.FromVoltamperes(1), -1, ComparisonType.Relative)); }
public void FromVoltamperes_WithNanValue_ThrowsArgumentException() { Assert.Throws <ArgumentException>(() => ApparentPower.FromVoltamperes(double.NaN)); }
public void FromVoltamperes_WithInfinityValue_ThrowsArgumentException() { Assert.Throws <ArgumentException>(() => ApparentPower.FromVoltamperes(double.PositiveInfinity)); Assert.Throws <ArgumentException>(() => ApparentPower.FromVoltamperes(double.NegativeInfinity)); }
/// <inheritdoc cref="ApparentPower.FromVoltamperes(UnitsNet.QuantityValue)" /> public static ApparentPower Voltamperes <T>(this T value) => ApparentPower.FromVoltamperes(Convert.ToDouble(value));
public void Convert_ChangeType_UnitType_EqualsUnit() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal(quantity.Unit, Convert.ChangeType(quantity, typeof(ApparentPowerUnit))); }
public void Convert_ToDateTime_ThrowsInvalidCastException() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Throws <InvalidCastException>(() => Convert.ToDateTime(quantity)); }
public void Convert_ChangeType_QuantityType_EqualsQuantityType() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal(QuantityType.ApparentPower, Convert.ChangeType(quantity, typeof(QuantityType))); }
public void Convert_ToDecimal_EqualsValueAsSameType() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal((decimal)quantity.Value, Convert.ToDecimal(quantity)); }
public void Convert_ChangeType_InvalidType_ThrowsInvalidCastException() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Throws <InvalidCastException>(() => Convert.ChangeType(quantity, typeof(QuantityFormatter))); }
public void Convert_ToInt32_EqualsValueAsSameType() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal((int)quantity.Value, Convert.ToInt32(quantity)); }
public void NegationOperator_ReturnsQuantity_WithNegatedValue(double value) { var quantity = ApparentPower.FromVoltamperes(value); Assert.Equal(ApparentPower.FromVoltamperes(-value), -quantity); }
public void Convert_ToSingle_EqualsValueAsSameType() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal((float)quantity.Value, Convert.ToSingle(quantity)); }
public void FromValueAndUnit() { AssertEx.EqualTolerance(1, ApparentPower.From(1, ApparentPowerUnit.Kilovoltampere).Kilovoltamperes, KilovoltamperesTolerance); AssertEx.EqualTolerance(1, ApparentPower.From(1, ApparentPowerUnit.Megavoltampere).Megavoltamperes, MegavoltamperesTolerance); AssertEx.EqualTolerance(1, ApparentPower.From(1, ApparentPowerUnit.Voltampere).Voltamperes, VoltamperesTolerance); }
public void Convert_ToString_EqualsToString() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal(quantity.ToString(), Convert.ToString(quantity)); }
public void CompareToThrowsOnNull() { ApparentPower voltampere = ApparentPower.FromVoltamperes(1); Assert.Throws <ArgumentNullException>(() => voltampere.CompareTo(null)); }
public void Convert_ToUInt64_EqualsValueAsSameType() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal((ulong)quantity.Value, Convert.ToUInt64(quantity)); }
public void EqualsReturnsFalseOnNull() { ApparentPower voltampere = ApparentPower.FromVoltamperes(1); Assert.False(voltampere.Equals(null)); }
public void Convert_ChangeType_SelfType_EqualsSelf() { var quantity = ApparentPower.FromVoltamperes(1.0); Assert.Equal(quantity, Convert.ChangeType(quantity, typeof(ApparentPower))); }
/// <inheritdoc cref="ApparentPower.FromMegavoltamperes(double)"/> public static ApparentPower Megavoltamperes(this float value) => ApparentPower.FromMegavoltamperes(value);
/// <inheritdoc cref="ApparentPower.FromKilovoltamperes(double?)"/> public static ApparentPower?Kilovoltamperes(this double?value) => ApparentPower.FromKilovoltamperes(value);