diff --git a/Common/UnitDefinitions/RadiationEquivalentDose.json b/Common/UnitDefinitions/RadiationEquivalentDose.json new file mode 100644 index 0000000000..85da7bbed3 --- /dev/null +++ b/Common/UnitDefinitions/RadiationEquivalentDose.json @@ -0,0 +1,48 @@ +{ + "Name": "RadiationEquivalentDose", + "BaseUnit": "Sievert", + "XmlDocSummary": "Equivalent dose is a dose quantity representing the stochastic health effects of low levels of ionizing radiation on the human body which represents the probability of radiation-induced cancer and genetic damage.", + "XmlDocsRemarks": "https://en.wikipedia.org/wiki/Equivalent_dose", + "BaseDimensions": { + "L": 2, + "T": -2 + }, + "Units": [ + { + "SingularName": "Sievert", + "PluralName": "Sieverts", + "FromUnitToBaseFunc": "{x}", + "FromBaseToUnitFunc": "{x}", + "BaseUnits": { + "L": "Meter", + "T": "Second" + }, + "Prefixes": [ "Nano", "Micro", "Milli" ], + "XmlDocSummary": "The sievert is a unit in the International System of Units (SI) intended to represent the stochastic health risk of ionizing radiation, which is defined as the probability of causing radiation-induced cancer and genetic damage.", + "XmlDocRemarks": "https://en.wikipedia.org/wiki/Sievert", + "Localization": [ + { + "Culture": "en-US", + "Abbreviations": [ "Sv" ] + }, + { + "Culture": "ru-RU", + "Abbreviations": [ "Зв" ] + } + ] + }, + { + "SingularName": "RoentgenEquivalentMan", + "PluralName": "RoentgensEquivalentMan", + "FromUnitToBaseFunc": "{x} / 100", + "FromBaseToUnitFunc": "{x} * 100", + "Prefixes": [ "Milli" ], + "Localization": [ + { + "Culture": "en-US", + "Abbreviations": [ "rem" ] + } + ] + } + ] +} \ No newline at end of file diff --git a/Common/UnitEnumValues.g.json b/Common/UnitEnumValues.g.json index 4d909db5bb..0e2a42e1d4 100644 --- a/Common/UnitEnumValues.g.json +++ b/Common/UnitEnumValues.g.json @@ -1835,5 +1835,15 @@ "Roentgen": 4, "Microroentgen": 12, "Milliroentgen": 13 + }, + "RadiationEquivalentDose": { + "Microsievert": 1, + "MilliroentgenEquivalentMan": 2, + "Millisievert": 7, + "Nanosievert": 5, + "RoentgenEquivalentMan": 4, + "Sievert": 9, + "Kilosievert": 3, + "Megasievert": 6 } } diff --git a/UnitsNet.NanoFramework/GeneratedCode/Quantities/RadiationEquivalentDose.g.cs b/UnitsNet.NanoFramework/GeneratedCode/Quantities/RadiationEquivalentDose.g.cs new file mode 100644 index 0000000000..585f14a5e0 --- /dev/null +++ b/UnitsNet.NanoFramework/GeneratedCode/Quantities/RadiationEquivalentDose.g.cs @@ -0,0 +1,224 @@ +//------------------------------------------------------------------------------ +// +// This code was generated by \generate-code.bat. +// +// Changes to this file will be lost when the code is regenerated. +// The build server regenerates the code before each build and a pre-build +// step will regenerate the code on each local build. +// +// See https://github.com/angularsen/UnitsNet/wiki/Adding-a-New-Unit for how to add or edit units. +// +// Add CustomCode\Quantities\MyQuantity.extra.cs files to add code to generated quantities. +// Add UnitDefinitions\MyQuantity.json and run generate-code.bat to generate new units or quantities. +// +// +//------------------------------------------------------------------------------ + +// Licensed under MIT No Attribution, see LICENSE file at the root. +// Copyright 2013 Andreas Gullberg Larsen (andreas.larsen84@gmail.com). Maintained at https://github.com/angularsen/UnitsNet. + +using System; +using UnitsNet.Units; + +namespace UnitsNet +{ + /// + /// + /// Equivalent dose is a dose quantity representing the stochastic health effects of low levels of ionizing radiation on the human body which represents the probability of radiation-induced cancer and genetic damage. + /// + public struct RadiationEquivalentDose + { + /// + /// The numeric value this quantity was constructed with. + /// + private readonly double _value; + + /// + /// The unit this quantity was constructed with. + /// + private readonly RadiationEquivalentDoseUnit _unit; + + /// + /// The numeric value this quantity was constructed with. + /// + public double Value => _value; + + /// + public RadiationEquivalentDoseUnit Unit => _unit; + + /// + /// Creates the quantity with the given numeric value and unit. + /// + /// The numeric value to construct this quantity with. + /// The unit representation to construct this quantity with. + /// If value is NaN or Infinity. + public RadiationEquivalentDose(double value, RadiationEquivalentDoseUnit unit) + { + _value = value; + _unit = unit; + } + + /// + /// The base unit of Duration, which is Second. All conversions go via this value. + /// + public static RadiationEquivalentDoseUnit BaseUnit { get; } = RadiationEquivalentDoseUnit.Sievert; + + /// + /// Represents the largest possible value of Duration + /// + public static RadiationEquivalentDose MaxValue { get; } = new RadiationEquivalentDose(double.MaxValue, BaseUnit); + + /// + /// Represents the smallest possible value of Duration + /// + public static RadiationEquivalentDose MinValue { get; } = new RadiationEquivalentDose(double.MinValue, BaseUnit); + + /// + /// Gets an instance of this quantity with a value of 0 in the base unit Second. + /// + public static RadiationEquivalentDose Zero { get; } = new RadiationEquivalentDose(0, BaseUnit); + #region Conversion Properties + + /// + /// Gets a value of this quantity converted into + /// + public double Microsieverts => As(RadiationEquivalentDoseUnit.Microsievert); + + /// + /// Gets a value of this quantity converted into + /// + public double MilliroentgensEquivalentMan => As(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan); + + /// + /// Gets a value of this quantity converted into + /// + public double Millisieverts => As(RadiationEquivalentDoseUnit.Millisievert); + + /// + /// Gets a value of this quantity converted into + /// + public double Nanosieverts => As(RadiationEquivalentDoseUnit.Nanosievert); + + /// + /// Gets a value of this quantity converted into + /// + public double RoentgensEquivalentMan => As(RadiationEquivalentDoseUnit.RoentgenEquivalentMan); + + /// + /// Gets a value of this quantity converted into + /// + public double Sieverts => As(RadiationEquivalentDoseUnit.Sievert); + + #endregion + + #region Static Factory Methods + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromMicrosieverts(double microsieverts) => new RadiationEquivalentDose(microsieverts, RadiationEquivalentDoseUnit.Microsievert); + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromMilliroentgensEquivalentMan(double milliroentgensequivalentman) => new RadiationEquivalentDose(milliroentgensequivalentman, RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan); + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromMillisieverts(double millisieverts) => new RadiationEquivalentDose(millisieverts, RadiationEquivalentDoseUnit.Millisievert); + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromNanosieverts(double nanosieverts) => new RadiationEquivalentDose(nanosieverts, RadiationEquivalentDoseUnit.Nanosievert); + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromRoentgensEquivalentMan(double roentgensequivalentman) => new RadiationEquivalentDose(roentgensequivalentman, RadiationEquivalentDoseUnit.RoentgenEquivalentMan); + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromSieverts(double sieverts) => new RadiationEquivalentDose(sieverts, RadiationEquivalentDoseUnit.Sievert); + + /// + /// Dynamically convert from value and unit enum to . + /// + /// Value to convert from. + /// Unit to convert from. + /// RadiationEquivalentDose unit value. + public static RadiationEquivalentDose From(double value, RadiationEquivalentDoseUnit fromUnit) + { + return new RadiationEquivalentDose(value, fromUnit); + } + + #endregion + + #region Conversion Methods + + /// + /// Convert to the unit representation . + /// + /// Value converted to the specified unit. + public double As(RadiationEquivalentDoseUnit unit) => GetValueAs(unit); + + /// + /// Converts this Duration to another Duration with the unit representation . + /// + /// A Duration with the specified unit. + public RadiationEquivalentDose ToUnit(RadiationEquivalentDoseUnit unit) + { + var convertedValue = GetValueAs(unit); + return new RadiationEquivalentDose(convertedValue, unit); + } + + /// + /// Converts the current value + unit to the base unit. + /// This is typically the first step in converting from one unit to another. + /// + /// The value in the base unit representation. + private double GetValueInBaseUnit() + { + return Unit switch + { + RadiationEquivalentDoseUnit.Microsievert => (_value) * 1e-6d, + RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan => (_value / 100) * 1e-3d, + RadiationEquivalentDoseUnit.Millisievert => (_value) * 1e-3d, + RadiationEquivalentDoseUnit.Nanosievert => (_value) * 1e-9d, + RadiationEquivalentDoseUnit.RoentgenEquivalentMan => _value / 100, + RadiationEquivalentDoseUnit.Sievert => _value, + _ => throw new NotImplementedException($"Can not convert {Unit} to base units.") + }; + } + + private double GetValueAs(RadiationEquivalentDoseUnit unit) + { + if (Unit == unit) + return _value; + + var baseUnitValue = GetValueInBaseUnit(); + + return unit switch + { + RadiationEquivalentDoseUnit.Microsievert => (baseUnitValue) / 1e-6d, + RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan => (baseUnitValue * 100) / 1e-3d, + RadiationEquivalentDoseUnit.Millisievert => (baseUnitValue) / 1e-3d, + RadiationEquivalentDoseUnit.Nanosievert => (baseUnitValue) / 1e-9d, + RadiationEquivalentDoseUnit.RoentgenEquivalentMan => baseUnitValue * 100, + RadiationEquivalentDoseUnit.Sievert => baseUnitValue, + _ => throw new NotImplementedException($"Can not convert {Unit} to {unit}.") + }; + } + + #endregion + } +} + diff --git a/UnitsNet.NanoFramework/GeneratedCode/RadiationEquivalentDose/RadiationEquivalentDose.nfproj b/UnitsNet.NanoFramework/GeneratedCode/RadiationEquivalentDose/RadiationEquivalentDose.nfproj new file mode 100644 index 0000000000..552e257f67 --- /dev/null +++ b/UnitsNet.NanoFramework/GeneratedCode/RadiationEquivalentDose/RadiationEquivalentDose.nfproj @@ -0,0 +1,42 @@ + + + + $(MSBuildExtensionsPath)\nanoFramework\v1.0\ + + + + Debug + AnyCPU + {11A8DD76-328B-46DF-9F39-F559912D0360};{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC} + {dcdccf04-c930-b455-77a4-d9d4a7df8723} + Library + Properties + 512 + UnitsNet + UnitsNet.RadiationEquivalentDose + v1.0 + bin\$(Configuration)\$(AssemblyName).xml + + + + + + + + + + ..\packages\nanoFramework.CoreLibrary.1.15.5\lib\mscorlib.dll + True + True + + + + + + + + + + + + diff --git a/UnitsNet.NanoFramework/GeneratedCode/RadiationEquivalentDose/UnitsNet.NanoFramework.RadiationEquivalentDose.nuspec b/UnitsNet.NanoFramework/GeneratedCode/RadiationEquivalentDose/UnitsNet.NanoFramework.RadiationEquivalentDose.nuspec new file mode 100644 index 0000000000..15c1a950a2 --- /dev/null +++ b/UnitsNet.NanoFramework/GeneratedCode/RadiationEquivalentDose/UnitsNet.NanoFramework.RadiationEquivalentDose.nuspec @@ -0,0 +1,26 @@ + + + + UnitsNet.nanoFramework.RadiationEquivalentDose + 5.42.0 + Units.NET RadiationEquivalentDose - nanoFramework + Andreas Gullberg Larsen,nanoframework + UnitsNet + MIT + https://github.com/angularsen/UnitsNet + false + Adds RadiationEquivalentDose units for Units.NET on .NET nanoFramework. For .NET or .NET Core, use UnitsNet instead. + https://raw.githubusercontent.com/angularsen/UnitsNet/ce85185429be345d77eb2ce09c99d59cc9ab8aed/Docs/Images/logo-32.png + + + Copyright 2013 Andreas Gullberg Larsen (andreas.larsen84@gmail.com). + en-US + nanoframework radiationequivalentdose unit units quantity quantities measurement si metric imperial abbreviation abbreviations convert conversion parse immutable + + + + + + + + diff --git a/UnitsNet.NanoFramework/GeneratedCode/RadiationEquivalentDose/packages.config b/UnitsNet.NanoFramework/GeneratedCode/RadiationEquivalentDose/packages.config new file mode 100644 index 0000000000..313a8dccdf --- /dev/null +++ b/UnitsNet.NanoFramework/GeneratedCode/RadiationEquivalentDose/packages.config @@ -0,0 +1,4 @@ + + + + diff --git a/UnitsNet.NanoFramework/GeneratedCode/Units/RadiationEquivalentDoseUnit.g.cs b/UnitsNet.NanoFramework/GeneratedCode/Units/RadiationEquivalentDoseUnit.g.cs new file mode 100644 index 0000000000..2095852833 --- /dev/null +++ b/UnitsNet.NanoFramework/GeneratedCode/Units/RadiationEquivalentDoseUnit.g.cs @@ -0,0 +1,42 @@ +//------------------------------------------------------------------------------ +// +// This code was generated by \generate-code.bat. +// +// Changes to this file will be lost when the code is regenerated. +// The build server regenerates the code before each build and a pre-build +// step will regenerate the code on each local build. +// +// See https://github.com/angularsen/UnitsNet/wiki/Adding-a-New-Unit for how to add or edit units. +// +// Add CustomCode\Quantities\MyQuantity.extra.cs files to add code to generated quantities. +// Add UnitDefinitions\MyQuantity.json and run generate-code.bat to generate new units or quantities. +// +// +//------------------------------------------------------------------------------ + +// Licensed under MIT No Attribution, see LICENSE file at the root. +// Copyright 2013 Andreas Gullberg Larsen (andreas.larsen84@gmail.com). Maintained at https://github.com/angularsen/UnitsNet. + +// ReSharper disable once CheckNamespace +namespace UnitsNet.Units +{ + // Disable missing XML comment warnings for the generated unit enums. + #pragma warning disable 1591 + + public enum RadiationEquivalentDoseUnit + { + Microsievert = 1, + MilliroentgenEquivalentMan = 2, + Millisievert = 7, + Nanosievert = 5, + RoentgenEquivalentMan = 4, + + /// + /// The sievert is a unit in the International System of Units (SI) intended to represent the stochastic health risk of ionizing radiation, which is defined as the probability of causing radiation-induced cancer and genetic damage. + /// + /// https://en.wikipedia.org/wiki/Sievert + Sievert = 9, + } + + #pragma warning restore 1591 +} diff --git a/UnitsNet.NanoFramework/GeneratedCode/UnitsNet.nanoFramework.sln b/UnitsNet.NanoFramework/GeneratedCode/UnitsNet.nanoFramework.sln index 4ae1dab440..d64098f57d 100644 --- a/UnitsNet.NanoFramework/GeneratedCode/UnitsNet.nanoFramework.sln +++ b/UnitsNet.NanoFramework/GeneratedCode/UnitsNet.nanoFramework.sln @@ -170,6 +170,8 @@ Project("{d608a2b1-6ead-4383-a205-ad1ce69d9ef7}") = "Pressure", "Pressure\Pressu EndProject Project("{d608a2b1-6ead-4383-a205-ad1ce69d9ef7}") = "PressureChangeRate", "PressureChangeRate\PressureChangeRate.nfproj", "{c9e4cfa9-c5d3-5e9d-243c-106ba4b6a447}" EndProject +Project("{d608a2b1-6ead-4383-a205-ad1ce69d9ef7}") = "RadiationEquivalentDose", "RadiationEquivalentDose\RadiationEquivalentDose.nfproj", "{dcdccf04-c930-b455-77a4-d9d4a7df8723}" +EndProject Project("{d608a2b1-6ead-4383-a205-ad1ce69d9ef7}") = "RadiationExposure", "RadiationExposure\RadiationExposure.nfproj", "{69b383c7-828a-1857-cbe2-f11b9ba77320}" EndProject Project("{d608a2b1-6ead-4383-a205-ad1ce69d9ef7}") = "Radioactivity", "Radioactivity\Radioactivity.nfproj", "{abf4b42f-e999-2a78-403f-fb09524f186a}" @@ -758,6 +760,12 @@ Global {c9e4cfa9-c5d3-5e9d-243c-106ba4b6a447}.Release|Any CPU.ActiveCfg = Release|Any CPU {c9e4cfa9-c5d3-5e9d-243c-106ba4b6a447}.Release|Any CPU.Build.0 = Release|Any CPU {c9e4cfa9-c5d3-5e9d-243c-106ba4b6a447}.Release|Any CPU.Deploy.0 = Release|Any CPU +{dcdccf04-c930-b455-77a4-d9d4a7df8723}.Debug|Any CPU.ActiveCfg = Debug|Any CPU +{dcdccf04-c930-b455-77a4-d9d4a7df8723}.Debug|Any CPU.Build.0 = Debug|Any CPU +{dcdccf04-c930-b455-77a4-d9d4a7df8723}.Debug|Any CPU.Deploy.0 = Debug|Any CPU +{dcdccf04-c930-b455-77a4-d9d4a7df8723}.Release|Any CPU.ActiveCfg = Release|Any CPU +{dcdccf04-c930-b455-77a4-d9d4a7df8723}.Release|Any CPU.Build.0 = Release|Any CPU +{dcdccf04-c930-b455-77a4-d9d4a7df8723}.Release|Any CPU.Deploy.0 = Release|Any CPU {69b383c7-828a-1857-cbe2-f11b9ba77320}.Debug|Any CPU.ActiveCfg = Debug|Any CPU {69b383c7-828a-1857-cbe2-f11b9ba77320}.Debug|Any CPU.Build.0 = Debug|Any CPU {69b383c7-828a-1857-cbe2-f11b9ba77320}.Debug|Any CPU.Deploy.0 = Debug|Any CPU diff --git a/UnitsNet.NumberExtensions.Tests/GeneratedCode/NumberToRadiationEquivalentDoseExtensionsTest.g.cs b/UnitsNet.NumberExtensions.Tests/GeneratedCode/NumberToRadiationEquivalentDoseExtensionsTest.g.cs new file mode 100644 index 0000000000..65aebc965b --- /dev/null +++ b/UnitsNet.NumberExtensions.Tests/GeneratedCode/NumberToRadiationEquivalentDoseExtensionsTest.g.cs @@ -0,0 +1,52 @@ +//------------------------------------------------------------------------------ +// +// This code was generated by \generate-code.bat. +// +// Changes to this file will be lost when the code is regenerated. +// The build server regenerates the code before each build and a pre-build +// step will regenerate the code on each local build. +// +// See https://github.com/angularsen/UnitsNet/wiki/Adding-a-New-Unit for how to add or edit units. +// +// Add CustomCode\Quantities\MyQuantity.extra.cs files to add code to generated quantities. +// Add UnitDefinitions\MyQuantity.json and run generate-code.bat to generate new units or quantities. +// +// +//------------------------------------------------------------------------------ + +// Licensed under MIT No Attribution, see LICENSE file at the root. +// Copyright 2013 Andreas Gullberg Larsen (andreas.larsen84@gmail.com). Maintained at https://github.com/angularsen/UnitsNet. + +using UnitsNet.NumberExtensions.NumberToRadiationEquivalentDose; +using Xunit; + +namespace UnitsNet.Tests +{ + public class NumberToRadiationEquivalentDoseExtensionsTests + { + [Fact] + public void NumberToMicrosievertsTest() => + Assert.Equal(RadiationEquivalentDose.FromMicrosieverts(2), 2.Microsieverts()); + + [Fact] + public void NumberToMilliroentgensEquivalentManTest() => + Assert.Equal(RadiationEquivalentDose.FromMilliroentgensEquivalentMan(2), 2.MilliroentgensEquivalentMan()); + + [Fact] + public void NumberToMillisievertsTest() => + Assert.Equal(RadiationEquivalentDose.FromMillisieverts(2), 2.Millisieverts()); + + [Fact] + public void NumberToNanosievertsTest() => + Assert.Equal(RadiationEquivalentDose.FromNanosieverts(2), 2.Nanosieverts()); + + [Fact] + public void NumberToRoentgensEquivalentManTest() => + Assert.Equal(RadiationEquivalentDose.FromRoentgensEquivalentMan(2), 2.RoentgensEquivalentMan()); + + [Fact] + public void NumberToSievertsTest() => + Assert.Equal(RadiationEquivalentDose.FromSieverts(2), 2.Sieverts()); + + } +} diff --git a/UnitsNet.NumberExtensions/GeneratedCode/NumberToRadiationEquivalentDoseExtensions.g.cs b/UnitsNet.NumberExtensions/GeneratedCode/NumberToRadiationEquivalentDoseExtensions.g.cs new file mode 100644 index 0000000000..695abca4f7 --- /dev/null +++ b/UnitsNet.NumberExtensions/GeneratedCode/NumberToRadiationEquivalentDoseExtensions.g.cs @@ -0,0 +1,84 @@ +//------------------------------------------------------------------------------ +// +// This code was generated by \generate-code.bat. +// +// Changes to this file will be lost when the code is regenerated. +// The build server regenerates the code before each build and a pre-build +// step will regenerate the code on each local build. +// +// See https://github.com/angularsen/UnitsNet/wiki/Adding-a-New-Unit for how to add or edit units. +// +// Add CustomCode\Quantities\MyQuantity.extra.cs files to add code to generated quantities. +// Add UnitDefinitions\MyQuantity.json and run generate-code.bat to generate new units or quantities. +// +// +//------------------------------------------------------------------------------ + +// Licensed under MIT No Attribution, see LICENSE file at the root. +// Copyright 2013 Andreas Gullberg Larsen (andreas.larsen84@gmail.com). Maintained at https://github.com/angularsen/UnitsNet. + +using System; + +#if NET7_0_OR_GREATER +using System.Numerics; +#endif + +#nullable enable + +namespace UnitsNet.NumberExtensions.NumberToRadiationEquivalentDose +{ + /// + /// A number to RadiationEquivalentDose Extensions + /// + public static class NumberToRadiationEquivalentDoseExtensions + { + /// + public static RadiationEquivalentDose Microsieverts(this T value) + where T : notnull +#if NET7_0_OR_GREATER + , INumber +#endif + => RadiationEquivalentDose.FromMicrosieverts(Convert.ToDouble(value)); + + /// + public static RadiationEquivalentDose MilliroentgensEquivalentMan(this T value) + where T : notnull +#if NET7_0_OR_GREATER + , INumber +#endif + => RadiationEquivalentDose.FromMilliroentgensEquivalentMan(Convert.ToDouble(value)); + + /// + public static RadiationEquivalentDose Millisieverts(this T value) + where T : notnull +#if NET7_0_OR_GREATER + , INumber +#endif + => RadiationEquivalentDose.FromMillisieverts(Convert.ToDouble(value)); + + /// + public static RadiationEquivalentDose Nanosieverts(this T value) + where T : notnull +#if NET7_0_OR_GREATER + , INumber +#endif + => RadiationEquivalentDose.FromNanosieverts(Convert.ToDouble(value)); + + /// + public static RadiationEquivalentDose RoentgensEquivalentMan(this T value) + where T : notnull +#if NET7_0_OR_GREATER + , INumber +#endif + => RadiationEquivalentDose.FromRoentgensEquivalentMan(Convert.ToDouble(value)); + + /// + public static RadiationEquivalentDose Sieverts(this T value) + where T : notnull +#if NET7_0_OR_GREATER + , INumber +#endif + => RadiationEquivalentDose.FromSieverts(Convert.ToDouble(value)); + + } +} diff --git a/UnitsNet.Tests/CustomCode/RadiationEquivalentDoseTests.cs b/UnitsNet.Tests/CustomCode/RadiationEquivalentDoseTests.cs new file mode 100644 index 0000000000..717fc0410a --- /dev/null +++ b/UnitsNet.Tests/CustomCode/RadiationEquivalentDoseTests.cs @@ -0,0 +1,19 @@ +// Licensed under MIT No Attribution, see LICENSE file at the root. +// Copyright 2013 Andreas Gullberg Larsen (andreas.larsen84@gmail.com). Maintained at https://github.com/angularsen/UnitsNet. + +using System; + +namespace UnitsNet.Tests.CustomCode +{ + public class RadiationEquivalentDoseTests : RadiationEquivalentDoseTestsBase + { + protected override bool SupportsSIUnitSystem => true; + + protected override double SievertsInOneSievert => 1; + protected override double MillisievertsInOneSievert => 1e+3; + protected override double MicrosievertsInOneSievert => 1e+6; + protected override double NanosievertsInOneSievert => 1e+9; + protected override double MilliroentgensEquivalentManInOneSievert => 1e+5; + protected override double RoentgensEquivalentManInOneSievert => 100; + } +} diff --git a/UnitsNet.Tests/GeneratedCode/IQuantityTests.g.cs b/UnitsNet.Tests/GeneratedCode/IQuantityTests.g.cs index adfc1e4d48..7dc41682e2 100644 --- a/UnitsNet.Tests/GeneratedCode/IQuantityTests.g.cs +++ b/UnitsNet.Tests/GeneratedCode/IQuantityTests.g.cs @@ -118,6 +118,7 @@ void Assertion(int expectedValue, Enum expectedUnit, IQuantity quantity) Assertion(3, PowerRatioUnit.DecibelWatt, Quantity.From(3, PowerRatioUnit.DecibelWatt)); Assertion(3, PressureUnit.Torr, Quantity.From(3, PressureUnit.Torr)); Assertion(3, PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, Quantity.From(3, PressureChangeRateUnit.PoundForcePerSquareInchPerSecond)); + Assertion(3, RadiationEquivalentDoseUnit.Sievert, Quantity.From(3, RadiationEquivalentDoseUnit.Sievert)); Assertion(3, RadiationExposureUnit.Roentgen, Quantity.From(3, RadiationExposureUnit.Roentgen)); Assertion(3, RadioactivityUnit.Terarutherford, Quantity.From(3, RadioactivityUnit.Terarutherford)); Assertion(3, RatioUnit.Percent, Quantity.From(3, RatioUnit.Percent)); @@ -248,6 +249,7 @@ public void QuantityInfo_IsSameAsStaticInfoProperty() Assertion(PowerRatio.Info, PowerRatio.Zero); Assertion(Pressure.Info, Pressure.Zero); Assertion(PressureChangeRate.Info, PressureChangeRate.Zero); + Assertion(RadiationEquivalentDose.Info, RadiationEquivalentDose.Zero); Assertion(RadiationExposure.Info, RadiationExposure.Zero); Assertion(Radioactivity.Info, Radioactivity.Zero); Assertion(Ratio.Info, Ratio.Zero); @@ -378,6 +380,7 @@ public void Dimensions_IsSameAsStaticBaseDimensions() Assertion(PowerRatio.BaseDimensions, PowerRatio.Zero); Assertion(Pressure.BaseDimensions, Pressure.Zero); Assertion(PressureChangeRate.BaseDimensions, PressureChangeRate.Zero); + Assertion(RadiationEquivalentDose.BaseDimensions, RadiationEquivalentDose.Zero); Assertion(RadiationExposure.BaseDimensions, RadiationExposure.Zero); Assertion(Radioactivity.BaseDimensions, Radioactivity.Zero); Assertion(Ratio.BaseDimensions, Ratio.Zero); diff --git a/UnitsNet.Tests/GeneratedCode/TestsBase/RadiationEquivalentDoseTestsBase.g.cs b/UnitsNet.Tests/GeneratedCode/TestsBase/RadiationEquivalentDoseTestsBase.g.cs new file mode 100644 index 0000000000..9d7c3a2577 --- /dev/null +++ b/UnitsNet.Tests/GeneratedCode/TestsBase/RadiationEquivalentDoseTestsBase.g.cs @@ -0,0 +1,912 @@ +//------------------------------------------------------------------------------ +// +// This code was generated by \generate-code.bat. +// +// Changes to this file will be lost when the code is regenerated. +// The build server regenerates the code before each build and a pre-build +// step will regenerate the code on each local build. +// +// See https://github.com/angularsen/UnitsNet/wiki/Adding-a-New-Unit for how to add or edit units. +// +// Add CustomCode\Quantities\MyQuantity.extra.cs files to add code to generated quantities. +// Add UnitDefinitions\MyQuantity.json and run generate-code.bat to generate new units or quantities. +// +// +//------------------------------------------------------------------------------ + +// Licensed under MIT No Attribution, see LICENSE file at the root. +// Copyright 2013 Andreas Gullberg Larsen (andreas.larsen84@gmail.com). Maintained at https://github.com/angularsen/UnitsNet. + +using System; +using System.Collections.Generic; +using System.Globalization; +using System.Linq; +using System.Threading; +using UnitsNet.Tests.TestsBase; +using UnitsNet.Units; +using Xunit; + +// Disable build warning CS1718: Comparison made to same variable; did you mean to compare something else? +#pragma warning disable 1718 + +// ReSharper disable once CheckNamespace +namespace UnitsNet.Tests +{ + /// + /// Test of RadiationEquivalentDose. + /// +// ReSharper disable once PartialTypeWithSinglePart + public abstract partial class RadiationEquivalentDoseTestsBase : QuantityTestsBase + { + protected abstract double MicrosievertsInOneSievert { get; } + protected abstract double MilliroentgensEquivalentManInOneSievert { get; } + protected abstract double MillisievertsInOneSievert { get; } + protected abstract double NanosievertsInOneSievert { get; } + protected abstract double RoentgensEquivalentManInOneSievert { get; } + protected abstract double SievertsInOneSievert { get; } + +// ReSharper disable VirtualMemberNeverOverriden.Global + protected virtual double MicrosievertsTolerance { get { return 1e-5; } } + protected virtual double MilliroentgensEquivalentManTolerance { get { return 1e-5; } } + protected virtual double MillisievertsTolerance { get { return 1e-5; } } + protected virtual double NanosievertsTolerance { get { return 1e-5; } } + protected virtual double RoentgensEquivalentManTolerance { get { return 1e-5; } } + protected virtual double SievertsTolerance { get { return 1e-5; } } +// ReSharper restore VirtualMemberNeverOverriden.Global + + protected (double UnitsInBaseUnit, double Tolerence) GetConversionFactor(RadiationEquivalentDoseUnit unit) + { + return unit switch + { + RadiationEquivalentDoseUnit.Microsievert => (MicrosievertsInOneSievert, MicrosievertsTolerance), + RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan => (MilliroentgensEquivalentManInOneSievert, MilliroentgensEquivalentManTolerance), + RadiationEquivalentDoseUnit.Millisievert => (MillisievertsInOneSievert, MillisievertsTolerance), + RadiationEquivalentDoseUnit.Nanosievert => (NanosievertsInOneSievert, NanosievertsTolerance), + RadiationEquivalentDoseUnit.RoentgenEquivalentMan => (RoentgensEquivalentManInOneSievert, RoentgensEquivalentManTolerance), + RadiationEquivalentDoseUnit.Sievert => (SievertsInOneSievert, SievertsTolerance), + _ => throw new NotSupportedException() + }; + } + + public static IEnumerable UnitTypes = new List + { + new object[] { RadiationEquivalentDoseUnit.Microsievert }, + new object[] { RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan }, + new object[] { RadiationEquivalentDoseUnit.Millisievert }, + new object[] { RadiationEquivalentDoseUnit.Nanosievert }, + new object[] { RadiationEquivalentDoseUnit.RoentgenEquivalentMan }, + new object[] { RadiationEquivalentDoseUnit.Sievert }, + }; + + [Fact] + public void DefaultCtor_ReturnsQuantityWithZeroValueAndBaseUnit() + { + var quantity = new RadiationEquivalentDose(); + Assert.Equal(0, quantity.Value); + Assert.Equal(RadiationEquivalentDoseUnit.Sievert, quantity.Unit); + } + + [Fact] + public void Ctor_WithInfinityValue_ThrowsArgumentException() + { + Assert.Throws(() => new RadiationEquivalentDose(double.PositiveInfinity, RadiationEquivalentDoseUnit.Sievert)); + Assert.Throws(() => new RadiationEquivalentDose(double.NegativeInfinity, RadiationEquivalentDoseUnit.Sievert)); + } + + [Fact] + public void Ctor_WithNaNValue_ThrowsArgumentException() + { + Assert.Throws(() => new RadiationEquivalentDose(double.NaN, RadiationEquivalentDoseUnit.Sievert)); + } + + [Fact] + public void Ctor_NullAsUnitSystem_ThrowsArgumentNullException() + { + Assert.Throws(() => new RadiationEquivalentDose(value: 1, unitSystem: null)); + } + + [Fact] + public void Ctor_SIUnitSystem_ThrowsArgumentExceptionIfNotSupported() + { + Func TestCode = () => new RadiationEquivalentDose(value: 1, unitSystem: UnitSystem.SI); + if (SupportsSIUnitSystem) + { + var quantity = (RadiationEquivalentDose) TestCode(); + Assert.Equal(1, quantity.Value); + } + else + { + Assert.Throws(TestCode); + } + } + + [Fact] + public void RadiationEquivalentDose_QuantityInfo_ReturnsQuantityInfoDescribingQuantity() + { + var quantity = new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.Sievert); + + QuantityInfo quantityInfo = quantity.QuantityInfo; + + Assert.Equal(RadiationEquivalentDose.Zero, quantityInfo.Zero); + Assert.Equal("RadiationEquivalentDose", quantityInfo.Name); + + var units = EnumUtils.GetEnumValues().OrderBy(x => x.ToString()).ToArray(); + var unitNames = units.Select(x => x.ToString()); + } + + [Fact] + public void SievertToRadiationEquivalentDoseUnits() + { + RadiationEquivalentDose sievert = RadiationEquivalentDose.FromSieverts(1); + AssertEx.EqualTolerance(MicrosievertsInOneSievert, sievert.Microsieverts, MicrosievertsTolerance); + AssertEx.EqualTolerance(MilliroentgensEquivalentManInOneSievert, sievert.MilliroentgensEquivalentMan, MilliroentgensEquivalentManTolerance); + AssertEx.EqualTolerance(MillisievertsInOneSievert, sievert.Millisieverts, MillisievertsTolerance); + AssertEx.EqualTolerance(NanosievertsInOneSievert, sievert.Nanosieverts, NanosievertsTolerance); + AssertEx.EqualTolerance(RoentgensEquivalentManInOneSievert, sievert.RoentgensEquivalentMan, RoentgensEquivalentManTolerance); + AssertEx.EqualTolerance(SievertsInOneSievert, sievert.Sieverts, SievertsTolerance); + } + + [Fact] + public void From_ValueAndUnit_ReturnsQuantityWithSameValueAndUnit() + { + var quantity00 = RadiationEquivalentDose.From(1, RadiationEquivalentDoseUnit.Microsievert); + AssertEx.EqualTolerance(1, quantity00.Microsieverts, MicrosievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Microsievert, quantity00.Unit); + + var quantity01 = RadiationEquivalentDose.From(1, RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan); + AssertEx.EqualTolerance(1, quantity01.MilliroentgensEquivalentMan, MilliroentgensEquivalentManTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan, quantity01.Unit); + + var quantity02 = RadiationEquivalentDose.From(1, RadiationEquivalentDoseUnit.Millisievert); + AssertEx.EqualTolerance(1, quantity02.Millisieverts, MillisievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Millisievert, quantity02.Unit); + + var quantity03 = RadiationEquivalentDose.From(1, RadiationEquivalentDoseUnit.Nanosievert); + AssertEx.EqualTolerance(1, quantity03.Nanosieverts, NanosievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Nanosievert, quantity03.Unit); + + var quantity04 = RadiationEquivalentDose.From(1, RadiationEquivalentDoseUnit.RoentgenEquivalentMan); + AssertEx.EqualTolerance(1, quantity04.RoentgensEquivalentMan, RoentgensEquivalentManTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.RoentgenEquivalentMan, quantity04.Unit); + + var quantity05 = RadiationEquivalentDose.From(1, RadiationEquivalentDoseUnit.Sievert); + AssertEx.EqualTolerance(1, quantity05.Sieverts, SievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Sievert, quantity05.Unit); + + } + + [Fact] + public void FromSieverts_WithInfinityValue_ThrowsArgumentException() + { + Assert.Throws(() => RadiationEquivalentDose.FromSieverts(double.PositiveInfinity)); + Assert.Throws(() => RadiationEquivalentDose.FromSieverts(double.NegativeInfinity)); + } + + [Fact] + public void FromSieverts_WithNanValue_ThrowsArgumentException() + { + Assert.Throws(() => RadiationEquivalentDose.FromSieverts(double.NaN)); + } + + [Fact] + public void As() + { + var sievert = RadiationEquivalentDose.FromSieverts(1); + AssertEx.EqualTolerance(MicrosievertsInOneSievert, sievert.As(RadiationEquivalentDoseUnit.Microsievert), MicrosievertsTolerance); + AssertEx.EqualTolerance(MilliroentgensEquivalentManInOneSievert, sievert.As(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan), MilliroentgensEquivalentManTolerance); + AssertEx.EqualTolerance(MillisievertsInOneSievert, sievert.As(RadiationEquivalentDoseUnit.Millisievert), MillisievertsTolerance); + AssertEx.EqualTolerance(NanosievertsInOneSievert, sievert.As(RadiationEquivalentDoseUnit.Nanosievert), NanosievertsTolerance); + AssertEx.EqualTolerance(RoentgensEquivalentManInOneSievert, sievert.As(RadiationEquivalentDoseUnit.RoentgenEquivalentMan), RoentgensEquivalentManTolerance); + AssertEx.EqualTolerance(SievertsInOneSievert, sievert.As(RadiationEquivalentDoseUnit.Sievert), SievertsTolerance); + } + + [Fact] + public void As_SIUnitSystem_ThrowsArgumentExceptionIfNotSupported() + { + var quantity = new RadiationEquivalentDose(value: 1, unit: RadiationEquivalentDose.BaseUnit); + Func AsWithSIUnitSystem = () => quantity.As(UnitSystem.SI); + + if (SupportsSIUnitSystem) + { + var value = Convert.ToDouble(AsWithSIUnitSystem()); + Assert.Equal(1, value); + } + else + { + Assert.Throws(AsWithSIUnitSystem); + } + } + + [Fact] + public void Parse() + { + try + { + var parsed = RadiationEquivalentDose.Parse("1 µSv", CultureInfo.GetCultureInfo("en-US")); + AssertEx.EqualTolerance(1, parsed.Microsieverts, MicrosievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Microsievert, parsed.Unit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsed = RadiationEquivalentDose.Parse("1 мкЗв", CultureInfo.GetCultureInfo("ru-RU")); + AssertEx.EqualTolerance(1, parsed.Microsieverts, MicrosievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Microsievert, parsed.Unit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsed = RadiationEquivalentDose.Parse("1 mrem", CultureInfo.GetCultureInfo("en-US")); + AssertEx.EqualTolerance(1, parsed.MilliroentgensEquivalentMan, MilliroentgensEquivalentManTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan, parsed.Unit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsed = RadiationEquivalentDose.Parse("1 mSv", CultureInfo.GetCultureInfo("en-US")); + AssertEx.EqualTolerance(1, parsed.Millisieverts, MillisievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Millisievert, parsed.Unit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsed = RadiationEquivalentDose.Parse("1 мЗв", CultureInfo.GetCultureInfo("ru-RU")); + AssertEx.EqualTolerance(1, parsed.Millisieverts, MillisievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Millisievert, parsed.Unit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsed = RadiationEquivalentDose.Parse("1 nSv", CultureInfo.GetCultureInfo("en-US")); + AssertEx.EqualTolerance(1, parsed.Nanosieverts, NanosievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Nanosievert, parsed.Unit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsed = RadiationEquivalentDose.Parse("1 нЗв", CultureInfo.GetCultureInfo("ru-RU")); + AssertEx.EqualTolerance(1, parsed.Nanosieverts, NanosievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Nanosievert, parsed.Unit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsed = RadiationEquivalentDose.Parse("1 rem", CultureInfo.GetCultureInfo("en-US")); + AssertEx.EqualTolerance(1, parsed.RoentgensEquivalentMan, RoentgensEquivalentManTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.RoentgenEquivalentMan, parsed.Unit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsed = RadiationEquivalentDose.Parse("1 Sv", CultureInfo.GetCultureInfo("en-US")); + AssertEx.EqualTolerance(1, parsed.Sieverts, SievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Sievert, parsed.Unit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsed = RadiationEquivalentDose.Parse("1 Зв", CultureInfo.GetCultureInfo("ru-RU")); + AssertEx.EqualTolerance(1, parsed.Sieverts, SievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Sievert, parsed.Unit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + } + + [Fact] + public void TryParse() + { + { + Assert.True(RadiationEquivalentDose.TryParse("1 µSv", CultureInfo.GetCultureInfo("en-US"), out var parsed)); + AssertEx.EqualTolerance(1, parsed.Microsieverts, MicrosievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Microsievert, parsed.Unit); + } + + { + Assert.True(RadiationEquivalentDose.TryParse("1 мкЗв", CultureInfo.GetCultureInfo("ru-RU"), out var parsed)); + AssertEx.EqualTolerance(1, parsed.Microsieverts, MicrosievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Microsievert, parsed.Unit); + } + + { + Assert.True(RadiationEquivalentDose.TryParse("1 mrem", CultureInfo.GetCultureInfo("en-US"), out var parsed)); + AssertEx.EqualTolerance(1, parsed.MilliroentgensEquivalentMan, MilliroentgensEquivalentManTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan, parsed.Unit); + } + + { + Assert.True(RadiationEquivalentDose.TryParse("1 mSv", CultureInfo.GetCultureInfo("en-US"), out var parsed)); + AssertEx.EqualTolerance(1, parsed.Millisieverts, MillisievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Millisievert, parsed.Unit); + } + + { + Assert.True(RadiationEquivalentDose.TryParse("1 мЗв", CultureInfo.GetCultureInfo("ru-RU"), out var parsed)); + AssertEx.EqualTolerance(1, parsed.Millisieverts, MillisievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Millisievert, parsed.Unit); + } + + { + Assert.True(RadiationEquivalentDose.TryParse("1 nSv", CultureInfo.GetCultureInfo("en-US"), out var parsed)); + AssertEx.EqualTolerance(1, parsed.Nanosieverts, NanosievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Nanosievert, parsed.Unit); + } + + { + Assert.True(RadiationEquivalentDose.TryParse("1 нЗв", CultureInfo.GetCultureInfo("ru-RU"), out var parsed)); + AssertEx.EqualTolerance(1, parsed.Nanosieverts, NanosievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Nanosievert, parsed.Unit); + } + + { + Assert.True(RadiationEquivalentDose.TryParse("1 rem", CultureInfo.GetCultureInfo("en-US"), out var parsed)); + AssertEx.EqualTolerance(1, parsed.RoentgensEquivalentMan, RoentgensEquivalentManTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.RoentgenEquivalentMan, parsed.Unit); + } + + { + Assert.True(RadiationEquivalentDose.TryParse("1 Sv", CultureInfo.GetCultureInfo("en-US"), out var parsed)); + AssertEx.EqualTolerance(1, parsed.Sieverts, SievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Sievert, parsed.Unit); + } + + { + Assert.True(RadiationEquivalentDose.TryParse("1 Зв", CultureInfo.GetCultureInfo("ru-RU"), out var parsed)); + AssertEx.EqualTolerance(1, parsed.Sieverts, SievertsTolerance); + Assert.Equal(RadiationEquivalentDoseUnit.Sievert, parsed.Unit); + } + + } + + [Fact] + public void ParseUnit() + { + try + { + var parsedUnit = RadiationEquivalentDose.ParseUnit("µSv", CultureInfo.GetCultureInfo("en-US")); + Assert.Equal(RadiationEquivalentDoseUnit.Microsievert, parsedUnit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsedUnit = RadiationEquivalentDose.ParseUnit("мкЗв", CultureInfo.GetCultureInfo("ru-RU")); + Assert.Equal(RadiationEquivalentDoseUnit.Microsievert, parsedUnit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsedUnit = RadiationEquivalentDose.ParseUnit("mrem", CultureInfo.GetCultureInfo("en-US")); + Assert.Equal(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan, parsedUnit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsedUnit = RadiationEquivalentDose.ParseUnit("mSv", CultureInfo.GetCultureInfo("en-US")); + Assert.Equal(RadiationEquivalentDoseUnit.Millisievert, parsedUnit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsedUnit = RadiationEquivalentDose.ParseUnit("мЗв", CultureInfo.GetCultureInfo("ru-RU")); + Assert.Equal(RadiationEquivalentDoseUnit.Millisievert, parsedUnit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsedUnit = RadiationEquivalentDose.ParseUnit("nSv", CultureInfo.GetCultureInfo("en-US")); + Assert.Equal(RadiationEquivalentDoseUnit.Nanosievert, parsedUnit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsedUnit = RadiationEquivalentDose.ParseUnit("нЗв", CultureInfo.GetCultureInfo("ru-RU")); + Assert.Equal(RadiationEquivalentDoseUnit.Nanosievert, parsedUnit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsedUnit = RadiationEquivalentDose.ParseUnit("rem", CultureInfo.GetCultureInfo("en-US")); + Assert.Equal(RadiationEquivalentDoseUnit.RoentgenEquivalentMan, parsedUnit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsedUnit = RadiationEquivalentDose.ParseUnit("Sv", CultureInfo.GetCultureInfo("en-US")); + Assert.Equal(RadiationEquivalentDoseUnit.Sievert, parsedUnit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + try + { + var parsedUnit = RadiationEquivalentDose.ParseUnit("Зв", CultureInfo.GetCultureInfo("ru-RU")); + Assert.Equal(RadiationEquivalentDoseUnit.Sievert, parsedUnit); + } catch (AmbiguousUnitParseException) { /* Some units have the same abbreviations */ } + + } + + [Fact] + public void TryParseUnit() + { + { + Assert.True(RadiationEquivalentDose.TryParseUnit("µSv", CultureInfo.GetCultureInfo("en-US"), out var parsedUnit)); + Assert.Equal(RadiationEquivalentDoseUnit.Microsievert, parsedUnit); + } + + { + Assert.True(RadiationEquivalentDose.TryParseUnit("мкЗв", CultureInfo.GetCultureInfo("ru-RU"), out var parsedUnit)); + Assert.Equal(RadiationEquivalentDoseUnit.Microsievert, parsedUnit); + } + + { + Assert.True(RadiationEquivalentDose.TryParseUnit("mrem", CultureInfo.GetCultureInfo("en-US"), out var parsedUnit)); + Assert.Equal(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan, parsedUnit); + } + + { + Assert.True(RadiationEquivalentDose.TryParseUnit("mSv", CultureInfo.GetCultureInfo("en-US"), out var parsedUnit)); + Assert.Equal(RadiationEquivalentDoseUnit.Millisievert, parsedUnit); + } + + { + Assert.True(RadiationEquivalentDose.TryParseUnit("мЗв", CultureInfo.GetCultureInfo("ru-RU"), out var parsedUnit)); + Assert.Equal(RadiationEquivalentDoseUnit.Millisievert, parsedUnit); + } + + { + Assert.True(RadiationEquivalentDose.TryParseUnit("nSv", CultureInfo.GetCultureInfo("en-US"), out var parsedUnit)); + Assert.Equal(RadiationEquivalentDoseUnit.Nanosievert, parsedUnit); + } + + { + Assert.True(RadiationEquivalentDose.TryParseUnit("нЗв", CultureInfo.GetCultureInfo("ru-RU"), out var parsedUnit)); + Assert.Equal(RadiationEquivalentDoseUnit.Nanosievert, parsedUnit); + } + + { + Assert.True(RadiationEquivalentDose.TryParseUnit("rem", CultureInfo.GetCultureInfo("en-US"), out var parsedUnit)); + Assert.Equal(RadiationEquivalentDoseUnit.RoentgenEquivalentMan, parsedUnit); + } + + { + Assert.True(RadiationEquivalentDose.TryParseUnit("Sv", CultureInfo.GetCultureInfo("en-US"), out var parsedUnit)); + Assert.Equal(RadiationEquivalentDoseUnit.Sievert, parsedUnit); + } + + { + Assert.True(RadiationEquivalentDose.TryParseUnit("Зв", CultureInfo.GetCultureInfo("ru-RU"), out var parsedUnit)); + Assert.Equal(RadiationEquivalentDoseUnit.Sievert, parsedUnit); + } + + } + + [Theory] + [MemberData(nameof(UnitTypes))] + public void ToUnit(RadiationEquivalentDoseUnit unit) + { + var inBaseUnits = RadiationEquivalentDose.From(1.0, RadiationEquivalentDose.BaseUnit); + var converted = inBaseUnits.ToUnit(unit); + + var conversionFactor = GetConversionFactor(unit); + AssertEx.EqualTolerance(conversionFactor.UnitsInBaseUnit, converted.Value, conversionFactor.Tolerence); + Assert.Equal(unit, converted.Unit); + } + + [Theory] + [MemberData(nameof(UnitTypes))] + public void ToUnit_WithSameUnits_AreEqual(RadiationEquivalentDoseUnit unit) + { + var quantity = RadiationEquivalentDose.From(3.0, unit); + var toUnitWithSameUnit = quantity.ToUnit(unit); + Assert.Equal(quantity, toUnitWithSameUnit); + } + + [Theory] + [MemberData(nameof(UnitTypes))] + public void ToUnit_FromNonBaseUnit_ReturnsQuantityWithGivenUnit(RadiationEquivalentDoseUnit unit) + { + // See if there is a unit available that is not the base unit, fallback to base unit if it has only a single unit. + var fromUnit = RadiationEquivalentDose.Units.First(u => u != RadiationEquivalentDose.BaseUnit); + + var quantity = RadiationEquivalentDose.From(3.0, fromUnit); + var converted = quantity.ToUnit(unit); + Assert.Equal(converted.Unit, unit); + } + + [Theory] + [MemberData(nameof(UnitTypes))] + public virtual void ToUnit_FromDefaultQuantity_ReturnsQuantityWithGivenUnit(RadiationEquivalentDoseUnit unit) + { + var quantity = default(RadiationEquivalentDose); + var converted = quantity.ToUnit(unit); + Assert.Equal(converted.Unit, unit); + } + + [Fact] + public void ConversionRoundTrip() + { + RadiationEquivalentDose sievert = RadiationEquivalentDose.FromSieverts(1); + AssertEx.EqualTolerance(1, RadiationEquivalentDose.FromMicrosieverts(sievert.Microsieverts).Sieverts, MicrosievertsTolerance); + AssertEx.EqualTolerance(1, RadiationEquivalentDose.FromMilliroentgensEquivalentMan(sievert.MilliroentgensEquivalentMan).Sieverts, MilliroentgensEquivalentManTolerance); + AssertEx.EqualTolerance(1, RadiationEquivalentDose.FromMillisieverts(sievert.Millisieverts).Sieverts, MillisievertsTolerance); + AssertEx.EqualTolerance(1, RadiationEquivalentDose.FromNanosieverts(sievert.Nanosieverts).Sieverts, NanosievertsTolerance); + AssertEx.EqualTolerance(1, RadiationEquivalentDose.FromRoentgensEquivalentMan(sievert.RoentgensEquivalentMan).Sieverts, RoentgensEquivalentManTolerance); + AssertEx.EqualTolerance(1, RadiationEquivalentDose.FromSieverts(sievert.Sieverts).Sieverts, SievertsTolerance); + } + + [Fact] + public void ArithmeticOperators() + { + RadiationEquivalentDose v = RadiationEquivalentDose.FromSieverts(1); + AssertEx.EqualTolerance(-1, -v.Sieverts, SievertsTolerance); + AssertEx.EqualTolerance(2, (RadiationEquivalentDose.FromSieverts(3)-v).Sieverts, SievertsTolerance); + AssertEx.EqualTolerance(2, (v + v).Sieverts, SievertsTolerance); + AssertEx.EqualTolerance(10, (v*10).Sieverts, SievertsTolerance); + AssertEx.EqualTolerance(10, (10*v).Sieverts, SievertsTolerance); + AssertEx.EqualTolerance(2, (RadiationEquivalentDose.FromSieverts(10)/5).Sieverts, SievertsTolerance); + AssertEx.EqualTolerance(2, RadiationEquivalentDose.FromSieverts(10)/RadiationEquivalentDose.FromSieverts(5), SievertsTolerance); + } + + [Fact] + public void ComparisonOperators() + { + RadiationEquivalentDose oneSievert = RadiationEquivalentDose.FromSieverts(1); + RadiationEquivalentDose twoSieverts = RadiationEquivalentDose.FromSieverts(2); + + Assert.True(oneSievert < twoSieverts); + Assert.True(oneSievert <= twoSieverts); + Assert.True(twoSieverts > oneSievert); + Assert.True(twoSieverts >= oneSievert); + + Assert.False(oneSievert > twoSieverts); + Assert.False(oneSievert >= twoSieverts); + Assert.False(twoSieverts < oneSievert); + Assert.False(twoSieverts <= oneSievert); + } + + [Fact] + public void CompareToIsImplemented() + { + RadiationEquivalentDose sievert = RadiationEquivalentDose.FromSieverts(1); + Assert.Equal(0, sievert.CompareTo(sievert)); + Assert.True(sievert.CompareTo(RadiationEquivalentDose.Zero) > 0); + Assert.True(RadiationEquivalentDose.Zero.CompareTo(sievert) < 0); + } + + [Fact] + public void CompareToThrowsOnTypeMismatch() + { + RadiationEquivalentDose sievert = RadiationEquivalentDose.FromSieverts(1); + Assert.Throws(() => sievert.CompareTo(new object())); + } + + [Fact] + public void CompareToThrowsOnNull() + { + RadiationEquivalentDose sievert = RadiationEquivalentDose.FromSieverts(1); + Assert.Throws(() => sievert.CompareTo(null)); + } + + [Theory] + [InlineData(1, RadiationEquivalentDoseUnit.Sievert, 1, RadiationEquivalentDoseUnit.Sievert, true)] // Same value and unit. + [InlineData(1, RadiationEquivalentDoseUnit.Sievert, 2, RadiationEquivalentDoseUnit.Sievert, false)] // Different value. + [InlineData(2, RadiationEquivalentDoseUnit.Sievert, 1, RadiationEquivalentDoseUnit.Microsievert, false)] // Different value and unit. + [InlineData(1, RadiationEquivalentDoseUnit.Sievert, 1, RadiationEquivalentDoseUnit.Microsievert, false)] // Different unit. + public void Equals_ReturnsTrue_IfValueAndUnitAreEqual(double valueA, RadiationEquivalentDoseUnit unitA, double valueB, RadiationEquivalentDoseUnit unitB, bool expectEqual) + { + var a = new RadiationEquivalentDose(valueA, unitA); + var b = new RadiationEquivalentDose(valueB, unitB); + + // Operator overloads. + Assert.Equal(expectEqual, a == b); + Assert.Equal(expectEqual, b == a); + Assert.Equal(!expectEqual, a != b); + Assert.Equal(!expectEqual, b != a); + + // IEquatable + Assert.Equal(expectEqual, a.Equals(b)); + Assert.Equal(expectEqual, b.Equals(a)); + + // IEquatable + Assert.Equal(expectEqual, a.Equals((object)b)); + Assert.Equal(expectEqual, b.Equals((object)a)); + } + + [Fact] + public void Equals_Null_ReturnsFalse() + { + var a = RadiationEquivalentDose.Zero; + + Assert.False(a.Equals((object)null)); + + // "The result of the expression is always 'false'..." + #pragma warning disable CS8073 + Assert.False(a == null); + Assert.False(null == a); + Assert.True(a != null); + Assert.True(null != a); + #pragma warning restore CS8073 + } + + [Fact] + public void Equals_RelativeTolerance_IsImplemented() + { + var v = RadiationEquivalentDose.FromSieverts(1); + Assert.True(v.Equals(RadiationEquivalentDose.FromSieverts(1), SievertsTolerance, ComparisonType.Relative)); + Assert.False(v.Equals(RadiationEquivalentDose.Zero, SievertsTolerance, ComparisonType.Relative)); + } + + [Fact] + public void Equals_NegativeRelativeTolerance_ThrowsArgumentOutOfRangeException() + { + var v = RadiationEquivalentDose.FromSieverts(1); + Assert.Throws(() => v.Equals(RadiationEquivalentDose.FromSieverts(1), -1, ComparisonType.Relative)); + } + + [Fact] + public void EqualsReturnsFalseOnTypeMismatch() + { + RadiationEquivalentDose sievert = RadiationEquivalentDose.FromSieverts(1); + Assert.False(sievert.Equals(new object())); + } + + [Fact] + public void EqualsReturnsFalseOnNull() + { + RadiationEquivalentDose sievert = RadiationEquivalentDose.FromSieverts(1); + Assert.False(sievert.Equals(null)); + } + + [Fact] + public void HasAtLeastOneAbbreviationSpecified() + { + var units = Enum.GetValues(typeof(RadiationEquivalentDoseUnit)).Cast(); + foreach (var unit in units) + { + var defaultAbbreviation = UnitAbbreviationsCache.Default.GetDefaultAbbreviation(unit); + } + } + + [Fact] + public void BaseDimensionsShouldNeverBeNull() + { + Assert.False(RadiationEquivalentDose.BaseDimensions is null); + } + + [Fact] + public void ToString_ReturnsValueAndUnitAbbreviationInCurrentCulture() + { + var prevCulture = Thread.CurrentThread.CurrentCulture; + Thread.CurrentThread.CurrentCulture = CultureInfo.GetCultureInfo("en-US"); + try { + Assert.Equal("1 µSv", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.Microsievert).ToString()); + Assert.Equal("1 mrem", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan).ToString()); + Assert.Equal("1 mSv", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.Millisievert).ToString()); + Assert.Equal("1 nSv", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.Nanosievert).ToString()); + Assert.Equal("1 rem", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.RoentgenEquivalentMan).ToString()); + Assert.Equal("1 Sv", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.Sievert).ToString()); + } + finally + { + Thread.CurrentThread.CurrentCulture = prevCulture; + } + } + + [Fact] + public void ToString_WithSwedishCulture_ReturnsUnitAbbreviationForEnglishCultureSinceThereAreNoMappings() + { + // Chose this culture, because we don't currently have any abbreviations mapped for that culture and we expect the en-US to be used as fallback. + var swedishCulture = CultureInfo.GetCultureInfo("sv-SE"); + + Assert.Equal("1 µSv", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.Microsievert).ToString(swedishCulture)); + Assert.Equal("1 mrem", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan).ToString(swedishCulture)); + Assert.Equal("1 mSv", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.Millisievert).ToString(swedishCulture)); + Assert.Equal("1 nSv", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.Nanosievert).ToString(swedishCulture)); + Assert.Equal("1 rem", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.RoentgenEquivalentMan).ToString(swedishCulture)); + Assert.Equal("1 Sv", new RadiationEquivalentDose(1, RadiationEquivalentDoseUnit.Sievert).ToString(swedishCulture)); + } + + [Fact] + public void ToString_SFormat_FormatsNumberWithGivenDigitsAfterRadixForCurrentCulture() + { + var oldCulture = CultureInfo.CurrentCulture; + try + { + CultureInfo.CurrentCulture = CultureInfo.InvariantCulture; + Assert.Equal("0.1 Sv", new RadiationEquivalentDose(0.123456, RadiationEquivalentDoseUnit.Sievert).ToString("s1")); + Assert.Equal("0.12 Sv", new RadiationEquivalentDose(0.123456, RadiationEquivalentDoseUnit.Sievert).ToString("s2")); + Assert.Equal("0.123 Sv", new RadiationEquivalentDose(0.123456, RadiationEquivalentDoseUnit.Sievert).ToString("s3")); + Assert.Equal("0.1235 Sv", new RadiationEquivalentDose(0.123456, RadiationEquivalentDoseUnit.Sievert).ToString("s4")); + } + finally + { + CultureInfo.CurrentCulture = oldCulture; + } + } + + [Fact] + public void ToString_SFormatAndCulture_FormatsNumberWithGivenDigitsAfterRadixForGivenCulture() + { + var culture = CultureInfo.InvariantCulture; + Assert.Equal("0.1 Sv", new RadiationEquivalentDose(0.123456, RadiationEquivalentDoseUnit.Sievert).ToString("s1", culture)); + Assert.Equal("0.12 Sv", new RadiationEquivalentDose(0.123456, RadiationEquivalentDoseUnit.Sievert).ToString("s2", culture)); + Assert.Equal("0.123 Sv", new RadiationEquivalentDose(0.123456, RadiationEquivalentDoseUnit.Sievert).ToString("s3", culture)); + Assert.Equal("0.1235 Sv", new RadiationEquivalentDose(0.123456, RadiationEquivalentDoseUnit.Sievert).ToString("s4", culture)); + } + + [Theory] + [InlineData(null)] + [InlineData("en-US")] + public void ToString_NullFormat_DefaultsToGeneralFormat(string cultureName) + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + CultureInfo formatProvider = cultureName == null + ? null + : CultureInfo.GetCultureInfo(cultureName); + + Assert.Equal(quantity.ToString("g", formatProvider), quantity.ToString(null, formatProvider)); + } + + [Theory] + [InlineData(null)] + [InlineData("g")] + public void ToString_NullProvider_EqualsCurrentCulture(string format) + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal(quantity.ToString(format, CultureInfo.CurrentCulture), quantity.ToString(format, null)); + } + + [Fact] + public void Convert_ToBool_ThrowsInvalidCastException() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Throws(() => Convert.ToBoolean(quantity)); + } + + [Fact] + public void Convert_ToByte_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((byte)quantity.Value, Convert.ToByte(quantity)); + } + + [Fact] + public void Convert_ToChar_ThrowsInvalidCastException() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Throws(() => Convert.ToChar(quantity)); + } + + [Fact] + public void Convert_ToDateTime_ThrowsInvalidCastException() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Throws(() => Convert.ToDateTime(quantity)); + } + + [Fact] + public void Convert_ToDecimal_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((decimal)quantity.Value, Convert.ToDecimal(quantity)); + } + + [Fact] + public void Convert_ToDouble_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((double)quantity.Value, Convert.ToDouble(quantity)); + } + + [Fact] + public void Convert_ToInt16_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((short)quantity.Value, Convert.ToInt16(quantity)); + } + + [Fact] + public void Convert_ToInt32_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((int)quantity.Value, Convert.ToInt32(quantity)); + } + + [Fact] + public void Convert_ToInt64_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((long)quantity.Value, Convert.ToInt64(quantity)); + } + + [Fact] + public void Convert_ToSByte_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((sbyte)quantity.Value, Convert.ToSByte(quantity)); + } + + [Fact] + public void Convert_ToSingle_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((float)quantity.Value, Convert.ToSingle(quantity)); + } + + [Fact] + public void Convert_ToString_EqualsToString() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal(quantity.ToString(), Convert.ToString(quantity)); + } + + [Fact] + public void Convert_ToUInt16_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((ushort)quantity.Value, Convert.ToUInt16(quantity)); + } + + [Fact] + public void Convert_ToUInt32_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((uint)quantity.Value, Convert.ToUInt32(quantity)); + } + + [Fact] + public void Convert_ToUInt64_EqualsValueAsSameType() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal((ulong)quantity.Value, Convert.ToUInt64(quantity)); + } + + [Fact] + public void Convert_ChangeType_SelfType_EqualsSelf() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal(quantity, Convert.ChangeType(quantity, typeof(RadiationEquivalentDose))); + } + + [Fact] + public void Convert_ChangeType_UnitType_EqualsUnit() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal(quantity.Unit, Convert.ChangeType(quantity, typeof(RadiationEquivalentDoseUnit))); + } + + [Fact] + public void Convert_ChangeType_QuantityInfo_EqualsQuantityInfo() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal(RadiationEquivalentDose.Info, Convert.ChangeType(quantity, typeof(QuantityInfo))); + } + + [Fact] + public void Convert_ChangeType_BaseDimensions_EqualsBaseDimensions() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal(RadiationEquivalentDose.BaseDimensions, Convert.ChangeType(quantity, typeof(BaseDimensions))); + } + + [Fact] + public void Convert_ChangeType_InvalidType_ThrowsInvalidCastException() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Throws(() => Convert.ChangeType(quantity, typeof(QuantityFormatter))); + } + + [Fact] + public void GetHashCode_Equals() + { + var quantity = RadiationEquivalentDose.FromSieverts(1.0); + Assert.Equal(new {RadiationEquivalentDose.Info.Name, quantity.Value, quantity.Unit}.GetHashCode(), quantity.GetHashCode()); + } + + [Theory] + [InlineData(1.0)] + [InlineData(-1.0)] + public void NegationOperator_ReturnsQuantity_WithNegatedValue(double value) + { + var quantity = RadiationEquivalentDose.FromSieverts(value); + Assert.Equal(RadiationEquivalentDose.FromSieverts(-value), -quantity); + } + } +} diff --git a/UnitsNet/GeneratedCode/Quantities/RadiationEquivalentDose.g.cs b/UnitsNet/GeneratedCode/Quantities/RadiationEquivalentDose.g.cs new file mode 100644 index 0000000000..991b33acba --- /dev/null +++ b/UnitsNet/GeneratedCode/Quantities/RadiationEquivalentDose.g.cs @@ -0,0 +1,1030 @@ +//------------------------------------------------------------------------------ +// +// This code was generated by \generate-code.bat. +// +// Changes to this file will be lost when the code is regenerated. +// The build server regenerates the code before each build and a pre-build +// step will regenerate the code on each local build. +// +// See https://github.com/angularsen/UnitsNet/wiki/Adding-a-New-Unit for how to add or edit units. +// +// Add CustomCode\Quantities\MyQuantity.extra.cs files to add code to generated quantities. +// Add UnitDefinitions\MyQuantity.json and run generate-code.bat to generate new units or quantities. +// +// +//------------------------------------------------------------------------------ + +// Licensed under MIT No Attribution, see LICENSE file at the root. +// Copyright 2013 Andreas Gullberg Larsen (andreas.larsen84@gmail.com). Maintained at https://github.com/angularsen/UnitsNet. + +using System; +using System.Diagnostics.CodeAnalysis; +using System.Globalization; +using System.Linq; +using System.Runtime.Serialization; +using UnitsNet.InternalHelpers; +using UnitsNet.Units; + +#nullable enable + +// ReSharper disable once CheckNamespace + +namespace UnitsNet +{ + /// + /// + /// Equivalent dose is a dose quantity representing the stochastic health effects of low levels of ionizing radiation on the human body which represents the probability of radiation-induced cancer and genetic damage. + /// + [DataContract] + public readonly partial struct RadiationEquivalentDose : + IArithmeticQuantity, + IComparable, + IComparable, + IConvertible, + IEquatable, + IFormattable + { + /// + /// The numeric value this quantity was constructed with. + /// + [DataMember(Name = "Value", Order = 0)] + private readonly double _value; + + /// + /// The unit this quantity was constructed with. + /// + [DataMember(Name = "Unit", Order = 1)] + private readonly RadiationEquivalentDoseUnit? _unit; + + static RadiationEquivalentDose() + { + BaseDimensions = new BaseDimensions(2, 0, -2, 0, 0, 0, 0); + BaseUnit = RadiationEquivalentDoseUnit.Sievert; + Units = Enum.GetValues(typeof(RadiationEquivalentDoseUnit)).Cast().ToArray(); + Zero = new RadiationEquivalentDose(0, BaseUnit); + Info = new QuantityInfo("RadiationEquivalentDose", + new UnitInfo[] + { + new UnitInfo(RadiationEquivalentDoseUnit.Microsievert, "Microsieverts", BaseUnits.Undefined, "RadiationEquivalentDose"), + new UnitInfo(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan, "MilliroentgensEquivalentMan", BaseUnits.Undefined, "RadiationEquivalentDose"), + new UnitInfo(RadiationEquivalentDoseUnit.Millisievert, "Millisieverts", BaseUnits.Undefined, "RadiationEquivalentDose"), + new UnitInfo(RadiationEquivalentDoseUnit.Nanosievert, "Nanosieverts", BaseUnits.Undefined, "RadiationEquivalentDose"), + new UnitInfo(RadiationEquivalentDoseUnit.RoentgenEquivalentMan, "RoentgensEquivalentMan", BaseUnits.Undefined, "RadiationEquivalentDose"), + new UnitInfo(RadiationEquivalentDoseUnit.Sievert, "Sieverts", new BaseUnits(length: LengthUnit.Meter, time: DurationUnit.Second), "RadiationEquivalentDose"), + }, + BaseUnit, Zero, BaseDimensions); + + DefaultConversionFunctions = new UnitConverter(); + RegisterDefaultConversions(DefaultConversionFunctions); + } + + /// + /// Creates the quantity with the given numeric value and unit. + /// + /// The numeric value to construct this quantity with. + /// The unit representation to construct this quantity with. + /// If value is NaN or Infinity. + public RadiationEquivalentDose(double value, RadiationEquivalentDoseUnit unit) + { + _value = Guard.EnsureValidNumber(value, nameof(value)); + _unit = unit; + } + + /// + /// Creates an instance of the quantity with the given numeric value in units compatible with the given . + /// If multiple compatible units were found, the first match is used. + /// + /// The numeric value to construct this quantity with. + /// The unit system to create the quantity with. + /// The given is null. + /// No unit was found for the given . + public RadiationEquivalentDose(double value, UnitSystem unitSystem) + { + if (unitSystem is null) throw new ArgumentNullException(nameof(unitSystem)); + + var unitInfos = Info.GetUnitInfosFor(unitSystem.BaseUnits); + var firstUnitInfo = unitInfos.FirstOrDefault(); + + _value = Guard.EnsureValidNumber(value, nameof(value)); + _unit = firstUnitInfo?.Value ?? throw new ArgumentException("No units were found for the given UnitSystem.", nameof(unitSystem)); + } + + #region Static Properties + + /// + /// The containing the default generated conversion functions for instances. + /// + public static UnitConverter DefaultConversionFunctions { get; } + + /// + public static QuantityInfo Info { get; } + + /// + /// The of this quantity. + /// + public static BaseDimensions BaseDimensions { get; } + + /// + /// The base unit of RadiationEquivalentDose, which is Sievert. All conversions go via this value. + /// + public static RadiationEquivalentDoseUnit BaseUnit { get; } + + /// + /// All units of measurement for the RadiationEquivalentDose quantity. + /// + public static RadiationEquivalentDoseUnit[] Units { get; } + + /// + /// Gets an instance of this quantity with a value of 0 in the base unit Sievert. + /// + public static RadiationEquivalentDose Zero { get; } + + /// + public static RadiationEquivalentDose AdditiveIdentity => Zero; + + #endregion + + #region Properties + + /// + /// The numeric value this quantity was constructed with. + /// + public double Value => _value; + + /// + QuantityValue IQuantity.Value => _value; + + Enum IQuantity.Unit => Unit; + + /// + public RadiationEquivalentDoseUnit Unit => _unit.GetValueOrDefault(BaseUnit); + + /// + public QuantityInfo QuantityInfo => Info; + + /// + QuantityInfo IQuantity.QuantityInfo => Info; + + /// + /// The of this quantity. + /// + public BaseDimensions Dimensions => RadiationEquivalentDose.BaseDimensions; + + #endregion + + #region Conversion Properties + + /// + /// Gets a value of this quantity converted into + /// + public double Microsieverts => As(RadiationEquivalentDoseUnit.Microsievert); + + /// + /// Gets a value of this quantity converted into + /// + public double MilliroentgensEquivalentMan => As(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan); + + /// + /// Gets a value of this quantity converted into + /// + public double Millisieverts => As(RadiationEquivalentDoseUnit.Millisievert); + + /// + /// Gets a value of this quantity converted into + /// + public double Nanosieverts => As(RadiationEquivalentDoseUnit.Nanosievert); + + /// + /// Gets a value of this quantity converted into + /// + public double RoentgensEquivalentMan => As(RadiationEquivalentDoseUnit.RoentgenEquivalentMan); + + /// + /// Gets a value of this quantity converted into + /// + public double Sieverts => As(RadiationEquivalentDoseUnit.Sievert); + + #endregion + + #region Static Methods + + /// + /// Registers the default conversion functions in the given instance. + /// + /// The to register the default conversion functions in. + internal static void RegisterDefaultConversions(UnitConverter unitConverter) + { + // Register in unit converter: RadiationEquivalentDoseUnit -> BaseUnit + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.Microsievert, RadiationEquivalentDoseUnit.Sievert, quantity => quantity.ToUnit(RadiationEquivalentDoseUnit.Sievert)); + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan, RadiationEquivalentDoseUnit.Sievert, quantity => quantity.ToUnit(RadiationEquivalentDoseUnit.Sievert)); + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.Millisievert, RadiationEquivalentDoseUnit.Sievert, quantity => quantity.ToUnit(RadiationEquivalentDoseUnit.Sievert)); + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.Nanosievert, RadiationEquivalentDoseUnit.Sievert, quantity => quantity.ToUnit(RadiationEquivalentDoseUnit.Sievert)); + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.RoentgenEquivalentMan, RadiationEquivalentDoseUnit.Sievert, quantity => quantity.ToUnit(RadiationEquivalentDoseUnit.Sievert)); + + // Register in unit converter: BaseUnit <-> BaseUnit + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.Sievert, quantity => quantity); + + // Register in unit converter: BaseUnit -> RadiationEquivalentDoseUnit + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.Microsievert, quantity => quantity.ToUnit(RadiationEquivalentDoseUnit.Microsievert)); + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan, quantity => quantity.ToUnit(RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan)); + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.Millisievert, quantity => quantity.ToUnit(RadiationEquivalentDoseUnit.Millisievert)); + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.Nanosievert, quantity => quantity.ToUnit(RadiationEquivalentDoseUnit.Nanosievert)); + unitConverter.SetConversionFunction(RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.RoentgenEquivalentMan, quantity => quantity.ToUnit(RadiationEquivalentDoseUnit.RoentgenEquivalentMan)); + } + + /// + /// Get unit abbreviation string. + /// + /// Unit to get abbreviation for. + /// Unit abbreviation string. + public static string GetAbbreviation(RadiationEquivalentDoseUnit unit) + { + return GetAbbreviation(unit, null); + } + + /// + /// Get unit abbreviation string. + /// + /// Unit to get abbreviation for. + /// Unit abbreviation string. + /// Format to use for localization. Defaults to if null. + public static string GetAbbreviation(RadiationEquivalentDoseUnit unit, IFormatProvider? provider) + { + return UnitAbbreviationsCache.Default.GetDefaultAbbreviation(unit, provider); + } + + #endregion + + #region Static Factory Methods + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromMicrosieverts(QuantityValue microsieverts) + { + double value = (double) microsieverts; + return new RadiationEquivalentDose(value, RadiationEquivalentDoseUnit.Microsievert); + } + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromMilliroentgensEquivalentMan(QuantityValue milliroentgensequivalentman) + { + double value = (double) milliroentgensequivalentman; + return new RadiationEquivalentDose(value, RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan); + } + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromMillisieverts(QuantityValue millisieverts) + { + double value = (double) millisieverts; + return new RadiationEquivalentDose(value, RadiationEquivalentDoseUnit.Millisievert); + } + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromNanosieverts(QuantityValue nanosieverts) + { + double value = (double) nanosieverts; + return new RadiationEquivalentDose(value, RadiationEquivalentDoseUnit.Nanosievert); + } + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromRoentgensEquivalentMan(QuantityValue roentgensequivalentman) + { + double value = (double) roentgensequivalentman; + return new RadiationEquivalentDose(value, RadiationEquivalentDoseUnit.RoentgenEquivalentMan); + } + + /// + /// Creates a from . + /// + /// If value is NaN or Infinity. + public static RadiationEquivalentDose FromSieverts(QuantityValue sieverts) + { + double value = (double) sieverts; + return new RadiationEquivalentDose(value, RadiationEquivalentDoseUnit.Sievert); + } + + /// + /// Dynamically convert from value and unit enum to . + /// + /// Value to convert from. + /// Unit to convert from. + /// RadiationEquivalentDose unit value. + public static RadiationEquivalentDose From(QuantityValue value, RadiationEquivalentDoseUnit fromUnit) + { + return new RadiationEquivalentDose((double)value, fromUnit); + } + + #endregion + + #region Static Parse Methods + + /// + /// Parse a string with one or two quantities of the format "<quantity> <unit>". + /// + /// String to parse. Typically in the form: {number} {unit} + /// + /// Length.Parse("5.5 m", CultureInfo.GetCultureInfo("en-US")); + /// + /// The value of 'str' cannot be null. + /// + /// Expected string to have one or two pairs of quantity and unit in the format + /// "<quantity> <unit>". Eg. "5.5 m" or "1ft 2in" + /// + /// + /// More than one unit is represented by the specified unit abbreviation. + /// Example: Volume.Parse("1 cup") will throw, because it can refer to any of + /// , and . + /// + /// + /// If anything else goes wrong, typically due to a bug or unhandled case. + /// We wrap exceptions in to allow you to distinguish + /// Units.NET exceptions from other exceptions. + /// + public static RadiationEquivalentDose Parse(string str) + { + return Parse(str, null); + } + + /// + /// Parse a string with one or two quantities of the format "<quantity> <unit>". + /// + /// String to parse. Typically in the form: {number} {unit} + /// + /// Length.Parse("5.5 m", CultureInfo.GetCultureInfo("en-US")); + /// + /// The value of 'str' cannot be null. + /// + /// Expected string to have one or two pairs of quantity and unit in the format + /// "<quantity> <unit>". Eg. "5.5 m" or "1ft 2in" + /// + /// + /// More than one unit is represented by the specified unit abbreviation. + /// Example: Volume.Parse("1 cup") will throw, because it can refer to any of + /// , and . + /// + /// + /// If anything else goes wrong, typically due to a bug or unhandled case. + /// We wrap exceptions in to allow you to distinguish + /// Units.NET exceptions from other exceptions. + /// + /// Format to use when parsing number and unit. Defaults to if null. + public static RadiationEquivalentDose Parse(string str, IFormatProvider? provider) + { + return QuantityParser.Default.Parse( + str, + provider, + From); + } + + /// + /// Try to parse a string with one or two quantities of the format "<quantity> <unit>". + /// + /// String to parse. Typically in the form: {number} {unit} + /// Resulting unit quantity if successful. + /// + /// Length.Parse("5.5 m", CultureInfo.GetCultureInfo("en-US")); + /// + public static bool TryParse(string? str, out RadiationEquivalentDose result) + { + return TryParse(str, null, out result); + } + + /// + /// Try to parse a string with one or two quantities of the format "<quantity> <unit>". + /// + /// String to parse. Typically in the form: {number} {unit} + /// Resulting unit quantity if successful. + /// True if successful, otherwise false. + /// + /// Length.Parse("5.5 m", CultureInfo.GetCultureInfo("en-US")); + /// + /// Format to use when parsing number and unit. Defaults to if null. + public static bool TryParse(string? str, IFormatProvider? provider, out RadiationEquivalentDose result) + { + return QuantityParser.Default.TryParse( + str, + provider, + From, + out result); + } + + /// + /// Parse a unit string. + /// + /// String to parse. Typically in the form: {number} {unit} + /// + /// Length.ParseUnit("m", CultureInfo.GetCultureInfo("en-US")); + /// + /// The value of 'str' cannot be null. + /// Error parsing string. + public static RadiationEquivalentDoseUnit ParseUnit(string str) + { + return ParseUnit(str, null); + } + + /// + /// Parse a unit string. + /// + /// String to parse. Typically in the form: {number} {unit} + /// Format to use when parsing number and unit. Defaults to if null. + /// + /// Length.ParseUnit("m", CultureInfo.GetCultureInfo("en-US")); + /// + /// The value of 'str' cannot be null. + /// Error parsing string. + public static RadiationEquivalentDoseUnit ParseUnit(string str, IFormatProvider? provider) + { + return UnitParser.Default.Parse(str, provider); + } + + /// + public static bool TryParseUnit(string str, out RadiationEquivalentDoseUnit unit) + { + return TryParseUnit(str, null, out unit); + } + + /// + /// Parse a unit string. + /// + /// String to parse. Typically in the form: {number} {unit} + /// The parsed unit if successful. + /// True if successful, otherwise false. + /// + /// Length.TryParseUnit("m", CultureInfo.GetCultureInfo("en-US")); + /// + /// Format to use when parsing number and unit. Defaults to if null. + public static bool TryParseUnit(string str, IFormatProvider? provider, out RadiationEquivalentDoseUnit unit) + { + return UnitParser.Default.TryParse(str, provider, out unit); + } + + #endregion + + #region Arithmetic Operators + + /// Negate the value. + public static RadiationEquivalentDose operator -(RadiationEquivalentDose right) + { + return new RadiationEquivalentDose(-right.Value, right.Unit); + } + + /// Get from adding two . + public static RadiationEquivalentDose operator +(RadiationEquivalentDose left, RadiationEquivalentDose right) + { + return new RadiationEquivalentDose(left.Value + right.ToUnit(left.Unit).Value, left.Unit); + } + + /// Get from subtracting two . + public static RadiationEquivalentDose operator -(RadiationEquivalentDose left, RadiationEquivalentDose right) + { + return new RadiationEquivalentDose(left.Value - right.ToUnit(left.Unit).Value, left.Unit); + } + + /// Get from multiplying value and . + public static RadiationEquivalentDose operator *(double left, RadiationEquivalentDose right) + { + return new RadiationEquivalentDose(left * right.Value, right.Unit); + } + + /// Get from multiplying value and . + public static RadiationEquivalentDose operator *(RadiationEquivalentDose left, double right) + { + return new RadiationEquivalentDose(left.Value * right, left.Unit); + } + + /// Get from dividing by value. + public static RadiationEquivalentDose operator /(RadiationEquivalentDose left, double right) + { + return new RadiationEquivalentDose(left.Value / right, left.Unit); + } + + /// Get ratio value from dividing by . + public static double operator /(RadiationEquivalentDose left, RadiationEquivalentDose right) + { + return left.Sieverts / right.Sieverts; + } + + #endregion + + #region Equality / IComparable + + /// Returns true if less or equal to. + public static bool operator <=(RadiationEquivalentDose left, RadiationEquivalentDose right) + { + return left.Value <= right.ToUnit(left.Unit).Value; + } + + /// Returns true if greater than or equal to. + public static bool operator >=(RadiationEquivalentDose left, RadiationEquivalentDose right) + { + return left.Value >= right.ToUnit(left.Unit).Value; + } + + /// Returns true if less than. + public static bool operator <(RadiationEquivalentDose left, RadiationEquivalentDose right) + { + return left.Value < right.ToUnit(left.Unit).Value; + } + + /// Returns true if greater than. + public static bool operator >(RadiationEquivalentDose left, RadiationEquivalentDose right) + { + return left.Value > right.ToUnit(left.Unit).Value; + } + + // We use obsolete attribute to communicate the preferred equality members to use. + // CS0809: Obsolete member 'memberA' overrides non-obsolete member 'memberB'. + #pragma warning disable CS0809 + + /// Indicates strict equality of two quantities, where both and are exactly equal. + [Obsolete("For null checks, use `x is null` syntax to not invoke overloads. For equality checks, use Equals(RadiationEquivalentDose other, RadiationEquivalentDose tolerance) instead, to check equality across units and to specify the max tolerance for rounding errors due to floating-point arithmetic when converting between units.")] + public static bool operator ==(RadiationEquivalentDose left, RadiationEquivalentDose right) + { + return left.Equals(right); + } + + /// Indicates strict inequality of two quantities, where both and are exactly equal. + [Obsolete("For null checks, use `x is null` syntax to not invoke overloads. For equality checks, use Equals(RadiationEquivalentDose other, RadiationEquivalentDose tolerance) instead, to check equality across units and to specify the max tolerance for rounding errors due to floating-point arithmetic when converting between units.")] + public static bool operator !=(RadiationEquivalentDose left, RadiationEquivalentDose right) + { + return !(left == right); + } + + /// + /// Indicates strict equality of two quantities, where both and are exactly equal. + [Obsolete("Use Equals(RadiationEquivalentDose other, RadiationEquivalentDose tolerance) instead, to check equality across units and to specify the max tolerance for rounding errors due to floating-point arithmetic when converting between units.")] + public override bool Equals(object? obj) + { + if (obj is null || !(obj is RadiationEquivalentDose otherQuantity)) + return false; + + return Equals(otherQuantity); + } + + /// + /// Indicates strict equality of two quantities, where both and are exactly equal. + [Obsolete("Use Equals(RadiationEquivalentDose other, RadiationEquivalentDose tolerance) instead, to check equality across units and to specify the max tolerance for rounding errors due to floating-point arithmetic when converting between units.")] + public bool Equals(RadiationEquivalentDose other) + { + return new { Value, Unit }.Equals(new { other.Value, other.Unit }); + } + + #pragma warning restore CS0809 + + /// Compares the current with another object of the same type and returns an integer that indicates whether the current instance precedes, follows, or occurs in the same position in the sort order as the other when converted to the same unit. + /// An object to compare with this instance. + /// + /// is not the same type as this instance. + /// + /// A value that indicates the relative order of the quantities being compared. The return value has these meanings: + /// + /// Value Meaning + /// Less than zero This instance precedes in the sort order. + /// Zero This instance occurs in the same position in the sort order as . + /// Greater than zero This instance follows in the sort order. + /// + /// + public int CompareTo(object? obj) + { + if (obj is null) throw new ArgumentNullException(nameof(obj)); + if (!(obj is RadiationEquivalentDose otherQuantity)) throw new ArgumentException("Expected type RadiationEquivalentDose.", nameof(obj)); + + return CompareTo(otherQuantity); + } + + /// Compares the current with another and returns an integer that indicates whether the current instance precedes, follows, or occurs in the same position in the sort order as the other when converted to the same unit. + /// A quantity to compare with this instance. + /// A value that indicates the relative order of the quantities being compared. The return value has these meanings: + /// + /// Value Meaning + /// Less than zero This instance precedes in the sort order. + /// Zero This instance occurs in the same position in the sort order as . + /// Greater than zero This instance follows in the sort order. + /// + /// + public int CompareTo(RadiationEquivalentDose other) + { + return _value.CompareTo(other.ToUnit(this.Unit).Value); + } + + /// + /// + /// Compare equality to another RadiationEquivalentDose within the given absolute or relative tolerance. + /// + /// + /// Relative tolerance is defined as the maximum allowable absolute difference between this quantity's value and + /// as a percentage of this quantity's value. will be converted into + /// this quantity's unit for comparison. A relative tolerance of 0.01 means the absolute difference must be within +/- 1% of + /// this quantity's value to be considered equal. + /// + /// In this example, the two quantities will be equal if the value of b is within +/- 1% of a (0.02m or 2cm). + /// + /// var a = Length.FromMeters(2.0); + /// var b = Length.FromInches(50.0); + /// a.Equals(b, 0.01, ComparisonType.Relative); + /// + /// + /// + /// + /// Absolute tolerance is defined as the maximum allowable absolute difference between this quantity's value and + /// as a fixed number in this quantity's unit. will be converted into + /// this quantity's unit for comparison. + /// + /// In this example, the two quantities will be equal if the value of b is within 0.01 of a (0.01m or 1cm). + /// + /// var a = Length.FromMeters(2.0); + /// var b = Length.FromInches(50.0); + /// a.Equals(b, 0.01, ComparisonType.Absolute); + /// + /// + /// + /// + /// Note that it is advised against specifying zero difference, due to the nature + /// of floating-point operations and using double internally. + /// + /// + /// The other quantity to compare to. + /// The absolute or relative tolerance value. Must be greater than or equal to 0. + /// The comparison type: either relative or absolute. + /// True if the absolute difference between the two values is not greater than the specified relative or absolute tolerance. + [Obsolete("Use Equals(RadiationEquivalentDose other, RadiationEquivalentDose tolerance) instead, to check equality across units and to specify the max tolerance for rounding errors due to floating-point arithmetic when converting between units.")] + public bool Equals(RadiationEquivalentDose other, double tolerance, ComparisonType comparisonType) + { + if (tolerance < 0) + throw new ArgumentOutOfRangeException(nameof(tolerance), "Tolerance must be greater than or equal to 0."); + + return UnitsNet.Comparison.Equals( + referenceValue: this.Value, + otherValue: other.As(this.Unit), + tolerance: tolerance, + comparisonType: ComparisonType.Absolute); + } + + /// + public bool Equals(IQuantity? other, IQuantity tolerance) + { + return other is RadiationEquivalentDose otherTyped + && (tolerance is RadiationEquivalentDose toleranceTyped + ? true + : throw new ArgumentException($"Tolerance quantity ({tolerance.QuantityInfo.Name}) did not match the other quantities of type 'RadiationEquivalentDose'.", nameof(tolerance))) + && Equals(otherTyped, toleranceTyped); + } + + /// + public bool Equals(RadiationEquivalentDose other, RadiationEquivalentDose tolerance) + { + return UnitsNet.Comparison.Equals( + referenceValue: this.Value, + otherValue: other.As(this.Unit), + tolerance: tolerance.As(this.Unit), + comparisonType: ComparisonType.Absolute); + } + + /// + /// Returns the hash code for this instance. + /// + /// A hash code for the current RadiationEquivalentDose. + public override int GetHashCode() + { + return new { Info.Name, Value, Unit }.GetHashCode(); + } + + #endregion + + #region Conversion Methods + + /// + /// Convert to the unit representation . + /// + /// Value converted to the specified unit. + public double As(RadiationEquivalentDoseUnit unit) + { + if (Unit == unit) + return Value; + + return ToUnit(unit).Value; + } + + /// + public double As(UnitSystem unitSystem) + { + if (unitSystem is null) + throw new ArgumentNullException(nameof(unitSystem)); + + var unitInfos = Info.GetUnitInfosFor(unitSystem.BaseUnits); + + var firstUnitInfo = unitInfos.FirstOrDefault(); + if (firstUnitInfo == null) + throw new ArgumentException("No units were found for the given UnitSystem.", nameof(unitSystem)); + + return As(firstUnitInfo.Value); + } + + /// + double IQuantity.As(Enum unit) + { + if (!(unit is RadiationEquivalentDoseUnit typedUnit)) + throw new ArgumentException($"The given unit is of type {unit.GetType()}. Only {typeof(RadiationEquivalentDoseUnit)} is supported.", nameof(unit)); + + return (double)As(typedUnit); + } + + /// + double IValueQuantity.As(Enum unit) + { + if (!(unit is RadiationEquivalentDoseUnit typedUnit)) + throw new ArgumentException($"The given unit is of type {unit.GetType()}. Only {typeof(RadiationEquivalentDoseUnit)} is supported.", nameof(unit)); + + return As(typedUnit); + } + + /// + /// Converts this RadiationEquivalentDose to another RadiationEquivalentDose with the unit representation . + /// + /// The unit to convert to. + /// A RadiationEquivalentDose with the specified unit. + public RadiationEquivalentDose ToUnit(RadiationEquivalentDoseUnit unit) + { + return ToUnit(unit, DefaultConversionFunctions); + } + + /// + /// Converts this to another using the given with the unit representation . + /// + /// The unit to convert to. + /// The to use for the conversion. + /// A RadiationEquivalentDose with the specified unit. + public RadiationEquivalentDose ToUnit(RadiationEquivalentDoseUnit unit, UnitConverter unitConverter) + { + if (TryToUnit(unit, out var converted)) + { + // Try to convert using the auto-generated conversion methods. + return converted!.Value; + } + else if (unitConverter.TryGetConversionFunction((typeof(RadiationEquivalentDose), Unit, typeof(RadiationEquivalentDose), unit), out var conversionFunction)) + { + // See if the unit converter has an extensibility conversion registered. + return (RadiationEquivalentDose)conversionFunction(this); + } + else if (Unit != BaseUnit) + { + // Conversion to requested unit NOT found. Try to convert to BaseUnit, and then from BaseUnit to requested unit. + var inBaseUnits = ToUnit(BaseUnit); + return inBaseUnits.ToUnit(unit); + } + else + { + // No possible conversion + throw new NotImplementedException($"Can not convert {Unit} to {unit}."); + } + } + + /// + /// Attempts to convert this to another with the unit representation . + /// + /// The unit to convert to. + /// The converted in , if successful. + /// True if successful, otherwise false. + private bool TryToUnit(RadiationEquivalentDoseUnit unit, [NotNullWhen(true)] out RadiationEquivalentDose? converted) + { + if (Unit == unit) + { + converted = this; + return true; + } + + RadiationEquivalentDose? convertedOrNull = (Unit, unit) switch + { + // RadiationEquivalentDoseUnit -> BaseUnit + (RadiationEquivalentDoseUnit.Microsievert, RadiationEquivalentDoseUnit.Sievert) => new RadiationEquivalentDose((_value) * 1e-6d, RadiationEquivalentDoseUnit.Sievert), + (RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan, RadiationEquivalentDoseUnit.Sievert) => new RadiationEquivalentDose((_value / 100) * 1e-3d, RadiationEquivalentDoseUnit.Sievert), + (RadiationEquivalentDoseUnit.Millisievert, RadiationEquivalentDoseUnit.Sievert) => new RadiationEquivalentDose((_value) * 1e-3d, RadiationEquivalentDoseUnit.Sievert), + (RadiationEquivalentDoseUnit.Nanosievert, RadiationEquivalentDoseUnit.Sievert) => new RadiationEquivalentDose((_value) * 1e-9d, RadiationEquivalentDoseUnit.Sievert), + (RadiationEquivalentDoseUnit.RoentgenEquivalentMan, RadiationEquivalentDoseUnit.Sievert) => new RadiationEquivalentDose(_value / 100, RadiationEquivalentDoseUnit.Sievert), + + // BaseUnit -> RadiationEquivalentDoseUnit + (RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.Microsievert) => new RadiationEquivalentDose((_value) / 1e-6d, RadiationEquivalentDoseUnit.Microsievert), + (RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan) => new RadiationEquivalentDose((_value * 100) / 1e-3d, RadiationEquivalentDoseUnit.MilliroentgenEquivalentMan), + (RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.Millisievert) => new RadiationEquivalentDose((_value) / 1e-3d, RadiationEquivalentDoseUnit.Millisievert), + (RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.Nanosievert) => new RadiationEquivalentDose((_value) / 1e-9d, RadiationEquivalentDoseUnit.Nanosievert), + (RadiationEquivalentDoseUnit.Sievert, RadiationEquivalentDoseUnit.RoentgenEquivalentMan) => new RadiationEquivalentDose(_value * 100, RadiationEquivalentDoseUnit.RoentgenEquivalentMan), + + _ => null + }; + + if (convertedOrNull is null) + { + converted = default; + return false; + } + + converted = convertedOrNull.Value; + return true; + } + + /// + IQuantity IQuantity.ToUnit(Enum unit) + { + if (!(unit is RadiationEquivalentDoseUnit typedUnit)) + throw new ArgumentException($"The given unit is of type {unit.GetType()}. Only {typeof(RadiationEquivalentDoseUnit)} is supported.", nameof(unit)); + + return ToUnit(typedUnit, DefaultConversionFunctions); + } + + /// + public RadiationEquivalentDose ToUnit(UnitSystem unitSystem) + { + if (unitSystem is null) + throw new ArgumentNullException(nameof(unitSystem)); + + var unitInfos = Info.GetUnitInfosFor(unitSystem.BaseUnits); + + var firstUnitInfo = unitInfos.FirstOrDefault(); + if (firstUnitInfo == null) + throw new ArgumentException("No units were found for the given UnitSystem.", nameof(unitSystem)); + + return ToUnit(firstUnitInfo.Value); + } + + /// + IQuantity IQuantity.ToUnit(UnitSystem unitSystem) => ToUnit(unitSystem); + + /// + IQuantity IQuantity.ToUnit(RadiationEquivalentDoseUnit unit) => ToUnit(unit); + + /// + IQuantity IQuantity.ToUnit(UnitSystem unitSystem) => ToUnit(unitSystem); + + /// + IValueQuantity IValueQuantity.ToUnit(Enum unit) + { + if (unit is not RadiationEquivalentDoseUnit typedUnit) + throw new ArgumentException($"The given unit is of type {unit.GetType()}. Only {typeof(RadiationEquivalentDoseUnit)} is supported.", nameof(unit)); + + return ToUnit(typedUnit); + } + + /// + IValueQuantity IValueQuantity.ToUnit(UnitSystem unitSystem) => ToUnit(unitSystem); + + #endregion + + #region ToString Methods + + /// + /// Gets the default string representation of value and unit. + /// + /// String representation. + public override string ToString() + { + return ToString("g"); + } + + /// + /// Gets the default string representation of value and unit using the given format provider. + /// + /// String representation. + /// Format to use for localization and number formatting. Defaults to if null. + public string ToString(IFormatProvider? provider) + { + return ToString("g", provider); + } + + /// + /// + /// Gets the string representation of this instance in the specified format string using . + /// + /// The format string. + /// The string representation. + public string ToString(string? format) + { + return ToString(format, CultureInfo.CurrentCulture); + } + + /// + /// + /// Gets the string representation of this instance in the specified format string using the specified format provider, or if null. + /// + /// The format string. + /// Format to use for localization and number formatting. Defaults to if null. + /// The string representation. + public string ToString(string? format, IFormatProvider? provider) + { + return QuantityFormatter.Format(this, format, provider); + } + + #endregion + + #region IConvertible Methods + + TypeCode IConvertible.GetTypeCode() + { + return TypeCode.Object; + } + + bool IConvertible.ToBoolean(IFormatProvider? provider) + { + throw new InvalidCastException($"Converting {typeof(RadiationEquivalentDose)} to bool is not supported."); + } + + byte IConvertible.ToByte(IFormatProvider? provider) + { + return Convert.ToByte(_value); + } + + char IConvertible.ToChar(IFormatProvider? provider) + { + throw new InvalidCastException($"Converting {typeof(RadiationEquivalentDose)} to char is not supported."); + } + + DateTime IConvertible.ToDateTime(IFormatProvider? provider) + { + throw new InvalidCastException($"Converting {typeof(RadiationEquivalentDose)} to DateTime is not supported."); + } + + decimal IConvertible.ToDecimal(IFormatProvider? provider) + { + return Convert.ToDecimal(_value); + } + + double IConvertible.ToDouble(IFormatProvider? provider) + { + return Convert.ToDouble(_value); + } + + short IConvertible.ToInt16(IFormatProvider? provider) + { + return Convert.ToInt16(_value); + } + + int IConvertible.ToInt32(IFormatProvider? provider) + { + return Convert.ToInt32(_value); + } + + long IConvertible.ToInt64(IFormatProvider? provider) + { + return Convert.ToInt64(_value); + } + + sbyte IConvertible.ToSByte(IFormatProvider? provider) + { + return Convert.ToSByte(_value); + } + + float IConvertible.ToSingle(IFormatProvider? provider) + { + return Convert.ToSingle(_value); + } + + string IConvertible.ToString(IFormatProvider? provider) + { + return ToString("g", provider); + } + + object IConvertible.ToType(Type conversionType, IFormatProvider? provider) + { + if (conversionType == typeof(RadiationEquivalentDose)) + return this; + else if (conversionType == typeof(RadiationEquivalentDoseUnit)) + return Unit; + else if (conversionType == typeof(QuantityInfo)) + return RadiationEquivalentDose.Info; + else if (conversionType == typeof(BaseDimensions)) + return RadiationEquivalentDose.BaseDimensions; + else + throw new InvalidCastException($"Converting {typeof(RadiationEquivalentDose)} to {conversionType} is not supported."); + } + + ushort IConvertible.ToUInt16(IFormatProvider? provider) + { + return Convert.ToUInt16(_value); + } + + uint IConvertible.ToUInt32(IFormatProvider? provider) + { + return Convert.ToUInt32(_value); + } + + ulong IConvertible.ToUInt64(IFormatProvider? provider) + { + return Convert.ToUInt64(_value); + } + + #endregion + } +} diff --git a/UnitsNet/GeneratedCode/Quantity.g.cs b/UnitsNet/GeneratedCode/Quantity.g.cs index 3f09a75aa4..9432eb50b6 100644 --- a/UnitsNet/GeneratedCode/Quantity.g.cs +++ b/UnitsNet/GeneratedCode/Quantity.g.cs @@ -122,6 +122,7 @@ public partial class Quantity { "PowerRatio", PowerRatio.Info }, { "Pressure", Pressure.Info }, { "PressureChangeRate", PressureChangeRate.Info }, + { "RadiationEquivalentDose", RadiationEquivalentDose.Info }, { "RadiationExposure", RadiationExposure.Info }, { "Radioactivity", Radioactivity.Info }, { "Ratio", Ratio.Info }, @@ -257,6 +258,7 @@ public static IQuantity FromQuantityInfo(QuantityInfo quantityInfo, QuantityValu "PowerRatio" => PowerRatio.From(value, PowerRatio.BaseUnit), "Pressure" => Pressure.From(value, Pressure.BaseUnit), "PressureChangeRate" => PressureChangeRate.From(value, PressureChangeRate.BaseUnit), + "RadiationEquivalentDose" => RadiationEquivalentDose.From(value, RadiationEquivalentDose.BaseUnit), "RadiationExposure" => RadiationExposure.From(value, RadiationExposure.BaseUnit), "Radioactivity" => Radioactivity.From(value, Radioactivity.BaseUnit), "Ratio" => Ratio.From(value, Ratio.BaseUnit), @@ -395,6 +397,7 @@ public static bool TryFrom(QuantityValue value, Enum? unit, [NotNullWhen(true)] PowerRatioUnit powerRatioUnit => PowerRatio.From(value, powerRatioUnit), PressureUnit pressureUnit => Pressure.From(value, pressureUnit), PressureChangeRateUnit pressureChangeRateUnit => PressureChangeRate.From(value, pressureChangeRateUnit), + RadiationEquivalentDoseUnit radiationEquivalentDoseUnit => RadiationEquivalentDose.From(value, radiationEquivalentDoseUnit), RadiationExposureUnit radiationExposureUnit => RadiationExposure.From(value, radiationExposureUnit), RadioactivityUnit radioactivityUnit => Radioactivity.From(value, radioactivityUnit), RatioUnit ratioUnit => Ratio.From(value, ratioUnit), @@ -543,6 +546,7 @@ public static bool TryParse(IFormatProvider? formatProvider, Type quantityType, Type _ when quantityType == typeof(PowerRatio) => parser.TryParse(quantityString, formatProvider, PowerRatio.From, out quantity), Type _ when quantityType == typeof(Pressure) => parser.TryParse(quantityString, formatProvider, Pressure.From, out quantity), Type _ when quantityType == typeof(PressureChangeRate) => parser.TryParse(quantityString, formatProvider, PressureChangeRate.From, out quantity), + Type _ when quantityType == typeof(RadiationEquivalentDose) => parser.TryParse(quantityString, formatProvider, RadiationEquivalentDose.From, out quantity), Type _ when quantityType == typeof(RadiationExposure) => parser.TryParse(quantityString, formatProvider, RadiationExposure.From, out quantity), Type _ when quantityType == typeof(Radioactivity) => parser.TryParse(quantityString, formatProvider, Radioactivity.From, out quantity), Type _ when quantityType == typeof(Ratio) => parser.TryParse(quantityString, formatProvider, Ratio.From, out quantity), @@ -672,6 +676,7 @@ internal static IEnumerable GetQuantityTypes() yield return typeof(PowerRatio); yield return typeof(Pressure); yield return typeof(PressureChangeRate); + yield return typeof(RadiationEquivalentDose); yield return typeof(RadiationExposure); yield return typeof(Radioactivity); yield return typeof(Ratio); diff --git a/UnitsNet/GeneratedCode/Resources/RadiationEquivalentDose.restext b/UnitsNet/GeneratedCode/Resources/RadiationEquivalentDose.restext new file mode 100644 index 0000000000..c7e8643b87 --- /dev/null +++ b/UnitsNet/GeneratedCode/Resources/RadiationEquivalentDose.restext @@ -0,0 +1,6 @@ +Microsieverts=µSv +MilliroentgensEquivalentMan=mrem +Millisieverts=mSv +Nanosieverts=nSv +RoentgensEquivalentMan=rem +Sieverts=Sv diff --git a/UnitsNet/GeneratedCode/Resources/RadiationEquivalentDose.ru-RU.restext b/UnitsNet/GeneratedCode/Resources/RadiationEquivalentDose.ru-RU.restext new file mode 100644 index 0000000000..4b8eaee757 --- /dev/null +++ b/UnitsNet/GeneratedCode/Resources/RadiationEquivalentDose.ru-RU.restext @@ -0,0 +1,4 @@ +Microsieverts=мкЗв +Millisieverts=мЗв +Nanosieverts=нЗв +Sieverts=Зв diff --git a/UnitsNet/GeneratedCode/Units/RadiationEquivalentDoseUnit.g.cs b/UnitsNet/GeneratedCode/Units/RadiationEquivalentDoseUnit.g.cs new file mode 100644 index 0000000000..2095852833 --- /dev/null +++ b/UnitsNet/GeneratedCode/Units/RadiationEquivalentDoseUnit.g.cs @@ -0,0 +1,42 @@ +//------------------------------------------------------------------------------ +// +// This code was generated by \generate-code.bat. +// +// Changes to this file will be lost when the code is regenerated. +// The build server regenerates the code before each build and a pre-build +// step will regenerate the code on each local build. +// +// See https://github.com/angularsen/UnitsNet/wiki/Adding-a-New-Unit for how to add or edit units. +// +// Add CustomCode\Quantities\MyQuantity.extra.cs files to add code to generated quantities. +// Add UnitDefinitions\MyQuantity.json and run generate-code.bat to generate new units or quantities. +// +// +//------------------------------------------------------------------------------ + +// Licensed under MIT No Attribution, see LICENSE file at the root. +// Copyright 2013 Andreas Gullberg Larsen (andreas.larsen84@gmail.com). Maintained at https://github.com/angularsen/UnitsNet. + +// ReSharper disable once CheckNamespace +namespace UnitsNet.Units +{ + // Disable missing XML comment warnings for the generated unit enums. + #pragma warning disable 1591 + + public enum RadiationEquivalentDoseUnit + { + Microsievert = 1, + MilliroentgenEquivalentMan = 2, + Millisievert = 7, + Nanosievert = 5, + RoentgenEquivalentMan = 4, + + /// + /// The sievert is a unit in the International System of Units (SI) intended to represent the stochastic health risk of ionizing radiation, which is defined as the probability of causing radiation-induced cancer and genetic damage. + /// + /// https://en.wikipedia.org/wiki/Sievert + Sievert = 9, + } + + #pragma warning restore 1591 +}