Add strongly typed quantities to your code and get merrily on with your life.
No more magic constants found on Stack Overflow, no more second-guessing the unit of parameters and variables.
Upgrading from 4.x to 5.x
Upgrading from 5.x to 6.x(still in prerelease and may yet change)
- Overview
- Installing via NuGet
- Static Typing
- Operator Overloads
- Culture and Localization
- Dynamically Parse Quantities and Convert to Units
- Custom units
- Example: Unit converter app
- Example: WPF app using IValueConverter to parse input
- Precision and Accuracy
- Serialize to JSON, XML and more
- Want To Contribute?
- Continuous Integration
- Who are Using This?
- Top Usages by GitHub Repos
- Units.NET on other platforms
Add it via CLI
dotnet add package UnitsNet
or go toNuGet Gallery | UnitsNetfor detailed instructions.
- .NET Standard 2.0
- .NET nanoFramework
// Construct
Lengthmeter=Length.FromMeters(1);
LengthtwoMeters=newLength(2,LengthUnit.Meter);
// Convert
doublecm=meter.Centimeters;// 100
doubleyards=meter.Yards;// 1.09361
doublefeet=meter.Feet;// 3.28084
doubleinches=meter.Inches;// 39.3701
// Pass quantity types instead of values to avoid conversion mistakes and communicate intent
stringPrintPersonWeight(Massweight)
{
// Compile error! Newtons belong to Force, not Mass. A common source of confusion.
doubleweightNewtons=weight.Newtons;
// Convert to the unit of choice - when you need it
return$ "You weigh{weight.Kilograms:F1}kg.";
}
// Arithmetic
Lengthl1=2*Length.FromMeters(1);
Lengthl2=Length.FromMeters(1)/2;
Lengthl3=l1+l2;
// Construct between units
Lengthdistance=Speed.FromKilometersPerHour(80)*TimeSpan.FromMinutes(30);
Accelerationa1=Speed.FromKilometersPerHour(80)/TimeSpan.FromSeconds(2);
Accelerationa2=Force.FromNewtons(100)/Mass.FromKilograms(20);
RotationalSpeedr=Angle.FromDegrees(90)/TimeSpan.FromSeconds(2);
The culture for abbreviations defaults to Thread.CurrentCulture and falls back to US English if not defined. Thread.CurrentCulture affects number formatting unless a custom culture is specified. The relevant methods are:
- ToString()
- GetAbbreviation()
- Parse/TryParse()
- ParseUnit/TryParseUnit()
varusEnglish=newCultureInfo("en-US");
varrussian=newCultureInfo("ru-RU");
varoneKg=Mass.FromKilograms(1);
// ToString() uses CurrentCulture for abbreviation language number formatting. This is consistent with the behavior of the.NET Framework,
// where DateTime.ToString() uses CurrentCulture for the whole string, likely because mixing an english date format with a russian month name might be confusing.
Thread.CurrentThread.CurrentCulture=russian;
stringkgRu=oneKg.ToString();// "1 кг"
// ToString() with specific culture and custom string format pattern
stringmgUs=oneKg.ToUnit(MassUnit.Milligram).ToString(usEnglish,"unit: {1}, value: {0:F2}");// "unit: mg, value: 1.00"
stringmgRu=oneKg.ToUnit(MassUnit.Milligram).ToString(russian,"unit: {1}, value: {0:F2}");// "unit: мг, value: 1,00"
// Parse measurement from string
Masskg=Mass.Parse("1.0 kg",usEnglish);
// Parse unit from string, a unit can have multiple abbreviations
RotationalSpeedUnitrpm1=RotationalSpeed.ParseUnit("rpm");// RotationalSpeedUnit.RevolutionPerMinute
RotationalSpeedUnitrpm2=RotationalSpeed.ParseUnit("r/min");// RotationalSpeedUnit.RevolutionPerMinute
// Get default abbreviation for a unit, the first if more than one is defined in Length.json for Kilogram unit
stringkgAbbreviation=Mass.GetAbbreviation(MassUnit.Kilogram);// "kg"
Some units of a quantity have the same abbreviation, which means.Parse()
is not able to know what unit you wanted.
Unfortunately there is no built-in way to avoid this, either you need to ensure you don't pass in input that cannot be parsed or you need to write your own parser that has more knowledge of preferred units or maybe only a subset of the units.
Example:
Length.Parse( "1 pt" )
throwsAmbiguousUnitParseException
with messageCannot parse "pt" since it could be either of these: DtpPoint, PrinterPoint
.
Sometimes you need to work with quantities and units at runtime, such as parsing user input.
There are a handful of classes to help with this:
- Quantityfor parsing and constructing quantities as well as looking up units, names and quantity information dynamically
- UnitConverterfor converting values to a different unit, with only strings or enum values
- UnitParserfor parsing unit abbreviation strings, such as
"cm"
toLengthUnit.Centimeter
UseQuantity
class for looking upQuantityInfo
andUnitInfo
at runtime.
string[]names=Quantity.Names;// [ "Length", "Mass",...]
QuantityInfo[]qis=Quantity.Infos;// All quantities and their units, types, values.
// Look up quantity by name.
QuantityInfolengthInfo=Quantity.ByName["Length"];
UnitInfo[]lengthUnits=lengthInfo.UnitInfos;
// Look up unit by enum value (note: for extensibility, will instead look up by name in the future)
UnitInfocmInfo=Quantity.GetUnitInfo(LengthUnit.Centimeter);
QuantityInfo
makes it easy to get names, units, types and values for a quantity.
This is useful for populating lists of quantities and units for the user to choose.
// Different ways to look up the quantity info.
QuantityInfolengthInfo=Quantity.ByName["Length"];
lengthInfo=Length.Info;
lengthInfo=Length.FromMeters(1).QuantityInfo;
// The quantity information.
lengthInfo.Name;// "Length"
lengthInfo.UnitInfos;// UnitInfo[] for its units Centimeter, Meter, etc.
lengthInfo.BaseUnitInfo;// UnitInfo for LengthUnit.Meter
lengthInfo.BaseDimensions;// { "Length": 1, "Mass": 0,...}
lengthInfo.UnitType;// typeof(LengthUnit)
lengthInfo.ValueType;// typeof(Length)
lengthInfo.Zero;// Length.Zero
UnitInfo
describes a unit, such as its enum value, names and its representation in SI base units.
// Different ways to look up the unit info.
varcm=Quantity.GetUnitInfo(LengthUnit.Centimeter);
if(Quantity.TryGetUnitInfo(LengthUnit.Centimeter,outUnitInfo tryGetCm)){
cm=tryGetCm;
}
// The unit information.
cm.Value;// Enum value: LengthUnit.Centimeter
cm.Name;// "Centimeter"
cm.PluralName;// "Centimeters"
cm.BaseUnits;// { "Length": Centimeter, "Mass": null, "Time": null,...}
All you need is the value and the unit enum value.
IQuantityquantity=Quantity.From(3,LengthUnit.Centimeter);// Length
if(Quantity.TryFrom(3,LengthUnit.Centimeter,outIQuantity quantity2))
{
}
You can also construct from strings, such as mapping between DTO types in an API:
IQuantityquantity=Quantity.From(value:3,quantityName:"Length",unitName:"Centimeter");
if(Quantity.TryFrom(value:3,quantityName:"Length",unitName:"Centimeter",outIQuantity?quantity2))
{
}
Or create by just the unit abbreviation, as long as there is exactly one unit with this abbreviation.
// Length with unit LengthUnit.Centimeter
IQuantityquantity=Quantity.FromUnitAbbreviation(3,"cm");
if(Quantity.TryFromUnitAbbreviation(3,"cm",outIQuantity?quantity2))
{
}
Parse any string to a quantity instance of the given the quantity type.
IQuantityquantity=Quantity.Parse(typeof(Length),"3 cm");// Length
if(Quantity.TryParse(typeof(Length),"3cm",outIQuantity quantity2)
{
}
UnitParserparses unit abbreviation strings to unit enum values.
Enumunit=UnitParser.Default.Parse("cm",typeof(LengthUnit));// LengthUnit.Centimeter
if(UnitParser.Default.TryParse("cm",typeof(LengthUnit),outEnum unit2))
{
// Use unit2 as LengthUnit.Centimeter
}
Convert anyIQuantity
instance to a different unit by providing a target unit enum value.
// Assume these are passed in at runtime, we don't know their values or type
EnumuserSelectedUnit=LengthUnit.Millimeter;
IQuantityquantity=Length.FromCentimeters(3);
// Later we convert to a unit
quantity.ToUnit(userSelectedUnit).Value;// 30
quantity.ToUnit(userSelectedUnit).Unit;// LengthUnit.Millimeter
quantity.ToUnit(userSelectedUnit).ToString();// "30 mm"
quantity.ToUnit(PressureUnit.Pascal);// Throws exception, not compatible
quantity.As(userSelectedUnit);// 30
Useful when populating lists with unit enum values for the user to choose.
UnitConverter.Convert(1,LengthUnit.Centimeter,LengthUnit.Millimeter);// 10 mm
Sometimes you only have strings to work with, that works too!
UnitConverter.ConvertByName(1,"Length","Centimeter","Millimeter");// 10 mm
UnitConverter.ConvertByAbbreviation(1,"Length","cm","mm");// 10 mm
Units.NET allows you to add your own units and quantities at runtime, to represent asIQuantity
and reusing Units.NET for parsing and converting between units.
Read more atExtending-with-Custom-Units.
// Map unit enum values to unit abbreviations
UnitAbbreviationsCache.Default.MapUnitToDefaultAbbreviation(HowMuchUnit.Some,"sm");
UnitAbbreviationsCache.Default.GetDefaultAbbreviation(HowMuchUnit.Some);// "sm"
UnitParser.Default.Parse<HowMuchUnit>("sm");// HowMuchUnit.Some
varunitConverter=UnitConverter.Default;
unitConverter.SetConversionFunction<HowMuch>(HowMuchUnit.Lots,HowMuchUnit.Some,x=>newHowMuch(x.Value*2,HowMuchUnit.Some));
unitConverter.SetConversionFunction<HowMuch>(HowMuchUnit.Tons,HowMuchUnit.Lots,x=>newHowMuch(x.Value*10,HowMuchUnit.Lots));
unitConverter.SetConversionFunction<HowMuch>(HowMuchUnit.Tons,HowMuchUnit.Some,x=>newHowMuch(x.Value*20,HowMuchUnit.Some));
varfrom=newHowMuch(10,HowMuchUnit.Tons);
IQuantityConvert(HowMuchUnittoUnit)=>unitConverter.GetConversionFunction<HowMuch>(from.Unit,toUnit)(from);
Console.WriteLine($ "Convert 10 tons to:");
Console.WriteLine(Convert(HowMuchUnit.Some));// 200 sm
Console.WriteLine(Convert(HowMuchUnit.Lots));// 100 lts
Console.WriteLine(Convert(HowMuchUnit.Tons));// 10 tns
QuantityParserparses quantity strings toIQuantity
by providing aUnitAbbreviationsCache
with custom units and unit abbreviations.
// Alternatively, manipulate the global UnitAbbreviationsCache.Default.
varunitAbbreviationsCache=newUnitAbbreviationsCache();
unitAbbreviationsCache.MapUnitToAbbreviation(HowMuchUnit.Some,"sm");
unitAbbreviationsCache.MapUnitToAbbreviation(HowMuchUnit.ATon,"tn");
varquantityParser=newQuantityParser(unitAbbreviationsCache);
// 1 Some
HowMuchq=quantityParser.Parse<HowMuch,HowMuchUnit>(
str:"1 sm",
formatProvider:null,
fromDelegate:(value,unit)=>newHowMuch((double)value,unit));
Source codeforSamples/UnitConverter.Wpf
Download(release 2018-11-09 for Windows)
This example shows how you can create a dynamic unit converter, where the user selects the quantity to convert, such asTemperature
,then selects to convert fromDegreeCelsius
toDegreeFahrenheit
and types in a numeric value for how many degrees Celsius to convert.
The quantity list box contains quantity names, such as"Length"
.The two unit list boxes containEnum
values, such asLengthUnit.Meter
.
UseQuantity
to enumerate all quantity names, such as"Length"
and"Mass"
.
this.Quantities=Quantity.Names;// string[]
// or
this.Quantities=Quantity.Infos.Select(i=>i.Name).ToList();
So user can only choose from/to units compatible with the quantity type.
QuantityInfoquantityInfo=Quantity.ByName[quantityName];
_units.Clear();
foreach(Enum unitValueinquantityInfo.UnitInfos.Select(ui=>ui.Value))
{
_units.Add(newUnitListItem(unitValue));
}
UsingUnitConverter
to convert by unit enum values as given by the list selection"Length"
and unit names like"Centimeter"
and"Meter"
.
doubleconvertedValue=UnitConverter.Convert(
FromValue,// numeric value
SelectedFromUnit.UnitEnumValue,// Enum, such as LengthUnit.Meter
SelectedToUnit.UnitEnumValue);// Enum, such as LengthUnit.Centimeter
The purpose of this app is to show how to create anIValueConverter
in order to bind XAML to quantities.
A base unit is chosen for each unit class, represented by a double value (64-bit), and all conversions go via this unit. This means that there will always be a small error in both representing other units than the base unit as well as converting between units.
Units.NET was intended for convenience and ease of use, not highly accurate conversions, but I am open to suggestions for improvements.
The tests accept an error up to 1E-5 for most units added so far. Exceptions include units like Teaspoon, where the base unit cubic meter is a lot bigger. In many usecases this is sufficient, but for others this may be a showstopper and something you need to be aware of.
For more details, seePrecision.
Read the wiki onSerializing to JSON, XML and more.
- Adding a New Unitis fairly easy to do and we are happy to help.
- Want a new feature or to report a bug?Create an issueor start adiscussion.
Azure DevOpsperforms the following:
- Build and test all branches
- Build and test pull requests, notifies on success or error
- Deploy nugets on master branch, if nuspec versions changed
It would be awesome to know who are using this library. If you would like your project listed here,create an issueor edit theREADME.mdand send a pull request. Max logo size is300x35 pixels
and should be in.png
,.gif
or.jpg
formats.
Sports performance applications for Windows and iOS, that combine high-speed video with sensor data to bring facts into your training and visualize the invisible forces at work
Units.NET started here in 2007 when reading strain gauge measurements from force plates and has been very useful in integrating a number of different sensor types into our software and presenting the data in the user's preferred culture and units.
https://www.swingcatalyst.com(for golf)
https://www.motioncatalyst.com(everything else)
- Andreas Gullberg Larsen, CTO ([email protected])
Award-winning performers and composers put everything they’ve got into their music. PK Sound makes sure their fans will hear it all – brilliantly, precisely, consistently.
PK Sound uses UnitsNet in Kontrol - the remote control counterpart to Trinity, the world's only robotic line array solution.
http://www.pksound.ca/pk-sound/announcing-the-official-release-of-kontrol/(for an idea of what the Kontrol project is)
http://www.pksound.ca/trinity/(the speakers that Kontrol currently controls)
http://www.pksound.ca/(everything else)
- Jules LaPrairie, Kontrol software team member
Microsoft.IoT.Devices extends Windows IoT Core and makes it easier to support devices like sensors and displays. It provides event-driven access for many digital and analog devices and even provides specialized wrappers for devices like joystick, rotary encoder and graphics display.
http://aka.ms/iotdevices(home page including docs)
http://www.nuget.org/packages/Microsoft.IoT.Devices(NuGet package)
Software for creating printable hex maps for use in pen and paper RPGs. Both a user-friendly app and a high-level library for generating labelled hexmaps.
https://bitbucket.org/MartinEden/Crawlspace
- Martin Eden, project maintainer
ANSYS Discovery Live provides instantaneous 3D simulation, tightly coupled with direct geometry modeling, to enable interactive design exploration and rapid product innovation. It is an interactive experience in which you can manipulate geometry, material types or physics inputs, then instantaneously see changes in performance.
https://www.ansys.com https://www.ansys.com/products/3d-design/ansys-discovery-live
- Tristan Milnthorp, Principal Software Architect ([email protected])
Stargen is a decades old software to create realistic planets and satellites from a given Star. It's based on work from various scientists and been used for years. Primoris Sigma Stargen is a C# port of the utility that makes it a Framework to extend it with new algorithms for planetary formation and physics equations.
https://github.com/ebfortin/primoris.universe.stargen
Harrington Hoists, Inc. is located in Manheim, PA, Elizabethtown, PA, South Holland, IL and Corona, CA. Harrington is a leading manufacturer of manual, electric and air chain hoists as well as wire rope hoists and crane products serving the North American material handling industry.
Harrington uses UnitsNet in their internal software to perform many different calculations related to crane dimensioning, girder strength, electrical safety verification, etc.
https://www.harringtonhoists.com
https://kito.com
- Luke Westfall, Design Automation Engineer
The Structural Analysis Format (SAF) has been created to allow structural engineering applications to exchange data using a straight forward and simple to understand format. While inspired by IFC, SAF has its benefits that it'seasily modifyableby the end-user(it's an xlsx file),well documentedandeasy to understand. UnitsNet is used by the SDK provided by SCIA to facilitate import / export between metric & imperial systems
https://www.saf.guide https://github.com/StructuralAnalysisFormat/StructuralAnalysisFormat-SDK
- Dirk Schuermans, Software Engineer forSCIA nv
Produced withghtopdep.
Get the same strongly typed units on other platforms, based on the sameunit definitions.
Language | Name | Package | Repository | Maintainers |
---|---|---|---|---|
JavaScript / TypeScript |
unitsnet-js | npm | github | @haimkastner |
Python | unitsnet-py | pypi | github | @haimkastner |