SingleValueResults 0.1.1-alpha
See the version list below for details.
dotnet add package SingleValueResults --version 0.1.1-alpha
NuGet\Install-Package SingleValueResults -Version 0.1.1-alpha
<PackageReference Include="SingleValueResults" Version="0.1.1-alpha" />
paket add SingleValueResults --version 0.1.1-alpha
#r "nuget: SingleValueResults, 0.1.1-alpha"
// Install SingleValueResults as a Cake Addin
#addin nuget:?package=SingleValueResults&version=0.1.1-alpha&prerelease
// Install SingleValueResults as a Cake Tool
#tool nuget:?package=SingleValueResults&version=0.1.1-alpha&prerelease
SingleValueResults
C# Results Library that focus on Railway Oriented Programming.
How can you install?
dotnet add package SingleValueResults --version 0.1.0-alpha
Why Result type?
Some language, especially functional language has custom to use Result type, that express return type of the function is either return value or Error.
There is of course pros and cons of result type.
Pros
- Readability and Explicit Error Handling.
- Slow "throw and catch" speed.
- Functional Style programming.
- Fully use of power of pattern matching.
Cons
- Not build in language feature.
- C# is not pure functional language.
- Complex for someone not used to.
This SingleValueResult try to be simple Result type, that fully use lately introduced pattern matching feature. And first class support of the Railway Oriented Programming that introduced with Scott Wlaschin with following article.
Usage
1. Simple Function and Use Result Function
Basic use for this library is use SingleValueResult<T> for the return type of the functions.
Then you can return value when success, and when you have any issue, you can return exception. (not throw.)
Like example below, you can either return Value itself or Exception, and implicit operation can convert it to SingleValueResult<T> class in code.
internal class Program
{
public static SingleValueResult<int> Increment(int target) => target switch
{
> 1000 => new ArgumentOutOfRangeException(nameof(target)),
_ => target + 1
};
private static void Main(string[] args)
{
// use switch case to handle Result
switch (Increment(100))
{
case { Exception: not null } error:
Console.WriteLine($"Error: {error}");
break;
// This will return value result
case { Value: { } value }:
Console.WriteLine($"Value: {value}");
break;
}
switch (Increment(1001))
{
// This will return exception result
case { Exception: not null } error:
Console.WriteLine($"Error: {error}");
break;
case { Value: { } value }:
Console.WriteLine($"Value: {value}");
break;
}
Console.WriteLine(RunIncrement(100));
Console.WriteLine(RunIncrement(1001));
}
// use switch expression to handle Result
private static string RunIncrement(int target) =>
Increment(target) switch
{
{ Exception: not null } error => $"Error: {error}",
{ Value: { } value } => $"Value: {value}",
_ => "Unknown"
};
}
Notes
SingleValueResult<T> does have IsSuccess property, which returns if it have error or not. But we recommend you to use Exception property and Value property for the inspecting result. It is because of the C# feature of the pattern matching can get exception or value without null checking and easily use after.
After case { Exception: not null } error:, error is sure of not null, because it checked with pattern matching.
After case { Value: { } value }:, value is not null, because it was checked not null with pattern matching as well.
2. Don't use nullable value as Type of the Value
SingleValueResult<TValue> has where TValue: notnull constraint. This is because if it allows null type, it will allow Value is null and Exception is null Result class. Many feature assume those value as irregular case and not working with it. How can you write value is null in some case? you can use OptionalValue type.
internal class Program
{
public static SingleValueResult<OptionalValue<string>> ConvertStringToHalfLength(string input)
=> input.Length switch
{
0 => new ApplicationException("Input string is empty"), // Exception
1 => OptionalValue<string>.Empty, // Not error but Empty
_ => OptionalValue<string>.FromValue(input[..^(input.Length / 2)]) // has value
};
private static void Main(string[] args)
{
if (args.Length == 0)
{
Console.WriteLine("Please input a string.");
return;
}
var result = ConvertStringToHalfLength(args[0]);
switch (result)
{
case { Exception: not null }:
Console.WriteLine("Exception: " + result.Exception.Message);
break;
case { Value : { HasValue: true } value }: // When OptionalValue has value
Console.WriteLine("Value: " + value.Value);
break;
case { Value : { HasValue: false } }: // When OptionalValue is empty
Console.WriteLine("No value");
break;
}
}
}
3. Wrapping throwing function that returns value.
When I use Result type in C# project, often need in mixing with non-result functions which can be throw exception any time. When this happens, we need to write try/catch and convert throwable functions to Result type. SingleValueResult has WrapTry function to do this conversion.
When you use WrapTry, you need to pass Func as the argument.
internal class Program
{
public static int Divide(int numerator, int denominator) =>
denominator == 0
? throw new ApplicationException("can not divide by 0")
: numerator / denominator;
private static void Main(string[] args)
{
// This will return exception result
switch (SingleValueResult<int>.WrapTry(() => Divide(10, 0)))
{
case { Exception: not null } exception:
Console.WriteLine("Exception: " + exception.Exception.Message);
break;
case { Value: { } value }:
Console.WriteLine("Value: " + value);
break;
}
// This will return value result
switch (SingleValueResult<int>.WrapTry(() => Divide(10, 2)))
{
case { Exception: not null } exception:
Console.WriteLine("Exception: " + exception.Exception.Message);
break;
case { Value: { } value }:
Console.WriteLine("Value: " + value);
break;
}
}
}
4. Wrapping void function.
When a function does not return value, C# can use void as a return (type). But you can not use SingleValueResult<void> due to C# language definition. Instead, we made UnitValue type, which means nothing inside but as a data class. UnitValue does not have any properties. You can wrap try with WrapTry void action, and it will return SingleValueResult<UnitValue> type.
internal class Program
{
private static void Print(string message)
{
switch (message)
{
case not null when string.IsNullOrEmpty(message):
throw new ApplicationException("message is empty");
break;
default:
Console.WriteLine(message);
break;
}
}
private static void Main(string[] args)
{
// This will return value (UnitValue) result
switch (SingleValueResult<UnitValue>.WrapTry(() => Print("Hello, World!")))
{
case { Exception: not null } exception:
Console.WriteLine("Exception: " + exception.Exception.Message);
break;
case { Value: not null }:
Console.WriteLine("No Exception");
break;
}
// This will return exception result
switch (SingleValueResult<UnitValue>.WrapTry(() => Print(string.Empty)))
{
case { Exception: not null } exception:
Console.WriteLine("Exception: " + exception.Exception.Message);
break;
case { Value: not null }:
Console.WriteLine("No Exception");
break;
}
}
}
| Product | Versions Compatible and additional computed target framework versions. |
|---|---|
| .NET | net8.0 is compatible. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. |
-
net8.0
- No dependencies.
NuGet packages
This package is not used by any NuGet packages.
GitHub repositories
This package is not used by any popular GitHub repositories.
| Version | Downloads | Last updated | |
|---|---|---|---|
| 0.1.3-alpha | 64 | 5/10/2024 | |
| 0.1.2-alpha | 51 | 5/8/2024 | |
| 0.1.1-alpha | 51 | 5/8/2024 | |
| 0.1.0-alpha | 51 | 5/8/2024 |