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Rascal

Build and test status Nuget



Rascal is a simple yet powerful result type implementation for C#, containing a variety of utilities and standard functions for working with result types and integrating them into the rest of C#.

Rascal is first and foremost an aggregate of the result types I personally find myself implementing in a majority of my own projects, and a competetor other result libraries second. As such, this library implements some things I think other result implementations are lacking, while omitting some features other libraries do implement.

The full library documentation is available here.


Installation

.NET CLI

Run in a terminal in the root of your project:

dotnet add package Rascal --prerelease
Package manager console

Run from the Visual Studio Package Manager console:

NuGet\Install-Package Rascal -IncludePrerelease
Script environment

In environments such as C# REPL or RoslynPad, enter:

#r "nuget: Rascal"

If you wish to install a specific version of the package, specify the package version:

#r "nuget: Rascal, 1.0.1-pre"
PackageReference

Add under an ItemGroup node in your project file:

<PackageReference Include="Rascal" Version="1.0.1-pre" />

Obviously, replace 1.0.1-pre with the actual package version you want.


Samples

Creating results

Results in Rascal can be created in a variety of ways, the two most common of which are through the Ok and Err methods defined in the prelude, or through implicitly converting ok values or errors into results.

// You can create a result either through explicit Ok/Error functions...
var explicitOk = Ok(new Person("Melody", 27));
var explicitError = Err<Person>("Could not find person");

// ... or through implicit conversions...
Result<Person> implicitOk = new Person("Edwin", 32);
Result<Person> implicitError = new StringError("Failed to find person");

Mapping

"Mapping" refers to taking a result containing some value some type (T) and mapping said value to a new value of some other type (TNew). The principal method of mapping is the aptly named Map.

var name = "Raymond";

// Read console input and try parse it into an int.
// If the input cannot be parsed, the result will be an error.
var age = ParseR<int>(Console.ReadLine()!);

// Map the age to a new person.
// If the age is an error, the person will also be an error.
var person = age.Map(x => new Person(name, x));

Another operation, commonly referred to as "bind" or "chaining", exists, which looks quite similar to mapping, the only difference being that the lambda you supply to the method returns a new result rather than a plain value. The principal method of chaining is Then, which can be read as "a, then b, then c".

// Read console input and assert that it isn't null.
// If the input is null, the value will be an error.
var name = Console.ReadLine().NotNull();

// Chain an operation on the name which will only execute if the name is ok.
var person = name.Then(n =>
{
    // Read console input, assert that it isn't null, then try parse it into an int.
    var age = Console.ReadLine().NotNull()
        .Then(str => ParseR<int>(str));

    // Map the age into a new person.
    return age.Map(a => new Person(n, a));
});

Map and Then together make up the core of the Result<T> type, allowing for chaining multiple operations on a single result. In functional terms, these are what makes Result<T> a functor and monad respectively (although not an applicative).

Combine

Combine is an addition to Map and Then which streamlines the specific case where you have two results and want to combine them into a single result only if both results are ok.

// Read console input and assert that it isn't null.
var name = Console.ReadLine().NotNull();

// Read console input, assert that it isn't null, then try parse it into an int.
var age = Console.ReadLine().NotNull()
    .Then(str => ParseR<int>(str));

// Combine the name and age results together, then map them into a person.
var person = name.Combine(age)
    .Map(v => new Person(v.first, v.second));

Validation

Rascal supports a simple way of validating the value of a result, returning an error in case the validation fails.

// Read console input, assert that it isn't null, and validate that it matches the regex.
var name = Console.ReadLine().NotNull()
    .Validate(
        str => Regex.IsMatch(str, "[A-Z][a-z]*"),
        _ => "Name can only contain characters a-z and has to start with a capital letter.");

var person = name.Then(n =>
{
    // Read console input, assert that it isn't null, try parse it into an int, then validate that it is greater than 0.
    var age = Console.ReadLine().NotNull()
        .Then(str => ParseR<int>(str))
        .Validate(
            x => x > 0,
            _ => "Age has to be greater than 0.");

    return age.Map(a => new Person(n, a));
});

Exception handling

One of the major kinks of adapting C# into a more functional style (such as using results) is the already existing standard of using exceptions for error-handling. Exceptions have many flaws, and result types explicitly exist to provide a better alternative to exceptions, but Rascal nontheless provides a way to interoperate with traditional exception-based error handling.

The Try method in the prelude is the premiere exception-handling method, which runs another function inside a try-catch block, and returns an ExceptionError in case an exception is thrown.

// Try read console input and use the input to read the specified file.
// If an exception is thrown, the exception will be returned as an error.
var text = Try(() =>
{
    var path = Console.ReadLine()!;
    return File.ReadAllText(path);
});

Try variants also exist for Map and Then, namely TryMap and ThenTry.

// Read console input and assert that it isn't null.
var path = Console.ReadLine().NotNull();

// Try to map the input by reading a file specified by the input.
// If ReadAllText throws an exception, the exception will be returned as an error.
var text = path.TryMap(p => File.ReadAllText(p));

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A simple yet powerful result type implementation for C#.

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