Kontur.Results
1.0.1
Prefix Reserved
See the version list below for details.
dotnet add package Kontur.Results --version 1.0.1
NuGet\Install-Package Kontur.Results -Version 1.0.1
<PackageReference Include="Kontur.Results" Version="1.0.1" />
paket add Kontur.Results --version 1.0.1
#r "nuget: Kontur.Results, 1.0.1"
// Install Kontur.Results as a Cake Addin #addin nuget:?package=Kontur.Results&version=1.0.1 // Install Kontur.Results as a Cake Tool #tool nuget:?package=Kontur.Results&version=1.0.1
Yet another Result
types implementation
This library consists of three Result
types with some tempting features :
Optional<TValue>
Result<TFault>
Result<TFault, TValue>
Content
- License
- Installation
- Examples
- Features
- Drawbacks
- Instantiation of types
- Extraction of data from instances
- TryGetValue
- TryGetFault
- Match
- Switch
- OnSome
- OnNone
- OnSuccess
- OnFailure
- Switch/OnSome/OnNone/OnSuccess/OnFailure method chaining
- Switch/OnSome/OnNone/OnSuccess/OnFailure return value upcasting
- GetValueOrElse
- GetFaultOrElse
- GetValueOrThrow
- GetFaultOrThrow
- GetValueOrDefault
- GetFaultOrDefault
- GetValueOrNull
- GetFaultOrNull
- EnsureHasValue
- EnsureNone
- EnsureSuccess
- EnsureFailure
- HasSome
- IsNone
- Success
- Failure
- Implicit conversion to bool
- LINQ method syntax (GetValues, GetFaults)
- LINQ query syntax
- foreach
- ToString
- Upcasts
- Conversion of generic arguments
- Result combining or monadic extensions
- Inheritance
- Other
- Yet to be implemented
- Contributing
License
MIT
Installation
Nuget
Execute that command in Package Manager console to install Kontur.Results:
Install-Package Kontur.Results -Version 1.0.1
Execute the following command instead to install Kontur.Results.Monad if you are willing for monadic extensions (implemented separately). It consists of Then, OrElse, Select and do notation:
Install-Package Kontur.Results.Monad -Version 1.0.1
Cement
Use cement to add a reference to Kontur.Results
assembly.
Execute that command in your cement module:
cm ref add results your-csproj.csproj
Execute the following command in your cement module instead if you are willing for monadic extensions (implemented separately). It consists of Then, OrElse, Select and do notation:
cm ref add results/monad your-csproj.csproj
Examples
Basic example:
using Kontur.Results;
Result<Exception, string> result = "success!"; // implicit conversion
if (result.TryGetValue(out value)) {
return value.ToString() // OK. Value is not null here. The compiler allows this.
}
return value.ToString() // warning CS8602: Dereference of a possibly null reference.
Example with exceptions:
using Kontur.Results;
class DraftClient
{
...
Task<Result<DraftError, Draft>> CreateDraft()
{
...
}
}
Result<DraftError, Draft> createDraftResult = await new DraftClient().CreateDraft();
try
{
Draft draft = createDraftResult.GetValueOrThrow();
return draft.Id;
}
catch (ResultFailedException<DraftError> ex)
{
log.Warn("Error code: " + ex.Fault.Code);
}
Example with inheritance to freeze fault type:
class StringFaultResult<TValue> : Result<string, TValue>
{
private readonly Result<string, TValue> result;
public StringFaultResult(string fault) => result = fault;
public StringFaultResult(TValue value) => result = value;
public override TResult Match<TResult>(Func<string, TResult> onFailure, Func<TValue, TResult> onSuccess)
=> result.Match(onFailure, onSuccess);
}
public StringFaultResult<int> GenerateInt()
{
int randomValue = new Random().Next(0, 10);
if (randomValue > 0)
{
return new StringFaultResult<int>(randomValue);
}
return new StringFaultResult<int>("Failed to generate a positive number");
}
You can work with data without extracting values from instances:
abstract Task<Optional<string>> GetFormLogin();
abstract Optional<Guid> GetUser(string login);
abstract ValueTask<Optional<Guid>> CreateUser(string login);
Task<Optional<Guid>> userId =
GetFormLogin()
.Then(login => GetUser(login).OrElse(() => CreateUser(login)))
Do notation reduces the count of checks and await operators significantly:
abstract Result<Exception, Guid> GetCurrentUserId();
abstract Result<Exception> EnsureUserIdIsCorrect(Guid userId);
abstract Task<int> GetCurrentIndex();
abstract ValueTask<Result<Exception, string>> GetMessage(Guid userId, int index);
abstract Result<Exception, ConvertResult> Convert(string message, Guid userId);
Task<Result<Exception, ConvertResult>> result =
from userId in GetCurrentUserId()
where EnsureUserIdIsCorrect(userId)
from index in GetCurrentIndex()
let nextIndex = index + 1
from message in GetMessage(userId, nextIndex)
select Convert(message, userId);
Features
Do notation with support of async (
Task
andValueTask
) execution and with no limit on the expression count.Then (
And
,ContinueWith
,ContinueOnSome
,Bind
) and OrElse (Or
,Else
,Catch
,ContinueOnNone
) async extensions that allow chaining.Great interface that allows checking and extraction of data with a single method. See TryGetValue and Match.
Explicit behavior of methods. See GetValueOrThrow and GetValueOrDefault.
TValue
andTFault
generic parameters are not restricted in any way.There is no specific handling of null values. So you can store
nulls
asTValue
orTFault
. Use C# 8 nullable reference types to handle nulls.Assemblies contain only three
Result
type implementations and extension methods for them. There is no other stuff.Result<TFault, TValue>
has no third state. It is restricted by a schema and the compiler that only two states are possible in memory of an application. One of them isHasValue
. Other one isHasFault
. So there are nobottom
orempty
state.Result
type implementations are if-less and make use of abstract classes polymorphism and VMT to maintain simplicity and error safety. As a result, there is no null-forgiving operator and no third state. Also, there are no ternary operators that checkSuccess
flag or similar stuff.Inheritance allows to freeze or limit generic
TFault
andTValue
parameters with user custom type arguments.
Drawbacks
- To enable some features the implementation is based on abstract classes polymorphism. So
Result
types are not markedreadonly
(but they are implemented as readonly) and are notstruct
.
Instantiation of types
Explicit examples:
var optional = Optional.Some("hello"); // Optional<string>
var optional = Optional<string>.Some("hello"); // Optional<string>
var result = Result<Exception>.Succeed("hello"); // Result<Exception, string>
var result = Result<Exception, string>.Succeed("hello"); // Result<Exception, string>
var result = Result<Exception>.Succeed(); // Result<Exception>
var result = Result.Succeed<Exception>(); // Result<Exception>
var optional = Optional.None<string>(); // Optional<string>
var optional = Optional<string>.None(); // Optional<string>
var result = ResultFailure<string>.Create(new Exception()); // Result<Exception, string>
var result = Result<Exception, string>.Fail(new Exception()); // Result<Exception, string>
var result = Result.Fail(new Exception()); // Result<Exception>
var result = Result<Exception>.Fail(new Exception()); // Result<Exception>
Implicit examples:
Optional<string> optional = "hello";
Optional<string> optional = Optional.None();
Result<Exception, string> result = "hello";
Result<Exception, string> result = new Exception();
Result<int, int> result = Result.Succeed(55);
Result<int, int> result = Result.Fail(0);
Result<Exception> result = Result.Succeed();
Result<Exception> result = new Exception();
Optional<string> optional = flag
? "Hello"
: Optional.None();
var optional = flag
? Optional.Some("Hello")
: Optional.None();
var optional = flag
? "Hello"
: Optional<string>.None();
Result<Exception, string> result = flag
? "hello"
: new Exception();
var result = flag
? "hello"
: ResultFailure<string>.Create(new Exception());
var result = flag
? Result<Exception>.Succeed("hello")
: new Exception();
Result<int, int> result = flag
? Result.Succeed(0)
: Result.Fail(-1);
var result = flag
? Result<int>.Succeed(0)
: Result.Fail(-1);
var result = flag
? Result.Succeed(0)
: ResultFailure<int>.Create(-1);
Result<Exception> = flag
? new Exception()
: Result.Succeed();
var result = flag
? Result<Exception>.Fail(new Exception())
: Result.Succeed();
var result = flag
? new Exception()
: Result<Exception>.Succeed();
Some conversions:
Result<Exception, int> source = ...
Result<Exception> target = source;
Optional<int> GetResult(Random random)
{
int randomValue = random.Next(0, 10);
if (randomValue > 10)
{
return randomValue;
}
return Optional.None();
}
Extraction of data from instances
TryGetValue
Optional<string> optional = ...;
if (optional.TryGetValue(out string value))
{
// value is not null here
}
// value may be null here. If you used it, you would get "warning CS8602: Dereference of a possibly null reference"
Result<Exception, string> result = ...;
if (result.TryGetValue(out string value))
{
// value is not null here
}
// value may be null here. If you used it, you would get "warning CS8602: Dereference of a possibly null reference"
Result<Exception, string> result = ...;
if (result.TryGetValue(out string value, out Exception fault))
{
// value is not null here
// fault may be null here. If you used it, you would get "warning CS8602: Dereference of a possibly null reference"
}
else
{
// fault is not null here
// value may be null here. If you used it, you would get "warning CS8602: Dereference of a possibly null reference"
}
// Both value and fault may be null here. If you used them, you would get "warning CS8602: Dereference of a possibly null reference"
TryGetFault
Result<Exception> result = ...;
if (result.TryGetFault(out Exception fault))
{
// fault is not null here
}
// fault may be null here. If you used it, you would get "warning CS8602: Dereference of a possibly null reference"
Result<Exception, string> result = ...;
if (result.TryGetFault(out Exception fault))
{
// fault is not null here
}
// fault may be null here. If you used it, you would get "warning CS8602: Dereference of a possibly null reference"
Result<Exception, string> result = ...;
if (result.TryGetFault(out Exception fault, out string value))
{
// fault is not null here
// value may be null here. If you used it, you would get "warning CS8602: Dereference of a possibly null reference"
}
else
{
// value is not null here
// fault may be null here. If you use it, you get "warning CS8602: Dereference of a possibly null reference"
}
// Both value and fault may be null here. If you used them, you would get "warning CS8602: Dereference of a possibly null reference"
Match
Optional<int> optional = ...;
string extracted = optional.Match(onNone: () => "valueOnNone", onSome: i => $"Number {i}");
string extracted = optional.Match(onNone: () => "valueOnNone", onSome: () => "Number is present");
string extracted = optional.Match(onNone: () => "valueOnNone", onSomeValue: "Number is present");
string extracted = optional.Match(onNoneValue: "valueOnNone", onSome: i => $"Number {i}");
string extracted = optional.Match(onNoneValue: "valueOnNone", onSome: () => "Number is present");
string extracted = optional.Match(onNoneValue: "valueOnNone", onSomeValue: "Number is present");
object upcasted = optional.Match(onNone: () => new object(), onSome: i => $"Number {i}");
object upcasted = optional.Match(onNone: () => new object(), onSome: () => "Number is present");
object upcasted = optional.Match(onNone: () => new object(), onSomeValue: "Number is present");
object upcasted = optional.Match(onNoneValue: new object(), onSome: i => $"Number {i}");
object upcasted = optional.Match(onNoneValue: new object(), onSome: () => "Number is present");
object upcasted = optional.Match(onNoneValue: new object(), onSomeValue: "Number is present");
object upcasted = optional.Match(onNone: () => "valueOnNone", onSome: _ => new object());
object upcasted = optional.Match(onNone: () => "valueOnNone", onSome: () => new object());
object upcasted = optional.Match(onNone: () => "valueOnNone", onSomeValue: new object());
object upcasted = optional.Match(onNoneValue: "valueOnNone", onSome: _ => new object());
object upcasted = optional.Match(onNoneValue: "valueOnNone", onSome: () => new object());
object upcasted = optional.Match(onNoneValue: "valueOnNone", onSomeValue: new object());
object upcasted = optional.Match<object>(onNone: () => new Exception("There is no value"), onSome: i => $"Number {i}");
object upcasted = optional.Match<object>(onNone: () => new Exception("There is no value"), onSome: () => "Number is present");
object upcasted = optional.Match<object>(onNone: () => new Exception("There is no value"), onSomeValue: "Number is present");
object upcasted = optional.Match<object>(onNoneValue: new Exception("There is no value"), onSome: i => $"Number {i}");
object upcasted = optional.Match<object>(onNoneValue: new Exception("There is no value"), onSome: () => "Number is present");
object upcasted = optional.Match<object>(onNoneValue: new Exception("There is no value"), onSomeValue: "Number is present");
Result<Exception, int> result = ...;
string extracted = result.Match(onFailure: ex => ex.Message, onSuccess: i => $"Number {i}");
string extracted = result.Match(onFailure: ex => ex.Message, onSuccess: () => "Number is present");
string extracted = result.Match(onFailure: ex => ex.Message, onSuccessValue: "Number is present");
string extracted = result.Match(onFailure: () => "valueOnNone", onSuccess: i => $"Number {i}");
string extracted = result.Match(onFailure: () => "valueOnNone", onSuccess: () => "Number is present");
string extracted = result.Match(onFailure: () => "valueOnNone", onSuccessValue: "Number is present");
string extracted = result.Match(onFailureValue: "valueOnNone", onSuccess: i => $"Number {i}");
string extracted = result.Match(onFailureValue: "valueOnNone", onSuccess: () => "Number is present");
string extracted = result.Match(onFailureValue: "valueOnNone", onSuccessValue: "Number is present");
object upcasted = result.Match(onFailure: ex => new object(), onSuccess: i => $"Number {i}");
object upcasted = result.Match(onFailure: ex => new object(), onSuccess: () => "Number is present");
object upcasted = result.Match(onFailure: ex => new object(), onSuccessValue: "Number is present");
object upcasted = result.Match(onFailure: () => new object(), onSuccess: i => $"Number {i}");
object upcasted = result.Match(onFailure: () => new object(), onSuccess: () => "Number is present");
object upcasted = result.Match(onFailure: () => new object(), onSuccessValue: "Number is present");
object upcasted = result.Match(onFailureValue: new object(), onSuccess: i => $"Number {i}");
object upcasted = result.Match(onFailureValue: new object(), onSuccess: () => "Number is present");
object upcasted = result.Match(onFailureValue: new object(), onSuccessValue: "Number is present");
object upcasted = result.Match(onFailure: ex => ex.Message, onSuccess: _ => new object());
object upcasted = result.Match(onFailure: ex => ex.Message, onSuccess: () => new object());
object upcasted = result.Match(onFailure: ex => ex.Message, onSuccessValue: new object());
object upcasted = result.Match(onFailure: () => "valueOnNone", onSuccess: _ => new object());
object upcasted = result.Match(onFailure: () => "valueOnNone", onSuccess: () => new object());
object upcasted = result.Match(onFailure: () => "valueOnNone", onSuccessValue: new object());
object upcasted = result.Match(onFailureValue: "valueOnNone", onSuccess: _ => new object());
object upcasted = result.Match(onFailureValue: "valueOnNone", onSuccess: () => new object());
object upcasted = result.Match(onFailureValue: "valueOnNone", onSuccessValue: new object());
object upcasted = result.Match<object>(onFailure: ex => ex.Message, onSuccess: i => $"Number {i}");
object upcasted = result.Match<object>(onFailure: ex => ex.Message, onSuccess: () => "Number is present");
object upcasted = result.Match<object>(onFailure: ex => ex.Message), onSuccessValue: "Number is present");
object upcasted = result.Match<object>(onFailure: () => new Exception("There is no value"), onSuccess: i => $"Number {i}");
object upcasted = result.Match<object>(onFailure: () => new Exception("There is no value"), onSuccess: () => "Number is present");
object upcasted = result.Match<object>(onFailure: () => new Exception("There is no value"), onSuccessValue: "Number is present");
object upcasted = result.Match<object>(onFailureValue: new Exception("There is no value"), onSuccess: i => $"Number {i}");
object upcasted = result.Match<object>(onFailureValue: new Exception("There is no value"), onSuccess: () => "Number is present");
object upcasted = result.Match<object>(onFailureValue: new Exception("There is no value"), onSuccessValue: "Number is present");
Result<Exception> result = ...;
string extracted = result.Match(onFailure: ex => ex.Message, onSuccess: () => "Fault is not present");
string extracted = result.Match(onFailure: ex => ex.Message, onSuccessValue: "Fault is not present");
string extracted = result.Match(onFailure: () => "valueOnNone", onSuccess: () => "Fault is not present");
string extracted = result.Match(onFailure: () => "valueOnNone", onSuccessValue: "Fault is not present");
string extracted = result.Match(onFailureValue: "valueOnNone", onSuccess: () => "Fault is not present");
string extracted = result.Match(onFailureValue: "valueOnNone", onSuccessValue: "Fault is not present");
object upcasted = result.Match(onFailure: ex => new object(), onSuccess: () => "Fault is not present");
object upcasted = result.Match(onFailure: ex => new object(), onSuccessValue: "Fault is not present");
object upcasted = result.Match(onFailure: () => new object(), onSuccess: () => "Fault is not present");
object upcasted = result.Match(onFailure: () => new object(), onSuccessValue: "Fault is not present");
object upcasted = result.Match(onFailureValue: new object(), onSuccess: () => "Fault is not present");
object upcasted = result.Match(onFailureValue: new object(), onSuccessValue: "Fault is not present");
object upcasted = result.Match(onFailure: ex => ex.Message, onSuccess: () => new object());
object upcasted = result.Match(onFailure: ex => ex.Message, onSuccessValue: new object());
object upcasted = result.Match(onFailure: () => "valueOnNone", onSuccess: () => new object());
object upcasted = result.Match(onFailure: () => "valueOnNone", onSuccessValue: new object());
object upcasted = result.Match(onFailureValue: "valueOnNone", onSuccess: () => new object());
object upcasted = result.Match(onFailureValue: "valueOnNone", onSuccessValue: new object());
object upcasted = result.Match<object>(onFailure: ex => ex.Message, onSuccess: () => "Fault is not present");
object upcasted = result.Match<object>(onFailure: ex => ex.Message), onSuccessValue: "Fault is not present");
object upcasted = result.Match<object>(onFailure: () => new Exception(), onSuccess: () => "Fault is not present");
object upcasted = result.Match<object>(onFailure: () => new Exception(), onSuccessValue: "Fault is not present");
object upcasted = result.Match<object>(onFailureValue: new Exception(), onSuccess: () => "Fault is not present");
object upcasted = result.Match<object>(onFailureValue: new Exception(), onSuccessValue: "Fault is not present");
Switch
Optional<int> optional = ...;
optional.Switch(
onNone: () => Console.WriteLine("There is no value"),
onSome: value => Console.WriteLine($"Value is {value}")
);
optional.Switch(
onNone: () => Console.WriteLine("There is no value"),
onSome: () => Console.WriteLine("Value is present")
);
Result<Exception, int> result = ...;
result.Switch(
onFailure: fault => Console.WriteLine("Fault is {fault.Message}"),
onSuccess: value => Console.WriteLine($"Value is {value}")
);
result.Switch(
onFailure: fault => Console.WriteLine("There is {fault.Message}"),
onSuccess: () => Console.WriteLine($"Value is present")
);
result.Switch(
onFailure: () => Console.WriteLine("Fault is present"),
onSuccess: value => Console.WriteLine($"Value is {value}")
);
result.Switch(
onFailure: () => Console.WriteLine("Fault is present"),
onSuccess: () => Console.WriteLine("Value is present")
);
Result<Exception> result = ...;
result.Switch(
onFailure: fault => Console.WriteLine("Fault is {fault.Message}"),
onSuccess: () => Console.WriteLine($"There is no fault")
); =
result.Switch(
onFailure: () => Console.WriteLine("Fault is present"),
onSuccess: () => Console.WriteLine("There is no fault")
);
OnSome
Optional<int> optional = ...;
optional.OnSome(value => Console.WriteLine($"Value is {value}"));
optional.OnSome(() => Console.WriteLine("Value is present"));
OnNone
Optional<int> optional = ...;
optional.OnNone(() => Console.WriteLine("There is no value"));
OnSuccess
Result<Exception, int> result = ...;
result.OnSuccess(value => Console.WriteLine($"Value is {value}"));
result.OnSuccess(() => Console.WriteLine("Success"));
Result<Exception> result = ...;
result.OnSuccess(() => Console.WriteLine("Success"));
OnFailure
Result<Exception, string> result = ...;
result.OnFailure(fault => Console.WriteLine($"Fault is {fault.Message}"));
result.OnFailure(() => Console.WriteLine("Failure"));
Result<Exception> result = ...;
result.OnFailure(fault => Console.WriteLine($"Fault is {fault.Message}"));
result.OnFailure(() => Console.WriteLine("Failure"));
Switch/OnSome/OnNone/OnSuccess/OnFailure method chaining
Optional<int> optional = ...;
string result = optional
.Switch(
onNone: () => Console.WriteLine("There is no value"),
onSome: value => Console.WriteLine($"Value is {value}"))
.OnSome(value => log.Info($"Value is {value}"))
.OnNone(() => log.Info("There is no value"))
.Match(onNoneValue: "valueOnNone", onSome: value => value.ToString());
Result<TFault, TValue>
and Result<TFault>
have similar syntax.
Switch/OnSome/OnNone/OnSuccess/OnFailure return value upcasting
Optional<string> optional = ...;
Optional<object> upcasted = optional.Switch<object>(
onNone: () => Console.WriteLine("There is no value"),
onSome: value => Console.WriteLine($"Value is {value}")
);
Optional<object> upcasted = optional.Switch<object>(
onNone: () => Console.WriteLine("There is no value"),
onSome: () => Console.WriteLine("Value is present")
);
Optional<object> upcasted = optional.OnSome<object>(value => Console.WriteLine($"Value is {value}"));
Optional<object> upcasted = optional.OnSome<object>(() => Console.WriteLine("Value is present"));
Optional<object> upcasted = optional.OnNone<object>(() => Console.WriteLine("There is no value"));
Result<TFault, TValue>
and Result<TFault>
have similar syntax.
GetValueOrElse
Optional<string> optional = ...;
string extracted = optional.GetValueOrElse(() => "defaultValue");
string extracted = optional.GetValueOrElse("defaultValue");
object upcasted = optional.GetValueOrElse(() => new object());
object upcasted = optional.GetValueOrElse(new object());
object upcasted = optional.GetValueOrElse<object>(() => new Exception("There is no value"));
object upcasted = optional.GetValueOrElse<object>(new Exception("There is no value"));
Optional<object> objectOptional = ...;
object upcasted = objectOptional.GetValueOrElse(() => "defaultValue");
object upcasted = objectOptional.GetValueOrElse("defaultValue");
Result<Exception, string> result = ...;
string extracted = result.GetValueOrElse(fault => $"Converted to success fault: {fault.Message}");
string extracted = result.GetValueOrElse(() => "defaultValue");
string extracted = result.GetValueOrElse("defaultValue");
object upcasted = result.GetValueOrElse(_ => new object());
object upcasted = result.GetValueOrElse(() => new object());
object upcasted = result.GetValueOrElse(new object());
object upcasted = result.GetValueOrElse<object>(fault => new Exception(fault.Message));
object upcasted = result.GetValueOrElse<object>(() => new Exception("There is no value"));
object upcasted = result.GetValueOrElse<object>(new Exception("There is no value"));
Result<Exception, object> objectResult = ...;
object upcasted = objectResult.GetValueOrElse(fault => fault.Message);
object upcasted = objectResult.GetValueOrElse(() => "defaultValue");
object upcasted = objectResult.GetValueOrElse("defaultValue");
GetFaultOrElse
Result<Exception, string> result = ...;
Exception extracted = result.GetFaultOrElse(value => new Exception(value));
Exception extracted = result.GetFaultOrElse(() => new Exception());
Exception extracted = result.GetFaultOrElse(new Exception());
object upcasted = result.GetFaultOrElse(_ => new object());
object upcasted = result.GetFaultOrElse(() => new object());
object upcasted = result.GetFaultOrElse(new object());
object upcasted = result.GetFaultOrElse<object>(value => value);
object upcasted = result.GetFaultOrElse<object>(() => "There is no fault");
object upcasted = result.GetFaultOrElse<object>("There is no fault");
Result<object, string> objectResult = ...;
object upcasted = objectResult.GetFaultOrElse(value => value);
object upcasted = objectResult.GetFaultOrElse(() => "defaultFault");
object upcasted = objectResult.GetFaultOrElse("defaultFault");
Result<Exception> result = ...;
Exception extracted = result.GetFaultOrElse(() => new Exception());
Exception extracted = result.GetFaultOrElse(new Exception());
object upcasted = result.GetFaultOrElse(() => new object());
object upcasted = result.GetFaultOrElse(new object());
object upcasted = result.GetFaultOrElse<object>(() => "There is no fault");
object upcasted = result.GetFaultOrElse<object>("There is no fault");
Result<object> objectResult = ...;
object upcasted = objectResult.GetFaultOrElse(() => "defaultFault");
object upcasted = objectResult.GetFaultOrElse("defaultFault");
GetValueOrThrow
Optional<string> optional = ...;
string extracted = optional.GetValueOrThrow(); // Throws `ValueMissingException` on None
string extracted = optional.GetValueOrThrow(new Exception("There is no value"));
string extracted = optional.GetValueOrThrow(() => new Exception("There is no value"));
object upcasted = optional.GetValueOrThrow<object>();
object upcasted = optional.GetValueOrThrow<object>(new Exception("There is no value"));
object upcasted = optional.GetValueOrThrow<object>(() => new Exception("There is no value"));
Result<Exception, string> result = ...;
string extracted = result.GetValueOrThrow(); // Throws `ResultFailedException<Exception>` on Failure
string extracted = result.GetValueOrThrow(new Exception("There is no value"));
string extracted = result.GetValueOrThrow(() => new Exception("There is no value"));
string extracted = result.GetValueOrThrow(fault => new Exception(fault.Message));
object upcasted = result.GetValueOrThrow<object>();
object upcasted = result.GetValueOrThrow<object>(new Exception("There is no value"));
object upcasted = result.GetValueOrThrow<object>(() => new Exception("There is no value"));
object upcasted = result.GetValueOrThrow<object>(fault => new Exception(fault.Message));
To override exception thrown by default for a specific TValue
you can implement an extension method with the specific TValue
in your namespace. You can also use inheritance to override exception thrown by default for TValue
in any namespace.
namespace CustomValues
{
class CustomValue
{
}
static class GetValueOrThrowExtensions
{
static CustomValue GetValueOrThrow(this Optional<CustomValue> optional)
{
return optional.GetValueOrThrow(new Exception("Overiden!"));
}
static CustomValue GetValueOrThrow<TFault>(this Result<TFault, CustomValue> result)
{
return result.GetValueOrThrow(new Exception("Overiden!"));
}
}
}
GetFaultOrThrow
Result<Exception, string> result = ...;
Exception extracted = result.GetFaultOrThrow(); // Throws `ResultSucceedException<string>` on Success
Exception extracted = result.GetFaultOrThrow(new Exception("There is no fault"));
Exception extracted = result.GetFaultOrThrow(() => new Exception("There is no fault"));
Exception extracted = result.GetFaultOrThrow(value => new Exception(value));
object upcasted = result.GetFaultOrThrow<object>();
object upcasted = result.GetFaultOrThrow<object>(new Exception("There is no fault"));
object upcasted = result.GetFaultOrThrow<object>(() => new Exception("There is no fault"));
object upcasted = result.GetFaultOrThrow<object>(value => new Exception(value));
Result<Exception> result = ...;
Exception extracted = result.GetFaultOrThrow(); // Throws `ResultSucceedException` on Success
Exception extracted = result.GetFaultOrThrow(new Exception("There is no fault"));
Exception extracted = result.GetFaultOrThrow(() => new Exception("There is no fault"));
object upcasted = result.GetFaultOrThrow<object>();
object upcasted = result.GetFaultOrThrow<object>(new Exception("There is no fault"));
object upcasted = result.GetFaultOrThrow<object>(() => new Exception("There is no fault"));
To override exception thrown by default exception for a specific TFault
you can implement an extension method with the specific TFault
in your namespace. You can also use inheritance to override exception thrown by default for TFault
in any namespace.
namespace CustomFaults
{
class CustomFault
{
}
static class GetValueOrThrowExtensions
{
static CustomFault GetFaultOrThrow(this Result<CustomFault> result)
{
return result.GetFaultOrThrow(new Exception("Overridden!"));
}
static CustomFault GetFaultOrThrow<TValue>(this Result<CustomFault, TValue> result)
{
return result.GetFaultOrThrow(new Exception("Overridden!"));
}
}
}
GetValueOrDefault
Optional<string> optional = ...;
string? extracted = optional.GetValueOrDefault(); // null or actual value for reference types
object? upcasted = optional.GetValueOrDefault<object>();
Optional<int> optional = ...;
int extracted = optional.GetValueOrDefault(); // 0 or actual value for the value type
Result<Exception, string> result = ...;
string? extracted = result.GetValueOrDefault(); // null or actual value for reference types
object? upcasted = result.GetValueOrDefault<object>();
Result<Exception, int> result = ...;
int extracted = result.GetValueOrDefault(); // 0 or actual value for the value type
GetFaultOrDefault
Result<Exception, string> result = ...;
Exception? extracted = result.GetFaultOrDefault(); // null or actual fault for reference types
object? upcasted = result.GetFaultOrDefault<object>();
Result<int, string> result = ...;
int extracted = result.GetFaultOrDefault(); // 0 or actual fault for the value type
Result<Exception> result = ...;
Exception? extracted = result.GetFaultOrDefault(); // null or actual fault for reference types
object? upcasted = result.GetFaultOrDefault<object>();
Result<int> result = ...;
int extracted = result.GetFaultOrDefault(); // 0 or actual fault for the value type
GetValueOrNull
This method can be applied to non-nullable value types (structs) only.
Optional<int> optional = ...;
int? extracted = optional.GetValueOrNull(); // null or actual value
Result<Exception, int> result = ...;
int? extracted = result.GetValueOrNull(); // null or actual value
Upcasts are not supported.
GetFaultOrNull
This method can be applied to non-nullable value types (structs) only.
Result<int, string> result = ...;
int? extracted = result.GetFaultOrNull(); // null or actual fault
Result<int> result = ...;
int? extracted = result.GetFaultOrNull(); // null or actual fault
Upcasts are not supported.
EnsureHasValue
Optional<string> optional = ...;
// Nothing if `Some`
optional.EnsureHasValue(); // Throws `ValueMissingException` on None
optional.EnsureHasValue(new Exception("There is no value"));
optional.EnsureHasValue(() => new Exception("There is no value"))
To override exception thrown by default exception for a specific TValue
you can implement an extension method with the specific TValue
in your namespace. You can also use inheritance to override exception thrown by default for TValue
in any namespace.
namespace Custom
{
class CustomValue
{
}
static class EnsureHasValueExtensions
{
static void EnsureHasValue(this Optional<CustomValue> optional)
{
return optional.EnsureHasValue(new Exception("Overridden!"));
}
}
}
EnsureNone
Optional<string> optional = ...;
// Nothing if `None`
optional.EnsureNone(); // Throws `ValueExistsException<string>` if `Some`
optional.EnsureNone(new Exception("There is value"));
optional.EnsureNone(() => new Exception("There is value"))
optional.EnsureNone(value => new Exception($"There is value: {value}"))
To override exception thrown by default exception for a specific TValue
you can implement an extension method with the specific TValue
in your namespace. You can also use inheritance to override exception thrown by default for TValue
in any namespace.
namespace Custom
{
class CustomValue
{
}
static class EnsureNoneExtensions
{
static void EnsureNone(this Optional<CustomValue> optional)
{
return optional.EnsureNone(new Exception("Overridden!"));
}
}
}
EnsureSuccess
Result<Exception, string> result = ...;
// Nothing if `Success`
result.EnsureSuccess(); // Throws `ResultFailedException<Exception>` on Failure
result.EnsureSuccess(new Exception("There is no value"));
result.EnsureSuccess(() => new Exception("There is no value"))
result.EnsureSuccess(fault => new Exception(fault.Message))
Result<Exception> result = ...;
// Nothing if `Success`
result.EnsureSuccess(); // Throws `ResultFailedException<Exception>` on Failure
result.EnsureSuccess(new Exception("It's failure"));
result.EnsureSuccess(() => new Exception("It's failure"))
result.EnsureSuccess(fault => new Exception(fault.Message))
To override exception thrown by default exception for a specific TValue
or TFault
you can implement an extension method with the specific TValue
or TFault
in your namespace. You can also use inheritance to override exception thrown by default for TFault
or TValue
in any namespace.
namespace CustomTypes
{
class CustomFault
{
}
class CustomValue
{
}
static class EnsureSuccessExtensions
{
static void EnsureSuccess<TFault>(this Result<TFault, CustomValue> result)
{
return result.EnsureSuccess(new Exception("Overridden!"));
}
static void EnsureSuccess(this Result<CustomFault> result)
{
return result.EnsureSuccess(new Exception("Overridden!"));
}
}
}
EnsureFailure
Result<Exception, string> result = ...;
// Nothing if `Failure`
result.EnsureFailure(); // Throws `ResultSucceedException<string>` on Success
result.EnsureFailure(new Exception("There is no fault"));
result.EnsureFailure(() => new Exception("There is no fault"))
result.EnsureFailure(value => new Exception(value))
Result<Exception> result = ...;
// Nothing if `Failure`
result.EnsureFailure(); // Throws `ResultSucceedException` on Success
result.EnsureFailure(new Exception("It's success"));
result.EnsureFailure(() => new Exception("It's success"))
To override exception thrown by default exception for a specific TValue
or TFault
you can implement an extension method with the specific TValue
or TFault
in your namespace. You can also use inheritance to override exception thrown by default for TFault
or TValue
in any namespace.
namespace CustomTypes
{
class CustomFault
{
}
class CustomValue
{
}
static class EnsureFailureExtensions
{
static void EnsureFailure<TFault>(this Result<TFault, CustomValue> result)
{
return result.EnsureFailure(new Exception("Overridden!"));
}
static void EnsureFailure(this Result<CustomFault> result)
{
return result.EnsureFailure(new Exception("Overridden!"));
}
}
}
HasSome
Optional<string> optional = "has value";
bool extracted = optional.HasSome; // true
Optional<string> optional = Optional.None();
bool extracted = optional.HasSome; // false
IsNone
Optional<string> optional = "has value";
bool extracted = optional.IsNone; // false
Optional<string> optional = Optional.None();
bool extracted = optional.IsNone; // true
Success
Result<Exception, string> result = "has value";
bool extracted = result.Success; // true
Result<Exception, string> result = new Exception();
bool extracted = result.Success; // false
Result<Exception> result = Result.Succeed();
bool extracted = result.Success; // true
Result<Exception> result = new Exception();
bool extracted = result.Success; // false
Failure
Result<Exception, string> result = "has value";
bool extracted = result.Failure; // false
Result<Exception, string> result = new Exception();
bool extracted = result.Failure; // true
Result<Exception> result = Result.Succeed();
bool extracted = result.Failure; // false
Result<Exception> result = new Exception();
bool extracted = result.Failure; // true
Implicit conversion to bool
Optional<string> optional = ...;
if (optional)
{
// On some
}
else
{
// On none
}
bool extracted = optional;
Result<Exception, string> result = ...;
if (result)
{
// On success
}
else
{
// On failure
}
bool extracted = result;
Result<Exception> result = ...;
if (result)
{
// On success
}
else
{
// On failure
}
bool extracted = result;
LINQ method syntax (GetValues, GetFaults)
Optional<string> optional = ...;
// `[]` if `None`
// `[value]` if `Some`
IEnumerable<string> values = optional
.GetValues()
.ToArray(); // optional
IEnumerable<object> upcasted = optional.GetValues<object>();
Result<Exception, string> result = ...;
// `[]` if `Failure`
// `[value]` if `Success`
IEnumerable<string> values = result.GetValues().ToArray();
IEnumerable<object> upcasted = result.GetValues<object>();
Result<Exception, string> result = ...;
// `[exception]` if `Failure`
// `[]` if `Success`
IEnumerable<Exception> faults = result.GetFaults().ToArray();
IEnumerable<object> upcasted = result.GetFaults<object>();
Result<Exception> result = ...;
// `[exception]` if `Failure`
// `[]` if `Success`
IEnumerable<Exception> faults = result.GetFaults().ToArray();
IEnumerable<object> upcasted = result.GetFaults<object>();
LINQ query syntax
Optional<int> optional = Optional.Some(10);
IEnumerable<int> extracted =
from value in optional
from i1 in new [] { 1, 2 }
from i2 in new [] { 100, 200 }
select value + i1 + i2;
IEnumerable<int> extracted =
from i1 in new [] { 1, 2 }
from value in optional
from i2 in new [] { 100, 200 }
select i1 + value + i2;
// extracted is [111, 112, 211, 212].
Optional<int> optional = Optional.None();
IEnumerable<int> extracted =
from value in optional
from i in new [] { 1, 2 }
select value + i;
IEnumerable<int> extracted =
from i in new [] { 1, 2 }
from value in optional
select value + i;
// extracted is empty.
Result<Exception, int> result = Result.Succeed(10);
IEnumerable<int> extracted =
from value in result
from i1 in new [] { 1, 2 }
from i2 in new [] { 100, 200 }
select value + i1 + i2;
IEnumerable<int> extracted =
from i1 in new [] { 1, 2 }
from value in result
from i2 in new [] { 100, 200 }
select i1 + value + i2;
// extracted is [111, 112, 211, 212].
Result<Exception, int> result = Result.Fail(new Exception());
IEnumerable<int> extracted =
from value in result
from i in new [] { 1, 2 }
select value + i;
IEnumerable<int> extracted =
from i in new [] { 1, 2 }
from value in result
select value + i;
// extracted is empty.
foreach
string FindValue(Optional<int> optional)
{
foreach(var value in optional)
{
return value + " is found!";
}
return "no value found";
}
string FindValue(Result<Exception, int> result)
{
foreach(var value in result)
{
return value + " is found!";
}
return "no value found";
}
ToString
Optional<string> optional = ...;
// `None<string>` if `None`
// `Some<string> value={Value}` if `Some`
string str = optional.ToString();
Result<int, string> result = ...;
// `ResultFailure<Int32, string> fault={Fault}` if `Failure`
// `ResultSuccess<Int32, string> value={Value}` if `Success`
string str = result.ToString();
Result<int> result = ...;
// `ResultFailure<Int32> fault={Fault}` if `Failure`
// `ResultSuccess<Int32>` if `Success`
string str = result.ToString();
Upcasts
You can upcast a return value of many data extraction methods by providing a type argument or by combining two arguments of different types in a single method call.
Examples:
Optional<string> optional = ...
Optional<object> upcasted1 = optional.OnNone<object>(str => Console.WriteLine(str));
Optional<object> upcasted2 = optional.Match(onNone: () => new object(), onSome: str => str);
Only safe upcasts are allowed.
For example, Optional<string>
can be converted to Optional<object>
but not vice versa.
Safety is enforced by covariance rules. So:
- Upcasts are only supported for reference types because covariance can not be used with value types.
- Upcasts are only supported for synchronous methods because
Task<T>
andValueTask<T>
types do not support covariance.
Conversion of generic arguments
All conversion methods except Upcast
method support async extensions for every listed synchronous scenario.
All synchronous methods support upcasts of TFault
and TValue
.
Async extensions make use of methods returning Task<T>
, ValueTask<T>
and inline async lambdas. For example:
async Task<int> Get1(int number) => number + 1;
async ValueTask<int> Get2(number) => number - 1;
Task<Optional<int>> Get(Task<Optional<int>> optional)
{
return optional
.MapValue(i => Get1(i))
.MapValue(i => Get2(i))
.MapValue(async i => await Get1(i));
}
If there is at least one async method in a chain returning Task<T>
the result is Task<T2>
. Otherwise, the result is ValueTask<T2>
.
MapValue
MapValue
changes value or/and type of TValue
.
Optional<string> optional = ...;
Optional<string> extracted = optional.MapValue(str => str + "suffix");
Optional<string> extracted = optional.MapValue(() => 1.ToString());
Optional<string> extracted = optional.MapValue("other string");
Optional<int> extracted = optional.MapValue(str => int.Parse(str));
Optional<int> extracted = optional.MapValue(() => int.Parse("123"));
Optional<int> extracted = optional.MapValue(15);
Optional<string> optional = ...;
ValueTask<Optional<string>> extracted = optional.MapValue(async str => await Task.FromResult(str));
ValueTask<Optional<string>> extracted = optional.MapValue(str => new ValueTask(str));
Task<Optional<string>> extracted = optional.MapValue(str => Task.FromResult(str));
ValueTask<Optional<string>> optional = ...;
ValueTask<Optional<string>> extracted = optional.MapValue(str => str + "suffix");
ValueTask<Optional<string>> extracted = optional.MapValue(async str => await Task.FromResult(str));
ValueTask<Optional<string>> extracted = optional.MapValue(str => new ValueTask(str));
Task<Optional<string>> extracted = optional.MapValue(str => Task.FromResult(str));
Task<Optional<string>> optional = ...;
Task<Optional<string>> extracted = optional.MapValue(str => str + "suffix");
Task<Optional<string>> extracted = optional.MapValue(async str => await Task.FromResult(str));
Task<Optional<string>> extracted = optional.MapValue(str => new ValueTask(str));
Task<Optional<string>> extracted = optional.MapValue(str => Task.FromResult(str));
Result<Guid, string> result = ...;
Result<Guid, string> extracted = result.MapValue(str => str + "suffix");
Result<Guid, string> extracted = result.MapValue(() => 1.ToString());
Result<Guid, string> extracted = result.MapValue("other string");
Result<Guid, int> extracted = result.MapValue(str => int.Parse(str));
Result<Guid, int> extracted = result.MapValue(() => int.Parse("123"));
Result<Guid, int> extracted = result.MapValue(15);
Result<Guid, string> result = ...;
ValueTask<Result<Guid, string>> extracted = result.MapValue(async str => await Task.FromResult(str));
ValueTask<Result<Guid, string>> extracted = result.MapValue(str => new ValueTask(str));
Task<Result<Guid, string>> extracted = result.MapValue(str => Task.FromResult(str));
ValueTask<Result<Guid, string>> result = ...;
ValueTask<Result<Guid, string>> extracted = result.MapValue(str => str + "suffix");
ValueTask<Result<Guid, string>> extracted = result.MapValue(async str => await Task.FromResult(str));
ValueTask<Result<Guid, string>> extracted = result.MapValue(str => new ValueTask(str));
Task<Result<Guid, string>> extracted = result.MapValue(str => Task.FromResult(str));
Task<Result<Guid, string>> result = ...;
Task<Result<Guid, string>> extracted = result.MapValue(str => str + "suffix");
Task<Result<Guid, string>> extracted = result.MapValue(async str => await Task.FromResult(str));
Task<Result<Guid, string>> extracted = result.MapValue(str => new ValueTask(str));
Task<Result<Guid, string>> extracted = result.MapValue(str => Task.FromResult(str));
MapFault
MapFault
changes value or/and type of TFault
.
Result<string, Guid> result = ...;
Result<string, Guid> extracted = result.MapFault(str => str + "suffix");
Result<string, Guid> extracted = result.MapFault(() => 1.ToString());
Result<string, Guid> extracted = result.MapFault("other string");
Result<int, Guid> extracted = result.MapFault(str => int.Parse(str));
Result<int, Guid> extracted = result.MapFault(() => int.Parse("123"));
Result<int, Guid> extracted = result.MapFault(15);
Result<string, Guid> result = ...;
ValueTask<Result<string, Guid>> extracted = result.MapFault(async str => await Task.FromResult(str));
ValueTask<Result<string, Guid>> extracted = result.MapFault(str => new ValueTask(str));
Task<Result<string, Guid>> extracted = result.MapFault(str => Task.FromResult(str));
ValueTask<Result<string, Guid>> result = ...;
ValueTask<Result<string, Guid>> extracted = result.MapFault(str => str + "suffix");
ValueTask<Result<string, Guid>> extracted = result.MapFault(async str => await Task.FromResult(str));
ValueTask<Result<string, Guid>> extracted = result.MapFault(str => new ValueTask(str));
Task<Result<string, Guid>> extracted = result.MapFault(str => Task.FromResult(str));
Task<Result<string, Guid>> result = ...;
Task<Result<string, Guid>> extracted = result.MapFault(str => str + "suffix");
Task<Result<string, Guid>> extracted = result.MapFault(async str => await Task.FromResult(str));
Task<Result<string, Guid>> extracted = result.MapFault(str => new ValueTask(str));
Task<Result<string, Guid>> extracted = result.MapFault(str => Task.FromResult(str));
Result<string> result = ...;
Result<string> extracted = result.MapFault(str => str + "suffix");
Result<string> extracted = result.MapFault(() => 1.ToString());
Result<string> extracted = result.MapFault("other string");
Result<int> extracted = result.MapFault(str => int.Parse(str));
Result<int> extracted = result.MapFault(() => int.Parse("123"));
Result<int> extracted = result.MapFault(15);
Result<string> result = ...;
ValueTask<Result<string>> extracted = result.MapFault(async str => await Task.FromResult(str));
ValueTask<Result<string>> extracted = result.MapFault(str => new ValueTask(str));
Task<Result<string>> extracted = result.MapFault(str => Task.FromResult(str));
ValueTask<Result<string>> result = ...;
ValueTask<Result<string>> extracted = result.MapFault(str => str + "suffix");
ValueTask<Result<string>> extracted = result.MapFault(async str => await Task.FromResult(str));
ValueTask<Result<string>> extracted = result.MapFault(str => new ValueTask(str));
Task<Result<string>> extracted = result.MapFault(str => Task.FromResult(str));
Task<Result<string>> result = ...;
Task<Result<string>> extracted = result.MapFault(str => str + "suffix");
Task<Result<string>> extracted = result.MapFault(async str => await Task.FromResult(str));
Task<Result<string>> extracted = result.MapFault(str => new ValueTask(str));
Task<Result<string>> extracted = result.MapFault(str => Task.FromResult(str));
Upcast
Optional<string> optional = ...;
// Compiles
Optional<object> objectOptional = optional.Upcast<object>();
// Does not compile
var doesNotCompile = objectOptional.Upcast<string>();
Result<string> result = ...;
// Compiles
Result<object> objectResult = result.Upcast<object>();
// Does not compile
var doesNotCompile = objectResult.Upcast<string>();
Result<string, string> result = ...;
// Compiles
Result<object, string> objectResult1 = result.Upcast<object, string>();
Result<string, object> objectResult2 = result.Upcast<string, string>();
Result<object, object> objectResult3 = result.Upcast<object, object>();
// Does not compile
var doesNotCompile = objectResult1.Upcast<string, string>();
var doesNotCompile = objectResult2.Upcast<string, string>();
var doesNotCompile = objectResult3.Upcast<string, string>();
Async extensions are not supported Upcast
methods.
Result combining
There are some monadic extensions that can help you to reduce lines and errors in your code.
All Optional
/Result
combining methods support async extensions for every listed synchronous scenario.
Currently synchronous Optional
/Result
combining methods do not support upcasts of TFault
and TValue
.
Then
Then
is Then
(And
, ContinueWith
, ContinueOnSome
, Bind
) Result
combining method.
If a first optional/result is None
/Failure
then the None
/Failure
is returned.
If the first optional/result is Some
/Success
then a second optional/result is returned.
The second Optional
/Result
factory method is only executed if the first Optional
/Result
is Some
/Success
.
TFault
types should be identical. Upcasts are not supported yet.
TValue
types can be different.
Optional<int> optional1 = ...;
Optional<string> optional2 = ...;
// If optional1 is None then None is returned.
// Otherwise optional2 is returned.
Optional<string> result = optional1.Then(optional2);
Optional<string> result = optional1.Then(() => optional2);
Optional<string> result = optional1.Then(i => i > 10 ? Optional<string>.Some(i.ToString()) : Optional<string>.None());
Async examples:
Optional<int> optional1 = ...;
Optional<string> optional2 = ...;
ValueTask<Optional<string>> result = optional1.Then(async value => await Task.FromResult(optional2));
ValueTask<Optional<string>> result = optional1.Then(value => new ValueTask(optional2));
Task<Optional<string>> result = optional1.Then(value => Task.FromResult(optional2));
ValueTask<Optional<string>> result = new ValueTask(optional1).Then(value => optional2);
ValueTask<Optional<string>> result = new ValueTask(optional1).Then(async value => await Task.FromResult(optional2));
ValueTask<Optional<string>> result = new ValueTask(optional1).Then(value => new ValueTask(optional2));
Task<Optional<string>> result = new ValueTask(optional1).Then(value => Task.FromResult(optional2));
Task<Optional<string>> result = Task.FromResult(optional1).Then(value => optional2);
Task<Optional<string>> result = Task.FromResult(optional1).Then(async value => await Task.FromResult(optional2));
Task<Optional<string>> result = Task.FromResult(optional1).Then(value => new ValueTask(optional2));
Task<Optional<string>> result = Task.FromResult(optional1).Then(value => Task.FromResult(optional2));
Result<Exception, int> result1 = ...;
Result<Exception, string> result2 = ...;
// If option1 is None then None is returned.
// Otherwise option2 is returned.
Result<Exception, string> result = result1.Then(result2);
Result<Exception, string> result = result1.Then(() => result2);
Result<Exception, string> result = result1.Then(i => i > 10 ? Result<Exception, string>.Success(i.ToString()) : Result<Exception, string>.Failure());
Async examples:
Result<Exception, int> result1 = ...;
Result<Exception, string> result2 = ...;
ValueTask<Result<Exception, string>> result = result1.Then(async value => await Task.FromResult(result2));
ValueTask<Result<Exception, string>> result = result1.Then(value => new ValueTask(result2));
Task<Result<Exception, string>> result = result1.Then(value => Task.FromResult(result2));
ValueTask<Result<Exception, string>> result = new ValueTask(result1).Then(value => result2);
ValueTask<Result<Exception, string>> result = new ValueTask(result1).Then(async value => await Task.FromResult(result2));
ValueTask<Result<Exception, string>> result = new ValueTask(result1).Then(value => new ValueTask(result2));
Task<Result<Exception, string>> result = new ValueTask(result1).Then(value => Task.FromResult(result2));
Task<Result<Exception, string>> result = Task.FromResult(result1).Then(value => result2);
Task<Result<Exception, string>> result = Task.FromResult(result1).Then(async value => await Task.FromResult(result2));
Task<Result<Exception, string>> result = Task.FromResult(result1).Then(value => new ValueTask(result2));
Task<Result<Exception, string>> result = Task.FromResult(result1).Then(value => Task.FromResult(result2));
All meaningful combinations of Optional<TValue>
, Result<TFault>
and Result<TFault, TValue>
are also supported.
OrElse
OrElse
is Or
(OrElse
, Else
, Catch
, ContinueOnNone
) Result
combining method.
If a first optional/result is Some
/Success
then it is returned.
If the first optional/result is None
/Failure
then a second optional/result is returned.
The second Optional
/Result
factory method is only executed if the first Optional
/Result
is None
/Failure
.
TValue
types should be identical. Upcasts are not supported yet.
TFault
types can be different.
Optional<string> optional1 = ...;
Optional<string> optional2 = ...;
// If optional1 is Some then option1 is returned.
// Otherwise optional2 is returned.
Optional<string> result = optional1.OrElse(optional2);
Optional<string> result = optional1.OrElse(() => optional2);
Async examples:
Optional<string> optional1 = ...;
Optional<string> optional2 = ...;
ValueTask<Optional<string>> result = optional1.OrElse(async () => await Task.FromResult(optional2));
ValueTask<Optional<string>> result = optional1.OrElse(() => new ValueTask(optional2));
Task<Optional<string>> result = optional1.OrElse(() => Task.FromResult(optional2));
ValueTask<Optional<string>> result = new ValueTask(optional1).OrElse(() => optional2);
ValueTask<Optional<string>> result = new ValueTask(optional1).OrElse(async () => await Task.FromResult(optional2));
ValueTask<Optional<string>> result = new ValueTask(optional1).OrElse(() => new ValueTask(optional2));
Task<Optional<string>> result = new ValueTask(optional1).OrElse(() => Task.FromResult(optional2));
Task<Optional<string>> result = Task.FromResult(optional1).OrElse(() => optional2);
Task<Optional<string>> result = Task.FromResult(optional1).OrElse(async () => await Task.FromResult(optional2));
Task<Optional<string>> result = Task.FromResult(optional1).OrElse(() => new ValueTask(optional2));
Task<Optional<string>> result = Task.FromResult(optional1).OrElse(() => Task.FromResult(optional2));
Result<int, string> result1 = ...;
Result<Exception, string> result2 = ...;
// If option1 is Some then option1 is returned.
// Otherwise option2 is returned.
Result<Exception, string> result = result1.OrElse(result2);
Result<Exception, string> result = result1.OrElse(() => result2);
Result<Exception, string> result = result1.OrElse(fault => result2);
Async examples:
Result<int, string> result1 = ...;
Result<Exception, string> result2 = ...;
ValueTask<Result<Exception, string>> result = result1.OrElse(async fault => await Task.FromResult(result2));
ValueTask<Result<Exception, string>> result = result1.OrElse(fault => new ValueTask(result2));
Task<Result<Exception, string>> result = result1.OrElse(fault => Task.FromResult(result2));
ValueTask<Result<sException, tring>> result = new ValueTask(result1).OrElse(fault => result2);
ValueTask<Result<sException, tring>> result = new ValueTask(result1).OrElse(async fault => await Task.FromResult(result2));
ValueTask<Result<Exception, string>> result = new ValueTask(result1).OrElse(fault => new ValueTask(result2));
Task<Result<Exception, string>> result = new ValueTask(result1).OrElse(fault => Task.FromResult(result2));
Task<Result<Exception, string>> result = Task.FromResult(result1).OrElse(fault => result2);
Task<Result<Exception, string>> result = Task.FromResult(result1).OrElse(async fault => await Task.FromResult(result2));
Task<Result<Exception, string>> result = Task.FromResult(result1).OrElse(fault => new ValueTask(result2));
Task<Result<Exception, string>> result = Task.FromResult(result1).OrElse(fault => Task.FromResult(result2));
All meaningful combinations of Optional<TValue>
, Result<TFault>
and Result<TFault, TValue>
are also supported.
Then/OrElse method chaining
abstract Optional<string> GetFormLogin();
abstract Optional<Guid> GetUser(string login);
abstract Task<Optional<Guid>> CreateUser(string login);
abstract Optional<DateTime> GetCreationDate(Guid userId);
Task<Optional<long>> userCreationDateTicks =
GetFormLogin()
.Then(login => GetUser(login).OrElse(() => CreateUser(login)))
.Then(userId => GetCreationDate(userId))
.MapValue(date => date.Ticks);
abstract Result<TicksError, string> GetFormLogin();
abstract Result<UserException, Guid> GetUser(string login);
abstract Task<Result<TicksError, Guid>> CreateUser(string login);
abstract Result<TicksError, DateTime> GetCreationDate(Guid userId);
abstract Result<TicksError> EnsureTicksIsValid(long ticks);
Task<Result<GetTicksError>> userCreationDateTicksValid =
GetFormLogin()
.Then(login => GetUser(login).OrElse(() => CreateUser(login)))
.Then(userId => GetCreationDate(userId))
.MapValue(date => date.Ticks);
.Then(ticks => EnsureTicksIsValid(ticks))
Select
Select
is a mix of MapValue
and Then
.
Like both of them, a factory method of a second Optional
/Result
or value is only executed if the first Optional
/Result
is Some
/Success
.
Like MapValue
it allows changing type and value by using value factory.
Unlike MapValue
and like Then
it allows creating a second Optional
/Result
which is a result of the whole operation.
It also allows you to change Some
/Success
to None
/Failure
if you want.
TFault
types should be identical. Upcasts are not supported yet.
TValue
types can be different.
Optional<string> optional = ...;
Optional<string> extracted = optional.Select(str => str.Length > 5 ? Optional.Some(str) : Optional.None());
Optional<string> extracted = optional.Select(str => str + "suffix");
Optional<int> extracted = optional.Select(str => int.Parse(str));
ValueTask<Optional<int>> extracted = optional.Select(async str => await Task.FromResult(int.Parse(str)));
ValueTask<Optional<int>> extracted = optional.Select(str => new ValueTask(int.Parse(str)));
Task<Optional<int>> extracted = optional.Select(str => Task.FromResult(int.Parse(str)));
ValueTask<Optional<int>> extracted = new ValueTask(optional).Select(async str => await Task.FromResult(int.Parse(str)));
ValueTask<Optional<int>> extracted = new ValueTask(optional).Select(str => new ValueTask(int.Parse(str)));
Task<Optional<int>> extracted = new ValueTask(optional).Select(str => Task.FromResult(int.Parse(str)));
Task<Optional<int>> extracted = Task.FromResult(optional).Select(async str => await Task.FromResult(int.Parse(str)));
Task<Optional<int>> extracted = Task.FromResult(optional).Select(str => new ValueTask(int.Parse(str)));
Task<Optional<int>> extracted = Task.FromResult(optional).Select(str => Task.FromResult(int.Parse(str)));
Result<Exception, string> result = ...;
Result<Exception, string> extracted = result.Select(str => str.Length > 5 ? Result<Exception, string>.Succeed(str) : Result<Exception, string>.Fail(new Exception(str)));
Result<Exception, string> extracted = result.Select(str => str + "suffix");
Result<Exception, int> extracted = result.Select(str => int.Parse(str));
ValueTask<Optional<int>> extracted = result.Select(async str => await Task.FromResult(int.Parse(str)));
ValueTask<Optional<int>> extracted = result.Select(str => new ValueTask(int.Parse(str)));
Task<Optional<int>> extracted = result.Select(str => Task.FromResult(int.Parse(str)));
ValueTask<Optional<int>> extracted = new ValueTask(result).Select(str => int.Parse(str));
ValueTask<Optional<int>> extracted = new ValueTask(result).Select(async str => await Task.FromResult(int.Parse(str)));
ValueTask<Optional<int>> extracted = new ValueTask(result).Select(str => new ValueTask(int.Parse(str)));
Task<Optional<int>> extracted = new ValueTask(result).Select(str => Task.FromResult(int.Parse(str)));
Task<Optional<int>> extracted = Task.FromResult(result).Select(str => int.Parse(str));
Task<Optional<int>> extracted = Task.FromResult(result).Select(async str => await Task.FromResult(int.Parse(str)));
Task<Optional<int>> extracted = Task.FromResult(result).Select(str => new ValueTask(int.Parse(str)));
Task<Optional<int>> extracted = Task.FromResult(result).Select(str => Task.FromResult(int.Parse(str)));
Do notation
abstract Optional<Guid> GetCurrentUserId();
abstract Optional<int> GetCurrentIndex();
abstract Optional<Product> GetCurrentProduct();
abstract Optional<string> GetMessage(Guid userId, int index, Product product);
abstract Optional<ConvertResult> Convert(string message, Product product);
Optional<ConvertResult> result =
from userId in GetCurrentUserId()
where userId != Guid.Empty
from index in GetCurrentIndex()
from product in GetCurrentProduct()
let nextIndex = index + 1
from message in GetMessage(userId, nextIndex, product)
select Convert(message, product);
The last select
expression can return either Optional<TResult>
or just TResult
.
abstract Result<Exception, Guid> GetCurrentUserId();
abstract Result<Exception> EnsureUserIdIsCorrect(Guid userId);
abstract Result<Exception, int> GetCurrentIndex();
abstract Result<Exception, Product> GetCurrentProduct();
abstract Result<int, string> GetMessage(Guid userId, int index, Product product);
abstract Result<Exception, ConvertResult> Convert(string message, Product product);
Result<Exception, ConvertResult> result =
from userId in GetCurrentUserId()
where EnsureUserIdIsCorrect(userId)
from index in GetCurrentIndex()
from product in GetCurrentProduct()
let nextIndex = index + 1
from message in GetMessage(userId, nextIndex, product).MapFault(i => new Exception(i.ToString()))
select Convert(message, product);
The last select
expression can return Result<Exception, TResult>
, Result<Exception>
or just TResult
.
TFault
should be identical in all clauses. Use MapFault
to convert different TFault
to the same one.
Do notation with async extensions
abstract Optional<Guid> GetCurrentUserId();
abstract Task<int> GetCurrentIndex();
abstract ValueTask<Optional<Product>> GetCurrentProduct();
abstract Task<Optional<string>> GetMessage(Guid userId, int index, Product product);
abstract Task<Format> GetFormat(int index, string message);
abstract Optional<ConvertResult> Convert(string message, Format format);
abstract Task<bool> IsValid(int index);
Task<Optional<ConvertResult>> result =
from userId in GetCurrentUserId() // A
where userId != Guid.Empty // B
from index in GetCurrentIndex() // C
from product in GetCurrentProduct() // D
let nextIndex = index + 1
where IsValid(nextIndex) // E
from message in GetMessage(userId, nextIndex, product) // F
from format in GetFormat(nextIndex, message) // G
select Convert(message, format); // H
Where:
A
(firstfrom
/in
clause) must returnOptional<T>
,ValueTask<Optional<T>>
orTask<Optional<T>>
.B
andE
may returnbool
,ValueTask<bool>
orTask<bool>
.C
,D
,F
andG
may return one ofOptional<T>
,ValueTask<T>
,ValueTask<Optional<T>>
,Task<T>
orTask<Optional<T>>
. Subsequent expressions may depend on previous expressions (F
andG
for example) or may not depend on previous expressions (C
andD
for example). The total count ofB
,C
,D
,E
,F
andG
-like statements is efficiently unlimited.H
should returnTResult
,Optional<TResult>
,ValueTask<TResult>
,ValueTask<Optional<TResult>>
,Task<TResult>
orTask<Optional<TResult>>
.
abstract Result<Exception, Guid> GetCurrentUserId();
abstract Result<Exception> EnsureUserIdIsCorrect(Guid userId);
abstract Task<int> GetCurrentIndex();
abstract ValueTask<Result<Exception, Product>> GetCurrentProduct();
abstract Task<Result<int, string>> GetMessage(Guid userId, int index, Product product);
abstract Task<Format> GetFormat(int index, string message);
abstract Result<Exception, ConvertResult> Convert(string message, Format format);
abstract Task<Result<Exception>> IsValid(int index);
Task<Result<Exception, ConvertResult>> result =
from userId in GetCurrentUserId() // A
where EnsureUserIdIsCorrect(userId) // B
from index in GetCurrentIndex() // C
from product in GetCurrentProduct() // D
let nextIndex = index + 1
where IsValid(nextIndex) // E
from message in GetMessage(userId, nextIndex, product).MapFault(i => new Exception(i.ToString())) // F
from format in GetFormat(nextIndex, message) // G
select Convert(message, format); // H
Where:
A
(firstfrom
/in
clause) must returnResult<TFault, TValue>
,ValueTask<Result<TFault, TValue>>
orTask<Result<TFault, TValue>>
.B
andE
may returnResult<TFault>
,ValueTask<Result<TFault>>
orTask<Result<TFault>>
.C
,D
,F
andG
may return one ofResult<TFault, TValue>
,ValueTask<TValue>
,ValueTask<Result<TFault, TValue>>
,Task<TValue>
orTask<Result<TFault, TValue>>
. Subsequent expressions may depend on previous expressions (F
andG
for example) or may not depend on previous expressions (C
andD
for example). The total count ofB
,C
,D
,E
,F
andG
-like statements is efficiently unlimited.H
should returnTResult
,Result<TFault, TResult>
,ValueTask<TResult>
,ValueTask<Result<TFault, TResult>>
,Task<TResult>
orTask<Result<TFault, TResult>>
.
TFault
should be identical in all clauses. Use MapFault
to convert different TFault
to the same one.
Inheritance
You can create your own Result
or Option
type by inheriting provided types.
class StringFaultResult<TValue> : Result<string, TValue>
{
private readonly Result<string, TValue> result;
public StringFaultResult(string fault) => result = Fail(fault);
public StringFaultResult(TValue value) => result = Succeed(value);
public override TResult Match<TResult>(Func<string, TResult> onFailure, Func<TValue, TResult> onSuccess)
=> result.Match(onFailure, onSuccess);
}
All synchronous methods are inherited.
If you inherit, to bring back some lost features you can reimplement the following:
- implicit conversion operators
- some async extensions that do not inherit by default due to invariance of
Task<T>
andValueTask<T>
Because this implementation relies heavily on C# 9 source generators it is not a hard task to implement a new feature that reimplements lost features automatically. Send me requests if you need such a feature.
You can also override extensions methods. For example:
MapValue
to override return type with inherited typeGetValueOrThrow
to override Exception type thrown by default
Other
Equals
andGetHashCode
make use of type arguments, faults and values (if present) for calculations.- There is no
fold
method.
Yet to be implemented
- (easy) Currently only
Result
combining methods (Map
,Select
,Then
,OrElse
and do notation),MapValue
andMapFault
support async extensions withTask
orValueTask
types. Data extraction methods (likeTryGetValue
,Switch
orGetOrThrow
) only support synchronous execution. - (easy) Currently monadic extensions (
Select
,Then
,OrElse
and do notation) do not support upcasts for synchronous methods. - (medium) Currently implemented source generators can not generate async extensions and implicit conversion operators for custom inherited classes in your assemblies.
- (hard) Do notation for
Result<TFault, TValue>
with differentTFault
type arguments is possible in a limited way but unimplemented. If it is implemented, it would disallow a few struct type arguments forTFault
and would not enable all scenarios of selectingResult<TFaultOther>
with differentTFault
argument in subsequentfrom/in
clauses. The current workaround is to useMapFault
method before passingResult
to a do notation clause.
Send me your requests if you need such features.
Contributing
Contributions are appreciated.
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net5.0 was computed. net5.0-windows was computed. net6.0 was computed. net6.0-android was computed. net6.0-ios was computed. net6.0-maccatalyst was computed. net6.0-macos was computed. net6.0-tvos was computed. net6.0-windows was computed. net7.0 was computed. net7.0-android was computed. net7.0-ios was computed. net7.0-maccatalyst was computed. net7.0-macos was computed. net7.0-tvos was computed. net7.0-windows was computed. net8.0 was computed. 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. |
.NET Core | netcoreapp2.0 was computed. netcoreapp2.1 was computed. netcoreapp2.2 was computed. netcoreapp3.0 was computed. netcoreapp3.1 was computed. |
.NET Standard | netstandard2.0 is compatible. netstandard2.1 was computed. |
.NET Framework | net461 was computed. net462 was computed. net463 was computed. net47 was computed. net471 was computed. net472 was computed. net48 was computed. net481 was computed. |
MonoAndroid | monoandroid was computed. |
MonoMac | monomac was computed. |
MonoTouch | monotouch was computed. |
Tizen | tizen40 was computed. tizen60 was computed. |
Xamarin.iOS | xamarinios was computed. |
Xamarin.Mac | xamarinmac was computed. |
Xamarin.TVOS | xamarintvos was computed. |
Xamarin.WatchOS | xamarinwatchos was computed. |
-
.NETStandard 2.0
- System.Threading.Tasks.Extensions (>= 4.5.4)
NuGet packages (1)
Showing the top 1 NuGet packages that depend on Kontur.Results:
Package | Downloads |
---|---|
Kontur.Results.Monad
A library with monad-like extensions for Kontur.Results, such as Then and do-notation. |
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