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GitHub - michaelbull/kotlin-result: A multiplatform Result monad for modelling success or failure operations.
A multiplatform Result monad for modelling success or failure operations. - michaelbull/kotlin-result
Visit SiteGitHub - michaelbull/kotlin-result: A multiplatform Result monad for modelling success or failure operations.
A multiplatform Result monad for modelling success or failure operations. - michaelbull/kotlin-result
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kotlin-result
A multiplatform Result monad for modelling success or failure operations.
Installation
repositories {
mavenCentral()
}
dependencies {
implementation("com.michael-bull.kotlin-result:kotlin-result:2.0.0")
}
Introduction
In functional programming, the result Result
type is a monadic type
holding a returned value or an error.
To indicate an operation that succeeded, return an Ok(value)
with the successful value
. If it failed, return an Err(error)
with the error
that caused the failure.
This helps to define a clear happy/unhappy path of execution that is commonly referred to as Railway Oriented Programming, whereby the happy and unhappy paths are represented as separate railways.
Overhead
The Result
type is modelled as an
inline value class. This achieves zero object
allocations on the happy path.
A full breakdown, with example output Java code, is available in the Overhead design doc.
Multiplatform Support
kotlin-result
targets all three tiers outlined by the
Kotlin/Native target support
Read More
Below is a collection of videos & articles authored on the subject of this library. Feel free to open a pull request on GitHub if you would like to include yours.
- [EN] The Result Monad - Adam Bennett
- [EN] A Functional Approach to Exception Handling - Tristan Hamilton
- [EN] kotlin: A functional gold mine - Mark Bucciarelli
- [EN] Railway Oriented Programming - Scott Wlaschin
- [JP] KotlinでResult型使うならkotlin-resultを使おう
- [JP] kotlinのコードにReturn Resultを組み込む
Mappings are available on the wiki to assist those with experience
using the Result
type in other languages:
Getting Started
Below is a simple example of how you may use the Result
type to model a
function that may fail.
fun checkPrivileges(user: User, command: Command): Result<Command, CommandError> {
return if (user.rank >= command.mininimumRank) {
Ok(command)
} else {
Err(CommandError.InsufficientRank(command.name))
}
}
When interacting with code outside your control that may throw exceptions, wrap
the call with runCatching
to capture its execution as a
Result<T, Throwable>
:
val result: Result<Customer, Throwable> = runCatching {
customerDb.findById(id = 50) // could throw SQLException or similar
}
Nullable types, such as the find
method in the example below, can be
converted to a Result
using the toResultOr
extension function.
val result: Result<Customer, String> = customers
.find { it.id == id } // returns Customer?
.toResultOr { "No customer found" }
Transforming Results
Both success and failure results can be transformed within a stage of the
railway track. The example below demonstrates how to transform an internal
program error UnlockError
into the exposed client error IncorrectPassword
.
val result: Result<Treasure, UnlockResponse> =
unlockVault("my-password") // returns Result<Treasure, UnlockError>
.mapError { IncorrectPassword } // transform UnlockError into IncorrectPassword
Chaining
Results can be chained to produce a "happy path" of execution. For example, the
happy path for a user entering commands into an administrative console would
consist of: the command being tokenized, the command being registered, the user
having sufficient privileges, and the command executing the associated action.
The example below uses the checkPrivileges
function we defined earlier.
tokenize(command.toLowerCase())
.andThen(::findCommand)
.andThen { cmd -> checkPrivileges(loggedInUser, cmd) }
.andThen { execute(user = loggedInUser, command = cmd, timestamp = LocalDateTime.now()) }
.mapBoth(
{ output -> printToConsole("returned: $output") },
{ error -> printToConsole("failed to execute, reason: ${error.reason}") }
)
Binding (Monad Comprehension)
The binding
function allows multiple calls that each return
a Result
to be chained imperatively. When inside a binding
block, the
bind()
function is accessible on any Result
. Each call to bind
will
attempt to unwrap the Result
and store its value, returning early if any
Result
is an error.
In the example below, should functionX()
return an error, then execution will
skip both functionY()
and functionZ()
, instead storing the error from
functionX
in the variable named sum
.
fun functionX(): Result<Int, SumError> { ... }
fun functionY(): Result<Int, SumError> { ... }
fun functionZ(): Result<Int, SumError> { ... }
val sum: Result<Int, SumError> = binding {
val x = functionX().bind()
val y = functionY().bind()
val z = functionZ().bind()
x + y + z
}
println("The sum is $sum") // prints "The sum is Ok(100)"
The binding
function primarily draws inspiration from
Bow's binding
function, however below is a list of other
resources on the topic of monad comprehensions.
Coroutine Binding Support
Use of suspending functions within a coroutineBinding
block requires an
additional dependency:
dependencies {
implementation("com.michael-bull.kotlin-result:kotlin-result:2.0.0")
implementation("com.michael-bull.kotlin-result:kotlin-result-coroutines:2.0.0")
}
The coroutineBinding
function runs inside a
coroutineScope
, facilitating concurrent
decomposition of work.
When any call to bind()
inside the block fails, the scope fails, cancelling
all other children.
The example below demonstrates a computationally expensive function that takes five milliseconds to compute being eagerly cancelled as soon as a smaller function fails in just one millisecond:
suspend fun failsIn5ms(): Result<Int, DomainErrorA> { ... }
suspend fun failsIn1ms(): Result<Int, DomainErrorB> { ... }
runBlocking {
val result: Result<Int, BindingError> = coroutineBinding { // this creates a new CoroutineScope
val x = async { failsIn5ms().bind() }
val y = async { failsIn1ms().bind() }
x.await() + y.await()
}
// result will be Err(DomainErrorB)
}
Inspiration
Inspiration for this library has been drawn from other languages in which the Result monad is present, including:
Improvements on existing solutions such the stdlib include:
- Reduced runtime overhead with zero object allocations on the happy path
- Feature parity with Result types from other languages including Elm, Haskell, & Rust
- Lax constraints on
value
/error
nullability - Lax constraints on the
error
type's inheritance (does not inherit fromException
) - Top level
Ok
andErr
functions avoids qualifying usages withResult.Ok
/Result.Err
respectively - Higher-order functions marked with the
inline
keyword for reduced runtime overhead - Extension functions on
Iterable
&List
for folding, combining, partitioning - Consistent naming with existing Result libraries from other languages (e.g.
map
,mapError
,mapBoth
,mapEither
,and
,andThen
,or
,orElse
,unwrap
) - Extensive test suite with almost 100 unit tests covering every library method
Example
The example module contains an implementation of Scott's
example application that demonstrates the usage of Result
in a real world scenario.
It hosts a ktor server on port 9000 with a /customers
endpoint. The
endpoint responds to both GET
and POST
requests with a provided id
, e.g.
/customers/100
. Upserting a customer id of 42 is hardcoded to throw an
SQLException
to demonstrate how the Result
type can
map internal program errors to more appropriate
user-facing errors.
Contributing
Bug reports and pull requests are welcome on GitHub.
License
This project is available under the terms of the ISC license. See the
LICENSE
file for the copyright information and licensing terms.
Kotlin Resources
are all listed below.
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