4 min read
·
By Matias Vinjevoll
·
December 18, 2020
Both object composition and inheritance are mechanisms that enable code reuse. While composition makes code reusable by composing objects with smaller well-defined behaviours into larger and more complex objects, inheritance makes code reusable by building class hierarchies where common behaviours are defined lower down in the hierarchy.
The delegation pattern is a design pattern based on object composition, where an object is delegating the work to other objects it has reference to. This might make it look like inheritance from the outside. A disadvantage with the delegation pattern is that it gives more boilerplate code in some languages. This is not the case for Kotlin, having first class support for the delegation pattern, applied using the by
keyword. Let's walk through an example which demonstrates this.
We will use the example of an API to retrieve and submit wish lists, where we are going to implement a client to consume this API:
interface HealthCheck {
fun healthy(): Boolean
}
interface WishListClient : HealthCheck {
fun submitWishList(wishList: List<String>): Unit
fun retrieveWishList(): List<String>
}
First, we have an interface HealthCheck
, to check if the API is responding. Second, we have an interface WishListClient
, defining the operations of the API, where we can submit and retrieve our wish list.
Below, we have an implementation of the WishListClient
as an http client:
class WishListHttpClient(
val url: String,
val httpClient: HttpClient
) : WishListClient {
override fun submitWishList(wishList: List<String>): Unit {
httpClient
.post(url = "$url/api/wishlist", body = wishList)
}
override fun retrieveWishList(): List<String> {
return httpClient
.get<List<String>>(url = "$url/api/wishlist").body
}
override fun healthy(): Boolean {
return httpClient
.get<Unit>(url = "$url/ping").status == 200
}
}
For this example, the implementation is stripped down to save space and for readability, but it will hopefully be realistic enough to make sense. The actual http calls are delegated to some HttpClient
, composed as a constructor parameter to WishListHttpClient
. We do not delegate directly to the HttpClient
, we provide information about the url, and in a real world implementation, we might have some more logic to handle the request and the response. Here is how the stripped down HttpClient
interface looks like:
interface HttpClient {
data class Response<T>(val body: T, val status: Int)
fun <T> get(url: String): Response<T>
fun <T> post(url: String, body: T): Unit
}
Now, the implementation looks quite ok, but the next time we are going to implement an http client, it is likely that we would like to have a health check for that client as well. The only thing which will vary between the implementation of healthy
for different clients is the url, so let's split the health check to its own implementation to work for arbitrary endpoints:
class HttpHealthCheck(
val url: String,
val httpClient: HttpClient
) : HealthCheck {
override fun healthy(): Boolean {
return httpClient
.get<Unit>(url = url).status == 200
}
}
We can now change the WishListHttpClient
to provide the health check functionality by composition, and delegate the functionality:
class WishListHttpClient(
val url: String,
val httpClient: HttpClient,
val healthCheck: HealthCheck
) : WishListClient {
override fun submitWishList(wishList: List<String>): Unit {
httpClient
.post(url = "$url/api/wishlist", body = wishList)
}
override fun retrieveWishList(): List<String> {
return httpClient
.get<List<String>>(url = "$url/api/wishlist").body
}
override fun healthy(): Boolean {
return healthCheck.healthy()
}
}
There is some boilerplate with the healthy function, which is only delegating to the healthCheck
instance with no other logic. That's where the delegation pattern in Kotlin comes in:
class WishListHttpClient(
val url: String,
val httpClient: HttpClient,
val healthCheck: HealthCheck
) : WishListClient, HealthCheck by healthCheck {
override fun submitWishList(wishList: List<String>): Unit {
httpClient
.post(url = "$url/api/wishlist", body = wishList)
}
override fun retrieveWishList(): List<String> {
return httpClient
.get<List<String>>(url = "$url/api/wishlist").body
}
}
When using the by
keyword in the implementation of HealthCheck
, referring to the healthCheck
instance, the compiler will generate the method healthy
in WishListHttpClient
like in the previous version.
With the current implementation, it would be a bit complicated to create an instance of WishListHttpClient
, which would look something like this, given a url
and an instance of HttpClient
:
WishListHttpClient(url, httpClient, HttpHealthCheck("$url/ping", httpClient))
Instead of delegating an instance of HealthCheck
given as a constructor argument, we can delegate a new instance directly:
class WishListHttpClient(
val url: String,
val httpClient: HttpClient
) : WishListClient,
HealthCheck by HttpHealthCheck("$url/ping", httpClient) {
override fun submitWishList(wishList: List<String>): Unit {
httpClient
.post(url = "$url/api/wishlist", body = wishList)
}
override fun retrieveWishList(): List<String> {
return httpClient
.get<List<String>>(url = "$url/api/wishlist").body
}
}
In this case, this gives better control of the url for /ping
and /api
since they are now defined in the same place, and it will be easier to instantiate given a url
and an instance of HttpClient
:
WishListHttpClient(url, httpClient)
A probable scenario is that we would like to add a cache to the retrieveWishList
function to lower the number of requests to the API. We can do this with minimal effort, creating a new class that delegates to an instance of WishListClient
, only overriding the retrieveWishList
function to add caching:
class WishListCachedHttpClient(
val myClient: WishListClient
) : WishListClient by myClient {
override fun retrieveWishList(): List<String> {
// get from cache or...
return myClient.retrieveWishList()
}
}
This article has shown some ways to use the built in delegation feature in Kotlin, and hopefully it might have been helpful in identifying cases where delegation can be useful. There are also other use cases for delegation i Kotlin, with delegated properties.
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