A statically typed dependency injector for Swift.
DIKit provides interfaces to express dependency graph. A code generator named dikitgen
finds implementations of the interfaces, and generate codes which satisfies dependency graph.
The main parts of DIKit are injectable types and provider methods, and both of them are to declare dependencies of types.
Injectable types are types that conform to Injectable
protocol.
public protocol Injectable {
associatedtype Dependency
init(dependency: Dependency)
}
A conformer of Injectable
protocol must have associated type Dependency
as a struct. You declare dependencies of the Injectable
conformer as stored properties of Dependency
type. For example, suppose we have ProfileViewController
class, and its dependencies are User
, APIClient
and Database
. Following example code illustrates how to declare dependencies by conforming Injectable
protocol.
final class ProfileViewController: Injectable {
struct Dependency {
let user: User
let apiClient: APIClient
let database: Database
}
init(dependency: Dependency) {...}
}
Provider methods are methods of inheritor of Resolver
protocol, which is a marker protocol for code generation.
public protocol Resolver {}
Provider methods declares that which non-injectable types can be instantiated automatically. In the example above, APIClient
and Database
are non-injectable type, but they can be provided in the same ways in most cases. In this situation, define provider methods for the types in an inheritor of Resolver
protocol, so that instances of the types are provided automatically.
protocol AppResolver: Resolver {
func provideAPIClient() -> APIClient
func provideDatabase() -> Database
}
In short, we have following situation so far:
- Dependencies of
ProfileViewController
areUser
,APIClient
andDatabase
. - Instances of
APIClient
andDatabase
are provided automatically. - An instance of
User
must be provided manually to instantiateProfileViewController
.
dikitgen
generates following code for the declarations:
extension AppResolver {
func resolveAPIClient() -> APIClient {
return provideAPIClient()
}
func resolveDatabase() -> Database {
return provideDatabase()
}
func resolveViewController(user: User) -> ProfileViewController {
let apiClient = resolveAPIClient()
let database = resolveDatabase()
return ProfileViewController(dependency: .init(user: User, apiClient: apiClient, database: Database))
}
}
To use generated code, you have to implement a concrete type of AppResolver
.
final class AppResolverImpl: AppResolver {
let apiClient: APIClient = ...
let database: Database = ...
func provideAPIClient() {
return apiClient
}
func provideDatabase() {
return database
}
}
Since AppResolver
is a protocol, all implementations of provider methods are checked at compile time. If you would like to create mock version of AppResolver
for unit testing, define another concrete type of AppResolver
. It can be used the same as AppResolverImpl
.
Now, you can instantiate ProfileViewController
like below:
let appResolver = AppResolverImpl()
let user: User = ...
let viewController = appResolver.resolveViewController(user: user)
- Code generator: Swift 4.1+ / Xcode 9.4+
- Runtime library: macOS 10.11+ / iOS 9.0+ / watchOS 2.0+ / tvOS 9.0+
Install code generator dikitgen
first.
mint install ishkawa/DIKit dikitgen
git clone https://github.com/ishkawa/DIKit.git
cd DIKit
make install
Then, integrate DIKit.framework to your project. There are some option to install DIKit.framework.
- Manual: Clone this repository and add
DIKit.xcodeproj
to your project. - Carthage: Add a line
github "ishkawa/DIKIt"
to your Cartfile and runcarthage update
.
Optionally, insert shell script running dikitgen
to early part of build phases.
if which dikitgen >/dev/null; then
dikitgen ${SRCROOT}/YOUR_PROJECT > ${SRCROOT}/YOUR_PROJECT/AppResolver.generated.swift
else
echo "warning: dikitgen not installed, download from https://github.com/ishkawa/DIKit"
fi