Injekt for Kotlin

Dependency injection library for Kotlin.

License

License

MIT
Categories

Categories

config Application Layer Libs Configuration
GroupId

GroupId

uy.kohesive.injekt
ArtifactId

ArtifactId

injekt-config-typesafe-jdk6
Last Version

Last Version

1.4.1
Release Date

Release Date

Type

Type

jar
Description

Description

Injekt for Kotlin
Dependency injection library for Kotlin.
Project URL

Project URL

https://github.com/kohesive/injekt
Source Code Management

Source Code Management

https://github.com/kohesive/injekt

Download injekt-config-typesafe-jdk6

How to add to project

<!-- https://jarcasting.com/artifacts/uy.kohesive.injekt/injekt-config-typesafe-jdk6/ -->
<dependency>
    <groupId>uy.kohesive.injekt</groupId>
    <artifactId>injekt-config-typesafe-jdk6</artifactId>
    <version>1.4.1</version>
</dependency>
// https://jarcasting.com/artifacts/uy.kohesive.injekt/injekt-config-typesafe-jdk6/
implementation 'uy.kohesive.injekt:injekt-config-typesafe-jdk6:1.4.1'
// https://jarcasting.com/artifacts/uy.kohesive.injekt/injekt-config-typesafe-jdk6/
implementation ("uy.kohesive.injekt:injekt-config-typesafe-jdk6:1.4.1")
'uy.kohesive.injekt:injekt-config-typesafe-jdk6:jar:1.4.1'
<dependency org="uy.kohesive.injekt" name="injekt-config-typesafe-jdk6" rev="1.4.1">
  <artifact name="injekt-config-typesafe-jdk6" type="jar" />
</dependency>
@Grapes(
@Grab(group='uy.kohesive.injekt', module='injekt-config-typesafe-jdk6', version='1.4.1')
)
libraryDependencies += "uy.kohesive.injekt" % "injekt-config-typesafe-jdk6" % "1.4.1"
[uy.kohesive.injekt/injekt-config-typesafe-jdk6 "1.4.1"]

Dependencies

compile (3)

Group / Artifact Type Version
uy.kohesive.injekt : injekt-api jar 1.4.1
uy.klutter : klutter-config-typesafe-jdk6 jar 0.3.3
uy.klutter : klutter-json-jackson-jdk6 jar 0.3.3

provided (1)

Group / Artifact Type Version
org.jetbrains.kotlin : kotlin-stdlib jar 0.12.1230

runtime (1)

Group / Artifact Type Version
uy.kohesive.injekt : injekt-core jar 1.4.1

test (4)

Group / Artifact Type Version
org.jetbrains.kotlin : kotlin-reflect jar 0.12.1230
junit : junit jar 4.12
org.slf4j : slf4j-api jar 1.7.12
ch.qos.logback : logback-classic jar 1.1.3

Project Modules

There are no modules declared in this project.

Kotlin Maven Version CircleCI branch Issues DUB Kotlin Slack

Notice: Kodein and Injekt, much of the same

Since Injekt and Kodein both ended up in a very similar implementation (object registry approach to injection), it makes little sense in having two flavours of the same library for Kotlin. Therefore Injekt is deferring to Kodein. Since Injekt has no known bugs, there is no fear in continuing to use it (and I will fix anyting that shows up), but for additional functionality see Kodein instead.

Libraries such as Klutter will create Kodein modules for their injection modules, same for Kovert. And Typesafe configuration injection from Klutter will also be ported over to Kodein for future releases.

Kodein: https://github.com/SalomonBrys/Kodein

Injekt

Injekt gives you crazy easy Dependency Injection in Kotlin. Although you can probably use it in other JVM languages if you are feeling lucky.

Injekt is NOT inversion of control. It is NOT some mystical class file manipulator. It is NOT complex. But it IS powerful.

Injekt can also load, bind to objects, and inject configuration using Typesafe Config. Read more in the injekt-config-typesafe module.

Quick Samples

Simply register singletons (non-lazy), or factories (lazy) and then inject that values either directly or using Kotlin delegates. For example:

Early in your program (for modules see Injekt "Main" and Packaged Injektables below):

Injekt.addSingleton(HikariDataSource(HikariConfig("some/path/hikari.properties")) as DataSource)
Injekt.addSingletonFactory { PeopleService() }
Injekt.addFactory { ComplexParser.loadFromConfig("some/path/parsing.conf") }

Where PeopleService has default value for constructor parameter that receives the value from Injekt:

class PeopleService(db: DataSource = Injekt.get()) { ... }

Then you can inject PeopleService into your code whenever you want to use it:

class PeopleController {
    fun putPerson(person: Person) {
        val peopelSrv: PeopleService = Injekt.get()
        // ...
    }
}

And when injecting into a property you can use the same style, or instead use delegates:

class PeopleController {
    val peopelSrv: PeopleService by injectLazy() // or injectValue() if immediate
    
    fun putPerson(person: Person) {
        // ...
    }
}

Since PeopleService uses default values in the constructor, you can easily override in tests without requiring an injection model:

class TestPeopleService {
    companion object {
        lateinit var db: DataSource

        @JvmStatic @BeforeClass fun setupTests() {
            db = HikariDataSource(HikariConfig().apply {
                jdbcUrl = "jdbc:h2:mem:test"
            })
        }
    }

    fun testPeopleService() {
        val people = PeopleService(db) // no injection required
        // ...
    }
}

Gradle / Maven Dependnecy

Include the dependency in your Gradle / Maven projects, ones that have Kotlin configured for Kotlin 1.0

Gradle:

compile "uy.kohesive.injekt:injekt-core:1.16.+"

Maven:

<dependency>
    <groupId>uy.kohesive.injekt</groupId>
    <artifactId>injekt-core</artifactId>
    <version>[1.16.0,1.17.0)</version>
</dependency>

It is recommended you set your IDE to auto import * for Injekt packages (if your IDE supports such a feature):

import uy.kohesive.injekt.*
import uy.kohesive.injekt.api.*

Injekt "Main"

At the earliest point in your application startup, you register singletons, factories and your logging factories. For the simplest version of this process, you can use the InjektModule on an object or companion object (from Injekt Examples)

class MyApp {
    companion object : InjektMain() {
        // my app starts here with a static main()
        @JvmStatic public fun main(args: Array<String>) {
            MyApp().run()
        }

        // the InjektModule() will call me back here on a method I override.  And all my functions for registration are
        // easy to find on the receiver class
        override fun InjektRegistrar.registerInjectables() {
            // let's setup my logger first
            addLoggerFactory({ byName -> LoggerFactory.getLogger(byName) }, { byClass -> LoggerFactory.getLogger(byClass) })

            // now some singletons
            addSingleton(HttpServerConfig("0.0.0.0", 8080, 16))
            addSingleton(DatabaseConnectionConfig("db.myhost.com", "sa", "sillycat"))

            // or a lazy singleton factory
            addSingletonFactory { DontCreateUntilWeNeedYa() }

            // or lets only have one database connection per thread, basically a singleton per thread
            addPerThreadFactory { JdbcDatabaseConnection(Injekt.get()) }  // wow, nested inections!!!

            // or give me a new one each time it is injected
            addFactory { LazyDazy() }

            // and we also have factories that use a key (or single parameter) to return an instance
            val pets = listOf(NamedPet("Bongo"), NamedPet("Dancer"), NamedPet("Cheetah")).map { it.name to it}.toMap()
            addPerKeyFactory { petName: String -> pets.get(petName)!! }

            // use prebuilt injectable packages
            importModule(AmazonS3InjektModule)
        }
    }

    ...
}

And once they are registered, anything else in the system can access them, for example as class properties they can be injected using delegates:

    val log: Logger by injectLogger()
    val laziest: LazyDazy by injectLazy()
    val lessLazy: LazyDazy by injectValue()

or directly as assignments both as property declarations and local assignemtns:

    val notLazy1: LazyDazy = Injekt.get()
    val notLazy2 = Injekt.get<LazyDazy>()

And they can be used in constructors and methods as default parameters:

    public fun foo(dbConnectParms: DatabaseConfig = Injekt.get()) { ... }

And since we have registered in the first example a mix of types, including thread specific injections and key/parameter based, here they are in action:

 public fun run() {
        // even local variables can be injected, or rather "got"
        val something = Injekt.get<DontCreateUntilWeNeedYa>()
        startHttpServer()
    }

    // and we can inject into methods by using Kotlin default parameters
    public fun startHttpServer(httpCfg: HttpServerConfig = Injekt.get()) {
        log.debug("HTTP Server starting on ${httpCfg.host}:${httpCfg.port}")
        HttpServer(httpCfg.host, httpCfg.port).withThreads(httpCfg.workerThreads).handleRequest { context ->
            val db: JdbcDatabaseConnection = Injekt.get()    // we have a connection per thread now!

            if (context.params.containsKey("pet")) {
                // inject from a factory that requires a key / parameter
                val pet: NamedPet = Injekt.get(context.params.get("pet")!!)
                // or other form without reified parameters
                val pet2 = Injekt.get<NamedPet>(context.params.get("pet")!!)
            }
        }
    }

Packaged Injektables

Now that you have mastered injections, let's make modules of our application provide their own injectable items. Say our Amazon AWS helper module has a properly configured credential provider chain, and can make clients for us nicely. It is best to have that module decide the construction and make it available to other modules. And it's easy. Create an object that extends InjektModule and then it is pretty much the same as before:

public object AmazonS3InjektModule : InjektModule {
    override fun InjektRegistrar.registerInjectables() {
        addSingletonFactory { AmazonS3Client(defaultCredentialsProviderChain()) }
    }
}

The only difference between an InjektMain and InjektModule object is that a InjektMain is automatically called to initialize, whereas an InjektModule does not do anything until it is imported by another InjektMain or InjektModule. Using InjektModule is simple, go back to the first example at the top of this page and you will see it imported with a simple

 // use prebuilt package
importModule(AmazonS3InjektModule)

Note: if you extend InjektMain you are also a module that can be imported.

Note: If you use scopes (see InjektScope and InjektScopeMain then you should be aware that using InjektMain points at the global scope always).

One Instance Per-Thread Factories -- a tip

When using a factory that is per-thread, be sure not to pass the object to other threads if you really intend for them to be isolated. Lookup of such objects is from ThreadLocal storage and fast, so it is better to keep these objects for shorter durations or in situations guaranteed to stay on the same thread as that which retrieved the object.

Injecting Configuration with Typesafe Config

Injekt + Klutter library can also load, bind to objects, and inject configuration using Typesafe Config. Read more in the klutter/config-typesafe module.

Generics, Erased Type and Injection

It is best to use type inference for all methods in Injekt to let the full type information come through to the system. If the compiler can determine the types, it is likely the full generic information is captured. But if a value passed to Injekt does not have that information available at the calling site, then you can specify the full generic type as a type parameter to the method, for example Injekt.get<MyFullType<WithGenerics<AndMore>>>(). Methods also accept a TypeReference<T> which can be passed around as a means to parameterize and send type information through the system. The helper method fullType<T>() can create a TypeReference for you, for example Injekt.get(fullType<MyFullType<WithGenerics>>()).

It is preferable that you use (in priority order):

  • The inferred forms of Injekt functions that infer their type from the surrounding expression. Do not provide a type unless something breaks.
  • Or if you want to change the type recognized by Injekt, use an explicit generic type for the function someFunction<MyType>().
  • If those are not to your liking, then use the TypeReference version passing in a typeRef<T>() generated TypeReference ... this is your fallback in cases where things need full and exact control.

By doing this, you prevent surprises because you are in full control and it is obvious what types are expected.

Scopes

Injekt allows manual scoping of instances into separate Injekt registries. The global registry, available through the Injekt variable is just one scope that is pre-created for you. You can also create new ones:

val myLocalScope: InjektScope = InjektScope(DefaultRegistrar())

This makes a standalone scope that has no relationship to the global or to others.

But then you can link scopes by creating factories in the new scope that delegate some of the instance creation to another scope, or the global Injekt scope. For example:

// delegate some factories to global Injekt instance
myLocalScope.addSingletonFactory { Injekt.get<SomeSingletonClass>() }
myLocalScope.addFactory { Injekt.get<SomeMultiValueClass>() }

When delegating factories such as this, any multi-value instances will not be cached by any scope since those factories create new instances on every call. For singletons and keyed factories the objects are cached and a reference to those objects will exist in both the local and delegated scopes for any instances requested during its lifecycle.

You can also just use multiple scopes independently without linking or delegation. Fetch some instances from a local scope, others from the global. But you must use each scope independently and be careful of accidentally using the Injekt global variable when not intended.

If you have common factories needed in local scopes, you can easily create a descendent of InjektScope that registers these during its construction.

class MyActivityScope: InjektScope(DefaultRegistrar()) {
    init {
        // override with local value
        addSingletonFactory { SomeSingletonClass() }
        // import other registrations from defined modules
        importModule(OtherModuleWithPrepackagedInjektions)
        // delegate to global scope:
        addSingletonFactory { Injekt.get<SomeOtherSingleton>() }
    }
}

// then in each place you want a local scope
val localScope = MyActivityScope()

// later use the scope
val singly: SomeSingletonClass = localScope.get()
val other: SomeOtherSingleton = localScope.get()

Or using the same model as InjektMain create a descendent of InjektScopedMain that overrides function fun InjektRegistrar.registerInjectables() { ... }, if you prefer to be consistent with modules. For example:

class MyActivityModule: InjektScopedMain(InjektScope(DefaultRegistrar())) {
    override fun InjektRegistrar.registerInjectables() {
        // override with local value
        addSingletonFactory { NotLazy("Freddy") }
        // import other registrations from defined modules
        importModule(OtherModuleWithPrepackagedInjektions)
        // delegate to global scope:
        addSingletonFactory { Injekt.get<SomeOtherSingleton>() }
    }
}

// then in each place you want a local scope
val localScope = MyActivityModule().scope

And you can still use delegated properties, as long as the scope is declared before use in the delegate:

val myProp: SomeClass by localScope.injectValue()

You can use the LocalScoped base class to have local versions of injectValue() and injectLazy() to make it more convenient when injecting members (see code for LocalScoped). This way your syntax stays consistent (see example in tests).

To clear a local scope, drop your reference to the scope and it will garabage collect away. There is no explicit clear method.

For more advanced, and more automatic scope linking / delegation / inheritance, please see issue #31 and provide comments. For propagating a scope into other classes injected into the class declaring the local scope, see the test case referenced from #32

Coming soon... (RoadMap)

  • Linked Scopes, see #31
  • Scoped factories, see #32
  • Materializing object graphs without explicit calls to Injekt
  • Tell me what you would like to see, add Issues here in Github with requests.

Recommended libraries:

Other libraries that we recommend a building blocks for Kotlin applications:

  • Kovenant - promises for Kotlin, easy, fun, and async! (JVM / Android)
  • Klutter - simple, small, useful things for Kotlin

With help from...

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uy.kohesive.injekt

Kohesive

A kohesive set of Kotlin libraries

Versions

Version
1.4.1
1.4.0
1.3.2
1.3.1
1.3.0