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Injektor: "Not" a dependency injection library for Kotlin

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Injektor: "Not" a dependency injection library Build Status

Dependency injection is hard, scary and opinionated. So this is "not" a dependency injection library :)

This project is under active development. The API is not stabilized

compile 'com.github.lexer.injektor:injektor:0.0.3'

For unit tests

compile 'com.github.lexer.injektor:injektor-test:0.0.3'

Get started

To demonstrate the usage of this library let's do a classic coffee maker. For the complete sample code that you can compile and run, see CoffeeMakerIntegrationTest.

Let's start from defining coffee maker classes:

class CoffeeMaker(override val injector: Injector) : Injectable {

    private val heater: Heater by inject()
    private val pump: Pump by inject()
    private val logger: Logger by inject()

    fun brew() {
        heater.on()
        pump.pump()
        logger.log("coffee is brewed")
        heater.off()
    }
}

interface Heater {
    fun on()
    fun off()
    fun isHot(): Boolean
}

class ElectricHeater(override val injector: Injector) : Injectable, Heater {
    private val logger: Logger by inject()

    var isOn = false
    override fun on() {
        logger.log("heater is on")
        isOn = true
    }

    override fun off() {
        logger.log("heater is off")
        isOn = false
    }

    override fun isHot(): Boolean {
        return isOn
    }
}

interface Pump {
    fun pump()
}

class Thermosiphon(override val injector: Injector) : Injectable, Pump {
    private val heater: Heater by inject()
    private val logger: Logger by inject()

    override fun pump() {
        if (heater.isHot()) {
            logger.log("pump is pumping")
        }
    }
}

Injektor can't resolve undeclared dependencies. Each dependency should be explicitly declared by implementing the Module class.

class CoffeeMakerModule : Module() {
    // Since Injektor framework rely on property injection
    // all you need to pass your factory methods is injector object
    override fun configure(injector: Injector) {
        bind<Pump> { Thermosiphon(injector) }
        bind { CoffeeMaker(injector) }
    }
}

By default, the declared dependency will be resolved as a new instance. If you want the reuse instance of a specific class you should use scopes. A deeper dive into scopes is provided in a separate section below.

class HeaterModule : Module() {
    override fun configure(injector: Injector) {
        bind<Heater> { ElectricHeater(injector) }.scope("coffee")
    }
}

You should think of Modules as "fancy factories". The actual dependency resolution is done by Injectors.

Injector is responsible for dependency resolution and scoping of your instances.

At the moment, only a single Injector is supported.

In the future, I'm planning to add child injectors for on demand modules support It doesn't mean that you cannot use the library for a multi modular app.

val injector = Injector.create(modules = listof(LoggerModule(), CoffeeMakerModule(), HeaterModule()))

Finally we can resolve our CoffeMaker dependency and brew some coffee.

There are two ways to resolve dependencies using Injector.

The first way is using the inject() delegated property. To enable that property in your class, it should implement the Injectable interface

class CoffeeApp : Fragnum, Injectable {
    val logger: Logger by inject()
    val cofferMaker : CoffeeMaker by inject()

    override val injector: Injector
            by lazy { Injector.create(modules = listOf(LoggerModule(), HeaterModule(), CoffeeMakerModule())) }

    fun run(): Logger {

        cofferMaker.brew()

        return logger
    }

    override fun injector(): Injector {
        return injector
    }
}

The second way is directly calling the get method on your Injector instance

val coffeeMaker = injector.get(CoffeeMaker::class)
// or
val coffeeMaker2 : CoffeeMaker = injector.get()

Configuration validation

To validate the injector correctness, create a unit test and run the checkInjector helper function.

checkInjector will try to instantiate all declared dependencies and eager load all lazy properties.

Example:

class CoffeeMakerModuleTest {
    @Test
    fun checkinjector_validinjectorWithCompleteGraph_noErrors() {
        val injector = Injector.create(modules = listOf(LoggerModule(), HeaterModule(), CoffeeMakerModule()))
        assertThat(checkInjector(injector)).isEmpty()
    }

Scoping

Scoping is a mechanism to create singleton instances of your classes with limited lifetime.

To make injector cache instance you class you should use scoped method in your dependency declaration.

class UserSettingModule : Module() {
  override fun configure(injector: Injector) {
    bind<UserSettings> { UserSettings() }.scope("user")
  }
}

In your code you should explicitly start and stop your scopes.

fun onUserLoggedIn() {
  injector.startScope("user")
}

fun onUserLoggedOut() {
  injector.stopScope("user")
}

Here are few unit tests to illustrate behavior

@Test 
fun sameInstance() {
  injector.startScope("user")
  val settings1 = injector.get(UserSettings::class)
  val settings2 = injector.get(UserSettings::class)
  injector.stopScope("user")

  assertThat(settings1).isNotNull()
  assertThat(settings2).isNotNull()
  assertThat(settings1).isEqualTo(settings2)
}

@Test 
fun differentInstances() {
  injector.startScope("user")
  val settings1 = injector.get(UserSettings::class)
  injector.stopScope("user")
  injector.startScope("user")
  val settings2 = injector.get(UserSettings::class)
  injector.stopScope("user")

  assertThat(settings1).isNotNull()
  assertThat(settings2).isNotNull()
  assertThat(settings1).isNotEqualTo(settings2)
}

If you want to make your class aware of being destroyed you can implement optional Scoped interface

class UserSettings: Scoped {
  override fun onScopeDestroyed() {

  }
}

At this point resolving scoped classes from "not started" scopes is allowed. However it's a very bad behavior and you should avoid it all costs.

Injector logs these attempts as warnings. Please see InjectorLogger for details.

Unit testing

class CoffeeMakerTest {
    @Mock lateinit var pump: Pump
    @Mock lateinit var heater: Heater
    private lateinit var coffeeMaker: CoffeeMaker

    @Before
    fun setUp() {
        MockitoAnnotations.initMocks(this)
        coffeeMaker = CoffeeMaker(MockInjector()
                .mock(pump)
                .mock(heater)
                .mock(Logger()))
    }

    @Test
    fun brew() {
        coffeeMaker.brew()

        verify(heater).on()
        verify(pump).pump()
        verify(heater).off()
    }
}

That's it folks! 🚀 🐑 🚢

Deploy new version

Update version and run deploy script below.

$ ./gradlew clean build bintrayUpload -PbintrayUser=BINTRAY_USERNAME -PbintrayKey=BINTRAY_KEY -PdryRun=false

FAQ

  1. Why property injection?

Typically it's always recommended to rely on constructor injection. However constructor injection requires unnecessary initialization of all dependencies during construction time. With property injection we can enforce lazy initialization of every individual dependency.

*** You can avoid it with by passing construct arguments as Lazy<> but that creates a lot of boilerplate code

  1. How does this library compare to other DI libraries/frameworks?

This is "not" a di library.

TODO

  • More robust error messaging needed
  • Make sure instantiation is thread safe.

Authors

  • Aleksei Zakharov (github:lexer)

License

Copyright 2018 Aleksei Zakharov

Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

   http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.

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