The Klutter Framework makes it possible to write a Flutter plugin for both Android and iOS using Kotlin Multiplatform. Instead of writing platform specific code twice in 2 languages (Swift + Kotlin), it can be written once in Kotlin and used as a Flutter plugin.
Use this plugin if you want to:
Using the IDE plugins or interactive kradle tool are the preferred options to create projects, as opposed to doing everything manually. You can install the kradle tool from git or pub:
## Get from pub
dart pub global activate klutter
## Get from git
dart pub global activate --source git https://github.com/buijs-dev/klutter-dart.git
## Use it globally
dart pub global run klutter:kradle
A native kradle executable is added to the project workspace, when creating a new project using an IDE plugin.
See the kradle tutorial for usage instructions.
What's the point? Plugins build with the Klutter Framework work slightly different from regular plugins. The Klutter dependency is a requirement for both using and creating plugins with Klutter.
Steps: Add the Klutter library to dependencies in the pubspec.yaml:
dev_dependencies:
klutter: ^3.0.1
Then run:
flutter pub get
What's the point? Plugins build with the Klutter Framework work slightly different from regular plugins. The following tasks help Flutter to locate Klutter plugins and ensure compatibility between Flutter Android/IOS configuration and Klutter plugin Android/IOS configuration.
Steps:
Install Klutter as dependency as described here.
Initialize Klutter in your project by running:
dart run klutter:kradle init
The init task will set up Klutter for both Android and iOS. Klutter plugins can be added by running the add command.
Example: Add the library 'awesome_plugin' to your project:
dart run klutter:kradle add lib=awesome_plugin
Background The consumer init task will configure your Flutter project in:
IOS The Podfile has to be editted to be able to run the app on an iPhone simulator. Klutter will look for the following code block in the Podfile:
post_install do |installer|
installer.pods_project.targets.each do |target|
flutter_additional_ios_build_settings(target)
end
end
Then it will be updated to the following code:
post_install do |installer|
installer.pods_project.targets.each do |target|
flutter_additional_ios_build_settings(target)
target.build_configurations.each do |bc|
bc.build_settings['ARCHS[sdk=iphonesimulator*]'] = `uname -m`
end
end
end
Android The consumer init task will do the following for Android in your Flutter project:
The .klutter-plugins file will register all Klutter made plugins used in your project. The created Gradle file in the flutter_tools manages the plugins and enables them to be found by the Flutter project.
The task klutter:add registers a Klutter plugin in the .klutter-plugins file. This is then used by the Android Gradle file to find the plugin location and add the generated artifacts to your build.
What's the point? The starting point of a Klutter plugins is a regular Flutter plugin project. The following steps describe how to create a Flutter plugin project and initialize Klutter in it.
Steps:
Run the following to create a new Flutter plugin, substituting 'org.example' with your organisation name and 'plugin_name' with your plugin name:
flutter create --org com.example --template=plugin --platforms=android,ios -a kotlin -i swift plugin_name
Install the Klutter Framework as dependency and then run:
dart run kradle:init
Build the platform module by running the following in the root folder (takes a few minutes):
dart run klutter:kradle build
Alternatively use gradle directly with the following command:
./gradlew clean build -p "platform"
Now test the plugin by following the steps outlined here in the root/example project. When done you can run the example project from the root/example/lib folder and see your first plugin in action!
Make sure you have followed all the following steps:
There should be a .klutter-plugins file in the root/example folder containing an entry for your plugin. If not then do flutter pub run klutter:consumer add=<your_plugin_name> in the root/example folder again.
There should be a platform.aar file in the root/android/klutter folder. If not then do ./gradlew clean build -p "platform" from the root folder.
There should be a Platform.xcframework folder in root/ios/Klutter. If not then do ./gradlew clean build -p "platform" from the root folder.
If there's an error message saying unable to find plugin or similar then run pod update (or for Mac M1 users you might have to do: arch -x86_64 pod install) in the root/example/ios folder.
If there's an error message saying something similiar to '...example/ios/Pods/Target Support Files/Pods-Runner/Pods-Runner-frameworks.sh: Permission denied' then try one of:
When you get an error like below, indicating no compatible Java version is detected, make sure you have the same Java version installed as required by the klutter project.
* What went wrong:
Could not determine the dependencies of task ':klutter:hello_world:compileDebugKotlinAndroid'.
> No matching toolchains found for requested specification: {languageVersion=17, vendor=any, implementation=vendor-specific}.
> No locally installed toolchains match ...
You might also have to add the following plugin to the settings.gradle(.kts) files:
plugins {
id("org.gradle.toolchains.foojay-resolver-convention") version "0.4.0"
}