Kotlin v2.0.21 Help

Compose compiler options DSL

The Compose compiler Gradle plugin offers a DSL for various compiler options. You can use it to configure the compiler in the composeCompiler {} block of the build.gradle.kts file for the module you're applying the plugin to.

There are two kinds of options you can specify:

  • General compiler settings.

  • Feature flags that enable or disable new and experimental features, which should eventually become part of the baseline.

Here's an example configuration:

composeCompiler { includeSourceInformation = true featureFlags = setOf( ComposeFeatureFlag.StrongSkipping.disabled(), ComposeFeatureFlag.OptimizeNonSkippingGroups ) }

General settings

generateFunctionKeyMetaClasses

Type: Property<Boolean>

Default: false

If true, generate function key meta classes with annotations indicating the functions and their group keys.

includeSourceInformation

Type: Property<Boolean>

Default: false (true for Android)

If true, include source information in generated code.

Records source information that can be used for tooling to determine the source location of the corresponding composable function. This option does not affect the presence of symbols or line information normally added by the Kotlin compiler; it only controls source information added by the Compose compiler.

metricsDestination

Type: DirectoryProperty

When a directory is specified, the Compose compiler will use the directory to dump compiler metrics. They can be useful for debugging and optimizing your application's runtime performance: the metrics show which composable functions are skippable, restartable, read-only, and so on.

The reportsDestination option allows dumping descriptive reports as well.

For a deep dive into the compiler metrics, see this Composable metrics blog post.

reportsDestination

Type: DirectoryProperty

When a directory is specified, the Compose compiler will use the directory to dump compiler metrics reports. They can be useful for optimizing your application's runtime performance: the reports show which composable functions are skippable, restartable, read-only, and so on.

The metricsDestination option allows dumping raw metrics.

For a deep dive into the compiler metrics, see this Composable metrics blog post.

stabilityConfigurationFile

Type: RegularFileProperty

A stability configuration file contains a list of classes, which should be considered stable. For details, see Stability configuration file in the Jetpack Compose documentation.

stabilityConfigurationFiles

Type: ListProperty<RegularFile>

Stability configuration files to be used for the current module.

Stability configuration files contain a list of classes that should be considered stable by the compiler. For details, see Stability configuration file in the Jetpack Compose documentation.

Here's an example of specifying paths to several files:

composeCompiler { stabilityConfigurationFiles.addAll( project.layout.projectDirectory.file("configuration-file1.conf"), project.layout.projectDirectory.file("configuration-file2.conf"), ) }

includeTraceMarkers

Type: Property<Boolean>

Default: true

If true, include composition trace markers in the generated code.

The Compose compiler can inject additional tracing information into the bytecode, which allows it to show composable functions in the Android Studio system trace profiler.

For details, see this Android Developers blog post.

targetKotlinPlatforms

Type: SetProperty<KotlinPlatformType>

Indicates Kotlin platforms to which the Compose compiler Gradle plugin should be applied. By default, the plugin is applied to all Kotlin platforms.

To enable only one specific Kotlin platform, for example, Kotlin/JVM:

composeCompiler { targetKotlinPlatforms.set(setOf(KotlinPlatformType.jvm)) }

To disable the Gradle plugin for one or more Kotlin platforms, for example, Kotlin/Native and Kotlin/JS:

composeCompiler { targetKotlinPlatforms.set( KotlinPlatformType.values() .filterNot { it == KotlinPlatformType.native || it == KotlinPlatformType.js } .asIterable() ) }

Feature flags

Feature flags are organized into a separate set to minimize changes to top-level properties as new flags are continuously rolled out and deprecated.

To enable a feature flag that is disabled by default, specify it in the set, for example:

featureFlags = setOf(ComposeFeatureFlag.OptimizeNonSkippingGroups)

To disable a feature flag that is enabled by default, call the disabled() function on it, for example:

featureFlags = setOf(ComposeFeatureFlag.StrongSkipping.disabled())

If you are configuring the Compose compiler directly, use the following syntax to pass feature flags to it:

-P plugin:androidx.compose.compiler.plugins.kotlin:featureFlag=<flag name>

IntrinsicRemember

Default: enabled

If enabled, turns on intrinsic remember performance optimization.

Intrinsic remember is an optimization mode that inlines remember invocations and, where possible, replaces .equals() comparisons for keys with comparisons of the $changed meta parameter. This results in fewer slots being used and fewer comparisons being made at runtime.

OptimizeNonSkippingGroups

Default: disabled

If enabled, remove groups around non-skipping composable functions.

This optimization improves the runtime performance of your application by skipping unnecessary groups around composables which do not skip (and thus do not require a group). This optimization will remove the groups, for example, around functions explicitly marked as @NonSkippableComposable and functions that are implicitly not skippable (inline functions and functions that return a non-Unit value such as remember).

StrongSkipping

Default: enabled

If enabled, turns on strong skipping mode.

Strong skipping mode improves the runtime performance of your application by applying optimizations previously reserved only for stable values of composable functions whose parameters haven't changed. For example, composables with unstable parameters become skippable, and lambdas with unstable captures are memoized.

For details, see the description of strong skipping mode in the Kotlin GitHub repository.

Last modified: 26 十一月 2024