- Kotlin/JS IR 编译器
- Lazy initialization of top-level properties
- Incremental compilation for development binaries
- Output .js files: one per module or one for the whole project
- 忽略编译错误
- Minification of member names in production
- 预览:TypeScript 声明文件(d.ts)的生成
- IR 编译器的当前限制
- Migrating existing projects to the IR compiler
- 为 IR 编译器创作具有向后兼容性的库
Kotlin/JS IR 编译器
Kotlin/JS IR 编译器后端是围绕 Kotlin/JS 进行创新的主要焦点,并为该技术的发展铺平了道路 。
Kotlin/JS IR 编译器后端没有直接从 Kotlin 源代码生成 JavaScript 代码,而是利用了一种新途径。首先将 Kotlin 源代码转换为 Kotlin 中间表示(IR), 然后将其编译为 JavaScript。 对于 Kotlin/JS,这可以进行积极的优化,并可以改善以前的编译器中存在的痛点,例如生成的代码大小(通过消除无效代码)以及 JavaScript 与 TypeScript 生态系统的互操作性。
从 Kotlin 1.4.0 开始,可以通过 Kotlin Multiplatform Gradle 插件使用 IR 编译器后端。要在项目中启用它, 请将编译器类型传递给 Gradle 构建脚本中的 js
函数:
kotlin {
js(IR) { // 或:LEGACY、BOTH
// ...
binaries.executable() // not applicable to BOTH, see details below
}
}
IR
使用 Kotlin/JS 的新 IR 编译器后端。LEGACY
使用旧版编译器后端。BOTH
使用新的 IR 编译器以及默认的编译器后端编译项目。这个模式用于创作与两个后端兼容的库。
The old compiler backend has been deprecated since Kotlin 1.8.0. Starting with Kotlin 1.9.0, using compiler types
LEGACY
orBOTH
leads to an error.
还可以使用键值 kotlin.js.compiler=ir
在 gradle.properties
文件中设置编译器类型。 但是,build.gradle(.kts)
中的任何设置都会覆盖此行为。
Lazy initialization of top-level properties
For better application startup performance, the Kotlin/JS IR compiler initializes top-level properties lazily. This way, the application loads without initializing all the top-level properties used in its code. It initializes only the ones needed at startup; other properties receive their values later when the code that uses them actually runs.
val a = run {
val result = // intensive computations
println(result)
result
} // value is computed upon the first usage
If for some reason you need to initialize a property eagerly (upon the application start), mark it with the @EagerInitialization{nullable=”true”} annotation.
Incremental compilation for development binaries
The JS IR compiler provides the incremental compilation mode for development binaries that speeds up the development process. In this mode, the compiler caches the results of compileDevelopmentExecutableKotlinJs
Gradle task on the module level. It uses the cached compilation results for unchanged source files during subsequent compilations, making them complete faster, especially with small changes.
Incremental compilation is enabled by default. To disable incremental compilation for development binaries, add the following line to the project’s gradle.properties
or local.properties
:
kotlin.incremental.js.ir=false // true by default
The clean build in the incremental compilation mode is usually slower because of the need to create and populate the caches.
Output .js files: one per module or one for the whole project
As a compilation result, the JS IR compiler outputs separate .js
files for each module of a project. Alternatively, you can compile the whole project into a single .js
file by adding the following line to gradle.properties
:
kotlin.js.ir.output.granularity=whole-program // 'per-module' is the default
忽略编译错误
Ignore compilation errors mode is Experimental. It may be dropped or changed at any time. Opt-in is required (see the details below), and you should use it only for evaluation purposes. We would appreciate your feedback on it in YouTrack.
Kotlin/JS IR 编译器提供了默认后端中不可用的新编译模式——忽略编译错误。 在这种模式下,即使其代码包含错误,也可以试运行应用程序。 例如,当执行复杂的重构或在系统的某个部分上进行工作时, 而该部分与另一部分中的编译错误完全无关。
使用这种新的编译器模式,编译器会忽略所有有毛病的代码。 因此,可以试运行应用程序并尝试没毛病的部分代码。 如果试运行到在编译过程中出了毛病的代码,那么会得到运行时异常。
在两个容忍策略之间选择,以忽略代码中的编译错误:
SEMANTIC
:编译器将接受语法上正确但语义上没有意义的代码。 例如,为字符串变量赋值一个数字(类型不匹配)。SYNTAX
:编译器将接受任何代码,即使其中包含语法错误。 无论编写什么内容,编译器仍尝试生成可运行的可执行文件。
作为实验特性,忽略编译错误需要选择加入。 要启用此模式,请添加 -Xerror-tolerance-policy={SEMANTIC|SYNTAX}
编译器选项:
kotlin {
js(IR) {
compilations.all {
compileTaskProvider.configure {
compilerOptions.freeCompilerArgs.add("-Xerror-tolerance-policy=SYNTAX")
}
}
}
}
Minification of member names in production
The Kotlin/JS IR compiler uses its internal information about the relationships of your Kotlin classes and functions to apply more efficient minification, shortening the names of functions, properties, and classes. This reduces the size of resulting bundled applications.
This type of minification is automatically applied when you build your Kotlin/JS application in production mode, and enabled by default. To disable member name minification, use the -Xir-minimized-member-names
compiler option:
kotlin {
js(IR) {
compilations.all {
compileTaskProvider.configure {
compilerOptions.freeCompilerArgs.add("-Xir-minimized-member-names=false")
}
}
}
}
预览:TypeScript 声明文件(d.ts)的生成
The generation of TypeScript declaration files (
d.ts
) is Experimental. It may be dropped or changed at any time. Opt-in is required (see the details below), and you should use it only for evaluation purposes. We would appreciate your feedback on it in YouTrack.
Kotlin/JS IR 编译器能够从 Kotlin 代码生成 TypeScript 定义。在混合应用程序上工作时, JavaScript 工具与 IDE 可以使用这些定义来提供自动补全功能、支持静态分析器, 并使在 JavaScript 与 TypeScript 项目中更容易包含 Kotlin 代码。
If your project produces executable files (binaries.executable()
), the Kotlin/JS IR compiler collects any top-level declarations marked with @JsExport and automatically generates TypeScript definitions in a .d.ts
file.
If you want to generate TypeScript definitions, you have to explicitly configure this in your Gradle build file. Add generateTypeScriptDefinitions()
to your build.gradle.kts
file in the js section. For example:
kotlin {
js {
binaries.executable()
browser {
}
generateTypeScriptDefinitions()
}
}
可以在 build/js/packages/<package_name>/kotlin
中找到其定义以及相应的未打包 Web 的 JavaScript 代码。
IR 编译器的当前限制
新的 IR 编译器后端的主要变化是与默认后端 没有二进制兼容性。 A library created with the new IR compiler uses a klib format and can’t be used from the default backend. In the meantime, a library created with the old compiler is a jar
with js
files, which can’t be used from the IR backend.
如果要为项目使用 IR 编译器后端,则需要 将所有 Kotlin 依赖项更新为支持该新后端的版本。由 JetBrains 针对 Kotlin/JS 发布的针对 Kotlin 1.4+ 的库已经包含了与新的 IR 编译器后端一起使用所需的所有构件。
可能库开发者 希望提供与当前编译器后端以及新的 IR 编译器后端的兼容性,请另外查看“为 IR 编译器编写库”相关部分 部分。
与默认后端相比,IR 编译器后端也存在一些差异。在尝试新的后端时, 最好注意这些可能的缺陷。
- 一些 依赖默认后端特定特性的库,例如
kotlin-wrappers
,可能会显示一些问题。可以在 YouTrack 上跟踪调查与进度。 - 默认情况下,IR 后端根本 不会使 Kotlin 声明可用于 JavaScript。要使 Kotlin 声明对 JavaScript 可见,必须使用 @JsExport 对其进行注解。
Migrating existing projects to the IR compiler
Due to significant differences between the two Kotlin/JS compilers, making your Kotlin/JS code work with the IR compiler may require some adjustments. Learn how to migrate existing Kotlin/JS projects to the IR compiler in the Kotlin/JS IR compiler migration guide.
为 IR 编译器创作具有向后兼容性的库
对于库维护者,希望提供与默认后端以及新的 IR 编译器后端的兼容性,那么可以使用编译器选择的设置,该设置可为两个后端创建构件, 从而保持与以下版本的兼容性。为现有的用户以及下一代 Kotlin 编译器提供支持。 可以使用 gradle.properties
文件中的 kotlin.js.compiler=both
设置打开这种所谓的 both
模式, 也可以将其设置为 build.gradle(.kts)
文件内 js
块内项目特有的选项之一:
kotlin {
js(BOTH) {
// ...
}
}
When in both
mode, the IR compiler backend and default compiler backend are both used when building a library from your sources (hence the name). This means that both klib
files with Kotlin IR as well as jar
files for the default compiler will be generated. When published under the same Maven coordinate, Gradle will automatically choose the right artifact depending on the use case – js
for the old compiler, klib
for the new one. This enables you to compile and publish your library for projects that are using either of the two compiler backends.