简体中文
经过多年实践,我们发现,最影响现代 JavaScript 工程的代码质量和开发体验的主要有 3 个方面:
- 类型安全:用于提前发现类型、拼写错误,例如对象方法是否正确调用、函数参数传递的类型是否符合函数体的期望等。
- Formatting:用于统一格式,提升代码可读性,减少代码冲突。主要关注例如缩进、换行、单/双引号、带/不带分号等问题。
- Linting:用于提前发现逻辑漏洞和糟粕用法,减少 Bug,降低维护成本。其关注点可以是除了
Formatting
之外的任何地方,例如重复定义变量、switch 不带 break、圈复杂度等。
这 3 个方面也是更先进的运行时 Deno 所内置的功能,Node 并没有内置支持,取而代之的是社区里百花齐放的工具:TypeScript、Flow、Biome、ESLint、oxc-lint、Prettier、dprint。这些工具用在 Node 项目中存在 3 个非常影响开发体验的问题:
- 工具选型问题:我应该选择哪些工具集合来优化上述 3 个问题?选择后,下一个 Node 项目又选择不同工具集怎么办?
- 工具之间冲突磨合问题:确定使用的工具后,这些工具之间是否有冲突?代码提交时是先 format 还是先 lint?工具之间配合的最佳实践是什么?
- 工具们的复杂配置问题:每个工具都有很复杂难懂的配置,在项目根目录(或
package.json
里)到处拉屎。一来不美观简洁,二来增加理解成本。每个 Node 项目可能工具统一但配置不统一,进一步导致开发体验不一致。
为了解决上述问题,现在有非常多教程文章讲解 TypeScript + Prettier + ESLint 的配置和实践,这些文章教程能缓解一部分问题,但仍然将杂乱的工具链和繁琐的配置暴露给用户。这不是我们的目标,我们的目标是提供一个统一的工具屏蔽这些复杂的实践细节,给用户带来简单一致、开箱即用的良好开发体验。
为了阐述三者之间的关系,这里以三者最具代表性的解决方案 TypeScript
、Prettier
和 ESLint
作为例子。
- | 类型安全 | Formatting | Linting |
---|---|---|---|
代表 | TypeScript | Prettier | ESLint |
关注逻辑 | ✅ | ❌ | ✅ |
Auto Fixing | ❌ | ✅ | ✅ |
经过多年演进,三者关注点存在一定的交集:
类型安全
和Linting
关注点的交集:例如,“函数入参数量对不上”,既可能被 TypeScript 检测到,也可能被 ESLint检测出来。Formatting
和Linting
关注点的交集:例如,“是否使用分号结尾”、“使用单引号还是双引号”等,既可以被 Prettier 检测出来并执行格式化,也可以被 ESLint 检测出来并执行修复。
虽然当下情况是三者存在一定的交集,但这不是最理想的情况,最理想的情况是:类型安全、Formatting 和 Linting 关注不同的领域,不存在交集。
虽然类型安全也可能和 Linting 的关注点重合,但是社区主流做法也不会将 TypeScript 和 ESLint 混为一谈,所以这里不过多赘述。然而,社区内不少人将 Formatting
和 Linting
合并起来一并处理,例如 @antfu/eslint-config。我们强烈不建议这样做,主要有以下原因:
- 首先是因为它们目的不一样,专业的事情应该交给专业的工具。
- Formatting 和 Linting 它们造成的心智负担不同,Review 代码时,我们往往不需要关注 Formatting 的改动,但是我们必须要仔细检查确认 Linting 的改动,因为 Formatting 的改动一般是安全的,但是 Linting 的改动可能存在错误的修复。
- 因为 Linting 的改动可能存在错误的修复,配合 Git Hooks 时,如果 Linting 的修复和 Formatting 的修复混合在一起,代码提交时容易让错误的修复直接进入 Git Commit,导致 bug 更难被发现。
- 社区主流趋势是将 Formatter 和 Linter 分开。例如:早期 ESLint 也被用于格式化,但是从 v8.53.0 开始, ESLint 废弃 Formatting Rules。Deno 和 Biome 也均把
Linter
和Formatter
分开。
总而言之,类型安全、Formatting 和 Linting 是未来 JavaScript 和 TypeScript 代码生态绕不过去的三个方面。这三板斧在 Node 官方提供解决方案之前,都是割裂、难用、影响代码质量的方面。我们等不急 Node 官方提供相关方案,所以创建了 Fenge
,尽可能屏蔽复杂,暴露简单,让开发者专注于业务代码。
English
Coming soon...Based on the philosophy outlined above, this tool offers the following features:
- 💪 Enhanced Type Safety: This tool provides the strictest
tsconfig
settings and type patches to bolster the type safety of TypeScript projects. It is also compatible with pure JavaScript projects. - 💃 Formatting: This tool ensures code consistency across your codebase and minimizes merge conflicts by automatically formatting code. It additionally supports the sorting of imports and
package.json
files. - 📏 Linting: This tool comes equipped with a comprehensive set of rules for static code analysis, which helps catch errors and prevent poor coding practices in JavaScript.
- 🪝 Git Hooks: After installation, committing code via Git triggers automatic formatting and linting checks. No additional package installations are required.
We place a high value on Development Experience
(DX).
- 📦 All-In-One: You don't need to install
prettier
,eslint
,lint-staged
orhusky
. - ⚙️ Zero Configs: Comes with sensible default configurations for type safety, formatting, and linting, so you don't need to set up any configurations.
- 😉 Highly Customizable: Every thing is optional. Every thing can be customized.
To quick start, run command below to check formatting and linting style in your project.
npx fenge
We recommend installing it as one of devDependencies
in your project.
npm i -D fenge
Each of the following usages is optional. You can choose the ones that best fit your needs.
Config tsconfig.json
file in your project root.
{
"extends": "fenge/tsconfig"
}
Config tsconfig.build.json
file in your project root.
{
"extends": "./tsconfig.json",
"include": ["src"],
"exclude": ["**/*.spec.ts", "**/*.test.ts"]
}
Build your project by executing:
tsc -p ./tsconfig.build.json
Type-check your project by executing:
tsc -p ./tsconfig.build.json --noEmit
For more beat practices, please refer to @fenge/tsconfig.
Add a triple-slash-directive /// <reference types="fenge/types" />
at the top of the ts file that serves as the entry point for your application or package. This will make the entire project more type-safe. The built-in type patch fenge/types
re-exports from @fenge/types.
Application/Package Entry Point (eg: src/main.ts
or src/app.ts
)
/// <reference types="fenge/types" />
import foo from "./foo";
Other File (eg: src/other-file.ts
)
console.log(JSON.parse('{"foo":"foo"}').bar.length);
// ^^^^^^^^^^^^^^^^^^^^^^^^^^^ ❌ Object is of type 'unknown'.
Here are some main commands to format or lint code.
# Check project's formatting problems only
$ fenge format
# Check project's formatting problems and apply updates
$ fenge format -u
# Check project's linting problems only
$ fenge lint
# Check project's linting problems and apply updates
$ fenge lint -u
# Check both formatting and linting problems
$ fenge
# Check both formatting and linting problems and apply updates
$ fenge -u
This tool does not require a configuration file. However, you can add a fenge.config.js
file to customize formatting and linting rules. This file should export an object with two properties:
format
: Accept a function that returns a Prettier Config.lint
: Accept a function that returns an ESLint Flat Config.
Tips: These two functions can be async or sync. So you can add
async
or not in font of the function.
export default {
format: async () => ({
semi: false,
singleQuote: true,
}),
lint: async () => [
{
files: ["**/*.{js,cjs,mjs,jsx}", "**/*.{ts,cts,mts,tsx}"],
rules: {
"no-unused-vars": "error",
},
},
],
};
Usually, we recommend reusing the built-in configurations rather than writing them from scratch. The built-in configurations re-export from @fenge/prettier-config and @fenge/eslint-config.
// @ts-check
export default {
format: async () => {
// See https://www.npmjs.com/package/@fenge/prettier-config for prettier-config detail usage
const prettierConfig = (await import("fenge/prettier-config")).default;
return {
...prettierConfig,
// add config below to override the default behavior
semi: false,
};
},
lint: async () => {
// See https://www.npmjs.com/package/@fenge/eslint-config for eslint-config detail usage
const { Builder } = await import("fenge/eslint-config");
return (
new Builder()
.enablePackageJson({
pick: ["packagejson/top-types"], // only these rules will work for package.json files
})
.enableJavaScript({
omit: ["no-var"], // these rules will not work for js files
})
.enableTypeScript()
// apply additional rules or override the built-in rules for ts files
.append({
name: "strictest",
files: ["**/*.{ts,cts,mts,tsx}"],
rules: {
"@typescript-eslint/no-explicit-any": "error",
"@typescript-eslint/consistent-type-assertions": [
"error",
{ assertionStyle: "never" },
],
"@typescript-eslint/no-non-null-assertion": "error",
},
})
.toConfig()
);
},
};
You can even install and use other third-party eslint-config, like @sxzz/eslint-config.
Executing fenge install
in the project root will write a pre-commit
file to the ${PROJECT_ROOT}/.git/hooks
folder. After editing package.json -> scripts -> prepare
script and executing it once, each commit (via Git) will trigger a code style check for the committed files.
{
"scripts": {
"prepare": "fenge install"
}
}
npm run prepare
- Clone this repository.
- Enable Corepack using
corepack enable
. - Install dependencies using
pnpm install
. - Run
pnpm style:update
to develop. - Start coding and submit your PR.
Give a ⭐️ if this project helped you!
MIT