Table of content
The main focus of this repo is making the
Go to definition
feature in IDEs work without any surprises, meaning it will work after a fresh clone without needing to build the project.
The secondary focus is to remove surprises when publishing packages. The repo is set up so that each package gets a clean build output without any artifacts from other packages.
Everything else is kept to a minimum. Apart from my personal ESLint config to keep the code clean, there are no extra tools included — you're free to customize this to your own needs after cloning. Compilation targets, module systems, tree shaking etc. are left up to you to decide.
This repo uses pnpm, but should work fine with any of the following:
I strongly recommend pnpm
over the other solutions, not only because it's usually faster, but because it avoids dependency problems caused by hoisting (see https://github.com/NiGhTTraX/ts-monorepo/commit/d93139166b25fab15e9538df58a7d06270b846c9 as an example).
# Install pnpm with your preferred method: https://pnpm.io/installation.
npm i -g pnpm
# Install all dependencies.
pnpm i
See the following blog posts:
- How to set up a TypeScript monorepo and make Go to definition work
- Making TypeScript monorepos play nice with other tools
If you're looking for the project references solution checkout the project-references
branch.
This repo contains two types of workspaces:
packages
: meant to be published to npm and installed,apps
: meant to be executed.
A good example to illustrate the difference is create-react-app
: you wouldn't publish an app like this to npm, you would run it, more specifically you would build the JS bundle and then deploy that somewhere.
For packages, you don't want to bundle all the monorepo dependencies, and instead publish them individually. That's why packages have a separate build tsconfig.json
that resolves monorepo dependencies to node_modules
.
Use tsconfig-paths to resolve the path aliases at runtime:
{
"scripts": {
"start": "ts-node -r tsconfig-paths/register src/index.ts"
}
}
See the full example here.
Use babel-plugin-module-resolver to resolve the path aliases:
module.exports = {
presets: [
["@babel/preset-env", { targets: { node: "current" } }],
"@babel/preset-typescript",
],
plugins: [
[
"module-resolver",
{
alias: {
"^@nighttrax/(.+)": "../\\1/src",
},
},
],
],
};
See the full example here.
Use tsconfig-paths-webpack-plugin to resolve the path aliases:
const TsconfigPathsPlugin = require("tsconfig-paths-webpack-plugin");
module.exports = {
resolve: {
plugins: [new TsconfigPathsPlugin()]
}
};
See the full example here.
If you use Babel
then see this example from the Babel section above.
If you use ts-jest then you can use its pathsToModuleNameMapper
helper:
const { pathsToModuleNameMapper } = require("ts-jest");
const { compilerOptions } = require("../../tsconfig.json");
module.exports = {
preset: "ts-jest",
moduleNameMapper: pathsToModuleNameMapper(compilerOptions.paths, {
// This has to match the baseUrl defined in tsconfig.json.
prefix: "<rootDir>/../../",
}),
};
See the full example here.
Use craco or react-app-rewired to extend CRA's webpack config and apply the tsconfig-paths-webpack-plugin:
const TsconfigPathsPlugin = require("tsconfig-paths-webpack-plugin");
module.exports = (config) => {
// Remove the ModuleScopePlugin which throws when we
// try to import something outside of src/.
config.resolve.plugins.pop();
// Resolve the path aliases.
config.resolve.plugins.push(new TsconfigPathsPlugin());
// Let Babel compile outside of src/.
const oneOfRule = config.module.rules.find((rule) => rule.oneOf);
const tsRule = oneOfRule.oneOf.find((rule) =>
rule.test.toString().includes("ts|tsx")
);
tsRule.include = undefined;
tsRule.exclude = /node_modules/;
return config;
};
See the full example here. For tests, see the jest example.
Use vite-tsconfig-paths in the Vite config:
import { defineConfig } from "vite";
import react from "@vitejs/plugin-react";
import tsconfigPaths from "vite-tsconfig-paths";
export default defineConfig({
plugins: [
react(),
tsconfigPaths()
],
});
See full example here.
Extend Next's webpack config to enable compiling packages from the monorepo:
module.exports = {
webpack: (config) => {
// Let Babel compile outside of src/.
const tsRule = config.module.rules.find(
(rule) => rule.test && rule.test.toString().includes("tsx|ts")
);
tsRule.include = undefined;
tsRule.exclude = /node_modules/;
return config;
},
};
See the full example here.
Include the path aliases in both tsconfig.json
and tsconfig.build.json
and tell NestJS where to find the main.js
file:
{
"collection": "@nestjs/schematics",
"sourceRoot": "src",
"entryFile": "apps/nestjs/src/main"
}
See the full example here.
Extend Storybook's webpack config and apply the tsconfig-paths-webpack-plugin:
const TsconfigPathsPlugin = require('tsconfig-paths-webpack-plugin');
module.exports = {
webpackFinal: async (config) => {
config.resolve.plugins = [
...(config.resolve.plugins || []),
new TsconfigPathsPlugin({
extensions: config.resolve.extensions,
}),
];
return config;
},
};
See the full example here.