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Yarn workspaces aim to make working with monorepos easy, solving one of the main use cases for yarn link in a more declarative way. In short, they allow multiple projects to live together in the same repository AND to cross-reference each other - any modification to one's source code being instantly applied to the others.

First, some vocabulary: in the context of the workspace feature, a project is the whole directory tree making up your workspaces (often the repository itself). A workspace is a local package made up from your own sources from that same project. Finally, a worktree is the name given to workspaces that list their own child workspaces. A project contains one or more worktrees, which may themselves contain any number of workspaces. Any project contains at least one workspace: the root one.

How to declare a worktree?

Worktrees are defined through the traditional package.json files. What makes them special is that they have the following properties:

  • They must declare a workspaces field which is expected to be an array of glob patterns that should be used to locate the workspaces that make up the worktree. For example, if you want all folders within the packages folder to be workspaces, just add packages/* to this array.

  • They must be connected in some way to the project-level package.json file. This doesn't matter in the typical workspace setup because there's usually a single worktree defined in the project-level package.json, but if you try to setup nested workspaces then you must make sure that the nested worktree is defined as a valid workspace of its parent worktree (otherwise Yarn won't find its correct parent folder).

Note that because worktrees are defined with an otherwise regular package.json file, they also are valid workspaces themselves. If they're named, other workspaces will be able to properly cross-reference them.


Worktrees used to be required to be private (ie list "private": true in their package.json). This requirement got removed with the 2.0 release in order to help standalone projects to progressively adopt workspaces (for example by listing their documentation website as a separate workspace).

What does it mean to be a workspace?

Workspaces have two important properties:

  • Only the dependencies depended upon by a workspace can be accessed. Said another way, we strictly enforce your workspaces dependencies. Doing this allows us to cleanly decouple projects from one another, since you don't have to merge all their dependencies in one huge unmaintainable list. We still provide tools to manage dependencies from multiple workspaces at once, but they need to be explicitly used and offer a better integration (for example yarn add can make suggestions for your new dependencies based on what other workspaces use, but you can override them).

  • If the package manager was to resolve a range that a workspace could satisfy, it will prefer the workspace resolution over the remote resolution if possible. This is the pillar of the monorepo approach: rather than using the remote packages from the registry, your project packages will be interconnected and will use the code stored within your repository.

Workspace ranges (workspace:)

While Yarn automatically picks workspace resolutions when they match, there are times where you absolutely don't want to risk using a package from the remote registry even if the versions don't match (for example if your project isn't actually meant to be published and you just want to use the workspaces to better compartment your code).

For those use cases, Yarn now supports a new resolution protocol starting from the v2: workspace:. When this protocol is used Yarn will refuse to resolve to anything else than a local workspace. This range protocol has two flavors:

  • If a semver range, it will select the workspace matching the specified version.
  • If a project-relative path, it will select the workspace that match this path (experimental).

Note that the second flavor is experimental and we advise against using it for now, as some details might change in the future. Our current recommendation is to use workspace:*, which will almost always do what you expect.

Publishing workspaces

When a workspace is packed into an archive (whether it's through yarn pack or one of the publish commands like yarn npm publish), we dynamically replace any workspace: dependency by:

  • The corresponding version in the target workspace (if you use *, ^, ~, or a project-relative path)
  • The associated semver range (for any other range type)

So for example, if we assume we have the following workspaces whose current version is 1.5.0, the following:

  "dependencies": {
    "star": "workspace:*",
    "caret": "workspace:^",
    "tilde": "workspace:~",
    "range": "workspace:^1.2.3",
    "path": "workspace:path/to/baz"

Will be transformed into:

  "dependencies": {
    "star": "1.5.0",
    "caret": "^1.5.0",
    "tilde": "~1.5.0",
    "range": "^1.2.3",
    "path": "1.5.0"

This feature allows you to not have to depend on something else than your local workspaces, while still being able to publish the resulting packages to the remote registry without having to run intermediary publish steps - your consumers will be able to use your published workspaces as any other package, still benefiting from the guarantees semver offers.

Yarn Workspaces vs Lerna

Despite the appearances, the Yarn workspaces and Lerna don't compete. In fact, Lerna will use Yarn's workspaces if possible. In a sense, you can see Lerna as a high-level layer on top of the low-level Yarn implementation.