versioned_docs_archived/version-9.x/workspaces.md
pnpm has built-in support for monorepositories (AKA multi-package repositories, multi-project repositories, or monolithic repositories). You can create a workspace to unite multiple projects inside a single repository.
A workspace must have a pnpm-workspace.yaml file in its
root. A workspace also may have an .npmrc in its root.
:::tip
If you are looking into monorepo management, you might also want to look into Bit.
Bit uses pnpm under the hood but automates a lot of the things that are currently done manually in a traditional workspace managed by pnpm/npm/Yarn. There's an article about bit install that talks about it: Painless Monorepo Dependency Management with Bit.
:::
If link-workspace-packages is set to true, pnpm will link packages from the workspace if the available packages
match the declared ranges. For instance, [email protected] is linked into bar if
bar has "foo": "^1.0.0" in its dependencies and [email protected] is in the workspace. However, if bar has
"foo": "2.0.0" in dependencies and [email protected] is not in the workspace,
[email protected] will be installed from the registry. This behavior introduces some
uncertainty.
Luckily, pnpm supports the workspace: protocol. When
this protocol is used, pnpm will refuse to resolve to anything other than a
local workspace package. So, if you set "foo": "workspace:2.0.0", this time
installation will fail because "[email protected]" isn't present in the workspace.
This protocol is especially useful when the link-workspace-packages option is
set to false. In that case, pnpm will only link packages from the workspace if
the workspace: protocol is used.
Let's say you have a package in the workspace named foo. Usually, you would
reference it as "foo": "workspace:*".
If you want to use a different alias, the following syntax will work too:
"bar": "workspace:foo@*".
Before publish, aliases are converted to regular aliased dependencies. The above
example will become: "bar": "npm:[email protected]".
In a workspace with 2 packages:
+ packages
+ foo
+ bar
bar may have foo in its dependencies declared as
"foo": "workspace:../foo". Before publishing, these specs are converted to
regular version specs supported by all package managers.
When a workspace package is packed into an archive (whether it's through
pnpm pack or one of the publish commands like pnpm publish), we dynamically
replace any workspace: dependency by:
workspace:*, workspace:~, or workspace:^)So for example, if we have foo, bar, qar, zoo in the workspace and they all are at version 1.5.0, the following:
{
"dependencies": {
"foo": "workspace:*",
"bar": "workspace:~",
"qar": "workspace:^",
"zoo": "workspace:^1.5.0"
}
}
Will be transformed into:
{
"dependencies": {
"foo": "1.5.0",
"bar": "~1.5.0",
"qar": "^1.5.0",
"zoo": "^1.5.0"
}
}
This feature allows you to depend on your local workspace packages while still being able to publish the resulting packages to the remote registry without needing intermediary publish steps - your consumers will be able to use your published workspaces as any other package, still benefitting from the guarantees semver offers.
Versioning packages inside a workspace is a complex task and pnpm currently does not provide a built-in solution for it. However, there are 2 well tested tools that handle versioning and support pnpm:
For how to set up a repository using Rush, read this page.
For using Changesets with pnpm, read this guide.
pnpm cannot guarantee that scripts will be run in topological order if there are cycles between workspace dependencies. If pnpm detects cyclic dependencies during installation, it will produce a warning. If pnpm is able to find out which dependencies are causing the cycles, it will display them too.
If you see the message There are cyclic workspace dependencies, please inspect workspace dependencies declared in dependencies, optionalDependencies and devDependencies.
Here are a few of the most popular open source projects that use the workspace feature of pnpm: