Installs dependencies from a local checkout, and keeps them in sync, without the limitations of link
Relative deps introduces an additional dependency section in package.json
, called relativeDependencies
.
This section contains paths to the local sources of any dependency, that will be built and installed over the publicly available versions, when needed.
Example package.json
:
{
"name": "my-project",
"dependencies": {
"my-cool-library": "0.1.0"
},
"relativeDependencies": {
"my-cool-library": "../../packages/my-cool-library"
},
"scripts": {
"prepare": "relative-deps"
},
"devDependencies": {
"relative-deps": "^1.0.0"
}
}
When the relative path can be found, the library at this path will be re-built and re-installed into this project, if the source files have been changed during prepare
.
The normal my-cool-library
dependency will be defaulted to, for those that don't have a local checkout of my-cool-library
, and to resolve transitive dependencies.
An example setup, where examples project are linked to their hosting library, can be found here.
Working on libraries that have examples embedded in the same git repository is usually tricky, as the examples are usually built against the public, published version of the library; the version that is mentioned in their package.json
.
When working maintaining a project though, it is much more useful to work against the locally checked out version of the library. Published or not.
There are a few existing solutions, but they have their own limitations:
yarn link
/ npm link
. These work only if there are no peer / shared dependencies involved. If there are shared dependencies, the linked library will resolve those in their own node_modules
, instead of the node_modules
of the hosting project, where it would normally be looked up. This results in peer dependencies ending up "twice" in the dependency tree, which often causes confusing behavior.yarn workspaces
. Those solve the above issue by putting all dependencies in one large root level node_modules
. However, this setup is in practice quite obtrusive to the whole development setup.Relative deps doesn't fight the problem but tries to emulate a "normal" install. It builds the "linked" library on prepare
(that is, after installing all deps), packs it, and unpacks it in the node_modules
of the hosting project. Since there is no linking, or shared node_modules
involved, the folder structure ends up to be exactly the same as if the thing was installed directly from yarn
/ npm
. Which avoids a plethora of problems.
Since building a linked package every time yarn install
is run is expensive, this tool will take a hash of the directory contents of the library first, and only build and install if something changed.
npx relative-deps init
Options:
--script
Alias -S
. Default: prepare
. Script name which is using for running relative-deps
.
Running this script will install relative-deps
, add script and initialize empty relativeDependencies
section.
{
"name": "my-project",
"devDependencies": {
"relative-deps": "^1.0.0"
},
"relativeDependencies": {},
"scripts": {
"prepare": "relative-deps"
}
}
Optionally, you can add this step also for more scripts, for example before starting or building your project, for example:
{
"name": "my-project",
"scripts": {
"prepare": "relative-deps",
"prestart": "relative-deps",
"prebuild": "relative-deps",
"pretest": "relative-deps"
}
}
In general, this doesn't add to much overhead, since usually relative-deps is able to determine rather quickly (~0.5 sec) that there are no changes.
Running following script will initialize relative-deps
if not initialized yet, find the package at the provided path, install it as normal dependency and pack relative-dependency.
npx relative-deps add ../../packages/my-cool-library
Options:
--dev
Alias -D
. Installs relative dependency in devDependencies
section.
{
"name": "my-project",
"dependencies": {
"my-cool-library": "0.1.0"
},
"relativeDependencies": {
"my-cool-library": "../../packages/my-cool-library"
},
"scripts": {
"prepare": "relative-deps"
},
"devDependencies": {
"relative-deps": "^1.0.0"
}
}
Example of a repository migration to relative-deps
npx relative-deps
when devving!The relative deps will automatically be checked for changes, based on the hooks you've set up during installation.
However, you can always trigger a manual check-and-build-if-needed by running npx relative-deps
(or just yarn
). If you are working on a project that supports
hot reloading, this will makes sure the changes in the relative dependency will automatically show up in your project!
You can run relative-deps watch
and it'll run relative-deps
command when one of the relative dependecies changed, debounced with 500ms.
This can go along with config of your project to watch over the relevant packages and it will automate the process completely,
allowing you to change a library code and to enjoy the befefit of hot-reload.
Roughly, it works like this (obviously this can get out of date quickly):
- pre: yarn.lock exists or die
- read relativeDeps from nearest package.json
- doesn't exist? warn & exit
- for each relativeDep:
- check if target path exists
- if not, do we have the module from normal install?
- yes: warn
- no: error
- if target path exists, does it have node modules?
- no: run yarn / npm install (guess which one)
- find last modified timestamp of all files in target dir
(excluding node_modules, .git, excluding the directory that contains the calling project if applicable, only use git versioned files)
- take hash and store / compare with stored
- if changed:
- run yarn / npm build
- run pack
- extract package (mind scoped package names!)
- run yarn install --no-dev-deps in target dir
- done
Tip: use the postinstall
hook wherever applicable, if your dependency manager does not support prepare
hooks yet.