Why does, for example, a Grunt plugin define its dependency on grunt as "peer dependencies"?

Why can't the plugin just have Grunt as its own dependency in grunt-plug/node_modules?

Peer dependencies are described here: https://nodejs.org/en/blog/npm/peer-dependencies/

But I don't really get it.

Example

I'm working with AppGyver Steroids at the moment which uses Grunt tasks to build my source files into a /dist/ folder to be served on a local device. I'm quite new at npm and grunt so I want to fully comprehend what is going on.

So far I get this:

[rootfolder]/package.json tells npm it depends on the grunt-steroids npm package for development:

  "devDependencies": {
    "grunt-steroids": "0.x"
  },

Okay. Running npm install in [rootfolder] detects the dependency and installs grunt-steroids in [rootfolder]/node_modules/grunt-steroids.

Npm then reads [rootfolder]/node_modules/grunt-steroids/package.json so it can install grunt-steroids own dependencies.:

"devDependencies": {
    "grunt-contrib-nodeunit": "0.3.0",
    "grunt": "0.4.4"
  },
"dependencies": {
    "wrench": "1.5.4",
    "chalk": "0.3.0",
    "xml2js": "0.4.1",
    "lodash": "2.4.1"
  },
"peerDependencies": {
    "grunt": "0.4.4",
    "grunt-contrib-copy": "0.5.0",
    "grunt-contrib-clean": "0.5.0",
    "grunt-contrib-concat": "0.4.0",
    "grunt-contrib-coffee": "0.10.1",
    "grunt-contrib-sass": "0.7.3",
    "grunt-extend-config": "0.9.2"
  },

The "dependencies" packages are installed into [rootfolder]/node_modules/grunt-steroids/node_modules which is logical for me.

The "devDependencies" aren't installed, which I'm sure is controlled by npm detecting I'm just trying to use grunt-steroids, and not develop on it.

But then we have the "peerDependencies".

These are installed in [rootfolder]/node_modules, and I don't understand why there and not in [rootfolder]/node_modules/grunt-steroids/node_modules so that conflicts with other grunt plugins (or whatever) are avoided?

TL;DR: peerDependencies is for dependencies that are exposed to (and expected to be used by) the consuming code, as opposed to "private" dependencies that are not exposed, and are only an implementation detail.

The problem peer dependencies solve

npm's module system is hierarchical. One big advantage for simpler scenarios is that when you install an npm package, that package brings its own dependencies with it so it will work out of the box.

But problems arise when:

  • Both your project and some module you are using depend on the same other module.
  • The three modules have to talk to each other.

Example

Let's say you are building YourCoolProject and are using JacksModule 1.0 and JillsModule 2.0. And let's suppose that JacksModule also depends on JillsModule, but on a different version, say 1.0. As long as those 2 versions don't meet, there is no problem. The fact that JacksModule is using JillsModule below the surface is just an implementation detail. We are bundling JillsModule twice, but that's a small price to pay when we get stable software out of the box.

But now let's suppose that JacksModule exposes its dependency on JillsModule in some way. It accepts an object instanceof JillsClass for example... What happens when we create a new JillsClass using version 2.0 of the library and pass it along to jacksFunction? All hell will break loose! Simple things like jillsObject instanceof JillsClass will suddenly return false, because jillsObject is actually an instance of another JillsClass, the 2.0 version.

How peer dependencies solve this

They tell npm

I need this package, but I need the version that is part of the project, not some version private to my module.

When npm sees that your package is being installed into a project that does not have that dependency, or that has an incompatible version of it, it will warn the user during the installation process.

When should you use peer dependencies?

  • When you are building a library to be used by other projects, and
  • This library is using some other library, and
  • You expect/need the user to work with that other library as well

Common scenarios are plugins for larger frameworks. Think of things like Gulp, Grunt, Babel, Mocha etc. If you write a Gulp plugin, you want that plugin to work with the same Gulp that the user's project is using, not with your own private version of Gulp.

  • One important thing I noticed and isn't said anywhere, when we're building a plugin, should we have a duplicate of package dependencies, for the peer dependencies? In the OP example, we can see that "grunt": "0.4.4" is both in devDependencies and peerDependencies, and it does make sense to me to have a duplicate there, because it means both that I need that grunt package for my own use, but also that the users of my library can use their own version, as long as it respects the peerDependencies version lock. Is that correct? Or is the OP example a very bad one? – Vadorequest Nov 24 at 17:11
  • 1
    I can imagine people creating a Grunt plugin being fans of Grunt :) As such it seems natural for them to use Grunt themselves for the build process of their plugin.... But why would they want to lock the Grunt version range their plugin works with to the build process they use to create it? Adding it as a dev dependency allows them to decouple this. Basically there are 2 phases: build time and run time. Dev dependencies are needed during build time. Regular and peer dependencies are needed at runtime. Of course with dependencies of dependencies everything becomes confusing fast :) – Stijn de Witt Nov 27 at 23:26

I would recommend you to read the article again first. It's a bit confusing but the example with winston-mail shows you the answer why:

For example, let's pretend that winston-mail 0.2.3 specified "winston": "0.5.x" in its "dependencies" hash, since that's the latest version it was tested against. As an app developer, you want the latest and greatest stuff, so you look up the latest versions of winston and of winston-mail, putting them in your package.json as

{
 "dependencies": {  
 "winston": "0.6.2",  
 "winston-mail": "0.2.3"  
 }  
} 

But now, running npm install results in the unexpected dependency graph of

├── winston@0.6.2  
└─┬ winston-mail@0.2.3                
  └── winston@0.5.11

In this case it is possible to have multiple versions of a package which would cause some issues. The peerDependencies allows npm developers to make sure that the user has the specific module (in the rootfolder). But you're correct with the point that describing one specific version of a package would lead to issues with other packages using other versions. This issue has to do with npm developers, as the articles states

One piece of advice: peer dependency requirements, unlike those for regular dependencies, should be lenient. You should not lock your peer dependencies down to specific patch versions.

Therefore developers should follow semver for defining peerDependencies. You should open an issue for the grunt-steriods package on github...

  • 1
    You say that multiple versions of a package which would cause some issues but isn't that the whole point of a package manager? They even discuss this further up in the same article where there are 2 versions of the same package in the project: one provided by the developer and one supplied by a 3rd party library. – Adam Beck Apr 2 '15 at 3:10
  • 1
    I think I understand the point of peer dependency but in the winston example am I now just unable to use the winston-mail library because my version does not match the peer dependency? I would much rather have that temporary downgrade from latest and greatest for the 1 library than to not be able to use it at all. – Adam Beck Apr 2 '15 at 3:12
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    for your first comment, as far as I understand and use it, it has to do with testing, e.g. if you have a package which has been tested by you on for a specific 3rd party package, you can't be sure that if one of your dependencies change ( bug fix, major feature update) that your package will work. Therefore, you can specify a specific plugin version and are save with your tests. – Fer To Apr 2 '15 at 9:26
  • 1
    On your second comment: that's why they say in the docs that developers should be lenient with their package dependencies and should use semver, e.g. instead of "0.2.1", "~0.2.1"-> allows "0.2.x" but not "0.3.x" , or ">=0.2.1" -> everything from "0.2.x" to "1.x" or "x.2.". .. (but not really preferable for an npm package would go with ~ – Fer To Apr 2 '15 at 9:31

As the official Blueprint says If you see UNMET PEER DEPENDENCY errors, you should manually install React:

npm install --save react react-dom react-addons-css-transition-group

you could find it here

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