Project Makefile and conditional NPM linking - node.js

We're a small team and writing a webapp in node.js,express.js and it is bundled with a parser that is implemented in python.
I would like to use my npm link'd fork of some libraries but not interrupt my team's workflow. So if my forks exist, otherwise install local node packages.
I would like to play around with deployment scripts so I was writing a Makefile for the project. Part of the makefile's job is to use npm to get the node dependencies, so I have a target
node_modules:
##(cd $dir && npm install)
Which is all fine until I started hacking on some node libraries. Now, I have a few forks of some dependent libraries that I would like to use but don't want to interfere with the rest of my team's build.
The solutions I've seen are almost there but not quite. The --link related flags and options will install globally if the global package is not there, which is not what I want. I would like it to install locally.
npm link foo then npm install - sort of works, but npm will install foo globally if the link does not exist
devDependencies - would be good except we will all be building npm
Some sort of per user Makefile that I just keep locally that runs - this seems like an option that works, but will require some extra cruft that I'd rather not have to take care of.
I only have a bit of experience with Makefiles, so maybe there is a pattern for this already. Any ideas?

Related

Using local NPM dependencies in the PATH - is there a tool that does this?

Is there an NPM package/tool that can (automatically) add local NPM packages to the $PATH?
This would represent a local development env that was independent of other projects.
NVM allows us to switch Node.js versions, but that doesn't seem to be enough to create an independent development space for each project. By By putting the locally installed command line tools on the $PATH, and giving precedence to local NPM dependencies, this would allow for us to change their versions without affecting any other project.
NPX does this, which is bundled with NPM:
https://medium.com/#maybekatz/introducing-npx-an-npm-package-runner-55f7d4bd282b
However, NPX looks like it does far too much.
I just wanted a simple tool that only adds the local executables to the path, if you are within an NPM project, so I wrote GMX:
https://github.com/ORESoftware/gmx

How to automatically link npm packages at installation time?

I'm working on a larger project that is split into a number of npm packages. There are several dependencies between the packages. The whole code base is stored in a main directory like this:
main/
pkg1/
pkg2/
...
Suppose that pkg2 depends on pkg1, so in main/pkg2/package.json I have:
"dependencies": {
"pkg1": "^0.1.0"
}
I have linked my packages together using npm link. However when I start development on a new machine or for some reason I have to reinstall the packages I can't simply say npm install in pkg2/. It would fail because pkg1 couldn't be found. (It's not published, but anyway, I want the local version because I'm developing both packages).
Of course I can do all the linking manually than call npm install but it's a hassle. Is there any way to do it in a single step?
My previous research:
This question proposes writing a preinstall script, but I don't want to keep linking in production, only in the development environment, as another answer points it out.
I've also tried npm link in pkg1/ then npm install --link in pkg2/. According to the manual,
The --link argument will cause npm to link global installs into the local space in some cases.
Not in my case though.
You can use zelda for this. Written by Feross, it was designed for exactly this purpose.
I'm not a fan of doing it this way; I'd generally prefer running a local repository or using git URLs for dependencies like this.
That said, if you want to keep using npm link you can always use the preinstall script approach but not use the preinstall key.
"autolink": "cd ../project1 && npm link && cd ../project2 && npm link project1_name",
Then in your cli you can do $ npm run autolink when you first setup a dev env.

What should one put into npm package?

Recently I start committing my application node_modules folder into VCS to speed up deployments and fix dependencies.
I noticed that many npm packages contain a bunch of stuff unnecessary to me like tests and various builds that I'll never use and I wrinkle every time when I put it in my repo.
So, what should one put into npm package?
The tests and other items are usually a good item to include in your devDependencies.
You can install packages without them by using npm install --production or setting the configuration flag to production using npm config set production
I would recommend looking at this page and reading the information in the different types of dependencies to get an understanding of what each does.
That being said the bare minimum to include is just what it takes for your module to run but that varies based on the module you're creating. Although a README.md is almost essential if you're sharing your package publicly so users can git a quick overview of your package on npm and github.

NPM basics and Local Installs?

I'm not regular node user, so my apologies if this is a stupid newbie question, but I haven't been able to find any clear documentation on this, and my feeble newbie node skills don't let me dig into myself.
I'm following along with these instructions for installing the Ghost blogging system, (a system built with NodeJS).
After telling me to open a terminal window in the just downloaded package folder, yhe instructions include the following line
In the new terminal tab type npm install --production
This confuses me. My understanding of npm is it's a package manager that, like perl's CPAN
Fetches packages from The Internet
Installs them into my local node system
That's clearly not what's happening above, but I don't know what is happening when I run that command, and since I don't run with a NodeJS crowd I don't know who to ask.
I'd like to know what NPM is doing. Specific questions
When I run npm install, it looks like it's downloading a number of packages (lots of npm http GET in the console). How does NPM know what to download?
Where is it downloading these module files to? How does npm know where to download the files?
What effect does the --production flag have on NPM's behavior?
Happy to have specific answers, or a meta-answer that points out where I can learn how npm works with (what appears to be) a application installs (vs. a system install, which is how I normally think of it)
npm has a few different installation modes. From within a module (with a package.json file) npm install installs the dependencies listed in the dependencies and devDependencies fields of the package.json file. Installation means that files the modules are downloaded, placed in the node_modules folder, then npm installed themselves, (but only their dependencies) placing modules their own node_modules folders. This continues until everything needed is installed. Use npm ls to see the tree of installed packages.
Most of the time this is what you want, because running npm install from within a module is what you would do when developing on it, and you'll want to run tests etc. (which is what devDependencies is for).
Occasionally though, you'll be coding a service that consumes modules, but should not necessarily be treated like one (not intended to be require'd). Ghost is such a case. In these cases, you need npm install --production, which only installs the dependencies, leaving the devDependencies.
When I run npm install, it looks like it's downloading a number of
packages (lots of npm http GET in the console). How does NPM know what
to download?
It reads the package.json configuration file in the current directory.
Where is it downloading these module files to? How does npm know where to download the files?
It will create and populate a node_modules directory within the current directory. The file structure is designed in to npm/node and is (mostly) intentionally not configurable.
What effect does the --production flag have on NPM's behavior?
Install just the dependencies without the devDependencies from package.json, meaning "give me what I need to run this app, but I don't intend do do development on this app so I don't need dev-only stuff".
npmjs.org has some docs, FAQ, and man pages, which are pretty good although they are mostly lacking basic introductory material.

What's the difference between dependencies, devDependencies and peerDependencies in npm package.json file?

This documentation answers my question very poorly. I didn't understand those explanations. Can someone say in simpler words? Maybe with examples if it's hard to choose simple words?
EDIT also added peerDependencies, which is closely related and might cause confusion.
Summary of important behavior differences:
dependencies are installed on both:
npm install from a directory that contains package.json
npm install $package on any other directory
devDependencies are:
also installed on npm install on a directory that contains package.json, unless you pass the --production flag (go upvote Gayan Charith's answer), or if the NODE_ENV=production environment variable is set
not installed on npm install "$package" on any other directory, unless you give it the --dev option.
are not installed transitively.
peerDependencies:
before 3.0: are always installed if missing, and raise an error if multiple incompatible versions of the dependency would be used by different dependencies.
expected to start on 3.0 (untested): give a warning if missing on npm install, and you have to solve the dependency yourself manually. When running, if the dependency is missing, you get an error (mentioned by #nextgentech) This explains it nicely: https://flaviocopes.com/npm-peer-dependencies/
in version 7 peerDependencies are automatically installed unless an upstream dependency conflict is present that cannot be automatically resolved
Transitivity (mentioned by Ben Hutchison):
dependencies are installed transitively: if A requires B, and B requires C, then C gets installed, otherwise, B could not work, and neither would A.
devDependencies is not installed transitively. E.g. we don't need to test B to test A, so B's testing dependencies can be left out.
Related options not discussed here:
bundledDependencies which is discussed on the following question: Advantages of bundledDependencies over normal dependencies in npm
optionalDependencies (mentioned by Aidan Feldman)
devDependencies
dependencies are required to run, devDependencies only to develop, e.g.: unit tests, CoffeeScript to JavaScript transpilation, minification, ...
If you are going to develop a package, you download it (e.g. via git clone), go to its root which contains package.json, and run:
npm install
Since you have the actual source, it is clear that you want to develop it, so by default, both dependencies (since you must, of course, run to develop) and devDependency dependencies are also installed.
If however, you are only an end user who just wants to install a package to use it, you will do from any directory:
npm install "$package"
In that case, you normally don't want the development dependencies, so you just get what is needed to use the package: dependencies.
If you really want to install development packages in that case, you can set the dev configuration option to true, possibly from the command line as:
npm install "$package" --dev
The option is false by default since this is a much less common case.
peerDependencies
(Tested before 3.0)
Source: https://nodejs.org/en/blog/npm/peer-dependencies/
With regular dependencies, you can have multiple versions of the dependency: it's simply installed inside the node_modules of the dependency.
E.g. if dependency1 and dependency2 both depend on dependency3 at different versions the project tree will look like:
root/node_modules/
|
+- dependency1/node_modules/
| |
| +- dependency3 v1.0/
|
|
+- dependency2/node_modules/
|
+- dependency3 v2.0/
Plugins, however, are packages that normally don't require the other package, which is called the host in this context. Instead:
plugins are required by the host
plugins offer a standard interface that the host expects to find
only the host will be called directly by the user, so there must be a single version of it.
E.g. if dependency1 and dependency2 peer depend on dependency3, the project tree will look like:
root/node_modules/
|
+- dependency1/
|
+- dependency2/
|
+- dependency3 v1.0/
This happens even though you never mention dependency3 in your package.json file.
I think this is an instance of the Inversion of Control design pattern.
A prototypical example of peer dependencies is Grunt, the host, and its plugins.
For example, on a Grunt plugin like https://github.com/gruntjs/grunt-contrib-uglify, you will see that:
grunt is a peer-dependency
the only require('grunt') is under tests/: it's not actually used by the program.
Then, when the user will use a plugin, he will implicitly require the plugin from the Gruntfile by adding a grunt.loadNpmTasks('grunt-contrib-uglify') line, but it's grunt that the user will call directly.
This would not work then if each plugin required a different Grunt version.
Manual
I think the documentation answers the question quite well, maybe you are just not familiar enough with node / other package managers. I probably only understand it because I know a bit about Ruby bundler.
The key line is:
These things will be installed when doing npm link or npm install from the root of a package and can be managed like any other npm configuration parameter. See npm-config(7) for more on the topic.
And then under npm-config(7) find dev:
Default: false
Type: Boolean
Install dev-dependencies along with packages.
If you do not want to install devDependencies you can use npm install --production
As an example, mocha would normally be a devDependency, since testing isn't necessary in production, while express would be a dependency.
dependencies
Dependencies that your project needs to run, like a library that provides functions that you call from your code.
They are installed transitively (if A depends on B depends on C, npm install on A will install B and C).
Example: lodash: your project calls some lodash functions.
devDependencies
Dependencies you only need during development or releasing, like compilers that take your code and compile it into javascript, test frameworks or documentation generators.
They are not installed transitively (if A depends on B dev-depends on C, npm install on A will install B only).
Example: grunt: your project uses grunt to build itself.
peerDependencies
Dependencies that your project hooks into, or modifies, in the parent project, usually a plugin for some other library or tool. It is just intended to be a check, making sure that the parent project (project that will depend on your project) has a dependency on the project you hook into. So if you make a plugin C that adds functionality to library B, then someone making a project A will need to have a dependency on B if they have a dependency on C.
They are not installed (unless npm < 3), they are only checked for.
Example: grunt: your project adds functionality to grunt and can only be used on projects that use grunt.
This documentation explains peer dependencies really well: https://nodejs.org/en/blog/npm/peer-dependencies/
Also, the npm documentation has been improved over time, and now has better explanations of the different types of dependencies: https://github.com/npm/cli/blob/latest/docs/content/configuring-npm/package-json.md#devdependencies
To save a package to package.json as dev dependencies:
npm install "$package" --save-dev
When you run npm install it will install both devDependencies and dependencies. To avoid install devDependencies run:
npm install --production
There are some modules and packages only necessary for development, which are not needed in production. Like it says it in the documentation:
If someone is planning on downloading and using your module in their program, then they probably don't want or need to download and build the external test or documentation framework that you use. In this case, it's best to list these additional items in a devDependencies hash.
peerDependencies didn't quite make sense for me until I read this snippet from a blog post on the topic Ciro mentioned above:
What [plugins] need is a way of expressing these “dependencies” between plugins and their host package. Some way of saying, “I only work when plugged in to version 1.2.x of my host package, so if you install me, be sure that it’s alongside a compatible host.” We call this relationship a peer dependency.
The plugin does expect a specific version of the host...
peerDependencies are for plugins, libraries that require a "host" library to perform their function, but may have been written at a time before the latest version of the host was released.
That is, if I write PluginX v1 for HostLibraryX v3 and walk away, there's no guarantee PluginX v1 will work when HostLibraryX v4 (or even HostLibraryX v3.0.1) is released.
... but the plugin doesn't depend on the host...
From the point of view of the plugin, it only adds functions to the host library. I don't really "need" the host to add a dependency to a plugin, and plugins often don't literally depend on their host. If you don't have the host, the plugin harmlessly does nothing.
This means dependencies isn't really the right concept for plugins.
Even worse, if my host was treated like a dependency, we'd end up in this situation that the same blog post mentions (edited a little to use this answer's made up host & plugin):
But now, [if we treat the contemporary version of HostLibraryX as a dependency for PluginX,] running npm install results in the unexpected dependency graph of
├── HostLibraryX#4.0.0
└─┬ PluginX#1.0.0
└── HostLibraryX#3.0.0
I’ll leave the subtle failures that come from the plugin using a different [HostLibraryX] API than the main application to your imagination.
... and the host obviously doesn't depend on the plugin...
... that's the whole point of plugins. Now if the host was nice enough to include dependency information for all of its plugins, that'd solve the problem, but that'd also introduce a huge new cultural problem: plugin management!
The whole point of plugins is that they can pair up anonymously. In a perfect world, having the host manage 'em all would be neat & tidy, but we're not going to require libraries herd cats.
If we're not hierarchically dependent, maybe we're intradependent peers...
Instead, we have the concept of being peers. Neither host nor plugin sits in the other's dependency bucket. Both live at the same level of the dependency graph.
... but this is not an automatable relationship. <<< Moneyball!!!
If I'm PluginX v1 and expect a peer of (that is, have a peerDependency of) HostLibraryX v3, I'll say so. If you've auto-upgraded to the latest HostLibraryX v4 (note that's version 4) AND have Plugin v1 installed, you need to know, right?
npm can't manage this situation for me --
"Hey, I see you're using PluginX v1! I'm automatically downgrading HostLibraryX from v4 to v3, kk?"
... or...
"Hey I see you're using PluginX v1. That expects HostLibraryX v3, which you've left in the dust during your last update. To be safe, I'm automatically uninstalling Plugin v1!!1!
How about no, npm?!
So npm doesn't. It alerts you to the situation, and lets you figure out if HostLibraryX v4 is a suitable peer for Plugin v1.
Coda
Good peerDependency management in plugins will make this concept work more intuitively in practice. From the blog post, yet again...
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. It would be really annoying if one Chai plugin peer-depended on Chai 1.4.1, while another depended on Chai 1.5.0, simply because the authors were lazy and didn’t spend the time figuring out the actual minimum version of Chai they are compatible with.
A simple explanation that made it more clear to me is:
When you deploy your app, modules in dependencies need to be installed or your app won't work. Modules in devDependencies don't need to be installed on the production server since you're not developing on that machine.
link
I found a simple explanation.
Short Answer:
dependencies
"...are those that your project really needs to be able to work in production."
devDependencies
"...are those that you need during development."
peerDependencies
"if you want to create and publish your own library so that it can be used as a dependency"
More details in this post:
https://code-trotter.com/web/dependencies-vs-devdependencies-vs-peerdependencies
I'd like to add to the answer my view on these dependencies explanations
dependencies are used for direct usage in your codebase, things that usually end up in the production code, or chunks of code
devDependencies are used for the build process, tools that help you manage how the end code will end up, third party test modules, (ex. webpack stuff)
In short
Dependencies - npm install <package> --save-prod installs packages required by your application in production environment.
DevDependencies - npm install <package> --save-dev installs
packages required only for local development and testing
Just typing npm install installs all packages mentioned in the
package.json
so if you are working on your local computer just type npm install and continue :)
Dependencies vs dev dependencies
Dev dependencies are modules which are only required during development whereas dependencies are required at runtime. If you are deploying your application, dependencies has to be installed, or else your app simply will not work. Libraries that you call from your code that enables the program to run can be considered as dependencies.
Eg- React , React - dom
Dev dependency modules need not be installed in the production server since you are not gonna develop in that machine .compilers that covert your code to javascript , test frameworks and document generators can be considered as dev-dependencies since they are only required during development .
Eg- ESLint , Babel , webpack
#FYI,
mod-a
dev-dependents:
- mod-b
dependents:
- mod-c
mod-d
 dev-dependents:
- mod-e
dependents:
- mod-a
----
npm install mod-d
installed modules:
- mod-d
- mod-a
- mod-c
----
checkout the mod-d code repository
npm install
installed modules:
- mod-a
- mod-c
- mod-e
If you are publishing to npm, then it is important that you use the correct flag for the correct modules. If it is something that your npm module needs to function, then use the "--save" flag to save the module as a dependency. If it is something that your module doesn't need to function but it is needed for testing, then use the "--save-dev" flag.
# For dependent modules
npm install dependent-module --save
# For dev-dependent modules
npm install development-module --save-dev
dependencies: packages that your project/package needs to work in production.
devDependencies: packages that your project/package needs to work while development but are not needed on production (eg: testing packages)
peerDependencies: packages that your project/package needs to work in tandem with (“colaborating” with them) or as a base, useful mainly when you are developing a plugin/component to let know with which version of the “main” package your plugin/component is supposed to work with (eg: React 16)
Dependencies
These are the packages that your package needs to run, so they will be installed when people run
npm install PACKAGE-NAME
An example would be if you used jQuery in your project. If someone doesn't have jQuery installed, then it wouldn't work. To save as a dependency, use
npm install --save
Dev-Dependencies
These are the dependencies that you use in development, but isn't needed when people are using it, so when people run npm install, it won't install them since the are not necessary. For example, if you use mocha to test, people don't need mocha to run, so npm install doesn't install it. To save as a dev dependency, use
npm install PACKAGE --save-dev
Peer Dependencies
These can be used if you want to create and publish your own library so that it can be used as a dependency. For example, if you want your package to be used as a dependency in another project, then these will also be installed when someone installs the project which has your project as a dependency. Most of the time you won't use peer dependencies.
When trying to distribute an npm package you should avoid using dependencies. Instead you need to consider adding it into peerDependencies.
Update
Most of the time dependencies are just a bunch of libraries that describes your ecosystem. Unless, you're really using a specific version of a library you should instead let the user choose whether or not to install that library and which version to choose by adding it into the peerDependencies.
dependencies are required to run, devDependencies only to develop
When using Webpack to bundle a frontend application, the distinction between dependencies and devDependencies is not so clear. For the final bundle, it doesn't matter where you place the dependencies (but it may be important for other tools). That's why the documentation seems confusing.
I found the explanation here: Do "dependencies" and "devDependencies" matter when using Webpack?

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