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P is for project. As in, "How the hell do I work on this project."

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p

P makes it easier to jump between projects and get work done. It gathers up all of the available commands/scripts in a repo, and aliases them to p <name>.

P is not a project requirement or dependency -- it is a personal tool. Nothing in your project should depend on p, but rather conform to p-friendly standards which are usable with or without p itself. This means that if you use p, you get the best experience possible. And for the contributors who don't use p, at least they get a well-documented and well-maintained developer experience.

If you personally start using it, you'll probably find that p is the first thing you run after cd <project> to get your bearings and start doing work.

But... why?

Install or update

Don't add it to a project. Add it to your machine, system-wide or user-wide.

# System-wide or user-wide, not per project
$ pip3 install -U p

What it looks like

$ cd project
$ p
  Usage: p [OPTIONS] COMMAND [ARGS]...

  Options:
  --version
  --help     Show this message and exit.

  Commands:
  compile-assets  Using: npm run compile-assets
  install         Using: ./scripts/install
  load-fixtures   Using: ./scripts/load-fixtures
  pre-commit      Using: ./scripts/pre-commit
  test            Using: ./scripts/test

Supported tools and workflows

Note that p really only supports stuff that we use at Dropseed. So this list is intentionally short. If you use p day-to-day and would like to see support for something not listed here, just let us know!

Executable scripts

P will automatically find executable scripts in ./scripts or ./bin.

They should have no extension (don't need ".sh") and should be executable (chmod +x ./scripts/thing).

The filename will be added as a command so that they can simply be run by doing p {script-name}.

For example, this structure:

$ tree scripts/
scripts/
├── compile-assets
├── load-fixtures
├── pre-commit
├── setup
├── start-postgres
├── test
└── work

Will result in:

$ p
  Usage: p [OPTIONS] COMMAND [ARGS]...

  Options:
    --version
    --help     Show this message and exit.

  Commands:
    compile-assets  Using: ./scripts/compile-assets
    load-fixtures   Using: ./scripts/load-fixtures
    pre-commit      Using: ./scripts/pre-commit
    setup           Using: ./scripts/setup
    start-postgres  Using: ./scripts/start-postgres
    test            Using: ./scripts/test
    work            Using: ./scripts/work

Makefile

If there is a Makefile in your project, p will automatically parse .PHONY and make those commands available via p. So if you have make test, it will also be available to p users via p test.

package.json scripts

Entries in your package.json "scripts" will automatically be mapped to p commands.

For example:

{
  "scripts": {
    "start": "react-scripts start"
  }
}

Would result in:

Usage: p [OPTIONS] COMMAND [ARGS]...

Options:
  --version
  --help     Show this message and exit.

Commands:
  start    Using: npm run start

Git hooks

P also provides automatic installation of git hooks.

For example, if you have a command named pre-commit, running p install or p {git-hook-name} will prompt you to install it into your local .githooks for the repo.

Then when you run git commit, your p pre-commit will be run automatically.

An example of a pre-commit script:

#!/bin/sh -e
black pullapprove --check --exclude migrations

Grouping (advanced)

To make the p help more user friendly you can group and hide commands from the top-level. This works automatically by using a : in your command name.

For example, if you have commands like db:load and db:reset, you'll get a db group. You can run p db to see the subcommands in db, and run p db load to run a subcommand.

$ p
  Usage: p [OPTIONS] COMMAND [ARGS]...

  Options:
    --version
    --help     Show this message and exit.

  Commands:
    db

$ p db load

(You can also invoke the grouped commands directly as p db:load.)


Why

Context switching sucks

It can often take several minutes just to figure out how to start working on something.

Every project is different, but damn near every project comes with a set of development commands or scripts to run common actions. And if it doesn’t, then it probably should. Different languages, people, and tools accomplish this in different ways. Some projects use the good ol’ Makefile, while others use package.json “scripts”, bash scripts, rake, fabric, and so on and so on…

P was built to make it easier to jump between projects, and to save some keystrokes in the meantime.

Improving developer experience

Ideally, p will “just work”. But if not, it is often in your project’s best interest to design a developer experience that would work if someone were using p. That is – script out some of the most commonly used actions for your project (install, test, deploy, etc.), and put them in a uniform place where contributors can easily figure out how to use them. Now even the people who don't use p at least have a shot at getting up and running on their own.

The search for a universal experience

For a long time I've been in search of the perfect development task manager to use on every project. But that proved to be difficult as the repos got smaller, more self-contained, and spread across languages and dependency systems.

Using a Makefile is the closest thing to what I'm looking for. Most people have make. But there's a lot of things I just can't stand about it (it's just ugly, and I can't help but think that it feels like some kind of hack).

I've settled on the idea of using a "scripts" folder with one-off files for each task. Usually just bash scripts, but can easily be a small Python script or something else. These work basically everywhere, and it's not hard to tell someone to do ./scripts/test.

But even the "scripts" pattern doesn't make sense on every project. Some frameworks/projects already come with a solution, like pre-existing package.json "scripts". Do we really want to create make scripts/test that just runs npm run test? Seems dumb. "I guess we'll use npm scripts on this project..."

So, every project inevitably ends up being a little bit different. But for those of us that have to constantly jump around between those projects, p smooths out the rough edges in our day-to-day, and enables us to make per-project decisions about the developer experience (and reminds us to even be thinking about that in the first place).

Bonus: git hooks

Git hooks can be a super useful, but confusing process to use. The gist is that they generally aren't shared or set up for each user of a project automatically. There are some tools like pre-commit or husky that really go the extra mile in creating a system for git hooks, but a lot of our projects don't really warrant that and, again, it felt strange to now have a project dependency in that process... Do we install that thing per-project even if the project doesn't use that language otherwise? If we install it on our machines outside the project, is that now a requirement that can't be required? Is it even possible to run the hook/linter/formatter without that tool?

Anyway, p embraces git's (implied) attitude about hooks: they're optional.

If a user has p, then we'll take an extra step to install the git hook for them and put things in place. It's a nice-to-have.

If you don't have p, then at least you can still run your linters/formatters manually if you want (i.e. npm run pre-commit).

And if you need to require that those checks are run, no matter who (or what) commits to the project? Then set them up in CI. You don't need anything special to do this -- just run your script/command as a step like a non-p user would.

It's not fancy, and it works for us.

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