- Clear feature ownership
- Module usage predictibility (refactoring, maintainence, you know what's shared, what's not, prevents accidental regressions, avoids huge directories of not-actually-reusable modules, etc)
- CI runs only the tests that matter (future)
- Code splitting (future)
The file structure maps directly to the route hierarchy, which maps directly to the UI hierarchy.
It's inverted from the model that we've used in other systems. If we consider all folders being either a "generic" or a "feature" folder, we only have one "feature" folder but many "generic" folders.
Examples of "feature" folders:
- Surveys
- Admin
- Users
- Author
Examples of "generic" folders:
- components
- helpers
- stores
- actions
Given this route config:
var routes = (
<Route name="App">
<Route name="Admin">
<Route name="Users"/>
<Route name="Reports"/>
</Route>
<Route name="Course">
<Route name="Assignments"/>
</Route>
</Route>
);
We would now set up our directories like this:
app
└── screens
└── App
└── screens
├── Admin
│ └── screens
│ ├── Reports
│ └── Users
└── Course
└── screens
└── Assignments
Next, each of these screens has an index.js
file, which is the file
that handles the entry into the screen, also known as a "Route Handler"
in react router. Its very much like a Route
in Ember. We'll also have
some top-level application bootstrapping stuff at the root, like
config/routes.js
.
app
├── config
│ └── routes.js
├── screens
│ └── App
│ ├── screens
│ │ ├── Admin
│ │ │ ├── screens
│ │ │ │ ├── Reports
│ │ │ │ │ └── index.js
│ │ │ │ └── Users
│ │ │ │ └── index.js
│ │ │ └── index.js
│ │ └── Course
│ │ ├── screens
│ │ │ └── Assignments
│ │ │ └── index.js
│ │ └── index.js
│ └── index.js
└── index.js
With this structure, each screen has its own directory to hold its modules. In other words, we've introduced "scope" into our application file structure.
Each will probably have a components
directory.
app
├── config
│ └── routes.js
├── screens
│ └── App
│ ├── components
│ ├── screens
│ │ ├── Admin
│ │ │ ├── components
│ │ │ ├── screens
│ │ │ │ ├── Reports
│ │ │ │ │ ├── components
│ │ │ │ │ └── index.js
│ │ │ │ └── Users
│ │ │ │ ├── components
│ │ │ │ └── index.js
│ │ │ └── index.js
│ │ └── Course
│ │ ├── components
│ │ ├── screens
│ │ │ └── Assignments
│ │ │ ├── components
│ │ │ └── index.js
│ │ └── index.js
│ └── index.js
└── index.js
These components are used only in the current screen, not even the child screens. So what about when you've got some shared components between screens?
Every screen also has a "shared" generic directory. If its children share any components with each other or the parent, we put the shared code in "shared". Here is our growing app with some new shared, and not shared modules.
app
├── config
│ └── routes.js
├── screens
│ └── App
│ ├── components
│ ├── screens
│ │ ├── Admin
│ │ │ ├── components
│ │ │ ├── screens
│ │ │ │ ├── Reports
│ │ │ │ │ ├── components
│ │ │ │ │ ├── stores
│ │ │ │ │ │ └── ReportsStore.js
│ │ │ │ │ └── index.js
│ │ │ │ └── Users
│ │ │ │ ├── components
│ │ │ │ └── index.js
│ │ │ ├── shared
│ │ │ │ └── stores
│ │ │ │ ├── AccountStore.js
│ │ │ │ └── UserStore.js
│ │ │ └── index.js
│ │ └── Course
│ │ ├── components
│ │ ├── screens
│ │ │ └── Assignments
│ │ │ ├── components
│ │ │ └── index.js
│ │ └── index.js
│ ├── shared
│ │ └── components
│ │ ├── Avatar.js
│ │ └── Icon.js
│ └── index.js
├── shared
│ └── util
│ └── createStore.js
└── index.js
Note Admin/shared
; Reports
and Users
can both access the shared
stores. Additionally, every screen in the app can use Avatar.js
and Icon.js
.
We put shared components in the nearest shared
directory possible and
move it toward the root as needed.
The way modules in CommonJS are resolved is pretty straightforward in practice: its all relative from the current file.
There is one piece of "magic" in the way modules resolve. When you do a
non-relative require like require('moment')
the resolver will first
try to find it in node_modules/moment
. If its not there, it will look
in ../node_modules/moment
, and on up the tree until it finds it.
We've made it so that shared
resolves the same way with webpack
modulesDirectories
. This way you don't have to
require('../../../../../../../../../../shared/Avatar')
you can simply
do require('components/Avatar')
no matter where you are.
Tests live next to the modules they test. Tests for
shared/util/createStore.js
live in shared/util/__tests__/createStore.test.js
.
Now our app has a bunch of __tests__
directories:
app
├── __tests__
├── config
│ └── routes.js
├── screens
│ └── App
│ ├── components
│ │ ├── __tests__
│ │ │ └── AppView.test.js
│ │ └── AppView.js
... etc.
├── shared
│ └── util
│ ├── __tests__
│ │ └── createStore.test.js
│ └── createStore.js
└── index.js
The other option is "views", which has become a lot like "controller". What does it even mean? Screen seems pretty intuitive to me to mean "a specific screen in the app" and not something that is shared. It has the added benefit that there's no such thing as an "MSC" yet, so the word "screen" causes people to ask "what's a screen?" instead of assuming they know what a "view" is supposed to be.
{
modulesDirectories: ['shared', 'node_modules']
}
@iamdustan I haven't yet, but I would just use webpack --target node and have webpack build the server-side bundle also, which will give us the same module resolution.
Does 'enhanced-require' solve this in node.js? Or is there some other way?