babel-plugin-macros 🎣
Enables zero-config, importable babel plugins
The problem
Check out this guest post on the Babel.js blog for a complete write up on the problem, motivation, and solution.
Currently, each babel plugin in the babel ecosystem requires that you configure
it individually. This is fine for things like language features, but can be
frustrating overhead for libraries that allow for compile-time code
transformation as an optimization.
This solution
babel-plugin-macros defines a standard interface for libraries that want to use
compile-time code transformation without requiring the user to add a babel
plugin to their build system (other than babel-plugin-macros
, which is ideally
already in place).
Expand for more details on the motivation
For instance, many css-in-js libraries have a css tagged template string
function:
const styles = css`
.red {
color: red;
}
`
The function compiles your css into (for example) an object with generated class
names for each of the classes you defined in your css:
console.log(styles)
This class name can be generated at runtime (in the browser), but this has some
disadvantages:
- There is cpu usage/time overhead; the client needs to run the code to generate
these classes every time the page loads
- There is code bundle size overhead; the client needs to receive a CSS parser
in order to generate these class names, and shipping this makes the amount of
js the client needs to parse larger.
To help solve those issues, many css-in-js libraries write their own babel
plugin that generates the class names at compile-time instead of runtime:
const styles = css`
.red {
color: red;
}
`
const styles = {red: '1f-d34j8rn43y587t'}
If the css-in-js library supported babel-plugin-macros instead, then they
wouldn't need their own babel plugin to compile these out; they could instead
rely on babel-plugin-macros to do it for them. So if a user already had
babel-plugin-macros
installed and configured with babel, then they wouldn't
need to change their babel configuration to get the compile-time benefits of the
library. This would be most useful if the boilerplate they were using came with
babel-plugin-macros
out of the box, which is true for
create-react-app
.
Although css-in-js is the most common example, there are lots of other things
you could use babel-plugin-macros
for, like:
- Compiling GraphQL fragments into objects so that the client doesn't need a
GraphQL parser
- Eval-ing out code at compile time that will be baked into the runtime code,
for instance to get a list of directories in the filesystem (see
preval)
Table of Contents
Installation
This module is distributed via npm which is bundled with node and
should be installed as one of your project's devDependencies
:
npm install --save-dev babel-plugin-macros
Usage
User docs
Are you trying to use babel-plugin-macros
? Go to
other/docs/user.md
.
Author docs
Are you trying to make your own macros that works with babel-plugin-macros
? Go to
other/docs/author.md
.
(you should probably read the user docs too).
Caveats
Babel cache problem
Most of the time you'll probably be using this with the babel cache enabled in webpack to rebuild faster. If your macro function is not pure which gets different output with same code (e.g., IO side effects) it will cause recompile mechanism fail. Unfortunately you'll also experience this problem while developing your macro as well. If there's not a change to the source code that's being transpiled, then babel will use the cache rather than running your macro again.
For now, to force recompile the code you can simply add a cache busting comment in the file:
import macro from 'non-pure.macro';
-// Do some changes of your code or
+// add a cache busting comment to force recompile.
macro('parameters');
This problem is still being worked on and is not unique to babel-plugin-macros
. For more details and workarounds, please check related issues below:
FAQ
How do I find available macros?
You can write your own without publishing them to npm
, but if you'd like to
see existing macros you can add to your project, then take a look at
other/docs/macros.md
Please add any you don't see listed!
What's the difference between babel plugins and macros?
Let's use
babel-plugin-console
as
an example.
If we used babel-plugin-console
, it would look like this:
- Add
babel-plugin-console
to .babelrc
- Use it in a code:
function add100(a) {
const oneHundred = 100
console.scope('Add 100 to another number')
return add(a, oneHundred)
}
function add(a, b) {
return a + b
}
When that code is run, the scope
function does some pretty nifty things:
Browser:
Node:
Instead, let's use the macro it's shipped with like this:
- Add
babel-plugin-macros
to .babelrc
(only once for all macros) - Use it in a code:
import scope from 'babel-plugin-console/scope.macro'
function add100(a) {
const oneHundred = 100
scope('Add 100 to another number')
return add(a, oneHundred)
}
function add(a, b) {
return a + b
}
The result is exactly the same, but this approach has a few advantages:
Advantages:
- requires only one entry in
.babelrc
for all macros used in project. Add that
once and you can use all the macros you want - toolkits (like create-react-app) may already support
babel-plugin-macros
, so no configuration is needed at all - it's explicit. With
console.scope
people may be fooled that it's just a
normal console
API when there's really a babel transpilation going on. When
you import scope
, it's obvious that it's macro and does something with the
code at compile time. Some ESLint rules may also have issues with plugins that
look for "global" variables - macros are safer and easier to write, because they receive exactly the AST
node to process
- If you misconfigure
babel-plugin-console
you wont find out until you run the
code. If you misconfigure babel-plugin-macros
you'll get a compile-time
error.
Drawbacks:
- Cannot (should not) be used for implicit transpilations (like syntax plugins)
- Explicitness is more verbose. Which some people might consider a drawback...
In what order are macros executed?
This is another advantage of babel-plugin-macros
over regular plugins. The
user of the macro is in control of the ordering! The order of execution is the
same order as imported. The order of execution is clear, explicit and in full
control of the user:
import preval from 'preval.macro'
import idx from 'idx.macro'
This differs from the current situation with babel plugins where it's
prohibitively difficult to control the order plugins run in a particular file.
Does it work with function calls only?
No! Any AST node type is supported.
It can be tagged template literal:
import eval from 'eval.macro'
const val = eval`7 * 6`
A function:
import eval from 'eval.macro'
const val = eval('7 * 6')
JSX Element:
import Eval from 'eval.macro'
const val = <Eval>7 * 6</Eval>
Really, anything...
See the testing snapshot for more examples.
How about implicit optimizations at compile time?
All examples above were explicit - a macro was imported and then evaluated
with a specific AST node.
Completely different story are implicit babel plugins, like
transform-react-constant-elements,
which process whole AST tree.
Explicit is often a better pattern than implicit because it requires others to
understand how things are globally configured. This is in this spirit are
babel-plugin-macros
designed. However, some things do need to be implicit,
and those kinds of babel plugins can't be turned into macros.
Inspiration
Thank you to @phpnode for donating the npm package
babel-plugin-macros
.
Other Solutions
Contributors
Thanks goes to these people (emoji key):
This project follows the all-contributors specification.
Contributions of any kind welcome!
LICENSE
MIT