Graphile Export enables you to export a GraphQL Schema (or other code) as executable JavaScript code. You must, however, write your code in a way that makes it exportable; we have ESLint plugins to make this less onerous.
The system works by converting values in memory into source code strings. One of
the key things that's challenging to export is functions (and function-derived
things such as classes). In JavaScript you can see the source code of a function
by calling .toString()
on it:
> (function add(a, b) { return a + b }).toString()
'function add(a, b) { return a + b }'
However this quickly falls down if you are using values from a parent closure:
> const a = 7;
undefined
> function add(b) { return a + b };
undefined
> add(3)
10
> add.toString()
'function add(b) { return a + b }'
See how the function definition string add.toString()
returns its definition,
but you cannot determine from that what the value of a
is. This is a problem.
Graphile Export solves this by having you define your functions a bit like React hooks - you must state the dependencies explicitly:
> const { EXPORTABLE } = require("graphile-export")
undefined
> const a = 7;
undefined
> const add = EXPORTABLE((a) => function add(b) { return a + b; }, [a]);
undefined
When you do so, the add
function is augmented with the properties
$exporter$factory
and $exporter$args
that represent the first and second
arguments to the EXPORTABLE(factory, args)
function respectively.
The function still works as before:
> add(3)
10
> add.toString()
'function add(b) { return a + b; }'
But graphile-export
can access these special properties when it writes the
code out, and now it can see the value of that "invisible" a=7
:
> add.$exporter$factory.toString()
'(a) => function add(b) { return a + b; }'
> add.$exporter$args
[ 7 ]
Thus everything that can have these kinds of hidden properties must be wrapped
in an EXPORTABLE
call. Sometimes the inputs to the EXPORTABLE
call
themselves also have to be wrapped in an EXPORTABLE
call. You'll figure out
which things need wrapping by looking at the exported code and seeing where
references are broken.
Tracking all these dependencies yourself can to be a royal pain in the
aggragate, so we've written a plugin eslint-plugin-graphile-export
to do away
with a lot of the pain.
To install:
yarn add eslint-plugin-graphile-export@beta
To set up, add "graphile-export"
to your ESLint configuration's plugins
list, and "plugin:graphile-export/recommended"
to the extends
list:
// .eslintrc.js
module.exports = {
//...
plugins: [
//...
"graphile-export",
//...
],
extends: [
//...
"plugin:graphile-export/recommended",
//...
],
//...
};
To use it, simply add EXPORTABLE(() =>
before the value exporession to be
exported, and )
after and then run eslint --fix
against the file. It will
automatically convert:
const add = EXPORTABLE(
() =>
function add(b) {
return a + b;
},
);
to:
const add = EXPORTABLE(
(
// The dependencies:
a,
) =>
function add(b) {
return a + b;
},
[
// The dependency values
a,
],
);
You don't need to do this yourself everywhere, the plugin will look for common
patterns and apply the EXPORTABLE
itself as best it can. Do carefully review
the changes it has made.
Note: no accommodation for formatting has been made, it is assumed that you are
using prettier
or similar code formatter and thus there's no need for us to
format the code.
Our ESLint plugin isn't smart enough to actually import
the EXPORTABLE
helper, so after running the autofix you might end up with "undefined variable
EXPORTABLE
" errors. You can either
import { EXPORTABLE } from "graphile-export"
, or you can copy this definition
into your code:
export function EXPORTABLE<T, TScope extends any[]>(
factory: (...args: TScope) => T,
args: [...TScope],
): T {
const fn: T = factory(...args);
if (
((typeof fn === "object" && fn !== null) || typeof fn === "function") &&
!("$exporter$factory" in fn)
) {
Object.defineProperties(fn, {
$exporter$args: { value: args },
$exporter$factory: { value: factory },
});
}
return fn;
}
(Or, if you're using plain JavaScript:
export function EXPORTABLE(factory, args) {
const fn = factory(...args);
if (
((typeof fn === "object" && fn !== null) || typeof fn === "function") &&
!("$exporter$factory" in fn)
) {
Object.defineProperties(fn, {
$exporter$args: { value: args },
$exporter$factory: { value: factory },
});
}
return fn;
}
)
One issue with this is that it makes your code quite messy. We're hoping to come up with a preprocessor or babel plugin or similar that should mean that your original code doesn't need all this boilerplate. But for now, explicit and functional is what we're going with!