The eslint-codemod-utils
package is a library of helper functions designed to enable code evolution in a similar way to jscodeshift
- but leaning on the live and ongoing enforcement of eslint
in your source - rather than one off codemod scripts. It provides first class typescript support and will supercharge your custom eslint rules.
pnpm add -D eslint-codemod-utils
yarn add -D eslint-codemod-utils
npm i --save-dev eslint-codemod-utils
To create a basic JSX node, you might do something like this:
import {
jsxElement,
jsxOpeningElement,
jsxClosingElement,
identifier,
} from 'eslint-codemod-utils'
const modalName = identifier({ name: 'Modal' })
const modal = jsxElement({
openingElement: jsxOpeningElement({ name: modalName, selfClosing: false }),
closingElement: jsxClosingElement({ name: modalName }),
})
This would produce an espree
compliant node type that you can also nicely stringify to apply your eslint
fixes. For example:
modal.toString()
// produces: <Modal></Modal>
The real power of this approach is when combining these utilties with eslint
rule custom fixe. In these cases, rather than
relying on string manipulation - which can be inexact, hacky or complex to reason about - you can instead focus on only the fix you actually need to affect.
Writing a codemod is generally broken down into three parts:
- Find
- Modify
- Remove / Cleanup
The eslint
custom rule API allows us to find nodes fairly simply, but how might we modify them? Let's say we're trying to add a new element required to be composed by our Design System's Modal element - a ModalBody
which is going to
be wrapped by the original Modal
container. Assuming you've found the right node a normal fix might look like this:
import { Rule } from 'eslint'
function fix(fixer: Rule.RuleFixer) {
return fixer.replaceText(node, '<Modal><ModalBody></ModalBody></Modal>')
}
So for this input:
const MyModal = () => <Modal></Modal>
We make this change:
- const MyModal = () => <Modal></Modal>
+ const MyModal = () => <Modal><ModalBody></ModalBody></Modal>
This kinda works, but the problem is the existing usage of Modal in our codebase is likely (guaranteed!) to be considerably more complex than this example.
- If our Modal has props, we need to consider them
- If our Modal has children, we need to consider them
- If our Modal is aliased, we need to consider that
Instead of relying on string manipulation to reconstruct the existing AST, we instead leverage the information eslint
is already giving to us.
import * as esUtils from 'eslint-codemod-utils'
import { Rule } from 'eslint'
// This is slightly more verbose, but it's considerably more robust -
// Simply re-using and spitting out the exisitng AST as a string
function fix(fixer: Rule.RuleFixer) {
const jsxIdentifier = esUtils.jsxIdentifier({ name: 'ModalBody' })
const modalBodyNode = esUtils.jsxElement({
openingElement: esUtils.jsxOpeningElement({ name: jsxIdentifier }),
closingElement: esUtils.jsxClosingElement({ name: jsxIdentifier }),
// pass children of original element to new wrapper
children: node.children,
})
return fixer.replaceText(
node,
esUtils.jsxElement({ ...node, children: [modalBodyNode] }).toString()
)
}
The above will work for the original example:
- const MyModal = () => <Modal></Modal>
+ const MyModal = () => <Modal><ModalBody></ModalBody></Modal>
But it will also work for:
- const MyModal = () => <Modal type="full-width"></Modal>
+ const MyModal = () => <Modal type="full-width"><ModalBody></ModalBody></Modal>
Or:
- const MyModal = () => <Modal><SomeChild/></Modal>
+ const MyModal = () => <Modal><ModalBody><SomeChild/></ModalBody></Modal>
It's a declarative approach to solve the same problem.
See the eslint-plugin-example for examples of more real world fixes.
The library provides a 1-1 mapping of types to utility functions every espree
node type. These are all lowercase complements to the underlying type they represent;
eg. jsxIdentifier
produces a JSXIdentifier
node representation. These nodes all implement their own toString
. This means any string cast will recursively produce the correct string output for any valid espree
AST.
Each helper takes in a valid espree
node and spits out an augmented one that can be more easily stringified. See -> API for more.
This idea came about after wrestling with the limitations of eslint
rule fixes. For context, eslint
rules rely heavily on string based utilities to apply
fixes to code. For example this fix which appends a semi-colon to a Literal
(from the eslint
documentation website itself):
context.report({
node: node,
message: 'Missing semicolon',
fix: function (fixer) {
return fixer.insertTextAfter(node, ';')
},
})
This works fine if your fixes are trivial, but it works less well for more complex uses cases. As soon as you need to traverse other AST nodes and combine information for a fix, combine fixes; the simplicity of the RuleFixer
API starts to buckle.
In codemod tools like jscodeshift, the AST is baked in to the way fixes are applied - rather than applying fixes your script needs to return a collection of AST nodes which are then parsed and integrated into the source. This is a little more heavy duty but it also is more resillient.
The missing piece for ESlint
is a matching set of utilties to allow the flexibility to dive into the AST approach where and when a developer feels it is appropriate.
This library aims to bridge some of that gap and with some different thinking around just how powerful ESLint
can be.
Fixes can then theoretically deal with more complex use cases like this:
/**
* This is part of a fix to demonstrate changing a prop in a specific element with
* a much more surgical approach to node manipulation.
*/
import {
jsxOpeningElement,
jsxAttribute,
jsxIdentifier,
} from 'eslint-codemod-utils'
// ... further down the file
context.report({
node: node,
message: 'error',
fix(fixer) {
// The variables 'fixed' works with the espree AST to create
// its own representation which can easily be stringified
const fixed = jsxOpeningElement({
name: node.name,
selfClosing: node.selfClosing,
attributes: node.attributes.map((attr) => {
if (attr.type === 'JSXAttribute' && attr.name.name === 'open') {
const internal = jsxAttribute({
// espree nodes are spread into the util with no issues
...attr,
// others are recreated or re-mapped
name: jsxIdentifier({
...attr.name,
name: 'isOpen',
}),
})
return internal
}
return attr
}),
})
return fixer.replaceText(node, fixed.toString())
},
})
- AST Types https://github.com/benjamn/ast-types
- Codeshift Community https://www.codeshiftcommunity.com/