182 lines
5.3 KiB
JavaScript
182 lines
5.3 KiB
JavaScript
/**
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* @typedef {import('unist').Node} Node
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* @typedef {import('unist').Parent} Parent
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* @typedef {import('unist-util-is').Test} Test
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* @typedef {import('unist-util-visit-parents').VisitorResult} VisitorResult
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*/
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/**
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* Check if `Child` can be a child of `Ancestor`.
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*
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* Returns the ancestor when `Child` can be a child of `Ancestor`, or returns
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* `never`.
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*
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* @template {Node} Ancestor
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* Node type.
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* @template {Node} Child
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* Node type.
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* @typedef {(
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* Ancestor extends Parent
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* ? Child extends Ancestor['children'][number]
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* ? Ancestor
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* : never
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* : never
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* )} ParentsOf
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*/
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/**
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* @template {Node} [Visited=Node]
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* Visited node type.
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* @template {Parent} [Ancestor=Parent]
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* Ancestor type.
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* @callback Visitor
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* Handle a node (matching `test`, if given).
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*
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* Visitors are free to transform `node`.
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* They can also transform `parent`.
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*
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* Replacing `node` itself, if `SKIP` is not returned, still causes its
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* descendants to be walked (which is a bug).
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*
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* When adding or removing previous siblings of `node` (or next siblings, in
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* case of reverse), the `Visitor` should return a new `Index` to specify the
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* sibling to traverse after `node` is traversed.
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* Adding or removing next siblings of `node` (or previous siblings, in case
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* of reverse) is handled as expected without needing to return a new `Index`.
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*
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* Removing the children property of `parent` still results in them being
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* traversed.
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* @param {Visited} node
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* Found node.
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* @param {Visited extends Node ? number | null : never} index
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* Index of `node` in `parent`.
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* @param {Ancestor extends Node ? Ancestor | null : never} parent
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* Parent of `node`.
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* @returns {VisitorResult}
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* What to do next.
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*
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* An `Index` is treated as a tuple of `[CONTINUE, Index]`.
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* An `Action` is treated as a tuple of `[Action]`.
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*
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* Passing a tuple back only makes sense if the `Action` is `SKIP`.
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* When the `Action` is `EXIT`, that action can be returned.
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* When the `Action` is `CONTINUE`, `Index` can be returned.
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*/
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/**
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* Build a typed `Visitor` function from a node and all possible parents.
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*
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* It will infer which values are passed as `node` and which as `parent`.
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*
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* @template {Node} Visited
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* Node type.
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* @template {Parent} Ancestor
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* Parent type.
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* @typedef {Visitor<Visited, ParentsOf<Ancestor, Visited>>} BuildVisitorFromMatch
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*/
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/**
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* Build a typed `Visitor` function from a list of descendants and a test.
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*
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* It will infer which values are passed as `node` and which as `parent`.
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*
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* @template {Node} Descendant
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* Node type.
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* @template {Test} Check
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* Test type.
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* @typedef {(
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* BuildVisitorFromMatch<
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* import('unist-util-visit-parents/complex-types.js').Matches<Descendant, Check>,
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* Extract<Descendant, Parent>
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* >
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* )} BuildVisitorFromDescendants
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*/
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/**
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* Build a typed `Visitor` function from a tree and a test.
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*
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* It will infer which values are passed as `node` and which as `parent`.
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*
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* @template {Node} [Tree=Node]
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* Node type.
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* @template {Test} [Check=string]
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* Test type.
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* @typedef {(
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* BuildVisitorFromDescendants<
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* import('unist-util-visit-parents/complex-types.js').InclusiveDescendant<Tree>,
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* Check
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* >
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* )} BuildVisitor
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*/
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import {visitParents} from 'unist-util-visit-parents'
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/**
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* Visit nodes.
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*
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* This algorithm performs *depth-first* *tree traversal* in *preorder*
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* (**NLR**) or if `reverse` is given, in *reverse preorder* (**NRL**).
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*
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* You can choose for which nodes `visitor` is called by passing a `test`.
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* For complex tests, you should test yourself in `visitor`, as it will be
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* faster and will have improved type information.
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*
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* Walking the tree is an intensive task.
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* Make use of the return values of the visitor when possible.
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* Instead of walking a tree multiple times, walk it once, use `unist-util-is`
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* to check if a node matches, and then perform different operations.
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*
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* You can change the tree.
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* See `Visitor` for more info.
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*
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* @param tree
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* Tree to traverse.
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* @param test
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* `unist-util-is`-compatible test
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* @param visitor
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* Handle each node.
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* @param reverse
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* Traverse in reverse preorder (NRL) instead of the default preorder (NLR).
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* @returns
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* Nothing.
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*/
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export const visit =
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/**
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* @type {(
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* (<Tree extends Node, Check extends Test>(tree: Tree, test: Check, visitor: BuildVisitor<Tree, Check>, reverse?: boolean | null | undefined) => void) &
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* (<Tree extends Node>(tree: Tree, visitor: BuildVisitor<Tree>, reverse?: boolean | null | undefined) => void)
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* )}
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*/
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(
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/**
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* @param {Node} tree
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* @param {Test} test
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* @param {Visitor} visitor
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* @param {boolean | null | undefined} [reverse]
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* @returns {void}
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*/
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function (tree, test, visitor, reverse) {
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if (typeof test === 'function' && typeof visitor !== 'function') {
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reverse = visitor
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visitor = test
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test = null
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}
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visitParents(tree, test, overload, reverse)
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/**
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* @param {Node} node
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* @param {Array<Parent>} parents
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*/
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function overload(node, parents) {
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const parent = parents[parents.length - 1]
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return visitor(
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node,
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parent ? parent.children.indexOf(node) : null,
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parent
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)
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}
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}
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)
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export {CONTINUE, EXIT, SKIP} from 'unist-util-visit-parents'
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