You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

2013 lines
67 KiB

/**
* @author Toru Nagashima <https://github.com/mysticatea>
* See LICENSE file in root directory for full license.
*/
'use strict'
// ------------------------------------------------------------------------------
// Requirements
// ------------------------------------------------------------------------------
const {
isArrowToken,
isOpeningParenToken,
isClosingParenToken,
isNotOpeningParenToken,
isNotClosingParenToken,
isOpeningBraceToken,
isClosingBraceToken,
isNotOpeningBraceToken,
isOpeningBracketToken,
isClosingBracketToken,
isSemicolonToken,
isNotSemicolonToken
} = require('eslint-utils')
const {
isComment,
isNotComment,
isWildcard,
isExtendsKeyword,
isNotWhitespace,
isNotEmptyTextNode,
isPipeOperator,
last
} = require('./indent-utils')
const { defineVisitor: tsDefineVisitor } = require('./indent-ts')
/**
* @typedef {import('../../typings/eslint-plugin-vue/util-types/node').HasLocation} HasLocation
* @typedef { { type: string } & HasLocation } MaybeNode
*/
// ------------------------------------------------------------------------------
// Helpers
// ------------------------------------------------------------------------------
const LT_CHAR = /[\r\n\u2028\u2029]/
const LINES = /[^\r\n\u2028\u2029]+(?:$|\r\n|[\r\n\u2028\u2029])/g
const BLOCK_COMMENT_PREFIX = /^\s*\*/
const ITERATION_OPTS = Object.freeze({
includeComments: true,
filter: isNotWhitespace
})
const PREFORMATTED_ELEMENT_NAMES = ['pre', 'textarea']
/**
* @typedef {object} IndentOptions
* @property { " " | "\t" } IndentOptions.indentChar
* @property {number} IndentOptions.indentSize
* @property {number} IndentOptions.baseIndent
* @property {number} IndentOptions.attribute
* @property {object} IndentOptions.closeBracket
* @property {number} IndentOptions.closeBracket.startTag
* @property {number} IndentOptions.closeBracket.endTag
* @property {number} IndentOptions.closeBracket.selfClosingTag
* @property {number} IndentOptions.switchCase
* @property {boolean} IndentOptions.alignAttributesVertically
* @property {string[]} IndentOptions.ignores
*/
/**
* @typedef {object} IndentUserOptions
* @property { " " | "\t" } [IndentUserOptions.indentChar]
* @property {number} [IndentUserOptions.indentSize]
* @property {number} [IndentUserOptions.baseIndent]
* @property {number} [IndentUserOptions.attribute]
* @property {IndentOptions['closeBracket'] | number} [IndentUserOptions.closeBracket]
* @property {number} [IndentUserOptions.switchCase]
* @property {boolean} [IndentUserOptions.alignAttributesVertically]
* @property {string[]} [IndentUserOptions.ignores]
*/
/**
* Normalize options.
* @param {number|"tab"|undefined} type The type of indentation.
* @param {IndentUserOptions} options Other options.
* @param {Partial<IndentOptions>} defaultOptions The default value of options.
* @returns {IndentOptions} Normalized options.
*/
function parseOptions(type, options, defaultOptions) {
/** @type {IndentOptions} */
const ret = Object.assign(
{
indentChar: ' ',
indentSize: 2,
baseIndent: 0,
attribute: 1,
closeBracket: {
startTag: 0,
endTag: 0,
selfClosingTag: 0
},
switchCase: 0,
alignAttributesVertically: true,
ignores: []
},
defaultOptions
)
if (Number.isSafeInteger(type)) {
ret.indentSize = Number(type)
} else if (type === 'tab') {
ret.indentChar = '\t'
ret.indentSize = 1
}
if (options.baseIndent != null && Number.isSafeInteger(options.baseIndent)) {
ret.baseIndent = options.baseIndent
}
if (options.attribute != null && Number.isSafeInteger(options.attribute)) {
ret.attribute = options.attribute
}
if (Number.isSafeInteger(options.closeBracket)) {
const num = Number(options.closeBracket)
ret.closeBracket = {
startTag: num,
endTag: num,
selfClosingTag: num
}
} else if (options.closeBracket) {
ret.closeBracket = Object.assign(
{
startTag: 0,
endTag: 0,
selfClosingTag: 0
},
options.closeBracket
)
}
if (options.switchCase != null && Number.isSafeInteger(options.switchCase)) {
ret.switchCase = options.switchCase
}
if (options.alignAttributesVertically != null) {
ret.alignAttributesVertically = options.alignAttributesVertically
}
if (options.ignores != null) {
ret.ignores = options.ignores
}
return ret
}
/**
* Check whether the node is at the beginning of line.
* @param {MaybeNode|null} node The node to check.
* @param {number} index The index of the node in the nodes.
* @param {(MaybeNode|null)[]} nodes The array of nodes.
* @returns {boolean} `true` if the node is at the beginning of line.
*/
function isBeginningOfLine(node, index, nodes) {
if (node != null) {
for (let i = index - 1; i >= 0; --i) {
const prevNode = nodes[i]
if (prevNode == null) {
continue
}
return node.loc.start.line !== prevNode.loc.end.line
}
}
return false
}
/**
* Check whether a given token is a closing token which triggers unindent.
* @param {Token} token The token to check.
* @returns {boolean} `true` if the token is a closing token.
*/
function isClosingToken(token) {
return (
token != null &&
(token.type === 'HTMLEndTagOpen' ||
token.type === 'VExpressionEnd' ||
(token.type === 'Punctuator' &&
(token.value === ')' || token.value === '}' || token.value === ']')))
)
}
/**
* Checks whether a given token is a optional token.
* @param {Token} token The token to check.
* @returns {boolean} `true` if the token is a optional token.
*/
function isOptionalToken(token) {
return token.type === 'Punctuator' && token.value === '?.'
}
/**
* Creates AST event handlers for html-indent.
*
* @param {RuleContext} context The rule context.
* @param {ParserServices.TokenStore | SourceCode} tokenStore The token store object to get tokens.
* @param {Partial<IndentOptions>} defaultOptions The default value of options.
* @returns {NodeListener} AST event handlers.
*/
module.exports.defineVisitor = function create(
context,
tokenStore,
defaultOptions
) {
if (!context.getFilename().endsWith('.vue')) return {}
const options = parseOptions(
context.options[0],
context.options[1] || {},
defaultOptions
)
const sourceCode = context.getSourceCode()
/**
* @typedef { { baseToken: Token | null, offset: number, baseline: boolean, expectedIndent: number | undefined } } OffsetData
*/
/** @type {Map<Token|null, OffsetData>} */
const offsets = new Map()
const ignoreTokens = new Set()
/**
* Set offset to the given tokens.
* @param {Token|Token[]|null|(Token|null)[]} token The token to set.
* @param {number} offset The offset of the tokens.
* @param {Token} baseToken The token of the base offset.
* @returns {void}
*/
function setOffset(token, offset, baseToken) {
if (!token || token === baseToken) {
return
}
if (Array.isArray(token)) {
for (const t of token) {
if (!t || t === baseToken) continue
offsets.set(t, {
baseToken,
offset,
baseline: false,
expectedIndent: undefined
})
}
} else {
offsets.set(token, {
baseToken,
offset,
baseline: false,
expectedIndent: undefined
})
}
}
/**
* Copy offset to the given tokens from srcToken.
* @param {Token} token The token to set.
* @param {Token} srcToken The token of the source offset.
* @returns {void}
*/
function copyOffset(token, srcToken) {
if (!token) {
return
}
const offsetData = offsets.get(srcToken)
if (!offsetData) {
return
}
setOffset(
token,
offsetData.offset,
/** @type {Token} */ (offsetData.baseToken)
)
if (offsetData.baseline) {
setBaseline(token)
}
const o = /** @type {OffsetData} */ (offsets.get(token))
o.expectedIndent = offsetData.expectedIndent
}
/**
* Set baseline flag to the given token.
* @param {Token} token The token to set.
* @returns {void}
*/
function setBaseline(token) {
const offsetInfo = offsets.get(token)
if (offsetInfo != null) {
offsetInfo.baseline = true
}
}
/**
* Sets preformatted tokens to the given element node.
* @param {VElement} node The node to set.
* @returns {void}
*/
function setPreformattedTokens(node) {
const endToken =
(node.endTag && tokenStore.getFirstToken(node.endTag)) ||
tokenStore.getTokenAfter(node)
/** @type {SourceCode.CursorWithSkipOptions} */
const cursorOptions = {
includeComments: true,
filter: (token) =>
token != null &&
(token.type === 'HTMLText' ||
token.type === 'HTMLRCDataText' ||
token.type === 'HTMLTagOpen' ||
token.type === 'HTMLEndTagOpen' ||
token.type === 'HTMLComment')
}
const contentTokens = endToken
? tokenStore.getTokensBetween(node.startTag, endToken, cursorOptions)
: tokenStore.getTokensAfter(node.startTag, cursorOptions)
for (const token of contentTokens) {
ignoreTokens.add(token)
}
ignoreTokens.add(endToken)
}
/**
* Get the first and last tokens of the given node.
* If the node is parenthesized, this gets the outermost parentheses.
* @param {MaybeNode} node The node to get.
* @param {number} [borderOffset] The least offset of the first token. Defailt is 0. This value is used to prevent false positive in the following case: `(a) => {}` The parentheses are enclosing the whole parameter part rather than the first parameter, but this offset parameter is needed to distinguish.
* @returns {{firstToken:Token,lastToken:Token}} The gotten tokens.
*/
function getFirstAndLastTokens(node, borderOffset = 0) {
borderOffset |= 0
let firstToken = tokenStore.getFirstToken(node)
let lastToken = tokenStore.getLastToken(node)
// Get the outermost left parenthesis if it's parenthesized.
let t, u
while (
(t = tokenStore.getTokenBefore(firstToken)) != null &&
(u = tokenStore.getTokenAfter(lastToken)) != null &&
isOpeningParenToken(t) &&
isClosingParenToken(u) &&
t.range[0] >= borderOffset
) {
firstToken = t
lastToken = u
}
return { firstToken, lastToken }
}
/**
* Process the given node list.
* The first node is offsetted from the given left token.
* Rest nodes are adjusted to the first node.
* @param {(MaybeNode|null)[]} nodeList The node to process.
* @param {MaybeNode|Token|null} left The left parenthesis token.
* @param {MaybeNode|Token|null} right The right parenthesis token.
* @param {number} offset The offset to set.
* @param {boolean} [alignVertically=true] The flag to align vertically. If `false`, this doesn't align vertically even if the first node is not at beginning of line.
* @returns {void}
*/
function processNodeList(nodeList, left, right, offset, alignVertically) {
let t
const leftToken = left && tokenStore.getFirstToken(left)
const rightToken = right && tokenStore.getFirstToken(right)
if (nodeList.length >= 1) {
let baseToken = null
let lastToken = left
const alignTokensBeforeBaseToken = []
const alignTokens = []
for (let i = 0; i < nodeList.length; ++i) {
const node = nodeList[i]
if (node == null) {
// Holes of an array.
continue
}
const elementTokens = getFirstAndLastTokens(
node,
lastToken != null ? lastToken.range[1] : 0
)
// Collect comma/comment tokens between the last token of the previous node and the first token of this node.
if (lastToken != null) {
t = lastToken
while (
(t = tokenStore.getTokenAfter(t, ITERATION_OPTS)) != null &&
t.range[1] <= elementTokens.firstToken.range[0]
) {
if (baseToken == null) {
alignTokensBeforeBaseToken.push(t)
} else {
alignTokens.push(t)
}
}
}
if (baseToken == null) {
baseToken = elementTokens.firstToken
} else {
alignTokens.push(elementTokens.firstToken)
}
// Save the last token to find tokens between this node and the next node.
lastToken = elementTokens.lastToken
}
// Check trailing commas and comments.
if (rightToken != null && lastToken != null) {
t = lastToken
while (
(t = tokenStore.getTokenAfter(t, ITERATION_OPTS)) != null &&
t.range[1] <= rightToken.range[0]
) {
if (baseToken == null) {
alignTokensBeforeBaseToken.push(t)
} else {
alignTokens.push(t)
}
}
}
// Set offsets.
if (leftToken != null) {
setOffset(alignTokensBeforeBaseToken, offset, leftToken)
}
if (baseToken != null) {
// Set offset to the first token.
if (leftToken != null) {
setOffset(baseToken, offset, leftToken)
}
// Set baseline.
if (nodeList.some(isBeginningOfLine)) {
setBaseline(baseToken)
}
if (alignVertically === false && leftToken != null) {
// Align tokens relatively to the left token.
setOffset(alignTokens, offset, leftToken)
} else {
// Align the rest tokens to the first token.
setOffset(alignTokens, 0, baseToken)
}
}
}
if (rightToken != null && leftToken != null) {
setOffset(rightToken, 0, leftToken)
}
}
/**
* Process the given node as body.
* The body node maybe a block statement or an expression node.
* @param {ASTNode} node The body node to process.
* @param {Token} baseToken The base token.
* @returns {void}
*/
function processMaybeBlock(node, baseToken) {
const firstToken = getFirstAndLastTokens(node).firstToken
setOffset(firstToken, isOpeningBraceToken(firstToken) ? 0 : 1, baseToken)
}
/**
* Process semicolons of the given statement node.
* @param {MaybeNode} node The statement node to process.
* @returns {void}
*/
function processSemicolons(node) {
const firstToken = tokenStore.getFirstToken(node)
const lastToken = tokenStore.getLastToken(node)
if (isSemicolonToken(lastToken) && firstToken !== lastToken) {
setOffset(lastToken, 0, firstToken)
}
// Set to the semicolon of the previous token for semicolon-free style.
// E.g.,
// foo
// ;[1,2,3].forEach(f)
const info = offsets.get(firstToken)
const prevToken = tokenStore.getTokenBefore(firstToken)
if (
info != null &&
prevToken &&
isSemicolonToken(prevToken) &&
prevToken.loc.end.line === firstToken.loc.start.line
) {
offsets.set(prevToken, info)
}
}
/**
* Find the head of chaining nodes.
* @param {ASTNode} node The start node to find the head.
* @returns {Token} The head token of the chain.
*/
function getChainHeadToken(node) {
const type = node.type
while (node.parent && node.parent.type === type) {
const prevToken = tokenStore.getTokenBefore(node)
if (isOpeningParenToken(prevToken)) {
// The chaining is broken by parentheses.
break
}
node = node.parent
}
return tokenStore.getFirstToken(node)
}
/**
* Check whether a given token is the first token of:
*
* - ExpressionStatement
* - VExpressionContainer
* - A parameter of CallExpression/NewExpression
* - An element of ArrayExpression
* - An expression of SequenceExpression
*
* @param {Token} token The token to check.
* @param {ASTNode} belongingNode The node that the token is belonging to.
* @returns {boolean} `true` if the token is the first token of an element.
*/
function isBeginningOfElement(token, belongingNode) {
let node = belongingNode
while (node != null && node.parent != null) {
const parent = node.parent
if (
parent.type.endsWith('Statement') ||
parent.type.endsWith('Declaration')
) {
return parent.range[0] === token.range[0]
}
if (parent.type === 'VExpressionContainer') {
if (node.range[0] !== token.range[0]) {
return false
}
const prevToken = tokenStore.getTokenBefore(belongingNode)
if (isOpeningParenToken(prevToken)) {
// It is not the first token because it is enclosed in parentheses.
return false
}
return true
}
if (parent.type === 'CallExpression' || parent.type === 'NewExpression') {
const openParen = /** @type {Token} */ (
tokenStore.getTokenAfter(parent.callee, isNotClosingParenToken)
)
return parent.arguments.some(
(param) =>
getFirstAndLastTokens(param, openParen.range[1]).firstToken
.range[0] === token.range[0]
)
}
if (parent.type === 'ArrayExpression') {
return parent.elements.some(
(element) =>
element != null &&
getFirstAndLastTokens(element).firstToken.range[0] ===
token.range[0]
)
}
if (parent.type === 'SequenceExpression') {
return parent.expressions.some(
(expr) =>
getFirstAndLastTokens(expr).firstToken.range[0] === token.range[0]
)
}
node = parent
}
return false
}
/**
* Set the base indentation to a given top-level AST node.
* @param {ASTNode} node The node to set.
* @param {number} expectedIndent The number of expected indent.
* @returns {void}
*/
function processTopLevelNode(node, expectedIndent) {
const token = tokenStore.getFirstToken(node)
const offsetInfo = offsets.get(token)
if (offsetInfo != null) {
offsetInfo.expectedIndent = expectedIndent
} else {
offsets.set(token, {
baseToken: null,
offset: 0,
baseline: false,
expectedIndent
})
}
}
/**
* Ignore all tokens of the given node.
* @param {ASTNode} node The node to ignore.
* @returns {void}
*/
function ignore(node) {
for (const token of tokenStore.getTokens(node)) {
offsets.delete(token)
ignoreTokens.add(token)
}
}
/**
* Define functions to ignore nodes into the given visitor.
* @param {NodeListener} visitor The visitor to define functions to ignore nodes.
* @returns {NodeListener} The visitor.
*/
function processIgnores(visitor) {
for (const ignorePattern of options.ignores) {
const key = `${ignorePattern}:exit`
if (visitor.hasOwnProperty(key)) {
const handler = visitor[key]
visitor[key] = function (node, ...args) {
// @ts-expect-error
const ret = handler.call(this, node, ...args)
ignore(node)
return ret
}
} else {
visitor[key] = ignore
}
}
return visitor
}
/**
* Calculate correct indentation of the line of the given tokens.
* @param {Token[]} tokens Tokens which are on the same line.
* @returns { { expectedIndent: number, expectedBaseIndent: number } |null } Correct indentation. If it failed to calculate then `null`.
*/
function getExpectedIndents(tokens) {
const expectedIndents = []
for (let i = 0; i < tokens.length; ++i) {
const token = tokens[i]
const offsetInfo = offsets.get(token)
if (offsetInfo != null) {
if (offsetInfo.expectedIndent != null) {
expectedIndents.push(offsetInfo.expectedIndent)
} else {
const baseOffsetInfo = offsets.get(offsetInfo.baseToken)
if (
baseOffsetInfo != null &&
baseOffsetInfo.expectedIndent != null &&
(i === 0 || !baseOffsetInfo.baseline)
) {
expectedIndents.push(
baseOffsetInfo.expectedIndent +
offsetInfo.offset * options.indentSize
)
if (baseOffsetInfo.baseline) {
break
}
}
}
}
}
if (!expectedIndents.length) {
return null
}
return {
expectedIndent: expectedIndents[0],
expectedBaseIndent: expectedIndents.reduce((a, b) => Math.min(a, b))
}
}
/**
* Get the text of the indentation part of the line which the given token is on.
* @param {Token} firstToken The first token on a line.
* @returns {string} The text of indentation part.
*/
function getIndentText(firstToken) {
const text = sourceCode.text
let i = firstToken.range[0] - 1
while (i >= 0 && !LT_CHAR.test(text[i])) {
i -= 1
}
return text.slice(i + 1, firstToken.range[0])
}
/**
* Define the function which fixes the problem.
* @param {Token} token The token to fix.
* @param {number} actualIndent The number of actual indentation.
* @param {number} expectedIndent The number of expected indentation.
* @returns { (fixer: RuleFixer) => Fix } The defined function.
*/
function defineFix(token, actualIndent, expectedIndent) {
if (token.type === 'Block' && token.loc.start.line !== token.loc.end.line) {
// Fix indentation in multiline block comments.
const lines = sourceCode.getText(token).match(LINES) || []
const firstLine = lines.shift()
if (lines.every((l) => BLOCK_COMMENT_PREFIX.test(l))) {
return (fixer) => {
/** @type {Range} */
const range = [token.range[0] - actualIndent, token.range[1]]
const indent = options.indentChar.repeat(expectedIndent)
return fixer.replaceTextRange(
range,
`${indent}${firstLine}${lines
.map((l) => l.replace(BLOCK_COMMENT_PREFIX, `${indent} *`))
.join('')}`
)
}
}
}
return (fixer) => {
/** @type {Range} */
const range = [token.range[0] - actualIndent, token.range[0]]
const indent = options.indentChar.repeat(expectedIndent)
return fixer.replaceTextRange(range, indent)
}
}
/**
* Validate the given token with the pre-calculated expected indentation.
* @param {Token} token The token to validate.
* @param {number} expectedIndent The expected indentation.
* @param {[number, number?]} [optionalExpectedIndents] The optional expected indentation.
* @returns {void}
*/
function validateCore(token, expectedIndent, optionalExpectedIndents) {
const line = token.loc.start.line
const indentText = getIndentText(token)
// If there is no line terminator after the `<script>` start tag,
// `indentText` contains non-whitespace characters.
// In that case, do nothing in order to prevent removing the `<script>` tag.
if (indentText.trim() !== '') {
return
}
const actualIndent = token.loc.start.column
const unit = options.indentChar === '\t' ? 'tab' : 'space'
for (let i = 0; i < indentText.length; ++i) {
if (indentText[i] !== options.indentChar) {
context.report({
loc: {
start: { line, column: i },
end: { line, column: i + 1 }
},
message:
'Expected {{expected}} character, but found {{actual}} character.',
data: {
expected: JSON.stringify(options.indentChar),
actual: JSON.stringify(indentText[i])
},
fix: defineFix(token, actualIndent, expectedIndent)
})
return
}
}
if (
actualIndent !== expectedIndent &&
(optionalExpectedIndents == null ||
!optionalExpectedIndents.includes(actualIndent))
) {
context.report({
loc: {
start: { line, column: 0 },
end: { line, column: actualIndent }
},
message:
'Expected indentation of {{expectedIndent}} {{unit}}{{expectedIndentPlural}} but found {{actualIndent}} {{unit}}{{actualIndentPlural}}.',
data: {
expectedIndent,
actualIndent,
unit,
expectedIndentPlural: expectedIndent === 1 ? '' : 's',
actualIndentPlural: actualIndent === 1 ? '' : 's'
},
fix: defineFix(token, actualIndent, expectedIndent)
})
}
}
/**
* Get the expected indent of comments.
* @param {Token} nextToken The next token of comments.
* @param {number} nextExpectedIndent The expected indent of the next token.
* @param {number|undefined} lastExpectedIndent The expected indent of the last token.
* @returns {[number, number?]}
*/
function getCommentExpectedIndents(
nextToken,
nextExpectedIndent,
lastExpectedIndent
) {
if (typeof lastExpectedIndent === 'number' && isClosingToken(nextToken)) {
if (nextExpectedIndent === lastExpectedIndent) {
// For solo comment. E.g.,
// <div>
// <!-- comment -->
// </div>
return [nextExpectedIndent + options.indentSize, nextExpectedIndent]
}
// For last comment. E.g.,
// <div>
// <div></div>
// <!-- comment -->
// </div>
return [lastExpectedIndent, nextExpectedIndent]
}
// Adjust to next normally. E.g.,
// <div>
// <!-- comment -->
// <div></div>
// </div>
return [nextExpectedIndent]
}
/**
* Validate indentation of the line that the given tokens are on.
* @param {Token[]} tokens The tokens on the same line to validate.
* @param {Token[]} comments The comments which are on the immediately previous lines of the tokens.
* @param {Token|null} lastToken The last validated token. Comments can adjust to the token.
* @returns {void}
*/
function validate(tokens, comments, lastToken) {
// Calculate and save expected indentation.
const firstToken = tokens[0]
const actualIndent = firstToken.loc.start.column
const expectedIndents = getExpectedIndents(tokens)
if (!expectedIndents) {
return
}
const expectedBaseIndent = expectedIndents.expectedBaseIndent
const expectedIndent = expectedIndents.expectedIndent
// Debug log
// console.log('line', firstToken.loc.start.line, '=', { actualIndent, expectedIndent }, 'from:')
// for (const token of tokens) {
// const offsetInfo = offsets.get(token)
// if (offsetInfo == null) {
// console.log(' ', JSON.stringify(sourceCode.getText(token)), 'is unknown.')
// } else if (offsetInfo.expectedIndent != null) {
// console.log(' ', JSON.stringify(sourceCode.getText(token)), 'is fixed at', offsetInfo.expectedIndent, '.')
// } else {
// const baseOffsetInfo = offsets.get(offsetInfo.baseToken)
// console.log(' ', JSON.stringify(sourceCode.getText(token)), 'is', offsetInfo.offset, 'offset from ', JSON.stringify(sourceCode.getText(offsetInfo.baseToken)), '( line:', offsetInfo.baseToken && offsetInfo.baseToken.loc.start.line, ', indent:', baseOffsetInfo && baseOffsetInfo.expectedIndent, ', baseline:', baseOffsetInfo && baseOffsetInfo.baseline, ')')
// }
// }
// Save.
const baseline = new Set()
for (const token of tokens) {
const offsetInfo = offsets.get(token)
if (offsetInfo != null) {
if (offsetInfo.baseline) {
// This is a baseline token, so the expected indent is the column of this token.
if (options.indentChar === ' ') {
offsetInfo.expectedIndent = Math.max(
0,
token.loc.start.column + expectedBaseIndent - actualIndent
)
} else {
// In hard-tabs mode, it cannot align tokens strictly, so use one additional offset.
// But the additional offset isn't needed if it's at the beginning of the line.
offsetInfo.expectedIndent =
expectedBaseIndent + (token === tokens[0] ? 0 : 1)
}
baseline.add(token)
} else if (baseline.has(offsetInfo.baseToken)) {
// The base token is a baseline token on this line, so inherit it.
offsetInfo.expectedIndent = /** @type {OffsetData} */ (
offsets.get(offsetInfo.baseToken)
).expectedIndent
baseline.add(token)
} else {
// Otherwise, set the expected indent of this line.
offsetInfo.expectedIndent = expectedBaseIndent
}
}
}
// It does not validate ignore tokens.
if (ignoreTokens.has(firstToken)) {
return
}
// Calculate the expected indents for comments.
// It allows the same indent level with the previous line.
const lastOffsetInfo = offsets.get(lastToken)
const lastExpectedIndent = lastOffsetInfo && lastOffsetInfo.expectedIndent
const commentOptionalExpectedIndents = getCommentExpectedIndents(
firstToken,
expectedIndent,
lastExpectedIndent
)
// Validate.
for (const comment of comments) {
const commentExpectedIndents = getExpectedIndents([comment])
const commentExpectedIndent = commentExpectedIndents
? commentExpectedIndents.expectedIndent
: commentOptionalExpectedIndents[0]
validateCore(
comment,
commentExpectedIndent,
commentOptionalExpectedIndents
)
}
validateCore(firstToken, expectedIndent)
}
// ------------------------------------------------------------------------------
// Main
// ------------------------------------------------------------------------------
/** @type {Set<string>} */
const knownNodes = new Set()
/** @type {TemplateListener} */
const visitor = {
// ----------------------------------------------------------------------
// Vue NODES
// ----------------------------------------------------------------------
/** @param {VAttribute | VDirective} node */
VAttribute(node) {
const keyToken = tokenStore.getFirstToken(node)
const eqToken = tokenStore.getTokenAfter(node.key)
if (eqToken != null && eqToken.range[1] <= node.range[1]) {
setOffset(eqToken, 1, keyToken)
const valueToken = tokenStore.getTokenAfter(eqToken)
if (valueToken != null && valueToken.range[1] <= node.range[1]) {
setOffset(valueToken, 1, keyToken)
}
}
},
/** @param {VElement} node */
VElement(node) {
if (!PREFORMATTED_ELEMENT_NAMES.includes(node.name)) {
const isTopLevel = node.parent.type !== 'VElement'
const offset = isTopLevel ? options.baseIndent : 1
processNodeList(
node.children.filter(isNotEmptyTextNode),
node.startTag,
node.endTag,
offset,
false
)
} else {
const startTagToken = tokenStore.getFirstToken(node)
const endTagToken = node.endTag && tokenStore.getFirstToken(node.endTag)
setOffset(endTagToken, 0, startTagToken)
setPreformattedTokens(node)
}
},
/** @param {VEndTag} node */
VEndTag(node) {
const element = node.parent
const startTagOpenToken = tokenStore.getFirstToken(element.startTag)
const closeToken = tokenStore.getLastToken(node)
if (closeToken.type.endsWith('TagClose')) {
setOffset(closeToken, options.closeBracket.endTag, startTagOpenToken)
}
},
/** @param {VExpressionContainer} node */
VExpressionContainer(node) {
if (
node.expression != null &&
node.range[0] !== node.expression.range[0]
) {
const startQuoteToken = tokenStore.getFirstToken(node)
const endQuoteToken = tokenStore.getLastToken(node)
const childToken = tokenStore.getTokenAfter(startQuoteToken)
setOffset(childToken, 1, startQuoteToken)
setOffset(endQuoteToken, 0, startQuoteToken)
}
},
/** @param {VFilter} node */
VFilter(node) {
const idToken = tokenStore.getFirstToken(node)
const lastToken = tokenStore.getLastToken(node)
if (isClosingParenToken(lastToken)) {
const leftParenToken = tokenStore.getTokenAfter(node.callee)
setOffset(leftParenToken, 1, idToken)
processNodeList(node.arguments, leftParenToken, lastToken, 1)
}
},
/** @param {VFilterSequenceExpression} node */
VFilterSequenceExpression(node) {
if (node.filters.length === 0) {
return
}
const firstToken = tokenStore.getFirstToken(node)
/** @type {(Token|null)[]} */
const tokens = []
for (const filter of node.filters) {
tokens.push(
tokenStore.getTokenBefore(filter, isPipeOperator),
tokenStore.getFirstToken(filter)
)
}
setOffset(tokens, 1, firstToken)
},
/** @param {VForExpression} node */
VForExpression(node) {
const firstToken = tokenStore.getFirstToken(node)
const lastOfLeft = last(node.left) || firstToken
const inToken = /** @type {Token} */ (
tokenStore.getTokenAfter(lastOfLeft, isNotClosingParenToken)
)
const rightToken = tokenStore.getFirstToken(node.right)
if (isOpeningParenToken(firstToken)) {
const rightToken = tokenStore.getTokenAfter(
lastOfLeft,
isClosingParenToken
)
processNodeList(node.left, firstToken, rightToken, 1)
}
setOffset(inToken, 1, firstToken)
setOffset(rightToken, 1, inToken)
},
/** @param {VOnExpression} node */
VOnExpression(node) {
processNodeList(node.body, null, null, 0)
},
/** @param {VStartTag} node */
VStartTag(node) {
const openToken = tokenStore.getFirstToken(node)
const closeToken = tokenStore.getLastToken(node)
processNodeList(
node.attributes,
openToken,
null,
options.attribute,
options.alignAttributesVertically
)
if (closeToken != null && closeToken.type.endsWith('TagClose')) {
const offset =
closeToken.type !== 'HTMLSelfClosingTagClose'
? options.closeBracket.startTag
: options.closeBracket.selfClosingTag
setOffset(closeToken, offset, openToken)
}
},
/** @param {VText} node */
VText(node) {
const tokens = tokenStore.getTokens(node, isNotWhitespace)
const firstTokenInfo = offsets.get(tokenStore.getFirstToken(node))
for (const token of tokens) {
offsets.set(token, Object.assign({}, firstTokenInfo))
}
},
// ----------------------------------------------------------------------
// SINGLE TOKEN NODES
// ----------------------------------------------------------------------
VIdentifier() {},
VLiteral() {},
// ----------------------------------------------------------------------
// WRAPPER NODES
// ----------------------------------------------------------------------
VDirectiveKey() {},
VSlotScopeExpression() {},
// ----------------------------------------------------------------------
// ES NODES
// ----------------------------------------------------------------------
/** @param {ArrayExpression | ArrayPattern} node */
'ArrayExpression, ArrayPattern'(node) {
const firstToken = tokenStore.getFirstToken(node)
const rightToken = tokenStore.getTokenAfter(
node.elements[node.elements.length - 1] || firstToken,
isClosingBracketToken
)
processNodeList(node.elements, firstToken, rightToken, 1)
},
/** @param {ArrowFunctionExpression} node */
ArrowFunctionExpression(node) {
const firstToken = tokenStore.getFirstToken(node)
const secondToken = tokenStore.getTokenAfter(firstToken)
const leftToken = node.async ? secondToken : firstToken
const arrowToken = tokenStore.getTokenBefore(node.body, isArrowToken)
if (node.async) {
setOffset(secondToken, 1, firstToken)
}
if (isOpeningParenToken(leftToken)) {
const rightToken = tokenStore.getTokenAfter(
last(node.params) || leftToken,
isClosingParenToken
)
processNodeList(node.params, leftToken, rightToken, 1)
}
setOffset(arrowToken, 1, firstToken)
processMaybeBlock(node.body, firstToken)
},
/** @param {AssignmentExpression | AssignmentPattern | BinaryExpression | LogicalExpression} node */
'AssignmentExpression, AssignmentPattern, BinaryExpression, LogicalExpression'(
node
) {
const leftToken = getChainHeadToken(node)
const opToken = /** @type {Token} */ (
tokenStore.getTokenAfter(node.left, isNotClosingParenToken)
)
const rightToken = tokenStore.getTokenAfter(opToken)
const prevToken = tokenStore.getTokenBefore(leftToken)
const shouldIndent =
prevToken == null ||
prevToken.loc.end.line === leftToken.loc.start.line ||
isBeginningOfElement(leftToken, node)
setOffset([opToken, rightToken], shouldIndent ? 1 : 0, leftToken)
},
/** @param {AwaitExpression | RestElement | SpreadElement | UnaryExpression} node */
'AwaitExpression, RestElement, SpreadElement, UnaryExpression'(node) {
const firstToken = tokenStore.getFirstToken(node)
const nextToken = tokenStore.getTokenAfter(firstToken)
setOffset(nextToken, 1, firstToken)
},
/** @param {BlockStatement | ClassBody} node */
'BlockStatement, ClassBody'(node) {
processNodeList(
node.body,
tokenStore.getFirstToken(node),
tokenStore.getLastToken(node),
1
)
},
StaticBlock(node) {
const firstToken = tokenStore.getFirstToken(node)
let next = tokenStore.getTokenAfter(firstToken)
while (next && isNotOpeningBraceToken(next)) {
setOffset(next, 0, firstToken)
next = tokenStore.getTokenAfter(next)
}
setOffset(next, 0, firstToken)
processNodeList(node.body, next, tokenStore.getLastToken(node), 1)
},
/** @param {BreakStatement | ContinueStatement | ReturnStatement | ThrowStatement} node */
'BreakStatement, ContinueStatement, ReturnStatement, ThrowStatement'(node) {
if (
((node.type === 'ReturnStatement' || node.type === 'ThrowStatement') &&
node.argument != null) ||
((node.type === 'BreakStatement' ||
node.type === 'ContinueStatement') &&
node.label != null)
) {
const firstToken = tokenStore.getFirstToken(node)
const nextToken = tokenStore.getTokenAfter(firstToken)
setOffset(nextToken, 1, firstToken)
}
},
/** @param {CallExpression} node */
CallExpression(node) {
const firstToken = tokenStore.getFirstToken(node)
const rightToken = tokenStore.getLastToken(node)
const leftToken = /** @type {Token} */ (
tokenStore.getTokenAfter(node.callee, isOpeningParenToken)
)
for (const optionalToken of tokenStore.getTokensBetween(
tokenStore.getLastToken(node.callee),
leftToken,
isOptionalToken
)) {
setOffset(optionalToken, 1, firstToken)
}
setOffset(leftToken, 1, firstToken)
processNodeList(node.arguments, leftToken, rightToken, 1)
},
/** @param {ImportExpression} node */
ImportExpression(node) {
const firstToken = tokenStore.getFirstToken(node)
const rightToken = tokenStore.getLastToken(node)
const leftToken = tokenStore.getTokenAfter(
firstToken,
isOpeningParenToken
)
setOffset(leftToken, 1, firstToken)
processNodeList([node.source], leftToken, rightToken, 1)
},
/** @param {CatchClause} node */
CatchClause(node) {
const firstToken = tokenStore.getFirstToken(node)
const bodyToken = tokenStore.getFirstToken(node.body)
if (node.param != null) {
const leftToken = tokenStore.getTokenAfter(firstToken)
const rightToken = tokenStore.getTokenAfter(node.param)
setOffset(leftToken, 1, firstToken)
processNodeList([node.param], leftToken, rightToken, 1)
}
setOffset(bodyToken, 0, firstToken)
},
/** @param {ClassDeclaration | ClassExpression} node */
'ClassDeclaration, ClassExpression'(node) {
const firstToken = tokenStore.getFirstToken(node)
const bodyToken = tokenStore.getFirstToken(node.body)
if (node.id != null) {
setOffset(tokenStore.getFirstToken(node.id), 1, firstToken)
}
if (node.superClass != null) {
const extendsToken = /** @type {Token} */ (
tokenStore.getTokenBefore(node.superClass, isExtendsKeyword)
)
const superClassToken = tokenStore.getTokenAfter(extendsToken)
setOffset(extendsToken, 1, firstToken)
setOffset(superClassToken, 1, extendsToken)
}
setOffset(bodyToken, 0, firstToken)
},
/** @param {ConditionalExpression} node */
ConditionalExpression(node) {
const prevToken = tokenStore.getTokenBefore(node)
const firstToken = tokenStore.getFirstToken(node)
const questionToken = /** @type {Token} */ (
tokenStore.getTokenAfter(node.test, isNotClosingParenToken)
)
const consequentToken = tokenStore.getTokenAfter(questionToken)
const colonToken = /** @type {Token} */ (
tokenStore.getTokenAfter(node.consequent, isNotClosingParenToken)
)
const alternateToken = tokenStore.getTokenAfter(colonToken)
const isFlat =
prevToken &&
prevToken.loc.end.line !== node.loc.start.line &&
node.test.loc.end.line === node.consequent.loc.start.line
if (isFlat) {
setOffset(
[questionToken, consequentToken, colonToken, alternateToken],
0,
firstToken
)
} else {
setOffset([questionToken, colonToken], 1, firstToken)
setOffset([consequentToken, alternateToken], 1, questionToken)
}
},
/** @param {DoWhileStatement} node */
DoWhileStatement(node) {
const doToken = tokenStore.getFirstToken(node)
const whileToken = /** @type {Token} */ (
tokenStore.getTokenAfter(node.body, isNotClosingParenToken)
)
const leftToken = tokenStore.getTokenAfter(whileToken)
const testToken = tokenStore.getTokenAfter(leftToken)
const lastToken = tokenStore.getLastToken(node)
const rightToken = isSemicolonToken(lastToken)
? tokenStore.getTokenBefore(lastToken)
: lastToken
processMaybeBlock(node.body, doToken)
setOffset(whileToken, 0, doToken)
setOffset(leftToken, 1, whileToken)
setOffset(testToken, 1, leftToken)
setOffset(rightToken, 0, leftToken)
},
/** @param {ExportAllDeclaration} node */
ExportAllDeclaration(node) {
const exportToken = tokenStore.getFirstToken(node)
const tokens = [
...tokenStore.getTokensBetween(exportToken, node.source),
tokenStore.getFirstToken(node.source)
]
if (!node.exported) {
setOffset(tokens, 1, exportToken)
} else {
// export * as foo from "mod"
const starToken = /** @type {Token} */ (tokens.find(isWildcard))
const asToken = tokenStore.getTokenAfter(starToken)
const exportedToken = tokenStore.getTokenAfter(asToken)
const afterTokens = tokens.slice(tokens.indexOf(exportedToken) + 1)
setOffset(starToken, 1, exportToken)
setOffset(asToken, 1, starToken)
setOffset(exportedToken, 1, starToken)
setOffset(afterTokens, 1, exportToken)
}
// assertions
const lastToken = /** @type {Token} */ (
tokenStore.getLastToken(node, isNotSemicolonToken)
)
const assertionTokens = tokenStore.getTokensBetween(
node.source,
lastToken
)
if (assertionTokens.length) {
const assertToken = /** @type {Token} */ (assertionTokens.shift())
setOffset(assertToken, 0, exportToken)
const assertionOpen = assertionTokens.shift()
if (assertionOpen) {
setOffset(assertionOpen, 1, assertToken)
processNodeList(assertionTokens, assertionOpen, lastToken, 1)
}
}
},
/** @param {ExportDefaultDeclaration} node */
ExportDefaultDeclaration(node) {
const exportToken = tokenStore.getFirstToken(node)
const defaultToken = tokenStore.getFirstToken(node, 1)
const declarationToken = getFirstAndLastTokens(
node.declaration
).firstToken
setOffset([defaultToken, declarationToken], 1, exportToken)
},
/** @param {ExportNamedDeclaration} node */
ExportNamedDeclaration(node) {
const exportToken = tokenStore.getFirstToken(node)
if (node.declaration) {
// export var foo = 1;
const declarationToken = tokenStore.getFirstToken(node, 1)
setOffset(declarationToken, 1, exportToken)
} else {
const firstSpecifier = node.specifiers[0]
if (!firstSpecifier || firstSpecifier.type === 'ExportSpecifier') {
// export {foo, bar}; or export {foo, bar} from "mod";
const leftBraceTokens = firstSpecifier
? tokenStore.getTokensBetween(exportToken, firstSpecifier)
: [tokenStore.getTokenAfter(exportToken)]
const rightBraceToken = /** @type {Token} */ (
node.source
? tokenStore.getTokenBefore(node.source, isClosingBraceToken)
: tokenStore.getLastToken(node, isClosingBraceToken)
)
setOffset(leftBraceTokens, 0, exportToken)
processNodeList(
node.specifiers,
/** @type {Token} */ (last(leftBraceTokens)),
rightBraceToken,
1
)
if (node.source) {
const tokens = tokenStore.getTokensBetween(
rightBraceToken,
node.source
)
setOffset(
[...tokens, sourceCode.getFirstToken(node.source)],
1,
exportToken
)
// assertions
const lastToken = /** @type {Token} */ (
tokenStore.getLastToken(node, isNotSemicolonToken)
)
const assertionTokens = tokenStore.getTokensBetween(
node.source,
lastToken
)
if (assertionTokens.length) {
const assertToken = /** @type {Token} */ (assertionTokens.shift())
setOffset(assertToken, 0, exportToken)
const assertionOpen = assertionTokens.shift()
if (assertionOpen) {
setOffset(assertionOpen, 1, assertToken)
processNodeList(assertionTokens, assertionOpen, lastToken, 1)
}
}
}
} else {
// maybe babel parser
}
}
},
/** @param {ExportSpecifier | ImportSpecifier} node */
'ExportSpecifier, ImportSpecifier'(node) {
const tokens = tokenStore.getTokens(node)
let firstToken = /** @type {Token} */ (tokens.shift())
if (firstToken.value === 'type') {
const typeToken = firstToken
firstToken = /** @type {Token} */ (tokens.shift())
setOffset(firstToken, 0, typeToken)
}
setOffset(tokens, 1, firstToken)
},
/** @param {ForInStatement | ForOfStatement} node */
'ForInStatement, ForOfStatement'(node) {
const forToken = tokenStore.getFirstToken(node)
const awaitToken =
(node.type === 'ForOfStatement' &&
node.await &&
tokenStore.getTokenAfter(forToken)) ||
null
const leftParenToken = tokenStore.getTokenAfter(awaitToken || forToken)
const leftToken = tokenStore.getTokenAfter(leftParenToken)
const inToken = /** @type {Token} */ (
tokenStore.getTokenAfter(leftToken, isNotClosingParenToken)
)
const rightToken = tokenStore.getTokenAfter(inToken)
const rightParenToken = tokenStore.getTokenBefore(
node.body,
isNotOpeningParenToken
)
if (awaitToken != null) {
setOffset(awaitToken, 0, forToken)
}
setOffset(leftParenToken, 1, forToken)
setOffset(leftToken, 1, leftParenToken)
setOffset(inToken, 1, leftToken)
setOffset(rightToken, 1, leftToken)
setOffset(rightParenToken, 0, leftParenToken)
processMaybeBlock(node.body, forToken)
},
/** @param {ForStatement} node */
ForStatement(node) {
const forToken = tokenStore.getFirstToken(node)
const leftParenToken = tokenStore.getTokenAfter(forToken)
const rightParenToken = tokenStore.getTokenBefore(
node.body,
isNotOpeningParenToken
)
setOffset(leftParenToken, 1, forToken)
processNodeList(
[node.init, node.test, node.update],
leftParenToken,
rightParenToken,
1
)
processMaybeBlock(node.body, forToken)
},
/** @param {FunctionDeclaration | FunctionExpression} node */
'FunctionDeclaration, FunctionExpression'(node) {
const firstToken = tokenStore.getFirstToken(node)
let leftParenToken, bodyBaseToken
if (isOpeningParenToken(firstToken)) {
// Methods.
leftParenToken = firstToken
bodyBaseToken = tokenStore.getFirstToken(node.parent)
} else {
// Normal functions.
let nextToken = tokenStore.getTokenAfter(firstToken)
let nextTokenOffset = 0
while (
nextToken &&
!isOpeningParenToken(nextToken) &&
nextToken.value !== '<'
) {
if (
nextToken.value === '*' ||
(node.id && nextToken.range[0] === node.id.range[0])
) {
nextTokenOffset = 1
}
setOffset(nextToken, nextTokenOffset, firstToken)
nextToken = tokenStore.getTokenAfter(nextToken)
}
leftParenToken = nextToken
bodyBaseToken = firstToken
}
if (
!isOpeningParenToken(leftParenToken) &&
/** @type {any} */ (node).typeParameters
) {
leftParenToken = tokenStore.getTokenAfter(
/** @type {any} */ (node).typeParameters
)
}
const rightParenToken = tokenStore.getTokenAfter(
node.params[node.params.length - 1] || leftParenToken,
isClosingParenToken
)
setOffset(leftParenToken, 1, bodyBaseToken)
processNodeList(node.params, leftParenToken, rightParenToken, 1)
const bodyToken = tokenStore.getFirstToken(node.body)
setOffset(bodyToken, 0, bodyBaseToken)
},
/** @param {IfStatement} node */
IfStatement(node) {
const ifToken = tokenStore.getFirstToken(node)
const ifLeftParenToken = tokenStore.getTokenAfter(ifToken)
const ifRightParenToken = tokenStore.getTokenBefore(
node.consequent,
isClosingParenToken
)
setOffset(ifLeftParenToken, 1, ifToken)
setOffset(ifRightParenToken, 0, ifLeftParenToken)
processMaybeBlock(node.consequent, ifToken)
if (node.alternate != null) {
const elseToken = /** @type {Token} */ (
tokenStore.getTokenAfter(node.consequent, isNotClosingParenToken)
)
setOffset(elseToken, 0, ifToken)
processMaybeBlock(node.alternate, elseToken)
}
},
/** @param {ImportDeclaration} node */
ImportDeclaration(node) {
const importToken = tokenStore.getFirstToken(node)
const tokens = tokenStore.getTokensBetween(importToken, node.source)
const fromIndex = tokens.map((t) => t.value).lastIndexOf('from')
const { fromToken, beforeTokens, afterTokens } =
fromIndex >= 0
? {
fromToken: tokens[fromIndex],
beforeTokens: tokens.slice(0, fromIndex),
afterTokens: [
...tokens.slice(fromIndex + 1),
tokenStore.getFirstToken(node.source)
]
}
: {
fromToken: null,
beforeTokens: [...tokens, tokenStore.getFirstToken(node.source)],
afterTokens: []
}
/** @type {ImportSpecifier[]} */
const namedSpecifiers = []
for (const specifier of node.specifiers) {
if (specifier.type === 'ImportSpecifier') {
namedSpecifiers.push(specifier)
} else {
const removeTokens = tokenStore.getTokens(specifier)
removeTokens.shift()
for (const token of removeTokens) {
const i = beforeTokens.indexOf(token)
if (i >= 0) {
beforeTokens.splice(i, 1)
}
}
}
}
if (namedSpecifiers.length) {
const leftBrace = tokenStore.getTokenBefore(namedSpecifiers[0])
const rightBrace = /** @type {Token} */ (
tokenStore.getTokenAfter(
namedSpecifiers[namedSpecifiers.length - 1],
isClosingBraceToken
)
)
processNodeList(namedSpecifiers, leftBrace, rightBrace, 1)
for (const token of [
...tokenStore.getTokensBetween(leftBrace, rightBrace),
rightBrace
]) {
const i = beforeTokens.indexOf(token)
if (i >= 0) {
beforeTokens.splice(i, 1)
}
}
}
if (
beforeTokens.every(
(t) => isOpeningBraceToken(t) || isClosingBraceToken(t)
)
) {
setOffset(beforeTokens, 0, importToken)
} else {
setOffset(beforeTokens, 1, importToken)
}
if (fromToken) {
setOffset(fromToken, 1, importToken)
setOffset(afterTokens, 0, fromToken)
}
// assertions
const lastToken = /** @type {Token} */ (
tokenStore.getLastToken(node, isNotSemicolonToken)
)
const assertionTokens = tokenStore.getTokensBetween(
node.source,
lastToken
)
if (assertionTokens.length) {
const assertToken = /** @type {Token} */ (assertionTokens.shift())
setOffset(assertToken, 0, importToken)
const assertionOpen = assertionTokens.shift()
if (assertionOpen) {
setOffset(assertionOpen, 1, assertToken)
processNodeList(assertionTokens, assertionOpen, lastToken, 1)
}
}
},
/** @param {ImportNamespaceSpecifier} node */
ImportNamespaceSpecifier(node) {
const tokens = tokenStore.getTokens(node)
const firstToken = /** @type {Token} */ (tokens.shift())
setOffset(tokens, 1, firstToken)
},
/** @param {LabeledStatement} node */
LabeledStatement(node) {
const labelToken = tokenStore.getFirstToken(node)
const colonToken = tokenStore.getTokenAfter(labelToken)
const bodyToken = tokenStore.getTokenAfter(colonToken)
setOffset([colonToken, bodyToken], 1, labelToken)
},
/** @param {MemberExpression | MetaProperty} node */
'MemberExpression, MetaProperty'(node) {
const objectToken = tokenStore.getFirstToken(node)
if (node.type === 'MemberExpression' && node.computed) {
const leftBracketToken = /** @type {Token} */ (
tokenStore.getTokenBefore(node.property, isOpeningBracketToken)
)
const propertyToken = tokenStore.getTokenAfter(leftBracketToken)
const rightBracketToken = tokenStore.getTokenAfter(
node.property,
isClosingBracketToken
)
for (const optionalToken of tokenStore.getTokensBetween(
tokenStore.getLastToken(node.object),
leftBracketToken,
isOptionalToken
)) {
setOffset(optionalToken, 1, objectToken)
}
setOffset(leftBracketToken, 1, objectToken)
setOffset(propertyToken, 1, leftBracketToken)
setOffset(rightBracketToken, 0, leftBracketToken)
} else {
const dotToken = tokenStore.getTokenBefore(node.property)
const propertyToken = tokenStore.getTokenAfter(dotToken)
setOffset([dotToken, propertyToken], 1, objectToken)
}
},
/** @param {MethodDefinition | Property | PropertyDefinition} node */
'MethodDefinition, Property, PropertyDefinition'(node) {
const firstToken = tokenStore.getFirstToken(node)
const keyTokens = getFirstAndLastTokens(node.key)
const prefixTokens = tokenStore.getTokensBetween(
firstToken,
keyTokens.firstToken
)
if (node.computed) {
prefixTokens.pop() // pop [
}
setOffset(prefixTokens, 0, firstToken)
let lastKeyToken
if (node.computed) {
const leftBracketToken = tokenStore.getTokenBefore(keyTokens.firstToken)
const rightBracketToken = (lastKeyToken = tokenStore.getTokenAfter(
keyTokens.lastToken
))
setOffset(leftBracketToken, 0, firstToken)
processNodeList([node.key], leftBracketToken, rightBracketToken, 1)
} else {
setOffset(keyTokens.firstToken, 0, firstToken)
lastKeyToken = keyTokens.lastToken
}
if (node.value != null) {
const initToken = tokenStore.getFirstToken(node.value)
setOffset(
[...tokenStore.getTokensBetween(lastKeyToken, initToken), initToken],
1,
lastKeyToken
)
}
},
/** @param {NewExpression} node */
NewExpression(node) {
const newToken = tokenStore.getFirstToken(node)
const calleeToken = tokenStore.getTokenAfter(newToken)
const rightToken = tokenStore.getLastToken(node)
const leftToken = isClosingParenToken(rightToken)
? tokenStore.getFirstTokenBetween(
node.callee,
rightToken,
isOpeningParenToken
)
: null
setOffset(calleeToken, 1, newToken)
if (leftToken != null) {
setOffset(leftToken, 1, calleeToken)
processNodeList(node.arguments, leftToken, rightToken, 1)
}
},
/** @param {ObjectExpression | ObjectPattern} node */
'ObjectExpression, ObjectPattern'(node) {
const firstToken = tokenStore.getFirstToken(node)
const rightToken = tokenStore.getTokenAfter(
node.properties[node.properties.length - 1] || firstToken,
isClosingBraceToken
)
processNodeList(node.properties, firstToken, rightToken, 1)
},
/** @param {SequenceExpression} node */
SequenceExpression(node) {
processNodeList(node.expressions, null, null, 0)
},
/** @param {SwitchCase} node */
SwitchCase(node) {
const caseToken = tokenStore.getFirstToken(node)
if (node.test != null) {
const testToken = tokenStore.getTokenAfter(caseToken)
const colonToken = tokenStore.getTokenAfter(
node.test,
isNotClosingParenToken
)
setOffset([testToken, colonToken], 1, caseToken)
} else {
const colonToken = tokenStore.getTokenAfter(caseToken)
setOffset(colonToken, 1, caseToken)
}
if (
node.consequent.length === 1 &&
node.consequent[0].type === 'BlockStatement'
) {
setOffset(tokenStore.getFirstToken(node.consequent[0]), 0, caseToken)
} else if (node.consequent.length >= 1) {
setOffset(tokenStore.getFirstToken(node.consequent[0]), 1, caseToken)
processNodeList(node.consequent, null, null, 0)
}
},
/** @param {SwitchStatement} node */
SwitchStatement(node) {
const switchToken = tokenStore.getFirstToken(node)
const leftParenToken = tokenStore.getTokenAfter(switchToken)
const discriminantToken = tokenStore.getTokenAfter(leftParenToken)
const leftBraceToken = /** @type {Token} */ (
tokenStore.getTokenAfter(node.discriminant, isOpeningBraceToken)
)
const rightParenToken = tokenStore.getTokenBefore(leftBraceToken)
const rightBraceToken = tokenStore.getLastToken(node)
setOffset(leftParenToken, 1, switchToken)
setOffset(discriminantToken, 1, leftParenToken)
setOffset(rightParenToken, 0, leftParenToken)
setOffset(leftBraceToken, 0, switchToken)
processNodeList(
node.cases,
leftBraceToken,
rightBraceToken,
options.switchCase
)
},
/** @param {TaggedTemplateExpression} node */
TaggedTemplateExpression(node) {
const tagTokens = getFirstAndLastTokens(node.tag, node.range[0])
const quasiToken = tokenStore.getTokenAfter(tagTokens.lastToken)
setOffset(quasiToken, 1, tagTokens.firstToken)
},
/** @param {TemplateLiteral} node */
TemplateLiteral(node) {
const firstToken = tokenStore.getFirstToken(node)
const quasiTokens = node.quasis
.slice(1)
.map((n) => tokenStore.getFirstToken(n))
const expressionToken = node.quasis
.slice(0, -1)
.map((n) => tokenStore.getTokenAfter(n))
setOffset(quasiTokens, 0, firstToken)
setOffset(expressionToken, 1, firstToken)
},
/** @param {TryStatement} node */
TryStatement(node) {
const tryToken = tokenStore.getFirstToken(node)
const tryBlockToken = tokenStore.getFirstToken(node.block)
setOffset(tryBlockToken, 0, tryToken)
if (node.handler != null) {
const catchToken = tokenStore.getFirstToken(node.handler)
setOffset(catchToken, 0, tryToken)
}
if (node.finalizer != null) {
const finallyToken = tokenStore.getTokenBefore(node.finalizer)
const finallyBlockToken = tokenStore.getFirstToken(node.finalizer)
setOffset([finallyToken, finallyBlockToken], 0, tryToken)
}
},
/** @param {UpdateExpression} node */
UpdateExpression(node) {
const firstToken = tokenStore.getFirstToken(node)
const nextToken = tokenStore.getTokenAfter(firstToken)
setOffset(nextToken, 1, firstToken)
},
/** @param {VariableDeclaration} node */
VariableDeclaration(node) {
processNodeList(
node.declarations,
tokenStore.getFirstToken(node),
null,
1
)
},
/** @param {VariableDeclarator} node */
VariableDeclarator(node) {
if (node.init != null) {
const idToken = tokenStore.getFirstToken(node)
const eqToken = tokenStore.getTokenAfter(node.id)
const initToken = tokenStore.getTokenAfter(eqToken)
setOffset([eqToken, initToken], 1, idToken)
}
},
/** @param {WhileStatement | WithStatement} node */
'WhileStatement, WithStatement'(node) {
const firstToken = tokenStore.getFirstToken(node)
const leftParenToken = tokenStore.getTokenAfter(firstToken)
const rightParenToken = tokenStore.getTokenBefore(
node.body,
isClosingParenToken
)
setOffset(leftParenToken, 1, firstToken)
setOffset(rightParenToken, 0, leftParenToken)
processMaybeBlock(node.body, firstToken)
},
/** @param {YieldExpression} node */
YieldExpression(node) {
if (node.argument != null) {
const yieldToken = tokenStore.getFirstToken(node)
setOffset(tokenStore.getTokenAfter(yieldToken), 1, yieldToken)
if (node.delegate) {
setOffset(tokenStore.getTokenAfter(yieldToken, 1), 1, yieldToken)
}
}
},
// ----------------------------------------------------------------------
// SINGLE TOKEN NODES
// ----------------------------------------------------------------------
DebuggerStatement() {},
Identifier() {},
ImportDefaultSpecifier() {},
Literal() {},
PrivateIdentifier() {},
Super() {},
TemplateElement() {},
ThisExpression() {},
// ----------------------------------------------------------------------
// WRAPPER NODES
// ----------------------------------------------------------------------
ExpressionStatement() {},
ChainExpression() {},
EmptyStatement() {},
// ----------------------------------------------------------------------
// COMMONS
// ----------------------------------------------------------------------
/** @param {Statement} node */
// Process semicolons.
':statement, PropertyDefinition'(node) {
processSemicolons(node)
},
/** @param {Expression | MetaProperty | TemplateLiteral} node */
// Process parentheses.
// `:expression` does not match with MetaProperty and TemplateLiteral as a bug: https://github.com/estools/esquery/pull/59
':expression'(node) {
let leftToken = tokenStore.getTokenBefore(node)
let rightToken = tokenStore.getTokenAfter(node)
let firstToken = tokenStore.getFirstToken(node)
while (
leftToken &&
rightToken &&
isOpeningParenToken(leftToken) &&
isClosingParenToken(rightToken)
) {
setOffset(firstToken, 1, leftToken)
setOffset(rightToken, 0, leftToken)
firstToken = leftToken
leftToken = tokenStore.getTokenBefore(leftToken)
rightToken = tokenStore.getTokenAfter(rightToken)
}
},
.../** @type {TemplateListener} */ (
tsDefineVisitor({
processNodeList,
tokenStore,
setOffset,
copyOffset,
processSemicolons,
getFirstAndLastTokens
})
),
/** @param {ASTNode} node */
// Ignore tokens of unknown nodes.
'*:exit'(node) {
if (!knownNodes.has(node.type)) {
ignore(node)
}
},
/** @param {Program} node */
// Top-level process.
Program(node) {
const firstToken = node.tokens[0]
const isScriptTag =
firstToken != null &&
firstToken.type === 'Punctuator' &&
firstToken.value === '<script>'
const baseIndent = isScriptTag
? options.indentSize * options.baseIndent
: 0
for (const statement of node.body) {
processTopLevelNode(statement, baseIndent)
}
},
/** @param {VElement} node */
"VElement[parent.type!='VElement']"(node) {
processTopLevelNode(node, 0)
},
/** @param {Program | VElement} node */
// Do validation.
":matches(Program, VElement[parent.type!='VElement']):exit"(node) {
let comments = []
/** @type {Token[]} */
let tokensOnSameLine = []
let isBesideMultilineToken = false
let lastValidatedToken = null
// Validate indentation of tokens.
for (const token of tokenStore.getTokens(node, ITERATION_OPTS)) {
const tokenStartLine = token.loc.start.line
if (
tokensOnSameLine.length === 0 ||
tokensOnSameLine[0].loc.start.line === tokenStartLine
) {
// This is on the same line (or the first token).
tokensOnSameLine.push(token)
} else if (tokensOnSameLine.every(isComment)) {
// New line is detected, but the all tokens of the previous line are comment.
// Comment lines are adjusted to the next code line.
comments.push(tokensOnSameLine[0])
isBesideMultilineToken =
/** @type {Token} */ (last(tokensOnSameLine)).loc.end.line ===
tokenStartLine
tokensOnSameLine = [token]
} else {
// New line is detected, so validate the tokens.
if (!isBesideMultilineToken) {
validate(tokensOnSameLine, comments, lastValidatedToken)
lastValidatedToken = tokensOnSameLine[0]
}
isBesideMultilineToken =
/** @type {Token} */ (last(tokensOnSameLine)).loc.end.line ===
tokenStartLine
tokensOnSameLine = [token]
comments = []
}
}
if (tokensOnSameLine.length >= 1 && tokensOnSameLine.some(isNotComment)) {
validate(tokensOnSameLine, comments, lastValidatedToken)
}
}
}
for (const key of Object.keys(visitor)) {
for (const nodeName of key
.split(/\s*,\s*/gu)
.map((s) => s.trim())
.filter((s) => /[a-z]+/i.test(s))) {
knownNodes.add(nodeName)
}
}
return processIgnores(visitor)
}