'use strict'; const getDeclarationValue = require('../../utils/getDeclarationValue'); const report = require('../../utils/report'); const ruleMessages = require('../../utils/ruleMessages'); const setDeclarationValue = require('../../utils/setDeclarationValue'); const validateOptions = require('../../utils/validateOptions'); const valueParser = require('postcss-value-parser'); const { isNumber } = require('../../utils/validateTypes'); const ruleName = 'function-max-empty-lines'; const messages = ruleMessages(ruleName, { expected: (max) => `Expected no more than ${max} empty ${max === 1 ? 'line' : 'lines'}`, }); const meta = { url: 'https://stylelint.io/user-guide/rules/list/function-max-empty-lines', }; /** * @param {import('postcss').Declaration} decl */ function placeIndexOnValueStart(decl) { if (decl.raws.between == null) throw new Error('`between` must be present'); return decl.prop.length + decl.raws.between.length - 1; } /** @type {import('stylelint').Rule} */ const rule = (primary, _secondaryOptions, context) => { const maxAdjacentNewlines = primary + 1; return (root, result) => { const validOptions = validateOptions(result, ruleName, { actual: primary, possible: isNumber, }); if (!validOptions) { return; } const violatedCRLFNewLinesRegex = new RegExp(`(?:\r\n){${maxAdjacentNewlines + 1},}`); const violatedLFNewLinesRegex = new RegExp(`\n{${maxAdjacentNewlines + 1},}`); const allowedLFNewLinesString = context.fix ? '\n'.repeat(maxAdjacentNewlines) : ''; const allowedCRLFNewLinesString = context.fix ? '\r\n'.repeat(maxAdjacentNewlines) : ''; root.walkDecls((decl) => { if (!decl.value.includes('(')) { return; } const stringValue = getDeclarationValue(decl); /** @type {Array<[string, string]>} */ const splittedValue = []; let sourceIndexStart = 0; valueParser(stringValue).walk((node) => { if ( node.type !== 'function' /* ignore non functions */ || node.value.length === 0 /* ignore sass lists */ ) { return; } const stringifiedNode = valueParser.stringify(node); if ( !violatedLFNewLinesRegex.test(stringifiedNode) && !violatedCRLFNewLinesRegex.test(stringifiedNode) ) { return; } if (context.fix) { const newNodeString = stringifiedNode .replace(new RegExp(violatedLFNewLinesRegex, 'gm'), allowedLFNewLinesString) .replace(new RegExp(violatedCRLFNewLinesRegex, 'gm'), allowedCRLFNewLinesString); splittedValue.push([ stringValue.slice(sourceIndexStart, node.sourceIndex), newNodeString, ]); sourceIndexStart = node.sourceIndex + stringifiedNode.length; } else { report({ message: messages.expected(primary), node: decl, index: placeIndexOnValueStart(decl) + node.sourceIndex, result, ruleName, }); } }); if (context.fix && splittedValue.length > 0) { const updatedValue = splittedValue.reduce((acc, curr) => acc + curr[0] + curr[1], '') + stringValue.slice(sourceIndexStart); setDeclarationValue(decl, updatedValue); } }); }; }; rule.ruleName = ruleName; rule.messages = messages; rule.meta = meta; module.exports = rule;