const { Rule, AtRule } = require('postcss') let parser = require('postcss-selector-parser') /** * Run a selector string through postcss-selector-parser */ function parse(rawSelector, rule) { let nodes try { parser(parsed => { nodes = parsed }).processSync(rawSelector) } catch (e) { if (rawSelector.includes(':')) { throw rule ? rule.error('Missed semicolon') : e } else { throw rule ? rule.error(e.message) : e } } return nodes.at(0) } /** * Replaces the "&" token in a node's selector with the parent selector * similar to what SCSS does. * * Mutates the nodes list */ function interpolateAmpInSelector(nodes, parent) { let replaced = false nodes.each(node => { if (node.type === 'nesting') { let clonedParent = parent.clone({}) if (node.value !== '&') { node.replaceWith( parse(node.value.replace('&', clonedParent.toString())) ) } else { node.replaceWith(clonedParent) } replaced = true } else if ('nodes' in node && node.nodes) { if (interpolateAmpInSelector(node, parent)) { replaced = true } } }) return replaced } /** * Combines parent and child selectors, in a SCSS-like way */ function mergeSelectors(parent, child) { let merged = [] parent.selectors.forEach(sel => { let parentNode = parse(sel, parent) child.selectors.forEach(selector => { if (!selector) { return } let node = parse(selector, child) let replaced = interpolateAmpInSelector(node, parentNode) if (!replaced) { node.prepend(parser.combinator({ value: ' ' })) node.prepend(parentNode.clone({})) } merged.push(node.toString()) }) }) return merged } /** * Move a child and its preceeding comment(s) to after "after" */ function breakOut(child, after) { let prev = child.prev() after.after(child) while (prev && prev.type === 'comment') { let nextPrev = prev.prev() after.after(prev) prev = nextPrev } return child } function createFnAtruleChilds(bubble) { return function atruleChilds(rule, atrule, bubbling, mergeSels = bubbling) { let children = [] atrule.each(child => { if (child.type === 'rule' && bubbling) { if (mergeSels) { child.selectors = mergeSelectors(rule, child) } } else if (child.type === 'atrule' && child.nodes) { if (bubble[child.name]) { atruleChilds(rule, child, mergeSels) } else if (atrule[rootRuleMergeSel] !== false) { children.push(child) } } else { children.push(child) } }) if (bubbling) { if (children.length) { let clone = rule.clone({ nodes: [] }) for (let child of children) { clone.append(child) } atrule.prepend(clone) } } } } function pickDeclarations(selector, declarations, after) { let parent = new Rule({ selector, nodes: [] }) parent.append(declarations) after.after(parent) return parent } function atruleNames(defaults, custom) { let list = {} for (let name of defaults) { list[name] = true } if (custom) { for (let name of custom) { list[name.replace(/^@/, '')] = true } } return list } function parseRootRuleParams(params) { params = params.trim() let braceBlock = params.match(/^\((.*)\)$/) if (!braceBlock) { return { type: 'basic', selector: params } } let bits = braceBlock[1].match(/^(with(?:out)?):(.+)$/) if (bits) { let allowlist = bits[1] === 'with' let rules = Object.fromEntries( bits[2] .trim() .split(/\s+/) .map(name => [name, true]) ) if (allowlist && rules.all) { return { type: 'noop' } } let escapes = rule => !!rules[rule] if (rules.all) { escapes = () => true } else if (allowlist) { escapes = rule => (rule === 'all' ? false : !rules[rule]) } return { type: 'withrules', escapes } } // Unrecognized brace block return { type: 'unknown' } } function getAncestorRules(leaf) { let lineage = [] let parent = leaf.parent while (parent && parent instanceof AtRule) { lineage.push(parent) parent = parent.parent } return lineage } function unwrapRootRule(rule) { let escapes = rule[rootRuleEscapes] if (!escapes) { rule.after(rule.nodes) } else { let nodes = rule.nodes let topEscaped let topEscapedIdx = -1 let breakoutLeaf let breakoutRoot let clone let lineage = getAncestorRules(rule) lineage.forEach((parent, i) => { if (escapes(parent.name)) { topEscaped = parent topEscapedIdx = i breakoutRoot = clone } else { let oldClone = clone clone = parent.clone({ nodes: [] }) oldClone && clone.append(oldClone) breakoutLeaf = breakoutLeaf || clone } }) if (!topEscaped) { rule.after(nodes) } else if (!breakoutRoot) { topEscaped.after(nodes) } else { let leaf = breakoutLeaf leaf.append(nodes) topEscaped.after(breakoutRoot) } if (rule.next() && topEscaped) { let restRoot lineage.slice(0, topEscapedIdx + 1).forEach((parent, i, arr) => { let oldRoot = restRoot restRoot = parent.clone({ nodes: [] }) oldRoot && restRoot.append(oldRoot) let nextSibs = [] let _child = arr[i - 1] || rule let next = _child.next() while (next) { nextSibs.push(next) next = next.next() } restRoot.append(nextSibs) }) restRoot && (breakoutRoot || nodes[nodes.length - 1]).after(restRoot) } } rule.remove() } const rootRuleMergeSel = Symbol('rootRuleMergeSel') const rootRuleEscapes = Symbol('rootRuleEscapes') function normalizeRootRule(rule) { let { params } = rule let { type, selector, escapes } = parseRootRuleParams(params) if (type === 'unknown') { throw rule.error( `Unknown @${rule.name} parameter ${JSON.stringify(params)}` ) } if (type === 'basic' && selector) { let selectorBlock = new Rule({ selector, nodes: rule.nodes }) rule.removeAll() rule.append(selectorBlock) } rule[rootRuleEscapes] = escapes rule[rootRuleMergeSel] = escapes ? !escapes('all') : type === 'noop' } const hasRootRule = Symbol('hasRootRule') module.exports = (opts = {}) => { let bubble = atruleNames( ['media', 'supports', 'layer', 'container'], opts.bubble ) let atruleChilds = createFnAtruleChilds(bubble) let unwrap = atruleNames( [ 'document', 'font-face', 'keyframes', '-webkit-keyframes', '-moz-keyframes' ], opts.unwrap ) let rootRuleName = (opts.rootRuleName || 'at-root').replace(/^@/, '') let preserveEmpty = opts.preserveEmpty return { postcssPlugin: 'postcss-nested', Once(root) { root.walkAtRules(rootRuleName, node => { normalizeRootRule(node) root[hasRootRule] = true }) }, Rule(rule) { let unwrapped = false let after = rule let copyDeclarations = false let declarations = [] rule.each(child => { if (child.type === 'rule') { if (declarations.length) { after = pickDeclarations(rule.selector, declarations, after) declarations = [] } copyDeclarations = true unwrapped = true child.selectors = mergeSelectors(rule, child) after = breakOut(child, after) } else if (child.type === 'atrule') { if (declarations.length) { after = pickDeclarations(rule.selector, declarations, after) declarations = [] } if (child.name === rootRuleName) { unwrapped = true atruleChilds(rule, child, true, child[rootRuleMergeSel]) after = breakOut(child, after) } else if (bubble[child.name]) { copyDeclarations = true unwrapped = true atruleChilds(rule, child, true) after = breakOut(child, after) } else if (unwrap[child.name]) { copyDeclarations = true unwrapped = true atruleChilds(rule, child, false) after = breakOut(child, after) } else if (copyDeclarations) { declarations.push(child) } } else if (child.type === 'decl' && copyDeclarations) { declarations.push(child) } }) if (declarations.length) { after = pickDeclarations(rule.selector, declarations, after) } if (unwrapped && preserveEmpty !== true) { rule.raws.semicolon = true if (rule.nodes.length === 0) rule.remove() } }, RootExit(root) { if (root[hasRootRule]) { root.walkAtRules(rootRuleName, unwrapRootRule) root[hasRootRule] = false } } } } module.exports.postcss = true