"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); function _export(target, all) { for(var name in all)Object.defineProperty(target, name, { enumerable: true, get: all[name] }); } _export(exports, { isValidVariantFormatString: ()=>isValidVariantFormatString, parseVariant: ()=>parseVariant, getFileModifiedMap: ()=>getFileModifiedMap, createContext: ()=>createContext, getContext: ()=>getContext }); const _fs = /*#__PURE__*/ _interopRequireDefault(require("fs")); const _url = /*#__PURE__*/ _interopRequireDefault(require("url")); const _postcss = /*#__PURE__*/ _interopRequireDefault(require("postcss")); const _dlv = /*#__PURE__*/ _interopRequireDefault(require("dlv")); const _postcssSelectorParser = /*#__PURE__*/ _interopRequireDefault(require("postcss-selector-parser")); const _featureFlagsJs = require("../featureFlags.js"); const _transformThemeValue = /*#__PURE__*/ _interopRequireDefault(require("../util/transformThemeValue")); const _parseObjectStyles = /*#__PURE__*/ _interopRequireDefault(require("../util/parseObjectStyles")); const _prefixSelector = /*#__PURE__*/ _interopRequireDefault(require("../util/prefixSelector")); const _isPlainObject = /*#__PURE__*/ _interopRequireDefault(require("../util/isPlainObject")); const _escapeClassName = /*#__PURE__*/ _interopRequireDefault(require("../util/escapeClassName")); const _nameClass = /*#__PURE__*/ _interopRequireWildcard(require("../util/nameClass")); const _pluginUtils = require("../util/pluginUtils"); const _bigSign = /*#__PURE__*/ _interopRequireDefault(require("../util/bigSign")); const _corePlugins = require("../corePlugins"); const _sharedState = /*#__PURE__*/ _interopRequireWildcard(require("./sharedState")); const _toPath = require("../util/toPath"); const _log = /*#__PURE__*/ _interopRequireDefault(require("../util/log")); const _negateValue = /*#__PURE__*/ _interopRequireDefault(require("../util/negateValue")); const _isValidArbitraryValue = /*#__PURE__*/ _interopRequireDefault(require("../util/isValidArbitraryValue")); const _generateRules = require("./generateRules"); const _cacheInvalidationJs = require("./cacheInvalidation.js"); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function _getRequireWildcardCache(nodeInterop) { if (typeof WeakMap !== "function") return null; var cacheBabelInterop = new WeakMap(); var cacheNodeInterop = new WeakMap(); return (_getRequireWildcardCache = function(nodeInterop) { return nodeInterop ? cacheNodeInterop : cacheBabelInterop; })(nodeInterop); } function _interopRequireWildcard(obj, nodeInterop) { if (!nodeInterop && obj && obj.__esModule) { return obj; } if (obj === null || typeof obj !== "object" && typeof obj !== "function") { return { default: obj }; } var cache = _getRequireWildcardCache(nodeInterop); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for(var key in obj){ if (key !== "default" && Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj.default = obj; if (cache) { cache.set(obj, newObj); } return newObj; } let MATCH_VARIANT = Symbol(); function prefix(context, selector) { let prefix = context.tailwindConfig.prefix; return typeof prefix === "function" ? prefix(selector) : prefix + selector; } function parseVariantFormatString(input) { if (input.includes("{")) { if (!isBalanced(input)) throw new Error(`Your { and } are unbalanced.`); return input.split(/{(.*)}/gim).flatMap((line)=>parseVariantFormatString(line)).filter(Boolean); } return [ input.trim() ]; } function isBalanced(input) { let count = 0; for (let char of input){ if (char === "{") { count++; } else if (char === "}") { if (--count < 0) { return false // unbalanced ; } } } return count === 0; } function insertInto(list, value, { before =[] } = {}) { before = [].concat(before); if (before.length <= 0) { list.push(value); return; } let idx = list.length - 1; for (let other of before){ let iidx = list.indexOf(other); if (iidx === -1) continue; idx = Math.min(idx, iidx); } list.splice(idx, 0, value); } function parseStyles(styles) { if (!Array.isArray(styles)) { return parseStyles([ styles ]); } return styles.flatMap((style)=>{ let isNode = !Array.isArray(style) && !(0, _isPlainObject.default)(style); return isNode ? style : (0, _parseObjectStyles.default)(style); }); } function getClasses(selector, mutate) { let parser = (0, _postcssSelectorParser.default)((selectors)=>{ let allClasses = []; if (mutate) { mutate(selectors); } selectors.walkClasses((classNode)=>{ allClasses.push(classNode.value); }); return allClasses; }); return parser.transformSync(selector); } function extractCandidates(node, state = { containsNonOnDemandable: false }, depth = 0) { let classes = []; // Handle normal rules if (node.type === "rule") { // Ignore everything inside a :not(...). This allows you to write code like // `div:not(.foo)`. If `.foo` is never found in your code, then we used to // not generated it. But now we will ignore everything inside a `:not`, so // that it still gets generated. function ignoreNot(selectors) { selectors.walkPseudos((pseudo)=>{ if (pseudo.value === ":not") { pseudo.remove(); } }); } for (let selector of node.selectors){ let classCandidates = getClasses(selector, ignoreNot); // At least one of the selectors contains non-"on-demandable" candidates. if (classCandidates.length === 0) { state.containsNonOnDemandable = true; } for (let classCandidate of classCandidates){ classes.push(classCandidate); } } } else if (node.type === "atrule") { node.walkRules((rule)=>{ for (let classCandidate of rule.selectors.flatMap((selector)=>getClasses(selector))){ classes.push(classCandidate); } }); } if (depth === 0) { return [ state.containsNonOnDemandable || classes.length === 0, classes ]; } return classes; } function withIdentifiers(styles) { return parseStyles(styles).flatMap((node)=>{ let nodeMap = new Map(); let [containsNonOnDemandableSelectors, candidates] = extractCandidates(node); // If this isn't "on-demandable", assign it a universal candidate to always include it. if (containsNonOnDemandableSelectors) { candidates.unshift(_sharedState.NOT_ON_DEMAND); } // However, it could be that it also contains "on-demandable" candidates. // E.g.: `span, .foo {}`, in that case it should still be possible to use // `@apply foo` for example. return candidates.map((c)=>{ if (!nodeMap.has(node)) { nodeMap.set(node, node); } return [ c, nodeMap.get(node) ]; }); }); } function isValidVariantFormatString(format) { return format.startsWith("@") || format.includes("&"); } function parseVariant(variant) { variant = variant.replace(/\n+/g, "").replace(/\s{1,}/g, " ").trim(); let fns = parseVariantFormatString(variant).map((str)=>{ if (!str.startsWith("@")) { return ({ format })=>format(str); } let [, name, params] = /@(.*?)( .+|[({].*)/g.exec(str); return ({ wrap })=>wrap(_postcss.default.atRule({ name, params: params.trim() })); }).reverse(); return (api)=>{ for (let fn of fns){ fn(api); } }; } function buildPluginApi(tailwindConfig, context, { variantList , variantMap , offsets , classList }) { function getConfigValue(path, defaultValue) { return path ? (0, _dlv.default)(tailwindConfig, path, defaultValue) : tailwindConfig; } function applyConfiguredPrefix(selector) { return (0, _prefixSelector.default)(tailwindConfig.prefix, selector); } function prefixIdentifier(identifier, options) { if (identifier === _sharedState.NOT_ON_DEMAND) { return _sharedState.NOT_ON_DEMAND; } if (!options.respectPrefix) { return identifier; } return context.tailwindConfig.prefix + identifier; } function resolveThemeValue(path, defaultValue, opts = {}) { const [pathRoot, ...subPaths] = (0, _toPath.toPath)(path); const value = getConfigValue([ "theme", pathRoot, ...subPaths ], defaultValue); return (0, _transformThemeValue.default)(pathRoot)(value, opts); } const theme = Object.assign((path, defaultValue = undefined)=>resolveThemeValue(path, defaultValue), { withAlpha: (path, opacityValue)=>resolveThemeValue(path, undefined, { opacityValue }) }); let api = { postcss: _postcss.default, prefix: applyConfiguredPrefix, e: _escapeClassName.default, config: getConfigValue, theme, corePlugins: (path)=>{ if (Array.isArray(tailwindConfig.corePlugins)) { return tailwindConfig.corePlugins.includes(path); } return getConfigValue([ "corePlugins", path ], true); }, variants: ()=>{ // Preserved for backwards compatibility but not used in v3.0+ return []; }, addBase (base) { for (let [identifier, rule] of withIdentifiers(base)){ let prefixedIdentifier = prefixIdentifier(identifier, {}); let offset = offsets.base++; if (!context.candidateRuleMap.has(prefixedIdentifier)) { context.candidateRuleMap.set(prefixedIdentifier, []); } context.candidateRuleMap.get(prefixedIdentifier).push([ { sort: offset, layer: "base" }, rule ]); } }, /** * @param {string} group * @param {Record} declarations */ addDefaults (group, declarations) { const groups = { [`@defaults ${group}`]: declarations }; for (let [identifier, rule] of withIdentifiers(groups)){ let prefixedIdentifier = prefixIdentifier(identifier, {}); if (!context.candidateRuleMap.has(prefixedIdentifier)) { context.candidateRuleMap.set(prefixedIdentifier, []); } context.candidateRuleMap.get(prefixedIdentifier).push([ { sort: offsets.base++, layer: "defaults" }, rule ]); } }, addComponents (components, options) { let defaultOptions = { preserveSource: false, respectPrefix: true, respectImportant: false }; options = Object.assign({}, defaultOptions, Array.isArray(options) ? {} : options); for (let [identifier, rule] of withIdentifiers(components)){ let prefixedIdentifier = prefixIdentifier(identifier, options); classList.add(prefixedIdentifier); if (!context.candidateRuleMap.has(prefixedIdentifier)) { context.candidateRuleMap.set(prefixedIdentifier, []); } context.candidateRuleMap.get(prefixedIdentifier).push([ { sort: offsets.components++, layer: "components", options }, rule ]); } }, addUtilities (utilities, options) { let defaultOptions = { preserveSource: false, respectPrefix: true, respectImportant: true }; options = Object.assign({}, defaultOptions, Array.isArray(options) ? {} : options); for (let [identifier, rule] of withIdentifiers(utilities)){ let prefixedIdentifier = prefixIdentifier(identifier, options); classList.add(prefixedIdentifier); if (!context.candidateRuleMap.has(prefixedIdentifier)) { context.candidateRuleMap.set(prefixedIdentifier, []); } context.candidateRuleMap.get(prefixedIdentifier).push([ { sort: offsets.utilities++, layer: "utilities", options }, rule ]); } }, matchUtilities: function(utilities, options) { let defaultOptions = { respectPrefix: true, respectImportant: true }; options = { ...defaultOptions, ...options }; let offset = offsets.utilities++; for(let identifier in utilities){ let prefixedIdentifier = prefixIdentifier(identifier, options); let rule = utilities[identifier]; classList.add([ prefixedIdentifier, options ]); function wrapped(modifier, { isOnlyPlugin }) { let { type ="any" } = options; type = [].concat(type); let [value, coercedType] = (0, _pluginUtils.coerceValue)(type, modifier, options, tailwindConfig); if (value === undefined) { return []; } if (!type.includes(coercedType) && !isOnlyPlugin) { return []; } if (!(0, _isValidArbitraryValue.default)(value)) { return []; } let ruleSets = [].concat(rule(value)).filter(Boolean).map((declaration)=>({ [(0, _nameClass.default)(identifier, modifier)]: declaration })); return ruleSets; } let withOffsets = [ { sort: offset, layer: "utilities", options }, wrapped ]; if (!context.candidateRuleMap.has(prefixedIdentifier)) { context.candidateRuleMap.set(prefixedIdentifier, []); } context.candidateRuleMap.get(prefixedIdentifier).push(withOffsets); } }, matchComponents: function(components, options) { let defaultOptions = { respectPrefix: true, respectImportant: false }; options = { ...defaultOptions, ...options }; let offset = offsets.components++; for(let identifier in components){ let prefixedIdentifier = prefixIdentifier(identifier, options); let rule = components[identifier]; classList.add([ prefixedIdentifier, options ]); function wrapped(modifier, { isOnlyPlugin }) { let { type ="any" } = options; type = [].concat(type); let [value, coercedType] = (0, _pluginUtils.coerceValue)(type, modifier, options, tailwindConfig); if (value === undefined) { return []; } if (!type.includes(coercedType)) { if (isOnlyPlugin) { _log.default.warn([ `Unnecessary typehint \`${coercedType}\` in \`${identifier}-${modifier}\`.`, `You can safely update it to \`${identifier}-${modifier.replace(coercedType + ":", "")}\`.`, ]); } else { return []; } } if (!(0, _isValidArbitraryValue.default)(value)) { return []; } let ruleSets = [].concat(rule(value)).filter(Boolean).map((declaration)=>({ [(0, _nameClass.default)(identifier, modifier)]: declaration })); return ruleSets; } let withOffsets = [ { sort: offset, layer: "components", options }, wrapped ]; if (!context.candidateRuleMap.has(prefixedIdentifier)) { context.candidateRuleMap.set(prefixedIdentifier, []); } context.candidateRuleMap.get(prefixedIdentifier).push(withOffsets); } }, addVariant (variantName, variantFunctions, options = {}) { variantFunctions = [].concat(variantFunctions).map((variantFunction)=>{ if (typeof variantFunction !== "string") { // Safelist public API functions return (api)=>{ let { args , modifySelectors , container , separator , wrap , format } = api; let result = variantFunction(Object.assign({ modifySelectors, container, separator }, variantFunction[MATCH_VARIANT] && { args, wrap, format })); if (typeof result === "string" && !isValidVariantFormatString(result)) { throw new Error(`Your custom variant \`${variantName}\` has an invalid format string. Make sure it's an at-rule or contains a \`&\` placeholder.`); } if (Array.isArray(result)) { return result.filter((variant)=>typeof variant === "string").map((variant)=>parseVariant(variant)); } // result may be undefined with legacy variants that use APIs like `modifySelectors` // result may also be a postcss node if someone was returning the result from `modifySelectors` return result && typeof result === "string" && parseVariant(result)(api); }; } if (!isValidVariantFormatString(variantFunction)) { throw new Error(`Your custom variant \`${variantName}\` has an invalid format string. Make sure it's an at-rule or contains a \`&\` placeholder.`); } return parseVariant(variantFunction); }); insertInto(variantList, variantName, options); variantMap.set(variantName, variantFunctions); } }; if ((0, _featureFlagsJs.flagEnabled)(tailwindConfig, "matchVariant")) { api.matchVariant = function(variants, options) { for(let variant in variants){ var ref; for (let [k, v] of Object.entries((ref = options === null || options === void 0 ? void 0 : options.values) !== null && ref !== void 0 ? ref : {})){ api.addVariant(`${variant}-${k}`, variants[variant](v)); } api.addVariant(variant, Object.assign(({ args })=>variants[variant](args), { [MATCH_VARIANT]: true }), options); } }; } return api; } let fileModifiedMapCache = new WeakMap(); function getFileModifiedMap(context) { if (!fileModifiedMapCache.has(context)) { fileModifiedMapCache.set(context, new Map()); } return fileModifiedMapCache.get(context); } function trackModified(files, fileModifiedMap) { let changed = false; for (let file of files){ var ref; if (!file) continue; let parsed = _url.default.parse(file); let pathname = parsed.hash ? parsed.href.replace(parsed.hash, "") : parsed.href; pathname = parsed.search ? pathname.replace(parsed.search, "") : pathname; let newModified = (ref = _fs.default.statSync(decodeURIComponent(pathname), { throwIfNoEntry: false })) === null || ref === void 0 ? void 0 : ref.mtimeMs; if (!newModified) { continue; } if (!fileModifiedMap.has(file) || newModified > fileModifiedMap.get(file)) { changed = true; } fileModifiedMap.set(file, newModified); } return changed; } function extractVariantAtRules(node) { node.walkAtRules((atRule)=>{ if ([ "responsive", "variants" ].includes(atRule.name)) { extractVariantAtRules(atRule); atRule.before(atRule.nodes); atRule.remove(); } }); } function collectLayerPlugins(root) { let layerPlugins = []; root.each((node)=>{ if (node.type === "atrule" && [ "responsive", "variants" ].includes(node.name)) { node.name = "layer"; node.params = "utilities"; } }); // Walk @layer rules and treat them like plugins root.walkAtRules("layer", (layerRule)=>{ extractVariantAtRules(layerRule); if (layerRule.params === "base") { for (let node of layerRule.nodes){ layerPlugins.push(function({ addBase }) { addBase(node, { respectPrefix: false }); }); } layerRule.remove(); } else if (layerRule.params === "components") { for (let node1 of layerRule.nodes){ layerPlugins.push(function({ addComponents }) { addComponents(node1, { respectPrefix: false, preserveSource: true }); }); } layerRule.remove(); } else if (layerRule.params === "utilities") { for (let node2 of layerRule.nodes){ layerPlugins.push(function({ addUtilities }) { addUtilities(node2, { respectPrefix: false, preserveSource: true }); }); } layerRule.remove(); } }); return layerPlugins; } function resolvePlugins(context, root) { let corePluginList = Object.entries({ ..._corePlugins.variantPlugins, ..._corePlugins.corePlugins }).map(([name, plugin])=>{ if (!context.tailwindConfig.corePlugins.includes(name)) { return null; } return plugin; }).filter(Boolean); let userPlugins = context.tailwindConfig.plugins.map((plugin)=>{ if (plugin.__isOptionsFunction) { plugin = plugin(); } return typeof plugin === "function" ? plugin : plugin.handler; }); let layerPlugins = collectLayerPlugins(root); // TODO: This is a workaround for backwards compatibility, since custom variants // were historically sorted before screen/stackable variants. let beforeVariants = [ _corePlugins.variantPlugins["pseudoElementVariants"], _corePlugins.variantPlugins["pseudoClassVariants"], ]; let afterVariants = [ _corePlugins.variantPlugins["directionVariants"], _corePlugins.variantPlugins["reducedMotionVariants"], _corePlugins.variantPlugins["prefersContrastVariants"], _corePlugins.variantPlugins["darkVariants"], _corePlugins.variantPlugins["printVariant"], _corePlugins.variantPlugins["screenVariants"], _corePlugins.variantPlugins["orientationVariants"], ]; return [ ...corePluginList, ...beforeVariants, ...userPlugins, ...afterVariants, ...layerPlugins ]; } function registerPlugins(plugins, context) { let variantList = []; let variantMap = new Map(); let offsets = { defaults: 0n, base: 0n, components: 0n, utilities: 0n, user: 0n }; let classList = new Set(); let pluginApi = buildPluginApi(context.tailwindConfig, context, { variantList, variantMap, offsets, classList }); for (let plugin of plugins){ if (Array.isArray(plugin)) { for (let pluginItem of plugin){ pluginItem(pluginApi); } } else { plugin === null || plugin === void 0 ? void 0 : plugin(pluginApi); } } let highestOffset = ((args)=>args.reduce((m, e)=>e > m ? e : m))([ offsets.base, offsets.defaults, offsets.components, offsets.utilities, offsets.user, ]); let reservedBits = BigInt(highestOffset.toString(2).length); // A number one less than the top range of the highest offset area // so arbitrary properties are always sorted at the end. context.arbitraryPropertiesSort = (1n << reservedBits << 0n) - 1n; context.layerOrder = { defaults: 1n << reservedBits << 0n, base: 1n << reservedBits << 1n, components: 1n << reservedBits << 2n, utilities: 1n << reservedBits << 3n, user: 1n << reservedBits << 4n }; reservedBits += 5n; let offset = 0; context.variantOrder = new Map(variantList.map((variant, i)=>{ let variantFunctions = variantMap.get(variant).length; let bits = 1n << BigInt(i + offset) << reservedBits; offset += variantFunctions - 1; return [ variant, bits ]; }).sort(([, a], [, z])=>(0, _bigSign.default)(a - z))); context.minimumScreen = [ ...context.variantOrder.values() ].shift(); // Build variantMap for (let [variantName, variantFunctions] of variantMap.entries()){ let sort = context.variantOrder.get(variantName); context.variantMap.set(variantName, variantFunctions.map((variantFunction, idx)=>[ sort << BigInt(idx), variantFunction ])); } var _safelist; let safelist = ((_safelist = context.tailwindConfig.safelist) !== null && _safelist !== void 0 ? _safelist : []).filter(Boolean); if (safelist.length > 0) { let checks = []; for (let value of safelist){ if (typeof value === "string") { context.changedContent.push({ content: value, extension: "html" }); continue; } if (value instanceof RegExp) { _log.default.warn("root-regex", [ "Regular expressions in `safelist` work differently in Tailwind CSS v3.0.", "Update your `safelist` configuration to eliminate this warning.", "https://tailwindcss.com/docs/content-configuration#safelisting-classes", ]); continue; } checks.push(value); } if (checks.length > 0) { let patternMatchingCount = new Map(); let prefixLength = context.tailwindConfig.prefix.length; for (let util of classList){ let utils = Array.isArray(util) ? (()=>{ let [utilName, options] = util; var ref; let values = Object.keys((ref = options === null || options === void 0 ? void 0 : options.values) !== null && ref !== void 0 ? ref : {}); let classes = values.map((value)=>(0, _nameClass.formatClass)(utilName, value)); if (options === null || options === void 0 ? void 0 : options.supportsNegativeValues) { // This is the normal negated version // e.g. `-inset-1` or `-tw-inset-1` classes = [ ...classes, ...classes.map((cls)=>"-" + cls) ]; // This is the negated version *after* the prefix // e.g. `tw--inset-1` // The prefix is already attached to util name // So we add the negative after the prefix classes = [ ...classes, ...classes.map((cls)=>cls.slice(0, prefixLength) + "-" + cls.slice(prefixLength)), ]; } if ([].concat(options === null || options === void 0 ? void 0 : options.type).includes("color")) { classes = [ ...classes, ...classes.flatMap((cls)=>Object.keys(context.tailwindConfig.theme.opacity).map((opacity)=>`${cls}/${opacity}`)), ]; } return classes; })() : [ util ]; for (let util1 of utils){ for (let { pattern , variants =[] } of checks){ // RegExp with the /g flag are stateful, so let's reset the last // index pointer to reset the state. pattern.lastIndex = 0; if (!patternMatchingCount.has(pattern)) { patternMatchingCount.set(pattern, 0); } if (!pattern.test(util1)) continue; patternMatchingCount.set(pattern, patternMatchingCount.get(pattern) + 1); context.changedContent.push({ content: util1, extension: "html" }); for (let variant of variants){ context.changedContent.push({ content: variant + context.tailwindConfig.separator + util1, extension: "html" }); } } } } for (let [regex, count] of patternMatchingCount.entries()){ if (count !== 0) continue; _log.default.warn([ `The safelist pattern \`${regex}\` doesn't match any Tailwind CSS classes.`, "Fix this pattern or remove it from your `safelist` configuration.", "https://tailwindcss.com/docs/content-configuration#safelisting-classes", ]); } } } // A list of utilities that are used by certain Tailwind CSS utilities but // that don't exist on their own. This will result in them "not existing" and // sorting could be weird since you still require them in order to make the // host utitlies work properly. (Thanks Biology) let parasiteUtilities = new Set([ prefix(context, "group"), prefix(context, "peer") ]); context.getClassOrder = function getClassOrder(classes) { let sortedClassNames = new Map(); for (let [sort, rule] of (0, _generateRules.generateRules)(new Set(classes), context)){ if (sortedClassNames.has(rule.raws.tailwind.candidate)) continue; sortedClassNames.set(rule.raws.tailwind.candidate, sort); } return classes.map((className)=>{ var ref; let order = (ref = sortedClassNames.get(className)) !== null && ref !== void 0 ? ref : null; if (order === null && parasiteUtilities.has(className)) { // This will make sure that it is at the very beginning of the // `components` layer which technically means 'before any // components'. order = context.layerOrder.components; } return [ className, order ]; }); }; // Generate a list of strings for autocompletion purposes, e.g. // ['uppercase', 'lowercase', ...] context.getClassList = function getClassList() { let output = []; for (let util of classList){ if (Array.isArray(util)) { let [utilName, options] = util; let negativeClasses = []; var ref; for (let [key, value] of Object.entries((ref = options === null || options === void 0 ? void 0 : options.values) !== null && ref !== void 0 ? ref : {})){ output.push((0, _nameClass.formatClass)(utilName, key)); if ((options === null || options === void 0 ? void 0 : options.supportsNegativeValues) && (0, _negateValue.default)(value)) { negativeClasses.push((0, _nameClass.formatClass)(utilName, `-${key}`)); } } output.push(...negativeClasses); } else { output.push(util); } } return output; }; } function createContext(tailwindConfig, changedContent = [], root = _postcss.default.root()) { let context = { disposables: [], ruleCache: new Set(), classCache: new Map(), applyClassCache: new Map(), notClassCache: new Set(), postCssNodeCache: new Map(), candidateRuleMap: new Map(), tailwindConfig, changedContent: changedContent, variantMap: new Map(), stylesheetCache: null }; let resolvedPlugins = resolvePlugins(context, root); registerPlugins(resolvedPlugins, context); return context; } let contextMap = _sharedState.contextMap; let configContextMap = _sharedState.configContextMap; let contextSourcesMap = _sharedState.contextSourcesMap; function getContext(root, result, tailwindConfig, userConfigPath, tailwindConfigHash, contextDependencies) { let sourcePath = result.opts.from; let isConfigFile = userConfigPath !== null; _sharedState.env.DEBUG && console.log("Source path:", sourcePath); let existingContext; if (isConfigFile && contextMap.has(sourcePath)) { existingContext = contextMap.get(sourcePath); } else if (configContextMap.has(tailwindConfigHash)) { let context = configContextMap.get(tailwindConfigHash); contextSourcesMap.get(context).add(sourcePath); contextMap.set(sourcePath, context); existingContext = context; } let cssDidChange = (0, _cacheInvalidationJs.hasContentChanged)(sourcePath, root); // If there's already a context in the cache and we don't need to // reset the context, return the cached context. if (existingContext) { let contextDependenciesChanged = trackModified([ ...contextDependencies ], getFileModifiedMap(existingContext)); if (!contextDependenciesChanged && !cssDidChange) { return [ existingContext, false ]; } } // If this source is in the context map, get the old context. // Remove this source from the context sources for the old context, // and clean up that context if no one else is using it. This can be // called by many processes in rapid succession, so we check for presence // first because the first process to run this code will wipe it out first. if (contextMap.has(sourcePath)) { let oldContext = contextMap.get(sourcePath); if (contextSourcesMap.has(oldContext)) { contextSourcesMap.get(oldContext).delete(sourcePath); if (contextSourcesMap.get(oldContext).size === 0) { contextSourcesMap.delete(oldContext); for (let [tailwindConfigHash1, context1] of configContextMap){ if (context1 === oldContext) { configContextMap.delete(tailwindConfigHash1); } } for (let disposable of oldContext.disposables.splice(0)){ disposable(oldContext); } } } } _sharedState.env.DEBUG && console.log("Setting up new context..."); let context2 = createContext(tailwindConfig, [], root); trackModified([ ...contextDependencies ], getFileModifiedMap(context2)); // --- // Update all context tracking state configContextMap.set(tailwindConfigHash, context2); contextMap.set(sourcePath, context2); if (!contextSourcesMap.has(context2)) { contextSourcesMap.set(context2, new Set()); } contextSourcesMap.get(context2).add(sourcePath); return [ context2, true ]; }